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PM3082
-
PM3084 100 MHz
PM3092
-
PM3094 200 MHz
ANALOG OSCILLOSCOPES
Service Manual
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PROBE ADJUST
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F L U K
PM3082 - PM3084 100 MHz
PM3092 - PM3094 200 MHz
Analog Oscilloscopes
Service Manual
4822 872 05373
10 April ’97
Warning: Theseservicing instructions are for use by qualified personnel only. To reduce the rise of electric shock donot perform any servicing other than that contained in the operating instructions unless you are fully qualified to do so.
DECLARATION OF CONFORMITY for
FLUKE
Analog Oscilloscopes
PM3082, PM3084, PM3092, PM3094
Manufacturer
Fluke Industrial B.V.
Lelyweg 1
7602 EA Almelo
The Netherlands
Statement of Conformity
Based on test results using appropriate standards, the product is in conformity with
Electromagnetic Compatibility Directive 89/336/EEC
Low Voltage Directive 73/23/EEC
Sample tests
Standards used:
I EC 348 (1978)
Safety Requirements for Electronic Measuring Apparatus
EN 50081-1 (1992)
Electromagnetic Compatibility. Generic Emission Standard:
EN55022 and EN60555-2
EN 50082-1 (1992)
Electromagnetic Compatibility. Generic Immunity Standard:
IEC801 -2, -3, -4, -5
The tests have been performed in a typical configuration.
This Conformity is indicated by the symbol , i.e. "Conformity europ6enne".
9
CONTENTS
“Z*f
TABLE OF CONTENTS
If'1 V* V • f • ..1 -
1 SAFETY INSTRUCTIONS..................................................
Page
t V ' T • " ' , r '
2.1.2 Deflection modes........................................................................................................... 2-2
2.1.3 Bandwidth..................................................................................................................... 2-2
2.1.4 Attenuator..................................................................................................................... 2-2
2.1.6 Coupling......................................................................................................................... 2-3
2.1.7 Dynamic range............................................................................................................... 2-3
2.1.8 Position range............................................................................................................... 2-3
2.1.9 Trace separation........................................................................................................... 2-3
2.1.10 Input voltage limits......................................................................................................... 2-4
2.2 TIMEBASE................................................................................................................................... 2-6
2.2.1 Timebase modes........................................................................................................... 2-6
2.2.2 Timebase settings......................................................................................................... 2-6
2.2.5 External horizontal deflection......................................................................................... 2-7
2.3 TRIGGERING............................................................................................................................. 2-8
2.3.1 Source........................................................................................................................... 2-8
2.3.2 M odes........................................................................................................................... 2-8
2.3.3 TV system s................................................................................................................... 2-8
2.3.4 Coupling......................................................................................................................... 2-8
2.3.5 Sensitivity....................................................................................................................... 2-9
2.3.7 L e v e l........................................................................................................................... 2-10
2.3.8 Hold O ff......................................................................................................................2-10
.■*»*• it < .
2 > - CURSORS................ : ............/:'V . . ’. ...................................... v ......................... ., ..........2-10
2.4.1 Cursor Control...............................................................v - ...........................■..........2-10
2.5 FRONT PANEL MEMORY...........................................................................................................2-11
IV
CONTENTS
2.6 BLANKING OR Z-AXIS. . . . . . ...... ................................... ........................... ........................2-1V
2.7 DISPLAY......................................................................................................................................2-11
2.8 EXTERNAL INTERFACES.................................................................„
2.8.1 Calibrator....................................................................................
.... . . . - .......... 2-12
2.8.2 Standard external interfaces........................................................ .2-12
2.9.1 AUTO SET. ;T ............... 2-14
2.9.2 Calibration.............................................................................. . . . . . . . . . . 2 - 1 4
2.10 POWER SUPPLY & BATTERY BACKUP..................................................
2.10.1 Power supply........................ 2-14
2.10.2 Battery backup.................................................... 2-15
2.12 ENVIRONMETAL..................................................................... ................................................ 2-15 >
2.12.1 G eneral.......................................................................................................... . . . . . . 2-15
2.13 E M I................................................................................... 2-17
2.13.1 General aspects and Susceptibility.............. 2-17
2.13.2 VDE requirements..........................................V -,.....-........... , ....................; . . . . . 2-19
2.13.3 Additional EMI requirements................... ,=...................... 2-19
2.14 SAFETY................................................................,. . ........ .. ................... • • • 2-20
. . . I. ", -5
2.15 ACCESSORIES........................................................................................................... .. . . . . - 2-20
2.16 OPTIONS & OPTIONAL VERSIONS.................. .1 ................................................ " ■ • • 2-20
2.16.1 Line C ord................................................................................................... •-/ ■ • • • - 2-20
2.16.2 Options versions.............................................. 2-20
2.16.3 Optional outputs......................................................
2.16.4 Optional external MTB trigger input..............................................
♦ . «1
2-21
2-21
'v
3 DESCRIPTIONS............................................................... ........ .................. . . . . 3-3
3.1 General description.......................................................................................................♦..7. . . . . 3-3
3.1.1 Introduction to oscilloscope family............................................ 3-3
3.1.4 Voltage values in the circuit diagrams............................. .. ..............• • • • 3-4
3.2 BLOCK DIAGRAM DESCRIPTION................................................... . . .'.......... 7.-. - . . . . 3-5
3.2.2 Vertical channels.................................................................. ........................ . . . . 3-6
3.2.4 Final amplifiers.......................................................................... 3-8
CONTENTS
V
4 PARTS...................................................................................... 4-1
4.3 MECHANICAL PARTS...................................................•’ .' /. V'. ............................................... 4-3
5 UNIT DESCRIPTIONS.............................................................. 5.1-1
V
5.1.1 Description A 1 .......................................................... 5.1-1
5.1.2 Signal name lis t.................................................... ; . . . . , .................................... 5.1-14
5.1.3 Unit lay-outs.............................................................. 5.1-21
5.1.4 Location list Signal Unit A 1 ............................................................ 5.1-23
5.1.5 Circuit diagrams..................................................................................................... 5.1-33
5.1.6 Parts list.................................................................................................................. 5.1-55
5.2.2 Signal name list A2-200 MHz version...................................... 5.2-5
5.2.4 Location list A2-200 MHz ve rsio n .................................. 5.2-9
'
5.2.5 Circuit diagrams A2-200 MHz version.................... 5.2-13
5.2.6 Parts list A2-200 MHz version............................................................................... 5.2-19
5.2.7 Description of A2-100 MHz version............................. 5.2-35
5.2.8 Signal name list A2-100 MHz version................................................................... 5.2-39
5.2.9 Unit lay-outs A2-100 MHz version.......................................................................... 5.2-41
5.2.10 Location List A2-100 MHz version......................................................................... 5.2-43
5.2.11 Circuit diagrams A2-100 MHz version.................................................................... 5.2-47
5.2.12 Parts list A2-100 MHz version............................... 5.2-53
5.3 MICROPROCESSOR A3 . . . ...........................................................
^ ; 5.3.3 Unit lay-outs.............................................................. ’. ............................................ 5.3-5
5.3.6 Parts list................................................................................................................. 5.3-15
5.4 FRONT UNIT A 4 .............. .................................................................................. .............. ‘ 5.4-1
5.4.3 Key switches.......................................................................... 5.4-2
5.4.4 Unit lay-outs.............................................................f : . : . . : ...................... 5.4-5
5.5.2 Unit Lay-outs.......................................................... . '. . '................................ . - . . . . 5.5-2
5.5.3 Circiuit diagram ............................................................ 5.5-3
5.5.4 Parts list.................................................................. 5.5-4
VI CONTENTS
5.6.1 Description A 6 . 7 . ................................................... 5.6-1
5.6.3 Unit lay-outs.............................................................. 5.6-5
5.6.5 Circuit diagrams.................................................. 5.6-9
5.6.6 Parts list.......... ................................................................................ ..............' . . . . 5.6-13
5.7 RESERVED FOR FUTURE EXTENSIONS...................................................................... 1 . . 5.7-1
5.8 RESERVED FOR FUTURE EXTENSIONS............................................................. .......... 5.8-1
5.9 RESERVED FOR FUTURE EXTENSIONS........................................................................... 5.9-1
5.10 CONNECTOR BOARD A 1 0 ........................................................................................ 5.10-1
5.10.1 Unit lay-out............................................................................................................. 5.10-1
5.10.2 Circuit D iagram s................................................................................................ 5.10-2
5.10.3 Parts list................................................................................................................. 5.10-4
J 5
5.11 FACTORY INSTALLED OPTIONS........................................................................................ 5.11-1
5.11.1 IEEE-OPTION.......................................................................................... 5.11-1
5.11.2 AUXILIARY OUTPUTS AND EXTERNAL TRIGGER OPTION.............................. 5.11-1
6.2 RECOMMENDED TEST EQUIPMENT..........................................................................77. . . . . 6-2
'
6.3 TEST PROCEDURE............................................................................................... \ . 7 . ? .........6-3
6.3.2 Power supply.................................................................................................... . - . . 7 . 6 - 3
6.3.8 Vertical deflection; input coupling (continuation of 6.3.7)...................................... f .7 6-8
6.3.13 Vertical deflection; dynamic range at 100/200 MHz (continuation of 6.3.12).............. 6-11
6.3.19 Vertical deflection; visual signal delay.................... .............................. .V 7 . . . . 6-15
6.3.20 Vertical deflection; base line instability...........................................................: . . . . 6-16
6.3.21 Delay difference between vertical channels...............................................:___ . . . . 6-16
6.3.23 Horizontal deflection; X deflection.................................................................... 1 . . . 6-19
6.3.24 Horizontal deflection; main time-base deflection coefficients........................ .. 6-20
6.3.25 Horizontal deflection; VARiable mode accuracy MTB..................... .............. . . . . 6-2t
6.3.26 Time cursor accuracy (continuation of 6.3.25)................ .......... 'f-v........... , , . . 6-22
CONTENTS
VII
6.3.34 MTB triggering PM3092/3094; trigger sensitivity via CH1, CH2, CH3 and C H 4 ------6-28
6.3.35 MTB triggering PM3082/3084; trigger sensitivity via CH1, CH2, CH3 and C H 4 ------6-29
6.3.37 DTB triggering PM3092/3094; trigger sensitivity via CH1, CH2, CH3 and CH4 . . . . 6-31
6.3.38 DTB triggering PM3082/3084; trigger sensitivity via CH1, CH2, CH3 and CH4 . . . . 6-32
6.3.39 Z-MOD sensitivity.............................................T- ■
7 CALIBRATION ADJUSTMENT PROCEDURE............ ............................................. 7-1
7.1 INTRODUCTION........................................................................ 7-1
. 6
8 CORRECTIVE MAINTENANCE PROCEDURES...................................................... 8-1
i
VIII CONTENTS
9 SAFETY INSPECTION AND TESTS AFTER REPAIR AND
MAINTENANCE IN THE PRIMARY CIRCUIT............................................................ 9-1
SAFETY INSTRUCTIONS 1 - 1
1 SAFETY INSTRUCTIONS
Read these pages carefully before installation and use of the instrument.
1.1 INTRODUCTION
The following paragraphs contain information, cautions and warnings which must be followed to ensure safe operation and to keep the instrument in a safe condition.
WARNING: Servicing described in this manual is to be done only by qualified service personnel. To avoid electric shock, do not service the instrument unless you are qualified to do so.
1.2 SAFETY PRECAUTIONS
For the correct and safe use of this instrument it is essential that both operating and servicing personnel follow generally accepted safety procedures in addition to the safety precautions specified in this manual.
Specific warning and caution statements, where they apply, will be found throughout the manual.
Where necessary, the warning and caution statements and/or symbols are marked on the apparatus.
1.3 CAUTION AND WARNING STATEMENTS
CAUTION: Is used to indicate correct operating or maintentance procedures in order to prevent damage to or destruction of the equipment or other property.
WARNING: Calls attention to a potential danger that requires correct procedures or practices in order to prevent personal injury.
1.4 SYMBOLS
Live part (black/yellow)
High voltage terminal > 1000 V (red)
Attention refer to the manual:
This symbol is to indicate that information about usage of a feature is contained in the manual.
Protective ground terminal (black)
Static sensitive components (black/yellow)
1 -2 SAFETY INSTRUCTIONS
1.5 IMPAIRED SAFETY-PROTECTION
Whenever it is likely that safety has been impaired, the instrument must be turned off and disconnected from line power. The matter should then be referred to qualified technicians. Safety protection is likely to be impaired if, for example, the instrument fails to perform the intended measurements or shows visible damage.
1.6 GENERAL SATETY INFORMATION
WARNING: Removing the instrument cover or removing parts, except those to which access can be gained by hand, is likely to expose live parts and accessible terminals which can be dangerous to live.
The instrument shall be disconnected from all voltage sources before it is opened.
Capacitors inside the instrument can hold their charge even if the instrument has been separated from all voltage sources.
WARNING: Any interruption of the protective ground conductor inside or outside the instrument, or disconnection of the protective ground terminal, is likely to make the instrument dangerous. Intentional interruption is prohibited.
Components which are important for the safety of the instrument may only be replaced by components obtained through your local FLUKE organisation. (See also section 9).
After repair and maintenance in the primary circuit, safety inspection and tests, as mentioned in section 9 have to be performed.
CHARACTERISTICS 2 -1
2 CHARACTERISTICS
A. Performance Characteristics
Properties expressed in numerical values with tolerances, ranges or limits stated, are guaranteed by the manufacturer.
Properties expressed in numerical values without tolerances, ranges or limits stated, represent the characteristics of an average instrument.
This specification is valid if the temperature has not changed more than + or -5 °C since the last
AUTO CAL and the probe is of the same 10:1 model as delivered with the instrument.
For definitions of terms, reference is made to IEC Publication 351 -1, 359.
B. Safety Characteristics
This instrument has been designed and tested in accordance with IEC Publication 348, Safety requirements for Electronic Measuring Apparatus and has been supplied in a safe condition. This manual contains information and warnings which must be followed by the user to ensure safe operation and to keep the instrument in safe condition. The instrument has been designed for indoor use. It may occasionally be subjected to temperatures between + 5 °C and 10 °C without degradation of its safety.
C. Initial Characteristics
Overall dimensions:
Height (without feet)
Width (without handle)
Length (without handle and front cover)
: 139 mm
: 341 mm
: 481 mm
5.5"
13.5"
19"
Figure 2.1 Dimensions
Mass :8.5 kg
Operating positions: a) Horizontally on bottom feet b) Vertically on rear feet c) On the carrying handle in three sloping positions
17.61b.
2 - 2
2.1 VERTICAL
2.1.1 Channels
CHARACTERISTICS
CHANNELS
SPECIFICATION
CH1; CH2;
CH3; CH4
Deflection modes
MODES
Chopped mode:
Chop. freq.
Bandwidth
FREQUENCY RESPONSE
Lower transition point of BW input coupling in AC pos.
Upper transition point of BW
PM3094
PM3092
(Ambient 5...40 °C)
(Ambient 0...50 °C)
PM3082/84
(Ambient 5...40 °C)
(Ambient 0...50 °C)
BANDWIDTH LIMITER
Upper transition point of BW
Attenuator
CH1 and CH2
(PM3092/PM3082)
Steps
CH3 and CH4
(PM3092/PM3082)
Steps
CH1 to CH4
(PM3094/PM3084)
Steps
Variable gain mode
CH1, CH2, CH3, CH4
CH1 +CH2
CH3 + CH4
Alternate/Chopped
1 MHz
<10 Hz
CH1 ... CH4
CH1, CH2
CH3, CH4
>200 MHz
>175 MHz
CH1 ... CH4
>100 MHz
>90 MHz
20 MHz
2 mV/div ... 5 V/div
O.IV/div, 0.5V/div
2m V/div...5V/div
2mV/div...12.5V/div
At BNC
CHARACTERISTICS
ADDITIONAL INFORMATION
Form a channelset
Form a channelset
CH2 and CH4 can be inverted to allow -CH2 or -CH4
CH2 can be inverted to allow
CH1 - CH2
CH4 can be inverted to allow
C H 3- CH4 in 50Q position in 500 position at probe tip with ext. 50Q
In a 1-2-5 sequence in a 1 -2-5- sequence
Continuously variable
CHARACTERISTICS 2 - 3
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
Input characteristics
INPUT CONNECTOR
INPUT IMPEDANCE
(in 1 MQ pos.)
R parallel:
- value
- tolerance
C parallel:
- value
- tolerance
INPUT IMPEDANCE
(in 50 £2 pos.)
R parallel:
- value
- tolerance
VSWR (typical)
BNC
1 MQ
±1 %
25 pF
±2 pF
50 Q
±1 %
1.5: 1
See note 1
Measured at freq.
<1 MHz
PM3092 only CH1 and CH2.
PM3094 all channels
See note 2
Note 1: BNC with Probe Read Out Pin which causes the instrument to change V/div indication, input impedance and attenuator setting according to probe (when fitted with a probe indicator).
Note 2: Measured up to 200 MHz input frequency; in d.c. and a.c. coupling of input.
Coupling
COUPLING d.c.; a.c.; ground See note 1
Note 1: In GND position: channel disconnected from input, and connected to ground, BNC open
(when not in 50Q. position). The GND coupling is not available for CH3 and CH4 in
PM3092 and PM3082.
Dynamic range
DYNAMIC RANGE
Up to 25 MHz
(PM3082/84)
Up to 50 MHz
(PM3092/94)
Up to 100 MHz
(PM3082/84)
Up to 200 MHz
(PM3092/94)
±12 div
±12 div
±4 div
±4 div
Symmetrical
Symmetrical
Symmetrical
Symmetrical
Position range
POSITION RANGE
2.1.9
Trace separation
TRACE SEPARATION
Min. range
±£8 div
>± 4 div
Symmetrical
MTB and DTB
MTB fixed, DTB shifts
2 - 4
CHARACTERISTICS
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
2.1.10 Input voltage limits
INPUT VOLTAGE LIMITS
A In high Z position
/ f \ (d.c. + a.c. peak) l * » In 50 Q position d.c.
a.c. r.m.s.
a.c. peak
±400 V
±5 V
5 V
±50 V
See note 1
See note 2
Note 1: Apparatus should be property grounded through the protective ground conductor of the power cord.
Note 2: Up to 10 kHz; > 10 kHz see figure 2.2
See note 3
See note 3
Note 3: Maximum of 50 mJ during any 100 ms interval.
MAX. INPUT
VOLTAGE (Vpk)
1k 10k 100k 1M 10M 100M
FREQUENCY (Hz)
Figure 2.2 Max input voltage versus frequency
2.1.11 Step response
STEP RESPONSE Is calculated from the formula: Risetime = 0.35 / Bandwidth and is measured over central 5 divisions (vertical)
CHARACTERISTICS
2 - 5
CHARACTERISTICS
2.1.12 Signal delay
VISUAL SIGNAL DELAY
SPECIFICATION ADDITIONAL INFORMATION
>15 ns
>13 ns
PM3092, PM3094
PM3082, PM3084
DELAY BETWEEN
CHANNELS
CH1 and CH2
CH3 and CH4
CH1...CH4
Any two channels
<250 ps
<250 ps
<250 ps
<500 ps
4 channel instruments
2+2 channel instruments
2.1.13 Vertical accuracies
ACCURACY deflection factor
Gain error (d.c.)
Non linearity
MAX. BASELINE
INSTABILITY
Jump (all between steps,
VAR and N/l)
Drift
Temperature coefficient
±1.3 %
<2 %
0.2 div or 1 mV
0.1 div/h
0.03div/K
Over central 6 div.
See note 1
See note 2
Whichever is greater
(after autocal)
CHANNEL ISOLATION
Of deselected channels at 10 MHz
Of deselected channels at upper transition point
Between selected channel
CMRR at 1 MHz at 50 MHz
100:1
50 :1
50 :1
100:1
25:1
See note 3
See note 4
See note 5
See note 6
Note 1: add 1.5 % for variable gain mode
Note 2: 2 div centerscreen signal with a frequency of 50 kHz, shifted within central 6 div.
Note 3: At 10 MHz; input to deselected channel equivalent to 8 div. or less.
Note 4: PM3092/3094 a t200 MHz; PM3082/3084 at 100 MHz; channels with equal V/div setting; input to deselected channels equivalent to 6 div.
Note 5: PM3092/3094 at 200 MHz; PM3082/3084 at 100 MHz; channels with equal V/div.
settings; input to either channel 6 div. PM3092/94: max input amplitude 3 Vpp
Note 6: Between any two input channels at same attenuator setting; VAR of V/div setting adjusted for best CMRR; measured with max. 8 div input at each channel (center screen).
2 - 6
CHARACTERISTICS
CHARACTERISTICS
2.2
TIMEBASE
SPECIFICATION ADDITIONAL INFORMATION
2.2.1
Timebase modes
TIMEBASE MODES
MTB trigger modes
MTB only
MTB and DTB
DTB only
AUTO
TRIGGERED
SINGLE
DTB starts
DTB triggered
MTB = Main Time Base alternating
DTB = Delayed Time Base free run after 100ms
DTB trigger modes starts after adjusted DELAY time starts on first trigger after
DELAY time
2.2.2
Timebase settings
MTB (PM3092/94)
Settings
Variable Time/Div range
DTB (PM3092/94)
Settings
0.5 s/div ... 20 ns/div
1.25s/div... 20 ns/div
Note 1
MTB only; continuously variable
0.5 ms/div ... 20 ns/div Note 1
Note 3
MTB (PM3082/84)
Settings
Variable Time/Div range
DTB (PM3082/84)
Settings
0.5 s/div ... 50 ns/div
1.25 s/div ... 50 ns/div
Note 1
MTB only; continuously variable
0.5 ms/div ... 50 ns/div Note 1
Note 3
TIMEBASE
MAGNIFICATION
10x Note 2
Note 1: In a 1-2-5 sequence. By means of the timebase magnifier (x10) the range is extended to
2 ns/div (PM3092/94) or to 5 ns/div (PM3082/84).
Note 2: Expands the normal time/div. by 10 times (MTB and DTB)
Note 3: The DTB sweepspeed is higher or equal to MTB time/div. setting.
2.2.3 DTB delay
DELAY TIME
Position range
Resolution
2 ns ... 4.9 s
0.1 ... 9.9 div
1 ; 40000
CHARACTERISTICS 2 - 7
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
2.2.4 Timebase accuracies, Delaytime accuracy, DTB jitter
TIMEBASE ACCURACY
Unmagnified:
Magnified: up to 10 ns/div in 5ns/div and 2ns/div
± (1.3% of reading +
0.5% of central 8 div)
± (1.3% of reading +
1.0% of central 8 div)
± (1.8% of reading +
1.5% of central 8 div)
Note 1: add 1% of reading in variable mode
Note 2: valid over central unmagnified 8 div
DELAYTIME ACCURACY ±(0.8% of reading + 0.3% of central 8 div + 4ns)
±(0.8% of reading + 0.3% of central 8 div + 5ns)
Note 1: add 1% of reading in variable mode.
DTB jitter in starts 1 part of 25000
Note 1
Note 2
Note 1
Note 1
Note 1
PM3092, PM3094
Note 1
PM3082, PM3084
2.2.5
External horizontal deflection
Line and CH1...CH4
DEFLECTION SOURCES
LINE DEFLECTION
Deflection amplitude
CHANNEL DEFLECTION
Error limit
Linearity error limit
Dynamic range up tolOOkHz up to 2MHz
POSITION RANGE
FREQUENCY RESPONSE
Upper transition point
MAX. PHASE DIFFERENCE
Between horizontal and vertical
6 ±1.7 div
±5%
±2%
20 div
10 div
±5 div
2 MHz
3 °
Between 49 and 61 I
Refer to VERTICAL
Over central 6.div.
Note 1
Up to 100 kHz
2 - 8
CHARACTERISTICS
2.3
CHARACTERISTICS
TRIGGERING
SPECIFICATION ADDITIONAL INFORMATION
2.3.1
Source
SOURCE(S)
MTB-triggering CH1...CH4, Line;
Composite Note 1
SOURCE(S)
DTB-triggering CH1...CH4, TV-line
Note 2
Note 1: Each displayed channel provides its own triggering. This feature is available in the alternated mode.
Note 2: Only available when MTB-mode is switched in TV
2.3.2
Modes
MODES
MTB-triggering EDGE
TV
MODES
DTB-triggering EDGE
2.3.3
TV systems
TV systems TV
HDTV
Note 1: Fieldl, Field2 and TVline selection possible.
2.3.4
Coupling
BANDWIDTH EDGE
TRIGGER MTB
Lower transition point of BW
Trigger coupling:
DC
AC
LF-reject
HF-reject
Upper transition point of BW
Trigger coupling:
DC
AC
LF-reject
HF-reject d.c.
10 Hz
30 kHz d.c.
See sensitivity
See sensitivity
See sensitivity
30 kHz
Note 1
Note 1 vertical coupling in DC
BW = Bandwidth
CHARACTERISTICS 2 - 9
CHARACTERISTICS
BANDWIDTH EDGE
TRIGGER DTB
Lower transition point of BW
Trigger coupling:
DC
AC
LF-reject
HF-reject
Upper transition point of BW
Trigger coupling:
DC
AC
LF-reject
HF-reject
SPECIFICATION d.c.
10 Hz
30 kHz d.c.
See sensitivity
See sensitivity
See sensitivity
30 kHz
ADDITIONAL INFORMATION vertical coupling in DC
BW = Bandwidth
Sensitivity
EDGE TRIGGER SENSITIVITY
MTB/DTB (PM3092/94) d.c. to 100 MHz d.c. to 200 MHz d.c. to 300 MHz
0.5 div
1.0 div
2.0 div
See note 1 & 3
EDGE TRIGGER SENSITIVITY
MTB/DTB (PM3082/84) d.c. to 50 MHz d.c. to 100 MHz d.c. to 200 MHz
0.5 div
1.0 div
2.0 div
See note 2
See note 1 & 3
TV TRIGGER SENSITIVITY amplitude of sync pulse 0.7 div
See note 2
See note 1
Note 1: All figures are valid for an ambient temperature range of 5... 4 0 °C, add 20 % for ambient
0... 5 0 °C.
Note 2: Measured with a 2 div centerscreen signal.
Note 3: In noise trigger multiply stated value by 2.
2.3.6 Slope
Slope selection edge + or -
Note 1: In TV-triggering pos/neg video.
MTB and DTB. See notel
2 - 1 0
CHARACTERISTICS
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
2.3.7
Level
LEVEL CONTROL
RANGE MTB EDGE
Unless in Level-p(eak)p(eak)
TV
LEVEL CONTROL
RANGE DTB EDGE
± 8 div
Note 1
Fixed
± 8 div
TRIGGERLEVEL
Accuracy
Triggergap
<0.2 div
0.4 div at 1 MHz input signal triggercoupling DC.
at 1 MHz input signal; in noise triggering multiply by 2.
Note 1: The control range of the trigger level is related to the peak-peak value and duty cycle ol the trigger signal.
2.3.8
Hold Off
HOLDOFF SETTING
Minimum Whichever is greater
Maximum
2 us or 3 div. of
MTB setting
2 s or 20 div. of
MTB setting
Whichever is smaller
2.4
CURSORS
2.4.1
Cursor Control
NUMBER OF CURSORS
CURSOR MODES
4
See note 1
Manual
Measure
Amplitude
Time
Both
Vpp
AV, V1&V2 to GND,ratio
AT, 1/AT, Ratio, Phase
See note 2 and 3
AVpp, Vp+&Vp- to GND
Vdc to GND
Risetime 10%-90%
20%-80%
See note 4
Note 1: In the "MTB + DTB" and “DTB" timebasemode, all waveform operations are performed on
DTB traces.
Note 2: The ratio range is 0% ... 999% where 100% corresponds to the value in the cursor read out at the moment that the "A T=100%“- or "AV=100%“-button is pushed.
Note 3: The phase range is CP ...
999° where 36CP corresponds to the value in the cursor read out at the moment that the "AT=36CP “-button is pushed.
Note 4: Amplitude cursors track the min. and max. value of the signal; not possible with DTB on.
CHARACTERISTICS 2- 11
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
2.4.2
Cursor Accuracies
VOLTAGE MEASUREMENT
Manual
Vpp mode:
±1% of FULL SCALE
+3% of FULL
SCALE + 800 pV
Note 1
Note 2
TIME MEASUREMENTS
Unmagnified time base
Magnified time base up to
10ns/div:
Magnified time base in
5ns/div. and 2ns/div
±1% of FULL SCALE
±1.4% of FULL SCALE
+2.2% of FULL SCALE
Note 1: Measured with 1kHz square wave within central 6 div.
Note 3
Note 2: For signals > 1 div.
Vpp mode follows the trigger system frequency response curve.
1 kHz/120 mV sinewave over 6 div.: Readout 120 m V±3.6 mV.
Note 3: Within central 8 div.
2.5
FRONT PANEL MEMORY
Memory size 10 fronts
2.6
2.7
BLANKING OR Z-AXIS
Input connector
Input impedance
Input coupling
Max. input voltage
Input voltage unblanked
Input voltage blanked
Response time
BNC
10 kQ dc
±10V
0.5V or less
+ 2.4 V or more
80ns
See note 1
See note 1
Risetime 2 ns
Note 1: Half tones are possible at input voltages between +0.8V and +2.4V.
DISPLAY
CRT
Deflection
Dimensions (h x v)
Phosphor:
Standard
GRATICULE
Y-AXIS
ORTHOGONALITY
ACCELERATING
VOLTAGE
Writing speed
Electrostatic
80 mm x 100 mm
Green GH (P31)
Fixed
90° +/- 0.5°
16.5 kV
>1.8 cm/ns
Vector
8 x 1 0 divisions
2 - 1 2
CHARACTERISTICS
CHARACTERISTICS
TRACE ROTATION
Min range
Min overrange
TRACE DISTORTION
At center of screen
Else
SPECIFICATION
10°
2°
<0.3 mm
<1.0 mm
2.8 EXTERNAL INTERFACES
ADDITIONAL INFORMATION
Screw driver adjustment
External field <0.1 mT
Deviation from straight line inside 6x8 div
2.8.1 Calibrator
WAVEFORM
Shape
INTERNAL IMPEDANCE
Value
OUTPUT VOLTAGE
Peak - peak value
Tolerance
OUTPUT CURRENT
Peak - peak value square-wave
1200 Q
600 mV
1 %
See note 1
0.5 mA See note 2
FREQUENCY
Value
Tolerance
2 kHz
±20 %
Note 1: Positive going with respect to ground: open voltage (halves when terminated with 1200 Q ).
Note 2: When output short circuited (halves when terminated with 1200 Q).
2.8.2 Standard external interfaces
TYPE OF INTERFACE EIA-232-D (RS 232) CPL (Compact Programming
Language) See operating guide
6
7
4
5
8
9
2
3
PINNING PIN
1
TRANSMISSION MODES
I/O
-
I
O
0
0
I
I
-
-
NAME
-
RXD
TXD
DTR
GND
DSR
RTS
CTS
-
Asynchronous
Full duplex
Not connected
Received data
Transmitted data
Data terminal ready
Signal ground
Data set ready
Request to send
Clear to send
Not connected
CHARACTERISTICS 2 - 1 3
CHARACTERISTICS
HANDSHAKE
Hardware
Software
BAUDRATE
NUMBER OF STOP BITS
PARITY
SPECIFICATION
RTS/CTS and
DSR/ DTR
XON/XOFF
75, 110, 150, 300,
600,1200, 2000,
2400, 4800, 9600,
19200, 38400
1 odd, even or no
ADDITIONAL INFORMATION
Default: not active
Note 1
Default: not active
Note 1
Receiving and transmitting
Default: 1200
Note 1
Default: no parity
See note 1
Default: 8, See note 1 CHARACTER LENGTH
ERROR RESPONSE
ELECTRICAL
TXD and RXD
Spacing "0"
Marking "1"
RTS, CTS, DSR and DTR
ON
OFF
Current output
Impedance Output
Impedance Input
Voltage Output
Voltage Input
Connector
7 or 8
See operating guic
>+3V
^-3V
>+3V
<-3V
<10mA
300Q ± 10%
>3kQ <7k£2
S-12V <+12V
>-25V <+25V
Shielded 9 pole RAP male connector according MIL-C-24308
Note 1: Selectable via UTILITY-menu and CPL.
When battery installed, same as last power-off value.
2.8.3 Optional external interfaces
IEEE ANSI/IEEE 488.2
SCPI, See 1.17
2 - 1 4
CHARACTERISTICS
CHARACTERISTICS SPECIFICATION
2.9 AUTOSET & CALIBRATION
ADDITIONAL INFORMATION
2.9.1 AUTO SET
Vertical deflection,
Horizontal deflection
2 ... 5 div
Max. 6 periods on CRT
At input signal
10 mV ...25V
40 Hz ... 30 MHz
Note 1
Note 1
Note 1: AUTO SET selects the proper channel, sets vertical deflection, timebase speed, intensity and triggering for easy to read display of input signals or user programmable AUTO SET items.
2.9.2 Calibration
CALIBRATION FACILITIES Auto CAL See note 1
Note 1: Calibrates vertical offset and gain, horizontal offset, gain and sweeptime, trigger offset and gain.
2.10 POWER SUPPLY & BATTERY BACKUP
2.10.1 Power supply
LINE VOLTAGE
A a.c. (r.m.s.)
Operation
. Tolerance
LINE FREQUENCY
Nominal
Limits of operation
LINE WAVEFORM
CHARACTERISTICS
Max. waveform deviation factor
Crest factor
ALLOWABLE POWER
INTERRUPTION
POWER CONSUMPTION
Without options
Max. power consumption
100 V...240V
± 10%
50 Hz...400 Hz
45 Hz...440 Hz
10%
1.27...1.56
20 ms
60 W
80 W
At nominal source voltage
See note 1
POWER CORD
Length
Power plug
2.1 m (82.7")
Nat. version
Note 1: At lowest allowable source voltage. After this time the oscilloscope data is saved before the instrument goes down and an automatic power-on sequence starts after restoration of the power source voltage.
CHARACTERISTICS 2 - 1 5
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
2.10.2 Battery backup
DATA & SETTINGS
RETENTION
Retention time
Batteries:
Recommended type
Quantity
Temperature range
See note 1
2 years
LR 6
2
0...+70 °C
See note 2
See Note 3
Note 1: When instrument is switched off or during mains failure.
Note 2: According to IEC 285 (= Alkaline Manganese Penlight Battery), e.g. LR6.
Note 3: At -40...0°C settings retention is uncertain. It is advised to remove batteries from instrument when it is stored during longer periods (>24h) below -30 °C or above 60 °C. UNDER NO
CIRCUMSTANCES BATTERIES SHOULD BE LEFT IN THE INSTRUMENT AT
TEMPERATURES BEYOND THE RATED RANGE OF THE BATTERY SPECIFICATION.
2.11 MECHANICS
PORTABLE VERSION
Dimensions:
Length
Width
Height
Mass: Instrument
COOLING
481 mm
341 mm
139 mm
8.5 kg
Forced air,
Regulated
Handle excluded
Add 5 mm for cover and 65 mm for handle
Add 50 mm for handle
Add 8 mm for feet
No air filter
2.12 ENVIRONMETAL
2.12.1 General
The characteristics are valid only if instrument is checked in accordance with the official checking procedure. Warming-up and recovery time are in accordance with MIL-T-28800D par. 3.7.1.1.
The instrument meets the environmental requirements of MIL-T-28800D Type III Class 3, Style D,
Color R, unless specified otherwise.
2.12.2 Environmental
TEMPERATURE
Operating: min. low temperature max. high temperature
Non operating (storage): min. low temperature max. high temperature
0 °C
+ 50 °C
- 40 °C
+70 °C
See note 1
2 - 1 6
CHARACTERISTICS
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
MAX. HUMIDITY
Operating and Non operating (storage)
See note 1
95% Relative humidity non condensing
Note 1: In accordance with MIL-T-28800D par. 3.7.2.1.1. (FIGURE 2).
MAX. ALTITUDE
Operating
Non operating (storage)
VIBRATION (OPERATING)
Freq. ranges:
4.6 km
12 km
5 Hz ... 15 Hz
16 Hz ... 25 Hz
26 Hz ... 55Hz
See note 4
See note 5
See note 6 g level at max. freq.:
0.7 at 15 Hz
1.3 at 25 Hz
3 at 55 Hz
At each frequency range:
Cycling time
Resonance search
Resonance dwell
15 min
5 min
10 min See note 7
Note 4: In accordance with MIL-T-28800D par 3.7.3.
Note 5: Maximum operating temperature derated 3 °C for each km above sea level.
Note 6: In accordance with MIL-T-28800D par. 3.7.4.1.
Note 7: A t each resonance frequency (or at 33 Hz if no resonance was found).
See note 8 SHOCK (OPERATING)
Amount of shocks total each axis
Shock waveform
Duration
Peak acceleration
18
6 half sinewave
6-9 ms
400 m/s2
3 in each direction
BENCH HANDLING
Meets requirements of
See note 9
MIL-ST-810, method
516 procedure V
Drop height 0.76 m See note 11 TRANSPORTATION
SALT ATMOSPHERE
Structural parts See note 10
Note 8: In accordance with MIL-T-28800D par. 3.7.5.1.
Note 9: In accordance with MIL-T-28800Dpar. 3.7.5.3.
Note 10: In accordance with MIL-T-28800Dpar. 3.7.8.1.
Note 11: Drop in shipping container on 8 comers, 12 edges, 6 surfaces.
CHARACTERISTICS 2 - 1 7
CHARACTERISTICS
2.13 EMI
SPECIFICATION ADDITIONAL INFORMATION
2.13.1 General aspects and Susceptibility
2.13.1.1 General
Meets MIL-T-28800D, Type III, Class 3 (Navy requirement, unless specified otherwise).
Meets MIL-STD-461C as follows:
Conducted Emissions Part 2
Part 4
Conducted Susceptibility Part 2
Part 5
Radiated Emissions Part 5 and 6
Part 2
CE01 (Narrowband)
CE03
CS01
CS06 (Limited to 300V)
RE01
RE02 (1 GHz max)
2.13.1.2 Susceptibility
Meets harmonized product requirements of 89/336EEC, EN50081.1 and EN50082.1 with addition of the tables 1 to 8.
2 - 1 8
CHARACTERISTICS
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
The PM3082 and PM3084, including standard accessories, conform with the EEC Directive 89/336 for EMI immunity, as defined by IEC 801-3, with the addition of the following tables.
E = < 0.1 V/m
Table 1.
Susceptibility: no visible disturbance
E = 1 V/m E = 3 V/m Frequency range:
10kHz.. 25 MHz
Stand alone
With PM9010/091
2 mV/div... 5 V/div
2 mV/div... 5 V/div
2 mV/div ... 5 V/div
10 mV/div ... 5 V/div
2 mV/div ... 5 V/div
20 mV/div ... 5 V/div
E = < 0.1 V/m
Table 2.
Susceptibility: no visible disturbance
E = 1 V/m E = 3 V/m Frequency range:
25 MHz ... 1 GHz
Stand alone
With PM9010/091
2 mV/div... 5 V/div
2 mV/div... 5 V/div
5 mV/div ... 5 V/div
50 mV/div ... 5 V/div
10 mV/div ...5 V/div
200 mV/div ... 5 V/div
Frequency range:
10kHz.. 25 MHz
Stand alone
With PM9010/091
Table 3.
Susceptibility: disturbance less than 10 % of full scale
E = < 0.1 V/m E = 1 V/m E = 3 V/m
N/A
N/A
N/A
2 mV/div ... 5 mV/div
N/A
5 mV/div ... 10 mV/div
Table 4.
Susceptibility: disturbance less than 10 % of full scale
E = < 0.1V/m E = 1 V/m E = 3 V/m Frequency range:
25 MHz ... 1 GHz
Stand alone
With PM9010/091
N/A
N/A
2 mV/div
10 mV/div... 20 mV/div
2 mV/div ... 5 mV/div
50 mV/div.... 100 mV/div
For conditions not specified in tables 1 - 4, a susceptibility effect of more than 10 % is possible.
CHARACTERISTICS 2 - 1 9
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
The PM3094 and PM3092, including standard accessories, conform with the EEC Directive 89/336 for EMI immunity, as defined by IEC 801-3, with the addition of the following tables.
Frequency range:
10kHz.. 25 MHz
Stand alone
With PM9020/091
E = < 0.1 V/m
Table 5.
Susceptibility: no visible disturbance
E = 1 V/m E = 3 V/m
2 mV/div ... 5 V/div
2 mV/div ... 5 V/div
2 mV/div ... 5 V/div
10 mV/div ... 5 V/div
2 mV/div ... 5 V/div
20 mV/div ... 5 V/div
Frequency range:
25 MHz ... 1 GHz
Stand alone
With PM9020/091
E = < 0.1 V/m
Table 6.
Susceptibility: no visible disturbance
E = 1 V/m E = 3 V/m
2 mV/div ... 5 V/div
2 mV/div ... 5 V/div
2 mV/div ... 5 V/div 10 mV/div ... 5 V/div
200 mV/div ... 5 V/div 500 mV/div ... 5 V/div
Frequency range:
10 kHz.. 25 MHz
Stand alone
With PM9020/091
E = < 0.1 V/m
N/A
N/A
T able 7.
S u sce p tib ility: disturbance less than 10 % o f fu ll scale
E = 1V/m E = 3 V/m
N/A
2 m V /d iv... 5 mV/div
N/A
5 m V/div... 10 mV/div
Table 8.
S u sce p tib ility: disturbance less than 10 % o f fu ll scale
E = 1V/m E = 3 V/m
Frequency range:
25 M H z ... 1 GHz
Stand alone
With PM9020/091
E = <0.1 V/m
N/A
N/A
N/A
50 mV/div ...100 mV/div
For conditions not specified in tables 5-8, a susceptibility effect of more than 10 % is possible.
2 m V/div... 5 mV/div
100 mV/div ...200 mV/div
2.13.2 VDE requirements
The instrument meets the requirements of VDE 0871, Grenzwertklasse B.
2.13.3 Additional EMI requirements
The instrument is tested in accordance with IEC 351-1 par 5.1.3.1. The maximum deflection factor is
7 mm/mT (0.7 mm/gauss). This value measured with the instrument in a homogeneous field (in any direction with respect to the instrument) with a flux intensity (peak to peak value) of 1.42 mT (14.2 gauss) and of symmetrical sine wave form with frequency of 45 Hz ... 66 Hz.
2 - 2 0
CHARACTERISTICS
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
2.14 SAFETY
MEETS
REQUIREMENTS OF I EC 348 Class I
UL 1244
CSA C22.2 No231
VDE0411
See note 1
See note 2
See note 2
See note 1
APPROVALS (applied for)
MAX. X-RADIATION
CSA C22.2 No231
MIL-T-28800D par. 3.9.3.4.a
Note 1: Except for power cord, unless shipped with universal European power plug.
Note 2: Except for power cord, unless shipped with North American power plug.
2.15 ACCESSORIES
PACKED WITH
INSTRUMENT
Signal input (passive)
Contrast filter
Front cover
Users Manual
Reference Manual
2 x 1 0 MQ, 10:1 probe with readout (1.5 m)
Blue
Can be locked on instrument
2.16 OPTIONS & OPTIONAL VERSIONS
2.16.1 Line Cord
LINE CORD Universal European
North American
United Kingdom
Australian
Swiss in accordance with VDE in accordance with CSA, UL in accordance with BSI in accordance with SAA in accordance with SAV
2.16.2 Options versions
EXTERNAL INTERFACES
Y-out, MTB-gate,
DTB-gate, EXT triggering
IEEE
Factory installed only
Factory installed only
W
2 - 2 1 CHARACTERISTICS
CHARACTERISTICS
Optional outputs
Y SIGNAL OUT
Source
Coupling
Voltage: into 1 MO with a tolerance of into 50 O with a tolerance of
Freq. response (PM3092/94)
Freq. response (PM3082/84)
Dynamic range
MTB/DTB GATE OUT
Connector
Output impedance
Voltage:
Timebase not running
Timebase running
SPECIFICATION
BNC
CH1 as CH1
20 mV/div
±10%
10 mV/div
±10% dc ... 200 MHz dc ... 100 MHz
±1 Odiv
ADDITIONAL INFORMATION
Terminated with 500
Terminated with 500
At 50 MHz
BNC
1 kO
0.2 ± 0.2 V
3.7 ± 1.3 V
Optional external MTB trigger input
SOURCE(S) MTBtriggering
CH1 ... CH4
External
Composite
No line triggering
INPUT CONNECTOR BNC At rear of instrument
Measured at freq.<1 MHz INPUT IMPEDANCE
R parallel - value
- tolerance
C parallel - value
- tolerance
1 M O
±1 %
25 pF
± 5 pF
DYNAMIC RANGE
Up to 10 MHz ±2.5 V Symmetrical
INPUT VOLTAGE LIMITS
* (d.c. + a.c. peak) A ±400 V
See note 1
See note 2
Note 1: Apparatus should be properly grounded through the protective ground conductor of the power cord.
Note 2: Up to 10 kHz; > 10kHz see figure 1.1.
EDGE TRIGGER SENSITIVITY d.c. to 5 MHz d.c. to 10 MHz
100 mV
200 mV
See note 3
Note 3: In noise-trigger multiply stated value by 2.
TRIGGERLEVEL
Range
Accuracy
± 1.45 V
< 0.45 V
See note 4 at 1 kHz inputsignal triggercoupling DC
Note 4: With Level-pp on the range is restricted to the peak-peak value of the trigger signal.
2 - 2 2 CHARACTERISTICS
2.17 SPECIFICATION OF IEEE-OPTION
TYPE OF INTERFACE ANSI/IEEE 488.2
INTERFACE REPERTORY
Source handshake
Acceptor handshake
Talker
Listener
SH1
AH1
T5
L3
Service request
Remote local
Parallel poll
Device clear
Device trigger
Controller
ELECTRICAL INTERFACE
Busdrivers
Connector
Pin 1 ... 4
Pin 13 ... 16
Pin 18 ... 23
Pin 24
Pin 5
Pin 6
Pin 7
Pin 8
Pin 9
Pin 10
Pin 11
Pin 12
Pin 17
FUNCTION SELECTION
SR1
RL1
PPO
DC1
DT1
CO
E2
Shielded
DI01 ... DI04
DI05 ... DI08
GND
Logic GND
EOI
DAV
NRFD
NDAC
IFC
SRQ
ATN
Shield
REN
Via UTIL-MENU
INTERFACE STATUS
INDICATOR
Note 1: Talker/listener.
On screen
Note 2: When battery installed, same as last power-off value.
Busaddress
Default: 8
Note 2
SCPI (see SCPI operating manual)
Note 1
Complete capability
Complete capability
Basic talker: yes
Serial poll: yes
Talk only: yes
U n a d d r e s s if
M L A : y e s
Basic listener: yes
Listener only: yes
Unaddress if MTA: yes
Complete capability
Complete capability
No capability
Complete capability
Complete capability
No capability
Three state (true=0 ... 0.8V; false=2 ... 5V)
Amphenol type
57FE-20240-20SD35
DESCRIPTIONS 3 - 1
ST8235A
970415
r
DESCRIPTIONS
|_A1:
SIGNAL UNIT
TRIGGERING
3 -1
TIME BASES
ST8235A
970415
3 - 2 DESCRIPTIONS
ST82358
97041S
XYSW
1
J j
3 - 2 DESCRIPTIONS
UFO
PROBE INO
YCAL
XCAL
MTBCAL
DTBCAL
AUTO CURSOR
PWR FAIL
■
PROBE
D1006.V101S
XCAL
MTSCAL
______ DTBCAL
AUTO CURSOR
FAIL PWR
CENTRAL
PROCESSOR
01001.01004.
01007.01009.
01011.01014.
01015.01017,
RS232
BUFFER
01301 .D1302
|iP (TO CONTROL CIRCUITS)
READONLY
MEMORY (CPROM)
01013.01015
RS232 CONNECTOR
£ZZZ^
TEXT/CURSOR
CONTROL
01403
V1401 ...VI *48
VERTICAL
DAC
D1401
RANDOM ACCESS
MEMORY (CPRAM)
01013
TEXT/CURSOR D
MEMORY
01401
POTENTIOMETER dac c iR C u rr
Oil 12
I NT ENS
FOCUS
POS1
POS2
POS3
POS4
VAR1
A1
VAR2
VAR3
VAR4
LEVMTB
LEVDTB
MT8VAR
DTBVAR
TRASEPARAT10N
HORIZONTAL
DAC
01402
A10
CONNECTOR BOARD A3 MICROPROCESSOR UNIT
XYSW
ZSW
ZT ___
ST82358
970415
DESCRIPTIONS
3 - 3
3 DESCRIPTIONS
3.1 General description
3.1.1 Introduction to oscilloscope family
The family consists of four analog general purpose oscilloscopes with model numbers PM3082,
PM3084, PM3092 and PM3094. All instruments have four vertical channels. Differences between these models are the vertical bandwidth, the features of the vertical channels 3 and 4 and the presence of switcheable 50Q input impedance.
Vertical bandwidth is 100 or 200 MHz. The ’true 4 channel’ oscilloscopes have four channels with a wide range of input sensitivities. Channel 3 and 4 in the ’4 channel’ versions offer the most commonly used input sensitivities (0.1 and 0.5 V/div). The table below explains the differences.
Model number
PM3082
PM3084
PM3092
PM3094
4 chann true 4 chann 100 MHz 200MHz Input impedance
* •k
1 MQ
★ * 1 MQ
* *
1 MQ/50 Q (CH1,2)
1 MQ (CH3.4)
* * 1 MQ/50 Q
The printed circuit boards (units) and mechanical parts in this family of oscilloscopes have a high degree of standardization. The ordering codes for these parts are listed in chapter 4 ’Parts’. In this chapter differences between PM3082, PM3084, PM3092 and PM3094 are mentioned.
3.1.2 Introduction to descriptions
Section 3.2 contains the description of the block diagram. The information in this diagram is presented in such a way that the link with the circuit diagrams in chapter 5 ’Unit descriptions’ can be found easily.
In chapter 4 'Parts’ all general parts are described. These are, for example, the printed circuit boards
(units), cables and mechanical parts that are not fixed to a specific unit. Cables are clearly identified on an interconnection diagram.
In chapter 5 the units are described in sequence of their number (A1, A2, A3,...). Per unit the following information is given:
- Description
- Signal name list
- Unit lay-out (and location raster for the large units)
- Circuit diagrams
- Parts lists
3 - 4
DESCRIPTIONS
3.1.3 Explanation of signal names
Throughout the circuit diagrams signal names are used. These names make it easier to trace a signal going from one circuit diagram to another. In many cases the signal name and also the component to which a certain node is connected are given in the circuit diagrams.
For every printed circuit board a signal name list is shown in alphabetical order. It shows:
- The meaning/function of the signal.
- The signal source(s).
- The signal destination(s).
Signal names are chosen up in a logical way. Basically signal names (e.g. MTBPPLEV-HD) consist of two parts:
- A functional part with a maximum of 10 characters (e.g. MTBPPLEV). The part is arranged such that recognition is easy.
- An extension with a maximum of 2 characters (e.g. HD). The extension is not always used.
The first characters (e.g. MTB) in the functional part indicate the part of the oscilloscope. Examples are:
- AT 1, AT2, AT3, AT4: the input attenuators of channel 1,2 ,3 , 4.
- PA1, PA2, PA3, PA4: the preamplifiers of channel 1 ,2 ,3 , 4.
- FNC1, FNC2, FNC3, FNC4: the function selection parts of channel 1,2,3,4. MTR: main time base triggering.
- MTB: main time base.
- DTR: delayed time base triggering.
- DTB: delayed time base.
The last set of characters in the functional part (e.g. PPLEV) indicates the function: in this example
Peak-Peak LEVel triggering is switched on/off.
The first character of the extension indicates if the signal is active when high (H), active when low
(L) or that this is not fixed (X, for instance the output of a counter).
The second character of the extension indicates the kind of logic. Possible abbreviations are: T
(TTL), E (ECL), A (analog signal), C (CMOS 12 ... 15V) and D (CMOS 5V).
3.1.4 Voltage values in the circuit diagrams.
Throughout the circuit diagrams voltage values are indicated. This facilitates fault finding in the vertical channels, triggering, time base and final amplifiers. Most of the voltages consist of an AC signal superimposed on a DC biasing voltage. Some of the AC voltages are small. They must be measured with an oscilloscope via a 1:1 probe and AC coupled input. The DC signal component is bigger and must be measured with the measuring oscilloscope with DC coupled input. The nodes where a signal can be measured are indicated with a dot on the p.c.b. lay-outs.
The oscilloscope under test must be prepared as follows:
- Connect the CAL voltage via a 10:1 probe with indication ring to the input of the suspected channel.
- Press the STATUS and TEXT OFF key simultaneously to get a defined starting position.
- Press the AUTOSET key
- Put AMPLA/AR of the active channel to 0.1 V: this should give 6 vertical divisions of signal on the screen.
DESCRIPTIONS 3 - 5
Some important notes:
- To measure some signals, it is necessary to unlock units. Refer to chapter 8.5 for details on how to proceed.
- The given AC and DC signals are average values: your oscilloscope under test may deviate from the values given in the circuit diagrams.
- Although the oscilloscope is in standard setting, it may be necessary to do manual selections for certain measurements. To measure e.g. the delayed time base and its triggering, it is necessary to activate DTB and to select a channel as DTB trigger source.
- When measuring in the final amplifiers, it advised to switch off all text. This gives ’cleaner’ signals at the outputs. The text is written inbetween the signal at a random basis.
- Measuring the outputs of the final Y amplifier must be done with a 10 kQ resistor between probe tip and signal. This avoids oscillations.
3.2 BLOCK DIAGRAM DESCRIPTION.
3.2.1 Introduction.
This block diagram and description are based upon the most complex version of this family of analog oscilloscopes. Therefore there may be minor differences between your oscilloscope and the block diagram and its description. Where differences may occur it is mentioned in the text.
The item numbers of active components are indicated each block of the diagram. This facilitates to make the link with the circuit diagrams.
The oscilloscope is controlled by a microprocessor that connects to many blocks. Therefore throughout this block diagram CONTROL CIRCUITS can be found that are controlled by the microprocessor. The output signals can be simple on/off signals e.g. to switch a certain vertical channel on and off. There are also adjustable dc voltages e.g. to determine the gain of a vertical channel. Blocks that are under control of the microprocessor have the input signal “uP". In the vertical, horizontal and time base sections, circuits are added for microcomputer controlled automatic calibration.
This description is divided according to the functional blocks that can be distinguished:
- Vertical channels: there are 4 vertical channels.
- Triggering and time bases: there are sections for main- and delayed time base.
- Final amplifiers: for vertical (Y) and horizontal (X) deflection, intensity (Z) and focusing control.
- Front unit and microprocessor unit.
- Power supply unit.
Also the printed circuit boards (units) are indicated in the blockdiagram. These units are:
- Signal unit A1: is the largest of all and incorporates 4 vertical channels and main- and delayed triggering and time base.
- Final XYZ amplifier A2: all final amplifiers are present here. A separate part is connected to the
CRT socket.
- Microprocessor unit A3.
- Front unit A4: incorporates most of the rotary knobs and keys.
- CRT controls unit A5: incorporates the rotary knobs for the display functions.
- Power supply unit A6: supplies various voltages to the other circuit boards.
- Motherboard A10: many signals are routed via this unit.
3 - 6
DESCRIPTIONS
3.2.2 Vertical channels.
There are 4 vertical channels that are mainly identical. A difference is that the 200 MHz oscilloscope versions have a switchable 50£2 input impedance while the 100 MHz types do not have this feature.
Another difference is between the 4 channel and the 2 + 2 channel versions. The 4 channel scopes have 4 identical vertical channels (CH1, CH2, CH3 and CH4) with an extensive range of input sensitivities. The various input sensitivities are made by combinations of settings of HIGH
IMPEDANCE ATTENUATOR, LOW IMPEDANCE ATTENUATOR and PREAMPLIFIER.
The 2 + 2 channel versions have 2 identical vertical channels (CH1 and CH2) with an extensive range of input sensitivities. The other 2 channels (CH3 and CH4) are identical and have 2 switchable input sensitivities. Channel 1 operation and the differences with channels 2, 3 and 4 are now explained.
The CH1 input signal is applied to the INPUT COUPLING block. Here selection between ac or dc coupled input is done. Moreover in the 200 MHz oscilloscopes selection between 50Q and 1 M fi input impedance is done here. A signal 500 PROTection signals via the CONTROL CIRCUITS to the microprocessor if the dissipation in the 500 termination resistor gets too high.
The block HIGH IMPEDANCE ATTENUATOR incorporates the attenuation coefficients /100, /10 and
/1. This block has a fixed attenuation in channels with 2 input sensitivities such as present in the 2 + 2 channel oscilloscopes. The input signal originating from the AMPLITUDE CALIBRATOR is used to automatically calibrate the vertical channels. The AMPLITUDE CALIBRATOR is a generator that can deliver 8 different accurate voltages. The HIGH IMPEDANCE ATTENUATOR also comprises a high- frequency square-wave adjustment; this is done by adjustment of dc signal CAL.
The IMPEDANCE CONVERTER converts the input signal at high input impedance into an output signal at a low impedance. This block is followed by a LOW IMPEDANCE ATTENUATOR that makes the attenuation coefficients /2,5 and /1. This block has a fixed attenuation in channels with 2 input sensitivities such as present in the 2 + 2 channel oscilloscopes.
The PREAMPLIFIER incorporates gain/attenuation coefficients x1, x5, /2 and also continuous GAIN control via a microprocessor adjustable dc signal. The PREAMPLIFIER is followed by Y-
FUNCTIONS CHANNEL 1. In this block the selection is achieved of vertical display via channel 1,
Main Time Base (MTB) triggering via channel 1 and Delayed Time Base (DTB) triggering via channel
1. Also the filter for the Bandwidth Limiter (BWL), the vertical position control (POS) and an output for future extensions (EXT). From Y-FUNCTIONS CHANNEL 1 the signal for the Y- OUTput socket is derived. The Y-FUNCTIONS blocks of channel 2 and 4 have an INVert function for signal inversion.
The selection of the vertical channel, MTB and DTB trigger source is initiated by the block DISPLAY
MODE + TRIGGER SOURCE CONTROL. The channels and trigger sources to be displayed are controlled by the microprocessor (uP). In ALTernate display mode the switching between channels/trigger sources occurs at the end of the MTB sweep. The signal ALT controls this. For the vertical display mode CHOPpped a 2MHz CHOPPER OSCILLATOR is present. Display blanking during switching from one channel to another is done via signal CHP.
The selected vertical channel(s) are applied to the DELAY LINE DRIVER. This block is an amplifier that has the correct output impedance to drive the DELAY LINE. The DELAY LINE itself consists of a coaxial cable giving sufficient signal delay so that propagation delay in the trigger circuits is compensated. Because of this leading edges of fast-rising pulses can be made visible. The
Y-OFFSET + TRACE SEPARATION block can influence the offset of the signal applied to the DELAY
LINE DRIVER. This is used as offset compensation and also for TRACE SEParation in ALTernate
Time Base mode.
The PROBE CALIBRATOR is a generator delivering a 2kHz/600mV square- wave signal. This signal can be used to adjust the square-wave response of attenuator probes.
DESCRIPTIONS 3 - 7
3.2.3 Triggering and time bases.
The sections for Main Time Base (MTB) and Delayed Time Base (DTB) are for the greater part identical. Therefore the MTB part is extensively described and then the DTB part briefly.
Main Time Base Description.
The possible trigger sources are applied to the block MTB TRIGGER FILTERS + AMPLIFIER. The selection for triggering on the vertical channels 1,2, 3 or 4 is done in the Y-FUNCTIONS blocks in the vertical section. Triggering is also possible on the LINE trigger signal that is derived from the mains. The MTB TRIGGER FILTERS + AMPLIFIER incorporates filters for HF- reject, LF-reject and ac or dc signal coupling. The block also incorporates the +/- slope selection. The dc control signal
LEVEL MTB originating from the CONTROL CIRCUITS is routed via the PEAK-PEAK DETECTOR.
This block limits in peak-peak mode the LEVEL MTB range just within the peak-peak value of the signal. For this purpose the trigger signal is applied to an input of the detector. The LEVEL MTB control signal is not limited if the peak-peak mode is inactive.
For triggering on TV synchronization pulses the blocks TV CLAMP CIRCUIT and TV SYNC
SEPARATOR are used. The CLAMP CIRCUIT separates the synchronization pulses from the composite video signal. The video information is not necessary for triggering. The TV SYNC
SEPARATOR filters out line, frame and field pulses. This is done for various TV systems including
HDTV.
The block MTB TRIGGER FILTERS + AMPLIFIER sends trigger pulses to the MTB LOGIC. This logic is combined with the DTB LOGIC. The three output signals are used to start MTB (applied to MTB
TIMING CONTROL), to switch intensity on and off (applied to Z CONTROL) and for ALTemate display switching (applied to DISPLAY MODE + TRIGGER SOURCE CONTROL).
The MTB is based on the principle that selectable capacitors (inside block MTB TIMING) are charged with a selectable constant current (from MTB CURRENT SOURCE). This results in a sawtooth voltage across the capacitor(s) that rises linearly with the time. As a consequence a time-linear horizontal deflection is obtained. The sawtooth voltage is routed to the horizontal deflection part via the MTB SAWTOOTH PICK OFF. This block serves as a high to low impedance converter so that the load to the timing capacitor(s) is minimal. Various time base sweep speeds are obtained by selecting different combinations of current values and timing capacitors. The function MTB VARiable works via the MTB CURRENT SOURCE.
The MTB TIMING CONTROL discharges the capacitor(s) if the maximum level of the sawtooth is reached. The MTB TIMING CONTROL allows the charging process to start again if a trigger occurs.
The functions X POSition, HOLD OFF and 10x MAGN are applied to and realized in the MTB TIMING
CONTROL. HOLD OFF determines the time between discharge of the timing capacitors and the moment that a trigger pulse is allowed to start the MTB again.
The MTB TIMING CONTROL accomplishes the DELAY time function. The sawtooth voltage is compared with an adjustable dc voltage. The DTB is started where both voltages have the same level: this condition is signalled to the DTB LOGIC via signal START.
The MTB TIMING CONTROL also plays a role in the automatic MTB calibration. A reference voltage
MTBCALREF is compared with the sawtooth voltage. The time necessary for the sawtooth to reach the MTBCALREF level is monitored by the microprocessor via signal MTBCAL. If necessary the MTB is readjusted. Automatic calibration oftheX-path (including output circuit of MTB TIMING CONTROL) is done with accurate voltages from the block X DEFLECTION CALIBRATION.
Delayed Time Base Description.
The function of DTB TRIGGER FILTERS + AMPLIFIER is identical to the corresponding block in the
MTB part. A "peak-peak detector" for LEVEL DTB is not present. The range of this control is always fixed and not related to the peak-peak level of the signal. Blocks for TV triggering are not present in the DTB section. TV triggering of the DTB occurs via output signals from the TV SYNC SEPARATOR in the MTB section.
3 - 8
DESCRIPTIONS
An output signal from DTB TRIGGER FILTERS + AMPLIFIERS can be used for X DEFLection (MTB and DTB are off then) via the block TIME BASE / X DEFLECTION INPUT CIRCUIT.
The function of DTB CURRENT SOURCE, DTB TIMING and DTB SAWTOOTH PICK OFF is identical to the corresponding blocks in the MTB section. For the DTB LOGIC there is an extra input signal START to start the DTB directly after the adjusted delay time. The START signal originates from the MTB TIMING CONTROL.
The block AUTO CURSOR POSITION is used to position the voltage cursors automatically on the top and bottom level of the signal. The top and bottom levels are detected via the DTB triggering: the microprocessor scans the waveform by successively changing the DTB LEVEL and checking if triggers are still detected. Automatic calibration of the X-path (including output circuit of DTB TIMING
CONTROL) is done with accurate voltages from the block X DEFLECTION CALIBRATION.
The DTB TIMING CONTROL is simpler than the corresponding block in the MTB. The functions
DELAY and HOLD OFF are not present. DTB uses the MTB hold off time. This is due to the fact that the DTB can not run while the MTB does not.
X deflection selection and intensity control.
The block TIME BASE/X DEFLECTION INPUT CIRCUIT permits selection between horizontal deflection via MTB/DTB or via a signal selected via the DTB triggering (X DEFL mode).
The block Z-CONTROL controls the intensity of the signal on the screen. This also affects the focusing. Signal intensity and the intensity of text is determined in the final amplifier section.
The signal intensity is determined by the MTB LOGIC (light on/off) and DTB LOGIC (intensified part during run of DTB). The ratio between intensity of MTB and DTB is determined by control signal
INTENS RATIO. Input signal CHP gives display blanking in vertical display mode chopped when switching from one channel to another. The control signal TRACE INTENSITY is influenced by the control with the same name. Intensity can also externally be controlled via input socket EXT Z MOD.
3.2.4 Final amplifiers
The final amplifier can be split up in parts for vertical (Y) and horizontal (X) deflection and parts for intensity (Z) and focusing control. Input signals originate from vertical (Y) channels and time bases
(X and Z). The signals that determine X, Y and Z of the text originate from the text generator on the microprocessor unit. The signal that switches between text and trace (SW signal) display originates also from the text generator. The outputs of the final amplifiers drive the Cathode Ray Tube (CRT).
The various sections are explained now in sequence.
Vertical deflection.
The FINAL Y INPUT STAGE receives input signal for signal display (YS) from the DELAY LINE. A second input signal (YT) determines the vertical component of the text information. The input signal that comes from TEXT/TRACE SELECTION controls switching between text and trace display. The
HF SQ WAVE COMPENSATION is controlled by the microcomputer provides that signal distortion from the DELAY LINE is compensated in the FINAL Y INPUT STAGE. The FINAL Y AMPLIFIER drives the vertical deflection plates of the CRT. The voltage applied to these plates is measured by the block CALIBRATE Y CIRCUIT. Its output signal YCAL is applied to the microprocessor; this is part of the automatic vertical calibration facility.
Horizontal deflection.
The FINAL X AMPLIFIER DRIVER receives input signal for signal display (XS) from the Main and
Delayed Time Base sections. A second input signal (XT) determines the horizontal (X) component of the text information. The input signal that comes from TEXT/TRACE SELECTION controls switching between text and trace display. The FINAL X AMPLIFIER drives the horizonal deflection plates of the
CRT. The voltage applied to these plates is measured by the block CALIBRATE X CIRCUIT. Its output signal XCAL is applied to the microprocessor; this is part of the automatic horizontal calibration facility.
DESCRIPTIONS
3 - 9
Intensity and focusing.
The FINAL Z INPUT STAGE receives input signal for trace intensity (ZS) from the Z CONTROL block in the time base section. A second input signal (ZT) determines the intensity (Z) component of the text information. An input signal SW that comes from the microprocessor allows switching between text and trace intensity. The FINAL Z AMPLIFIER drives the intensity control electrode G1 of the CRT.
This electrode is at a very negative -2.2kV voltage level. It is for that reason that a high-voltage blocking capacitor is necessary between G1 and the output of the FINAL Z AMPLIFIER. However only the ac component in the signal can pass through the capacitor. The dc and If components are applied to the MODULATOR and modulated on a high-frequency carrier. Now they can pass through a capacitor, are demodulated in the DEMODULATOR and then the dc, If and hf components are recombined.
The FINAL Z INPUT STAGE drives, in parallel with the FINAL Z AMPLIFIER, the FINAL FOCUS
AMPLIFIER. This has the result that a well-focused spot over a large intensity range is obtained. The
FINAL FOCUS AMPLIFIER drives the intensity control electrode G3 of the CRT. This electrode is at a very negative -2.2kV voltage level. It is for that reason that a high-voltage blocking capacitor is necessary between G3 and the output of the FINAL FOCUS AMPLIFIER. The ac component in the focusing signal passes through a high-voltage capacitor. The If and dc components are derived from the DEMODULATOR that is also used in the intensity part. Focus control is possible via the FOCUS
LEVEL SHIFTER.
3.2.5 Front unit and microprocessor
The front unit and microprocessor are the sections where all oscilloscope functions are controlled.
Also the generation of text and the automatic calibration is controlled by the microprocessor. The operations performed by the microprocessor are determined by the ROTARY MATRIX and KEY
MATRIX. Also commands from an external computer connected to the RS232 connector have the same result.
The ROTARY MATRIX and keys in the KEY MATRIX present at front unit A4 are read by the FRONT
PROCESSOR. Also the ROTARY MATRIX that is present on the CRT controls unit A5 is read by the
FRONT PROCESSOR. The CENTRAL PROCESSOR on the MICROPROCESSOR UNIT A6 is informed by the FRONT PROCESSOR of the settings selected with the front panel controls.
Incorporated in the CENTRAL PROCESSOR is a complete RS232 interface. Serial communication is possible via the RS232 BUFFER.
The CENTRAL PROCESSOR has many inputs and outputs and forms the heart of the oscilloscope’s control section. First of all there are a READ ONLY MEMORY (CPROM) and a RANDOM ACCESS
MEMORY (CPRAM). The POTENTIOMETER DAC CIRCUIT is able to produce 16 independently adjustable dc voltages. These voltages are used for continuous controllable functions such as
Position, FOCUS and VARiable.
The CENTRAL PROCESSOR also has a number of analog inputs that are internally converted into digital. These inputs are used for automatic calibration (YCAL, XCAL, MTBCAL and DTBCAL),
AUTOCURsor position, power fail and probe indication (via PROBE DETECTION block). An important output is the "uP" output. It is via this output that the CONTROL CIRCUIT blocks found throughout the block diagram are controlled.
The CENTRAL PROCESSOR communicates to the TEXT/CURSOR CONTROL which text and cursors have to be displayed. This information is stored in the TEXT/CURSOR MEMORY. The
TEXT/CURSOR CONTROL has one output that switches (SW) the vertical, horizontal and intensity/focusing sections between normal signal (trace) display and text display. This text display is done in between the signal display in such a sequence that “holes" in the signal are almost invisible.
The YT output of the digital-to-analog converter VERTICAL DAC produces the analog signal that determines the vertical position during text display. The XT output of the HORIZONTAL DAC does the same for horizontal text display. The ZT output produces a signal that determines the intensity during text display.
3 - 1 0
DESCRIPTIONS
3.2.6 Power supply
The power supply is a switched mode type and has high efficiency. It can function on a wide range of
LINE input voltages. An important part of the power supply is directly connected to the mains. This part carries LIVE VOLTAGE and measurements and repairs must be carried out via a separation transformer by a qualified technician.
The LINE IN voltage is applied to the LINE FILTER. This block prevents line interference from entering the supply unit. Also interference generated by the power supply does not enter the mains.
An output signal of the filter is applied to the LINE TRIGGER PICK OFF in order to facilitate line triggering of the time bases.
The other output signal is applied to RECTIFIER + SMOOTHING: the output of this block has a dc voltage of which the height depends on the applied line voltage. This dc voltage is applied to the
FLYBACK CONVERTER. This block incorporates a high voltage switching element that converts the dc voltage into a high-frequency ac voltage. This ac voltage is applied to the primary winding of a transformer. The secondary winding has many taps with connected RECTIFIERS: this gives the required supply voltages for the oscilloscope. The +5V POSTREGULATOR gives additional stabilization of the +5V supply voltage.
Stabilization of the output voltages at different line voltages is achieved by varying the on/off ratio of the switching element in the FLYBACK CONVERTER. The on/off ratio is determined in the
CONTROL CIRCUIT by comparing the accurate output voltage of the +10V REFERENCE SOURCE and an output voltage of the RECTIFIERS.
The EHT CONVERTER generates the 6.3V heater voltage and -2.2kV cathode voltage for the
Cathode Ray Tube (CRT). The +14kV final accelerator voltage for the CRT is generated in the HIGH
VOLTAGE MULTIPLIER.
The AUXILIARY CONTROL is controlled by the microprocessor (uP) and generates three dc voltages that are used for TRACE ROTATION adjustment, GRATICULE ILLUMINATION adjustment and speed control for the FAN.
The PROTECTION CIRCUIT switches the power supply off in case of over and under output voltage, too low line voltage and too high temperature.
PARTS
4 PARTS
4.1 UNITS
Item
63a
63b
63c
63d
59a
59b
43a
43b
74
77
42
71
_
Figure
4.5
4.5
4.5
4.5
4.4
4.4
4.4
4.4
4.6
4.6
4.4
4.6
__
(*) See also section 5.1.6
Ordering code
5322 214 90896
5322 214 90898
5322 214 91027
5322 214 90724
5322 216 04243
5322 216 04244
5322 214 9 0 7 2 9 ^ ^ ^
5322 214 91309
5322 214 90726
5322 214 90727
5322 216 04245
5322 214 90742
5322 218 61479
4.2 INTERCONNECTION CABLES
Description
A1 Signal unit PM3082 (*)
A1 Signal unit PM3084 (*)
A1 Signal unit PM3092 (*)
A1 Signal unit PM3094 (*)
A2 XYZ amplifier unit 100 MHz
A2 XYZ amplifier unit 200 MHz
A3 Microprocessor u n it^ T H U ^
A3 Microprocessor unit with IEEE
A4 Front unit
A5 CRT controls unit
A6 Power supply unit I
A10 Connector board
Extension unit for A3 and A6
4 -1
Figure 4.3 Units lay-out and Interconnections
PARTS
55
58
64
23
23
23
23
23
23
41 i
411
53
66
72
76
4.1
4.1
4.1
4.5
4.6
4.6
4.1
4.1
4.4
4.4
4.5
Figure
4.3
4.3
4.3
4.3
4.3
4.3
4.4
4.4
4.4
for location o f these items in the oscilloscope refer to the figures
.
Ordering code
5322 321 21616
5322 321 10446
5322 321 21617
5322 321 21618
5322 321 30387
5322 321 30386
5322 320 40281
5322 214 90732
5322 321 61284
5322 321 61291
5322 321 61287
5322 321 61286
5322 321 61283
5322 321 61288
5322 321 61289
5322 268 40233
5322 268 40232
5322 268 20176
5322 267 50452
5322 268 24128
Description
Line cord European type
Line cord USA type
Line cord British type
Line cord Swiss type
Line cord Australian type
Line cord South Africa
Delay line 100 MHz
Delay line 200 MHz
Flat cable 50-pole 18 cm
(connects X1002 / X2501)
Red wire to CRT, 105 mm (4/instr., can be adapted to otherlengths)
White flat cable 12-pole
(connects X2301 / X2401)
White flat cable 16-pole
(connects X1501 / X9002)
Flat cable 50-pole 10 cm
(connects X1001 /X9001)
White flat cable 28-pole
(connects X5002/X1004)
White flat cable 12-pole
(connects X5201 /X5001)
Connector housing 3-pole (X1001/A6,
X2402/A2).
Connector housing 2-pole (X1004/A6,
X1006/A6, X8010/A1, X1102/A10).
Contact pin for the above 2- and 3-pole connectors.
Connector housing 5-pole (X1003/A6).
Contact pin for the 5-pole connector.
PARTS
4.3 MECHANICAL PARTS
4 - 3
Figure 4.4 Mechanical parts, front and side pane!
06
07
08
09a
09b
09c
09d
11
Item
01
02
03
04a
04b
04c
04d
16
17
18
19
12a
12b
13
14
Ordering code
5322 447 91922
5322 414 20404
5322 535 93245
5322 455 81196
5322 455 81195
5322 455 81194
5322 455 81193
5322 414 20406
5322 455 81144
5322 414 20405
5322 455 81201
5322 455 81199
5322 455 81198
5322 455 81197
5322 414 20407
5322 455 81178
5322 456 10025
5322 447 70121
5322 455 81104
5322 498 50326
5322 455 81141
5322 462 41848
5322 498 50268
Qty
01
11
01
01
01
01
01
02
01
02
01
01
01
01
01
01
01
01
01
01
01
02
02
Description
Cabinet
Light grey control knob
TRACE ROT shaft
Textstrip bezel PM3094
Textstrip bezel PM3092
Textstrip bezel PM3084
Textstrip bezel PM3082
Dark grey control knob
CAL-SEAL sticker
Dark mushroom control knob
Textplate (adhesive) PM3094
Textplate (adhesive) PM3092
Textplate (adhesive) PM3084
Textplate (adhesive) PM3082
Pushbutton mat (buttons not required must be cutoff with a sharp knife)
Textstrip BNC’s 100MHz
Textstrip BNC’s 200MHz
Front cover
Textstrip handle
Handle complete
Textstrip CRT controls
Handle cover
Locking clip
4 - 4
21 22 23 j
PARTS
Figure 4.5 Mechanical parts, rear pane!
26
27
28
29
30
Item
21
22
24
Note: for items not listed refer to chapter 4.2.
Ordering code
5322 219 82813
4822 070 31602
5322 492 70941
5322 456 90426
5322 492 70975
5322 462 41697
5322 462 41846
5322 256 91793
01
01
04
04
02
Qty
01
01
02
Description
Mains input connector
Fuse 5x20 1,6AT
Contact spring single
Battery compartment cover
Contact spring dual
Bottom foot
Rear foot
Rear socle
PARTS
Figure 4.6 Mechanical parts inside instrument
Item
44
46
47
48
49
51a
51b
52
54
56
57
Note: for items not listed refer to chapter 4.1.2 and 4.2.
Ordering code
5322 464 90708
5322 361 10614
5322 381 11276
5322 480 30181
5322 414 20568
5322 131 11065
5322 131 11179
5322 466 30493
5322 255 41227
5322 466 30164
5322 462 10263
Qty
01
01
01
01
01
01
01
01
01
01
01
Description
Chassis complete
Fan
Bezel
Blue contrast filter
Power on/off knob
CRT D14-373 GH/123 (V0001) -100 MHz
CRT D14-383 GH/123 (V 0001) - 200 MHz
CRT shielding
Heatsink
CRT manchet, rubber
CRT support, plastic
4 - 5
4 - 6
PARTS
Figure 4.7 Mechanical parts, bottom view
Item
61
62
67
68
Note: for items not listed refer to chapter 4.1.2 and 4.2.
Ordering code
5322 267 10004
5322 290 34022
5322 401 10954
5322 290 61045
Qty
01
01
01
01
Description
BNC connector Z-mod
Solder tag for Z-mod
Clamp for delay line (plastic)
Earth contact CRT shielding
S m 5 3 *4
PARTS
Figure 4.8 Mechanical parts behind front pane!
Note: for items not listed refer to chapter 4,1.2 and 4.2.
Item
73
75
78
79
-
80
Ordering code
5322 290 61044
5322 447 91923
5322 460 60404
5322 462 40957
5322 134 41076
5322 492 71668
5322 492 71669
S3ZZ_ £ / Z f f
Qty
01
01
01
01
01
01
01
Description
Earth contact
Front frame
CRT frontrubber
Light conductor
Lamp 28V 80mA (E 1001)
Grouding clip, top side of front
Grounding clip, bottom side of front
7 2C U L
4 - 7
4 - 8
Figure 4.9 Mechanical parts, screening o f input circuit
86
87
88
89
90
Item
81
82
83
84
Ordering code
5322 466 30405
5322 466 30404
5322 256 91792
5322 267 10191
5322 462 41847
5322 532 21188
5322 535 93244
5322 492 70939
5322 401 11419
Qty
01
01
01
04
01
04
01
04
04
Description
Top screening
Bottom screening
BNC holder
BNC coax connector
BNC insulator, plastic
BNC spacer
Probe calibration pin
Indication spring
Soldering bracket for BNC
PARTS
UNIT DESCRIPTIONS 5.1 - 1
5 UNIT DESCRIPTIONS
5.1 SIGNAL UNIT A1
5.1.1 Description A1
5.1.1.1 Introduction
With the exception of the final stages, unit A1 incorporates the vertical channels, the triggering, the time bases and the intensity (Z) control. The unit A1 description is split into the following chapters:
- Input attenuators and calibrator.
- Preamplifiers.
- Y-functions and delay line driver.
- Triggering.
- Main and delayed time base.
The complete signal unit is divided over 18 circuit diagrams. These diagrams and their main interconnections are listed in the table.
Diagram 11 includes the circuitry that controls the functions in the vertical channels.
Diagram 18 shows the connectors that make contact with other units in the oscilloscope via the connector board. These units are:
- The final amplifier unit A2: horizontal deflection signal and intensity control.
- The microprocessor unit A3: control signals and potentiometer functions.
- The power supply unit A6: supply voltages and line trigger signal.
Diagram Description
15
16
17
18
8
9
10
11
12
13
14
6
7
1,2,3,4 Attenuator ch.1,2,3,4
5 Attenuator control
Preamplifier ch.1,2
Preamplifier ch.3,4
Y-functions
Delay line driver
Display + trigg control
Control circuits
MTB trigger
TV/line trigger
DTB trigger
Time base logic
Main time base
Delayed time base
Connectors
Input signal coming from input 1,2,3,4 diagr.1,2,3,4 diagram 1,2 diagram 3,4 diagram 6,7 diagram 8 diagram 18 diagram 18 diagram 8 diagram 12,18 diagram 8 diagram 12,14 diagram 15 diagram 15 unit A6
Output signal going to
Control signal coming from diagr.6,7 diagr.1,2,3,4,18 diagr.8
diagr.8
diagr.5,11 diagr. 11 diagr. 11,18 diagr. 11,18 diagr.9
delay line diagr.8,9 diagr.10,11,18 diagr.10,18 diagr. 18 diagr. 1,2,3,4,5,6,7,8 diagr.18
diagr.13,15 diagr.12,18 diagr. 12,14 diagr. 12,14 diagr. 15,17 diagr. 14,18 diagr.16,17,18 diagr. 17 diagr. 18 unit A2,A3 diagr. 15,18 diagr. 18 diagr. 18 unit A3
5.1 -2
UNIT DESCRIPTIONS
5.1.1.2 Input attenuators and calibrator
Diagram 1, 2, 3, 4
The attenuators of channels 1,2, 3 and 4 are identical, therefore only channel 1 is explained. Every attenuator basically consists of four sections. These sections are:
- The input circuit with 50ft termination resistor and AC/DC input coupling circuit.
- The high impedance attenuator with divide by 1, divide by 10 and divide by 100 sections.
- The impedance converter. This is the active stage.
- The low impedance attenuator that can give an additional divide by 2.5.
The attenuator sections are switched by voltage pulse operated relays. This reduces power dissipation. Every relay has two change-over contacts. After a pulse the contacts stay in the selected position. One side of each relay coil is connected to the common potential AT12REP; the other side to a voltage that differs per relay.
Setting a relay in the position as drawn in the diagram (rest position) is achieved by a positive 10 ms pulse on common line AT12REP while the other control line stays at 0 V level. The other side of the relay coils that must not switch are applied to the already mentioned 10 ms positive pulse. Switching a relay to the position opposite to the one in the diagram (activated position) is achieved by a 10 ms positive pulse at the other side of the relay while AT12REP is kept at 0 V. This principle is demonstrated in figure 5.1 where the /1 relay is switched to the rest position and the /10 relay is activated.
RELAY /001 RELAY /010
TO REST POSITION TO ACTIVE POSITION
AT12REI
AT1/001
AT1/010
ST«2M
Figure 5.10 Switching pulses for relay
Input circuit
The 50ft termination resistor is formed by the resistors R1006/R1007. It is switched by relay contact
K1001. The NTC resistor R1011 is placed between R1006 and R1007 and measures the temperature of these resistors. This information is routed to the microprocessor on unit A3. If necessary the 50ft position is switched off.
The DC blocking capacitor is C1001. In DC position the capacitor is not used and discharged via
R1002. The signal path is via K1002.
High impedance attenuator
The divide by one section (/1) is switched via the relay contacts K1003. It switches the input signal through without further attenuation.
The divide by ten section (/10) is present between the relay contacts K1004. The /10 is accomplished by R1016, R1027, R1031 and R1032.
The divide by hundred section (/100) is present between the relay contacts K1006 and K1004/6,4.
The /100 is accomplished by R1021 and R1023.
LF square wave calibration is achieved via the dual varicap diode V1002. Influence of the signal on the capacitance value is eliminated by two diodes with opposite polarization. The compensation factor and consequently the voltages AT1LFCOR1 and AT1LFCORO are depending on the selected attenuator position.
UNIT DESCRIPTIONS 5.1 -3
The signal ATCAL is applied to /33 attenuator R1008/R1009. ATCAL can supply several accurate voltages that are used for vertical calibrations.
Impedance converter
This active stage consists of three sections with different frequency ranges. The sections partly make use of the same components:
- The HF section for frequencies above 5 kHz. It is formed by C1021, FET V1006 and the two emitter followers V1008 and V1009. The FETs V1004 and V1005 are used for input protection.
V1007 is a current source.
- The LF section for frequencies 30 Hz to 5 kHz. It is formed by operational amplifier N1001 (gain
2x) that receives the LF input signal via divide-by-two attenuator R1031/R1032. The capacitors
C1023 and C1025 are frequency determining components in the N1001 feedback loop. The
N1001 output signal is routed via R1034, V1006 and the emitter followers V1008 and V1009.
- The DC section for frequencies DC to 30 Hz. It is formed by operational amplifier N1001 (gain 2x) that receives the input signal via divide-by-two attenuator R1031/R1032. Via feedback resistor
R1037 the voltage at the output of the impedance converter is compared with the input level via the + and inputs of N1001. This keeps the DC output value of the impedance converter exactly at the required value. This compensates for DC drift. Part of the feedback loop is V1001 that determines the low-frequency gain. The N1001 output signal is routed via R1034, V1006 and the emitter followers V1008 and V1009.
The low impedance attenuator is formed by R1072 and R1073. Switching is accomplished by V1012 and V1013. V1012 conducts in the /1 position and V1013 in the /2,5 position. The attenuator output signal is an unbalanced signal. The unbalanced output signal is applied to the succeeding stage via
R1071 and via R1074.
Diagram 5
Probe indication circuit
There are four identical circuits of which the one for channel 1 is described. The resistor in the indication ring of the probe is present between X1002 and ground potential. The resistance value is measured by the microprocessor on unit A3.
The temperature of the 50Q termination resistors on diagram 1 is measured by NTC resistor R1011.
This resistor is placed in between the two termination resistors. If the temperature gets too high, the
+ input of N1101 becomes lower than the input. This makes output 13 of N1101 low and 0 volt is detected by the microprocessor via the probe indication line PROBE1. This is the sign for the microprocessor that the 50Q resistor is too hot and it is switched off.
LF square wave calibration
This circuit produces the voltages for the varicap diodes V1002. The diodes require control voltages with opposite polarity. There are four identical circuits for the four vertical channels. The input signal
AT 1LFCAL is produced by a DAC and has the range 0 ... 10 volt. This is converted via the operational amplifiers N1102, N1103 into two signals that range from -5 ... -15 volt (AT1LFCOR0) and +5 ... +15 volt (AT1LFCOR1) respectively.
Amplitude Calibrator
This circuit consists of 8-position multiplexer D1152 and operational amplifier N1104. It can supply 8 accurate voltages of 10V, 5V, 2V, 1V, 500mV, 200mV and 0V. They are supplied to the vertical channels 1 ,2 ,3 and 4 for calibration voltages. The voltages are derived from a voltage divider with precision resistors R1192 through R1197. The divider is supplied with an accurate 10 V reference voltage. Under control of a three bit address ATCAL0 ... ATCAL2 one of the outputs of the voltage divider is selected via D1152. This signal is routed to the vertical channels via buffer N1104.
Loop gain calibration
The output voltage range of a digital-to-analog converter (DAC) is changed via resistor network
R1112, R1113 and R1114. The output voltage is applied to V1001 that determines the low-frequency gain in the channel 1 attenuator.
5.1 -4
UNIT DESCRIPTIONS
Calibrator
This circuit is used for probe adjustment. It is built up around triple analog multiplexer D1151. The sections D1151/1,2,10,15 and D1151/3,4,5,9 form a 2 kHz oscillator. The third section
D1151/11,12,13,14 switches in the 2 kHz rate of the oscillator. The oscillation principle is now explained with the simplified diagram in the figure.
+12V
Figure 5.11 Simplified diagram of CAL generator
The start is in the situation as given in the figure. C1151 charges from +12V via R1151 and the switch contacts 15 and 2. After some time the voltage across C1151 reaches the digital "High" level and the switch contacts go to the opposite position. This causes C1151 to discharge to 0V via switch contacts
3 and 4 and R1152. Via switch contacts 15 and 1 and R1153 a gap is created between the switching moments. The charging/discharging process makes pin 11 high and low at a 2 kHz rate. This connects voltage divider R1156/R1157 and R1158, R1159 with + 10VREFor leaves it floating in the
2 kHz rate.
5.1.1.3 Preamplifiers
Diagram 6, 7
The preamplifiers for channel 1 and 2 and associated current sources are given in diagram 6.
Diagram 7 gives this for channel 3 and 4. Channel 1,2, 3 and 4 are identical, therefore only channel
1 is explained.
The output signals AT 10UT 1 and AT1OUT0 from the channel 1 attenuator are applied to pin 3 and
5 of amplifier IC D1201. The balanced output signal of this IC is available at pin 18 and 19. This signal is routed to the Y-functions section via the level shifters V1201 and V1202.
UNIT DESCRIPTIONS 5.1 -5
The amplifier D1201 can be switched to a number of attenuation/gain positions that are dependent on the channel 1 AMPL position. The gain x1 position is determined by R1205/R1206/C1205 that are present across pin 6 and 7. The x1 is switched by control signal PA1X1.
The attenuation /2 is determined by R1207 and switched by PA1/2.
The gain x5 is determined by R1208/R1210/R1215/C1210 and switched by PA1X5. Continuous gain control is determined by DAC output signal VAR1 that is applied to pin 20. This signal comes from microprocessor unit A3. It is used for front panel gain control in fine steps and also for gain calibration.
The complete range of the channel 1 input sensitivities is controlled via front panel control AMPL. It is accomplished by the combination of input attenuator positions and the x1, 12, x5 and the VAR1 functions.
Offset control is achieved via the DAC output signal PA1 OFFSET that is applied to the D1201 input pin 13. The DAC signal PAIOFFSTRG gives an offset signal in the current sources V1208 (PA1LSA) and V1209 (PA1LSB). PA1LSA and PA1LSB are applied to level shifters V1201A/1202. This is used to compensate for offset in the trigger path and also influences the offset in the vertical channel. This in turn is compensated via the POS1 signal in the Y-functions section.
The circuit in the bottom half of the diagram includes a number of current sources for the channel 1 and 2 preamplifiers. The reference for all these current sources is PAVREF that is present at
N1251/pin 3. This is converted in a reference voltage at the collector of V1252 that is applied to the current sources. The currents for channel 1 are PA1ICL, PA1ISY, PA1LSA and PA1LSB. The currents for channel 2 are PA2ICL, PA2ISY, PA2LSA and PA2LSB. PA2LSA and PA2LSB are adjustable via
DAC output signal PA20FFSTRG.
5.1.1.4 Y functions and delay line driver
Diagram 8
This diagram shows the channel 1,2, 3 and 4 function circuits D1301, D2301, D3301 and D4301.
The balanced output signals of each cicuit are available at pin 7 and 8. They are all applied to the resistance network R1313 through R4314 that is shown on the next diagram. The output of this network feeds the delay line driver.
The four function circuits are almost identical. Compared with channel 1 and 3, channels 2 and 4 have additional invert functions. For this reason, only the channel 2 circuit is explained. Here the balanced input signal is applied to pin 25 and 26 of D2301. The balanced output signal at pin 7 and 8 is switched by control signal CNT2CH-HX. The balanced output signals FNC2MTR0 and FNC2MTR1 that are available at pin 13 and 14 are used for triggering the main time base. This is switched via control signal CNT2MT-HT. The balanced output signals FNC2DTR0 and FNC2DTR1 that are available at pin 1 and 2 are used for triggering the delayed time base. This is switched via control signal
CNT2DT-HT.
Channel 2 position control is achieved via an adjustable analog DAC voltage POS2 from the microprocessor unit A3. This voltage is applied to input 9 of operational amplifier N2202. This IC converts the DAC voltage POS2 (1 ... 4 V) into a voltage between -8 and +8 V. This voltage is converted into a current via resistor R2311, because pin 12 of D2301 is a virtual ground.
The balanced output signals FNCYOPO and FNCYOP1 at pin 5 and 6 of D2301 of the channel 1 can be used to provide signals for the Y-out option. The (optional) Y-out circuit (present in channel 1 only) is located on an additional unit that is connected via the connectors X1303 through X1310. This is switched via control signal YOP-HX at pin 4. If no option installed, the signal is switched off by a low level supplied via R1312. If the option is present the switching is achieved by a signal coming from the additional unit.
5.1 -6
UNIT DESCRIPTIONS
The balanced output signals FNC1DPOO and FNC1DP01 at pin 9 and 10 can be used to provide signals for future instrument extensions such as a digital signal storage. This is present on all 4 channels. Biasing current for these outputs is provided via V1302, V1313 and R1307. The capacitor
C1301 determines the cut-off frequency if the bandwidth limiter is active. The limiter is switched via signal FNCBWL.
The following table summarizes the functions and related pin numbers of the IC’s used in the circuit diagram:
Output (pin)
MTB Trig
(13,14)
DTB Trig
0.2)
Y-out
(5,6)
Digital out
(9,10)
Chann. out
(7,8)
On/Off (pin)
20
24
4
—
11
Invert (pin)
19
23
3
3
3
Bandw. Lim. (pin)
-
-
28
28
28
Pos (pin)
-
-
-
12
12
Diagram 9
This diagram shows the delay line driver and associated circuitry. The delay line driver itself consists of the balanced amplifier branches V5003/V5006/V5008 and V5004/V5007/V5009. These amplifiers serve as a 9x amplifier and level shifter. V5011/V5012/V5013/V5014 clamp the input signal in order to reduce the output voltage swing applied to the delay line. The balanced input current (100 uA/div) signals from channel 1,2, 3 and 4 are FNC1OUT0/FNC2OUT0/FNC3OUT0/FNC4OUT0 and
FNC10UT1 /FNC20UT1 /FNC30UT1 /FNC40UT1. The output voltage (45 mV/div when connected to the delay line, 90 mV/div when open) signals DLDOUTO and DLDOUT1 supply the delay line. The resistors R5051 and R5052 give correct 50Q termination impedance.
The Y-offset control part is supplied with the DAC output signal DLDOFFSET (delay line driver offset) that is used for instrument calibration. The DAC output signal TRASEP gives trace separation between main and delayed time base display in alternate time base mode. TRASEP is passed through via analog switch D5001/6,8,9 if control signal TRASEP-HC is high.
Operational amplifier N5001/5,6,7 makes a stable +4 V reference voltage.
Operational amplifier N5001/2,3,1 keeps DLDDCLEVEL0 and DLDDCLEVEL1 at equal level by influencing the level at DLDDCCORR.
Diagram 10
This diagram comprises the circuitry that controls the vertical channels 1,2, 3 and 4 and the main
(MTR) and delayed (DTR) trigger sources. The heart is formed by IC D9009. The IC is loaded with information about the control functions that must be executed. This happens via the input lines SCL
(Serial d o c k ) and SDA (Serial DAta) that come from the microprocessor unit A3. At turn-on D9009 gets a reset at pin 17. This occurs via V5506 which is controlled by output D9004/11 on the next diagram.
The channels 1 ,2 ,3 and 4 are switched via the output pins 2, 3, 4 and 5 of D9009. The main time base trigger (MTR) source of channel 1 ,2 ,3 and 4 is switched via the control signals that are available at pin 2,12,1 and 13 of multiplexer D5501. This multiplexer is supplied with 3 lines that come from pin 25,26 and 27 of D9009. The signal CNT2MTI-HT that is present at pin 11 of AND gate
UNIT DESCRIPTIONS 5.1 -7
D5503 gives the necessary inversion of the main trigger path if channel 2 is in the inverted mode. The signal CNT4MTI-HT that is present at pin 4 of AND gate D5503 gives inversion of the main trigger path if channel 4 is in the inverted mode.
The delayed time base trigger (DTR) source of channel 1,2, 3 and 4 is switched via the control signals that are available at pin 2,12,1 and 13 of multiplexer D5502. This multiplexer is supplied with
3 lines that come from pin 22, 23 and 24 of D9009. The signal CNT2DTI-HT that is present at pin 10 of AND gate D5503 gives the necessary inversion of the delayed trigger path if channel 2 is in the inverted mode. The signal CNT4DTI-HT that is present at pin 3 of and-gate D5503 gives inversion of the main trigger path if channel 4 is in the inverted mode.
The input pin 9 ALTCLN of D9009 gives channel/trigger source switching in the alternate display mode. The circuit with V5503 converts the current input signal ALTCLK (ALTernate CLock) from the time base logic into a voltage signal. The input pin 17 PUDML gives D9009 a preset when switching the oscilloscope on.
For the chopped display mode a chopper oscillator V5501W5502 is present. It is switched on when control signal CHSW (CHopper Switch) is high. The output signal of the oscillator is applied to pin 7 of D9009. The signal CHBLANK gives display blanking when switching between one channel to another.
The D9009 output signal TRASEP-HC activates the trace separation control in alternate time base mode. This signal is high if the delayed time base is active and low for the main time base. The output signal TBSEL controls the choice between main time base (high) and delayed time base (low) for horizontal deflection.
Diagram 11
This diagram includes the generation of control signals for the channel 1,2, 3 and 4 attenuators, preamplifiers, Y-function and delay line driver circuits. The names of the control signals indicate exactly which circuit part is controlled:
- The signals starting with AT 1, AT2, AT3 and AT4 control the ATtenuators of respectively channels
1,2, 3 and 4. The attenuators and associated signal name lists are indicated in the description belonging to figures 1,2, 3 and 4.
- The signals starting with PA1, PA2, PA3 and PA4 control the PreAmplifiers of respectively channels 1,2, 3 and 4. The preamplifiers and associated signal name lists are indicated in the description belonging to figures 6 and 7.
- The signals starting with FNC1, FNC2, FNC3 and FNC4 control the Y- FuNCtion (channel and trigger source switching) of respectively channels 1,2, 3 and 4. The Y-function blocks and associated signal name lists are indicated in the description for diagram 8.
- The signals starting with DLD control the Delay Line Driver. This circuit part and associated signal name list are indicated in the description for diagram 9.
A part of the control functions are simple on/off functions; e.g. the switching of a certain attenuator section. Other control functions consist of an adjustable DC voltage; e.g. the DC voltage that determines the gain of an amplifier section.
D9001 and D9002 have outputs that are able to drive the relays in the attenuator sections of channels
1, 2, 3 and 4. The IC's are controlled by the microprocessor on unit A3. This happens via the data signal SDA (Serial DAta) and the synchronization signal SCL (Serial CLock). The enable signals
5.1 -8
UNIT DESCRIPTIONS
DLENO-HT (Data Latch ENable) and DLEN1-HT determine if D9001 or D9002 reacts on the
SDA/SCL signals. The figure below indicates the relation between SDA and SCL.
SDA
/
SCL
/
DATA LINE
STABLE:
DATA VALID
\ V
CHANGE !
OF DATA •
ALLOWED!
\
!
!
Figure 5.12 Relation of serial bus signals SDA and SCL
D9003 and D9004 have outputs that control a number of on/off functions in the preamplifier. The IC’s are connected in cascade as a shift register. The IC’s are controlled by the microprocessor on unit
A3. This happens via the data signal SDA (Serial DAta) and the synchronization signal SCL (Serial
CLock). The enable signal STROBEO-HT in relation with SCL and SDA is indicated in the figure below. New data can be clocked into the shift register if STROBEO-HT is low. The new data becomes available at the outputs at the low-to-high transition of STROBEO-HT.
CONFIGURATION OF HEF 4094 BUS
8 PARALLEL
OUTPUTS
8 PARALLEL
OUTPUTS
INPUT PULSES FOR HEF 4094 BUS:
DATA IS CLOCKED INTO THE HEF 4094 1C
AT POSITIVE SLOPE OF CLOCKPULSE:
STROBE-HT
OUTPUTS
OLD DATA
Figure 5.13 Configuration of serial control bus
N9001, N9002 and N9003 are octal digital-to-analog converters (DAC’s). Each IC has 8 outputs capable of delivering a DC voltage that is adjustable between 0.5 and 9.5 V. This is controlled by the microprocessor on unit A3 via 6 bits of information that allow 64 adjustment steps. This happens via the data signal SDA (Serial DAta) and the synchronization signal SCL (Serial CLock). The data bits are preceeded by address bits that are compared with the fixed address A0/A1/A2 applied to pin 7,
8 and 9. This determines if N9001, N9002 or N9003 reacts on the bitstream.
Note: a solder pad is present in the SDA and SCL input lines of every IC. This gives the possibility to isolate a suspected IC from the other in case a fault is suspected.
UNIT DESCRIPTIONS 5.1 -9
5.1.1.5 Main and delayed time base triggering
Diagram 12
The main time base triggering (MTR) is mainly formed by IC D6541. The other IC D6621 is the peak- peak detector for the trigger level. The balanced input signal for triggering on vertical channels 1,2,
3 or 4 is applied to pin 7 and 8. This signal can originate from one of the 4 vertical preamplifier sections where the source selection is also done. The dc biasing currents come from the circuit with
V6506, V6507 and V6532. This circuit is also supplied with the line trigger sinewave signal MTRLINE that comes from the power supply. This signal can be used for mains/line triggering and is selected on the next diagram.
The output signal of D6541 is available at pin 19 and 20. This signal is routed to the main time base
(MTB) via the level shifters V6573 and V6574. The signal MTRVIDEO from output pin 2 of D6541 is routed to the TV trigger circuit.
The IC D6541 incorporates the filters for HF reject (external capacitor C6549), LF reject (external capacitor C6551) and AC (external capacitors C6559, C6561, C6562). These filter modes are switched with the control signals MTRLF-HD (pin 3) and MTRHF-HD (pin 14). Positive/negative slope and video are switched with the control signals MTRSLOPE (pin 21) and MTRTVSEL-HD (pin 4). The logic levels of these control signals are indicated in two tables on the diagram. The signal MTRSEN is a DAC output voltage that determines the gain of the trigger amplifier.
A balanced current signal leaves D6541 at pins 26 and 27. This signal is converted into a voltage signal via V6604 and V6606. The voltage signal is applied to pins 3 and 7 of the peak-peak detector
D6621. This IC detects the positive and negative peak values of the trigger signal. It reduces in the peak-peak trigger mode (switched with MTRPPLEV-HD) the range of the level (LEVMTB) to just within the peak-peak signal value.
The output of the peak-peak detector is present at pin 14 and 15 and routed to level input pin 22 and
23 of D6541, via the level shifter with V6667, V6668, V6686 and V6687. At this point a level offset correction is also introduced via DAC signal MTRBAL. The level is fixed in TV trigger mode by giving signal LEVMTB a predefined fixed level. The output pulse MTRTVSYNC from the TV synchronization separator circuit (see next diagram) is applied to the base of V6687. This signal is interrupted if the
TV trigger mode is off.
The series parallel converter D9011 has outputs that control a number of on/off functions in the MTB triggering. D9011 is controlled by the microprocessor on unit A3. This happens via the data signal
SDA (Serial DAta) and the synchronization signal SCL (Serial CLock). The enable signal is
STROBE1-HT.
Diagram 13
This diagram shows the TV trigger circuit. The signal MTRVIDEO from pin 2 of MTR circuit D6541 is applied to the input of the TV CLAMP circuit V6754/V6757/V6759/V6763A/6768. The peak level of the synchronization pulses is detected via V6757 and C6758. The TV signal at the base of V6768 is kept at a constant level via V6759 and V6754. Diode V6761 cuts off the video information so that only synchronization pulses are applied to input pin 2 of N6771.
The TV synchronization separator N6771 is able to decode three different types of sync pulses. The analog control signal MTRTVMODE at pin 6 can have 3 different values that determine the TV standard in which the circuit will work. The standards and respective control voltages are indicated in a table.
N6771 separates the TV synchronization pulses. The following signals are available at its outputs:
- Pin 1 carries negative going line (MTRTVL) pulses. These pulses can be applied to the MTB trigger (MTR) section via multiplexer D6781. Via multiplexer D7711/3,4,5,9 they are applied to the delayed trigger (DTR) section.
- Pin 3 carries the negative going field pulses (MTRTVFR) that appear at the beginning of field 1 and field 2.
5.1 - 10 UNIT DESCRIPTIONS
- Pin 7. The signal is high during field 1 and low during field 2. Field 1 and Field 2 together form one frame.
The set/reset flipflops D6779 make the field 1 (MTRTVFLD1) and field 2 (MTRTVFLD2) pulses. As input signals are used the output signals at pin 7 and 3 of N6771.
The multiplexers D6781 and D7771 select the TV and line trigger sources for MTR and DTR:
- The MTB TV trigger signal is MTRTVSYNC. It originates from D6781/14.
- The DTB TV trigger signal is DTRTVL. It originates from D7711/15.
- The signal VSYNC from D6781/4 is not used: it will be used for extensions such as digital signal storage.
- The MTB mains/line trigger signal is MTRLINE. It is switched via D5001/10.11,12.
- The DTB mains/line trigger signal is DTRLINE. It originates from D7711/13.
Diagram 14
This diagram shows the DTB trigger (DTR) circuits. This circuit is build up around D7541. It is a simplified replica of the main trigger circuit. This because of the fact that the DTR is not equipped with peak-peak trigger facility. The level signal LEVDTB is applied almost directly to pin 22 and 23 of
D7541. The transistors V7686 and V7687 are used to convert an asymmetrical LEVDTB signal into a symmetrical signal. At this point the TV line synchronization pulses (DTRTVL) are applied to the delayed trigger section when required.
The XDEFL CIRCUIT is used forX-DEFLection via the balanced X deflection signals DTRXDEF1 and
DTRXDEFO (pin 15 and 16 of D7541). The outputs of the circuit are TBXOUT1/TBXOUTO and are applied to the time base section. It is there where the selection is done between X- deflection signal,
MTB sawtooth and DTB sawtooth. Position control is achieved by signal DTRXPOS which is derived from LEVDTB via switch D7711/4,9,3. This switch is indicated on the preceding circuit diagram.
D9013 is used to determine the modification state of the unit A1. This is important in connection with the microprocessor hardware. The 8 outputs of D9013 are made high one by one after the oscilloscope is turned on. Via output diodes V7801 ... V7808 the high level is passed through.
Depending on the modification state of the unit, one or more diodes are inserted into the p.c.b.. This gives the possibility to program 256 different modification levels.
5 .
1.1.6 Main and delayed time base and control logic
Diagram 15
This diagram incorporates the control logic for the main and delayed time base. This logic consists mainly of IC D8004. Also the input signal for the final Z-amplifier is generated on this diagram and occurs in D8003.
The selected trigger signals for the main time base are MTRIG0/MTRIG1 and are applied to pin 7 and pin 6 of D8004. This results via output pin 24 and V8013/V8014 into signal MTBGATE that starts the main time base (MTB). Signal STRCALM-HT is used to start the MTB via V8003. This occurs during autocalibration of the MTB.
The signal ALTCLK is derivod here via V8018. This signal is used for display switching in ALTernate display mode. This happens in D9009 in the section that controls the display and trigger sources.
The selected trigger signals for delayed time base (DTB) are DTRIG0/DTRIG1 and are applied to pin
9 and pin 8 of D8004. This results via output pin 18 and V8012/V8011 into signal DTBGATE that starts the DTB. Signal STRCALD-HT is used to start the DTB via V8007. This occurs during autocalibration of the DTB.
UNIT DESCRIPTIONS 5 .
1 - 1 1
D8004 has inputs and outputs with the following functions:
- TBEOHO-LX goes low at the end of the hold-off period.
- TBAUTO-LD is low if auto free run mode is active.
- TBEOM-HX goes high at the end of the MTB sweep.
- TBSTD-LX goes low to start the DTB sweep.
- TBEOD-HX goes high at the end of the delayed sweep.
- TBNOTTR-HT goes high if the MTB is not triggered.
- TBSEL selects MTB if high and DTB if low.
- TBSSG-HT goes high at the end of a single sweep.
- DSOM (pin 2) goes high if a MTB trigger occurs. The connected circuit with V8023/V8024 is used for extensions such as digital signal storage.
- DSOD goes high if a DTB trigger occurs. The connected circuit with V8029/V8031 is used for extensions such as digital signal storage. DSOD is also input signal for the "V peak-peak circuit".
- TBCAUT is connected with timing network R8052/R8066/R8133/C8011 /V8067/V8068. This network determines in auto free run mode the 100ms waiting time after which the MTB becomes free running.
V8061A/8062/V8063/V8066 form the "V peak-peak circuit". It plays a role as the automatic positioning of the cursors on the top and bottom of the signal (Vpp mode). This function works via the
DTB trigger circuit and is mainly software based. V8062/V8063 form a set-reset flipflop with inputs with hysteresis. The flipflop is set with the DSOD pulse that goes high at the moment that a DTB trigger pulse is detected. This is signalled to the microprocessor via V8066 which makes the TTL signal VPPTEST-LD. The shape of the waveform is scanned by the microprocessor by monitoring the signal VPPTEST-LD at different DTB trigger LEVEL positions. The flipflop is reset by the microprocessor via signal STRCALD-HT.
The balanced output signals ZTRAO and ZTRA1 from pin 10 and 11 of D8003 are applied to the final
Z-amplifier in order to control the intensity on the CRT screen. An important input signal is TBZB from
D8004/19. This signal is high if the MTB sweep is on and during this time the light on the CRT is on.
The intensified part during the time that the DTB sweep is on is switched on if signal TBZA is high.
TBZA originates from D8004/20.
The signal CHBL that is applied to D8003/15 is influenced from the chopper blanking signal
CHBLANK-HX and from the external Z-MODulation signal. The DAC output signals TBINTRAT-XA
(pin 3) and INTTRA respectively influence the intensity ratio between MTB and DTB display and the total intensity on the CRT.
The signal TBXDEFL-LD (pin 6) switches the light continuously on if it is low. This happens in the X-
DEFLection mode.
The circuit with V8002/V8006 is used for Z-MODulation via the BNC socket at the rear of the oscilloscope. The output signal of the circuit is TBZEXT and it is applied to D8003/16.
D9008 has outputs that control a number of on/off functions. The IC’s of this type are connected in cascade as a shift register. The IC’s are controlled by the microprocessor on unit A3. This happens via the data signal TBD01 (from the preceding D9011); the synchronization signal TBSCL (Time Base
Serial CLock). The enable signal is STROBE1-HT. New data can be clocked into the shift register if
STROBE1-HT is low. The new data becomes available at the outputs at the low-to-high transition of
STROBE1-HT.
N8005 is an octal digital-to-analog converter. The IC has 8 outputs that can deliver a DC voltage that is adjustable between 0.5 and 9.5 V. This is controlled by the microprocessor on unit A3 via 6 bits of information that allow 64 adjustment steps. This happens via the data signal SDA (Serial DAta) and the synchronization signal SCL (Serial CLock). The data bits are preceeded by address bits that are compared with the fixed address A0/A1/A2 applied to pin 7, 8 and 9. This determines if N8005 or similar IC’s in the instrument will react on the bitstream.
Note: a solder pad is present in the SDA and SCL input lines of each IC. This gives the possibility to isolate one IC from the others in case a fault is suspected.
5.1 -12 UNIT DESCRIPTIONS
Diagram 16
This diagram indicates the timing circuits for the MTB. The principle of the time base is that a capacitor is charged with a constant current. This gives a time-linear voltage across the capacitor; the so- called sawtooth or sweep signal. The timing capacitance consists of C6011 that is always in circuit and C6012, C6013 that are activated via the switching transistors V6016 and V6019. The MTB control is done in IC D6011.
The constant current is supplied via transistor V6003 and V6005. The current source consists of voltage divider R6002 through R6007 with precision resistors. The voltage across this divider can be influenced by DAC output voltage MTBVAR via N6007/5,6,7 and V6001. This is necessary for continuous time/div control (VAR) and calibration. The voltage on a tap of the voltage divider can be selected via multiplexer D6001. This voltage (MCSCONTROL) is applied to the base of V6003 and
V6004. This occurs via operational amplifier N6006. Via multiplexer D6002 two different emitter resistance values can be selected for V6003 and another two for V6004. The resistance values differ by a factor of 10: the emitter resistance for V6003 is switchable between R6014 (time base magnifier x10) and R6013 (magnifier x1). The emitter resistance for V6004 is switchable between R6016 (time base magnifier x10) and R6015 (magnifier x1).
The current from V6004 is applied to pin 16 of D6011 and is used as a reference. The sawtooth that is generated across the timing capacitor(s) is applied to pin 18 of D6011. Inside this IC is the time base switching transistor. The start of the sawtooth is initiated by signal MTBGATE that is applied to pin 20 of D6011. The sawtooth is also applied to pin 17 and converted into a balanced output signal that is available pin 12 and 13. The MTB sweep pickoff circuit consists of Source follower V6013 (and matching V6014) and emitter follower V6012. Horizontal position control is achieved via DAC output signal TBXPOS at pin 14.
Input signal TBCALREF at D6011/28 and output signal MTBCALTST at D6011/24 provide autocalibration of the time base. The sweep is switched on via STRCALM-HT and MTBGATE and compared with reference voltage TBCALREF. Via switching of output signal MTBCALTST, the microprocessor knows if the current source delivers the correct current. In case of inaccuracies the microprocessor makes corrections.
The start of the DTB is initiated by a low level of signal TBSTD-LX at pin 1 of D6011. The signal is generated via comparison of the MTB sawtooth signal and the adjustable DC voltage DTBM (delay time multiplier). The DTBM signal is coming from DAC output N6014/6 via operational amplifier
N6008/5,6,7.
The signal TBEOM-HX at pin 4 of D6011 becomes high at the end of the MTB sweep. The signal
TBEOHO-LX at pin 5 of D6011 becomes low at the end of the hold off period. The length of the hold off period is determined by the DAC output voltage HOLDOFF that is applied to D6011/7.
The MTB is switched on by making MTBONOFF (D6011/11) high. This signal is derived from control signal TBSEL. TBSEL is high during X deflection by the MTB and low during DTB. The MTB is also off in external X- deflection mode.
V6006 is on during the fast time base positions. It activates a stabilizing circuit that is connected with
D6011/21.
The circuit with V6042 and C6033 assures that the hold off time in the fastest time base positions will never become shorter than 3 us. The circuit with C6035, V6002, C6017, V6008 and C6415 is responsable for the hold off timing. C6035 is always in circuit and C6017 and C6415 are activated by switching transistors. The capacitors are charged in parallel with the MTB timing capacitors. During the hold-off time that follows they are discharged by a current source inside D6011. The hold- off time can be varied by varying the discharging current.
UNIT DESCRIPTIONS 5.1 - 13
The table shows the active main time base sections as a function of time/div setting: main time base
Time Current source
/div MTBI2 .11
.10
0.5s
L
0.2s
L
0.1s
L
50ms L
20ms L
10ms L
5ms L
2ms H
1ms H
,5ms L
,2ms L
.1ms
L
50us L
20us L
10us L
5us L
2us
1us
H
H
.5us
L
,2us L
.1us
L
50ns L
20ns H
L
L
H
L
L
H
H
L
L
L
L
H
L
L
H
H
L
L
L
L
H
H
L
L
H
L
L
H
L
H
L
H
L
H
L
L
H
L
H
L
H
L
H
L
H
L
Charge
.110
Current
V6005/C
H
H
H
H
H
H
H
H
H
H
H
L
L
L
H
H
H
H
H
L
L
L
H
8uA
18uA
35uA
70uA
175uA
350uA
700uA
1,75mA
3.5mA
8uA
18uA
35uA
70uA
175uA
350uA
700uA
1.75mA
3.5mA
70uA
175uA
350uA
700uA
1.75mA
Timing caps
C6012
MTBC2
H
H
H
H
H
L
L
L
L
H
H
H
H
L
L
L
L
L
L
L
L
L
L
C6013
MTBC3
L
L
L
L
L
L
L
L
L
H
H
L
L
L
L
L
H
H
H
H
H
H
H
Hold off caps
C6017
HOMU
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
H
L
H
H
H
H
C6415
HONAN
H
H
H
H
L
L
L
L
L
L
H
H
H
H
H
H
H
L
L
L
L
L
L
Diagram 17
This diagram indicates the timing circuits for the DTB. It is basically identical to the diagram of the
MTB. For a description refer to the explanation of the corresponding circuit parts in diagram 16. The additional parts in this diagram are explained below.
The point where the input signals for the final X amplifier are applied is present on this diagram. This point is formed by the emitters of V7031 and V7032. The balanced signals that are applied are the combined MTB and DTB outputs TBXOUTO/TBXOUT1 and the external X-DEFLection signals
TBXOUTO-XA/TBXOUT1 -XA.
The circuit with N7016 makes an accurate voltage +15TBREF for the MTB and DTB timing circuits.
Also the TBCALREF voltage for time base calibration is made here. As a reference for this circuit the
+10VREF is used.
The circuit with D7005 converts the 5 digital 0V/5V signals into one analog signal with 32 possible levels. This signal can be read by an analog input of the microprocessor.
The circuit with multiplexer D7004 selects accurate voltages that come from a divider network with precision resistors R7064 through R7067. Operational amplifier N7014/2,3,6 is supplied with these voltages in order to calibrate the X-path from the MTB.
Operational amplifier N7015/2,3,6 does the same for DTB. Voltage DSW (present at the DTB output) is made equal to the selected voltage from the voltage divider R7064 through R7067. This occurs via feedback signal DCLOOR This gives a defined input voltage for the X-path (including the D7011
5.1 - 14 UNIT DESCRIPTIONS output stage). The output voltage XCAL at the horizontal deflection plates of the CRT is measured and horizontal calibrations are performed. During normal oscilloscope functioning the multiplexer connects pin 3 + 4 and pin 13 + 11. This switches V7093 and V7094 on and the feedback paths for
MTB and DTB are interrupted.
The table shows the active delayed time base sections as a function of time/div setting: delayed time base
Time Current source
/div DTBI2 .11
.5ms
,2ms
.1ms
50us
20us
10us
5us
2us
1us
L
L
L
L
L
L
L
H
H
L
L
H
L
L
H
H
L
L
.10
L
H
L
L
H
L
H
L
H
Charge
.110
Current
V7005/C
H
H
H
H
H
L
L
L
H
8uA
18uA
35uA
70uA
175uA
350uA
700uA
1.75mA
3.5mA
Timing capacitor
C7012
DTBC2
H
H
H
H
H
H
H
H
H
.5us
.2us
.1us
50ns
20ns
L
L
L
L
H
L
L
H
H
L
L
H
L
H
L
H
H
H
H
H
70uA
175uA
350uA
700uA
1.75mA
L
L
L
L
L
5.1.2 Signal name list
Note: In the signal name list you find the itemnumberofthe component that is source or destination.
Behind this itemnumber (separated by you find the number of the diagram where the source/destination can be found.
NAME MEANING SOURCE DESTINATION
ALTCLK
ATCAL
ALTERNATE DISPLAY MODE CLOCK
SIGNAL FOR GAIN CALIBRATION
AT1AC/DC AC/DC INPUT COUPLING SELECTION CH1
AT 1LFCAL
AT 1LFCORO
LF CORRECTION CONTROL SIGNAL CH1
LF CORRECTION 0 CH1
AT1LFCOR1 LF CORRECTION 1 CH1
AT 1LOOPCAL LF GAIN CONTROL CH1
AT1LOOPCOR LF GAIN CONTROL IN FEEDBACK LOOP CH1
AT1 OFFSET OFFSET CONTROL SIGNAL CH1
AT1OUT0 ATTENUATOR 1 OUTPUT 0CH1
AT10UT1 ATTENUATOR 1 OUTPUT 1 CH1
AT1 PROBE PROBE DETECTION SIGNAL CH1
AT1PROT 50£2 PROTECTION CH1
V8018:15 V5503:10
N1104:05 R1008:01
R2008:02
R3008:03
R4008:04
D9001:11 K1002:01
N9001:11 R1102:05
N1102:05 R1029:01
N1103:05 R1028:01
N9001:11 R1113:05
R1113:05 V1001:01
N9001:11 R1039:01
R1074:01 D1201:06
V1013:01 D1201:06
X1002:01 R1096:05
R1011:01 N1101:05
UNIT DESCRIPTIONS 5.1 - 15
AT1.50E
AT1/001
AT1/010
AT1/100
AT1/2.5
AT12REP
AT2AC/DC
AT2LFCAL
AT2LFCORO
AT2LFCOR1
AT2LOOPCAL
AT2LOOPCOR
AT20FFSET
AT2OUT0
AT20UT1
AT2PROBE
AT2PROT
AT2.50E
AT2/001
AT2/010
AT2/100
AT2/2.5
AT3AC/DC
AT3LFCAL
AT3LFCORO
AT3LFCOR1
AT3LOOPCAL
AT3LOOPCOR
AT30FFSET
AT3OUT0
AT30UT1
AT3PROBE
AT3PROT
AT3.50E
AT3/001
AT3/010
AT3/100
AT3/2.5
AT34REP
500 INPUT IMPEDANCE SELECTION CH1 n ATTENUATOR SELECTION CH1
/10 ATTENUATOR SELECTION CH1
/100 ATTENUATOR SELECTION CH1
/2.5 ATTENUATOR SELECTION CH1
COMMON FOR ALL RELAIS CH 1,2
AC/DC INPUT COUPLING SELECTION CH2
LF CORRECTION CONTROL SIGNAL CH2
LF CORRECTION 0 CH2
LF CORRECTION 1 CH2
LF GAIN CONTROL CH2
LF GAIN CONTROL IN FEEDBACK LOOP CH2
OFFSET CONTROL SIGNAL CH2
ATTENUATOR 2 OUTPUT 0 CH2
ATTENUATOR 2 OUTPUT 1 CH2
PROBE DETECTION SIGNAL CH2
500 PROTECTION CH2
50Q INPUT IMPEDANCE SELECTION CH2 n ATTENUATOR SELECTION CH2
/10 ATTENUATOR SELECTION CH2
/100 ATTENUATOR SELECTION CH2
/2.5 ATTENUATOR SELECTION CH2
AC/DC INPUT COUPLING SELECTION CH3
LF CORRECTION CONTROL SIGNAL CH3
LF CORRECTION 0 CH3
LF CORRECTION 1 CH3
LF GAIN CONTROL CH3
LF GAIN CONTROL IN FEEDBACK LOOP CH3
OFFSET CONTROL SIGNAL CH3
ATTENUATOR 3 OUTPUT 0 CH3
ATTENUATOR 3 OUTPUT 1 CH3
PROBE DETECTION SIGNAL CH3
50Q PROTECTION CH3
500 INPUT IMPEDANCE SELECTION CH3
/1 ATTENUATOR SELECTION CH3
/10 ATTENUATOR SELECTION CH3
/100 ATTENUATOR SELECTION CH3
/2.5 ATTENUATOR SELECTION CH3
COMMON FOR ALL RELAIS CH 3, 4
AT4AC/DC
AT4LFCAL
AT4LFCORO
AT4LFCOR1
AT4LOOPCAL
AT4LOOPCOR
AT40FFSET
AT4OUT0
AC/DC INPUT COUPLING SELECTION CH4
LF CORRECTION CONTROL SIGNAL CH4
LF CORRECTION 0 CH4
LF CORRECTION 1 CH4
LF GAIN CONTROL CH4
LF GAIN CONTROL IN FEEDBACK LOOP CH4
OFFSET CONTROL SIGNAL CH4
ATTENUATOR 4 OUTPUT 0 CH4
D9001:11 K1001:01
D9001:11 K1003:01
D9001:11 K1004:01
D9001:11 K1006:01
D9001:11 V1017:01
D9001:11 K1001...
K1006:01
K2001...
K2006:02
D9001:11 K2002:02
N9001:11 R2102:05
N1102:05 R2029:02
N1103:05 R2028:02
N9001:11 R2113:05
R2113:05 V2001:02
N9002:11 R2039:02
R2074:02 D2201:06
V2113:02 D2201:06
X2002:02 R2096:05
R2011:02 N1101:05
D9001:11 K2001:02
D9001:11 K2003:02
D9001:11 K2004:02
D9001:11 K2006:02
D9001:11 V2017:02
D9002:11 K3002:03
N9003:11 R3102:05
N3102:05 R3029:03
N3103:05 R3028:03
N9003:11 R3113:05
R3113:05 V3001:03
N9002-.11
R3039:03
R3074:03 D3201:07
V3013:03 D3201:07
X3002:03 R3096:05
R3011:03 N1101:05
D9002:11 K3001:03
D9002:11 K3003:03
D9002:11 K3004:03
D9002:11 K3006:03
D9002:11 V3016:03
D9002:11 K3001...
K3006:03
K4001...
K4006:04
D9002:11 K4002:04
N9003:11 R4102:05
N3102:05 R4029:04
N3103:05 R4028:04
N9003:11 R4113:05
R4113:05 V4001:04
N9003:11 R4039:04
R4074:04 D4201:07
5.1 -16 UNIT DESCRIPTIONS
AT40UT1
AT4PROBE
AT4PROT
AT4.50E
AT4/001
AT4/010
AT4/100
AT4/2.5
ATTENUATOR 4 OUTPUT 1 CH4
PROBE DETECTION SIGNAL CH4
50L2 PROTECTION CH4
50Q INPUT IMPEDANCE SELECTION CH4
/1 ATTENUATOR SELECTION CH4
/10 ATTENUATOR SELECTION CH4
/100 ATTENUATOR SELECTION CH4
/2.5 ATTENUATOR SELECTION CH4
R4013:04
X4002:04
R4011:04
D9002:11
D9002:11
D9002:11
D9002:11
D9002:11
D4201:07
R4096:05
N1101:05
K4001:04
K4003:04
K4004:04
K4006:04
V4017:04
CNT1CH-HX
CNT1DT-HT
CNT1MT-HT
CNT2CH-HX
CNT2DT-HT
CNT2MT-HT
CNT3CH-HX
CNT3DT-HT
CNT3MT-HT
CNT4CH-HX
CNT4DT-HT
CNT4MT-HT
CPBLANK-HX
CHANNEL 1 ON/OFF SIGNAL
DTB TRIGGER ON CH1 ON/OFF
MTB TRIGGER ON CH1 ON/OFF
CHANNEL 2 ON/OFF SIGNAL
DTB TRIGGER ON CH2 ON/OFF
MTB TRIGGER ON CH2 ON/OFF
CHANNEL 3 ON/OFF SIGNAL
DTB TRIGGER ON CH3 ON/OFF
MTB TRIGGER ON CH3 ON/OFF
CHANNEL 4 ON/OFF SIGNAL
DTB TRIGGER ON CH4 ON/OFF
MTB TRIGGER ON CH4 ON/OFF
CHOPPER BLANKING SIGNAL
R5559:10
D5502:10
D5501:10
R5558:10
D5502:10
D5501:10
R5557.10
D5502:10
D5501:10
R5556:10
D5502:10
D5501:10
R5517:10
D1301:08
D1301:08
D1301:08
D2301:08
D2301:08
D2301:08
D3301:08
D3301:08
D3301:08
D4301:08
D4301:08
D4301:08
C8002:15
DLDOFFSET
DLDOUTO
DLDOUT1
DLENO-HT
DLEN1-HT
DLEN2-HT
DSOD
DTBCALTST
DTBVAR
DTBGATE
FNCBWL
FNC1DTR0
FNC1DTR1
FNC1MTR0
FNC1MTR1
DELAY LINE DRIVER OFFSET
DELAY LINE DRIVER OUTPUT 0
DELAY LINE DRIVER OUTPUT 1
DATA LATCH ENABLE 0
DATA LATCH ENABLE 1
DATA LATCH ENABLE 2
SET OF FLIPFLOP AUTOPOS Y-CURSOR
DTB CAL TEST SIGNAL
DTB VARIABLE CONTROL SIGNAL
DTB GATE SIGNAL
BANDWIDTH LIMITER ON/OFF
DTB TRIGGER ON CH1 OUTPUT SIGNAL 0
DTB TRIGGER ON CH1 OUTPUT SIGNAL 1
MTB TRIGGER ON CH1 OUTPUT SIGNAL 0
MTR TRIGGER ON CH1 OUTPUT SIGNAL 1
N9003:11
R5063:09
R5062:09
X9001:18
X9001:18
X9001:18
D8004:15
D7011:17
N8005:15
V8011:15
R5018:09
DELAY LINE
DELAY LINE
D9001:11
D9002:11
D9006:16
R8057:15
D7005:17
R7009:17
D7011:17
DTRHF-HD
DTRIGO
DTRIG1
DTRLF-HD
DTRLINE
DTRLINESW-HD
DTRSEN
DTRSLOPE
DTRTVL
DTRTVSEL-HD
DTRXDEFO
DTRXDEF1
DTRXDSEL-HD
DELAYED TRIGGER HF FILTER SWITCH
DELAYED TRIGGER OUTPUT SIGNAL 0
DELAYED TRIGGER OUTPUT SIGNAL 1
DELAYED TRIGGER LF FILTER SWITCH
X-DEFLECTION VIA LINE SIGNAL
X-DEFLECTION VIA LINE SWITCHING
DELAYED TRIGGER SENSITIVITY CONTROL
DELAYED TRIGGER SLOPE CONTROL
DELAYED TRIGGER TV LINE TRIG SIGNAL
DELAYED TV TRIGGER SELECTION
DELAYED TRIGGER X DEFLECTION SIGNAL 0
DELAYED TRIGGER X DEFLECTION SIGNAL 1
DELAYED TRIGGER X DEFLECTION SELECTION
D9012:14
V7574:14
V7573:14
D9007:17
D7711:13
D9012:14
N8005:15
D9007:17
D7711:13
R7543:14
D7541:14
D7541:14
D9012:14
R7544:14
D8004:15
D8004:15
R7542:14
V7506:14
D7711:13
R7554:14
R7547:14
R7696:14
D7711:13
R7754:14
R7753:14
R7546:14
D9003:11
D1301:08
D1301:08
D1301:08
D1301:08
D1301:08
D2301:08
D3301:08
D4301:08
R7522:14
R7521:14
R6522:12
R6521:12
UNIT DESCRIPTIONS
FNC1OUT0
FNC10UT1
FNCYOPO
FNCYOP1
FNC2DTR0
FNC2DTR1
FNC2MTR0
FNC2MTR1
FNC2OUT0
FNC20UT1
FNC3DTR0
FNC3DTR1
FNC3MTR0
FNC3MTR1
FNC3OUT0
FNC30UT1
CHANNEL 1 OUTPUT SIGNAL 0
CHANNEL 1 OUTPUT SIGNAL 1
Y-OUT OPTION SIGNAL 0
Y-OUT OPTION SIGNAL 1
DTB TRIGGER ON CH2 OUTPUT SIGNAL 0
DTB TRIGGER ON CH2 OUTPUT SIGNAL 1
MTB TRIGGER ON CH2 OUTPUT SIGNAL 0
MTR TRIGGER ON CH2 OUTPUT SIGNAL 1
CHANNEL 2 OUTPUT SIGNAL 0
CHANNEL 2 OUTPUT SIGNAL 1
DTB TRIGGER ON CH3 OUTPUT SIGNAL 0
DTB TRIGGER ON CH3 OUTPUT SIGNAL 1
MTB TRIGGER ON CH3 OUTPUT SIGNAL 0
MTR TRIGGER ON CH3 OUTPUT SIGNAL 1
CHANNEL 3 OUTPUT SIGNAL 0
CHANNEL 3 OUTPUT SIGNAL 1
FNC4DTR0
FNC4DTR1
FNC4MTR0
FNC4MTR1
FNC4OUT0
FNC40UT1
HOLDOFF
DTB TRIGGER ON CH4 OUTPUT SIGNAL 0
DTB TRIGGER ON CH4 OUTPUT SIGNAL 1
MTB TRIGGER ON CH4 OUTPUT SIGNAL 0
MTR TRIGGER ON CH4 OUTPUT SIGNAL 1
CHANNEL 4 OUTPUT SIGNAL 0
CHANNEL 4 OUTPUT SIGNAL 1
INTTRA
HOLD OFF CONTROL SIGNAL
TRACE INTENSITY CONTROL
LEVDTB
LEVMTB
LINE
DELAYED TRIGGER LEVEL CONTROL
MAIN TRIGGER LEVEL CONTROL
LINE TRIGGER SIGNAL
MTBCALTST
MTBGATE
MTB CAL TEST SIGNAL
MTB GATE SIGNAL
MTBVAR
MTRBAL
MTB VARIABLE CONTROL SIGNAL
MAIN TRIGGER BALANCE
MTRHF-HD
MTRIGO
MAIN TRIGGER HF FILTER SWITCH
MAIN TRIGGER OUTPUT SIGNAL 0
MTRIG1
MTRLF-HD
MAIN TRIGGER OUTPUT SIGNAL 1
MAIN TRIGGER LF FILTER SWITCH
MTRLINE MAIN TRIGGER LINE TRIGGER SIGNAL
MTRPPLEV-HD MAIN TRIGGERING AUTO PP OFF
MTRSEN
MTRSLOPE
MAIN TRIGGER SENSITIVITY CONTROL
MAIN TRIGGER SLOPE CONTROL
MTRTVMODE MAIN TRIGGER TV SYSTEM SELECTION
MTRTVSEL-HD MAIN TV TRIGGER SELECTION
MTRVIDEO MAIN TV TRIGGER INPUT SIGNAL
PA1/2
D9003:11
PA1ICL
PA1ISY
PA1LSA
PA1LSB
ATTENUATION /2
D1201:06
CLAMP LEVEL CURRENT CH1
SUPPLY CURRENT CH1
LEVEL SHIFT A CH1
LEVEL SHIFT BCH1
5.1 - 17
D1301:08 R1313:09
D1301:08 R1314:09
D1301:08 Y-option
D1301:08 Y-option
D2301:08 R7524:14
D2301:08 R7523:14
D2301:08 R6524:12
D2301:08 R6523:12
D2301:08 R2313:09
D2301:08 R2314:09
D3301:08 R7527:14
D3301:08 R7526:14
D3301:08 R6527:12
D3301:08 R6526:12
D3301:08 R3313:09
D3301:08 R3314:09
D4301:08 R7529:14
D4301:08 R7528:14
D4301:08 R6529:12
D4301:08 R6528:12
D4301:08 R4313:09
D4301:08 R4314:09
X9002:18 R6032:16
X9002:18 R8049:15
X9002:18 R7681:14
X9002:18 R6622:12
X9001:18 R7711:13
D6011:16 D7005:17
V8014:15 D6011:16
X9002:18 R6009:16
N8005:15 R6709:12
D9008:15 R6544:12
V6574:12 D8004:15
V6573:12 D8004:15
D9011:12 R6542:12
D5001:13 V6506:12
D9011:12 V6628:12
N8005:15 R6554:12
D9011:12 R6547:12
N8005:15 R6772:13
D9011:12 V6757:13
D6541:12 V6754:13
CONTROL CH1
V1206:06 D1201:06
V1207:06 D1201:06
V1208:06 R1216:06
V1209:06 R1217:06
5.1 -18 UNIT DESCRIPTIONS
PA1OFFSET
PAIOFFSTRG
PA1OUT0
PA10UT1
PA1X1
PA 1X5
PAVREF
OFFSET INPUT CIRCUIT CH1
OFFSET LEVEL SHIFTER CH1
OUTPUT SIGNAL 0 CH1
OUTPUT SIGNAL 1 CH1
GAIN X1 CONTROL CH1
GAIN X5 CONTROL CH1
PREAMPL REFERENCE VOLTAGE
PA4/2
PA4ICL
PA4ISY
PA4LSA
PA4LSB
PA40FFSET
PA40FFSTRG
PA4OUT0
PA40UT1
PA4X1
PA4X5
POS1
POS2
POS3
POS4
PROBE1
PROBE2
PROBE3
PROBE4
PA2/2
PA2ICL
PA2ISY
PA2LSA
PA2LSB
PA20FFSET
PA20FFSTRG
PA2OUT0
PA20UT1
PA2X1
PA2X5
PA3/2
PA3ICL
PA3ISY
PA3LSA
PA3LSB
PA30FFSET
PA30FFSTRG
PA3OUT0
PA30UT1
PA3X1
PA3X5
ATTENUATION /2 CONTROL CH2
CLAMP LEVEL CURRENT CH2
SUPPLY CURRENT CH2
LEVEL SHIFT A CH2
LEVEL SHIFT B CH2
OFFSET INPUT CIRCUIT CH2
OFFSET LEVEL SHIFTER CH2
OUTPUT SIGNAL 0 CH2
OUTPUT SIGNAL 1 CH2
GAIN X1 CONTROL CH2
GAIN X5 CONTROL CH2
ATTENUATION /2 CONTROL CH3
CLAMP LEVEL CURRENT CH3
SUPPLY CURRENT CH3
LEVEL SHIFT A CH3
LEVEL SHIFT B CH3
OFFSET INPUT CIRCUIT CH3
OFFSET LEVEL SHIFTER CH3
OUTPUT SIGNAL 0 CH3
OUTPUT SIGNAL 1 CH3
GAIN X1 CONTROL CH3
GAIN X5 CONTROL CH3
ATTENUATION /2 CONTROL CH4
CLAMP LEVEL CURRENT CH4
SUPPLY CURRENT CH4
LEVEL SHIFT A CH4
LEVEL SHIFT B CH4
OFFSET INPUT CIRCUIT CH4
OFFSET LEVEL SHIFTER CH4
OUTPUT SIGNAL 0 CH4
OUTPUT SIGNAL 1 CH4
GAIN X1 CONTROL CH4
GAIN X5 CONTROL CH4
POSITION CONTROL CH1
POSITION CONTROL CH2
POSITION CONTROL CH3
POSITION CONTROL CH4
PROBE DETECTION/50O PROTECTION CH1
PROBE DETECTION/50Q PROTECTION CH2
PROBE DETECTION/50Q PROTECTION CH3
PROBE DETECTION/50Q PROTECTION CH4
N9001:11 R1203:06
N9001:11 R1229:06
V1202:06 R1301:08
V1201:06 R1302:08
D9003:11 D1201:06
D9003:11 D1201:06
N1251:06 R1200:06
R2200:06
R3200:07
R4200:07
D9003:11 D2201:06
V2206:06 D2201:06
V2207:06 D2201:06
V2208:06 R2216:06
V2209:06 R2217:06
N9002:11 R2203:06
N9002:11 R2229:06
V2202:06 R2301:08
V2201:06 R2302:08
D9003:11 D2201:06
D9003:11 D2201:06
D9004:11 D3201:07
V3206:07 D3201:07
V3207:07 D3201:07
V3208:07 R3216:07
V3209:07 R3217:07
N9003:11 R3203:07
N9003:11 R3229:07
V3202:07 R3301:08
V3201:07 R3302:08
D9004:11 D3201:07
D9004:11 D3201:07
D9004:11 D4201:07
V4206:07 D4201:07
V4207:07 D4201:07
V4208:07 R4216:07
V4209:07 R4217:07
N9003:11 R4203:07
N9003:11 R4229:07
V4202:07 R4301:08
V4201:07 R4302:08
D9004:11 D4201:07
D9004:11 D4201:07
X9002:18 R1308:08
X9002:18 R2308:08
X9002:18 R3308:08
X9002:18 R4308:08
R1093:05 X9001:18
R2093:05 X9001:18
R3093:05 X9001:18
R4093:05 X9001:18
UNIT DESCRIPTIONS
SCL
SDA
STRCALD-HT
STROBEO-HT
STROBE1-HT
SERIAL CLOCK
SERIAL DATA
RESET FLIPFLOP AUTOPOS Y-CURSOR
STROBE/ENABLE SIGNAL 0
STROBE/ENABLE SIGNAL 1
TBAUTO-LD
TBCALREF
TBD01
TBD02
TBD03
TBEOM-HX
TBEOD-HX
TBEOHO-LX
TBHOTXT
TBINTRAT-XA
TBNOTTR-HT
TDADA
TDACL
TIME BASE AUTO FREE RUN CONTROL
TIME BASE CALIBRATION REFERENCE
TIME BASE SERIAL DATA 01
TIME BASE SERIAL DATA 02
TIME BASE SERIAL DATA 03
TIME BASE END OF MAIN SWEEP
TIME BASE END OF DELAYED SWEEP
TIME BASE END OF HOLD OFF
TIME BASE HOLD OFF FOR TEXT DISPLAY
INTENS RATIO CONTROL SIGNAL
TIME BASE NOT TRIGGERED SIGNAL
TIME BASE SERIAL DATA
TIME BASE SERIAL CLOCK
5.1 - 19
X9001:18 D9009:10
D9001:1t
D9002:11
D9003:11
D9004:11
D9006:16
D9007:17
D9008:15
D9011:12
D9012:14
N8005:15
N9001:11
N9002:11
N9003:11
R8403:16
X9001:18 D9009-.10
D9001:11
D9002:11
D9003:11
D9004:11
D9006:16
D9011:12
N8005:15
N9001:11
N9002:11
N9003:11
R8404:16
X9001:18 V8065:15
V8007:15
X9001:18 D9003:11
D9004:11
X9001:18 D9007:17
D9008:15
D9011:12
D9012:14
D9007:17 D8004:15
V7011:17 D6011:16
D7011:17
D9011:12 D9008:15
D9008:15 D9007:17
D9007:17 D9012:14
D6011:16 D8004:15
D7011:17 D8004:15
D6011:16 D8004:15
R8026:15 X9001:18
N8005:15 R8007:15
D8004:15 D7005:17
R8404:16 N6014:16
R8403:16 D9006:16
D9007:17
D9008:15
D9011:12
D9012:14
N6013:16
N8005:15
5.1 -20
TBSEL TIME BASE MTB/DTB SELECTION
TBSTD-LX
TBSSG-HT
TBSMART
TBXDEFL-LD
TBXOUTO
TBXOUTO-XA
TBXOUT1
TBXOUT1-XA
TBXPOS
TRASEP
TRASEP-HC
VAR1
VAR2
VAR3
VAR4
VPPTEST-LD
XTRAO
XTRA1
ZTRAO
ZTRA1
TIME BASE START OF DTB
TIME BASE END OF SINGLE SWEEP
TIME BASE TEST SIGNALS
X DEFLECTION CONTROL SIGNAL
TIME BASE OUTPUT 0
X DEFLECTION OUTPUT 0
TIME BASE OUTPUT 1
X DEFLECTION OUTPUT 1
TIME X POSITION
ANALOG TRACE SEPARATION SIGNAL
DIGITAL TRACE SEPARATION CONTROL
VARIABLE GAIN CONTROL CH1
VARIABLE GAIN CONTROL CH2
VARIABLE GAIN CONTROL CH3
VARIABLE GAIN CONTROL CH4
VOLT PP TEST AUTOPOS Y-CURSOR
X DEFLECTION OUTPUT SIGNAL 0
X DEFLECTION OUTPUT SIGNAL 1
INTENSITY OUTPUT SIGNAL 0
INTENSITY OUTPUT SIGNAL 1
UNIT DESCRIPTIONS
R5501:10 R6018:16
R7028:17
R8072:15
D6011:16 D8004:15
D8004:15 D7005:17
C7054:17 X9001:18
D9012:14 V8015:15
R7772:
D6011:16
D7011:17
R7077:17
R7754:14 V7031:17
D6011:16 R7078:17
D7011:17
R7753:14 V7032:17
R8411:16 R6017:16
R7099:17
X9002:18 R5021:09
R5524:10 D5001:09
X9002:18 R1211:06
X9002:18 R2211:06
X9002:18 R3211:07
X9002:18 R4211:07
V8066:15 D7005:17
V7150:17 X9001:18
V7151:17 X9001:18
D8003:15 X9001:18
D8003:15 X9001:18
UNIT DESCRIPTIONS
5.1.3 Unit lay-outs
TOX1501 ON U PROCESSOR A3 TO X1001 ON CONNECTOR BOARD A10
£
5.1 -21
D
B
Lay-out 1 - Large component side of signal unit A1
UNIT DESCRIPTIONS
5.1.3 Unit lay-outs
TOX1501 ON U PROCESSOR A3
%
TO X1001 ON CONNECTOR BOARD A10
I ^
!
Si jx f x ; x a I
22 f i u ,
O O s ^
8 o a o C7912
W , o C7962
C1656 C1661 o o
X I 302 X1301 m m
C6902
O C6942
O
( C1906 )
»"@S) (@
X3302 X3301
(©) (©)
O
1 g e d
BF410C
2 3 I 4 5 I 6
C16S3
' O O - ' Q o 0 “ *» O
' s— ' r . iA u
I 7 8 9
001 ON CONNECTOR BOARD A10
36 33 81 29 27 25 28 21 19 17 15 13 11 9 7 5 3 1 o a o a o o o o o a o o a a a o a o o o o o o o a a o o o o o o o o o a
89 84 82 80 29 26 24 22 20 16 16 14 12 10 6 9 4 2
5.1 -21
Lay-out 1 Large component side of signal unit A1
5.1 -22 UNIT DESCRIPTIONS
Lay-out 2 - Small component side of signal unit A1
CJI
MM33
CO
N>
CD
00
CD O a
| R4001| | R300l|
| B40Ctt|
IS IS PPhsteg
[R3002 |
IS SI IlflWiEsa
| R2001 | m “n CD
| moo»|
I
| moog|
01
CO ro nnsolmissllsl l u f f l s z
8
| R2106 fi fltoer
| 02103 2 R10M
R2102
| R2101 |
CD
6
R2112 g
( r i »61
R6626
05614 R1961 |
1
5
8
I 00
8 a |c w ii|t t» n |c « o ii]
001
a
2
R21U pa04gtC904t1
8 EH
IS.
B
[R1312 I
IVI302 I
R1307 | C l S l
R1863
R18S6
Riast
5.1 - 22
| Rsatr|[~csao^
RS603 I RS541
RSSQ2 IRSS42 E B 0 H I
E U B lU U
EE3__ G571
8
Lay-out 2 - Small component side of signal unit A1
UNIT DESCRIPTIONS
|C7021
R7043
3 v' u''|n n 4 4 |ft ro 4 a |
| R7Q41
IR7044 i l l
R7040
H
G
D
ST8237
970428
B
UNIT DESCRIPTIONS 5.1 -23
5.1.4 Location list Signal Unit A1
’-L’ means that the component is located on the side with the large components. Otherwise the component is located on the side with small components (SMD’s: surface mounted devices)
C1001 F15-L
C1002 F14
C1003 F14-L
C1004 F14-L
C1005 F15
C1006 F14-L
C1007 F14-L
C1008 F14
C1011 F14
C1012 F14
C1014 F13
C1018 E13
C1019 E13
C1021 F13-L
C1022 F13
C1023 F13
C1025 F13
C1027 E13
C1041 G13
C1042G13
C1044 F12
C1045 F13-L
C1046 F12
C1047 F13
C1048G12
C1049G13
C1051 F12
C1054 F12
C1055 F12
C1056 F12
C1057 F12
C1058 F12
C1059 F12
C1060 F12
C1061 F15
C1062 E15
C1063 F14
C1064 G14
C1066G13
C1067G13
C1068 E14
C1069 E14
C1071 E15
C1076G15
C1077 F15
C1082 H10
C1085 G12-L
C1086 F13
C1087 F12-L
C1088 F12
C1101 G10
C3047C13
C3048 D12
C3051 C12
C3054C12
C3055C12
C3056C12
C3057C12
C3058C12
C3059C12
C3060C12
C3061 C15
C3062 B15
C3063C14
C3064 D14
C3066 D13
C3067D13
C2304 D8
C2305 D8
C3001 C15-L
C3002 B14
C3003 B14-L
C3004 C14-L
C3005C15
C3006 D14-L
C3007 C14-L
C3008C14
C3011 C14
C3012 B14
C3014C13
C3018 B13
C3019 B13
C3021 C13-L
C3022C13
C3023C13
C3025C13
C3027 B13
C3031 B12
C3041 D13
C3042 D13
C3044C12
C3045 C13-L
C3046C12
C3068 B14
C3069 B14
C3071 B15
C3072C14
C3076D15
C3077C15
C3085C12-L
C3086C13
C3087 C12-L
C2018 D13
C2019D13
C2021 E13-L
C2022 D13
C2023 D13
C2025 D13
C2027 D13
C2031 D12
C2041 E13
C2042 E13
C2044D12
C2045 D13-L
C2046 D12
C2047E13
C2048 E12
C2051 E12
C2054D12
C2055 E12
C2056 D12
C2057 E12
C2058 D12
C2059 E12
C2060 D12
C2061 D15
C2062 D15
C2063 E14
C2064 E14
C2066 E13
C2067 E13
C2068 D14
C2069D14
C2071 D15
C2072 D14
C2076 E15
C2077 D15
C2085 E12-L
C2086 E13
C2087 D12-L
C2088 E12
C2101 H10
C2102 H10
C2201 D10
C2204 E11
C2205 D11
C2208 E10
C2209 E10
C2210D11
C2211 D11
C2301 E8
C2302 E8
C2303 E10
C1102G10
C1151 H12
C1152 H11
C1153G15
C1156H11-L
C1157H11
C1158 H11-L
C1159G11
C1201 F10
C1204G11
C1205 F11
C1208 F10
C1209 F10
C1210 F11
C1211 F11
C1250G10
C1251 G9
C1252 G9
C1254 A9
C1301 F8
C1302 F8
C1303G10
C1304F8
C1305 F8
C1651 G8-L
C1653 A7-L
C1654 D8
C1656 G8-L
C1657 D8
C1658 A7-L
C1659 D8
C1661 D8
C1662 D8
C1669 A9
C1901 C7-L
C1903 F10-L
C1904 C10-L
C1906 D7-L
C1931 H8-L
C1932 H8-L
C2001 E15-L
C2002 D14
C2003 D14-L
C2004 D14-L
C2005 D15
C2006 D14-L
C2007 D14-L
C2008D14
C2011 D14
C2012 D14
C2014D13
5.1 -24
C4041 B13
C4042 B13
C4044 A12
C4045 A13-L
C4046 A12
C4047B13
C4051 B12
C4054 A12
C4055 B12
C4056 A12
C4057 B12
C4058 A12
C4059 B12
C4060 A12
C4061 A15
C4062 A15
C4063 B14
C4064 B14
C4066 B13
C4067B13
C4068 A14
C4069 A14
C3088C12
C3101 A10
C3102 A10
C3201 C10
C3204D11
C3205C11
C3208 D10
C3209C10
C3210C11
C3211 C11
C3301 C8
C3302C8
C3303 D10
C3304 C8
C3305 C8
C4001 B15-L
C4002 A14
C4003 A14-L
C4004 A14-L
C4005 A15
C4006 A14-L
C4007 A14-L
C4008A14
C4011 A14
C4012 A14
C4014A13
C4018 A13
C4019 A13
C4021 B13-L
C4022A13
C4023 A13
C4025A13
C4027A13
C4031 A12
C6110 A2
C6111 A2
C6112 A2
C6113 A2
C6114 A1
C6115 A1
C6116 A1
C6117 A1
C6118 A2
C6305 B3
C6415C3-L
C6504 B6
C6549 B6
C6551 B6
C6557 C6
C6559 C6
C6561 C7-L
C6562 C6-L
C6039 C3
C6062 D2
C6070 C4
C6071 B2
C6080 A4
C6093 G4-L
C6094 G4-L
C6095 B2
C6096 H3-L
C6097 H3-L
C6098 C3
C6101 A 2
C6102 A2
C6103 A2
C6104 A2
C6105 A2
C6106 A2
C6107 A2
C6108 A2
C6109 A2
C6005 B2
C6007C1
C6008 A2
C6008 B1
C6009 C2
C6011 B2-L
C6012 C2-L
C6013 B2-L
C6014C2
C6015C2
C6016C2-L
C6017C3-L
C6018 B1-L
C6031 A3
C6032 A3
C6033 B3
C6035 B3-L
C6038 C3
C5008 E7
C5010D6
C5012 D6
C5013D6
C5016 D5
C5017C6
C5018 D6
C5501 D9
C5502 D10
C5503 D10
C5504 C9
C5505 D9
C5506 D9
C5507D10
C5508C10
C5509C10
C5510C10
C5511 C10
C5513 D9
C5601 D9
C5602 C9-L
C5603 C9
C5604 C9
C6000B1-L
C6001 D2-L
C6002 B1
C6004 B2
C4071 A15
C4076 B15
C4077 A15
C4085 B12-L
C4086 B13
C4087 A12-L
C4088 B12
C4101 A10
C4102 A10
C4201 A10
C4204B11
C4205 A11
C4208 B10
C4209 B10
C4210 A11
C4211 A11
C4301 B8
C4302 B8
C4304B10
C4304 A8
C4305 A8
C5000 E5
C5001 E7
C5002 E6
C5003 E6
C5004 C6
C5005 C6
C5006 D6
C5007 C6
UNIT DESCRIPTIONS
C6904 B6
C6912 A7-L
C6913 A7
C6922 A7-L
C6923 A7
C6924 A5
C6932 A7-L
C6933 A7
C6934 B6
C6942 C6-L
C6943 C6
C6953 A5
C6962 B6-L
C6963 A6
C7001 G1
C7002 F1
C7003 E1
C7004 F2
C7005 F2
C6581 B5
C6583 C5
C6617B5
C6623 A5
C6624 A5
C6639 A5
C6644 B5
C6647 B5
C6648 B5
C6649 A5
C6707 B4
C6751 B6
C6758 A6-L
C6768 A6
C6773 A5
C6777 A6
C6779 B5
C6783 A5
C6787 A5
C6902 C6-L
C6903 C6
C7006 F2
C7007 F2
C7008 F2
C7009G2
C7010F3
C7011 F2-L
C7012G2-L
C7013H2-L
C7014G2
C7015G6
C7016 F2
C7017G2
C7021 H2
C7033 G3
C7034 F2
C7035 F2
UNIT DESCRIPTIONS
C7942 E6-L
C7943 E5
C7962 G7-L
C7963 E6
C8000 A4
C8001 D3
C8002 D2
C8003 D3
C8004 D3
C8005 E3
C8006 E3
C8007 D4
C8008 F3
C8009C3
C8010C4
C8011 D3-L
C8013D3
C8014D4
C8015D4
C8017E1
C8020 E4
C8021 D3
C8022 D3
C8032 C4
C7036 G4
C7054 G4
C7055 G3
C7060 G7
C7091 F2-L
C7092 E2
C7093 D2
C7099 G3
C7504 F6
C7513 F6
C7549 F6
C7551 F6
C7557 F5
C7559 F6
C7561 F6-L
C7562 G6-L
C7581 F5
C7583 F5
C7682 E6
C7697 E6
C7751 G5
C7813G5
C7902 G6-L
C7903 G6
C7904 F5
C7912G7-L
C7913G6
C7922 F7-L
C7923 F7
C7932 E6-L
C7933 E6
C7934 F5
C8034 G4
C8035 D4
C8036 F4
C8060 E4
C8062 F4
C8063 F4
C8064 E4
C8065 E4
C8066 E4
C8070 D2
C8071 F4
C8093 D4
C8094 D4
C8095 E3
C8101 C3
C8102 E3
C8401 D3-L
C8403 A1
C8404 A1
C8405 H5
C8410A3-L
C8411 A3-L
C9011 H9
C9012 H9
C9015 H9
C9016 H9
C9018 H9
C9019H9
C9020 H9
C9034 H7
C9036 H7
C9041 H8
C9042 H8
D1151 H12
D1152 H11
D1201 F11
D1301 F8
D2201 E11
D2301 E8
D3201 C11
D3301 C8
D4201 B11
D4301 B8
D5001 D5
D5501 C10
D5502 D10
D5503 D9
D6001 B1
D6002 C1
D6011 B2-L
D6541 B6-L
D6621 B5-L
D6779 A5
D6781 A4
D7001 F1
D7002 G1
D7004 E2
D7005 F3
D7541 F6-L
D8003 D3
D8006 C4
D9001 E11-L
D9002 B11-L
D9003 F10
D9004 C10
D9006 D1-L
D9007 F4
D9008 C4
D9009 D10-L
D9011 A4
D9012 G4
D9013G5
K1001 F15-L
K1002 G15-L
K1003 F13-L
K1004 F14-L
K1006 F14-L
K2001 D15-L
K2002 D15-L
K2003 E13-L
K2004 D14-L
K2006 D14-L
K3001 C15-L
K3002 D15-L
K3003 C13-L
K3004 C14-L
K3006 C14-L
K4001 A15-L
K4002 B15-L
K4003 B13-L
K4004 A14-L
K4006 A14-L
L1001 F15
L2001 D15
L3001 C15
L4001 A15
L6096 G6-L
L6097 H5-L
N1001 F13
N1101 H11
N1102 G10
N1103G10
N1104G11
N1202G10
N1251 F9
N2001 D13
N2202 E10
N3001 C13
N3102 A10
N3103 A10
N3202 D10
N4001 A13
N4204 B10
N5001 E7
N5002 E6
N6006 B1
N6007 B2
N6008 A3
N6014 A2-L
N6771 A6
N7006 G1
N7007 E1
N7014D2
N7015 E2
N7016 E2
N7951 F6
N8005 B4
N9001 G9
N9002 F9
N9003 A9
N9004 B9
R1001 F15
R1002 F15
R1003 F15
R1006 F15-L
R1007 F15-L
R1008 G14-L
R1009 G14-L
R1010 F14
R1011 F15-L
R1012F15
R1013F13
R1014F14
R1016 F14-L
R1019 F15
R1021 F15-L
R1022 F14
R1023 F15-L
R1024 F14
R1026 F13
R1027 F13-L
R1028 E13
R1029 E13
R1031 F13-L
R1031 F13-L
R1032 F13
R1033 F13
R1034F13
R1035 F13
R1036 F12
R1037 F12
R1038 F13
R1042 F12
R1043 F13
R1044F13
R1045 F13
R1046 F12
R1047F12
5.1 -25
5.1 - 26
R1092G11
R1093G11
R1094H10
R1095G11
R1096G11
R1097H10
R1101 G10
R1102 G10
R1103G10
R1104G10
R1106G10
R1112H9
R1113H9
R1114H9
R1141 G11
R1151 H12
R1152 H11
R1153H11
R1048G12
R1052 F13
R1053 F13
R1054 F13
R1056 F12
R1057G12
R1061 G12
R1062 F12
R1063 F12
R1064 F12
R1065 F12
R1071 F12
R1072 F12
R1073 F12
R1074 F12
R1076 F12
R1077F12
R1078 F12
R1079 F12
R1081 G12
R1082 F12
R1083 F12
R1084 F12
R1087 F12
R1088 F12
R1154H11
R1155 H12
R1156 H12
R1157 H12-L
R1158 H12-L
R1159H12
R1192 H10-L
R1193 H11-L
R1194 H11-L
R1195 H11-L
R1196 H11-L
R1197 H11-L
R1200G11
R1258G10
R1259G10
R1260G10
R1262 A7
R1266A7
R1301 F9
R1302 F9
R1303 F8
R1304F8
R1306 E8
R1307E8
R1308 G10
R1309G10
R1311 F8
R1312 F8
R1313D7
R1314D7
R1611 A10
R1611 A11
R1612 A10
R1613 A11
R1651 F8
R1201 F11
R1201 G11
R1202 F11
R1203 F11
R1204 H10
R1204 F11
R1205 F11
R1207 F11
R1208 F11
R1209 F11
R1210 F11
R1211 G11
R1212G11
R1213 F11
R1214F11
R1215 F11
R1216 F11
R1217 F11
R1218 F11
R1220 G11
R1222 G11
R1223G11
R1224G11
R1226G11
R1227G10
R1228 F10
R1229 F10
R1231 G10
R1251 G9
R1252G9
R1253 G9
R1254 G9
R1256 G9
R1257 F9
R2001 E15
R2002 E15
R2003 D15
R2006 D15-L
R2007 D15-L
R2008 E14-L
R2009 E14-L
R2010 D14
R2011 D15-L
R2012 D15
R2013 E13
R2014 D14
R2016 D13-L
R2019D15
R2021 D15-L
R2022 D14
R2023 D15-L
R2024D14
R2026 D13
R2027 D13-L
R2028 D13
R2029 D13
R2031 E13-L
R2032 D13
R2033 D13
R2034 E13
R2035 D13
R2036 E12
R2037 E12
R1652 A8
R1653F8
R1654 A8
R1656 F8
R1657 A8
R1661 G8
R1662 H8
R1663 A8
R1901 G11
R1902 E10
R1903 D11
R1904 B10
R1906 A7
R1911 G10
R1912 E10
R1913 D11
R1914 B10
R1917D11
R1921 G10
R1922 D11
R1923 B10
R1924 A11
R1926 F11
R1928 C11
R1929 A11
R1951 H9
R1961 H8
UNIT DESCRIPTIONS
R2038 D13
R2039 D12
R2041 D12
R2042 D12
R2043 D13
R2044 D13
R2045 D13
R2046 D12
R2047 D12
R2048 E12
R2049 E13
R2052 E13
R2053 D13
R2054 D13
R2056D12
R2057E12
R2061 E12
R2062 E12
R2063 E12
R2064 E12
R2065 D12
R2071 E12
R2072 E12
R2073 D12
R2074D12
R2076 E12
R2077D12
R2078 E12
R2079 D12
R2081 E12
R2082 D12
R2083 E12
R2084 D12
R2086 D12
R2087D12
R2088 D12
R2092 G11
R2093G11
R2094H10
R2096G11
R2101 H10
R2102H10
R2103H10
R2106H10
R2112 H9
R2113H9
R2114 H9
R2200 E11
R2201 E11
R2202 D11
R2203D11
R2204 D11
R2205 D11
R2205D11
R2207 D11
R2208 D11
UNIT DESCRIPTIONS
R2311 D8
R2313 D7
R2314 D7
R3001 C15
R3002 C15
R3003C15
R3006 C15-L
R3007 C15-L
R3008 D14-L
R3009 D14-L
R3010C14
R3011 C15-L
R3012 B15
R3013C13
R3014C14
R3016 C13-L
R3019C15
R3021 C15-L
R3022C14
R3023 C15-L
R3024 C14
R2209D11
R2210 D11
R2211 E11
R2212 E11
R2213 E11
R2214E11
R2215 D11
R2216 E11
R2217 E11
R2218 E11
R2218 D11
R2220 E11
R2222 E11
R2223 E11
R2224E11
R2226 E11
R2227 E10
R2228 E10
R2229 E10
R2231 E10
R2301 E9
R2302 E9
R2303 E8
R2304 E8
R2307 D8
R2308 E10
R2309 E10
R3026C13
R3027 C13-L
R3028 B13
R3029 B13
R3031 C13-L
R3032 C13
R3033C13
R3034C13
R3035C13
R3036C12
R3037C12
R3038 C13
R3039 B12
R3041 B12
R3042C12
R3043C13
R3044C13
R3045C13
R3046C12
R3047C12
R3048 D12
R3049 D13
R3052C13
R3053C13
R3054C13
R3056C12
R3057 D12
R3061 D12
R3062C12
R3063 C12
R3064 C12
R3065 C12
R3071 C12
R3072C12
R3073C12
R3074C12
R3076C12
R3077C12
R3078C12
R3079C12
R3081 D12
R3082C12
R3083C12
R3084C12
R3086 B12
R3087 C12
R3088C12
R3092G11
R3093 G11
R3094 H9
R3096G11
R3102A10
R3103A10
R3104 A10
R3104 A10
R3106A10
R3112 A9
R3113A9
R3114A9
R3200 D11
R3201 D11
R3202C11
R3203 C11
R3204 C11
R3205C11
R3206C11
R3207C11
R3208C11
R3209 C11
R3210 C11
R3211 D11
R3212 D11
R3213C11
R3214C11
R3215 C11
R3216C11
R3217C11
R3218C11
R3220 D11
R3222 D11
R3223 D11
R3224 D11
R3226 D11
R3227 D11
R3228C10
R3229C10
R3231 D10
R3301 C9
R3302 C9
R3303 C8
R3304 C8
R3307 B8
R3308 D10
R3309 D10
R3311 C8
R3313 D7
R3314 D7
R4001 B15
R4002 B15
R4003A15
R4006A15-L
R4007 A15-L
R4008 B14-L
R4009 B14-L
R4010 A14
R4011 A15-L
R4012 A15
R4013B13
R4014 A14
R4016 A13-L
R4019 A15
R4021 A15-L
R4022 A14
R4023A15-L
R4024A14
R4026 A13
R4027 A13-L
R4028 A13
R4029 A13
R4031 B13-L
R4031 B13-L
R4032 A13
R4033 A13
R4034 B13
R4036 B12
R4037 B12
R4038 A13
R4039 A12
R4041 A12
R4042 A12
R4043 A13
R4044 A13
R4045A13
R4046 A12
R4047 A12
R4048 B12
R4049 B13
R4052 B13
R4053 A13
R4054 A13
R4056 A12
R4061 B12
R4062 B12
R4063B12
R4064 B12
R4065 A12
R4071 B12
R4072 B12
R4073 A12
R4074 A12
R4076 B12
R4077 A12
R4078 B12
R4079 A12
R4081 B12
R4082 A12
R4083 B12
R4084 A12
R4086 A12
R4087A12
R4088 A12
R4092G10
R4093G10
R4094H10
R4096G10
R4101 A10
R4102 A10
R4103 A10
R4106 A10
R4112 A9
R4113 A9
R4114 A9
R4200 B11
R4201 B11
R4202 A11
R4203 A11
5.1 -2 7
5.1 -28
R4204 A11
R4205 A11
R4206 A11
R4207 A11
R4208A11
R4209A11
R4210 A11
R4211 B11
R4212 B11
R4213 B11
R4214 B11
R4215 A11
R4216B11
R4217B11
R4218 A11
R4220 B11
R4222 B11
R4223 B11
R4224 B11
R4226 B11
R4227 B10
R4228 B10
R4229 B10
R4231 B10
R4301 B9
R4302 B9
R4303 B8
R4304 B8
R4307 A8
R4308B10
R4309 B10
R4311 A8
R4313C7
R4314C7
R5001 D6
R5002 E6
R5003 D6
R5004 D6
R5006 E6
R5007 D6
R5008 E6
R5009 D6
R5011 D6
R5012 D6
R5013D6
R5014 D6
R5016D6
R5017D7
R5018 D6
R5019 D6
R5021 E6
R5024 C6
R5026 D6
R5027C6
R5028 D6
R5029 C6
R5072 D6
R5076 E6
R5501 D10
R5502 D9
R5503 D9
R5504 C9
R5506 C9
R5507D10
R5508 D10
R5509 D10
R5510 D9
R5511 D10
R5512D10
R5513D10
R5514D10
R5516 D10
R5517D10
R5518 D10
R5519 D9
R5521 D9
R5523 D9
R5524 D10
R5531 E8
R5533 D8
R5031 D6
R5032 D7
R5035 D6
R5036 C6
R5037 D6
R5041 C6
R5042 D6
R5043 D6
R5044 C6
R5045 D6
R5046 D6
R5047 D6
R5048 D6
R5049 D6
R5050 E7
R5051 D5
R5052 D5
R5053 C5
R5054 D6
R5055 D5
R5056 E6
R5057 E6
R5058 D6
R5060 D5
R5064 E6
R5065 E7
R5065 E7
R5066 D6
R5068 C7
R5069 C6
R5070 D6
R5071 C6
R5534 B8
R5536 E8
R5537 C8
R5538 D8
R5539 B8
R5541 D9
R5542 D9
R5543 D9
R5544 D9
R6017C3
R6018C3
R6019 B3
R6020 B3
R6021 B3
R6022 B3
R6023 B2
R6024 B2
R6025 B2
R6026 B2
R6027 C2
R6028 B3
R6029 C2
R6030 C2
R6031 B3
R6001 C1
R6002 C1-L
R6003 B1-L
R6004 B1-L
R6005 B1-L
R6006 B1-L
R6007 B1-L
R6008 B1-L
R6009 B1
R6011 B2
R6012 B2
R6012 A6
R6013C1-L
R6014C1-L
R6015C1
R6016C1
R5546 C9
R5551 C10
R5552C10
R5553 C10
R5554C10
R5556 A8
R5557 C8
R5558 D8
R5559 F8
R5561 C10
R5562 D9
R5601 D9
R5602 C9
R5603 C9
R5603C9
R5606 D9
UNIT DESCRIPTIONS
R6052 C2
R6053C1
R6054 C2
R6061 C2
R6062 D2
R6063 D1
R6070 B3
R6071 A3
R6072 G5
R6073 A3
R6074 A3
R6093 G5
R6094 G5
R6101 D2
R6104 A3
R6502 B6
R6503 B6
R6508 B6
R6509 B6
R6511 B6
R6512 B6
R6521 B6
R6522 B6
R6523 B7
R6524 B7
R6526 B7
R6527 B7
R6528 B6
R6529 B6
R6531 B6
R6542 B6
R6543 B6
R6544 C5
R6546 A4
R6547C5
R6548 A6
R6552 C6
R6554 C5
R6032 B3
R6033 B3
R6034 B3
R6035 C3
R6036 A3
R6037 B3
R6038 B2
R6041 C2
R6042 C2
R6043 C2
R6044 C2
R6045 C2
R6046 C2
R6047 C2
R6048 C2
R6049 C2
R6050 B2
R6051 B2
UNIT DESCRIPTIONS
R6753 A6
R6754 A6
R6756 A6
R6758 A6
R6762 A6
R6764 A6
R6769 A6
R6772 A5
R6774 A5
R6776 A5
R6782 A5
R6786 A5
R6788 A5
R6901 C6
R6911 A7
R6921 A7
R6931 A7
R6941 C6
R6951 B7
R6961 B7
R7001 G1
R6649 B5
R6661 B4
R6662 B5
R6684 C5
R6688 C5
R6689 C5
R6692 C5
R6694 C5
R6696 A4
R6706 B4
R6708 B4
R6709 B4
R6752 A6
R6556 B6
R6558 C6
R6578 B5
R6579 B5
R6584 C5
R6586 C5
R6601 B6
R6602 B6
R6603 B5
R6616 B5
R6622 B4
R6624 A5
R6626 A5
R6627 B5
R6632 A4
R6633 B5
R6634 B4
R6636 A5
R6638 A5
R6641 A5
R6643 B5
R6646 B5
R7002G1-L
R7003G1-L
R7004G1-L
R7005G1-L
R7006 F1-L
R7007 F1-L
R7008 F1-L
R7009 E1
R7011 E1
R7012 E1
R7013 H1-L
R7014H1-L
R7015 G1
R7016G1
R7017 F2
R7018 G3
R7019G3
R7021 F3
R7022 F2
R7023 G2
R7024 F2
R7025 F2
R7026 F2
R7027 G2
R7028 F3
R7029 G3
R7031 F3
R7032 G3
R7033 G3
R7034 G6
R7036 G6
R7041 G2
R7042 G2
R7043 H2
R7044 G2
R7045 G6
R7046 H2
R7047 H2
R7048 G2
R7049 G2
R7050 G2
R7050 G2
R7051 G2
R7052 F2
R7054 F3
R7056 F3
R7057 F4
R7057 F4
R7059 G3
R7064 D2-L
R7065 D2-L
R7066 D2-L
R7067 D2-L
R7077 G5
R7078 G5
R7082 F2
R7526 F6
R7527 F6
R7528 F6
R7529 F6
R7531 F6
R7542 E5
R7543 E6
R7544 G5
R7546 F5
R7547 F5
R7548 E5
R7552 G6
R7554 F5
R7556 F5
R7558 F5
R7563 E5
R7571 F5
R7572 F5
R7576 F5
R7577 F5
R7578 F5
R7207 E2
R7208 G2
R7209 D2
R7502 F6
R7503 F6
R7508 F6
R7509 F6
R7511 F6
R7512 F6
R7521 F6
R7522 F6
R7523 F6
R7523 F6
R7524 F6
R7091 E2-L
R7092 F2-L
R7093 E2-L
R7094 E2-L
R7095 E2-L
R7096 E2-L
R7097 E2
R7099 G3
R7144G2
R7150G7
R7151 G7
R7152 G7
R7153 G7
R7154G7
R7155 G6
R7156G6
R7160 G7
R7180 G4
R7181 G4
R7204 C2
R7206 D2
R7951 G6
R7952 G6
R7953G6
R7954 F6
R7956 G7
R7957 F7
R7958 F7
R7961 F7
R8001 D3
R8002 D3
R8003 D3
R8004 D3
R8005 E3
R7579 F5
R7584 F5
R7586 F5
R7681 E5
R7688 E6
R7689 E6
R7692 E5
R7693 F6
R7694 E6
R7696 F6
R7711 F7
R7712 F7
R7713 E5
R7716 D5
R7753 G6
R7754G6
R7809 G4
R7901 G7
R7911 G7
R7921 F7
R7931 F7
R7941 E7
R8006 D2
R8007 D3
R8008 D2
R8009 E3
R8010 E3
R8011 E3
R8012 E3
R8013 E3
R8014 E3
R8015 D2
R8016D2
R8017F4
R8018 E4
R8019 E3
R8020 E3
R8021 E3
R8022 E3
R8023 E4
R8024 E3
R8025 D4
R8026 B4
5.1 -29
5.1 - 30
R8053 F3
R8054 C3
R8055C4
R8056 E4
R8057 E4
R8058 E4
R8059 E4
R8060 E4
R8061 F4
R8062 F4
R8063 F4
R8064 E4
R8065 E4
R8066 D3
R8067 D3
R8068 F4
R8069 E3
R8071 A4
R8073 B4
R8074 E4
R8075 E4
R8076 D4
R8077 C4
R8078 E4
R8079 D4
R8080 C4
R8081 D4
R8082 D4
R8084C2
R8085C2
R8086 D4
R8087 D4
R8088 E4
R8027 E3
R8028 D4
R8029 C4
R8030 F4
R8031 C4
R8033 C3
R8034 C3
R8035 C3
R8037 B3
R8038 B3
R8040 E4
R8041 F3
R8042 C3
R8043C3
R8044 D4
R8045 D4
R8046 D4
R8047 D4
R8048 D4
R8049 E1
R8050 D4
R8051 D4
R8052 D4
R8132 B3
R8133 D3
R8134 F4
R8135 F4
R8136 F4
R8200 E4
R8403A1
R8404 A1
R8405 H5
R8410B3
R8411 A3
V1001 F12
V1002 F13
V1003G12
V1004 F13
V1005 F13
V1006 F13
V1007 F12
V1008 F12
V1009 F12
V1012 F12
V1013 F12
V1015G12
V1016 F12
V1018 F12
V1201 F10
V1202 F10
R8089 E4
R8090 D3
R8091 D3
R8092 C4
R8093C4
R8094 C4
R8095 E3
R8096 E3
R8097 E4
R8098 E4
R8099 E4
R8100 F4
R8102 E1
R8103 D2
R8104 E1
R8105C4
R8130 C3
R8131 C4
V1206G11
V1207G11
V1208G11
V1209 F10
V1251 G9
V1252 F10
V1301 E8
V1302 E8
V1304G8
V1306 G8
V1307 G8
V3006C13
V3009 C12
V3012C12
V3013C12
V3015 D12
V3016C12
V3017B12
V3201 C10
V3202 C10
V3206 D11
V3207 D11
V3208 D11
V3209 C10
V3301 C8
V3302 B8
V3303 C8
V3304 C8
V3306 C8
V3307C8
V4001 A12
V4002 A13
V4003 B12
V4004 B13
V1308 F8
V1313 F8
V2001 D12
V2002 D13
V2003 E12
V2004E13
V2005 E13
V2006 E13
V2008 E12
V2009 E12
V2012 E12
V2013 E12
V2015 E12
V2016 D12
V2017 D12
V2018 D12
V2201 E10
V2202 E10
V2206 E11
V2207E11
V2208 E11
V2209 E10
V2301 D8
V2302 D8
V2303 D8
V2304 E8
V2306 E8
V2307 E8
V3001 C12
V3002 C13
V3003 D12
V3004C13
V3005C13
UNIT DESCRIPTIONS
V4307 B8
V5001 D7
V5002 D7
V5003 D6
V5004 D6
V5006 D6
V5007 D6
V5008 D6
V5009 D6
V5011 D5
V5012 C6
V5013D6
V5014D5
V5016C6
V5017C6
V5018 D6
V5501 D10
V5502 D10
V5503 C9
V5504 D10
V5506 D9
V5601 D9
V6001 B1
V6002 C3
V6003C1
V6004C1
V4005 B13
V4006 B13
V4009 B12
V4012 B12
V4013B12
V4015B12
V4016 A12
V4017 A12
V4018 A12
V4201 B10
V4202 B10
V4206 B11
V4207 B11
V4208 B11
V4209 B10
V4301 A8
V4302 A8
V4303 A8
V4304 B8
V4306 B8
V6005 B2
V6006 B2
V6007 B2
V6008 C3
V6012 C2
V6013C2-L
V6014 C2-L
V6016B2
V6017 B2
V6018C1
UNIT DESCRIPTIONS
V6019 B2
V6022 C2
V6041 B3
V6042 B3
V6044 C4
V6062 D2
V6101 A2
V6506 B6
V6507 B6
V6532 B6
V6553C6
V6573 C5
V6574C5
V6593 C6
V6604 A5
V6606 B5
V6628 A4
V6631 A4
V6637 A4
V6667 B4
V6668 B5
V6686 B5
V6687 B5
V6691 C5
V6754 A6
V6757 A6
V6759 A6
V6761 A6
V6763 A6
V6764 A4
V6768 A6
V6784 A5
V7001 F2
V7003 G2
V7004 G2
V7005 G2
V7006 F2
V7007 F2
V7012G2
V7016G2
V7017G2
V7018 F2
V7019 H2-L
V7020 G2-L
V7031 G6
V7032 G6
V7075 D2
V7091 E2
V7093 C2
V7094 F2
V7150 G7
V7151 G7
V7152 G6
V7506 F6
V7507 F6
V7532 F6
V7553 G6
V7573 F5
V7574 F5
V7686 F6
V7687 F6
V7691 E6
V7714D5
V7801 G5
V7802 G5
V7803 G5
V7804 G5
V7805 G5
V7806 G5
V7807 G5
V7808 G5
V8002 E3
V8003 C4
V8004 E3
V8006 E3
V8007 F4
V8008 F3
V8009 F4
V8011 E3
V8012 E3
V8013 C3
V8014C3
V8015 E2
V8018 B4
V8019 B4
V8023 D4
V8024 D4
V8028 D4
V8029 E4
V8031 D4
V8040 E3
V8041 D4
V8042 C2
V8043 C2
V8044 F4
V8061 E4
V8062 E4
V8063 E4
V8065 E4
V8066 F4
V8067 D3
V8068 D3
V8101 E4
X5001 D6-L
X9001 H8-L
X9002 H4-L
5.1 -31
UNIT DESCRIPTIONS
5.1.5 Circuit diagrams
00001/1
00001/0 D
9001
* 00001/12
09001/2
5.1 - 33
01201/3
D1201£ i l
C1066
IBOu
C1066
10n i l
C1067
10
25V
C1068
10n
A1; Diagram 1 - Attenuator CH 1 (PM3094/PM3092)
UNIT DESCRIPTIONS
5.1.5 Circuit diagrams
00001/1
I son I
00001/0
| AC/DC |
R1002
D9001*
00001/12
09001/2
C10M lOn
C1072
10n
HIGH IMPEDANCE
ATTENUATOR
+12AT1 i l C1066
IBOu
C1066
10n
•12AT1 i
1
C1067
IBOu
25V
C1068 lOn
09001/2
5.1 - 33
01201/3
01201/5
C1O60
T 10n
A1; Diagram 1 - Attenuator CH 1 (PM3094/PM3092)
00001/10 00001/18 09001/13 00001/10 D0001/17
5.1 -3 4 UNIT DESCRIPTIONS
A1; Diagram 2 - Attenuator CH 2 (PM3094/PM3092)
1500 I
| AC/DC |
R20Q2
HIGH IMPEDANCE
ATTENUATOR
+12AT2 i l C2005
180u
C2O06
10n
•12AT2 i l
C2068
10n
09001/17
5.1 -34 UNIT DESCRIPTIONS
A1; Diagram 2 - Attenuator CH 2 (PM3094/PM3092)
UNIT DESCRIPTIONS
D0001* 090010 09001/1?
09001 n
5.1 -35
012010
01201/5
970420
A1; Diagram 2a - Attenuator CH 1 (PM3094/PM3092)
UNIT DESCRIPTIONS
| AC /D C |
HIGH IMPEDANCE
ATTENUATOR
C1071 tOn
C1072
10n
LF IMPED.
CONVER
R1012
1E
N1101/11
♦12AT1 -12AT1
“ X
I '
5.1 -35
STB241
970420
A1; Diagram 2a - Attenuator CH 1 (PM3094/PM3092)
5.1 -36 UNIT DESCRIPTIONS
+12AT3 -12AT3
Diagram 3 - Attenuator CH 3 (PM3094)
STQ24S
970420
J a C3077 I I
T ,# b
M
A
AT350C
N1101£
♦ !2AT3 -12AT3
5.1 -36 UNIT DESCRIPTIONS
-12AT3
Diagram 3 - Attenuator CH 3 (PM3094)
STB242
970420
UNIT DESCRIPTIONS m
:{“K xjr \ won ™
310
I B4012
,E
OPT
K4001 i
. I C406S u ™ 04086 i " r
I C4067 -L 180u
25V i
+12AT4
5.1 - 37
D4201/3
D4201/5
ST8243
97D420
Diagram 4 - Attenuator CH 4 (PM3094)
UNIT DESCRIPTIONS
| A C/DC f
R40Q2
HIGH IMPEDANCE
ATTENUATOR
C4071 lOn
C4072 lOn
LF IM PE
CO NVE
/100
T .
C4071 lOn
I
+12AT4 m n
5.1
37
04201/3
04201/5
STB243
970420
Diagram 4 - Attenuator CH 4 (PM3094)
K4002
+12AT* -12AT4 i l
C4067
160u
25V
C4068
10n
5.1 -38
+ 12AT4
UNIT DESCRIPTIONS
I
I
INPUT
SENS
5V
.IV
ND
Diagram 4a - Attenuator CH 3 (PM3092/PM3082)
REF NR
N«001
TYPE
AO-646
+-12AT4
7
•12AT4
4
ST8244
970430
i
J 25V " " 10n ^
04097 u “
I
06002/17
¥ AT4/100 ton
5.1 -38
+ 12AT4
UNIT DESCRIPTIONS
04201/3
042015
INPUT
SENS
5V
IV
GNO
/10
ATT
<1004
2£
Diagram 4a - Attenuator CH 3 (PM3092/PM3082)
REF NR
N4Q01
TYPE
AO-648
+12AT4 •12AT4
STB244
670420
UNIT DESCRIPTIONS
P R O B E
CA L IB R A TO R
G N D R EF
G N D R EF
¥
IOVREF
J j C,15°
■ ■ ■ 180u
G N D R E F
C 1 1 5 7
100n
L O O P G AIN
C A L IB R A T IO N
A M P L IT U D E
C A U B R A T O R
♦ 1 0 V R E F
5.1
39
N 1 1 0 3
3 5 8
N 3 1 0 3
N 3 1 0 3
35 6
+ 10PA
R 1141
\0E
X C 11 58
18 OU
2 5 V
I l C 11 50
100 n
I2 C A
REF NR
0 1 1 5 1
0 1 1 5 2
N1101
N 1102
N 11 03
N 11 04
N31Q2
N 31 03
TYPE
HEF4Q53
HEP4051
LM 339Q
IM 3 S 8 D
LM 3 5 8 P
Q P -77G S
1143580
LM 3 68 D
+ 5 P A + 1 2 C A
16
16
+ 1 2 P A -12PA
3
6
8
7,6
12
S T 8 2 4 5
9 7 0 4 2 0
Diagram 5 - Attenuator control + CAL generator
UNIT DESCRIPTIONS
P R O B E
C A L IB R A TO R
G N O R 6F f f
G N D R E F
C 11S0
180u
25 V
G N D R E F
, C 1 1 5 7
' 100n
N 1 1 0 3
L O O P G AIN
C A L IB R A T IO N
A M P L IT U D E
C A U B R A T O R
5.1 - 39
N 3 1 0 3
3 5 8
+ 10PA
m C 1 1 5 7
G N D F 1EF
R1141
+ l C 1 1 5 8
1 80 u
I 2 S V
T
I
Diagram 5 - Attenuator control + CAL generator
5.1 - 40 UNIT DESCRIPTIONS
Diagram 6 - Preamplifier CH 1 and CH 2
PAOREF
N32Q2/12
5.1 -40 UNIT DESCRIPTIONS
Diagram 6 - Preamplifier CH 1 and CH 2
UNIT DESCRIPTIONS l GAIN CONTROLVAR X1 /2 X5 |
5.1 -41
Diagram 7 - Preamplifier CH 3 and CH 4
UNIT DESCRIPTIONS
PMVAR ft4220
5.1 -41
Diagram 7 - Preamplifier CH 3 and CH 4
5.1 -42 UNIT DESCRIPTIONS
Diagram 8 - Y-functions
+ 12FNC12 +I2R4C12
+12FNC34 +12FNC34
R1S13
1K47
FNC FI
+12FNC12
5.1 -42
FM 2M V 00003/7 + 12FNC12 H2FNC12
UNIT DESCRIPTIONS
Diagram 8 - Y-functions
UNIT DESCRIPTIONS
♦ 10P*
| REF VOLTAGE |
DG001
HEF40M
I f 1
+120LD
! AC:35mV
| CLAMP CIRCUIT ] | DELAY LINE DRt/ER |
5.1 -43
| CORRECTION VOLTAGE |
N5001
358
REF NR
05001
N5001
N5002
Type
HEF4oaa
LM3S8
CA3046
+120LD
J.
•12V
| SUPPLY VOLTAGE |
+120 LD
STB240
970428
Diagram 9 - Delay line driver (PM3094/PM3092)
UNIT DESCRIPTIONS
♦ 10PA
| REF VOLTAGE |
DS001
HEF40M
D5001
HEF4066
; AC :35mV
• DC: 5V
DLDDCLEVB.1
DLDDCLEVELO
I R5050
51 IK
| CORR
5.1 -43
D5001
HEF4096
| CORRECTIO N VOLTAGE~~|
*C001
358
REF NR
PS001
NSOQ1
N5002
TYPE
HEF4068
LM3S8
CA3046
+ 12DLD
±
[ ' " s u p p l y v o l t a g e I
+12DLD
STB24C
979428
Diagram 9 - Delay line driver (PM3094/PM3092)
N50Q2
CA3046
| UN. YO FFSET & TRACE SEP CONTROL |
I R5066
511K
R5524
_ TRASEP H5<ai
05000 j 2200
>10f¥ i
RS076
14K7
8
06001
HEF4066
9
RS01B
2 u
5 N60Q2
CA3046
1 0 N5002
CA3048 o RS007
348 E
UK7
RS004 i
20 LO
V5001
BF520
V V
N 2
CA3048
C6001
470p
R5000
900E
0
R5012
162E nsci6
1 100E
.DIOOCLEVOX
RS011
0OQE
□
RS013
162E
I I R5014
I I 1K47
RS008
1 348E
R6017
"M 100E
1 0
VSDQ2
BFS20
>*CQ2
CA3046
N5002
CA3046 R5002
3K48
RS006
14K7 f
| REF VOLTAGE |
| CLAMP CBCUfT |
| CORRECTION VOLTAGE |
N5001
368
5.1 - 44
| DELAY U N E DRIVER |
| SUPPLY VOLTAGE |
>12010
UNIT DESCRIPTIONS
D5001
HEF4099
R t d — I F
D9001
HEF4O08
REF NR
06001
NS001
N6002
TYPE
HEF4Q88
LM3S8
CA3046
*12010
14_____
8_________4
7
±
Diagram 9a - Delay line driver (PM3084/PM3082)
STB2S0
070428
| REF VOLTAGE j f
D5001
HEF4009
I f
DS001
HEF40M
[~~C0RHECT10N VOLT/
N5001
366
5.1 -44
| CLAMP CIRCUIT [ | DELAY LINE DRIVER |
UNIT DESCRIPTIONS
| CORRECTION VOLTAGE**)
N5001
358
♦ 12V
| SUPPLY VOLTAGE |
C5008 t0n
REF NR
06001
NS001
NEO02
TYPE
HEF4Q88
LM3S6
CA3046
•120 ID
±
Diagram 9a - Delay line driver (PM3084/PM3082)
♦ 120 ID
STB25C
B7D420
UNIT DESCRIPTIONS
REF NR
05501
D5502
D5503
09009
TYPE
HEF4053
HEF4053
HEF4061
000200
+60ML + 120ML
16
16
14
±
7.8
7.6
7
D5501
HEF4053
5.1
-45
04 30 1/20
D2301/20
D3301/20
01301/20
04301/24
02301/24
03301/24
D1301/24
02301/23
| DTB TRIGGER SOURCE CONTROL ]
ST8251
970426
Diagram 10 - Display and trigger control
UNIT DESCRIPTIONS
♦ 12CNT
U N E
C N T
0
R552O
10K
0
R5527
100K
06514
100n
RS511
10K f 12CNT
C 5504
22p
Hh
V8018
ALTCLK
V5503
BC 848
C H P C L N
+ 12D M L
POWER UP RESET DML
C5505
B20p
+ 12D M L
+6DML
P U O M L
CNT CNT
D9000
000200
DISPLAY
MODE
LOGIC r
RSS02
[1 2K 1
R5503
M2K1
VT
OTH
60S
A D R S E L
O M L
0€M
UFW
H
V5502
B FS2 0
R5517
C5 S0 2 lOOp
C80Q2
♦ 12CNT -12C N T
| CHOPPER OSCILIATO f T I
R E F NR
D5501
0 5 5 0 2
0 5 5 0 3
D9000
T Y PE
H EF4053
H EF4053
HEF4081
0 0 0 2 0 0
+ 6 0 M L + 12D M L
16
16
14
±
7.8
7.8
7
+ 1 2 C N T
R5803
C N T
| DISPLAY MODE LOGIC SUPPLY [
D5501
HEF4053
5.1 - 45
CNT
STB251
970428
Diagram 10 - Display and trigger control
- o -
5.1 - 46i
09003
HEF4094
S R G8
► C1 / - 4 s <
3
V 02201/25
02201/24
02201/23
02301/3
D1201/2S
D1201/24
01201/22
D1301/28
- ^C1 / ’
D9004
HEF4094
5 .
3 V,
11 DMLfl-HT
04201/25
04201/24
04201/23
04301/3
03201/25
03201/24
03201/23
R5561
UNIT DESCRIPTIONS
_ SOA
•
_ S C L
»
NB001
3444
O C T 6 B D A C
+ 12PA
_
+ 10PA
'
M *
IP
A fe .
f t
J1102
1
2
3
4
1 5
7
10
8
9
VUAX
CMC?
MC.
14
13
12
11
20
19
18
17
18
15
ATCAL2
ATCAL1
A7CAU0
AT1LO OPCAL
AT1 O FF S ET
AT1LFCAL
PA1 O FFS ET
PAIO FFSTRO
"
_
Z
IT
_
_
_
~
IT
_
0 11 5 2 0
01152/10
01152/11
R1113
R1039
R1102
R1203
R1229
^
SDA
_ S C L ^
IP
PP
J2102
10
8
9
8
7
2
3
4
N9002
8444
0 C T 6 B D A C
AMX
OACr
HC
18
15
14
13
12
11
20
19
18
17
A T2LO OPC AL
A T 20 FFS E T
AT2LFCAL
PA20FFSET
P A 20FFST R G
AT3LO OPCAL
A T X5FFSET
AT3LFCAL
_
R2113
Z
Z
Z
_
__
R2039
R2102
R2203
R2229
R3113
_
R31Q2
^
SDA
-
S C L
4 *
PP fP
J3102
N0003
OCT SB DAC
_ L
B
7
10
8
9
2
3
4
AHU HC
15
14
13
12
11
20
19
18
17
16
P A 3 0FFSE T
P A 3 0FFST R G
AT4LOOPCAL
A T 40 F FS E T
AT4LFCAL
PA40FFSET
P A 4 0FFST R G
DLDO FFSET
__
R3203
_
_
_
_
Z
_
R3229
R4113
R4039
R4102
R4203
R4229
RS016
C1831
| 180 m
25V
+10PA +12PA
C1032
» 10Q[i
25V
Diagram 11 - Control circuits
5.1 - 4 6 ii
X9001/20
X9001/11
XB001/12
J1001
09001
TEA 1017
^ > I C 2 / « L
13
12
11
10
18
16
14
2 AT1/100
1 AT1-50E
18
17
AT2AC/DC
AT2/1M
AT2J0E
AT12REP
AT1/2-5
AT2AXH
ATtjOIQ
A
T2/ZS
AT2M10
9 q
AT1AC/PC
AT1/0Q1
<1006/1
K1001/1
K20Q2/1
K2006/1
K2001/1
<1001/16
V1017
10003/16
K1004/1
V2017
<2004/1
K1002/1
K1003/ie
09002
TEA 1017
XB001/19
-- ------ H
J3001
-- ------€►
- I * > 1 C 2 / ■
7 c 3
AT3/100
AT3.50E
AT4AC/DC
AT4/100
AT4.S0E
AT34REP
AT3/2.5
AT4Q01
AT3A)10
AT4g,S
AT4/010
AT3AC/DC
AT3AX)1
10006/1
10001/1
K4002/1
<4006/1
K4001/1
10001/16
V3017
<4003/16
0 0 04 /1
V4017
<4004/1
10002/1
0 0 0 3 /1 6
UNIT DESCRIPTIONS
UNIT DESCRIPTIONS 5.1 - 47
MTOTVSELtO UTRSLDPE TRGGB4S ON M
+VE SLOPE
VE SLOPE
♦VE VDEO SO
•VE VDBO SG
)
R6S7B
R0678
4K22
I
I
10n
I i
M
BSSW
Li LH
J
: NOTUSE
T
AC^OOmV
DC:l50nrV
MTBK31
TO OOQ227 ov
2mA/DIV
2 X 5mA
_ ir r a e o _
Diagram 12 - MTB trigger
UNIT DESCRIPTIONS
00006/1
STBOBE1-HT
♦5TB
X0001/11
>© 001/12
S R G 6 y w 4
00011
HEF4004
X0002/12
1...4V
150mv/dtv
LEVMTB
R6622
I 5KS2
R6621
M7BTVOFF-HD
MTRTVLSW-K)
MTBLF-HD
MTRTVSEL-HD
MTBTVPPSW+P
MTBTVFLDSW-U?
MTRPPLEV-HO
MTRSLOPE
TBOOt
D6781/5, V8764
00781/11
D67B1/B
06781/10
00006/2
R6626
♦ 12MTR
+ 18MTR
R9603
+0.8V iOOuVcfv
2 X 2mA
V9606
BFT82
" t
P
R8624
12K1
C6624
X
100n
I
♦ 12MTREF
0
M612
750E
C6817
R6613
7SOE
Q
+4SV
70mV/btv
PPO
3103
R9634 i
♦ 1SMTR
11 12 |
R8633
511E
16 17
F«63e
316E
5.1 - 47
Diagram 12 - MTB trigger
| TV CLAM p |
R0BO1
* , f V * ----------------- H e --------i — i-----------------------
—
+ l 08802
■
I ” ] " 10n
R0811
J
C»12
T s s v T ' ° "
^ C8804 lOn
R0Q21
— ^ ------------------I 4 P 1 ----------------------
11111 1 J
C«Q22
■“ «7* ■ a
C0923 m
B CQ024
" 10n " " lOn
1 25V
R6Q31
± 4 7 p i 0 S 9 3 3 J
■ lOn
R0841
____ B C6943
■ 10n
N7952
324
2
H7801
B7811
R7S21
R7031
R7941
TV SYNC. SEPARATOR ~~l
5.1 -48 UNIT DESCRIPTIONS
| TV UNE/FRAME SELECTION |
Diagram 13 - TV/line trigger
TV CLAMP
| TV SYNC. SEPARATOR | m t r h d t \
09012
(
MTRTVMOOE
♦7.7V
+5J3V
♦ 2 2 V
TV STANDARD
RALMTSC hOTV(JAP)
HCTV (EUREKA) a C8903
" l O n a
" a C8804
"
10n
T ssv T ,on
J J
C0922
“ 47(i
|
25V
J a caeca
"
10n a
" a C6824
"
10n
^ cawa
± 4 7 ,
+ 25V i 0®833 J
T 10n a C8934
" lOn
C8042
147*1
25V I
R7921
| 4E7
C7912
| 47(i
25V
X
I
R7931
1 4g7
T
I
C7932
47(/
25V
| TV SYNC. SEPABATOtT~|
5.1 -48 UNIT DESCRIPTIONS
TV U N E/FR AM E SEUECTKDN
Diagram 13 - TV/line trigger
UNIT DESCRIPTIONS
+160 TR
5.1 -49
Diagram 14 - DTB trigger
UNIT DESCRIPTIONS
+180 TP
XDEFL OUTPUT CIRCUfT
DTHXDEF1 i C7751
1 lOOp
DTRXD6F0
PANEL VERSION ID ENTIFICATION
00013
AC :300m V
OC: 5V
R7753
|2 fl1 E
R77S4
^9iE
V7032
+5
JtN
02rrAJ6r*
2 X 3 n *
V7031
X80C2/11 ^ LEVPTB
1 . 4V
D.ISWrtv
5.1 -49
DTHTVSEL+D TRIGGERS ON „
+VE SLOPE
•VE SLOPE
TV UNE
AC^OOmV
OCMSOmV
C7581 r ......................
JL
: 07583 ■ n
> r a * :
_ : | h i e s =
, o n T i * *
J V !
-12DTR ;
2mA**v
2 X 5mA
+5.8V
OinVMbrv
2 X 3mA
V7801 EXTB1NAI TRIGGER
V7B02 NOT USED
V7B03 NOT USED
V7B04 BANDWDTH UMfTED VERSION
V7BQ5 PM337OA/330OA/339CA
V7B06 NOT USB)
V7807 ALUMAYS MOUWTH)
V7B06 NOT USB)
Diagram 14 - DTB trigger
5.1 -50 UNIT DESCRIPTIONS
Diagram 15 - Time base logic
" ¥ • B A W * + *
R8C70
5K11
R6071
I 8K2S
, C8000
' tOOn
J6001 l 0-10v"l
20 MTRSEN ie irm sA L
17 KTTOTVMOOE
IS DSOCALM
14 DSOCALD
13
11
OTBVAft
TBHTRAT-JCA
R6700
R6772
R7S54
\»C1S
8ZX&4
C2V4
06006
HEF40106
{Z K
06006
HEF40106
Q -
_
OSOCALM
R8C48
( f +5TB
1
R8061
J-
_____
DSOM-OPTON
4120SOM
T
100n
* i
;
N W
0 /
VWJ23
-X-, ~
V8024
| w 0FTB2 BFT02 ”78 /3C 7C\ rE E D T O nso“II X10n
1K
J L . L e w i s
I
I
I
L
XB011
-K47
—
I
«L
OSOMOUT
._Q_--
JL
I I RW77 I I S E
|
:
E O - f
■
R6000
31KB
5
R8001
363E
R8015
~j 1KB2 t
VS02S ,
BAS29 .
R80G2
363£ f
V6026
. 8AS28
5.1 - 50
V6004
UNIT DESCRIPTIONS
Diagram 15 - Time base logic
UNIT DESCRIPTIONS 5.1 -51
Diagram 16 - Main time base
UNIT DESCRIPTIONS
R6001
5.1
51
06007
HEF4004
S R G B
07006
74HCT14 r
74HCT14
IT
^ 6
DVAR
12
13
OTRS10P6
DTR7VSEL-H0
14 OTRLF-HD
R7347
07711/10
06011/15
06011/23
R700Q
! 48K4
VAR/CAL CURRENT SOURCE
1 1 R7011
M ,w
1 1 R7012
VAR
DTBO+C 06006/1
DTBM-HC 06006/2
OTBB-HC 06006/12
5.1 - 52
_ OTBCALTST
_ MTBCALTBT
_ VPPTBST-LD
3
5
07006
74HCT14
2 7
"
8
07006
74HCT14
J7
1
07006
74HCT14 ir
07006
74MCT14
TBNOTTRG-HT
16TB
I .
I '
( MCIOOP
W075
«
+
N7014
OP-77
< +
3
2
WO 75
BAS26
-w -
HT2ai
MSW _
1
Diagram 17 - Delayed time base
UNIT DESCRIPTIONS
TO FNAL X-AMPUF1ER
I f * ™ 1
XB0C1/43 ______
R7161
C7161
ONLY IN
PM3068
PM3064
5.1 -52 UNIT DESCRIPTIONS
Diagram 17 - Delayed time base
R716Y
C7181
ONLY IN
PM30Q2
PM3004
UNIT DESCRIPTIONS
X9001
I--------------- 1
5.1
53
D0O 8/1
Diagram 18 - Connectors
UNIT DESCRIPTIONS 5.1 - 55
Item
Parts list
Description
0003
0004
0005
0006
0007
0008
0010
0011
0012
0014
0017
MECHANICAL
A1
A1
A1
A1
0002
BOARD,PRINTED
BOARD,PRINTED
BOARD,PRINTED
BOARD,PRINTED
SPECIAL NVT
RING
HOLDER
PLATE
PIN
BRACKET
SPRING
SHIELD
SHIELD
SCREENING
CAP
CAP, PROTECT.
C1006
C1007
C1008
C1011
C1012
C1014
C1018
C1019
C1020
C1021
C1022
C1023
C1025
C1027
C1031
CAPACITORS
C1000
C1001
C1002
C1003
C1004
CAP.CERAMIC
CAP.FOIL
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
C1041
C1042
C1044
C1045
C1046
C1047
C1048
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
SIGNAL UNIT 94
SIGNAL UNIT 92
SIGNAL UNIT 82
SIGNAL UNIT 84
FOR BNC
BNC SPACER
BNC HOLDER
SCREENING PARTITION
CALIBRATION PIN
SOLDERING BRACKET
INDICATION SPRING
SCREENING CAP 2
SCREENING CAP 1
SCREENING PLATE
BNC ISOLATOR
SCREENING CAPC
500V 0.25PF 3.3PF
AP 400V 10% 22NF
AP 63V 10% 100NF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
AP 63V 0.25PF 3.3PF
AP 63V 5% 33PF
AP 63V 5% 27PF
AP 63V 0.5PF 5.6PF
AP 63V 10% 10NF
AP 63V 10% 10NF
500V 0.25PF 2.2PF
500V 10% 1NF
AP 63V 0.5PF 6.8PF
AP 63V 5% 470PF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
Ordering code
5322 214 90724
5322 214 91027
5322 214 90896
5322 214 90898
5322 506 41006
5322 532 21188
5322 256 91792
5322 466 83049
5322 535 93244
5322 401 11419
5322 492 70939
5322 466 30404
5322 466 30405
5322 466 83051
5322 462 41847
5322 447 70131
4822 122 31188
5322 121 70399
4822 122 33496
4822 122 31188
4822 122 31188
4822 122 31188
4822 122 31188
5322 122 32286
5322 122 32659
5322 122 31946
5322 122 32967
5322 122 34098
5322 122 34098
5322 122 32774
4822 122 31175
5322 122 32269
5322 122 32268
4822 122 33496
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 122 34098
5.1 -56
C1101
C1102
C1151
C1153
C1156
C1157
C1158
C1159
C1201
C1204
C1205
C1208
C1209
C1210
C1211
C1250
C1251
C1252
C1253
C1254
C1301
C1302
C1303
C1304
C1305
C1069
C1071
C1072
C1076
C1077
C1082
C1085
C1086
C1087
C1088
Item
C1051
C1054
C1055
C1056
C1057
C1058
C1059
C1060
C1061
C1062
C1063
C1064
C1066
C1067
C1068
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 0.25PF 2P7
AP 63V 5% 10PF
AP 63V 0.25PF 2.2PF
AP 63V 0.25PF 2.2PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 1.5NF
25V 20% 180UF
AP 63V 10% 100NF
25V 20% 180UF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 5% 100PF
AP 63V 10% 10N F
AP 63V 10% 10NF
AP 63V 5% 47PF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 100NF
AP 63V 5% 47PF
AP 63V 10% 10NF
AP 63V 10% 22NF
AP 63V 5% 10PF
AP 63V 0.25PF 1.8PF
UNIT DESCRIPTIONS
Ordering code
5322 122 34098
5322 122 34098
5322 122 31873
5322 122 32448
5322 122 33063
5322 122 33063
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42228
5322 122 34098
5322 124 42228
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 31865
5322 124 42228
4822 122 33496
5322 124 42228
4822 122 33496
5322 122 34098
4822 122 33496
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 32452
4822 122 33496
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42228
4822 122 33496
5322 122 32452
5322 122 34098
5322 122 32654
5322 122 32448
5322 126 10343
UNIT DESCRIPTIONS
Item
C1611
C1651
C1652
C1653
C1654
C1904
C1906
C1931
C1932
C2000
C2001
C2002
C2003
C2004
C2006
C1656
C1657
C1658
C1659
C1661
C1662
C1668
C1669
C1901
C1903
C2007
C2008
C2011
C2012
C2014
C2018
C2019
C2020
C2021
C2022
C2023
C2025
C2027
C2031
C2041
C2042
C2044
C2045
C2046
C2047
C2048
C2051
C2054
C2055
C2056
Description
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CERAMIC
CAP. FOIL
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
AP 63V 10% 100NF
25V 20% 47UF
AP 63V 10% 100NF
25V 20% 47UF
AP 63V 10% 100NF
25V 20% 47UF
AP 63V 10% 100NF
25V 20% 47UF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
25V 20% 180UF
AP 63V 10% 100NF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
500V 0.25PF 3.3PF
400V 10% 22NF
AP 63V 10% 100NF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
AP 63V 0.25PF 3.3PF
AP 63V 5% 33PF
AP 63V 5% 27PF
AP 63V 0.5PF 5.6PF
AP 63V 10% 10NF
AP 63V 10% 10NF
500V 0.25PF 2.2PF
500V 10% 1NF
AP 63V 0.5PF 6.8PF
AP 63V 5% 470PF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 0.25PF 2P7
AP 63V 5% 10PF
5.1 - 57
4822 122 31188
5322 122 32286
5322 122 32659
5322 122 31946
5322 122 32967
5322 122 34098
5322 122 34098
5322 122 32774
4822 122 31175
5322 122 32269
5322 122 32268
4822 122 33496
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 31873
5322 122 32448
Ordering code
4822 122 33496
5322 121 10472
4822 122 33496
5322 121 10472
4822 122 33496
5322 121 10472
4822 122 33496
5322 121 10472
4822 122 33496
4822 122 33496
4822 122 33496
5322 124 42228
4822 122 33496
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
4822 122 31188
5322 121 70399
4822 122 33496
4822 122 31188
4822 122 31188
4822 122 31188
5.1 -58
C2068
C2069
C2071
C2072
C2076
C2077
C2085
C2086
C2087
C2088
C2101
C2102
C2201
C2204
C2205
C2208
C2209
C2210
C2211
C2301
C2302
C2303
C2304
C2305
C3000
C3001
C3002
C3003
C3004
C3006
C3007
C3008
C3011
C3012
C3014
C3018
C3019
C3020
C3021
C3022
Item
C2057
C2058
C2059
C2060
C2061
C2062
C2063
C2064
C2066
C2067
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP. FOIL
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
AP 63V 0.25PF 2.2PF
AP 63V 0.25PF 2.2PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 5% 47PF
AP 63V 10% 100NF
AP 63V 5% 47PF
AP 63V 10% 10NF
AP 63V 10% 22NF
AP 63V 5% 10PF
AP 63V0.25PF 1.8PF
500V 0.25PF 3.3PF
400V 10% 22NF
AP 63V 10% 100NF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
AP 63V 0.25PF 3.3PF
AP 63V 5% 33PF
AP 63V 5% 27PF
AP 63V 0.5PF 5.6PF
AP 63V 10% 10NF
AP 63V 10% 10NF
500V 0.25PF 2.2PF
500V 10% 1NF
AP 63V 0.5PF 6.8PF
UNIT DESCRIPTIONS
Ordering code
5322 122 34098
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 32452
4822 122 33496
5322 122 32452
5322 122 34098
5322 122 32654
5322 122 32448
5322 126 10343
4822 122 31188
5322 121 70399
4822 122 33496
4822 122 31188
4822 122 31188
4822 122 31188
4822 122 31188
5322 122 32286
5322 122 32659
5322 122 31946
5322 122 32967
5322 122 33063
5322 122 33063
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42228
5322 122 34098
5322 124 42228
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32774
4822 122 31175
5322 122 32269
UNIT DESCRIPTIONS
C3048
C3051
C3054
C3055
C3056
C3057
C3058
C3059
C3060
C3061
C3062
C3063
C3064
C3066
C3067
C3068
C3069
C3071
C3072
C3076
C3077
C3085
C3086
C3087
C3088
Item
C3023
C3025
C3027
C3031
C3041
C3042
C3044
C3045
C3046
C3047
C3101
C3102
C3201
C3204
C3205
C3208
C3209
C3210
C3211
C3301
C3302
C3303
C3304
C3305
C4000
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
AP 63V 5% 470PF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10N F
AP 63V 10% 10NF
AP 63V 0.25PF 2P7
AP 63V 5% 10PF
AP 63V 0.25PF 2.2PF
AP 63V 0.25PF 2.2PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 5% 47PF
AP 63V 10% 100NF
AP 63V 5% 47PF
AP 63V 10% 10NF
AP 63V 10% 22NF
AP 63V 5% 10PF
AP 63V0.25PF 1.8PF
500V 0.25PF 3.3PF
5.1 -59
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42228
5322 122 34098
5322 124 42228
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 32452
4822 122 33496
5322 122 32452
5322 122 34098
5322 122 32654
5322 122 32448
5322 126 10343
4822 122 31188
Ordering code
5322 122 32268
4822 122 33496
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 31873
5322 122 32448
5322 122 33063
5322 122 33063
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5.1 - 60
C4048
C4051
C4054
C4055
C4056
C4057
C4058
C4059
C4060
C4061
C4062
C4063
C4064
C4066
C4067
C4068
C4069
C4071
C4072
C4076
C4077
C4085
C4086
C4087
C4088
Item
C4001
C4002
C4003
C4004
C4006
C4007
C4008
C4011
C4012
C4014
C4018
C4019
C4020
C4021
C4022
C4023
C4025
C4027
C4031
C4041
C4042
C4044
C4045
C4046
C4047
Description
CAP.FOIL
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
400V 10% 22NF
AP 63V 10% 100NF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
500V 0.25PF 3.3PF
AP 63V 0.25PF 3.3PF
AP 63V 5% 33PF
AP 63V 5% 27PF
AP 63V 0.5PF 5.6PF
AP 63V 10% 10NF
AP 63V 10% 10NF
500V 0.25PF 2.2PF
500V 10% 1NF
AP 63V 0.5PF 6.8PF
AP 63V 5% 470PF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 0.25PF 2P7
AP 63V 5% 10PF
AP 63V 0.25PF 2.2PF
AP 63V 0.25PF 2.2PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10N F
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 10NF
25V 20% 180UF
AP 63V 10% 10NF
UNIT DESCRIPTIONS
Ordering code
5322 121 70399
4822 122 33496
4822 122 31188
4822 122 31188
4822 122 31188
4822 122 31188
5322 122 32286
5322 122 32659
5322 122 31946
5322 122 32967
5322 122 33063
5322 122 33063
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42228
5322 122 34098
5322 124 42228
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32774
4822 122 31175
5322 122 32269
5322 122 32268
4822 122 33496
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 31873
5322 122 32448
UNIT DESCRIPTIONS
Item
C4101
C4102
C4201
C4204
C4205
C5001
C5002
C5003
C5004
C5005
C5006
C5007
C5008
C5010
C5012
C4208
C4209
C4210
C4211
C4301
C4302
C4303
C4304
C4305
C5000
C5015
C5016
C5016
C5017
C5018
C5501
C5502
C5503
C5504
C5505
C5506
C5507
C5508
C5509
C5510
C5511
C5513
C5514
C5601
C5602
C5603
C5604
C6000
C6001
C6002
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 5% 47PF
AP 63V 10% 100NF
AP 63V 5% 47PF
AP 63V 10% 10NF
AP 63V 10% 22NF
AP 63V 5% 10PF
AP 63V 0.25PF 1.8PF
AP 63V 10% 220NF
AP 63V 5% 470PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 0.5PF 5.6PF
AP 63V 5% 10PF
CAP.CHIP
AP 63V 5% 330PF
CAP.CHIP (100 MHz) AP 63V 10% 6.8PF
CAP.CHIP (200 MHz) AP 63V 10% 2.2NF
CAP.CERAMIC
AP 63V 0.25PF 0.56PF
CAP.CERAMIC
AP 63V 0.25PF 0.56PF
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
AP 63V 5% 820PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 5% 22PF
AP 63V 5% 820PF
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.FOIL
CAP.ELECTROLYT.
CAP.CHIP
AP 63V 10% 1.5NF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 100NF
AP 63V 10% 100NF
25V 20% 47UF
AP 63V 10% 100NF
AP 63V 10% 100NF
50V 20% 6.8UF
25V 20% 180UF
AP 63V 10% 100NF
5.1 -61
Ordering code
5322 122 34098
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 32452
4822 122 33496
5322 122 32452
5322 122 34098
5322 122 32654
5322 122 32448
5322 126 10343
4822 122 32916
5322 122 32268
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32967
5322 122 32448
5322 122 31863
5322 122 32269
4822 122 33127
5322 122 33083
5322 122 33083
5322 126 10184
5322 122 32531
5322 122 34098
5322 122 32658
5322 126 10184
5322 122 31865
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
4822 122 33496
4822 122 33496
5322 121 10472
4822 122 33496
4822 122 33496
5322 124 42389
5322 124 42228
4822 122 33496
5.1 - 62
Item
C6004
C6005
C6006
C6007
C6008
C6009
C6011
C6012
C6013
C6014
C6015
C6016
C6017
C6018
C6031
C6032
C6033
C6035
C6038
C6039
C6070
C6071
C6080
C6093
C6094
C6107
C6108
C6109
C6110
C6111
C6112
C6113
C6114
C6115
C6116
C6117
C6118
C6305
C6415
C6504
C6095
C6096
C6097
C6098
C6101
C6102
C6103
C6104
C6105
C6106
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP. FOIL
CAP. FOIL
C A P. ELE CTROLYT.
CAP.CHIP
CAP.CERAMIC
CAP.ELECTROLYT.
CAP. ELECTROLYT.
CAP.FOIL
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.FOIL
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
AP 63V 5% 330PF
AP 63V 10% 220NF
AP 63V 10% 220NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
630V 1% 68PF
63V 5% 10NF
100V 10% 10UF
AP 63V 10% 100NF
AP 63V 0.5PF 5.6PF
25V 20% 47UF
25V 20% 180UF
50V 20% 6.8UF
AP 63V 10% 1.5NF
AP 63V 10% 1.5NF
AP 63V 5% 330PF
63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 100PF
AP 63V 10% 22NF
AP 63V 10% 100NF
AP 63V 10% 22NF
25V 20% 180UF
25V 20% 180UF
AP 63V 10% 22NF
25V 20% 180UF
25V 20% 180UF
AP 63V 10% 220NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 470PF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
50V 20% 10UF
AP 63V 10% 10N F
UNIT DESCRIPTIONS
Ordering code
5322 122 31863
4822 122 32916
4822 122 32916
4822 122 33496
4822 122 33496
4822 122 33496
5322 121 70127
5322 121 70116
5322 124 20164
4822 122 33496
5322 122 32967
5322 121 10472
5322 124 42228
5322 124 42389
5322 122 31865
5322 122 31865
5322 122 31863
5322 121 42386
4822 122 33496
5322 122 32531
5322 122 32654
4822 122 33496
5322 122 32654
5322 124 42228
5322 124 42228
5322 122 32654
5322 124 42228
5322 124 42228
4822 122 32916
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
5322 122 32268
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
5322 124 21731
5322 122 34098
UNIT DESCRIPTIONS
Item
C6648
C6649
C6707
C6751
C6758
C6768
C6773
C6777
C6779
C6787
C6902
C6903
C6904
C6912
C6913
C6922
C6923
C6924
C6932
C6933
C6934
C6942
C6943
C6953
C6962
C6963
C7001
C7002
C7003
C7004
C6549
C6551
C6557
C6559
C6561
C6562
C6581
C6583
C6617
C6623
C6624
C6639
C6642
C6644
C6647
C7005
C7006
C7007
C7008
C7009
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
AP 63V 10% 22NF
AP 63V 10% 22NF
AP 63V 10% 10NF
AP 63V 10% 22NF
25V 20% 180UF
25V 20% 180UF
AP 63V 10% 10NF
AP 63V 0.5PF 6.8PF
AP 63V 0.25PF 2.2PF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 220NF
AP 63V 10% 220NF
AP 63V 10% 220NF
AP 63V 10% 220NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 5% 100PF
25V 20% 47 UF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 22PF
AP 63V 5% 820PF
25V 20% 47UF
AP 63V 10% 10N F
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 100NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 330PF
AP 63V 10% 220NF
AP 63V 10% 220NF
AP 63V 10% 100NF
AP 63V 10% 220NF
AP 63V 10% 100NF
5.1 - 63
4822 122 33496
4822 122 33496
4822 122 33496
5322 122 32658
5322 126 10184
5322 121 10472
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
4822 122 33496
5322 121 10472
5322 122 34098
4822 122 33496
4822 122 33496
4822 122 33496
5322 122 31863
4822 122 32916
4822 122 32916
4822 122 33496
4822 122 32916
4822 122 33496
Ordering code
5322 122 32654
5322 122 32654
5322 122 34098
5322 122 32654
5322 124 42228
5322 124 42228
5322 122 34098
5322 122 32269
5322 122 33063
5322 122 34098
4822 122 33496
4822 122 32916
4822 122 32916
4822 122 32916
4822 122 32916
4822 122 33496
4822 122 33496
5322 122 34098
5322 122 32531
5322 121 10472
5.1 - 64
Item
C7010
C7011
C7012
C7013
C7014
C7015
C7016
C7017
C7021
C7033
C7034
C7035
C7036
C7054
C7055
C7060
C7091
C7092
C7093
C7099
C7161
C7504
C7513
C7549
C7551
C7557
C7559
C7561
C7562
C7581
C7583
C7682
C7697
C7751
C7813
C7902
C7903
C7904
C7912
C7913
C7923
C7932
C7933
C7934
C7942
C7943
C7962
C7963
C8000
C8001
Description
C AP.CH IP
CAP. FOIL
CAP. FOIL
CAP.ELECTROLYT.
CAP.CERAMIC
CAP.CHIP
CAPCHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
AP 63V 5% 100PF
630V 1% 82PF
63V 5% 10NF
25V 20% 47UF
AP 63V 0.5PF 5.6PF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 22NF
AP 63V 10% 22NF
AP 63V 10% 22NF
AP 63V 10% 22NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 0.25PF 2.7PF
25V 20% 47UF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 220NF
AP 63V 0.25PF 2.2PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 22NF
AP 63V 10% 22NF
AP 63V 10% 10NF
AP 63V 10% 22NF
25V 20% 180UF
25V 20% 180UF
AP 63V 10% 10NF
AP 63V 0.5PF 6.8PF
AP 63V 10% 220NF
AP 63V 5% 33PF
AP 63V 5% 100PF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47 UF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
25V 20% 47UF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 100NF
UNIT DESCRIPTIONS
Ordering code
5322 122 32531
5322 121 70498
5322 121 70116
5322 121 10472
5322 122 32967
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
5322 122 32654
5322 122 32654
5322 122 32654
5322 122 32654
5322 122 34098
5322 122 34098
5322 122 31873
5322 121 10472
4822 122 33496
4822 122 33496
4822 122 32916
5322 122 33063
5322 122 34098
5322 122 34098
5322 122 32654
5322 122 32654
5322 122 34098
5322 122 32654
5322 124 42228
5322 124 42228
5322 122 34098
5322 122 32269
4822 122 32916
5322 122 32659
5322 122 32531
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 122 34098
5322 121 10472
5322 122 34098
5322 121 10472
5322 122 34098
4822 122 33496
4822 122 33496
UNIT DESCRIPTIONS
C8094
C8095
C8101
C8102
C8401
C8403
C8404
C8405
C8410
C8411
C9011
C9012
C9015
C9016
C9018
C9019
C9020
C9034
C9036
C9041
C9042
C8036
C8060
C8062
C8063
C8064
C8065
C8066
C8070
C8071
C8093
Item
C8002
C8003
C8004
C8005
C8006
C8007
C8008
C8009
C8010
C8011
C8013
C8014
C8015
C8016
C8017
C8020
C8021
C8022
C8034
C8035
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
AP 63V 5% 100PF
AP 63V 5% 10PF
AP 63V 10% 22 NF
AP 63V 10% 22NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 100PF
AP 63V 0.25PF 3.3PF
25V 20% 47UF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
25V 20% 180UF
25V 20% 180UF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 1.5NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 100NF
50V 20% 10UF
AP 63V 10% 220NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 22PF
AP 63V 5% 22PF
AP 63V 10% 22NF
AP 63V 10% 22NF
AP 63V 10% 100NF
AP 63V 0.25PF 0.56PF
AP 63V 5% 100PF
AP 63V 5% 22PF
AP 63V 5% 10PF
5.1 - 65
Ordering code
5322 122 31865
5322 122 34098
5322 122 34098
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
5322 124 21731
4822 122 32916
4822 122 33496
5322 122 34098
5322 122 34098
4822 122 33496
4822 122 33496
5322 122 32658
5322 122 32658
5322 122 32654
5322 122 32654
4822 122 33496
5322 122 33083
5322 122 32531
5322 122 32658
5322 122 32448
5322 122 32531
5322 122 32448
5322 122 32654
5322 122 32654
4822 122 33496
4822 122 33496
4822 122 33496
5322 122 32531
5322 122 32286
5322 121 10472
5322 122 32531
5322 122 32531
5322 122 32531
5322 124 42228
5322 124 42228
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 34098
5.1 - 66 UNIT DESCRIPTIONS
D8006
D9001
D9002
D9003
D9004
D9006
D9007
D9008
D9009
D9011
D9012
D9013
Item Description
DIGITAL INTEGRATED CIRCUITS
D6781
D7001
D7002
D7004
D7005
D7011
D7541
D7711
D8003
D8004
D5001
D5501
D5502
D5503
D6001
D6002
D6011
D6541
D6621
D6779
D1151
D1152
D1201
D1301
D2201
D2301
D3201
D3301
D4201
D4301
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
CD4053BCM NSC
HEF4051BT PEL
OQ0224 INPUT CIRCUIT
OQ0225 OUTPUT CIRC.
OQ0224 INPUT CIRCUIT
OQ0225 OUTPUT CIRC.
OQ0224 INPUT CIRCUIT
OQ0225 OUTPUT CIRC.
OQ0224 INPUT CIRCUIT
OQ0225 OUTPUT CIRC.
HEF4066BT PEL
HEF4053BT PEL
HEF4053BT PEL
HEF4081BT PEL
HEF4051BT PEL
HEF4053BT PEL
OQ0228 SAWCHIP
OQ0226 TRIGGER AMPL.
OQ0128 SSP
PC74HCT112T PEL
HEF4053BT PEL
HEF4051BT PEL
HEF4053BT PEL
HEF4052BT PEL
PC74HCT14T PEL
OQ0228 SAWCHIP
OQ0226 TRIGGER AMPL.
HEF4053BT PEL
OQ0235 Z-LOGIC
OQ0227 TIMEBASE LOG.
HEF40106BT PEL
TEA1017/N9 PEL
TEA1017/N9 PEL
HEF4094BT PEL
HEF4094BT PEL
TEA1017/N9 PEL
HEF4094BT PEL
HEF4094BT PEL
OQ0200 DISPL.MODE LO
HEF4094BT PEL
HEF4094BT PEL
HEF4094BT PEL
Ordering code
5322 209 33502
5322 209 11446
5322 209 12457
5322 209 12458
5322 209 12457
5322 209 12458
5322 209 12457
5322 209 12458
5322 209 12457
5322 209 12458
5322 209 14542
5322 209 14481
5322 209 14481
5322 209 14483
5322 209 11446
5322 209 14481
5322 209 12466
5322 209 12464
5322 209 82925
5322 209 11825
5322 209 14481
5322 209 11446
5322 209 14481
5322 209 11102
5322 209 71568
5322 209 12466
5322 209 12464
5322 209 14481
5322 209 12461
5322 209 12465
5322 209 14486
5322 209 60191
5322 209 60191
5322 209 11306
5322 209 11306
5322 209 60191
5322 209 11306
5322 209 11306
5322 209 82924
5322 209 11306
5322 209 11306
5322 209 11306
UNIT DESCRIPTIONS 5.1 - 67
Item
RELAIS
K3001
K3002
K3003
K3004
K3006
K4001
K4002
K4003
K4004
K4006
K1001
K1002
K1003
K1004
K1006
K2001
K2002
K2003
K2004
K2006
Description
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
RELAY
COILS
L1001
L1301
L2001
L2301
L3001
L3301
L4001
L4301
L6096
L6097
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
0.056UH 5% TDK
0.1 UH 5% TDK
0.056UH 5% TDK
0.1 UH 5% TDK
0.056UH 5% TDK
0.1 UH 5% TDK
0.056UH 5% TDK
0.1 UH 5% TDK
2.0UH TDK
2.0UH TDK
ANALOG INTEGRATED CIRCUITS
N1001
N1101
N1102
N1103
N1104
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
I.C. ANALOGUE
AD548JR AND
LM339D SIG
LM358M NSC
LM358M NSC
OP-77GSR PMI
N1202
N1251
N2001
N2202
N3001
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
LM324M NSC
LM358M NSC
AD548JR AND
LM324M NSC
AD548JR AND
N3102
N3103
N3202
N4001
N4202
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
LM358M NSC
LM358M NSC
LM324M NSC
AD548JR AND
LM324M NSC
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
DPDT RELAIS RAL3W-K
Ordering code
5322 157 63381
5322 157 63647
5322 157 63381
5322 157 63647
5322 157 63381
5322 157 63647
5322 157 63381
5322 157 63647
4822 157 51757
4822 157 51757
5322 209 31298
5322 209 70684
4822 209 60175
4822 209 60175
5322 130 62791
5322 209 61473
4822 209 60175
5322 209 31298
5322 209 61473
5322 209 31298
4822 209 60175
4822 209 60175
5322 209 61473
5322 209 31298
5322 209 61473
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5322 280 80745
5.1 - 68
Item
N5001
N5002
N6006
N6007
N6008
N6014
N6771
N7006
N7007
N7014
N7015
N7016
N7952
N8005
N9001
N9002
N9003
N9004
Description
INTEGR. CIRCUIT
INTEGR.CIRCUIT
I.C. ANALOGUE
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
I.C. ANALOGUE
INTEGR.CIRCUIT
I.C. ANALOGUE
I.C. ANALOGUE
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
RESISTORS
R1001
R1002
R1006
R1007
R1008
R1023
R1024
R1026
R1027
R1028
R1029
R1030
R1031
R1032
R1033
R1034
R1035
R1036
R1037
R1038
R1009
R1010
R1011
R1012
R1013
R1014
R1016
R1019
R1021
R1022
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.N.T.C.
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
LM358M NSC
LM3046M NSC
OP-77GSR PMI
LM358M NSC
LM358M NSC
TDA1541A/N2 PEL
LM1881M NSC
OP-77GSR PMI
LM358M NSC
OP-77GSR PMI
OP-77GSR PMI
LM358M NSC
LM324M NSC
TDA8444AT/N2 PEL
TDA8444AT/N2 PEL
TDA8444AT/N2 PEL
TDA8444AT/N2 PEL
TDA8444AT/N2 PEL
RMC1/8 1% 61E9
HIP RC-02H 1% 1M
MRS25 1% 100E
STMRS25 1% 100E
PR24 1/4W 0.1% 9K4
PR24 1/4W 0.1% 300E
RMC1/8 1% 21E5
NTC 640 2% 3K3
HIP RC-01 5% 1E
RMC1/8 1% 21E5
HIP RC-02H 1% 100E
PR34 0.4W 0.1% 900K
HIP RC-02H 1% 100E
PR34 0.4W 0.1% 990K
RMC1/8 1% 23E7
PR24 1/4W 0.1% 11K1
HIP RC-02H 1% 147E
RMC1/8 1% 82E5
PR24 1/4W 0.1% 111K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
RMC1/8 1% 21E5
PR34 0.4W 0.1% 500K
HIP RC-02H 1% 1M
HIP RC-02H 1% 1M
HIP RC-01 5% 10M
HIP RC-02H 1% 215K
HIP RC-02H 1% 5K11
HIP RC-02H 1% 3K83
HIP RC-02H 1 % 215K
UNIT DESCRIPTIONS
Ordering code
4822 209 60175
5322 209 30229
5322 130 62791
4822 209 60175
4822 209 60175
4822 209 72544
4822 209 60767
5322 130 62791
4822 209 60175
5322 130 62791
5322 130 62791
4822 209 60175
5322 209 61473
5322 209 30233
5322 209 30233
5322 209 30233
5322 209 30233
5322 209 30233
5322 111 92016
4822 051 10105
4822 050 21001
4822 050 21001
5322 116 83712
5322 116 51814
5322 111 92014
5322 116 30421
4822 051 10108
5322 111 92014
4822 051 10101
5322 116 51832
4822 051 10101
5322 116 83104
5322 117 10591
5322 116 83101
5322 117 10526
5322 111 92017
5322 116 83099
4822 051 10103
4822 051 10103
5322 111 92014
5322 116 83103
4822 051 10105
4822 051 10105
4822 051 10106
5322 117 10543
5322 117 10487
5322 117 10561
5322 117 10543
UNIT DESCRIPTIONS
Item
R1052
R1053
R1054
R1056
R1057
R1061
R1062
R1063
R1064
R1065
R1039
R1041
R1042
R1043
R1044
R1045
R1046
R1047
R1048
R1049
R1071
R1072
R1073
R1074
R1076
R1077
R1078
R1079
R1081
R1082
R1083
R1084
R1085
R1086
R1087
R1088
R1092
R1093
R1094
R1095
R1096
R1097
R1101
R1102
R1103
R1104
R1106
R1112
R1113
R1114
Description
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
HIP RC-02H 1% 21K5
HIP RC-02H 1% 1K
HIP RC-02H 1% 51K1
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 261E
HIP RC-02H 1% 511E
HIP RC-02H 1 % 237E
HIP RC-01 5% 10M
HIP RC-02H 1% 100E
HIP RC-02H 1% 6K19
HIP RC-02H 1 % 10K
HIP RC-02H 1% 619E
HIP RC-02H 1% 1K
RMC1/8 1% 51E1
RMC1/8 1% 42E2
HIP RC-02H 1% 261E
HIP RC-02H 1% 261E
HIP RC-02H 1 % 261E
RMC1/8 1% 61E9
HIP RC-02H 1% 147E
HIP RC-02H 1% 100E
RMC1/8 1% 75E
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 1M
HIP RC-02H 1% 1M
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 100K
HIP RC-02H 1% 100K
HIP RC-02H 1% 13K3
HIP RC-02H 1% 10K
HIP RC-02H 1% 51K1
HIP RC-02H 1% 10K
HIP RC-02H 1% 13K3
HIP RC-02H 1% 10K
HIP RC-02H 1 % 2K15
HIP RC-02H 1% 10K
HIP RC-02H 1 % 1K
HIP RC-02H 1% 1K
HIP RC-02H 1% 46K4
HIP RC-02H 1% 13K3
HIP RC-02H 1% 14K7
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 61K9
HIP RC-02H 1 % 7K5
HIP RC-02H 1% 3K48
5.1 - 69
Ordering code
5322 117 10542
4822 051 10102
4822 051 55113
5322 117 10487
5322 117 10487
5322 117 10487
4822 051 52611
5322 117 10569
5322 117 10544
4822 051 10106
4822 051 10101
5322 117 10577
4822 051 10103
5322 117 10576
4822 051 10102
5322 111 91893
4822 111 91887
4822 051 52611
4822 051 52611
4822 051 52611
5322 111 92016
5322 117 10526
4822 051 10101
4822 111 91937
4822 051 10103
4822 051 10103
4822 051 10105
4822 051 10105
4822 051 10103
4822 051 10103
4822 051 10104
4822 051 10104
4822 051 51333
4822 051 10103
4822 051 55113
4822 051 10103
5322 117 10525
4822 051 10103
5322 117 10485
4822 051 10103
4822 051 10102
4822 051 10102
5322 117 10486
5322 117 10525
5322 117 10528
4822 051 10103
4822 051 10103
5322 117 10578
5322 117 10583
5322 117 10557
5.1 - 70
Item
R1141
R1151
R1152
R1153
R1154
R1197
R1200
R1201
R1202
R1203
R1204
R1205
R1206
R1207
R1208
R1155
R1156
R1157
R1158
R1159
R1192
R1193
R1194
R1195
R1196
R1209
R1210
R1211
R1212
R1213
R1214
R1215
R1216
R1217
R1218
R1220
R1222
R1223
R1224
R1226
R1227
R1228
R1229
R1231
R1251
R1252
R1253
R1254
R1256
R1257
Description
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.MET.GLAZED
RES.MET.GLAZED
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RMC1/8 1% 10E
HIP RC-02H 1% 61K9
HIP RC-02H 1% 51K1
HIP RC-02H 1% 1M
HIP RC-02H 1% 215K
HIP RC-02H 1% 10K
HIP RC-02H 1 % 619E
PR24 1/4W 0.1% 9K4
PR24 1/4W 0.1% 750E
HIP RC-02H 1% 3K16
PR24 1/4W 0.1% 1K25
PR24 1/4W 0.1% 750E
PR24 1/4W 0.1% 250E
PR24 1/4W 0.1% 125E
PR24 1/4W 0.1% 75E
PR24 1/4W 0.1% 50E
HIP RC-02H 1% 100E
HIP RC-02H 1% 13K3
HIP RC-02H 1% 4K22
HIP RC-02H 1% 11K
HIP RC-02H 1% 12K1
HIP RC-02H 1% 14K7
HIP RC-02H 1% 100E
HIP RC-02H 1% 215E
HIP RC-02H 1% 147E
HIP RC-02H 1% 5K11
HIP RC-02H 1 % 31K6
HIP RC-02H 1% 4K22
HIP RC-02H 1 % 2K15
RMC1/8 1% 31E6
RMC1/8 1% 31E6
HIP RC-02H 1% 348E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
RMC1/8 1% 51E1
HIP RC-02H 1 % 75K
HIP RC-02H 1% 162E
HIP RC-02H 1 % 237E
RMC1/8 1% 42E2
HIP RC-02H 1% 162E
RMC1/8 1% 61E9
HIP RC-02H 1% 2K61
HIP RC-02H 1 % 215K
HIP RC-02H 1% 178E
HIP RC-02H 1% 21K5
HIP RC-02H 1 % 21K5
HIP RC-02H 1% 21K5
HIP RC-02H 1% 21K5
HIP RC-02H 1 % 9K09
HIP RC-02H 1% 1K
UNIT DESCRIPTIONS
Ordering code
4822 111 91885
5322 117 10578
4822 051 55113
4822 051 10105
5322 117 10543
4822 051 10103
5322 117 10576
5322 116 83712
5322 116 53173
5322 117 10553
5322 116 53177
5322 116 53173
5322 116 53166
5322 116 53176
5322 116 53168
5322 116 53165
4822 051 10101
5322 117 10525
5322 117 10565
4822 051 10113
5322 117 10522
5322 117 10528
4822 051 10101
5322 117 10484
5322 117 10526
5322 117 10487
5322 117 10554
5322 117 10565
5322 117 10485
5322 116 82895
5322 116 82895
5322 117 10556
4822 051 10101
4822 051 10101
5322 111 91893
5322 117 10584
5322 117 10529
5322 117 10544
4822 111 91887
5322 117 10529
5322 111 92016
5322 117 10547
5322 117 10543
5322 117 10534
5322 117 10542
5322 117 10542
5322 117 10542
5322 117 10542
5322 117 10589
4822 051 10102
UNIT DESCRIPTIONS
R1923
R1924
R1926
R1927
R1928
R1929
R1951
R1961
R2001
R2002
R1902
R1903
R1904
R1906
R1911
R1912
R1913
R1914
R1921
R1922
R1312
R1313
R1314
R1612
R1613
R1651
R1652
R1653
R1654
R1656
R1657
R1661
R1662
R1663
R1901
Item
R1258
R1259
R1260
R1262
R1266
R1301
R1302
R1303
R1304
R1306
R1307
R1308
R1309
R1310
R1311
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
Description
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K47
HIP RC-02H 1% 3K48
HIP RC-01 5% 1E
HIP RC-01 5% 1E
RMC1/8 1% 61E9
RMC1/8 1 % 61E9
HIP RC-02H 1 % 6K81
HIP RC-02H 1% 46K4
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 1K
HIP RC-02H 1 % 5K62
HIP RC-02H 1% 31K6
HIP RC-02H 1% 196E
HIP RC-02H 1% 19K6
HIP RC-02H 1% 10K
RMC1/8 1% 51E1
RMC1/8 1% 51E1
HIP RC-02H 1 % 5K62
HIP RC-02H 1% 1K47
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 1E
HIP RC-01 5% 1E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
HIP RC-01 5% 1E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 61E9
HIP RC-02H 1 % 1M
5.1 -71
Ordering code
4822 051 10102
5322 117 10527
5322 117 10557
4822 051 10108
4822 051 10108
5322 111 92016
5322 111 92016
5322 117 10581
5322 117 10486
5322 117 10487
4822 051 10102
5322 117 10573
5322 117 10554
5322 117 10538
5322 117 10541
4822 051 10103
5322 111 91893
5322 111 91893
5322 117 10573
5322 117 10527
4822 051 10478
4822 051 10478
4822 051 10108
4822 051 10108
4822 051 10478
4822 051 10478
4822 051 10108
4822 051 10108
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 051 10108
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
5322 111 92016
4822 051 10105
5.1 - 72
Item
R2006
R2007
R2008
R2009
R2010
R2011
R2012
R2013
R2014
R2016
R2031
R2032
R2033
R2034
R2035
R2036
R2037
R2038
R2039
R2041
R2019
R2021
R2022
R2023
R2024
R2026
R2027
R2028
R2029
R2030
R2042
R2043
R2044
R2045
R2046
R2047
R2048
R2049
R2052
R2053
R2054
R2056
R2057
R2061
R2062
R2063
R2064
R2065
R2071
R2072
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
Description
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.N.T.C.
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
ST MRS25 1% 100E
STMRS25 1% 100E
PR24 1/4W 0.1% 9K4
PR24 1/4W 0.1% 300E
RMC1/8 1% 21E5
NTC640 2% 3K3
HIP RC-01 5% 1E
RMC1/8 1% 21E5
HIP RC-02H 1% 100E
PR34 0.4W 0.1% 900K
HIP RC-02H 1% 100E
PR34 0.4W 0.1% 990K
RMC1/8 1% 23E7
PR24 1/4W 0.1% 11K1
HIP RC-02H 1% 147E
RMC1/8 1% 82E5
PR24 1/4W 0.1% 111K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
RMC1/8 1% 21E5
PR34 0.4W 0.1% 500K
HIP RC-02H 1% 1M
HIP RC-02H 1% 1M
HIP RC-01 5% 10M
HIP RC-02H 1% 215K
HIP RC-02H 1% 5K11
HIP RC-02H 1% 3K83
HIP RC-02H 1 % 215K
HIP RC-02H 1% 21K5
HIP RC-02H 1% 1K
HIP RC-02H 1% 51K1
HIP RC-02H 1% 5K11
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1 % 261E
HIP RC-02H 1% 511E
HIP RC-02H 1% 237E
HIP RC-01 5% 10M
HIP RC-02H 1% 100E
HIP RC-02H 1% 6K19
HIP RC-02H 1% 10K
HIP RC-02H 1% 619E
HIP RC-02H 1% 1K
RMC1/8 1% 51E1
RMC1/8 1% 42E2
HIP RC-02H 1% 261E
HIP RC-02H 1% 261E
HIP RC-02H 1% 261E
RMC1/8 1 % 61E9
HIP RC-02H 1% 147E
UNIT DESCRIPTIONS
Ordering code
4822 050 21001
4822 050 21001
5322 116 83712
5322 116 51814
5322 111 92014
5322 116 30421
4822 051 10108
5322 111 92014
4822 051 10101
5322 116 51832
4822 051 10101
5322 116 83104
5322 117 10591
5322 116 83101
5322 117 10526
5322 111 92017
5322 116 83099
4822 051 10103
4822 051 10103
5322 111 92014
5322 116 83103
4822 051 10105
4822 051 10105
4822 051 10106
5322 117 10543
5322 117 10487
5322 117 10561
5322 117 10543
5322 117 10542
4822 051 10102
4822 051 55113
5322 117 10487
5322 117 10487
5322 117 10487
4822 051 52611
5322 117 10569
5322 117 10544
4822 051 10106
4822 051 10101
5322 117 10577
4822 051 10103
5322 117 10576
4822 051 10102
5322 111 91893
4822 111 91887
4822 051 52611
4822 051 52611
4822 051 52611
5322 111 92016
5322 117 10526
UNIT DESCRIPTIONS
Item
R2073
R2074
R2076
R2077
R2078
R2114
R2200
R2201
R2202
R2203
R2204
R2205
R2206
R2207
R2208
R2209
R2210
R2211
R2212
R2213
R2214
R2215
R2216
R2217
R2218
R2220
R2222
R2223
R2224
R2226
R2093
R2094
R2096
R2101
R2102
R2103
R2104
R2106
R2112
R2113
R2079
R2081
R2082
R2083
R2084
R2085
R2086
R2087
R2088
R2092
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.MET.GLAZED
RES.MET.GLAZED
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
HIP RC-02H 1% 100E
RMC1/8 1% 75E
HIP RC-02H 1% 10K
HIP RC-02H 1 % 10K
HIP RC-02H 1% 1M
HIP RC-02H 1% 1M
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 100K
HIP RC-02H 1% 100K
HIP RC-02H 1% 13K3
HIP RC-02H 1% 10K
HIP RC-02H 1% 51K1
HIP RC-02H 1% 10K
HIP RC-02H 1% 13K3
HIP RC-02H 1% 10K
HIP RC-02H 1% 2K15
HIP RC-02H 1% 1K
HIP RC-02H 1% 46K4
HIP RC-02H 1% 13K3
HIP RC-02H 1% 14K7
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 61K9
HIP RC-02H 1 % 7K5
HIP RC-02H 1% 3K48
HIP RC-02H 1% 100E
HIP RC-02H 1 % 13K3
HIP RC-02H 1% 4K22
HIP RC-02H 1% 11K
HIP RC-02H 1% 12K1
HIP RC-02H 1% 14K7
HIP RC-02H 1% 100E
HIP RC-02H 1% 215E
HIP RC-02H 1% 147E
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 31K6
HIP RC-02H 1% 4K22
HIP RC-02H 1% 2K15
RMC1/8 1% 31E6
RMC1/8 1% 31E6
HIP RC-02H 1 % 348E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
RMC1/8 1% 51E1
HIP RC-02H 1% 75K
HIP RC-02H 1% 162E
HIP RC-02H 1 % 237E
RMC1/8 1% 42E2
HIP RC-02H 1% 162E
5.1 -73
Ordering code
4822 051 10101
4822 111 91937
4822 051 10103
4822 051 10103
4822 051 10105
4822 051 10105
4822 051 10103
4822 051 10103
4822 051 10104
4822 051 10104
4822 051 51333
4822 051 10103
4822 051 55113
4822 051 10103
5322 117 10525
4822 051 10103
5322 117 10485
4822 051 10102
5322 117 10486
5322 117 10525
5322 117 10528
4822 051 10103
4822 051 10103
5322 117 10578
5322 117 10583
5322 117 10557
4822 051 10101
5322 117 10525
5322 117 10565
4822 051 10113
5322 117 10522
5322 117 10528
4822 051 10101
5322 117 10484
5322 117 10526
5322 117 10487
5322 117 10554
5322 117 10565
5322 117 10485
5322 116 82895
5322 116 82895
5322 117 10556
4822 051 10101
4822 051 10101
5322 111 91893
5322 117 10584
5322 117 10529
5322 117 10544
4822 111 91887
5322 117 10529
5.1 - 74
Item
R2227
R2228
R2229
R2231
R2301
R2302
R2303
R2304
R2307
R2308
R2309
R2310
R2311
R2313
R2314
R3001
R3002
R3006
R3007
R3008
R3023
R3024
R3026
R3027
R3028
R3029
R3030
R3031
R3032
R3033
R3034
R3035
R3036
R3037
R3038
R3039
R3041
R3042
R3043
R3044
R3009
R3010
R3011
R3012
R3013
R3014
R3016
R3019
R3021
R3022
Description
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.N.T.C.
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RMC1/8 1% 61E9
HIP RC-02H 1% 2K61
HIP RC-02H 1% 215K
HIP RC-02H 1% 178E
RMC1/8 1% 51E1
RMC1/8 1% 51E1
HIP RC-02H 1% 6K81
HIP RC-02H 1 % 46K4
HIP RC-02H 1% 1K
HIP RC-02H 1 % 5K62
HIP RC-02H 1% 31K6
HIP RC-02H 1% 196E
HIP RC-02H 1% 19K6
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1 % 61E9
HIP RC-02H 1% 1M
STMRS25 1% 100E
ST MRS25 1% 100E
PR24 1/4W 0.1% 9K4
PR24 1/4W 0.1% 300E
RMC1/8 1% 21E5
NTC640 2% 3K3
HIP RC-01 5% 1E
RMC1/8 1% 21E5
HIP RC-02H 1% 100E
PR34 0.4W 0.1% 900K
HIP RC-02H 1% 100E
PR34 0.4W 0.1% 990K
RMC1/8 1 % 23E7
PR24 1/4W 0.1% 11K1
HIP RC-02H 1% 147E
RMC1/8 1 % 82E5
PR24 1/4W 0.1% 111K
HIP RC-02H 1 % 10K
HIP RC-02H 1% 10K
RMC1/8 1% 21E5
PR34 0.4W 0.1% 500K
HIP RC-02H 1% 1M
HIP RC-02H 1% 1M
HIP RC-01 5% 10M
HIP RC-02H 1% 215K
HIP RC-02H 1 % 5K11
HIP RC-02H 1 % 3K83
HIP RC-02H 1% 215K
HIP RC-02H 1 % 21K5
HIP RC-02H 1% 1K
HIP RC-02H 1% 51K1
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
UNIT DESCRIPTIONS
Ordering code
5322 111 92016
5322 117 10547
5322 117 10543
5322 117 10534
5322 111 91893
5322 111 91893
5322 117 10581
5322 117 10486
4822 051 10102
5322 117 10573
5322 117 10554
5322 117 10538
5322 117 10541
5322 111 91893
5322 111 91893
5322 111 92016
4822 051 10105
4822 050 21001
4822 050 21001
5322 116 83712
5322 116 51814
5322 111 92014
5322 116 30421
4822 051 10108
5322 111 92014
4822 051 10101
5322 116 51832
4822 051 10101
5322 116 83104
5322 117 10591
5322 116 83101
5322 117 10526
5322 111 92017
5322 116 83099
4822 051 10103
4822 051 10103
5322 111 92014
5322 116 83103
4822 051 10105
4822 051 10105
4822 051 10106
5322 117 10543
5322 117 10487
5322 11710561
5322 117 10543
5322 117 10542
4822 051 10102
4822 051 55113
5322 117 10487
5322 117 10487
UNIT DESCRIPTIONS
R3077
R3078
R3079
R3081
R3082
R3083
R3084
R3085
R3086
R3087
R3061
R3062
R3063
R3064
R3065
R3071
R3072
R3073
R3074
R3076
Item
R3045
R3046
R3047
R3048
R3049
R3052
R3053
R3054
R3056
R3057
R3088
R3092
R3093
R3094
R3096
R3101
R3102
R3103
R3104
R3106
R3112
R3113
R3114
R3200
R3201
R3202
R3203
R3204
R3205
R3206
Description
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
HIP RC-02H 1% 5K11
HIP RC-02H 1% 261E
HIP RC-02H 1% 511E
HIP RC-02H 1 % 237E
HIP RC-01 5% 10M
HIP RC-02H 1% 100E
HIP RC-02H 1% 6K19
HIP RC-02H 1% 10K
HIP RC-02H 1% 619E
HIP RC-02H 1% 1K
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RMC1/8 1% 51E1
RMC1/8 1% 42E2
HIP RC-02H 1% 261E
HIP RC-02H 1 % 261E
HIP RC-02H 1% 261E
RMC1/8 1% 61E9
HIP RC-02H 1% 147E
HIP RC-02H 1% 100E
RMC1/8 1% 75E
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 1M
HIP RC-02H 1% 1M
HIP RC-02H 1% 10K
HIP RC-02H 1 % 10K
HIP RC-02H 1% 100K
HIP RC-02H 1% 100K
HIP RC-02H 1% 13K3
HIP RC-02H 1% 10K
HIP RC-02H 1% 51K1
HIP RC-02H 1% 10K
HIP RC-02H 1% 13K3
HIP RC-02H 1% 10K
HIP RC-02H 1% 2K15
HIP RC-02H 1% 1K
HIP RC-02H 1 % 46K4
HIP RC-02H 1% 13K3
HIP RC-02H 1% 14K7
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
HIP RC-02H 1% 61K9
HIP RC-02H 1 % 7K5
HIP RC-02H 1% 3K48
HIP RC-02H 1% 100E
HIP RC-02H 1% 13K3
RES.METAL FILM
RES.CHIP
HIP RC-02H 1 % 4K22
HIP RC-02H 1% 11K
RES.METAL FILM .
HIP RC-02H 1% 12K1
RES.METAL FILM HIP RC-02H 1% 14K7
RES.CHIP
HIP RC-02H 1% 100E
5.1 - 75
Ordering code
5322 117 10487
4822 051 52611
5322 117 10569
5322 117 10544
4822 051 10106
4822 051 10101
5322 117 10577
4822 051 10103
5322 117 10576
4822 051 10102
5322 111 91893
4822 111 91887
4822 051 52611
4822 051 52611
4822 051 52611
5322 111 92016
5322 117 10526
4822 051 10101
4822 111 91937
4822 051 10103
4822 051 10103
4822 051 10105
4822 051 10105
4822 051 10103
4822 051 10103
4822 051 10104
4822 051 10104
4822 051 51333
4822 051 10103
4822 051 55113
4822 051 10103
5322 117 10525
4822 051 10103
5322 117 10485
4822 051 10102
5322 117 10486
5322 117 10525
5322 117 10528
4822 051 10103
4822 051 10103
5322 117 10578
5322 117 10583
5322 117 10557
4822 051 10101
5322 117 10525
5322 117 10565
4822 051 10113
5322 117 10522
5322 117 10528
4822 051 10101
5.1 - 76
Item
R3207
R3208
R3209
R3210
R3211
R3224
R3226
R3227
R3228
R3229
R3231
R3301
R3302
R3303
R3304
R3212
R3213
R3214
R3215
R3216
R3217
R3218
R3220
R3222
R3223
R4007
R4008
R4009
R4010
R4011
R4012
R4013
R4014
R4016
R4019
R4021
R4022
R4023
R4024
R4026
R3307
R3308
R3309
R3310
R3311
R3313
R3314
R4001
R4002
R4006
Description
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.MET.GLAZED
RES.MET.GLAZED
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.MET.GLAZED
RES.MET.GLAZED
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.N.T.C.
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
HIP RC-02H 1% 215E
HIP RC-02H 1% 147E
HIP RC-02H 1% 5K11
HIP RC-02H 1% 31K6
HIP RC-02H 1% 4K22
HIP RC-02H 1% 2K15
RMC1/8 1% 31E6
RMC1/8 1% 31E6
HIP RC-02H 1 % 348E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
RMC1/8 1 % 51E1
HIP RC-02H 1 % 75K
HIP RC-02H 1% 162E
HIP RC-02H 1 % 237E
RMC1/8 1% 42E2
HIP RC-02H 1% 162E
RMC1/8 1% 61E9
HIP RC-02H 1% 2K61
HIP RC-02H 1% 215K
HIP RC-02H 1% 178E
RMC1/8 1 % 46E4
RMC1/8 1 % 46E4
HIP RC-02H 1 % 6K81
HIP RC-02H 1 % 46K4
HIP RC-02H 1 % 1K
HIP RC-02H 1% 5K62
HIP RC-02H 1% 31K6
HIP RC-02H 1% 196E
HIP RC-02H 1% 19K6
RMC1/8 1% 51E1
RMC1/8 1 % 51E1
RMC1/8 1% 61E9
HIP RC-02H 1% 1M
ST MRS25 1% 100E
ST MRS25 1% 100E
PR24 1/4W 0.1% 9K4
PR24 1/4W 0.1% 300E
RMC1/8 1% 21E5
NTC640 2% 3K3
HIP RC-01 5% 1E
RMC1/8 1 % 21E5
HIP RC-02H 1% 100E
PR34 0.4W 0.1% 900K
HIP RC-02H 1% 100E
PR34 0.4W 0.1% 990K
RMC1/8 1 % 23E7
PR24 1/4W 0.1% 11K1
HIP RC-02H 1% 147E
RMC1/8 1% 82E5
UNIT DESCRIPTIONS
Ordering code
5322 117 10484
5322 117 10526
5322 117 10487
5322 117 10554
5322 117 10565
5322 117 10485
5322 116 82895
5322 116 82895
5322 117 10556
4822 051 10101
4822 051 10101
5322 111 91893
5322 117 10584
5322 117 10529
5322 117 10544
4822 111 91887
5322 117 10529
5322 111 92016
5322 117 10547
5322 117 10543
5322 117 10534
5322 116 82896
5322 116 82896
5322 117 10581
5322 117 10486
4822 051 10102
5322 117 10573
5322 117 10554
5322 117 10538
5322 117 10541
5322 111 91893
5322 111 91893
5322 111 92016
4822 051 10105
4822 050 21001
4822 050 21001
5322 116 83712
5322 116 51814
5322 111 92014
5322 116 30421
4822 051 10108
5322 111 92014
4822 051 10101
5322 116 51832
4822 051 10101
5322 116 83104
5322 117 10591
5322 116 83101
5322 117 10526
5322 111 92017
UNIT DESCRIPTIONS
Item
R4064
R4065
R4071
R4072
R4073
R4074
R4076
R4077
R4078
R4079
R4048
R4049
R4052
R4053
R4054
R4056
R4057
R4061
R4062
R4063
R4027
R4028
R4029
R4030
R4031
R4032
R4033
R4034
R4035
R4036
R4037
R4038
R4039
R4041
R4042
R4043
R4044
R4045
R4046
R4047
R4081
R4082
R4083
R4084
R4086
R4087
R4088
R4092
R4093
R4094
Description
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
PR24 1/4W 0.1% 111K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
RMC1/8 1% 21E5
PR34 0.4W 0.1% 500K
HIP RC-02H 1% 1M
HIP RC-02H 1% 1M
HIP RC-01 5% 10M
HIP RC-02H 1% 215K
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 3K83
HIP RC-02H 1% 215K
HIP RC-02H 1 % 21K5
HIP RC-02H 1% 1K
HIP RC-02H 1% 51K1
HIP RC-02H 1 % 5K11
HIP RC-02H 1 % 5K11
HIP RC-02H 1 % 5K11
HIP RC-02H 1%261E
HIP RC-02H 1% 511E
HIP RC-02H 1 % 237E
HIP RC-01 5% 10M
HIP RC-02H 1% 100E
HIP RC-02H 1% 6K19
HIP RC-02H 1% 10K
HIP RC-02H 1% 619E
HIP RC-02H 1% 1K
RMC1/8 1% 51E1
RMC1/8 1% 42E2
HIP RC-02H 1 % 261E
HIP RC-02H 1 % 261E
HIP RC-02H 1 % 261E
RMC1/8 1% 61E9
HIP RC-02H 1% 147E
HIP RC-02H 1% 100E
RMC1/8 1% 75E
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 1M
HIP RC-02H 1% 1M
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 100K
HIP RC-02H 1% 100K
HIP RC-02H 1% 10K
HIP RC-02H 1% 51K1
HIP RC-02H 1% 10K
HIP RC-02H 1% 13K3
HIP RC-02H 1% 10K
HIP RC-02H 1 % 2K15
5.1 - 77
Ordering code
5322 116 83099
4822 051 10103
4822 051 10103
5322 111 92014
5322 116 83103
4822 051 10105
4822 051 10105
4822 051 10106
5322 117 10543
5322 117 10487
5322 117 10561
5322 117 10543
5322 117 10542
4822 051 10102
4822 051 55113
5322 117 10487
5322 117 10487
5322 117 10487
4822 051 52611
5322 117 10569
5322 117 10544
4822 051 10106
4822 051 10101
5322 117 10577
4822 051 10103
5322 117 10576
4822 051 10102
5322 111 91893
4822 111 91887
4822 051 52611
4822 051 52611
4822 051 52611
5322 111 92016
5322 117 10526
4822 051 10101
4822 111 91937
4822 051 10103
4822 051 10103
4822 051 10105
4822 051 10105
4822 051 10103
4822 051 10103
4822 051 10104
4822 051 10104
4822 051 10103
4822 051 55113
4822 051 10103
5322 117 10525
4822 051 10103
5322 117 10485
5.1 -78
Item
R4201
R4202
R4203
R4204
R4205
R4206
R4207
R4208
R4209
R4210
R4211
R4212
R4213
R4214
R4215
R4216
R4217
R4218
R4220
R4222
R4096
R4101
R4102
R4103
R4104
R4106
R4112
R4113
R4114
R4200
R4223
R4224
R4226
R4227
R4228
R4229
R4231
R4301
R4302
R4303
R4304
R4307
R4308
R4309
R4310
R4311
R4313
R4314
R5001
R5002
Description
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.MET.GLAZED
RES.MET.GLAZED
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
HIP RC-02H 1% 1K
HIP RC-02H 1 % 46K4
HIP RC-02H 1% 13K3
HIP RC-02H 1% 14K7
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 61K9
HIP RC-02H 1% 7K5
HIP RC-02H 1 % 3K48
HIP RC-02H 1% 100E
HIP RC-02H 1% 13K3
HIP RC-02H 1 % 4K22
HIP RC-02H 1% 11K
HIP RC-02H 1% 12K1
HIP RC-02H 1% 14K7
HIP RC-02H 1% 100E
HIP RC-02H 1% 215E
HIP RC-02H 1% 147E
HIP RC-02H 1 % 5K11
HIP RC-02H 1 % 31K6
HIP RC-02H 1% 4K22
HIP RC-02H 1% 2K15
RMC1/8 1% 31E6
RMC1/8 1 % 31E6
HIP RC-02H 1 % 348E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
RMC1/8 1% 51E1
HIP RC-02H 1 % 75K
HIP RC-02H 1 % 162E
HIP RC-02H 1 % 237E
RMC1/8 1 % 42E2
HIP RC-02H 1% 162E
RMC1/8 1% 61E9
HIP RC-02H 1% 2K61
HIP RC-02H 1% 215K
HIP RC-02H 1% 178E
RMC1/8 1 % 51 E l
RMC1/8 1% 51E1
HIP RC-02H 1 % 6K81
HIP RC-02H 1% 46K4
HIP RC-02H 1% 1K
HIP RC-02H 1% 5K62
HIP RC-02H 1 % 31K6
HIP RC-02H 1% 196E
HIP RC-02H 1 % 19K6
RMC1/8 1% 51E1
RMC1/8 1 % 51E1
HIP RC-02H 1% 3K48
HIP RC-02H 1 % 3K48
UNIT DESCRIPTIONS
Ordering code
4822 051 10102
5322 117 10486
5322 117 10525
5322 117 10528
4822 051 10103
4822 051 10103
5322 117 10578
5322 117 10583
5322 117 10557
4822 051 10101
5322 117 10525
5322 117 10565
4822 051 10113
5322 117 10522
5322 117 10528
4822 051 10101
5322 117 10484
5322 117 10526
5322 117 10487
5322 117 10554
5322 117 10565
5322 117 10485
5322 116 82895
5322 116 82895
5322 117 10556
4822 051 10101
4822 051 10101
5322 111 91893
5322 117 10584
5322 117 10529
5322 117 10544
4822 111 91887
5322 117 10529
5322 111 92016
5322 117 10547
5322 117 10543
5322 117 10534
5322 111 91893
5322 111 91893
5322 117 10581
5322 117 10486
4822 051 10102
5322 117 10573
5322 117 10554
5322 117 10538
5322 117 10541
5322 111 91893
5322 111 91893
5322 117 10557
5322 117 10557
UNIT DESCRIPTIONS
Item
R5003
R5004
R5006
R5007
R5008
R5009
R5011
R5012
R5013
R5014
R5016
R5017
R5018
R5019
R5021
R5051
R5052
R5053
R5054
R5055
R5055
R5056
R5057
R5058
R5059
R5041
R5042
R5043
R5044
R5045
R5046
R5047
R5048
R5049
R5050
R5024
R5026
R5027
R5028
R5029
R5031
R5032
R5035
R5036
R5037
R5060
R5061
R5061
R5064
R5065
Description
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
HIP RC-02H 1% 100E
HIP RC-02H 1% 14K7
HIP RC-02H 1% 14K7
HIP RC-02H 1% 348E
HIP RC-02H 1% 348E
HIP RC-02H 1 % 909E
HIP RC-02H 1% 909E
HIP RC-02H 1% 162E
HIP RC-02H 1% 162E
HIP RC-02H 1% 1K47
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
HIP RC-02H 1% 51K1
HIP RC-02H 1 % 2K87
HIP RC-02H 1% 3K83
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
HIP RC-02H 1% 1K47
HIP RC-02H 1% 21K5
HIP RC-02H 1% 21K5
HIP RC-02H 1% 348E
HIP RC-02H 1% 178E
HIP RC-02H 1% 178E
HIP RC-02H 1 % 21K5
HIP RC-02H 1% 21K5
HIP RC-02H 1% 215E
HIP RC-02H 1% 316E
HIP RC-02H 1% 100E
RES.METAL FILM
RES.METAL FILM
RES.MET.GLAZED
RES.MET.GLAZED
RES.METAL FILM
HIP RC-02H 1% 316E
HIP RC-02H 1% 511E
RMC1/8 1% 51E1
RMC1/8 1 % 51E1
HIP RC-02H 1% 511K
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP (100MHz)
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RMC1/8 1% 51E1
RMC1/8 1% 51E1
HIP RC-02H 1 % 261E
HIP RC-02H 1 % 2K87
HIP RC-02H 1% 1E
HIP RC-02H 1% 3K48
HIP RC-02H 1% 19K6
HIP RC-02H 1% 13K3
HIP RC-02H 1% 1K
HIP RC-02H 1% 9K09
RES.METAL FILM HIP RC-02H 1 % 21K5
RES.CHIP (100 MHz) HIP RC-02H 1 % 3K83
RES.CHIP (200 MHz) HIP RC-02H 1% 1K21
RES.METAL FILM HIP RC-02H 1% 3K83
RES.CHIP
HIP RC-02H 1% 100E
5.1 - 79
Ordering code
4822 051 10101
5322 117 10528
5322 117 10528
5322 117 10556
5322 117 10556
5322 117 10588
5322 117 10588
5322 117 10529
5322 117 10529
5322 117 10527
4822 051 10101
4822 051 10101
4822 051 55113
5322 117 10549
5322 117 10561
4822 051 10101
4822 051 10101
4822 051 10101
4822 051 10101
5322 117 10527
5322 117 10542
5322 117 10542
5322 117 10556
5322 117 10534
5322 117 10534
5322 117 10542
5322 117 10542
5322 117 10484
5322 117 10552
4822 051 10101
5322 117 10552
5322 117 10569
5322 117 11737
5322 117 11737
5322 117 10571
5322 111 91893
5322 111 91893
4822 051 52611
5322 117 10549
4822 051 10108
5322 117 10557
5322 117 10541
5322 117 10525
4822 051 10102
5322 117 10589
5322 117 10542
5322 117 10561
4822 051 51212
5322 117 10561
4822 051 10101
5.1 -80
Item
R5504
R5506
R5507
R5508
R5509
R5510
R5511
R5512
R5513
R5514
R5066
R5068
R5069
R5070
R5071
R5072
R5076
R5501
R5502
R5503
R5516
R5517
R5518
R5519
R5521
R5522
R5523
R5524
R5526
R5527
R5531
R5532
R5533
R5534
R5536
R5537
R5538
R5539
R5541
R5542
R5543
R5544
R5546
R5551
R5552
R5553
R5554
R5556
R5557
R5558
Description
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
HIP RC-02H 1% 511K
HIP RC-01 5% 4E7
HIP RC-02H 1% 2K61
HIP RC-02H 1% 2K61
RMC1/8 1% 51E1
RMC1/8 1% 51E1
HIP RC-02H 1% 14K7
HIP RC-02H 1% 9K09
HIP RC-02H 1% 12K1
HIP RC-02H 1% 12K1
HIP RC-02H 1% 6K81
HIP RC-02H 1% 6K81
HIP RC-02H 1% 6K81
HIP RC-02H 1% 6K81
HIP RC-02H 1 % 3K16
HIP RC-02H 1% 12K1
HIP RC-02H 1% 10K
HIP RC-02H 1 % 619E
HIP RC-02H 1% 422E
HIP RC-02H 1% 1K
HIP RC-02H 1% 3K48
HIP RC-02H 1% 1K21
HIP RC-02H 1% 10K
HIP RC-02H 1% 2K61
HIP RC-02H 1% 261E
HIP RC-02H 1% 6K81
HIP RC-02H 1 % 619E
HIP RC-02H 1% 1K
HIP RC-02H 1% 10K
HIP RC-02H 1% 100K
HIP RC-02H 1% 5K11
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-02H 1% 10K
HIP RC-02H 1% 2K15
HIP RC-02H 1% 3K48
HIP RC-02H 1% 21K5
HIP RC-02H 1% 21K5
HIP RC-02H 1% 21K5
HIP RC-02H 1% 21K5
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
UNIT DESCRIPTIONS
Ordering code
5322 117 10571
4822 051 10478
5322 117 10547
5322 117 10547
5322 111 91893
5322 111 91893
5322 117 10528
5322 117 10589
5322 117 10522
5322 117 10522
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
4822 051 10108
4822 051 10108
4822 051 10103
5322 117 10485
5322 117 10557
5322 117 10542
5322 117 10542
5322 117 10542
5322 117 10542
4822 051 10103
4822 051 10103
4822 051 10103
5322 117 10581
5322 117 10581
5322 117 10581
5322 117 10581
5322 117 10553
5322 117 10522
4822 051 10103
5322 117 10576
5322 117 10564
4822 051 10102
5322 117 10557
5322 117 10521
4822 051 10103
5322 117 10547
4822 051 52611
5322 117 10581
5322 117 10576
4822 051 10102
4822 051 10103
4822 051 10104
UNIT DESCRIPTIONS
R6015
R6016
R6017
R6018
R6019
R6020
R6021
R6022
R6023
R6024
R6025
R6026
R6027
R6028
R6029
Item
R6004
R6005
R6006
R6007
R6008
R6009
R6011
R6012
R6013
R6014
R5559
R5561
R5562
R5601
R5602
R5603
R5606
R6001
R6002
R6003
R6030
R6031
R6032
R6033
R6034
R6035
R6036
R6037
R6038
R6040
R6041
R6042
R6043
R6044
R6045
Description
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.MET.GLAZED
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.MET.GLAZED
RES.METAL FILM
HIP RC-02H 1% 10K
HIP RC-02H 1% 5K11
HIP RC-02H 1% 12K1
RMC1/8 1% 31E6
HIP RC-01 5% 4E7
RMC1/8 1% 42E2
HIP RC-02H 1% 5K11
HIP RC-02H 1% 100E
PR24 1/4W 0.1% 50E
PR24 1/4W 0.1% 75E
PR24 1/4W 0.1% 125E
PR24 1/4W 0.1% 250E
PR24 1/4W 0.1% 750E
PR24 1/4W 0.1% 1K25
PR24 1/4W 0.1% 900E
HIP RC-02H 1% 1K78
HIP RC-02H 1% 100E
HIP RC-02H 1% 100K
PR24 1/4W 0.1% 23K7
PR24 1/4W 0.1% 2K37
HIP RC-02H 1% 19K6
HIP RC-02H 1% 1K96
HIP RC-02H 1% 100E
HIP RC-02H 1% 2K15
RMC1/8 1% 42E2
RMC1/8 1% 10E
HIP RC-02H 1% 3K16
RMC1/8 1% 42E2
RMC1/8 1% 51E1
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-02H 1% 14K7
HIP RC-02H 1% 100E
HIP RC-02H 1 % 237E
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-02H 1% 316E
HIP RC-02H 1 % 3K16
HIP RC-02H 1% 51K1
HIP RC-02H 1% 1K78
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 215K
HIP RC-02H 1 % 5K11
HIP RC-02H 1 % 3K16
HIP RC-02H 1% 6K19
HIP RC-02H 1% 316E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 31E6
HIP RC-02H 1 % 3K16
5.1 - 81
5322 117 10541
5322 117 10539
4822 051 10101
5322 117 10485
4822 111 91887
4822 111 91885
5322 117 10553
4822 111 91887
5322 111 91893
4822 051 10108
4822 051 10108
5322 117 10528
4822 051 10101
5322 117 10544
4822 051 10478
4822 051 10478
5322 117 10552
5322 117 10553
4822 051 55113
5322 117 10535
5322 117 10487
5322 117 10543
5322 117 10487
5322 117 10553
5322 117 10577
5322 117 10552
4822 111 91885
4822 111 91885
5322 116 82895
5322 117 10553
Ordering code
4822 051 10103
5322 117 10487
5322 117 10522
5322 116 82895
4822 051 10478
4822 111 91887
5322 117 10487
4822 051 10101
5322 116 53165
5322 116 53168
5322 116 53176
5322 116 53166
5322 116 53173
5322 116 53177
5322 116 83098
5322 117 10535
4822 051 10101
4822 051 10104
5322 116 53169
5322 116 53171
5.1 - 82
R6509
R6511
R6512
R6521
R6522
R6523
R6524
R6526
R6527
R6528
R6529
R6531
R6542
R6543
R6544
R6546
R6547
R6548
R6552
R6554
R6556
R6558
R6571
R6572
R6576
Item
R6046
R6047
R6048
R6049
R6050
R6051
R6052
R6053
R6054
R6061
R6062
R6063
R6070
R6071
R6072
R6073
R6074
R6093
R6094
R6095
R6101
R6104
R6502
R6503
R6508
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.MET.GLAZED
RES.MET.GLAZED
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
Description
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RMC1/8 1% 10E
HIP RC-02H 1% 196E
HIP RC-02H 1% 750E
HIP RC-02H 1% 1K
HIP RC-01 5% 4E7
HIP RC-02H 1% 1K
HIP RC-02H 1% 21K5
HIP RC-02H 1% 1K
HIP RC-02H 1% 21K5
HIP RC-02H 1% 1K
HIP RC-02H 1% 10K
HIP RC-02H 1% 3K16
HIP RC-02H 1% 10K
HIP RC-02H 1% 19K6
RMC1/8 1% 10E
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K21
HIP RC-01 5% 3E3
RMC1/8 1% 10E
RMC1/8 1% 51E1
HIP RC-02H 1% 1K
RMC1/8 1% 10E
HIP RC-02H 1% 2K15
HIP RC-02H 1% 2K15
HIP RC-02H 1% 196E
HIP RC-02H 1% 196E
HIP RC-02H 1 % 2K15
HIP RC-02H 1 % 2K15
RMC1/8 1% 42E2
RMC1/8 1% 42 E2
RMC1/8 1 % 42E2
RMC1/8 1% 42E2
RMC1/8 1% 31E6
RMC1/8 1% 31E6
RMC1/8 1% 21E5
RMC1/8 1% 21E5
HIP RC-02H 1% 422E
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1 % 5K11
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 14K7
HIP RC-02H 1% 681E
HIP RC-02H 1% 14K7
HIP RC-02H 1 % 3K16
HIP RC-02H 1 % 5K62
HIP RC-02H 1% 261E
HIP RC-02H 1% 261E
HIP RC-02H 1% 100E
UNIT DESCRIPTIONS
Ordering code
4822 111 91885
5322 117 10538
5322 117 10582
4822 051 10102
4822 051 10478
4822 051 10102
5322 117 10542
4822 051 10102
5322 117 10542
4822 051 10102
4822 051 10103
5322 117 10553
4822 051 10103
5322 117 10541
4822 111 91885
4822 051 10102
5322 117 10521
4822 051 10338
4822 111 91885
5322 111 91893
4822 051 10102
4822 111 91885
5322 117 10485
5322 117 10485
5322 117 10538
5322 117 10538
5322 117 10485
5322 117 10485
4822 111 91887
4822 111 91887
4822 111 91887
4822 111 91887
5322 116 82895
5322 116 82895
5322 111 92014
5322 111 92014
5322 117 10564
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10528
5322 117 10579
5322 117 10528
5322 117 10553
5322 117 10573
4822 051 52611
4822 051 52611
4822 051 10101
UNIT DESCRIPTIONS
R6633
R6634
R6636
R6638
R6641
R6643
R6646
R6649
R6661
R6662
R6684
R6688
R6689
R6692
R6694
R6696
R6706
R6708
R6709
R6752
R6753
R6754
R6756
R6758
R6762
R6764
R6769
R6772
R6774
R6776
Item
R6577
R6578
R6579
R6584
R6586
R6601
R6602
R6603
R6612
R6613
R6614
R6616
R6621
R6622
R6623
R6624
R6626
R6627
R6629
R6632
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
Description
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
HIP RC-02H 1% 100E
HIP RC-02H 1 % 4K22
HIP RC-02H 1 % 4K22
HIP RC-02H 1% 1K33
HIP RC-02H 1% 1K33
HIP RC-02H 1% 511E
HIP RC-02H 1 % 511E
HIP RC-02H 1% 1K
HIP RC-02H 1% 750E
HIP RC-02H 1 % 750E
HIP RC-02H 1% 511E
HIP RC-02H 1% 511E
HIP RC-02H 1 % 5K11
HIP RC-02H 1 % 5K62
HIP RC-02H 1% 11K
HIP RC-02H 1% 12K1
HIP RC-02H 1% 31K6
HIP RC-02H 1% 6K81
HIP RC-02H 1 % 3K48
HIP RC-02H 1% 2K15
HIP RC-02H 1% 511E
HIP RC-02H 1% 3K83
HIP RC-02H 1% 316E
HIP RC-01 5% 10M
HIP RC-01 5% 10M
HIP RC-01 5% 10M
HIP RC-01 5% 10M
HIP RC-02H 1% 12K1
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
HIP RC-02H 1 % 619E
HIP RC-02H 1% 619E
HIP RC-02H 1% 1K62
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K47
HIP RC-02H 1 % 5K62
HIP RC-02H 1 % 3K48
HIP RC-02H 1% 5K62
HIP RC-02H 1% 1K21
HIP RC-02H 1%3K16
HIP RC-02H 1% 348E
HIP RC-02H 1% 1K78
HIP RC-02H 1% 19K6
HIP RC-02H 1 % 750E
HIP RC-02H 1% 19K6
HIP RC-02H 1% 2K61
HIP RC-02H 1% 11K
HIP RC-02H 1% 7K5
HIP RC-02H 1% 511K
5.1 -83
5322 117 10569
5322 117 10561
5322 117 10552
4822 051 10106
4822 051 10106
4822 051 10106
4822 051 10106
5322 117 10522
4822 051 10102
4822 051 10102
4822 051 10102
5322 117 10576
5322 117 10576
5322 117 10531
4822 051 10102
5322 117 10527
5322 117 10573
5322 117 10557
5322 117 10573
5322 117 10521
Ordering code
4822 051 10101
5322 117 10565
5322 117 10565
5322 117 10524
5322 117 10524
5322 117 10569
5322 117 10569
4822 051 10102
5322 117 10582
5322 117 10582
5322 117 10569
5322 117 10569
5322 117 10487
5322 117 10573
4822 051 10113
5322 117 10522
5322 117 10554
5322 117 10581
5322 117 10557
5322 117 10485
5322 117 10553
5322 11710556
5322 117 10535
5322 117 10541
5322 117 10582
5322 117 10541
5322 117 10547
4822 051 10113
5322 117 10583
5322 117 10571
5.1 - 84
Item
R7001
R7002
R7003
R7004
R7005
R7006
R7007
R7008
R7009
R7011
R7012
R7013
R7014
R7015
R7016
R6782
R6783
R6788
R6901
R6911
R6921
R6931
R6941
R6951
R6961
R7017
R7018
R7019
R7021
R7022
R7023
R7024
R7025
R7026
R7027
R7028
R7029
R7031
R7032
R7033
R7034
R7036
R7041
R7042
R7043
R7044
R7045
R7046
R7047
R7048
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
HIP RC-02H 1% 100K
HIP RC-02H 1% 100K
HIP RC-02H 1% 11K
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-02H 1% 100E
PR24 1/4W 0.1% 50E
PR24 1/4W 0.1% 75E
PR24 1/4W 0.1% 125E
PR24 1/4W 0.1% 250E
PR24 1/4W 0.1% 750E
PR24 1/4W 0.1% 1K25
PR24 1/4W 0.1% 900E
HIP RC-02H 1 % 46K4
HIP RC-02H 1% 14K7
HIP RC-02H 1 % 3K48
PR24 1/4W 0.1 % 23K7
PR24 1/4W 0.1% 2K37
HIP RC-02H 1% 19K6
HIP RC-02H 1% 1K96
HIP RC-02H 1% 100E
HIP RC-02H 1% 1K78
HIP RC-02H 1%316E
HIP RC-02H 1 % 3K16
HIP RC-02H 1 % 3K16
RMC1/8 1% 51E1
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-02H 1% 14K7
HIP RC-02H 1% 100E
HIP RC-02H 1% 2K15
HIP RC-02H 1% 237E
HIP RC-02H 1% IK
HIP RC-02H 1% 100K
HIP RC-02H 1 % 2K15
HIP RC-02H 1% 1K21
HIP RC-02H 1% 1K21
RMC1/8 1% 10E
HIP RC-02H 1 % 1K
RMC1/8 1% 10E
HIP RC-02H 1 % 3K16
RMC1/8 1% 51E1
HIP RC-02H 1% 750E
HIP RC-02H 1 % 196E
RMC1/8 1% 10E
UNIT DESCRIPTIONS
Ordering code
4822 051 10104
4822 051 10104
4822 051 10113
4822 051 10108
4822 051 10108
4822 051 10478
4822 051 10478
4822 051 10478
4822 051 10478
4822 051 10478
4822 051 10101
5322 116 53165
5322 116 53168
5322 116 53176
5322 116 53166
5322 116 53173
5322 116 53177
5322 116 83098
5322 117 10486
5322 117 10528
5322 117 10557
5322 116 53169
5322 116 53171
5322 117 10541
5322 117 10539
4822 051 10101
5322 117 10535
5322 117 10552
5322 117 10553
5322 117 10553
5322 111 91893
4822 051 10108
4822 051 10108
5322 117 10528
4822 051 10101
5322 117 10485
5322 117 10544
4822 051 10102
4822 051 10104
5322 117 10485
5322 117 10521
5322 117 10521
4822 111 91885
4822 051 10102
4822 111 91885
5322 117 10553
5322 111 91893
5322 117 10582
5322 117 10538
4822 111 91885
UNIT DESCRIPTIONS
R7204
R7205
R7206
R7207
R7208
R7209
R7502
R7503
R7508
R7509
R7511
R7512
R7521
R7522
R7523
R7151
R7152
R7153
R7154
R7155
R7156
R7160
R7161
R7180
R7181
R7091
R7092
R7093
R7094
R7095
R7096
R7097
R7099
R7144
R7150
Item
R7049
R7050
R7051
R7052
R7054
R7056
R7057
R7059
R7064
R7065
R7066
R7067
R7077
R7078
R7082
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.MET.GLAZED
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-02H 1% 1K
HIP RC-02H 1 % 21K5
HIP RC-02H 1% 9K09
HIP RC-02H 1% 19K6
HIP RC-02H 1% 38K3
HIP RC-02H 1% 75K
PR24 1/4W 0.1% 6K
PR24 1/4W 0.1% 500E
PR24 1/4W 0.1% 900E
PR24 1/4W 0.1% 100E
RMC1/8 1% 42E2
RMC1/8 1% 42E2
HIP RC-01 5% 4E7
PR24 1/4W 0.1% 10K
PR24 1/4W 0.1 % 2K16
PR24 1/4W 0.1% 15K
PR24 1/4W 0.1% 10K
PR24 1/4W 0.1% 10K
PR24 1/4W 0.1% 15K
HIP RC-02H 1 % 2K15
HIP RC-02H 1% 100E
RMC1/8 1% 31E6
HIP RC-02H 1% 511E
HIP RC-02H 1% 511E
HIP RC-02H 1% 511E
HIP RC-02H 1% 511E
HIP RC-02H 1% 6K81
HIP RC-02H 1% 11K
HIP RC-02H 1% 1K78
HIP RC-02H 1% 1K78
HIP RC-02H 1% 21K5
RMC1/8 1% 21E5
HIP RC-02H 1 % 562E
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1 % 7K5
HIP RC-02H 1 % 3K48
HIP RC-02H 1 % 825E
HIP RC-02H 1% 825E
HIP RC-02H 1% 7K5
HIP RC-02H 1% 3K48
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1% 51E1
5.1 - 85
Ordering code
4822 051 10478
4822 051 10478
4822 051 10102
5322 117 10542
5322 117 10589
5322 117 10541
5322 117 10562
5322 117 10584
5322 116 83102
5322 116 83097
5322 116 83098
5322 116 51701
4822 111 91887
4822 111 91887
4822 051 10478
5322 116 82868
5322 116 83126
5322 117 10592
5322 116 82868
5322 116 82868
5322 117 10592
5322 117 10485
4822 051 10101
5322 116 82895
5322 117 10569
5322 117 10569
5322 117 10569
5322 117 10569
5322 117 10581
4822 051 10113
5322 117 10535
5322 117 10535
5322 117 10542
5322 111 92014
5322 117 10572
4822 051 10103
4822 051 10103
5322 117 10487
5322 117 10487
4822 051 10103
4822 051 10103
5322 117 10583
5322 117 10557
5322 117 10585
5322 117 10585
5322 117 10583
5322 117 10557
5322 111 91893
5322 111 91893
5322 111 91893
5.1 - 86
R7681
R7688
R7689
R7692
R7693
R7694
R7696
R7711
R7712
R7713
R7558
R7563
R7571
R7572
R7576
R7577
R7578
R7579
R7584
R7586
R7716
R7753
R7754
R7809
R7901
R7911
R7921
R7931
R7941
R7951
R7952
R7953
R7954
R7956
R7957
Item
R7524
R7526
R7527
R7528
R7529
R7531
R7542
R7543
R7544
R7546
R7547
R7548
R7552
R7554
R7556
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1% 51E1
HIP RC-02H 1 % 422E
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1% 14K7
HIP RC-02H 1% 619E
HIP RC-02H 1% 14K7
HIP RC-02H 1 % 3K48
HIP RC-02H 1 % 6K81
HIP RC-02H 1 % 750E
HIP RC-02H 1% 261E
HIP RC-02H 1% 261E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
HIP RC-02H 1 % 4K22
HIP RC-02H 1% 4K22
HIP RC-02H 1 % 1K33
HIP RC-02H 1% 1K33
HIP RC-02H 1% 1K78
HIP RC-02H 1 % 316E
HIP RC-02H 1% 316E
HIP RC-02H 1% 1K62
HIP RC-02H 1 % 6K19
HIP RC-02H 1% 3K48
HIP RC-02H 1% 14K7
HIP RC-02H 1% 6K81
HIP RC-02H 1 % 6K81
HIP RC-02H 1% 10K
HIP RC-02H 1% 3K83
HIP RC-02H 1 % 261E
HIP RC-02H 1 % 261E
HIP RC-02H 1% 1K
HIP RC-01 5% 1E
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-02H 1% 11K
HIP RC-02H 1% 13K3
HIP RC-02H 1% 11K
HIP RC-02H 1% 3K16
HIP RC-02H 1% 14K7
HIP RC-02H 1% 10K
UNIT DESCRIPTIONS
Ordering code
5322 111 91893
5322 111 91893
5322 111 91893
5322 111 91893
5322 111 91893
5322 117 10564
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10487
5322 117 10528
5322 117 10576
5322 117 10528
5322 117 10557
5322 117 10581
5322 117 10582
4822 051 52611
4822 051 52611
4822 051 10101
4822 051 10101
5322 117 10565
5322 117 10565
5322 117 10524
5322 117 10524
5322 117 10535
5322 117 10552
5322 117 10552
5322 117 10531
5322 117 10577
5322 117 10557
5322 117 10528
5322 117 10581
5322 117 10581
4822 051 10103
5322 117 10561
4822 051 52611
4822 051 52611
4822 051 10102
4822 051 10108
4822 051 10478
4822 051 10478
4822 051 10478
4822 051 10478
4822 051 10113
5322 11710525
4822 051 10113
5322 117 10553
5322 117 10528
4822 051 10103
UNIT DESCRIPTIONS
Item
R8019
R8020
R8021
R8022
R8023
R8024
R8025
R8026
R8027
R8028
R8029
R8030
R8031
R8032
R8033
R7958
R7961
R8001
R8002
R8003
R8004
R8005
R8006
R8007
R8008
R8009
R8010
R8011
R8012
R8013
R8014
R8015
R8016
R8017
R8018
R8034
R8035
R8037
R8038
R8040
R8041
R8042
R8043
R8044
R8045
R8046
R8047
R8048
R8049
R8050
Description
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
HIP RC-02H 1% 10K
HIP RC-01 5% 4E7
HIP RC-02H 1% 383E
HIP RC-02H 1 % 383E
HIP RC-02H 1% 316E
HIP RC-02H 1% 9K09
HIP RC-02H 1 % 7K5
HIP RC-02H 1% 2K61
HIP RC-02H 1 % 3K16
HIP RC-02H 1% 2K15
HIP RC-02H 1% 1K96
HIP RC-02H 1% 1K
HIP RC-02H 1% 215E
HIP RC-02H 1% 2K15
HIP RC-02H 1% 2K15
HIP RC-02H 1% 5K11
HIP RC-02H 1% 1K62
HIP RC-02H 1 % 2K15
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
HIP RC-02H 1 % 287E
HIP RC-02H 1 % 5K62
HIP RC-02H 1% 1K47
HIP RC-02H 1% 196E
HIP RC-02H 1 % 316E
HIP RC-02H 1% 3K16
HIP RC-02H 1% 562E
HIP RC-02H 1% 4K22
RMC1/8 1 % 61E9
HIP RC-02H 1% 196E
HIP RC-02H 1% 1K47
HIP RC-02H 1% 1K62
HIP RC-02H 1% 287E
HIP RC-02H 1% 5K62
HIP RC-02H 1 % 1K
HIP RC-02H 1% 3K16
HIP RC-02H 1% 316E
HIP RC-02H 1 % 2K15
HIP RC-02H 1 % 21K5
RMC1/8 1% 51E1
HIP RC-02H 1% 1K47
HIP RC-02H 1% 1K
HIP RC-02H 1 % 316E
HIP RC-02H 1 % 3K48
RMC1/8 1% 51E1
HIP RC-02H 1% 1K47
RMC1/8 1 % 21E5
HIP RC-02H 1% 3K48
HIP RC-02H 1% 5K11
RMC1/8 1% 21E5
5.1 - 87
Ordering code
4822 051 10103
4822 051 10478
5322 117 10559
5322 117 10559
5322 117 10552
5322 117 10589
5322 117 10583
5322 117 10547
5322 117 10553
5322 117 10485
5322 117 10539
4822 051 10102
5322 117 10484
5322 117 10485
5322 117 10485
5322 117 10487
5322 117 10531
5322 117 10485
4822 051 10102
4822 051 10102
4822 051 52871
5322 117 10573
5322 117 10527
5322 117 10538
5322 117 10552
5322 117 10553
5322 117 10572
5322 117 10565
5322 111 92016
5322 117 10538
5322 117 10527
5322 117 10531
4822 051 52871
5322 117 10573
4822 051 10102
5322 117 10553
5322 117 10552
5322 117 10485
5322 117 10542
5322 111 91893
5322 117 10527
4822 051 10102
5322 117 10552
5322 117 10557
5322 111 91893
5322 117 10527
5322 111 92014
5322 117 10557
5322 117 10487
5322 111 92014
5.1 -88
Item
R8051
R8052
R8053
R8054
R8055
R8056
R8057
R8058
R8059
R8060
R8061
R8062
R8063
R8064
R8065
R8066
R8067
R8068
R8069
R8070
R8081
R8082
R8083
R8084
R8085
R8086
R8087
R8088
R8089
R8090
R8091
R8092
R8093
R8094
R8095
R8096
R8097
R8098
R8099
R8100
R8071
R8072
R8073
R8074
R8075
R8076
R8077
R8078
R8079
R8080
Description
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RMC1/8 1 % 21E5
HIP RC-02H 1% 6K19
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-02H 1% 21K5
RMC1/8 1% 42E2
RMC1/8 1% 51E1
HIP RC-02H 1 % 383E
HIP RC-02H 1 % 422E
HIP RC-02H 1% 1K96
HIP RC-02H 1% 1K
HIP RC-02H 1% 5K11
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K47
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
HIP RC-02H 1% 2K15
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
HIP RC-02H 1 % 8K25
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1% 51E1
HIP RC-02H 1% 511E
HIP RC-02H 1% 511E
RMC1/8 1% 51E1
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 750E
HIP RC-02H 1% 1K
HIP RC-02H 1 % 2K87
HIP RC-02H 1% 511E
HIP RC-02H 1% 1K62
HIP RC-02H 1% 619E
HIP RC-02H 1% 1K21
HIP RC-02H 1% 5K11
HIP RC-02H 1% 2K61
HIP RC-02H 1 % 31K6
HIP RC-02H 1 % 31K6
HIP RC-02H 1 % 2K61
HIP RC-02H 1 % 2K61
HIP RC-02H 1 % 2K61
RMC1/8 1% 21E5
HIP RC-02H 1% 12K1
HIP RC-02H 1% 1K96
HIP RC-02H 1% 2K61
RMC1/8 1% 100E
HIP RC-02H 1% 422E
UNIT DESCRIPTIONS
Ordering code
5322 111 92014
5322 117 10577
4822 051 10108
4822 051 10108
5322 117 10542
4822 111 91887
5322 111 91893
5322 117 10559
5322 117 10564
5322 117 10539
4822 051 10102
5322 117 10487
4822 051 10102
5322 117 10527
4822 051 10102
4822 051 10102
4822 051 10102
5322 117 10485
5322 117 10487
5322 117 10487
5322 117 10586
4822 051 10102
4822 051 10102
5322 111 91893
5322 111 91893
5322 111 91893
5322 117 10569
5322 117 10569
5322 111 91893
5322 117 10487
5322 117 10582
4822 051 10102
5322 117 10549
5322 117 10569
5322 117 10531
5322 117 10576
5322 117 10521
5322 11710487
5322 117 10547
5322 117 10554
5322 117 10554
5322 117 10547
5322 117 10547
5322 117 10547
5322 111 92014
5322 117 10522
5322 117 10539
5322 117 10547
4822 051 10101
5322 117 10564
UNIT DESCRIPTIONS
Item
R8101
R8102
R8103
R8104
R8105
R8106
R8130
R8131
R8132
R8133
R8134
R8135
R8136
R8137
R8138
R8200
R8403
R8404
R8405
R8410
R8411
Description
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.MET.GLAZED
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
V1201
V1202
V1206
V1207
V1208
V1209
V1251
V1252
V1301
V1302
V1304
V1306
SEMICONDUCTORS
V1001
V1002
V1003
V1004
V1005
TRANSISTOR,CHIP
DIODE
BSS83 PEL
BBY62 PEL
DIODE,REFERENCE BZX84-C6V8 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BFR31 PEL
BFR31 PEL
V1006
V1007
V1008
V1009
V1012
V1013
V1015
V1016
V1017
V1018
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BF990A PEL
BFS20 PEL
BF579 TEL
BFR53 PEL
BSS83 PEL
BSS83PEL
BC858C PEL
BC858C PEL
BC848C PEL
BC848C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BF579 TEL
BF579 TEL
BC858C PEL
BC858C PEL
BC858C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC858C PEL
BC848C PEL
BC848C PEL
DIODE,REFERENCE BZX84-C6V2 PEL
DIODE,REFERENCE BZX84-C7V5 PEL
DIODE,REFERENCE BZX84-C4V7 PEL
DIODE,REFERENCE BZX84-C2V4 PEL
HIP RC-02H 1% 10K
HIP RC-02H 1% 12K1
HIP RC-02H 1% 100K
HIP RC-02H 1% 14K7
HIP RC-02H 1% 1K62
HIP RC-02H 1% 10K
RMC1/8 1% 31E6
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 1K47
RMC1/8 1% 10E
HIP RC-02H 1% 1K62
HIP RC-02H 1% 162E
HIP RC-02H 1 % 2K61
HIP RC-02H 1% 3K16
HIP RC-02H 1% 3K16
RMC1/8 1% 10E
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
5.1 - 89
Ordering code
4822 051 10103
5322 117 10522
4822 051 10104
5322 117 10528
5322 117 10531
4822 051 10103
5322 116 82895
5322 117 10487
5322 117 10527
4822 111 91885
5322 117 10531
5322 117 10529
5322 117 10547
5322 117 10553
5322 117 10553
4822 111 91885
4822 051 10102
4822 051 10102
4822 051 10102
4822 051 10101
4822 051 10101
5322 130 60502
5322 130 82685
5322 130 80406
5322 130 44787
5322 130 44787
4822 130 62657
5322 130 42718
5322 130 63453
5322 130 61244
5322 130 60502
5322 130 60502
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 42136
5322 130 63453
5322 130 63453
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 42136
5322 130 33671
5322 130 33763
5322 130 31937
4822 130 33703
5.1 - 90
Item
V1307
V1308
V1313
V2001
V2002
V2206
V2207
V2208
V2209
V2301
V2302
V2303
V2304
V2306
V2307
V3001
V3002
V3003
V3004
V3005
V2003
V2004
V2005
V2006
V2007
V2008
V2009
V2012
V2013
V2015
V2016
V2017
V2018
V2201
V2202
V3006
V3007
V3008
V3009
V3012
V3013
V3015
V3016
V3017
V3018
V3201
V3202
V3206
V3207
V3208
Description
DIODE,REFERENCE BZX84-C3V0 PEL
DIODE,CHIP BAS28PEL
DIODE,CHIP
TRANSISTOR,CHIP
DIODE
BAS28PEL
BSS83PEL
BBY62 PEL
DIODE,REFERENCE BZX84-C6V8 PEL
TRANSISTOR,CHIP BFR31 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BFR31 PEL
BF990A PEL
BFS20 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BF579 TEL
BFR53 PEL
BSS83PEL
BSS83PEL
BC858C PEL
BC858C PEL
BC848C PEL
BC848C PEL
BF579 TEL
BF579 TEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC858C PEL
BC858C PEL
TRANSISTOR,CHIP BC858C PEL
TR AN S IS TO R ,C H IPS T6g^8C PEL
DIODE,REFERENCE BZX84-C6V8 PEL
DIODE,REFERENCE BZX84-C7V5 PEL
DIODE,CHIP BAS28PEL
DIODE,REFERENCE BZX84-C4V7 PEL
DIODE,REFERENCE BZX84-C2V4 PEL
DIODE,REFERENCE BZX84-C3V0 PEL
TRANSISTOR,CHIP
DIODE
BSS83PEL
BBY62PEL
DIODE,REFERENCE BZX84-C6V8 PEL
TRANSISTOR,CHIP BFR31 PEL
TRANSISTOR,CHIP BFR31 PEL
BF990A PEL
BFS20 PEL
BF579 TEL
BFR53PEL
BSS83PEL
BSS83PEL
BC858C PEL
BC858C PEL
BC848C PEL
BC848C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BF579 TEL
BF579 TEL
BC858C PEL
BC858C PEL
BC858C PEL
UNIT DESCRIPTIONS
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 80406
5322 130 33763
5322 130 80214
5322 130 31937
4822 130 33703
5322 130 32739
5322 130 60502
5322 130 82685
5322 130 80406
5322 130 44787
5322 130 44787
4822 130 62657
5322 130 42718
5322 130 63453
5322 130 61244
5322 130 60502
5322 130 60502
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 42136
5322 130 63453
5322 130 63453
4822 130 42513
4822 130 42513
4822 130 42513
Ordering code
5322 130 32739
5322 130 80214
5322 130 80214
5322 130 60502
5322 130 82685
5322 130 80406
5322 130 44787
5322 130 44787
4822 130 62657
5322 130 42718
5322 130 63453
5322 130 61244
5322 130 60502
5322 130 60502
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 42136
5322 130 63453
5322 130 63453
UNIT DESCRIPTIONS
Item
V3209
V3301
V3302
V3303
V3304
V3306
V3307
V4001
V4002
V4003
V4004
V4005
V4006
V4007
V4008
V4009
V4012
V4013
V4015
V4016
V4017
V4018
V4201
V4202
V4206
V4207
V4208
V4209
V4301
V4302
V4303
V4304
V4306
V4307
V5001
V5002
V5003
V5004
V5006
V5007
V5008
V5009
V5011
V5012
V5013
V5014
V5016
V5017
V5018
V5501
Description
TRANSISTOR,CHIP BC858C PEL
DIODE,REFERENCE BZX84-C6V8 PEL
DIODE,REFERENCE BZX84-C7V5 PEL
DIODE,CHIP BAS28PEL
DIODE,REFERENCE BZX84-C4V7 PEL
DIODE,REFERENCE BZX84-C2V4 PEL
DIODE,REFERENCE BZX84-C3V0 PEL
TRANSISTOR,CHIP
DIODE
BSS83PEL
BBY62PEL
DIODE,REFERENCE BZX84-C6V8 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BFR31 PEL
BFR31 PEL
BF990A PEL
BFS20 PEL
BF579 TEL
BFR53PEL
BSS83PEL
BSS83PEL
BC858C PEL
BC858C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC848C PEL
BC848C PEL
TRANSISTOR,CHIP BF579 TEL
TRANSISTOR,CHIPST6S^79 TEL
TRANSISTOR,CHIP BC858C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC858C PEL
BC858C PEL
TRANSISTOR,CHIP BC858C PEL
DIODE,REFERENCE BZX84-C6V8 PEL
DIODE,REFERENCE BZX84-C7V5 PEL
DIODE,CHIP BAS28PEL
DIODE,REFERENCE BZX84-C4V7 PEL
DIODE,REFERENCE BZX84-C2V4 PEL
DIODE,REFERENCE BZX84-C3V0 PEL
TRANSISTOR,CHIP BFS20 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BFS20 PEL
BFR92 PEL
BFR92 PEL
BFT92 PEL
BFT92 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
BFT92 PEL
BFT92 PEL
BAT17 PEL
BAT17 PEL
BAT17 PEL
DIODE,CHIP BAT17 PEL
DIODE,REFERENCE BZX84-C6V2 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BFT92 PEL
BFT92 PEL
BFS20 PEL
5.1 -91
5322 130 42136
5322 130 42136
5322 130 63453
5322 130 63453
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 80406
5322 130 33763
5322 130 80214
5322 130 31937
4822 130 33703
5322 130 32739
5322 130 42718
5322 130 42718
5322 130 42145
5322 130 42145
5322 130 44711
5322 130 44711
5322 130 44711
5322 130 44711
5322 130 31544
5322 130 31544
5322 130 31544
5322 130 31544
5322 130 33671
5322 130 44711
5322 130 44711
5322 130 42718
Ordering code
4822 130 42513
5322 130 80406
5322 130 33763
5322 130 80214
5322 130 31937
4822 130 33703
5322 130 32739
5322 130 60502
5322 130 82685
5322 130 80406
5322 130 44787
5322 130 44787
4822 130 62657
5322 130 42718
5322 130 63453
5322 130 61244
5322 130 60502
5322 130 60502
4822 130 42513
4822 130 42513
5.1 -92
Item
V5502
V5503
V5504
V5506
V5601
V6001
V6002
V6003
V6004
V6005
V6006
V6007
V6008
V6012
V6013
V6014
V6016
V6017
V6018
V6019
V6022
V6041
V6042
V6044
V6061
V6062
V6101
V6506
V6507
V6532
V6553
V6573
V6574
V6593
V6604
V6606
V6628
V6631
V6637
V6667
V6668
V6686
V6687
V6691
V6754
V6757
V6759
V6761
V6763
V6764
Description
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
DIODE,REFERENCE
BFS20 PEL
BC848C PEL
BAV99 PEL
BC848C PEL
BZX84-C6V2 PEL
TRANSISTOR,CHIP BC848C PEL
TRANSISTOR,CHIP BC848C PEL
TRANSISTOR,CHIP BC858C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC858C PEL
BC858C PEL
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
BC848C PEL
BAV99 PEL
BC848C PEL
BFR92 PEL
FET ON4401 PEL
TRANSISTOR
TRANSISTOR,CHIP
FET ON4401 PEL
BC848C PEL
DIODE,CHIP BAS28PEL
DIODE,REFERENCE BZX84-C5V6 PEL
TRANSISTOR,CHIP BC848C PEL
DIODE,REFERENCE BZX84-C5V6 PEL
DIODE,CHIP BAS28 PEL
TRANSISTOR,CHIP
DIODE,CHIP
BC848C PEL
ST6g^§28 PEL
TRANSISTOR,CHIP BC858C PEL
TRANSISTOR,CHIP BC848C PEL
DIODE,REFERENCE BZX84-C2V4 PEL
TRANSISTOR,CHIP BF824 PEL
TRANSISTOR,CHIP BF824 PEL
TRANSISTOR,CHIP BC858C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
BC858C PEL
BF824 PEL
BF824 PEL
BAS28 PEL
BFT92 PEL
TRANSISTOR,CHIP BFT92 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC848C PEL
TRANSISTOR,CHIP BC848C PEL
DIODE,REFERENCE BZX84-C6V8 PEL
BC858C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC858C PEL
BC848C PEL
BC848C PEL
BC848C PEL
BC848C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC848C PEL
BC848C PEL
DIODE,CHIP
TRANSISTOR,CHIP
BAS28PEL
BC848C PEL
DIODE,REFERENCE BZX84-C6V2 PEL
4822 130 80125
5322 130 80214
5322 130 42136
5322 130 80214
4822 130 42513
5322 130 42136
4822 130 33703
4822 130 60383
4822 130 60383
4822 130 42513
4822 130 42513
4822 130 60383
4822 130 60383
5322 130 80214
5322 130 44711
5322 130 44711
5322 130 42136
5322 130 42136
5322 130 80406
4822 130 42513
5322 130 42718
5322 130 42136
5322 130 34337
5322 130 42136
5322 130 33671
5322 130 42136
5322 130 42136
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 34337
5322 130 42136
5322 130 42145
5322 130 61498
5322 130 61498
5322 130 42136
5322 130 80214
4822 130 80125
5322 130 42136
4822 130 42513
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 80214
5322 130 42136
5322 130 33671
UNIT DESCRIPTIONS
Item
V6768
V7001
V7003
V7004
V7005
V7006
V7007
V7012
V7016
V7017
V7018
V7019
V7020
V7031
V7032
V7075
V7091
V7093
V7094
V7150
V7151
V7152
V7506
V7507
V7532
V7553
V7573
V7574
V7686
V7687
V8001
V8002
V8003
V8004
V8005
V8006
V8007
V8008
V8009
V8011
V7691
V7714
V7801
V7802
V7803
V7804
V7805
V7806
V7807
V7808
Description
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC848C PEL
BC848C PEL
BC858C PEL
BC858C PEL
BC858C PEL
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
BC848C PEL
BAV99 PEL
BFR92 PEL
BC848C PEL
BAS28PEL
DIODE,REFERENCE BZX84-C5V6 PEL
TRANSISTOR FET ON4401 PEL
TRANSISTOR
TRANSISTOR,CHIP
FET ON4401 PEL
BF824 PEL
TRANSISTOR,CHIP BF824 PEL
BAS28 PEL
BC848C PEL
BC848C PEL
BC848C PEL
BF824 PEL
BF824 PEL
BC858C PEL
BF824 PEL
BF824 PEL
BC858C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
BC858C PEL
BF824 PEL
BF824 PEL
BC848C PEL
BC848C PEL
BC848C PEL
BC848C PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC848C PEL
BC848C PEL
BC848C PEL
BAS28PEL
BC848C PEL
BC848C PEL
BC848C PEL
BC848C PEL
BC848C PEL
BFT92 PEL
5.1 -93
Ordering code
5322 130 42136
5322 130 42136
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 34337
5322 130 42145
5322 130 42136
5322 130 80214
4822 130 80125
5322 130 61498
5322 130 61498
4822 130 60383
4822 130 60383
5322 130 80214
5322 130 42136
5322 130 42136
5322 130 42136
4822 130 60383
4822 130 60383
4822 130 42513
4822 130 60383
4822 130 60383
4822 130 42513
4822 130 42513
4822 130 60383
4822 130 60383
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 80214
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 42136
5322 130 44711
5.1 -94 UNIT DESCRIPTIONS
Item
V8012
V8013
V8014
V8015
V8018
V8019
V8023
V8024
V8025
V8028
V8029
V8031
V8032
V8040
V8041
V8042
V8043
V8044
V8061
V8062
V8063
V8065
V8066
V8067
V8068
V8101
X2301
X2302
X2302
X3301
X3301
X3302
X3302
X4108
X4108
X4301
CONNECTORS
X1301
X1301
X1302
X1302
X2301
SOCKET,MALE
HOLD,OBJECTIVE
HOLD,OBJECTIVE
SOCKETMALE
HOLD,OBJECTIVE
SOCKET.MALE
SOCKET,MALE
HOLD,OBJECTIVE
HOLD,OBJECTIVE
SOCKET.MALE
HOLD,OBJECTIVE
SOCKET.MALE
SOCKET,MALE
HOLD,OBJECTIVE
HOLD,OBJECTIVE
X4301
X4302
X4302
X5001
X6010
X6010
SOCKET.MALE
SOCKET.MALE
HOLD,OBJECTIVE
CONNECTOR
SOCKET.MALE
HOLD,OBJECTIVE
Description
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BFT92 PEL
BFT92 PEL
TRANSISTOR,CHIP BFT92 PEL
DIODE,REFERENCE BZX84-C2V4 PEL
TRANSISTOR,CHIP BC848C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE,CHIP
BC848C PEL
BFT92 PEL
BFT92 PEL
BAV99 PEL
BAS28PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BFT92 PEL
BFT92 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BSV52 PEL
BSV52PEL
BC848C PEL
BFR92 PEL
BFR92 PEL
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
BFR92 PEL
BAS28PEL
BC858C PEL
BC858C PEL
BC848C PEL
BAS28PEL
50 OHM BUS
CONTACTPIN
CONTACTPIN
50 OHM BUS
CONTACTPIN
50 OHM BUS
50 OHM BUS
CONTACTPIN
CONTACTPIN
50 OHM BUS
CONTACTPIN
50 OHM BUS
50 OHM BUS
CONTACTPIN
CONTACTPIN
50 OHM BUS
50 OHM BUS
CONTACTPIN
DIPS 4-P HAAKS OMSL
50 OHM BUS
CONTACTPIN
5322 265 10266
5322 268 14141
5322 268 14141
5322 265 10266
5322 268 14141
5322 265 10266
5322 265 10266
5322 268 14141
5322 268 14141
5322 265 10266
5322 268 14141
5322 265 10266
5322 265 10266
5322 268 14141
5322 268 14141
5322 265 10266
5322 265 10266
5322 268 14141
5322 265 30907
5322 265 10266
5322 268 14141
Ordering code
5322 130 44711
5322 130 44711
5322 130 44711
4822 130 33703
5322 130 42136
5322 130 42136
5322 130 44711
5322 130 44711
5322 130 34337
5322 130 80214
5322 130 44711
5322 130 44711
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 44336
5322 130 44336
5322 130 42136
5322 130 42145
5322 130 42145
5322 130 42145
5322 130 80214
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 80214
UNIT DESCRIPTIONS 5.1 - 95
Item
X6591
X6591
X6592
X6592
X6794
X6794
X8011
X8011
X8013
X8013
X8014
X8014
X9001
X9002
Description
HOLD,OBJECTIVE
SOCKET,MALE
HOLD,OBJECTIVE
SOCKET,MALE
HOLD,OBJECTIVE
SOCKET,MALE
HOLD,OBJECTIVE
SOCKET,MALE
HOLD,OBJECTIVE
SOCKET, MALE
HOLD,OBJECTIVE
SOCKET,MALE
CONNECTOR
CONNECTOR
CONTACTPIN
50 OHM BUS
CONTACTPIN
50 OHM BUS
CONTACTPIN
50 OHM BUS
CONTACTPIN
50 OHM BUS
CONTACTPIN
50 OHM BUS
CONTACTPIN
50 OHM BUS
50-P DBL STRGHT
16-P 1.25MM STR
Ordering code
5322 268 14141
5322 265 10266
5322 268 14141
5322 265 10266
5322 268 14141
5322 265 10266
5322 268 14141
5322 265 10266
5322 268 14141
5322 265 10266
5322 268 14141
5322 265 10266
5322 265 61242
5322 267 51107
Coloured indication rings for mini coax sockets on printed circuit boards: black: 5322 325 50231 orange: 5322 325 50234 blue: 5322 325 50237 white: 5322 325 50241 brown: 5322 325 50232 yellow: 5322 325 50235 violet: 5322 325 50238 red: 5322 325 50233 green: 5322 325 50236 grey: 5322 325 50239
UNIT DESCRIPTIONS 5.2-1
5.2 FINAL XYZ AMPLIFIER A2
5.2.1 Description A2-200 MHz version
5.2.1.1 Final Y am plifier
Diagram 1
The output signal from the delay line is applied to the input pins 6 and 9 of amplifier IC D1001. This
IC and surrounding components comprise the MF and HF square wave compensations. Also the vertical CRT text signal is applied to D1001 (pin 15 and 16). The switching between text/cursors and signal is done via control signals that are applied to pin 17 and 18 of D1001. Text is written if the voltage at pin 18 is higher than at pin 17. This switching signal is derived from the collector of the transistors V1201 and V1202. The control signals XYSW1 and XYSWO come from the text/cursor generator IC on microprocessor unit A3. Via the transistors V1203 and V1204 similar switching signals XSW1 and XSWO are routed to the X-deflection section for switching between text and signal.
The output signals from pin 21 and 22 of D1001 are routed to the final Y-amplifier that drives the vertical deflection plates of the CRT. This final stage is indicated on the next diagram.
The delay line leads are terminated into 50£2. The impedance is composed by 300Q inside D1001 parallelled by external impedances of 60Q formed by the external resistors R1024/R1026 and
R1027/R1028. All termination resistors are applied to a voltage controlled by D1001/pin 13. Pin 13 determines the common mode voltage level of the D1001 inputs. The HF square wave compensation is achieved by the two dual varicap diodes V1009 and V1011 together with associated resistors. A fixed mid- frequency compensation network is formed by C1006 and associated resistors.
Varicap V1009 is controlled by the output signal at pin 20 of octal DAC N1001. This output voltage can be in the range 0 to 10 V and controls varicap V1009 via operational amplifier N1002/1,2,3. This operational amplifier converts the N1001 output voltage (that is related to 0 V) into a voltage related to the voltage at D1001/pin 13.
Varicap V1011 is controlled by the output signal at pin 18 of octal DAC N1001. This output voltage can be in the range 0 to 10 V and controls varicap V1011 via operational amplifier N1002/5,6,7. This operational amplifier converts the N1001 output voltage (that is related to 0 V) into a voltage related to the voltage at D1001/pin 13.
LF square wave compensation is also done inside D1001. This is controlled via currents applied to pin 27 and 28. These currents are derived from the N1001 DAC voltage outputs 13 and 11 via the transistors V1014 and V1016. The actual compensating components are situated outside D1001 and are R1037/C1011/R1038 and R1029/C1009/R1031. V1023 and V1024 form a 20 mA current source to supply the bias current for the final stage inside D1001. V1024 is switched as a diode and gives temperature compensation.
Offset is adjusted via the currents from the collectors of V1021 and V1022. These currents are controlled by the DAC output pins 17 (Most Significant DAC) and 16 (Least Significant DAC). Two parallel DAC outputs are used to obtain sufficient resolution. V1018 is a current source and V1019 is for temperature compensation. Gain control occurs via an adjustable current applied to D1001/pin
26. This is done via N1001/pin 14 and R1051
DAC output N1001/15 applies via operational amplifier N1003/1,2,3 the signal YFSHF to the final stage on the next diagram. YFSHF is an adjustable dc voltage that is applied to varicap diodes that control the HF square wave response.
Diagram 2
This diagram shows the push-pull output amplifier. The input signal is a current and the output signal is a voltage. The output signal is applied to the vertical upper and lower plates of the CRT. The total sensitivity at the plates is 4V/div. One plate is driven by push-pull stage V1106/V1111. The driver transistors are V1102 and V1103. The input signal is YPREOUT1.
5 . 2 -2
UNIT DESCRIPTIONS
The other plate is driven by push-pull stage V1107/V1112. The driver transistors are V1101 and
V1104. The input signal is YPREOUTO. The output voltage applied to the CRT deflection plates is control led by the feedback networks R1101/R1141/R1143/C1101 N 1113/R1140/C1121 and
R1102/R1142/R1144/C1102/V1113/R1145/C1122.
The push-pull amplifier stages are connected between +18 V and -18V supply voltages via current sources. One of these is V1122 with temperature compensation via V1121. The other is V1123 and is adjusted via operational amplifier N1003/5,6,7. This assures that the common mode voltage at the plates of the CRT is 0 V.
The resistance network between L1101 and L1102 avoids extreme differences in power dissipation in the output transistors when a dc voltage difference exists between the CRT deflection plates.
The input of the final stage is at a common mode level of 9V dc because of the output level from
D1001. This voltage is made by the dc current sources V1021 and V1022. The current from these sources is partly used by the D1001 output stage (pin 21 and 22). The remaining currents give a 9 V dc across the feedback resistors R1101/R1141 and R1102/1142. Because the output lines to the CRT plates are at 0V common mode level, the inputs are at 9V common mode level. The current in the feedback resistors runs via L1101, L1102 and V1126 to the -18V supply.
The bias current for the driver stage V1101/V1102/V1103/V1104 is controlled by V1127 and V1128 via R1167 and R1168. V1127 converts voltage into current. This current is compared with current from source V1128/R1166. In case of a difference between these currents, the resulting current feeds the base of V1103 and V1104.
The circuit with operational amplifier N1004/2,3,6 is used for automatic calibration of the vertical deflection. It measures the voltage at the vertical deflection plates of the CRT. This value is applied as signal YCAL to the microprocessor on unit A3.
5.2.1.2 Final X and Z am plifiers
Diagram 3
This diagram shows the final X amplifier. It drives the horizontal plates of the CRT. The plate sensitivity equals 8.5 V/div. The input circuit is formed by 1C D2001. The octal DAC N2002 supplies the analog control signals that are used throughout the circuit.
Input pin 5 and 6 of D2001 receive the time base sawtooth or the X- deflection signal signal. Input pin
9 and 10 receive the text/cursor X- deflection signal. The selection between text/cursors and sawtooth/X- deflection signal is done via the signals XSW0 and XSW1 that are applied to pin 7 and
8 of D2001. These signals are derived from XYSW0 and XYSW1 that come from the text generator
IC on microprocessor unit A3. Text is displayed with XSW0 at 0 mA and XSW1 at 1 mA. Trace is displayed with XSW0 at 1 mA and XSW1 at 0 mA.
Gain control is possible via pin 1 of D2001. This is used for trace gain control via signal XTRAGC.
Gain control to compensate for CRT tolerances is achieved via pin 14 of D2001. This is controlled via the DAC output signals XCRTGCL and XCRTGCH. Offset control to compensate for CRT tolerances is achieved via pin 15 of D2001. This is controlled via the DAC output signals XCRTOFH and
XCRTOFL. Adjustment of the HF response (and linearity) is achieved via signal XHFADJ via pin 17 and 26 of D2001.
The final X-amplifier consists of two identical halves that receive input signals that are in opposite phase. These signals originate from the D2001 outputs pin 24/25 (XDRIL0/XDRIL1) and pin 18/19
(XDRIR0/XDRIR1). The two X-amplifier sections drive respectively the left and right deflection plate of the CRT.
UNIT DESCRIPTIONS 5 . 2- 3
The final X amplifier half that drives the left deflection plate is explained now. Its function is identical to that of the other amplifier half. The balanced input signals XDRIL1 and XDRILO are applied to input stage V2101. V2104 is a current source. XDRILO is not used and connected to +5 V. In the collector circuit of V2101 are the zener diodes V2102/V2103 that function as level shifters. The emitter followers V2132 and V2111 supply the output stage V2134/V2113 with signal. V2113 functions as an amplifier stage and V2134 mainly as a current source. V2134 receives signal via C2131 and mainly functions as amplifier stage in the fastest sweep speeds. Via R2133/R2134 however some dc drive is also applied to V2134.
The circuit with operational amplifier N2003 is used to measure the output voltage that is applied to the X-deflection plates of the CRT. This measurement is done via high-ohmic resistors R2301 and
R2302. The analog output voltage XCAL of N2003 is applied to an ADC incorporated in the microprocessor on unit A3. This enables the microprocessor to exactly measure the horizontal output voltage. This is used for automatic calibration of the horizontal deflection.
Diagram 4
This diagram shows the final intensity (Z) and focusing amplifiers. These amplifiers drive the intensity electrode G1 and the focusing electrode G3 of the CRT. The input circuit is formed by IC D3001.
Input pin 5 and 6 of D3001 receive the Z-pulses ZLTRAO and ZLTRA1 that determine the intensity during signal display. Input pin 9 and 10 receive the Z-pulse ZTXTO and ZTXT1 that determine the intensity during text display. The selection between signal intensity and text intensity is done via the signals ZSWO and ZSW1 that are applied to pin 7 and 8 of D3001. These signals originate from the text generator IC on microprocessor unit A3. Text is displayed with ZSWO at 0 mA and ZSW1 at 1 mA. Trace is displayed with ZSWO at 1 mA and ZSW1 at 0 mA.
The final Z-amplifier and the focusing amplifier are identical halves that receive input signals that are in opposite phase. These signals originate from the D3001 outputs pin 24/25 (ZDRIF1/ZDRIF0) and pin 18/19 (ZDRII0/ZDRII1).
Via V3002 part of the ripple on the negative CRT cathode voltage (ZRIPPLE) is applied to pin 15 of
D3001. This compensates for unwanted intensity modulation due to this ripple.
The diodes V3236, V3136, V3237 and V3137 protect D3001 against possible high voltage surges.
V3301 supplies the intensity determining signal INTEN-DA. This signal adjusts the "dark level" of the
CRT. V3301 is controlled by DAC N2002 output signal DARK. V3311 supplies signal ASTIG that determines the astigmatism of the CRT. V3311 is controlled by DAC N2002 output signal ASTDR.
The upper amplifier half that is used for the dynamic focus control is explained now. Its function is identical to that of the lower amplifier half that is used for intensity (Z) control. The balanced input signals ZDRIF1 and ZDRIFO are applied to input stage V3101. V3104 is a current source. ZDRIFO is not used and connects to +5 V. In the collector circuit of V3101 are the zener diodes V3102/V3103 that function as level shifters. The emitter followers V3132 and V3111 supply the output stage
V3134/V3113 with signal. V3113 functions as an amplifier stage and V3134 mainly as a current source. V3134 receives signal via C3131 and mainly functions as amplifier stage for fast input signals. Via R3133/R3134 however some dc drive is also applied to V3134.
The circuit with V3282/V3212 suppresses the light on the screen at power down. V3282 becomes conductive via the fast falling +12 V and the slowly falling charge in C3281.
Diagram 5
In this diagram the circuit is shown that forms an interface between the signals that determine the intensity/focusing and the CRT electrodes G1/G3 that control intensity/focusing. These electrodes, the cathode and filament (heater) of the CRT are at a high negative voltage. This voltage is separated from the other oscilloscope circuits via the 3kV capacitors C4004, C4061, C4036 and C4037.
5 . 2 - 4 UNIT DESCRIPTIONS
The intensity is influenced by the output signal INTEN-AA of the Z- amplifier and the signal INTEN-
DA. INTEN-AA is determined via the front-panel TRACE INTENSITY, TEXT INTENSITY, MTBI and chopper blanking control signals. The HF component in the INTEN-AA signal is applied to G1 of the
CRT via C4037. The DC and LF components are applied to the base of V4034. The INTEN-DA signal is applied to the base of V4032 and forms the clamplevel (dark level) of the DC and LF part of INTEN-
AA derived from V4034. These two transistors form the inputs of a 150kHz modulator that basically consists of V4031 and V4033. The LF and DC components that are modulated on the 150 kHz carrier signal can pass via buffer stage V4038/V4039 and then via high voltage blocking capacitor C4036.
Behind capacitor C4036 demodulation takes place via the diodes V4043 and V4044. This results in the original INTEN-AA signal that is superpositioned on the INTEN-DA voltage that corrects the cut off voltage of the CRT applied to G1 and via R4051 also to G3. Across R4044 a small negative voltage (compared with the cathode) is developed for G1. This voltage is not big enough to make the
CRT screen dark. This means that the signals to darken the screen and to control intensity are applied via C4036 and C4037.
The HF component from the focusing amplifier output signal FOCUS-AA is applied to G3 via C4004 and voltage divider R4008/R4009/C4002/C4003. This assures optimal tracking between focus and intensity. The signal FOCUS-DA is determined via the FOCUS control at the instruments front panel.
The signal FOCUS-DA is then mixed with the LF component of FOCUS-AA before its level is adapted to the nominal G3 voltage via transistors V4002/V4003/V4004.
Diagram 6
This diagram shows the RC-branches and regulators N5131 that give the supply voltages for the various circuits. Also the connectors X2501 and X2301 are indicated here. X2301 is the connector where the flat cable leaves for the small unit that incorporates the CRT-socket X2403. The flat cable arrives at the small CRT-socket unit at X2401.
UNIT DESCRIPTIONS 5.2 - 5
5.2.2 Signal name list A2-200 MHz version
Note: In the signal name list you find the itemnumber of the component that is source or destination.
Behind this itemnumber (separated by you find the number of the diagram where the source/destination can be found.
NAME MEANING SOURCE DESTINATION
ASTDR
ASTIG
DRIVER SIGNAL FOR ASTIGMATISM
ASTIGMATISM CONTROL
DARK
FOCUS-AA
FOCUS-DA
G1
G3
HEATER1
HEATER2
INTEN-AA
INTEN-DA
SCL
SDA
XCAL
XDRILO
XDRIL1
XDRIRO
XDRIR1
XHFADJ
XLTXTO
XLTXT1
XOUTO
XOUT1
XPLATEO
XPLATE1
DRIVER SIGNAL FOR DC PART INTENS
AC PART FOCUSING SIGNAL
DC PART FOCUSING SIGNAL
INTENSITY GRID 1 OF CRT
FOCUSING GRID 3 OF CRT
FILAMENT SUPPLY F1 OF CRT
FILAMENT SUPPLY F2 OF CRT
AC PART OF INTENSITY SIGNAL
DC PART OF INTENSITY SIGNAL
SERIAL CLOCK
SERIAL DATA
AUTOCAL SIGNAL X DEFLECTION
DRIVE SIGNAL 0 LEFT X AMPLIFIER
DRIVE SIGNAL 1 LEFT X AMPLIFIER
DRIVE SIGNAL 0 RIGHT X AMPLIFIER
DRIVE SIGNAL 1 RIGHT X AMPLIFIER
HF ADJUSTMENT X AMPLIFIER
X SHIFT TEXT 0
X SHIFT TEXT 1
X OUTPUT 0
X OUTPUT 1
X OUTPUT 0 TO CRT
X OUTPUT 1 TO CRT
N2002:03 R3313:04
V3311:04 X2301:06
X2401:05
X2403:05
N2002:03 V3301:04
R3161:04 X2301:06
X2401:05
R4008:05
X2501:06 X2301:06
X2401:05
C4001:05
R4001:05
C4037:05
R4044:05
C4004:05
R4051:05
X2403:05
X2403:05
X2402:05 X2403:05
X2402:05 X2403:05
R3261:04 X2401:05
C4037:05
V3301:04 X2301:06
X2401:05
V4032:05
X2501:06 J1002:06
J2002:06
X2501:06 J1001:06
J2001:06
R2313:03 X2501:06
D2001:03 R2101:03
D2001:03 R2103:03
D2001:03 R2203:03
D2001:03 R2201:03
N2002:03 R2018:03
V2062:03 D2001:03
V2061:03 D2001:03
V2134:03 R2171:03
V2113:03
V2234:03
V2213:03
R2271:03
R2161:03 CRT LEFT
PLATE
R2261:03 CRT RGHT
PLATE
5. 2- 6
ZDRIFO
ZDRIF1
ZDRIIO
ZDRII1
ZLTRAO
ZLTRA1
ZOUTF
ZOUTI
ZRIPPLE
ZSWO
ZSW1
ZTRAO
ZTRA1
ZTXTO
ZTXT1
XSCL
XSDA
XSWO
XSW1
XYSWO
XYSW1
XTRAO
XTRA1
XTXTO
XTXT1
YCAL
YFSH
YPREOUTO
YPREOUT1
YSCL
YSDA
YSWO
YSW1
YTRAO
YTRA1
YTXTO
YTXT1
SERIAL CLOCK X SECTION
SERIAL DATA X SECTION
X SWITCH SIGNAL 0 TRACE/TEXT
X SWITCH SIGNAL 1 TRACE/TEXT
X/Y SWITCH SIGNAL 0 TRACE/TEXT
X/Y SWITCH SIGNAL 1 TRACE/TEXT
X TRACE 0 SIGNAL
X TRACE 1 SIGNAL
X TEXT 0 SIGNAL
X TEXT 1 SIGNAL
AUTOCAL SIGNAL Y DEFLECTION
HF SQ WAVE RESPONSE FINAL Y
Y PREAMPLIFIER OUT 0
Y PREAMPLIFIER OUT 1
SERIAL CLOCK Y SECTION
SERIAL DATA Y SECTION
Y SWITCH SIGNAL 0 TRACE/TEXT
Y SWITCH SIGNAL 1 TRACE/TEXT
Y TRACE 0 OUT FROM DELAY LINE
Y TRACE 1 OUT FROM DELAY LINE
Y TEXT 0 SIGNAL
Y TEXT 1 SIGNAL
DRIVER SIGNAL 0 FOCUS AMPLIFIER
DRIVER SIGNAL 1 FOCUS AMPLIFIER
DRIVER SIGNAL 0 INTENS AMPLIFIER
DRIVER SIGNAL 1 INTENS AMPLIFIER
Z LEVEL TRACE INTENSITY 0
Z LEVEL TRACE INTENSITY 1
FEEDBACK SIGNAL FOCUS AMPLIFIER
FEEDBACK SIGNAL INTENSITY AMPL.
RIPPLE ON NEGATIVE HIGH VOLTAGE
Z SWITCH SIGNAL 0 TEXT/TRACE
Z SWITCH SIGNAL 1 TEXT/TRACE
Z TRACE INTENSITY 0
Z TRACE INTENSITY 1
Z TEXT 0 SIGNAL
Z TEXT 1 SIGNAL
UNIT DESCRIPTIONS
J2002:06 N2002:03
J2001:06 N2002:03
V1204:01 D2001:03
V1203:01 D2001:03
X2501:06 R1204:01
X2501:06 R1201:01
X2501:06 R2004:03
X2501:06 R2006:03
X2501:06 R2063:03
X2501:06 R2064:03
R1309:02 X2501:06
N1003:01 R1146:02
R1147:02
R1061:01 V1101:01
R1059:01 V1102:01
J1002:06 N1001:01
J1001:06 N1001:01
V1202:01 D1001:01
V1201:01 D1001:01
X2101:01 D1001:01
X2102:01 D1001:01
X2501:01 D1001:01
X2501:01 D1001:01
D3001:04 R3101:04
D3001:04 R3103:04
D3001:04 R3203:04
D3001:04 R3201:04
V3062:04 R3004:04
V3061:04 R3006:04
V3113:04 R3171:04
V3213:04 R3271:04
C4061:05 V3001:04
X2501:06 D3001:04
X2501:06 D3001:04
X2501:06 R3063:04
X2501:06 R3064:04
X2501:06 R3007:04
X2501:06 R3008:04
UNIT DESCRIPTIONS
5.2.3 Unit lay-outs A2-200 MHz version
X2401
-58VA2
+58VA2
INTEN-RET
FOCUS-RET
GND-E
ZRIPPLE
±
INTEN-DA
INTEN-AA
FOCUS-AA
AS TIG
FOCUS-DA
X2301
±
INTEN-DA
INTEN-AA
FOCUS-AA
ASTIG
FOCUS-DA
11 □
9 □
7 □
5 □
1 □
□ 12 -58VA2
□ 10 +58VA2
□ 8
- L
□ s ±
□ 4 ±
□ 2 ZRIPPLE
X-DEFLECTION
GN RD
TOX1001 ON SUPPLY A6
LU > ID
^ I ^
X ™ I
, _l .I l e c b
BFQ232
BFQ252
Y-DEFLECT10N
5 . 2 - 7
C C s t r
§ i % z: a
> w S C > nj UJ
§ 5 oo o < < - i O
+ + - H H £ >H 8 2
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50
O
IO
□ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □
Sj □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □ □
1 3 5 7 9 11 13 15 17 19 2 i 23 25 27 29 31 33 35 37 39 41 43 45 47 49
H
T +
Lay-out 1 - Large component side of XYZ amplifier unit A2-200 MHz
UNIT DESCRIPTIONS
5.2.3 Unit lay-outs A2-200 MHz version
X2301
B
A
D
M a
R4O02
R4003 -
- R4004
- | R4007 o o hs
<0 s s 3 3
O
8
R4006
- | R4051 |-
I I
X2402 CM
^
T -
V3134 V3234
D3001 n
>
V2134 | V2234
CO
^
-
D2001
5 6 9 10
TOX1001 ON SUPPLY A6
CM
CL
* -
CL
ID > LU i ~ i n i i 11
> CM i e c b
BFQ232
BFQ252
5 . 2 - 7
X-DEFLECT10N
GN RD
8
Y-DEFLECTION
10 11
D
CO
>
CO
>
8
V2134 |
1
V2234
5 6
D2001
B
X2101
A
X2501
10 11
TO X1002 ONCONNECTOR BOARD A10
T - O O
C C s pc a i s
> < c >
C\J LU i ^ oo o < < —i o
+ + - H H 8 2 2
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50
□ □
1 3
□ □
5 7
□
9
□ □ □ □ □ G □ □ □ G □ □ □ □ □ □ □ □ □ f t
S!
□ □ □ □ □ □ □ □ □ □ u □ □ □ □ □ □ □ □ □ □ □ □ □ □
□
11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49
H H
ST8260
970428
Lay-out 1 - Large component side of XYZ amplifier unit A2-200 MHz
5 . 2 - 8 UNIT DESCRIPTIONS
BFT92 . W1p
Lay-out 2 - Small component side of XYZ amplifier unit A2-200 MHz
I n r - i r-1
C33 d iM d id d iN dQN o e j l
2 6 id€ eSttfG
Orfidfi
»28d€
128JS
0S848 s e s ifl
09S60S o w r a
5 . 2 - 8 UNIT DESCRIPTIONS
3
BCP53
8CP56 c1 a2
8AV99 al.sS
nc a n __ a
T
T
BAS21
BZXS4-C8V2
BZX04-C1B
BZXB4-B24
JSp
Z7p
Y«P
Z74
Lay-out 2 - Small component side of XYZ amplifier unit A2-200 MHz
ST8261
970428
UNIT DESCRIPTIONS
5.2.4 Location list A2-200 MHz version
’-L’ means that the component is located on the side with the large components. Otherwise the component is located on the side with small components.
C2012B7
C2013 B7
C2014B7
C2016 B6
C2017 B6
C2018 B6
C2019B6
C2021 B7
C2022 B7
C2061 A7
C2062 A7
C2081 A6
C2103C6
C2131 C6
C2132 C7
C2133 C6
C2151 C6
C2171 C7
C2172 C7
C2173 C7
C2174 B7
C2176C7
C2177B7
C2203 C7
C2231 C7
C2232 C7
C2233 C7
C2251 C7
C2271 C7
C2272 C7
C2273 C7
C2276 C7
C2277 B7
C2301 D7
C2302 D7
C2303 D7
C2401 B6
C2402 B7
C2403 D6
C2404 D7
C2406 B7
C2407 B6
C2418 D7
C3001 B5
C3002 B4
C3003 B5
C3004 A5
C3006 A5
C3007 A5
C3008 B5
C1001 C11
C1002C11
C1003B11
C1005 B10
C1006 B10
C1007 B10
C1008 C10
C1009C11
C1011 B11
C1012 B11
C1013 B11
C1014 A11
C1016C10
C1018 A10
C1019B10
C1021 C11
C1022 B11
C1114 A9
C1121 C9
C1122 B9
C1123 D9
C1301 B8
C1302 B8
C2001 B6
C2002 B6
C2003 B6
C2004 A7
C2006 A7
C2007 A7
C2008 B7
C1023 A10
C1024C10
C1025C10
C1026 A10
C1027 A10
C1029B10
C1101 B9
C1102 B9
C1103C9
C1104 B9
C1106 C8
C1107 B8
C1108 C9
C1109 B9
C1110B9
C1111 D10
C1112C9
C1113B9
C2009 B7
C2011 B7
C5201 A6
C5206 A6
C5211 A6
C5216 A7
C5221 A6
C5226 D7
C5231 D7-L
C5232 D7
C5236 D6-L
C5238 D6
C5251 A6
C5301 A5
C5306 A5
C5311 A5
C5316 A5
C5321 A6
C5002 D11-L
C5003 D11-L
C5004 D11-L
C5007 D10-L
C5008 D10-L
C5011 D6
C5012D6
C5101 C10
C5106C10
C5111 C10
C5116 C10
C5121 C10
C5126C10
C5136 B11
C5138C10
C5151 B11
C5322 D5
C5326 D5
C5331 D5-L
C5332 D5
C5336 D5-L
C5338 D5
C5351 A5
C5411 D9
C5416D9
D1001 B10-L
D2001 B7-L
D3001 B5-L
L1101 B8
L1102 B8
N1001 A11
N1002C11
N1003 A9
N1004 D9
C3402 B6
C3403 C4
C3404 C6
C3406 B4
C3407 B6
C3418 C5
C4001 D2
C4002 D2
C4003 D2
C4004 C2-L
C4031 D2
C4032 D3
C4033 D3
C4034 D2
C4036 C3-L
C4037 C2-L
C4051 D2
C4061 C3-L
C4062 D2
C5001 D11-L
C3009 B5
C3011 B5
C3013B6
C3014 B5
C3016 B5
C3017B4
C3018B4
C3019 B4
C3021 B5
C3061 A5
C3103 C4
C3131 C5
C3132C5
C3133 C5
C3151 C4
C3171 C5
C3172 C5
C3173 B5
C3176 B5
C3203 C5
C3231 C5
C3232 C5
C3233 C5
C3251 C5
C3271 C5
C3272 C5
C3273 B5
C3276 B5
C3281 D6-L
C3401 B4
5 . 2- 9
5.2-10
R1039B10
R1041 A10
R1042 A10
R1043 B11
R1044 B11
R1046 A10
R1047 A10
R1048A10
R1049 A10
R1051 B10
R1052 A10
R1053 A10
R1059 B10
R1061 B10
R1063 B10
R1064B10
R1066 B10
R1071 B11
R1072C10
N2002 A6
N2003 D8
N5131 A11
R1001 C11
R1002 C11
R1003C11
R1004C11
R1005 B11
R1006 B11
R1007 B11
R1008 B11
R1009C11
R1010B11
R1011 C11
R1012C11
R1013C11
R1014 B11
R1015 B10
R1016B11
R1017B10
R1018B10
R1019B10
R1020C10
R1021 B10
R1022 B11
R1023C11
R1024B10
R1026 B10
R1027C10
R1028C10
R1029C11
R1031 C11
R1032 B10
R1034 B10
R1036 B10
R1037B11
R1038 B11
R1105 B9
R1106 C9
R1107 B9
R1108 B9
R1109C9
R1111 C9
R1112 B9
R1113C9
R1114B9
R1116 B9
R1117C9
R1118C8
R1121 C8
R1122 B8
R1123 C8
R1124B8
R1126 B8
R1127 B8
R1128 B8-L
R1129 C8-L
R1131 C8-L
R1132 A8-L
R1133 C8-L
R1134 A8-L
R1136 B8-L
R1137 C8-L
R1138 B8
R1139 C8
R1140 C9
R1141 C9-L
R1142 B9-L
R1143 B9
R1144B9
R1145 B9
R1146B9
R1147B9
R1148B9
R1149 C9
R1150 B9
R1151 C10
R1152C9
R1073C10
R1074C10
R1076B11
R1077C10
R1078 C10
R1079B10
R1081 B11
R1082 A11
R1083 B11
R1084C9
R1086 B9
R1101 C9
R1102 B9
R1103 C9
R1104 C9
R1308 D9
R1309 D9
R1311 D9
R1312 D8
R1313 D9
R2001 A7
R2002 A7
R2003 B6
R2004 A6
R2006 A7
R2007 A7
R2008 A7
R2009 B7
R2011 A7
R2012 A7
R2013 A7
R1174B8
R1176 C9
R1177 B9
R1178 C8-L
R1179 B8-L
R1181 C8-L
R1182 B8-L
R1201 A9
R1202 A9
R1203 A9
R1204 A9
R1206 A9
R1207 A9
R1208 B7
R1209 A7
R1301 B8
R1302 B8
R1303 D8
R1304 D8
R1306 D9
R1307 D9
R1153 D9
R1154 D9
R1155 B9
R1156C10
R1157 D8
R1158 A9
R1159A9
R1161 C8
R1162 C8
R1163 C8
R1164D10
R1166 D9
R1167 B9
R1168 C9
R1169 D10
R1170 D8
R1171 C8
R1172 B9
R1173 C9
UNIT DESCRIPTIONS
R2068 A7
R2101 B6
R2102 B6
R2103 B6
R2104 B6
R2107 C6
R2111 C6
R2112 D6
R2113C6
R2131 C6
R2132 C6
R2133 C6
R2134C6
R2136 C6
R2137 C7
R2138 C7
R2151 D6
R2161 C7
R2171 B7-L
R2172 B7
R2176 B6
R2177 B6
R2201 B7
R2202 B7
R2203 B7
R2204 B7
R2207 C7
R2211 C7
R2212 D7
R2214C7
R2231 C7
R2232 C7
R2233 C7
R2234 C7
R2236 C7
R2237 C7
R2238 C7
R2251 D7
R2261 C7
R2271 B7-L
R2272 B7
R2014 A7
R2015 B7
R2016 A7
R2017 A7
R2018 B7
R2020 B7
R2021 B7
R2023 B6
R2024 B6
R2026 B7
R2063 A7
R2064 A7
R2065 A7
R2066 A7
R2067 A7
UNIT DESCRIPTIONS
R2404 D7
R2406 D7
R2411 C6
R2412C7
R2416D6
R2417D7
R3001 B5
R3002 B5
R3003 B4
R3004 A5
R3006 A5
R3007 A5
R3008 A5
R3009 B6
R3011 B5
R3012 B5
R2276 B7
R2277 B7
R2301 D7
R2302 D7
R2303 D8
R2304 D8
R2306 D8
R2307 D8
R2308 D8
R2309 D8
R2311 D8
R2312 D8
R2313D8
R2401 C6
R2402 C7
R2403 D6
R3013 A4
R3014A4
R3015 A4
R3018B5
R3021 B5
R3024 B4
R3026 B5
R3063 A5
R3064 A5
R3066 A5
R3067 A5
R3068 A5
R3069 A5
R3101 B5
R3102 B5
R3103 B5
R3104 B4
R3107 C4
R3111 C4
R3112C5
R3113C5
R3131 C4
R3132 C4
R3133 C5
R3134 C5
R3136 C5
R3137 C5
R3138 C5
R3151 C5
R3161 C5
R3171 B5-L
R3176 B5
R3201 B5
R3202 B5
R3203 B5
R3204 B6
R3207 C6
R3211 C6
R3212 C5
R3213C5
R3231 C5
R3232 C5
R3233 C5
R3234 C5
R3236 C5
R3237 C5
R3238 C5
R3251 C5
R3261 C5
R3271 B5-L
R3276 B5
R3281 D6
R3282 D5
R3301 D4
R3302 D4
R3311 D5
R3312 D5
R3313 D4
R3314 D5
R3316 D5
R3401 B4
R3402 B6
R3403 D5
R3404 D6
R3411 C5
R3412C5
R3416 D5
R3417 D5
R4001 D2
R4002 C2-L
R4003 C2-L
R4004 C2-L
R4006 C2-L
R4007 D2-L
R4008 D2
R4009 D2
R4031 D2
R4032 D2
R4033 D2
R4034 D2
R5206 A6
R5211 A6
R5216 A6
R5221 D6
R5226 D6
R5231 D7
R5236 D7
R5251 A6
R5301 A5
R5306 A5
R5311 A6
R5316 A5
R5321 D6
R5326 D6
R5331 D5
R5336 D5
R5351 A5
R5411 D10
R5416D9
V1009B11
V1011 B11
V1014 A10
V1016 A10
R4036 D2
R4037 D3
R4038 D2
R4039 D2
R4040 D3
R4041 D2
R4042 D2
R4043 D3
R4044 C2
R4045 C3
R4051 C2-L
R5001 D11
R5002 D11
R5003 D11
R5004D11
R5007D10
R5008 D10
R5101 D10
R5106 D10
R5111 C10
R5116 C10
R5121 D10
R5126 D10
R5131 A11
R5132 A11
R5133 A11
R5134 A11
R5136 B11
R5137B11
R5138 B11
R5139 B11
R5151 A11
R5201 A6
V1018C10
V1019 C10
V1021 C10
V1022 B10
V1023 B10
V1024 B10
V1101 C9
V1102 B9
V1103 C9
V1104B9
V1106C9
V1107 B9
V1108 C8-L
V1109 B8-L
V1111 C8
V1112 B8
V1113 B9
V1121 C9
V1122 C9
V1123C9
V1126 C8
V1127 D9
V1128 D9
V1201 A9
V1202 A9
V1203 A7
V1204 A7
V1301 D8
V2019 B6
V2061 A7
V2062 A7
V2101 C6
V2102 C6
V2103 C6
V2104 B6
V2111 C6
V2113C6-L
V2131 C6
V2132 C6
V2133 C6
V2134C7-L
V2201 C7
V2202 C7
V2203C7
V2204 B7
V2211 C7
V2213C7-L
V2231 C7
V2232 C7
V2233 C7
V2234 C7-L
V2301 D7
V2403 D7
V2418 D7
V3001 A4
V3002 A4
5.2 - 11
5.2-12
V3061 A5
V3062 A5
V3101 B4
V3102 C4
V3103 C4
V3104B4
V3111 C4
V3113C5-L
V3131 C4
V3132 C4
V3133 C4
V3134 C5-L
V3136 D5
V3137 D5
V3201 B5
V3202 C6
V3203 C6
V3204 B5
V3211 C6
V3212 D5
V3213 C5-L
V3231 C6
V3232 C5
V3233 C5
V3234 C5-L
V3236 D5
V3237 D5
V3281 D6
V3282 D6
V3301 D4
V3311 D5
V3312D5
V3418 D5
V4001 D2
V4002 D2
V4003 C2
V4004 C2
V4031 D2
V4032 D3
V4033 D2
V4034 D2
V4036 D2
V4037 D2
V4038 D3
V4039 D3
UNIT DESCRIPTIONS
V4040 D3
V4041 D3
V4042 D3
V4043 C3
V4044 C3
V5001 D6
V5002 D6
X2101 A11-L
X2301 D4-L
X2401 D2-L
X2402 B3-L
X2403 B3-L
X2501 A10-L
UNIT DESCRIPTIONS
5.2.5 Circuit diagrams A2-200 MHz version
5. 2- 13
UNIT DESCRIPTIONS
5.2.5 Circuit diagrams A2-200 MHz version
0501/22
5. 2- 13
5.2- 14 UNIT DESCRIPTIONS
A2 (200 MHz) - Diagram 2 ; Final Y output stage
5.2 - 14 UNIT DESCRIPTIONS
A2 (200 MHz) - Diagram 2 ; Final Y output stage
STB263
970428
UNIT DESCRIPTIONS
| DC LEVEL SHIFT X-TEXT |
LOCAL SUPPLY FILTERING
-50 XN
-36XR
5.2- 15
A2 (200 MHz) - Diagram 3 ; Final X preamplifier and control
UNIT DESCRIPTIONS
FINAL X-AMPL DRIVER
XZPREAM P
VCVF
CALL
OUTV
OUTIN
CHL
AHL
AW cw
Ol/TAP oum*
BUOF
| DC LEVEL SHIFT X-TE x T~|
LOCAL SUPPLY FILTERING
+12XND
+10XREF
J2001
_ XSDA
_ XSCL
J2002
_
C2O01 ■ to n
1
10
8 e
2
3
4
5
6
7
N20Q2
TDAB444
OCT6B DAC
10
15
14
13
20
19
18
17
XCRTOFH
XCRTOR
XCRTGCH
XCRTGCL
XTRAGC
XHFADJ
DARK
11 ASTDR _
~
_
_
I
I
Z
Z
-50 XN
•30 XR
+10OTEF
+5XN0
C2177 ape
C217S
33p
R2172 R2171 MRS25
C2277 spa
C2278
33p
+12XND +1CXND
■+12XND + 1BXND
5.2- 15
A2 (200 MHz) - Diagram 3 ; Final X preamplifier and control
AC20mV
DC:-10V
AC:80mV
OCMOV
5.2- 16 UNIT DESCRIPTIONS
A2 (200 MHz) - Diagram 4 ; Final Z amplifier
AC:60mV
DC:-1CV
R3311
511E
M20Q2/11
AST03
R3313
1 2 KB 7
V3311
R3CB6
\4KB4
+102REF
+SZNO
+102BEF
5 .2 -1 6 UNIT DESCRIPTIONS
FINAL Z-AMPUFIER
ENDSTAGE FOCUS
JL
R3132 1 1
5K11 1 1
V3133
1 1 R3136
1 I 1K7B
■ u
C3132
:
“ lOOn n o t u s e :
R3101 R31Q2
21E5
V3101
BFB24
V3106
BZXB4
C l 2
71 ±
V3131
BAVQO
-w -
R3131
1 21S >
I
< n
R3134
!4K7
D
M J r \ V3132
V W 8FB24 n
’9ZF
-28ZF
” 1,) /Q C "
1^’B I--- »
D;
Hh
R3107
237E
□ "-D
V3113
BFQ232A
AC: 6V oc-^ov
UNIT DESCRIPTIONS 5 .2 -1 7
A2 (200 MHz) - Diagram 5 ; Modulator/demodulator and focus control
UNIT DESCRIPTIONS
X2401
FO C U S L i
5 .2 -1 7
A2 (200 MHz) - Diagram 5 ; Modulator/demodulator and focus control
R5001 R51C1
R50Q2 R5106 R5004 R5116 x
. -12VA2
. +12VA2
X x.
> -5VA2
» +5VA2
CAL
CAL
CAL
XSDA
L r
28
30
24
26
20
22
16
18
32
34
36
48
48
50
42
44
38
40
X2501
2
4
6 e
10
12
14 n
XL
XL
1
1
1
1
1
1
1
XTXT1
ZTXTO
XTRA1
ZSWO
Z7RA1
YTXT1
XCAL
YCAL
SCL
FOCUS-DA
_
_
_
_
_
XYSWO _
_
_
_
_
+ 12A2
4 12YND
+ -2XND
5 .2 -1 8
RS007 R5121
R5008 RS126
UNIT DESCRIPTIONS
+50VA2
-58 X N D
•5 8 Z N O
I
+ 10YXZREF SUPPLY
R5131 R5151
| -7Y-END SUPPLY |
C5136
10n
A2 (200 MHz) - Diagram 6 ; Supply circuits
SCREW CO NNECTIO N
TO SHIELDWG-PLATE
GRPIN
I
FOCUS-OA
2RIPPLE
ASTIG
FOCUS-AA
INTCN-AA
INTEN-OA
+50VA2
-58VA2
I
I
I
I
L
0
9
10
11
12
<
<
<
<
<
<
<
<
<
<
<
<
TO A2-SUB
X2402
REF NR
NE131
TYPE
LM358
-12YNO +-18YND
ST8267
970428
8
5 ii
8 §
HI—I
&
Hl-H s
HI—I
i *
HI—I
g I %
S 5 S
I 1
H
8 3
H r l r H
8 8 S 3> 5 5
. J
* g if j
■ r r ft $3 S5 8
H H a s
5 ^ 3 r l r l H
5 ? ®
?
H
■ n
^ + t2 A 2
— _______________ + 12YND
CS111
10n
^ -‘-.■avKin
^ CS211
10n
^ -‘-iQ T u n
^ CS311
10n
^ CS411 io n
-
C5116 lOn
^
■ ...
C5216
10n
^ . i w i j r
^ - i a x N o ipo
— --------------------------- ► -12CN0
X C5416 lO n
5 .2 -1 8
R5007 R5121
R5008 R5126
+ 10YXZREF SUPPLY
R5131 R5151
-58VA2
J1002
-7Y-END SUPPLY
C5136 lO n
UNIT DESCRIPTIONS
58VA2
58XND
•582ND
-58VA2
-58XND
58ZNO
SCREW CO NNECTIO N
TO SHIELDWQ-P LATE
GRPiN
I
FOCUS-OA
2BIPPLE
AS TIG
FOCUS-AA
IWTEN-AA
IWTEN-OA
+58VA2
-58VA2 x x
X
X
L
2
3
5
6
9
10
11
12
<
<
<
<
<
<
<
<
<
<
<
<
TO A2-SUB
X2402
REF NR
M5131
TYPE
LM350
-12YND + 18 Y N 0
8
ST8267
970428
A2 (200 MHz) - Diagram 6 ; Supply circuits
UNIT DESCRIPTIONS
Item Description
5.2.6 Parts list A2-200 MHz version
MECHANICAL
0001
0003
0004
A202
CABLE,CONNECT.
CABLE,CONNECT.
CABLE,CONNECT.
BOARD,PRINTED
C1021
C1022
C1023
C1024
C1025
C1026
C1027
C1029
C1101
C1102
C1103
C1104
C1106
C1107
C1108
C1109
C1110
C1111
C1112
C1113
C1114
C1121
C1122
C1123
C1301
CAPACITORS
C1001
C1002
C1003
C1005
C1006
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
C1007
C1008
C1009
C1011
C1012
C1013
C1014
C1016
C1018
C1019
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
ASSY CABLE CRT
ASSY CABLE CRT
ASSY CABLE CRT
FINAL X-Y-Z UNIT A2
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 0.25PF 3.9PF
AP 63V 5% 470PF
AP 63V 5% 150PF
AP 63V 5% 10PF
AP 63V 10% 100NF
AP 63V 0.5PF 6.8PF
AP 63V 5% 56PF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 0.25PF 2.2PF
AP 63V 0.25PF 2.2PF
AP 63V 5% 56PF
AP 63V 5% 56PF
AP 63V 5% 56PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 0.25PF 3.9PF
AP 63V 0.25PF 3.9PF
AP 63V 0.25PF 0.68PF
AP 63V 0.25PF 0.68PF
AP 63V 10% 22NF
AP 63V 10% 22NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V0.25PF 1.8PF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 470PF
AP 63V 5% 10PF
AP 63V 5% 10PF
AP 63V 10% 100NF
AP 63V 5% 220PF
Ordering code
5 .2 -1 9
5322 321 62202
5322 321 62198
5322 321 62199
5322 216 04244
5322 122 34098
5322 122 34098
5322 122 31944
5322 122 32268
5322 122 33538
5322 122 32448
4822 122 33496
5322 122 32269
5322 122 32661
4822 122 33496
4822 122 33496
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 33063
5322 122 33063
5322 122 32661
5322 122 32661
5322 122 32661
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 31944
5322 122 31944
4822 126 12342
4822 126 12342
5322 122 32654
5322 122 32654
4822 122 33496
4822 122 33496
5322 126 10343
5322 122 34098
4822 122 33496
4822 122 33496
5322 122 32268
5322 122 32448
5322 122 32448
4822 122 33496
4822 122 33575
5.2 - 20
C2232
C2233
C2251
C2271
C2272
C2273
C2276
C2277
C2301
C2302
C2133
C2151
C2171
C2172
C2173
C2174
C2176
C2177
C2203
C2231
C2018
C2019
C2021
C2022
C2061
C2062
C2081
C2103
C2131
C2132
C2303
C2401
C2402
C2403
C2404
Item
C1302
C2001
C2002
C2003
C2004
C2006
C2007
C2008
C2009
C2011
C2012
C2013
C2014
C2016
C2017
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
AP 63V 10% 100NF
AP 63V 5% 1NF
AP 63V 0.25PF 1.2PF
AP 63V 5% 220PF
AP 63V0.25PF 1.2PF
AP 63V 5% 1NF
AP 63V 5% 33PF
AP 63V 0.5PF 6.8PF
AP 63V 10% 100NF
AP 63V 5% 1NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 1 NF
AP 63V 0.25PF 1.2PF
AP 63V 5% 220 PF
AP 63V 0.25PF 1.2PF
AP 63V 5% 33PF
AP 63V 0.5PF 6.8PF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 5% 220PF
AP 63V 10% 10NF
AP 63V 10% 220NF
AP 63V 10% 10NF
AP 63V 5% 10PF
AP 63V 5% 22PF
AP 63V 5% 10PF
AP 63V 10% 10NF
AP 63V 10% 220NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 5% 56PF
AP 63V 5% 56PF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 5% 1NF
AP 63V 10% 100NF
UNIT DESCRIPTIONS
Ordering code
4822 122 33575
5322 122 34098
4822 122 32916
5322 122 34098
5322 122 32448
5322 122 32658
5322 122 32448
5322 122 34098
4822 122 32916
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32661
5322 122 32661
5322 122 34098
4822 122 33496
5322 126 10511
4822 122 33496
4822 122 33496
5322 126 10511
5322 122 33537
4822 122 33575
5322 122 33537
5322 126 10511
5322 122 32659
5322 122 32269
4822 122 33496
5322 126 10511
4822 122 33496
4822 122 33496
5322 126 10511
5322 122 33537
4822 122 33537
5322 122 33537
5322 122 32659
5322 122 32269
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
UNIT DESCRIPTIONS
Item
C2406
C2407
C2418
C3001
C3002
C3017
C3018
C3019
C3021
C3061
C3103
C3131
C3132
C3133
C3151
C3171
C3172
C3173
C3176
C3203
C3003
C3004
C3006
C3007
C3008
C3009
C3011
C3013
C3014
C3016
C3402
C3403
C3404
C3406
C3407
C3418
C4001
C4002
C4003
C4004
C3231
C3232
C3233
C3251
C3271
C3272
C3273
C3276
C3281
C3401
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.FOIL
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 10% 220NF
AP 63V 10% 10NF
AP 63V 5% 10PF
AP 63V 5% 22PF
AP 63V 5% 22PF
AP 63V 10% 10NF
AP 63V 10% 220NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 5% 100PF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 5% 100PF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 5% 10PF
AP 63V 10% 100NF
AP 63V 5% 1NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 1NF
AP 63V 0.25PF 2.2PF
AP 63V 5% 220PF
AP 63V 0.25PF 2.2PF
AP 63V 0.25PF 2.2PF
AP 63V 10% 100NF
AP 63V 5% 1NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 5% 1NF
AP 63V 0.25PF 2.2PF
AP 63V 5% 220PF
AP 63V 0.25PF 2.2PF
AP 63V 0.25PF 2.2PF
25V 20% 470UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 100NF
AP 63V 10% 10NF
AP 63V 5% 10PF
AP 63V0.25PF 1.5PF
-10+10% 2.2NF
5.2 - 21
Ordering code
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 34098
4822 122 32916
5322 122 34098
5322 122 32448
5322 122 32658
5322 122 32658
5322 122 34098
4822 122 32916
5322 122 34098
5322 122 34098
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 32448
4822 122 33496
5322 126 10511
4822 122 33496
4822 122 33496
5322 126 10511
5322 122 33063
4822 122 33575
5322 122 33063
5322 122 33063
4822 122 33496
5322 126 10511
4822 122 33496
4822 122 33496
5322 126 10511
5322 122 33063
4822 122 33575
5322 122 33063
5322 122 33063
5322 121 43885
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 34098
5322 122 32448
5322 126 10225
5322 122 33851
5.2 - 22
Item
C5116
C5121
C5126
C5136
C5138
C5151
C5201
C5206
C5211
C5216
C5221
C5226
C5231
C5232
C5236
C5238
C5251
C5301
C5306
C5311
C5316
C5321
C5322
C5326
C5331
C5332
C5336
C5338
C5351
C5411
C5416
C5002
C5003
C5004
C5007
C5008
C5011
C5012
C5101
C5106
C5111
C4031
C4032
C4033
C4034
C4036
C4037
C4051
C4061
C4062
C5001
AP 63V 10% 4.7NF
AP 63V 10% 100NF
AP 63V 10% 100NF
AP 63V 10% 10NF
-10+10% 2.2NF
-10+10% 2.2NF
AP 63V 10% 10NF
-10+10% 2.2NF
AP 63V 5% 470PF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 22NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
100V 20% 27UF
AP 63V 10% 10NF
100V 20% 27UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
100V 20% 27UF
AP 63V 10% 10NF
100V 20% 27UF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
AP 63V 10% 10NF
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.
CAP.
CAP.CHIP
CAP.
CAP.CHIP
CAP.ELECTROLYT.
CAP. ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
UNIT DESCRIPTIONS
Ordering code
5322 126 10223
4822 122 33496
4822 122 33496
5322 122 34098
5322 122 33851
5322 122 33851
5322 122 34098
5322 122 33851
5322 122 32268
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32654
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42193
5322 122 34098
5322 124 42193
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42193
5322 122 34098
5322 124 42193
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
UNIT DESCRIPTIONS 5.2 - 23
COILS
L1101
L1102
L1103
L1107
L1108
L5231
L5236
L5331
L5336
Item Description
INTEGRATED CIRCUITS
D1001
D2001
D3001
N1001
N1002
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
N1003
N1004
N2002
N2003
N5131
INTEGR.CIRCUIT
I.C. ANALOGUE
INTEGR.CIRCUIT
I.C. ANALOGUE
INTEGR.CIRCUIT
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
RESISTORS
R1001
R1002
R1003
R1004
R1005
R1006
R1007
R1008
R1009
R1010
R1011
R1012
R1013
R1014
R1015
R1016
R1017
R1018
R1019
R1020
R1021
R1022
R1023
R1024
R1026
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.MET.GLAZED
RES.MET.GLAZED
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
OQ0230 FINAL Y AM PL
OQ0229 FINAL X-Z AMP
OQ0229 FINAL X-Z AMP
TDA8444AT/N2 PEL
LM358M NSC
LM324M NSC
OP-77GSR PMI
TDA8444AT/N2 PEL
OP-77GSR PMI
LM358M NSC
0.082UH 5% TDK
0.082UH 5% TDK
0.27UH 5% TDK
0.027UH 5% TDK
0.027UH 5% TDK
1UH 5% TDK
1UH 5% TDK
1UH 5% TDK
1 UH 5% TDK
HIP RC-02H 1% 215K
HIP RC-02H 1% 100K
HIP RC-02H 1% 215K
HIP RC-02H 1% 100K
RMC1/8 1 % 28E7
HIP RC-02H 1% 1K96
HIP RC-02H 1% 100K
HIP RC-02H 1% 100K
HIP RC-02H 1% 215K
HIP RC-02H 1% 1K
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1 % 261E
HIP RC-02H 1% 4K64
RMC1/8 1% 31E6
HIP RC-02H 1% 1K1
RMC1/8 1 % 46E4
RMC1/8 1 % 46E4
HIP RC-02H 1 % 4K64
HIP RC-02H 1% 1K1
RMC1/8 1% 31E6
HIP RC-02H 1% 261E
HIP RC-02H 1% 121E
HIP RC-02H 1% 121E
Ordering code
5322 209 12467
5322 209 12459
5322 209 12459
5322 209 30233
4822 209 60175
5322 209 61473
5322 130 62791
5322 209 30233
5322 130 62791
4822 209 60175
5322 157 63382
5322 157 63382
5322 157 70204
5322 157 70857
5322 157 70857
5322 157 63648
5322 157 63648
5322 157 63648
5322 157 63648
5322 11710543
4822 051 10104
5322 117 10543
4822 051 10104
5322 111 92015
5322 117 10539
4822 051 10104
4822 051 10104
5322 117 10543
4822 051 10102
5322 117 10543
5322 11710543
5322 11710543
4822 051 52611
4822 051 54642
5322 11711732
4822 051 51102
5322 116 82896
5322 116 82896
4822 051 54642
4822 051 51102
5322 117 11732
4822 051 52611
5322 117 10519
5322 117 10519
5.2 - 24
R1046
R1047
R1048
R1049
R1051
R1052
R1053
R1059
R1061
R1063
R1064
R1066
R1071
R1072
R1073
Item
R1027
R1028
R1029
R1031
R1032
R1034
R1036
R1037
R1038
R1039
R1041
R1042
R1043
R1044
R1074
R1076
R1077
R1078
R1079
R1081
R1082
R1083
R1084
R1086
R1101
R1102
R1103
R1104
R1105
R1106
R1107
R1108
R1109
R1111
Description
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
HIP RC-02H 1% 121E
HIP RC-02H 1% 121E
HIP RC-02H 1% 178E
HIP RC-02H 1% 178E
HIP RC-02H 1% 2K37
HIP RC-02H 1% 100K
HIP RC-02H 1% 6K81
HIP RC-02H 1% 261E
HIP RC-02H 1% 261E
HIP RC-02H 1% 147E
HIP RC-02H 1% 19K6
HIP RC-02H 1% 19K6
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 162K
HIP RC-02H 1% 21K5
HIP RC-02H 1% 21K5
HIP RC-02H 1% 11K
HIP RC-02H 1% 28K7
HIP RC-02H 1 % 23K7
HIP RC-02H 1% 34K8
HIP RC-02H 1% 10K
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-02H 1 % 3K83
HIP RC-02H 1% 100E
HIP RC-02H 1% 1K
HIP RC-02H 1 % 3K83
HIP RC-02H 1% 90E9
HIP RC-02H 1% 100E
HIP RC-02H 1% 681E
HIP RC-02H 1% 3K83
HIP RC-02H 1% 5K11
RMC1/8 1% 51 El
RMC1/8 1% 51E1
HIP RC-02H 1 % 464E
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 147E
HIP RC-02H 1% 147E
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 5K11
HIP RC-01 5% 3E3
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-02H 1% 316E
HIP RC-02H 1% 316E
RMC1/8 1% 75E
RMC1/8 1 % 75E
HIP RC-01 5% 14E7
UNIT DESCRIPTIONS
Ordering code
5322 117 10519
5322 117 10519
5322 117 10534
5322 117 10534
5322 117 10545
4822 051 10104
5322 117 10581
4822 051 52611
4822 051 52611
5322 117 10526
5322 117 10541
5322 117 10541
5322 117 10487
5322 117 10533
5322 117 10542
5322 117 10542
4822 051 10113
5322 117 10551
5322 117 10546
5322 117 10558
4822 051 10103
4822 051 10108
4822 051 10108
5322 117 10561
4822 051 10101
4822 051 10102
5322 117 10561
5322 117 12557
4822 051 10101
5322 117 10579
5322 117 10561
5322 117 10487
5322 111 91893
5322 111 91893
5322 117 10567
4822 051 10103
4822 051 10103
5322 117 10526
5322 11710526
5322 117 10487
5322 117 10487
4822 051 10338
4822 051 10108
4822 051 10108
5322 117 10552
5322 117 10552
4822 111 91937
4822 111 91937
5322 117 12555
UNIT DESCRIPTIONS
R1138
R1139
R1140
R1141
R1142
R1143
R1144
R1145
R1146
R1147
R1126
R1127
R1128
R1129
R1131
R1132
R1133
R1134
R1136
R1137
Item
R1112
R1113
R1114
R1116
R1117
R1118
R1121
R1122
R1123
R1124
R1148
R1149
R1151
R1152
R1153
R1154
R1155
R1156
R1157
R1158
R1159
R1161
R1162
R1163
R1164
R1166
R1167
R1168
R1169
R1170
Description
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
HIP RC-01 5% 14E7
HIP RC-02H 1% 121E
HIP RC-02H 1% 121E
HIP RC-02H 1% 287E
HIP RC-02H 1 % 287E
RMC1/8 1% 10E
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 51E1
HIP RC-01 5% 51E1
HIP RC-02H 1 % 1K33
HIP RC-02H 1% 1K33
ST MRS25 1% 34E8
ST MRS25 1% 34E8
ST MRS25 1% 34E8
ST MRS25 1% 34E8
ST MRS25 1% 34E8
ST MRS25 1% 34E8
ST MRS25 1% 34E8
ST MRS25 1% 34E8
RMC1/8 1% 10E
RMC1/8 1% 10E
HIP RC-02H 1% 316K
STMRS25 1% 1K27
ST MRS25 1% 1K27
HIP RC-01 5% 14E7
HIP RC-01 5% 14E7
HIP RC-02H 1% 316K
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1% 619E
HIP RC-02H 1% 619E
HIP RC-02H 1% 215E
RMC1/8 1 % 28E7
RMC1/8 1 % 28E7
HIP RC-01 5% 4E7
HIP RC-02H 1% 511E
HIP RC-02H 1% 1K78
HIP RC-02H 1 % 383E
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
RMC1/8 1 % 28E7
RMC1/8 1% 28E7
HIP RC-02H 1% 909E
HIP RC-02H 1% 3K16
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-01 5% 1E
HIP RC-02H 1% 383E
5.2 - 25
Ordering code
5322 11712555
5322 117 10519
5322 117 10519
4822 051 52871
4822 051 52871
4822 111 91885
4822 051 10478
4822 051 10478
5322 117 11737
5322 117 11737
5322 117 10524
5322 117 10524
4822 050 23489
4822 050 23489
4822 050 23489
4822 050 23489
4822 050 23489
4822 050 23489
4822 050 23489
4822 050 23489
4822 111 91885
4822 111 91885
5322 117 10555
4822 050 21272
4822 050 21272
5322 117 12555
5322 11712555
5322 117 10555
5322 117 10543
5322 11710543
5322 117 10576
5322 117 10576
5322 117 10484
5322 111 92015
5322 111 92015
4822 051 10478
5322 117 10569
5322 117 10535
5322 117 10559
4822 051 10103
4822 051 10103
4822 051 10103
5322 111 92015
5322 111 92015
5322 117 10588
5322 117 10553
4822 051 10103
4822 051 10103
4822 051 10108
5322 117 10559
5.2 - 26
Item
R1171
R1172
R1173
R1174
R1176
R1177
R1178
R1179
R1181
R1182
R1201
R1202
R1203
R1204
R1206
R1207
R1208
R1209
R1301
R1302
R1303
R1304
R1306
R1307
R1308
R2008
R2009
R2011
R2012
R2013
R2014
R2015
R2016
R2017
R2018
R2020
R2021
R2023
R2024
R2026
R1309
R1311
R1312
R1313
R2001
R2002
R2003
R2004
R2006
R2007
Description
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
RMC1/8 1% 51E1
HIP RC-02H 1% 100K
HIP RC-02H 1% 100K
RMC1/8 1% 51E1
HIP RC-02H 1% 2K37
HIP RC-02H 1% 2K37
HIP RC-02H 1% 3K16
HIP RC-02H 1% 1K78
HIP RC-02H 1% 51K1
HIP RC-02H 1% 51K1
HIP RC-02H 1% 162K
HIP RC-02H 1% 162K
HIP RC-02H 1 % 51K1
HIP RC-02H 1% 51K1
HIP RC-02H 1% 28K7
HIP RC-02H 1% 750E
HIP RC-02H 1% 21K5
HIP RC-02H 1% 215K
HIP RC-02H 1 % 7K5
HIP RC-02H 1% 16K2
HIP RC-02H 1% 12K1
HIP RC-02H 1% 1K
RMC1/8 1% 51E1
RMC1/8 1% 51E1
HIP RC-02H 1% 1K47
HIP RC-02H 1% 1K47
HIP RC-02H 1% 1K
HIP RC-02H 1% 6K81
HIP RC-02H 1% 215K
HIP RC-02H 1% 1K96
HIP RC-02H 1% 4K64
HIP RC-02H 1% 1K
HIP RC-02H 1% 10K
HIP RC-02H 1% 316K
HIP RC-02H 1% 46K4
HIP RC-02H 1% 14K7
HIP RC-02H 1 % 46K4
HIP RC-02H 1% 14K7
HIP RC-02H 1% 10K
HIP RC-02H 1 % 4K64
UNIT DESCRIPTIONS
Ordering code
5322 117 10543
5322 117 10543
5322 117 10543
5322 117 10543
4822 051 10103
4822 051 10103
5322 117 10543
5322 117 10543
5322 117 10543
5322 117 10543
5322 111 91893
4822 051 10104
4822 051 10104
5322 111 91893
5322 117 10545
5322 117 10545
5322 117 10553
5322 117 10535
4822 051 55113
4822 051 55113
5322 117 10533
5322 117 10533
4822 051 55113
4822 051 55113
5322 117 10551
5322 117 10582
5322 11710542
5322 117 10543
5322 117 10583
5322 117 10532
5322 117 10522
4822 051 10102
5322 111 91893
5322 111 91893
5322 117 10527
5322 117 10527
4822 051 10102
5322 117 10581
5322 117 10543
5322 117 10539
4822 051 54642
4822 051 10102
4822 051 10103
5322 117 10555
5322 117 10486
5322 117 10528
5322 117 10486
5322 117 10528
4822 051 10103
4822 051 54642 v
UNIT DESCRIPTIONS
Item
R2063
R2064
R2065
R2066
R2067
R2137
R2138
R2151
R2161
R2171
R2172
R2176
R2177
R2201
R2202
R2203
R2205
R2204
R2207
R2211
R2068
R2101
R2102
R2103
R2104
R2105
R2107
R2111
R2112
R2113
R2131
R2132
R2133
R2134
R2136
R2212
R2214
R2231
R2232
R2233
R2234
R2236
R2237
R2238
R2251
R2261
R2271
R2272
R2276
R2277
Description
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
HIP RC-02H 1% 100E
HIP RC-02H 1 % 100E
HIP RC-02H 1% 2K87
HIP RC-02H 1% 2K87
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 51E1
RMC1/8 1% 21E5
RMC1/8 1% 51E1
HIP RC-02H 1 % 422E
HIP RC-02H 1% 237E
HIP RC-02H 1 % 237E
RMC1/8 1% 21E5
HIP RC-02H 1% 383E
RMC1/8 1% 10E
RMC1/8 1% 21E5
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 14K7
HIP RC-02H 1% 14K7
HIP RC-02H 1% 1K78
HIP RC-02H 1% 121E
HIP RC-01 5% 4E7
RMC1/8 1% 10E
RMC1/8 1% 75E
ST MRS25 1% 9K53
HIP RC-02H 1% 16K2
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
RMC1/8 1% 51 El
RMC1/8 1% 21E5
RMC1/8 1% 51E1
RMC1/8 1% 237E
HIP RC-02H 1 % 422E
HIP RC-02H 1% 237E
RMC1/8 1% 21E5
HIP RC-02H 1% 383E
RMC1/8 1% 10E
RMC1/8 1% 21E5
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 14K7
HIP RC-02H 1% 14K7
HIP RC-02H 1% 1K78
HIP RC-02H 1% 121E
HIP RC-01 5% 4E7
RMC1/8 1% 10E
RMC1/8 1% 75E
ST MRS25 1% 9K53
HIP RC-02H 1% 16K2
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
5.2 - 27
Ordering code
4822 051 10101
4822 051 10101
5322 117 10549
5322 117 10549
4822 111 91885
4822 111 91885
5322 111 91893
5322 111 92014
5322 111 91893
5322 117 10564
5322 117 10544
5322 117 10544
5322 111 92014
5322 117 10559
4822 111 91885
5322 111 92014
5322 117 10487
5322 117 10528
5322 117 10528
5322 117 10535
5322 11710519
4822 051 10478
4822 111 91885
4822 111 91937
4822 050 29532
5322 117 10532
5322 117 10543
5322 117 10543
5322 111 91893
5322 111 92014
5322 111 91893
5322 117 10544
5322 117 10564
5322 117 10544
5322 111 92014
5322 117 10559
4822 111 91885
5322 111 92014
5322 117 10487
5322 117 10528
5322 117 10528
5322 117 10535
5322 117 10519
4822 051 10478
4822 111 91885
4822 111 91937
4822 050 29532
5322 11710532
5322 117 10543
5322 117 10543
5.2 - 28
Item
R3007
R3008
R3009
R3011
R3012
R3013
R3014
R3015
R3018
R3021
R2313
R2401
R2402
R2403
R2404
R2406
R2411
R2412
R2416
R2417
R3001
R3002
R3003
R3004
R3006
R2301
R2302
R2303
R2304
R2306
R2307
R2308
R2309
R2311
R2312
R3024
R3026
R3063
R3064
R3066
R3067
R3068
R3069
R3101
R3102
R3103
R3104
R3107
R3111
R3112
Description
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
HIP RC-02H 1% 215K
HIP RC-02H 1% 215K
HIP RC-02H 1% 61K9
HIP RC-02H 1% 61K9
HIP RC-02H 1% 51K1
HIP RC-02H 1% 51K1
HIP RC-02H 1% 215K
HIP RC-02H 1% 7K5
HIP RC-02H 1% 21K5
HIP RC-02H 1% 28K7
HIP RC-02H 1% 750E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 21E5
RMC1/8 1% 21E5
HIP RC-02H 1% 7K5
RMC1/8 1% 10E
RMC1/8 1% 10E
HIP RC-02H 1% 750E
HIP RC-02H 1 % 750E
HIP RC-02H 1% 19K6
HIP RC-02H 1 % 11K
HIP RC-02H 1% 1K
HIP RC-02H 1 % 100E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
HIP RC-02H 1% 1K
HIP RC-02H 1% 11K
HIP RC-02H 1% 19K6
HIP RC-02H 1% 5K62
HIP RC-02H 1% 21K5
HIP RC-02H 1 % 28K7
HIP RC-02H 1% 19K6
HIP RC-02H 1% 19K6
HIP RC-02H 1% 10K
HIP RC-02H 1 % 4K64
HIP RC-02H 1% 100E
HIP RC-02H 1% 100E
HIP RC-02H 1% 909E
HIP RC-02H 1 % 909E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 51E1
RMC1/8 1% 21E5
RMC1/8 1% 51E1
HIP RC-02H 1% 422E
HIP RC-02H 1% 237E
RMC1/8 1% 21E5
HIP RC-02H 1% 383E
UNIT DESCRIPTIONS
Ordering code
4822 051 10101
4822 051 10101
4822 051 10102
4822 051 10113
5322 117 10541
5322 117 10573
5322 117 10542
5322 117 10551
5322 117 10541
5322 117 10541
4822 051 10103
4822 051 54642
4822 051 10101
4822 051 10101
5322 117 10588
5322 117 10588
4822 111 91885
4822 111 91885
5322 111 91893
5322 111 92014
5322 111 91893
5322 117 10564
5322 117 10544
5322 111 92014
5322 117 10559
5322 11710543
5322 117 10543
5322 11710578
5322 11710578
4822 051 55113
4822 051 55113
5322 117 10543
5322 11710583
5322 117 10542
5322 117 10551
5322 117 10582
4822 111 91885
4822 111 91885
5322 111 92014
5322 111 92014
5322 117 10583
4822 111 91885
4822 111 91885
5322 11710582
5322 117 10582
5322 117 10541
4822 051 10113
4822 051 10102
4822 051 10101
4822 051 10101
UNIT DESCRIPTIONS
Item
R3113
R3131
R3132
R3133
R3134
R3204
R3207
R3211
R3212
R3213
R3231
R3232
R3233
R3234
R3236
R3136
R3137
R3138
R3151
R3161
R3171
R3176
R3201
R3202
R3203
R3237
R3238
R3251
R3261
R3271
R3276
R3281
R3282
R3301
R3302
R3311
R3312
R3313
R3314
R3316
R3401
R3402
R3403
R3404
R3411
R3412
R3416
R3417
R4001
R4002
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.HI-TENSION
RMC1/8 1% 10E
RMC1/8 1% 21E5
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 14K7
HIP RC-02H 1% 14K7
HIP RC-02H 1% 1K78
HIP RC-02H 1% 121E
HIP RC-01 5% 4E7
RMC1/8 1% 10E
RMC1/8 1 % 75E
ST MRS25 1 % 9K53
HIP RC-02H 1% 51K1
RMC1/8 1% 51E1
RMC1/8 1% 21E5
RMC1/8 1% 51E1
HIP RC-02H 1 % 422E
HIP RC-02H 1 % 237E
RMC1/8 1% 21E5
HIP RC-02H 1% 383E
RMC1/8 1% 10E
RMC1/8 1% 21E5
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 14K7
HIP RC-02H 1% 14K7
HIP RC-02H 1% 1K78
HIP RC-02H 1% 121E
HIP RC-01 5% 4E7
RMC1/8 1% 10E
RMC1/8 1% 75E
ST MRS25 1% 9K53
HIP RC-02H 1% 51K1
HIP RC-02H 1% 2K87
HIP RC-02H 1 % 5K11
HIP RC-02H 1% 61K9
HIP RC-02H 1% 12K1
HIP RC-02H 1 % 511E
HIP RC-02H 1% 2K87
HIP RC-02H 1% 2K87
HIP RC-02H 1% 10K
HIP RC-02H 1% 14K7
RMC1/8 1% 10E
RMC1/8 1% 10E
HIP RC-02H 1% 5K11
HIP RC-02H 1% 5K11
RMC1/8 1% 10E
RMC1/8 1% 10E
HIP RC-02H 1 % 750E
HIP RC-02H 1% 750E
HIP RC-02H 1% 51K1
RST VR25 5% 3M3
5.2 - 29
Ordering code
4822 111 91885
5322 111 92014
5322 117 10487
5322 117 10528
5322 117 10528
5322 117 10535
5322 117 10519
4822 051 10478
4822 111 91885
4822 111 91937
4822 050 29532
4822 051 55113
5322 111 91893
5322 111 92014
5322 111 91893
5322 117 10564
5322 117 10544
5322 111 92014
5322 117 10559
4822 111 91885
5322 111 92014
5322 117 10487
5322 117 10528
5322 117 10528
5322 11710535
5322 117 10519
4822 051 10478
4822 111 91885
4822 111 91937
4822 050 29532
4822 051 55113
5322 117 10549
5322 117 10487
5322 117 10578
4822 051 51213
5322 117 10569
5322 117 10549
5322 117 10549
4822 051 10103
5322 117 10528
4822 111 91885
4822 111 91885
5322 117 10487
5322 11710487
4822 111 91885
4822 111 91885
5322 11710582
5322 117 10582
4822 051 55113
4822 053 20335
5.2 - 30
Item
R4003
R4004
R4006
R4007
R4008
R4009
R4031
R4032
R4033
R4034
R4036
R4037
R4038
R4039
R4040
R4041
R4042
R4043
R4044
R4045
R4051
R5001
R5002
R5003
R5004
R5007
R5008
R5101
R5106
R5111
R5116
R5121
R5126
R5131
R5132
R5133
R5134
R5136
R5137
R5138
R5139
R5151
R5201
R5206
R5211
R5216
R5221
R5226
R5251
R5301
Description
RES.HI-TENSION
RES.HI-TENSION
RES.HI-TENSION
RES.HI-TENSION
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.HI-TENSION
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RST VR25 5% 3M3
RST VR25 5% 3M3
RST VR25 5% 6M8
RST VR25 5% 6M8
HIP RC-02H 1% 31K6
HIP RC-02H 1% 31K6
RMC1/8 1% 10E
HIP RC-02H 1% 31K6
HIP RC-02H 1% 1K
RMC1/8 1% 10E
HIP RC-02H 1% 316E
HIP RC-02H 1% 31K6
HIP RC-02H 1% 681E
HIP RC-02H 1% 16K2
HIP RC-02H 1% 31K6
HIP RC-02H 1% 51K1
HIP RC-02H 1% 1K
HIP RC-02H 1% 1K
HIP RC-02H 1% 1M
HIP RC-02H 1% 215K
RST VR25 5% 3M3
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
HIP RC-01 5% 3E3
HIP RC-01 5% 3E3
HIP RC-01 5% 1E
HIP RC-01 5% 1E
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 10K
HIP RC-02H 1% 3K83
HIP RC-02H 1 % 3K16
RMC1/8 1% 10E
RMC1/8 1% 10E
HIP RC-01 5% 3E3
HIP RC-01 5% 3E3
HIP RC-01 5% 3E3
HIP RC-01 5% 3E3
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
RMC1/8 1% 10E
HIP RC-01 5% 3E3
UNIT DESCRIPTIONS
Ordering code
4822 053 20335
4822 053 20335
4822 053 20685
4822 053 20685
5322 117 10554
5322 117 10554
4822 111 91885
5322 117 10554
4822 051 10102
4822 111 91885
5322 117 10552
5322 117 10554
5322 117 10579
5322 117 10532
5322 11710554
4822 051 55113
4822 051 10102
4822 051 10102
4822 051 10105
5322 117 10543
4822 053 20335
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 10478
4822 051 10478
4822 051 10338
4822 051 10338
4822 051 10108
4822 051 10108
4822 051 10103
4822 051 10103
4822 051 10103
4822 051 10103
4822 051 10103
5322 11710561
5322 117 10553
4822 111 91885
4822 111 91885
4822 051 10338
4822 051 10338
4822 051 10338
4822 051 10338
4822 051 10478
4822 051 10478
4822 111 91885
4822 051 10338
UNIT DESCRIPTIONS
Item
R5306
R5311
R5316
R5321
R5326
R5351
R5411
R5416
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
HIP RC-01 5% 3E3
HIP RC-01 5% 3E3
HIP RC-01 5% 3E3
HIP RC-01 5% 4E7
HIP RC-01 5% 4E7
RMC1/8 1% 10E
RMC1/8 1% 21E5
RMC1/8 1% 21E5
V1127
V1128
V1201
V1202
V1203
V1204
V1301
V2061
V2062
V2101
V2102
V2103
V2104
V2105
V1019
V1021
V1022
V1023
V1024
V1101
V1102
V1103
V1104
V1106
V1107
V1108
V1109
V1111
V1112
V1113
V1121
V1122
V1123
V1126
SEMICONDUCTORS
V1009
V1011
V1014
V1016
V1018
DIODE,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
BBY39 PEL
BBY39 PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC848C PEL
BC848C PEL
BFR53 PEL
BFR53 PEL
BFT92 PEL
BFT92 PEL
BFG55 PEL
TRANSISTOR BFG55 PEL
DIODE,REFERENCE BZX79-C12 PEL
DIODE,REFERENCE BZX79-C12 PEL
TRANSISTOR,CHIP BFG35 PEL
TRANSISTOR,CHIP BFG35 PEL
DIODE
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BBY62 PEL
BC858C PEL
BCP53 PEL
BCP56PEL
BC848C PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC858C PEL
BC848C PEL
BC858C PEL
BC858C PEL
BC858C PEL
TRANSISTOR,CHIP BC858C PEL
DIODE,REFERENCE BZX84-C8V2 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BC858C PEL
BC858C PEL
TRANSISTOR,CHIP
DIODE
DIODE
TRANSISTOR,CHIP
DIODE
BF824 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BC858C PEL
BZX84-B12 PEL
5.2-31
Ordering code
4822 051 10338
4822 051 10338
4822 051 10338
4822 051 10478
4822 051 10478
4822 111 91885
5322 111 92014
5322 111 92014
5322 130 82199
5322 130 82199
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 42136
5322 130 61244
5322 130 61244
5322 130 44711
5322 130 44711
5322 130 62806
5322 130 62806
4822 130 34197
4822 130 34197
5322 130 62805
5322 130 62805
5322 130 82685
4822 130 42513
5322 130 62804
5322 130 63033
5322 130 42136
4822 130 42513
5322 130 42136
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 80255
4822 130 42513
4822 130 42513
4822 130 60383
4822 130 83566
4822 130 83566
4822 130 42513
4822 130 83566
5.2 - 32
V3102
V3103
V3104
V3105
V3111
V3113
V3131
V3132
V3133
V3134
V2233
V2234
V2301
V2403
V2418
V3001
V3002
V3061
V3062
V3101
Item
V2111
V2113
V2131
V2132
V2133
V2134
V2201
V2202
V2203
V2204
V2205
V2211
V2213
V2231
V2232
V3136
V3137
V3201
V3202
V3203
V3204
V3205
V3211
V3212
V3213
V3231
V3232
V3233
V3234
V3236
Description
TRANSISTOR,CHIP
TRANSISTOR
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
TRANSISTOR,CHIP
DIODE
DIODE
TRANSISTOR,CHIP
DIODE
TRANSISTOR,CHIP
TRANSISTOR
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
DIODE,REFERENCE
DIODE
DIODE,REFERENCE
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE
DIODE
TRANSISTOR,CHIP
DIODE
TRANSISTOR,CHIP
TRANSISTOR
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
DIODE,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
DIODE
DIODE
TRANSISTOR,CHIP
DIODE
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
DIODE,CHIP
BF840 PEL
BFQ232A PEL
BAV99 PEL
BF824 PEL
BF840 PEL
BFQ252A PEL
BF824 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BC858C PEL
BZX84-B12 PEL
BF840 PEL
BFQ232A PEL
BAV99 PEL
BF824 PEL
BF840 PEL
BFQ252A PEL
BZX84-C8V2 PEL
BZX84-B18 PEL
BZX84-C8V2 PEL
BAV99 PEL
BC858C PEL
BF824 PEL
BF824 PEL
BF824 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BC858C PEL
BZX84-B12 PEL
BF840 PEL
BFQ232A PEL
BAV99 PEL
BF824 PEL
BF840 PEL
BFQ252A PEL
BAS21 PEL
BAS21 PEL
BF824 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BC858C PEL
BZX84-B12 PEL
BF840 PEL
BF820 PEL
BFQ232A PEL
BAV99 PEL
BF824 PEL
BF840 PEL
BFQ252A PEL
BAS21 PEL
UNIT DESCRIPTIONS
Ordering code
4822 130 60887
4822 130 62751
5322 130 34337
4822 130 60383
4822 130 60887
4822 130 62932
4822 130 60383
4822 130 83566
4822 130 83566
4822 130 42513
4822 130 83566
4822 130 60887
4822 130 62751
5322 130 34337
4822 130 60383
4822 130 60887
4822 130 62932
5322 130 80255
5322 130 83709
5322 130 80255
5322 130 34337
4822 130 42513
4822 130 60383
4822 130 60383
4822 130 60383
4822 130 83566
4822 130 83566
4822 130 42513
4822 130 83566
4822 130 60887
4822 130 62751
5322 130 34337
4822 130 60383
4822 130 60887
4822 130 62932
4822 130 33702
4822 130 33702
4822 130 60383
4822 130 83566
4822 130 83566
4822 130 42513
4822 130 83566
4822 130 60887
5322 130 62802
4822 130 62751
5322 130 34337
4822 130 60383
4822 130 60887
4822 130 62932
4822 130 33702
UNIT DESCRIPTIONS
Item
V3237
V3281
V3282
V3301
V3311
V3312
V3418
V4001
V4002
V4003
V4004
V4031
V4032
V4033
V4034
V4036
V4037
V4038
V4039
V4040
V4041
V4042
V4043
V4044
V5001
V5002
Description
DIODE,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BAS21 PEL
BAV99 PEL
BF821 PEL
BF820 PEL
BC858C PEL
DIODE,CHIP BAV99 PEL
DIODE,REFERENCE BZX84-C8V2 PEL
DIODE,CHIP BAV99 PEL
TRANSISTOR,CHIP BF821 PEL
TRANSISTOR,CHIP BF821 PEL
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
BF821 PEL
BF821 PEL
BF821 PEL
BF820 PEL
BF820 PEL
DIODE,REFERENCE BZX84-B18 PEL
DIODE,CHIP BAS21 PEL
TRANSISTOR,CHIP BF820 PEL
TRANSISTOR,CHIP BF821 PEL
DIODE,CHIP BAS21 PEL
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
BAS21 PEL
BAS21 PEL
BAS21 PEL
BAS21 PEL
BAS21 PEL
BAS21 PEL
CONNECTORS
X2101
X2301
X2401
X2402
X2403
CONNECTOR
CONNECTOR
CONNECTOR
CONNECTOR
SOCKET
X2501 CONNECTOR
4-P HAAKS OMSL
12-P 1.25MMSTR
12-P 1.25MM STR
3-P SNG RT.ANG
55595 CRT SOCKET
50-P DBL STRGHT
5.2 - 33
Ordering code
4822 130 33702
5322 130 34337
4822 130 61923
5322 130 62802
4822 130 42513
5322 130 34337
5322 130 80255
5322 130 34337
4822 130 61923
4822 130 61923
4822 130 61923
4822 130 61923
4822 130 61923
5322 130 62802
5322 130 62802
5322 130 83709
4822 130 33702
5322 130 62802
4822 130 61923
4822 130 33702
4822 130 33702
4822 130 33702
4822 130 33702
4822 130 33702
4822 130 33702
4822 130 33702
5322 265 30907
4822 267 50668
4822 267 50668
5322 265 30433
5322 255 40502
5322 265 61242
UNIT DESCRIPTIONS 5.2 - 35
5.2.7 Description of A2-100 MHz version.
5.2.7.1 Final Y amplifier.
Diagram 1.
The output signal from the delay line is applied to the input pins 6 and 9 of amplifier IC D1001. This
IC and surrounding components comprise the MF and HF square wave compensations. Also the vertical CRT text signal is applied to D1001 (pin 15 and 16). The switching between text/cursors and signal is done via control signals that are applied to pin 17 and 18 of D1001. Text is written if the voltage at pin 18 is higher than at pin 17. This switching signal is derived from the collector of the transistors V1201 and V1202. The control signals XYSW1 and XYSWO come from the text/cursor generator IC on microprocessor unit A3. Via the transistors V1203 and V1204 similar switching signals XSW1 and XSWO are routed to the X-deflection section for switching between text and signal.
The output signals from pin 21 and 22 of D1001 are routed via the common base circuits V1026 / V1027 to the final Y-amplifier. The final amplifier is located on the small printed circuit board at the CRT socket.
It drives the vertical deflection plates of the CRT. This final stage is indicated on diagram 2.
The delay line leads are terminated into 75Q. The impedance is composed by 300£2 inside D1001 parallelled by external impedances of 60£2 formed by the external resistors R1024/R1026 and
R1027/R1028. All termination resistors are applied to a voltage controlled by D1001/pin 13. Pin 13 determines the common mode voltage level of the D1001 inputs. The HF square wave compensation is achieved by the two dual varicap diodes V1009 and V1011 together with associated resistors.
Varicap V1009 is controlled by the output signal at pin 20 of octal DAC N1001. This output voltage can be in the range 0 to 10 V and controls varicap V1009 via operational amplifier N1002/1,2,3. This operational amplifier converts the N1001 output voltage (that is related to 0 V) into a voltage related to the voltage at D1001/pin 13.
Varicap V1011 is controlled by the output signal at pin 18of octal DAC N1001. This output voltage can be in the range 0 to 10 V and controls varicap V1011 via operational amplifier N1002/5,6,7. This operational amplifier converts the N1001 output voltage (that is related to 0 V) into a voltage related to the voltage at D1001/pin 13.
LF square wave compensation is also done inside D1001. This is controlled via currents applied to pin 27 and 28. These currents are derived from the N1001 DAC voltage outputs 13 and 11 via the transistors V1014 and V1016. The actual compensating components are situated outside D1001 and are R1037/C1011/R1038 and R1029/C1009/R1031. V1023 and V1024 form a 20 mA current source to supply the bias current for the final stage inside D1001. V1024 is switched as a diode and gives temperature compensation.
Offset is adjusted via the currents from the collectors of V1021 and V1022. These currents are controlled by the DAC output pins 17 (coarse) and 16 (fine). Two parallel DAC outputs are used to obtain sufficient resolution. V1018 is a current source and V1019 is for temperature compensation.
Gain control occurs via an adjustable current applied to D1001/pin 26. This is done via N1001/pin 14 and R1051
DAC output N1001/15 applies via operational amplifier N1003/1,2,3 the signal YFSHF to the final stage on diagram 2. YFSHF is an adjustable dc voltage that is applied to varicap diodes V4113 that control the HF square wave response of the output stage.
The circuit with operational amplifier N1004/2,3,6 is used for automatic calibration of the vertical deflection. It measures the voltage at the vertical deflection plates of the CRT. This value is applied as signal YCAL to the microprocessor on unit A3.
5.2 - 36 UNIT DESCRIPTIONS
Diagram 2.
This diagram shows the Y-output amplifier. The amplifier is located at the small printed circuit board at the CRT socket. The input signal is a current and is applied to V4101 and V4102. The output signal is voltage and is applied to the vertical deflection plates of the CRT. Total sensitivity at the plates is
4V/div. One plate is driven by output stage V4111A/4108. V4111 and V4114 form a current source.
The current source is an amplifier for higher frequencies because of coupling capacitor C4118. The driver transistors are V4103 and V4106. The input signal is YPREOUT1.
The other plate is driven by output stage V4109/V4112. V4112 is a current source. The current source is an amplifier for higher frequencies because of coupling capacitor C4119. The driver transistors are
V4104 and V4107. The input signal is YPREOUTO.
The output signals ACALFBO and ACALFB1 are routed to a circuit for automatic calibration of the vertical amplifiers. This circuit is present on the larger part of unit A2 and indicated on diagram 1.
5.2.7.2 Final X and Z amplifiers.
Diagram 3.
This diagram shows the final X amplifier. It drives the horizontal plates of the CRT. Total plate sensitivity equals 8.5 V/div. The input circuit is formed by IC D2001. The octal DAC N2002 supplies the analog control signals that are used throughout the circuit.
Input pin 5 and 6 of D2001 receive the time base sawtooth or the X- deflection signal signal. Input pin
9 and 10 receive the horizontal text/cursor signal. The selection between text/cursors and sawtooth/X- deflection signal is done via the signals XSWO and XSW1 that are applied to pin 7 and
8 of D2001. These signals are derived from XYSWO and XYSW1 that come from the text generator
IC on microprocessor unit A3. Text is displayed with XSWO at 0 mA and XSW1 at 1 mA. Trace is displayed with XSWO at 1 mA and XSW1 at 0 mA.
Gain control is possible via pin 1 of D2001. This is used for trace gain control via signal XTRAGC.
Gain control to compensate for CRT tolerances is achieved via pin 14 of D2001. This is controlled via the DAC output signals XCRTGCL (fine) and XCRTGCH (coarse). Offset control to compensate for
CRT tolerances is achieved via pin 15 of D2001. This is controlled via the DAC output signals
XCRTOFH (coarse) and XCRTOFL (fine). Adjustment of the HF response (and linearity) is achieved via signal XHFADJ via pin 17 and 26 of D2001.
The final X-amplifier consists of two identical halves that receive input signals that are in opposite phase. These signals originate from the D2001 outputs pin 24/25 (XDRIL0/XDRIL1) and pin 18/19
(XDRIR0/XDRIR1). The two X-amplifier sections drive respectively the left and right deflection plate of the CRT.
The final X amplifier half that drives the left deflection plate is explained now. Its function is identical to that of the other amplifier half. The balanced input signals XDRIL1 and XDRILO are applied to input stage V2101. V2134 is a current source. XDRILO is not used and connected to +6.8 V. In the collector circuit of V2101 are the zener diodes V2102/V2103 that function as level shifters. The emitter followers V2132 and V2111 supply the output stage V2134/V2113 with signal. V2113 functions as an amplifier stage and V2134 mainly as a current source. V2134 receives signal via C2131 and C2134 and functions as amplifier stage in the fastest sweep speeds. Via R2133/R2134 however some dc drive is also applied to V2134.
The circuit with operational amplifier N2003 is used to measure the output voltage that is applied to the X-deflection plates of the CRT. This measurement is done via high-ohmic resistors R2301 and
R2302. The analog output voltage XCAL of N2003 is applied to an ADC incorporated in the microprocessor on unit A3. This enables the microprocessor to exactly measure the horizontal output voltage. This is used for automatic calibration of the horizontal deflection.
UNIT DESCRIPTIONS 5.2 - 37
Diagram 4.
This diagram shows the final intensity (Z) and focusing amplifiers. These amplifiers drive the intensity electrode G1 and the focusing electrode G3 of the CRT. The input circuit is formed by IC D3001.
Input pin 5 and 6 of D3001 receive the Z-pulses ZLTRAO and ZLTRA1 that determine the intensity during signal display. Input pin 9 and 10 receive the Z-pulse ZTXTO and ZTXT1 that determine the intensity during text/cursor display. The selection between signal intensity and text intensity is done via the signals ZSWO and ZSW1 that are applied to pin 7 and 8 of D3001. These signals originate from the text generator IC on microprocessor unit A3. Text is displayed with ZSWO at 0 mA and ZSW1 at 1 mA. Trace is displayed with ZSWO at 1 mA and ZSW1 at 0 mA.
The final Z-amplifier and the focusing amplifier are identical halves that receive input signals that are in opposite phase. These signals originate from the D3001 outputs pin 24/25 (ZDRIF1/ZDRIF0) and pin 18/19 (ZDRII0/ZDRII1).
Via V3002 part of the ripple on the negative CRT cathode voltage (ZRIPPLE) is applied to pin 15 of
D3001. This compensates for unwanted intensity modulation due to this ripple.
The diodes V3236, V3136, V3237 and V3137 protect D3001 against possible high voltage surges.
V3301 supplies the intensity determining signal INTEN-DA. This signal adjusts the "dark level" of the
CRT. V3301 is controlled by DAC N2002 output signal DARK. V3311 supplies signal ASTIG that determines the astigmatism of the CRT. V3311 is controlled by DAC N2002 output signal ASTDR.
The upper amplifier half that is used for the dynamic focus control is explained now. Its function is identical to that of the lower amplifier half that is used for intensity (Z) control. The balanced input signals ZDRIF1 and ZDRIFO are applied to input stage V3101. ZDRIFO is not used and connected to
+6.8 V. In the collector circuit of V3101 are the zener diodes V3102/V3103 that function as level shifters. The emitter followers V3132 and V3111 supply the output stage V3134/V3113 with signal.
V3113 functions as an amplifier stage and V3134 mainly as a current source. V3134 receives signal via C3131 and C3134. It mainly functions as amplifier stage for fast input signals. Via R3133/R3134 however some dc drive is also applied to V3134.
Diagram 5.
In this diagram the circuit is shown that forms an interface between the signals that determine the intensity/focusing and the CRT electrodes G1/G3 that control intensity/focusing. These electrodes, the cathode and filament (heater) of the CRT are at a high negative voltage. This voltage is separated from the other oscilloscope circuits via the 3kV capacitors C4004, C4061, C4036 and C4037.
The intensity is influenced by the output signal INTEN-AA of the Z- amplifier and the signal INTEN-
DA. INTEN-AA is determined via the front-panel TRACE INTENSITY, TEXT INTENSITY, MTB on,
DTB on and chopper blanking control signals. The HF component in the INTEN-AA signal is applied to G1 of the CRT via C4037. The DC and LF components are applied to the base of V4034. The
INTEN-DA signal is applied to the base of V4032 and forms the clamplevel (dark level) of the DC and
LF part of INTEN-AA derived from V4034. These two transistors form the inputs of a 150kHz modulator that basically consists of V4031 and V4033. The LF and DC components that are modulated on the 150 kHz carrier signal can pass via buffer stage V4038/V4039 and then via high voltage blocking capacitor C4036.
Behind capacitor C4036 demodulation takes place via the diodes V4043 and V4044. This results in the original INTEN-AA signal that is superpositioned on the INTEN-DA voltage that corrects the cut off voltage of the CRT applied to G1 and via R4051 also to G3. Across R4044 a small negative voltage (compared with the cathode) is developed for G1. This voltage is not big enough to make the
CRT screen dark. This means that the signals to darken the screen and to control intensity are applied via C4036 and C4037.
The HF component from the focusing amplifier output signal FOCUS-AA is applied to G3 via C4004 and voltage divider R4008/R4009/C4002/C4003. This assures optimal tracking between focus and intensity. The signal FOCUS-DA is determined via the FOCUS control at the instruments front panel.
5.2 - 38 UNIT DESCRIPTIONS
The signal FOCUS-DA is then mixed with the LF component of FOCUS-AA before its level is adapted to the nominal G3 voltage via transistors V4002A/4003/V4004.
Diagram 6.
This diagram shows the RC-branches and regulators N5131 that give the supply voltages for the various circuits. Also the connectors X2501 and X2301 are indicated here. X2301 is the connector where the flat cable leaves for the small unit that incorporates the CRT-socket X2403. The flat cable arrives at the small CRT-socket unit at X2411.
UNIT DESCRIPTIONS 5.2 - 39
5.2.8 Signal name list A2-100 MHz version
Note: In the signal name list you find the itemnumberofthe component that is source or destination.
Behind this itemnumber (separated by you find the number of the diagram where the source/destination can be found
NAME MEANING SOURCE DESTINATION
ACALF BO
ACALF B1
ASTDR
ASTIG
DARK
FOCUS-AA
FOCUS-DA
G1
G3
HEATER1
HEATER2
INTEN-AA
INTEN-DA
SCL
SDA
XCAL
XCRTGCH
XCRTGCL
XCRTOFH
XCRTOFL
XDRILO
XDRIL1
XDRIRO
XDRIR1
XHFADJ
XLTXTO
XLTXT1
XOUTO
AUTOCALL FUNCTION SIGNAL
AUTOCALL FUNCTION SIGNAL
DRIVER SIGNAL FOR ASTIGMATISM
ASTIGMATISM CONTROL
DRIVER SIGNAL FOR DC PART INTENS
AC PART FOCUSING SIGNAL
DC PSRT FOCUSING SIGNAL
INTENSITY GRID 1 OF CRT
FOCUSING GRID 3 OF CRT
FILAMENT SUPPLY F1 OF CRT
FILAMENT SUPPLY F2 OF CRT
AC PART OF INTENSITY SIGNAL
DC PART OF INTENSITY SIGNAL
SERIAL CLOCK
SERIAL DATA
AUTOCAL SIGNAL X DEFLECTION
CRT X-GAIN CONTROL HIGH
CRT X-GAIN CONTROL LOW
CRT OFFSET CONTROL HIGH
CRT OFFSET CONTROL LOW
DRIVE SIGNAL 0 LEFT X AMPLIFIER
DRIVE SIGNAL 1 LEFT X AMPLIFIER
DRIVE SIGNAL 0 RIGHT X AMPLIFIER
DRIVE SIGNAL 1 RIGHT X AMPLIFIER
HF ADJUSTMENT X AMPLIFIER
X SHIFT TEXT 0
X SHIFT TEST 1
X OUTPUT 0
R4164:02
X2301:01
R4163:02
X2301:01
N2002:03
V3311:04
X2411:02
R1307:01
X2411:02
R1306:01
R3313:04
X2301:06
X2411:06 X2403:05
N2002:03 V3301:04
R3161:04 X2301:06
X2411:05 R4008:05
X2501:06 X2301:06
X2411:05 R4001:05
C4037:05 X2403:05
R4044:05
C4004:05 X2403:05
R4051:05
X2402:05 X2403:05
X2402:05 X2403:05
R3261:04 X2301:06
X2411:05 C4037:05
V3301:04 X2301:06
X2411:05 V4032:05
X2501:06 J1002:06
J2002:06
X2501:06 J1002:06
J2001:06
R2313:03 X2501:06
N2002:03 R2011:03
N2002:03 R2012:03
N2002:03 R2016:03
N2002:03 R2017:03
D2001:03 R2101:03
D2001:03 R2103:03
D2001:03 R2203:03
D2001:03 R2201:03
N2002:03 R2021:03
V2062:03 R2007:03
V2062:03 R2008:03
V2134:03 R2171:03
V2113:03 R2302:03
5.2 - 40
NAME
XOUT1
XPLATEO
XPLATE1
XPLATECO
XPLATEC1
XSCL
XSDA
XSWO
XSW1
XTRAO
XTRA1
XTRAGC
XTXTO
XTXT1
XYSWO
XYSW1
YCAL
YFSHF
YFSHF1
YFSHF2
YPREOUTO
YPREOUT1
YSCL
YSDA
YSWO
YSW1
YTRAO
YTRA1
YTXTO
YTXT1
ZDRIFO
ZDRIF1
ZDRIIO
ZDRII1
ZLTRAO
ZLTRA1
ZOUTF
ZOUTI
ZRIPPLE
ZRSUP
ZSWO
ZSW1
ZTRAO
ZTRA1
ZTXTO
ZTXT1
MEANING
X OUTPUT 1
X OUTPUT 0 TO CRT LEFT PLATE
X OUTPUT 1 TO CRT RIGHT PLATE
X OUTPUT 0 TO CRT LEFT PLATE
X OUTPUT 1 TO CRT RIGHT PLATE
SERIAL CLOCK X SECTION
SERIAL DATA X SECTION
X SWITCH SIGNAL 0 TRACE/TEXT
X SWITCH SIGNAL 1 TRACE/TEXT
X TRACE 0 SIGNAL
X TRACE 1 SIGNAL
X TRACE SIGNAL GAIN CONTROL
X TEXT 0 SIGNAL
X TEXT 1 SIGNAL
X/Y SWITCH SIGNAL 0 TRACE/TEXT
X/Y SWITCH SIGNAL 1 TRACE/TEXT
AUTOCAL SIGNAL Y DEFLECTION
HF SQ WAVE RESPONSE FINAL Y
HF SQ WAVE RESPONSE FINAL Y 1
HF SQ WAVE RESPONSE FINAL Y 2
Y PREAMPLIFIER OUT 0
Y PREAMPLIFIER OUT 1
SERIAL CLOCK Y SECTION
SERIAL DATA Y SECTION
Y SWITCH SIGNAL 0 TRACE/TEXT
Y SWITCH SIGNAL 1 TRACE/TEXT
Y TRACE 0 OUT FROM DELAY LINE
Y TRACE 1 OUT FROM DELAY LINE
Y TEXT 0 SIGNAL
Y TEXT 1 SIGNAL
DRIVER SIGNAL 0 FOCUS AMPLIFIER
DRIVER SIGNAL 1 FOCUS AMPLIFIER
DRIVER SIGNAL 0 INTENS AMPLIFIER
DRIVER SIGNAL 1 INTENS AMPLIFIER
Z LEVEL TRACE INTENSITY 0
Z LEVEL TRACE INTENSITY 1
FEEDBACK SIGNAL FOCUS AMPLIFIER
FEEDBACK SIGNAL INTENSITY AMPLIFIER
RIPPLE ON NEGATIVE HIGH VOLTAGE
Z RIPPLE SUPPRESS
Z SWITCH SIGNAL O TEXT/TRACE
Z SWITCH SIGNAL 1 TEXT/TRACE
Z TRACE INTENSITY 0
Z TRACE INTENSITY 1
Z TEXT 0 SIGNAL
Z TEXT 1 SIGNAL
UNIT DESCRIPTIONS
SOURCE DESTINATION
V2234:03 R2271:03
V2213:03 R2301:03
R2161:03 X2411:02
R2261:03 X2411:02
R4261:02 X2403:02
R4262.02
X2403:02
J2002:06 N2002:03
J2001:06 N2002:03
V1204:01 D2001:03
V1203:01 D2001:03
X2501:06 R2006:03
X2501:06 R2006:03
N2002:03 R2002:03
X2501:06 R2063:03
X2501:06 R2064:03
X2501:06 R1204:01
X2501:06 R1201:01
R1309:01 X2501:06
R1091:01 X2301:06
X2411:02 R4181:02
R4182:02
R4181:02 V4113:02
R4182:02 V4114:02
V1027:01 X2301:06
X2411:02 R4112:02
V1026:01 X2301:06
X2411:02 R4111:02
J1002:06 N1001:01
J1001:06 N1001:01
V1202:01 D1001:01
V1201:01 D1001:01
X2101:01 D1001:01
X2101:01 D1001:01
X2501:06 D1001:01
X2501:06 D1001:01
D3001:04 R3101:04
D3001:04 R3103:04
D3001:04 R3203:04
D3001:04 R3201:04
V3062:04 R3004:04
V3061:04 R3006:04
V3113:04 R3171:04
V3213:04 R3271:04
C4061:05 X2411:05
X2301:06 R3014:04
V3002:04 D3001:04
X2501:06 D3001:04
X2501:06 D3001:04
X2501:06 R3063:04
X2501:06 R3064:04
X2501:06 R3007:04
X2501:06 R3008-.04
UNIT DESCRIPTIONS
5.2.9 Unit lay-outs A2-100 MHz version
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5 § o o
0 - Q .
X >• r O U u j u u c o
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1 3 5 7 9 11 13 15 17 19 21 23 25 2 7 29 31 33 35 37 39 41 43 4 5 4 7 49
ST8268
970428
Lay-out 1 - Large component side of XYA amplifier unit A2-100MHz
X2401
YPREOUT-RET
8 0 O K
YPREOUT1 S o 0 8
YFSHF R§D □ “
-18VA2
ACALFBO ®
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XPLATE-RET o>
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XPLATE-RET ro □ □ —
ASTIQ o
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INTEN-AA cn
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INTEN-DA » □ □ u
ZRIPPLE ro
□ □ -
XPREOUTO
YPREOUT-RET
+18VA2
-12VA2
ACALFB1
XPLATE1
XPLATEO
FOCUS-DA
FOCUS-RET
INTEN-RET
+58VA2
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3 o o
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XTRAO to D Do
ZSW1 -0 OS
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ZTRAO 50 □ 5
-12VA2 o®
+12VA2 SO □ 8
J. ro Q 0(8
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V2113 C5236
V2213
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C5231
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INTEN-RET
FOCUS-RET
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INTEN-AA
FOCUS-AA
± E ASTIQ
FOCUS-DA ^ □ 0 ro XPLATE-RET
XPLATEO co 0 D a XPLATE-RET
XPLATE1
« □ □ o>
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ACALFB1 N □ □ 00 ACALFBO
-12VA2 £ □ d S -18VA2
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YPREOUT-RET uO □ a YPREOUT1
XPREOUTO d
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5.2 - 42 UNIT DESCRIPTIONS a1 a2
S12
1------ ID-------1 c1.e2
88Y36 a b
, 0 ______□ .
BC846C . U p
BC8S8C 31p
BR5ee
BFB20
. o *>
IV p
BPB21
BFB24
BFB40
BFR53
BFR02
BFT92
: 1Wp
FBp
NCp
: N ip
P ip
W lp t j “ L J " “ L T e b a
BR36S
BFQ36 a 1 a2 l°----°|
S3p t j —“TT c1 c2
B8YB2
T _ l L J ’ L -T b c e
BCP53
BCPS6 d «2 A--- Q l A7p
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■1.C2
BAV90
8AS21 JSp
BZXB4C8V2 :Z7p
BZXB4-C18 y«p
BZXB4-B24 Z74
Lay-out 2 - Small component side of XYZ amplifier unit A2-100MHz
ST8269
970428
11 10 9 8 7
D
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B
A a i b 2
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S12
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8C848C : 1U>
BC8S8C
BF5B9
BF82C
BFB21
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; 1Wp
BFB24
BFB40
BFR53
BFR92
BFTB2
: FBp
NCp
• N1p
Pip
Wlp
L J L J L J e b a
BFQ65
BFG35
9
•1 a2
I S3p " l B8Y82 tzi ——nr c1 c2
8
L J L J L J 1 p e e
BCPS3
BCPS6
7 c l a2
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8AV99
5.2 - 42
UNIT DESCRIPTIONS
D
— I l R4,sg I I ■*« I ' |
$
R4132
5
5
S
5
JU133
B
CRT SOCKET RC.B.
BAS21 JSp
62XB4C8V2 Z7p
BZXB4018 Y0p
BZX&4-B24 Z74
Lay-out 2 - Small component side of XYZ amplifier unit A2-100MHz
ST8269
970428
UNIT DESCRIPTIONS
5.2.10 Location List A2-100 MHz version
’-L’ means that the component is located on the side with the large components. Otherwise the component is located on the side with small components.
C3006 A5
C3007 A5
C3008 A5
C3009 A5
C3011 A5
C3013 B6
C3014 B5
C3016B5
C3017 B4
C3018B4
C3019B4
C3021 A5
C3061 A5
C3103 C4
C2233 C7
C2234 C7
C2251 C7
C2271 C7
C2272 B7
C2273 B7
C2276 C7
C2277 B7
C2301 D7
C2302 D7
C2303 C8
C2413C7
C2416 B6
C2131 B6
C2132 C7
C2133 C7
C2134C7
C2151 C6
C2171 C7
C2172 B7
C2173 B7
C2174 B7
C2176 C7
C2177B7
C2203 C7
C2231 B7
C2232 C7
C2417C6
C2418 B7
C2419C7
C2421 B6
C2422 B7
C3001 A5
C3002 A4
C3003 A5
C3004 A5
C1022C11
C1023 A10
C1024C10
C1025C10
C1026 A10
C1027 A10
C1029 B10
C1031 C9
C1301 C9
C1302 C9
C1303 C9
C2001 A6
C2002 A6
C2003 A6
C2004 A7
C2006 A7
C2007 A7
C2008 A7
C2009 A7
C2011 A7
C2012 B7
C2013B7
C2014 B7
C2016 B6
C2017B6
C1001 C11
C1002C11
C1003C11
C1004B11
C1005 B10
C1006 B10
C1007B10
C1008C10
C1009C11
C1011 B11
C1012 B11
C1013B11
C1014 A11
C1016C10
C1018 A10
C1019B10
C1021 C11
C2018 B6
C2019B6
C2021 A7
C2022 B7
C2061 A7
C2062 A7
C2081 A8
C2103C6
C4124C1
C4163D1
C5101 C10
C5111 C10
C5116C10
C5121 C10
C5126C10
C5136 B11
C5138C10
C5151 B11
C5201 A6
C5206 A6
C5211 A6
C5216 A7
C5231 D7-L
C5232 D7
C5236 D6-L
C5238 D6
C5251 A8
C5301 A5
C5306 A5
C5311 A5
C5316 A5
C5321 B8
C5322 A6
C4201 B1-L
C4202 B1
C4203 B1
C4204D1-L
C4206 C1
C4207 C1
C4208 D1-L
C4209 C1
C5001 D11-L
C5002 D11-L
C5003 D11-L
C5004 D11-L
C5007 D10-L
C5008 D10-L
C5011 D6
C5012D6
C5326 B8
C5331 C5-L
C5332 D5
C5336 C5-L
C5338 D5
C5351 A6
C5411 D9
C5416D9
D1001 B10-L
C3273 B5
C3276 C5
C3412 C5
C3416B4
C3417C4
C3418 B6
C3419C5
C3421 B4
C3422 B6
C4001 D2
C4002 D2
C4003 D2
C4004 C2-L
C4031 D3
C4032 C3
C4033 D3
C4034 D2
C4036 C3-L
C4037 C2-L
C4051 C2
C4061 C3-L
C4062 D2
C4111 C1
C4112C1
C4113C1
C4114C1
C4116C1
C4117C1
C4118 B1
C4119B1
C4121 C1
C4122 B1
C4123 B1
C3131 C5
C3132C5
C3133 C5
C3134C5
C3151 C5
C3171 C5
C3172 B5
C3173 B5
C3176C5
C3203 C6
C3231 B5
C3232 C5
C3233 C5
C3234 C5
C3251 C5
C3271 C5
C3272 B5
5.2 - 43
5.2 - 44
R1019C10
R1020C10
R1021 C10
R1022C11
R1023C11
R1024 B10
R1026 B10
R1027C10
R1028C10
R1029C11
R1031 C11
R1032 B10
R1034 B10
R1036 B10
R1037 B11
R1038 B11
R1039 B10
R1041 A10
R1042 A10
R1043 B11
R1044 B11
R1046A10
R1047A10
R1048 A10
R1049 A10
R1051 B10
D2001 B7-L
D3001 B5-L
L4101 B2
L4102 B2
L4103 B2
N1001 A11
N1002C11
N1003 A9
N1004C9
N2002 A8
N2003 C8
N5131 A11
R1001 C11
R1002C11
R1003C11
R1004C11
R1005B11
R1006B11
R1007B11
R1008B11
R1009C11
R1010B11
R1011 C11
R1012C11
R1013C11
R1014B11
R1015 B10
R1016B11
R1017 B10
R1018B10
R1203 A9
R1204 A9
R1206 A9
R1207 A9
R1208 A7
R1209 A7
R1303 C9
R1304 C9
R1306 C9
R1307 C9
R1308 C9
R1309 D9
R1311 C9
R1312C9
R1313C9
R2001 A8
R2002 A8
R2003 A6
R2004 A6
R2006 A7
R2007 A7
R2008 A7
R2009 A7
R2011 B8
R1052 A9
R1053 A10
R1059 B10
R1061 B10
R1063B10
R1064 B10
R1066 B10
R1071 B11
R1072C10
R1073C10
R1074C10
R1076 B11
R1077C10
R1078C10
R1079 B10
R1081 B11
R1082 A11
R1083 B11
R1084C10
R1086 B10
R1087 B9
R1088 B9
R1089 B9
R1091 D10
R1201 A10
R1202 A9
R2012 B8
R2013B8
R2014 B8
R2015B7
R2016 B8
R2017B8
R2104 B6
R2107 C6
R2111 C6
R2112C6
R2114C7
R2131 C6
R2132 C6
R2133 C6
R2134 B6
R2136 C6
R2137C7
R2138 C7
R2151 C6
R2161 C7
R2171 B7-L
R2172 B7
R2176 B6
R2177B6
R2201 B7
R2202 B7
R2203 B7
R2204 B7
R2207 C7
R2211 C7
R2212C7
R2214C7
R2231 C7
R2232 C7
R2233 C7
R2234 B7
R2236 C7
R2237 C7
R2238 C7
R2251 C7
R2261 C7
R2271 B7-L
R2272 B7
R2276 B7
R2277 B7
R2301 C7
R2302 C7
R2018 B7
R2020 B7
R2021 B7
R2023 B6
R2024 B6
R2026 B7
R2063 A7
R2064 A7
R2065 A7
R2066 A7
R2067 A7
R2068 A7
R2101 B6
R2102 B6
R2103 B6
UNIT DESCRIPTIONS
R2303 C8
R2304 C8
R2306 C8
R2307 C8
R2308 C8
R2309 C8
R2311 C8
R2312C8
R2313C8
R2411 C7
R2412C7
R2416C6
R2418C7
R2419D6
R2421 C6
R2422 C7
R2423 B6
R3001 B5
R3002 B5
R3003 A4
R3004 A5
R3006 A5
R3007 A5
R3008 A5
R3009 A6
R3011 B5
R3012 B5
R3013 A4
R3014 A4
R3015 A4
R3018 B5
R3021 B5
R3024 B4
R3026 B5
R3063 A5
R3064 A5
R3066 A5
R3067 A5
R3068 A5
R3069 A5
R3101 B5
R3102 B5
R3103 B4
R3104 B4
R3107C4
R3111 C4
R3112C5
R3114C5
R3131 C4
R3132C4
R3133 C5
R3134 B5
R3136 C5
R3137 C5
R3138 C5
R3151 C5
UNIT DESCRIPTIONS
R3412C5
R3416C4
R3418C6
R3419 D4
R3421 C4
R3422 C6
R3423 B6
R4001 D2
R4002 D2-L
R4003 D2-L
R4004 D2-L
R4006 C2-L
R4007 D2-L
R4008 D2
R4009 D2
R4031 D3
R4032 D3
R4033 D3
R4034 D3
R3161 C5
R3171 B5-L
R3176 B5
R3201 B5
R3202 B5
R3203 B5
R3204 B6
R3207 C6
R3211 C6
R3212C5
R3214 C5
R3231 C6
R3232 C5
R3233 C5
R3234 B5
R3236 C5
R3237C5
R3238 C5
R3251 C5
R3261 C5
R3271 B5-L
R3276 B5
R3301 B8
R3302 B8
R3311 B8
R3312 B8
R3313B8
R3314 B8
R3316 B8
R3411 C5
R4036 D3
R4037 D3
R4038 D3
R4039 D3
R4040 D2
R4041 D3
R4042 C2
R4143C1
R4144B1
R4146 B1
R4147 B1
R4148 B1
R4149 B1
R4151 B1
R4152 C2
R4153 C2
R4154C1
R4155 B2
R4156 B2
R4157 B2
R4124C1
R4126C1
R4127C1
R4128C1
R4129C1
R4131 B1
R4132B1
R4133 B1
R4134C1
R4136C1
R4137B1
R4138B1
R4139 B1
R4141 B1
R4142 C1
R4158 B2
R4159 B2
R4160 B2
R4161 B1
R4162 C1
R4163 C2
R4164C2
R4166 B1-L
R4167B1
R4168 B1-L
R4169 B1
R4181 D1
R4043 C3
R4044 C2
R4045 B3
R4051 C3-L
R4104 C2
R4111 D1
R4112D1
R4113D1
R4114D1
R4116 D1
R4117D1
R4118C1
R4119C1
R4121 C1
R4122 C1
R4123 C1
R5126D10
R5131A11
R5132A11
R5133 A11
R5134A11
R5136B11
R5137B11
R5138B11
R5139B11
R5151 A11
R5201 A6
R5202 A6
R5206 A6
R5211 A6
R5216 A6
R5231 D7
R4182 D1
R4201 D1
R4202 D2
R4203 D1
R4261 D2
R4262 D2
R5001 D11
R5002D11
R5003D11
R5004D11
R5007D10
R5008D10
R5101 D10
R5111 D10
R5116D10
R5121 D10
R5236 D7
R5251 A8
R5301 A5
R5306 A5
R5311 A6
R5316 A5
R5321 B8
R5326 B8
R5331 D5
R5336 D5
R5351 A6
R5411 D9
R5416 D9
R5501 C11
V1009 B11
V1011 C11
V1014 A10
V1016 A10
V1018C10
V1019C10
V1021 C10
V1022 B10
V1023 B10
V1024 B10
V2421 B6
V3001 A4
V3002 A4
V3061 A5
V3062 A5
V3101 B4
V3102 C4
V3103C4
V3111 C4
V3113C5-L
V3131 C4
V3132 B4
V3133 C4
V3134C5-L
V3136 C5
V3137 D5
V3201 B5
V3202 C6
V3203 C6
V3211 C6
V3213C5-L
V3231 B6
V3232 B5
V3233 C5
V2131 B6
V2132 B6
V2133 C6
V2134C7-L
V2201 B7
V2202 C7
V2203 C7
V2211 C7
V2213 C7-L
V2231 B7
V2232 B7
V2233 C7
V2234 C7-L
V2301 D7
V2413C7
V2416 D7
V1026 B9
V1027 C9
V1028 A9
V1201 B9
V1202 A9
V1203 A7
V1204 A7
V1301 C9
V2061 A7
V2062 A7
V2101 B6
V2102 C6
V2103C6
V2111 C6
V2113C7-L
V3234 C5-L
5.2 - 45
5.2 - 46
V3236 C5
V3237 D5
V3301 B8
V3311 B8
V3312B8
V3413C5
V3416 D5
V3421 B6
V4001 D2
V4002 D2
V4003 D2
V4004 D2
V4031 D3
V4032 D2
V4033 D3
V4034 C3
V4036 D3
V4037 D3
V4038 C3
V4039 C3
V4040 D3
V4041 C3
V4042 C3
V4043 C3
V4044 B3
V4084 C3
V4101 D1
V4102 D1
V4103C1
V4104C1
V4106 C1
V4107C1
V4108C1
V4109C1
V4111 B1
V4112 B1
UNIT DESCRIPTIONS
V4113D1
V4114B2
V5001 D6
V5002 D5
X2101 B11-L
X2301 D9-L
X2401 D2-L
X2402 B3-L
X2403 B2-L
X2501 A8-L
UNIT DESCRIPTIONS
5.2.11 Circuit diagrams A2-100 MHz version
5.2 - 47
V I204
8C85S
REF NR
D1001
N1001
N10Q2
N10G3
N1004
TYPE
000230
TDA6444
LM366
LM324
OP77
+ 18YNO + 12YN0 PLUS V
24
+5YND
20
GND
25
10
-7YND
14
•
1
4
-12YNO
19
4
•1BYND + 12CND
7
■2CNO
4
A2 (100 MHz) - Diagram 1a ; Final Y preamplifier and control
UNIT DESCRIPTIONS
5.2.11 Circuit diagrams A2-100 MHz version
5.2 - 47
5.2 - 48 UNIT DESCRIPTIONS
TO CflT
5.2 - 48 UNIT DESCRIPTIONS
TO CRT
D14-364GH/123
YFSHF
R4191
VFSHF1
YFSHF2
A2 (100 MHz) - Diagram 2a ; Final Y output stage
UNIT DESCRIPTIONS 5.2 - 49
DC LEVEL SHIFT XTEXT
LOCAL SUPPLY FILTERING
XZ-CONTROL
CALIBRATE X
• SOXN
+31XR
A2 (100 MHz) - Diagram 3a ; Final X amplifier and control
UNIT DESCRIPTIONS
-12XNO
DC LEVEL SHIFT XTEXT
-58XN0
LOCAL SUPPLY FILTERING
-5®a
-saxR
XZ-CONTROL
N2002
TOA 8444
+10)R €F
-»5XM0
M l 77
2p7
■ ■
II
R2176
^ ~ | 316K r ___ I 26K7 | _
C2178
33p
II
II
C2173 ape
II
C2171
1p
II
II
XCX/TO
XHFADJ
CffTQFH grroR .
♦ 5XN0
XZ-CONTROL
N2002
TOA 6444
CAUBRATE X
R2303
5.2 - 49
AC:4SVtt
DC: 0V
0OVB *10
-12ZNO
DC LEVEL SHIFT Z-TRACE Z-RIPPLE SUPPRESS
5.2 - 50
ZDftlFO
ZDRF1
♦a.azNO
R3102
Hl£5
♦50ZN +50ZN
FINAL Z-AMPURER
ENDSTAGE FOCUS
UNIT DESCRIPTIONS
+50ZN
C3131 C3134
V9113
BFQ2S2A
ZOUTF
R3191
Max Intana: -30V
Mki. Intana.
+VN
FOCUS-AA
X2301/8
+50ZN f i
R3207
237E
+50ZN
R N AL Z-AMPURER
ENDSTAGE INTENS
-S8ZF
-50ZN
+S0ZN
♦ 3 1 3
A2 (100 MHz) - Diagram 4a ; Final Z amplifier
-12ZNO
| DC LEVEL SHIFT Z-TRACS | Z-RIPPLE SUPPRESS
•58ZN0
| LOCAL SUPPLY FILTERING |
SfiZF
-saa
R3411
N20<
5.2 - 50
+50ZN -50ZN
UNIT DESCRIPTIONS
+50ZN
+18ZND
[ r
C3412
100n
■+50ZN
, C3416
1 lOrt
, C3410
1 10«
C3419
10n
+31 a
A2 (100 MHz) - Diagram 4a ; Final Z amplifier
REF NR TYPE
N3001_________ OQQ229
N3002 TDA8444
+12ZND GND
10
ST8273
970420
UNIT DESCRIPTIONS
FOCUS LEVELSHIFTER
5.2 - 51
A2 (100 MHz) - Diagram 5a ; Modulator/demodulator and focus control
UNIT DESCRIPTIONS
X2411
FOCUS LEVELSHIFTER
5.2 - 51
A2 (100 MHz) - Diagram 5a ; Modulator/demodulator and focus control
r
L
21
23
25
27
29
31
33
36
37
17
19
13
IS
7
9
11
1
3
5 n
> 1
1
1
1
1
> 1
J l
1 l
1
1 i i i
! l i i i
! 1
! 1 i
! - L ^
39
41 i
43
45
47
49
1 ^
!
1 SDA
_ l ____
CAL
XTXTO
ZTXT1 _
XTRAO _
ZSW1 _
CTRAO _
XYSW1 _
YTXTO _
J1001
J2001 i p
YSDA
XSPA
1 a a
. -12VA2 X2301/19
» +12VA2
XYSWO _
-18VA2 X2301/20
+ 10VA2 X2301/21
+10VREF
J1002
X2301/11
♦12YN D
+12XN0
+ 12ZND
+12CND
5.2 - 52
RS007 R6121
•58VA2
UNIT DESCRIPTIONS
♦50VA2
X2301/3
+58XND
+58ZND
YSCL
XSCL
-68VA2
ZRIPPLg
+58VA2
INTEN-OA tNTEN-AA
FOCUS’ AA
ASTK3
FOCUS-OA
XPLATEO
XPLATEl
ACALFB1
ACALFBO
-5VA2
-18VA2
4-18VA2
X
X
X
X
X
X
TO A2-SUB. X2411
X 2 X 1
I-----------------1
YPREOUTl
YPREQUro
X
X
A2 (100 MHz) - Diagram 6a ; Supply circuits
| +10YXZREF SUPPLY |
R5131 R5151
REF NR
NS131
TYPE
LM366
-12YNO -M8YND
ST827S
970420
+ + + +
a 5
*
H r I
$
8 K fc
I !
& £ 3
H H H
5 3 3
5.2 - 52
RS007 RS121
XT1
XTO
RA1
WO
KA1
12VA2 X2301/19 r12VA2 rSWO ^ rxti
18VA2 X2301/20
H 8 V A 2 X2301/21
HOVREF
CAL
CL
DA
YSCL
J20Q2
4 1
XSCL
^ jfcsii
^ io n
^ JL
CS2'
J 10n
^ _L c
63
^ to n
^ ^ C 5 4
\ i a b
X
I x
I
X
I
I x
C$118 lOn
CS219 lOn
CS316 lOn
CS416
10n
-12YNO
-12XND
-122NO
-12CNO
_ ZRIPPLE
IMTEN-DA r
1 1
TO A2-SU8. X2411
X2301
“ I t 2
I 3
I
1 4
_ INTEN-AA
^ FOCUS-AA
— l !
1
|
.
1 '
7
— a
1
1 9
—
| ,0 _ ASTK j
FOCUS-DA
_ XPLATEO
XPLATE1
_ ACALFB1
_ ACALFBO
_ YFSHF
. 11
I 12 x y r
—
-L
1 ,5 u
1
1 ' 8
-L
! „
1 18
1
1
! 20
*
I
1 21
1 22
_ YPRCOUT1
_ YPREOUTO
± !
,
1
1 25
—
— r t ±
A2 (100 MHz) - Diagram 6a ; Supply circuits
[ +1QYXZREF SUPPLY " |
UNIT DESCRIPTIONS
ST8275
970428
UNIT DESCRIPTIONS
Item Description
5.2.12 Parts list A2-100 MHz version
C 2003
C 2006
C 2008
C 2009
C 2011
C 2012
C 2013
C 2014
C 2016
C 2017
C 2018
C 2019
C 2021
C 2022
C 2061
C 2062
C 2081
C 2103
C 2131
C 2132
CAPACITORS
C 1001
C 1002
C 1003
C 1005
C 1006
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
C 1007
C 1009
C 1011
C 1012
C 1013
C 1014
C 1018
C 1019
C 1023
C 1024
C 1025
C 1026
C 1027
C 1029
C 1031
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
C 1301
C 1302
C 1303
C 2001
C 2002
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
63V 10% 10NF
63V 10% 10NF
63V 0.25PF 2.2PF
63V 5% 22PF
63V 5% 10PF
63V 5% 10PF
63V 5% 33PF
63V 5% 47PF
63V 10% 100NF
63V 10% 100NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 5% 56PF
63V 5% 56PF
63V 5% 56PF
63V 5% 100PF
63V 5% 100PF
63V 10% 10NF
63V 10% 10NF
63V 5% 150PF
63V 5% 150PF
63V 10% 10NF
63V 10% 10NF
63V 10% 220NF
63V 10% 10NF
63V 5% 22PF
63V 10% 10NF
63V 10% 220NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 5% 100PF
63V 5% 100PF
63V 10% 10NF
63V 5% 100PF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 5% 56PF
63V 5% 56PF
63V 10% 10NF
63V 10% 100NF
63V 10% 22NF
63V 10% 100NF
Ordering code
5.2 - 53
5322 122 34098
5322 122 34098
5322 122 33063
5322 122 32658
5322 122 32448
5322 122 32448
5322 122 32659
5322 122 32452
4822 122 33496
4822 122 33496
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32661
5322 122 32661
5322 122 32661
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 33538
5322 122 33538
5322 122 34098
5322 122 34098
4822 122 32916
5322 122 34098
5322 122 32658
5322 122 34098
4822 122 32916
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32661
5322 122 32661
5322 122 34098
4822 122 33496
5322 122 32654
4822 122 33496
5.2 - 54
Item
C 2133
C 2134
C 2151
C 2171
C 2172
C 2301
C 2302
C 2303
C 2413
C 2416
C 2417
C 2418
C 2419
C 2421
C 2422
C 2173
C 2174
C 2176
C 2177
C 2203
C 2231
C 2232
C 2233
C 2231
C 2251
C 2271
C2272
C 2273
C 2276
C 2277
C 3014
C 3016
C 3017
C 3018
C 3019
C 3021
C 3061
C 3103
C 3131
C 3132
C 3001
C 3002
C 3003
C 3004
C 3006
C 3007
C 3008
C 3009
C 3011
C 3013
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
63V 10% 100NF
63V 10% 22NF
63V 5% 1NF
63V 0.25PF: 1PF
63V 5% 56PF
63V 0.25PF: 6.8PF
63V 5% 1NF
63V 5% 33PF
63V 0.5PF 2.7PF
63V 10% 100NF
63V 10% 22NF
63V 10% 100NF
63V 10% 100NF
63V 10% 22NF
63V 5% 1NF
63V 0.25PF: 1PF
63V 5% 56PF
63V 0.25PF 6.8PF
63V 5% 33PF
63V 0.5PF 2.7PF
63V 5% 100PF
63V 5% 100PF
63V 10% 10NF
63V 10% 100NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 220NF
63V 10% 10NF
63V 5% 10PF
63V 5% 22PF
63V 5% 22PF
63V 10% 10NF
63V 10% 220NF
63V 10% 10NF
63V 10% 10NF
63V 5% 100PF
63V 5% 100PF
63V 10% 10NF
63V 5% 100PF
63V 10% 10NF
63V 10% 10NF
63V 5% 10PF
63V 10% 100NF
63V 10% 22NF
63V 10% 100NF
UNIT DESCRIPTIONS
Ordering code
4822 122 33496
5322 122 32654
5322 126 10511
5322 122 32447
5322 122 32661
5322 122 32269
5322 126 10511
5322 122 32659
5322 122 31873
4822 122 33496
5322 122 32654
4822 122 33496
4822 122 33496
5322 122 32654
5322 126 10511
5322 122 32447
5322 122 32661
5322 122 32269
5322 122 32659
5322 122 31873
5322 122 32531
5322 122 32531
5322 122 34098
4822 122 33496
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
4822 122 32916
5322 122 34098
5322 122 32448
5322 122 32658
5322 122 32658
5322 122 34098
4822 122 32916
5322 122 34098
5322 122 34098
5322 122 32531
5322 122 32531
5322 122 34098
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 32448
4822 122 33496
5322 122 32654
4822 122 33496
UNIT DESCRIPTIONS
Item
C 3133
C 3134
C 3151
C 3171
C 3172
C 3273
C 3276
C 3412
C 3416
C 3417
C 3418
C 3419
C 3421
C 3422
C 4001
C 3173
C 3176
C 3203
C 3231
C 3232
C 3233
C 3234
C 3251
C 3271
C 3272
C 4002
C 4003
C 4004
C 4031
C 4032
C 4033
C 4034
C 4036
C 4037
C 4051
C 4061
C 4062
C 4110
C 4111
C 4112
C 4113
C 4114
C 4116
C 4117
C 4118
C 4119
C 4121
C 4122
C 4123
C 4124
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.
CAP.
CAP.CHIP
CAP.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
63V 10% 100NF
63V 10% 22NF
63V 5% 1NF
63V 0.25PF 1PF
63V 5% 470PF
63V 0.25PF 1.5PF
63V 0.25PF 1.5PF
63V 10% 100NF
63V 10% 22NF
63V 10% 100NF
63V 10% 100NF
63V 10% 22NF
63V 5% 1NF
63V 0.25PF 1PF
63V 5% 470PF
63V 0.25PF 1.5PF
63V 0.25PF 1.5PF
63V 10% 100NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 5% ■
63V 0.25PF 1.5PF
-10+10% 2.2NF
63V 10% 4.7NF
63V 10% 100NF
63V 10% 100NF
63V 10% 10NF
-10+10% 2.2NF
-10+10% 2.2NF
63V 10% 10NF
-10+10% 2.2NF
63V 5% -470PF
63V 5% 22PF
63V 0.25PF 2.7PF
63V 0.25PF 2.7PF
63V 0.25PF 2.7PF
63V 0.25PF 2.7PF
63V 5% 1NF
63V 5% 1NF
63V 5% 1NF
63V 5% 1NF
63V 10% 100NF
63V 5% 1NF
63V 5% 1NF
63V 5% 1NF
5.2 - 55
Ordering code
4822 122 33496
5322 122 32654
5322 126 10511
5322 122 32447
5322 122 32268
5322 126 10225
5322 126 10225
4822 122 33496
5322 122 32654
4822 122 33496
4822 122 33496
5322 122 32654
5322 126 10511
5322 122 32447
5322 122 32268
5322 126 10225
5322 126 10225
4822 122 33496
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 33538
5322 126 10225
5322 122 33851
5322 126 10223
4822 122 33496
4822 122 33496
5322 122 34098
5322 122 33851
5322 122 33851
5322 122 34098
5322 122 33851
5322 122 32268
5322 122 32658
5322 122 31873
5322 122 31873
5322 122 31873
5322 122 31873
5322 126 10511
5322 126 10511
5322 126 10511
5322 126 10511
4822 122 33496
5322 126 10511
5322 126 10511
5322 126 10511
5.2 - 56
Item
C 4126
C 4163
C 4201
C 4202
C 4203
C 4204
C 4205
C 4206
C 4207
C 4208
C 4209
C 5001
C 5002
C 5003
C 5004
C 5007
C 5008
C 5011
C 5012
C 5101
C 5111
C 5116
C 5121
C 5126
C 5136
C 5138
C 5151
C 5201
C 5206
C 5211
C 5216
C 5231
C 5232
C 5236
C 5238
C 5251
C 5301
C 5306
C 5311
C 5316
C 5321
C 5322
C 5326
C 5331
C 5332
C 5336
C 5338
C 5351
C 5411
C 5416
Description
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
63V 5% 68PF
63V 5% 56PF
25V 20% 180UF
63V 10% 10NF
63V 10% 10NF
25V 20% 180UF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
25V 20% 180UF
63V 10% 100NF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25V 20% 180UF
25 V 20% 180UF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 22NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
100V 20% 27UF
63V 10% 10NF
100 V 20% 27UF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
100V 20% 27UF
63V 10% 10NF
100 V 20% 27UF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
63V 10% 10NF
UNIT DESCRIPTIONS
Ordering code
4822 122 33514
5322 122 32661
5322 124 42228
5322 122 34098
5322 122 34098
5322 124 42228
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42228
4822 122 33496
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
5322 124 42228
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 32654
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42193
5322 122 34098
5322 124 42193
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42193
5322 122 34098
5322 124 42193
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
UNIT DESCRIPTIONS
Item
COILS
L 4101
L 4102
L 41032
Description
COIL
COIL
COIL
INTEGRATED CIRCUITS
D 1001
D 2001
D 3001
N 1001
N 1002
N 1003
N 1004
N 2002
N 2003
N 5131
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
I.C. ANALOGUE
INTEGR.CIRCUIT
I.C. ANALOGUE
INTEGR.CIRCUIT
RESISTORS
R 1001
R 1002
R 1003
R 1004
R 1005
R 1006
R 1007
R 1008
R 1009
R 1010
R 1011
R 1012
R 1013
R 1014
R 1015
R 1016
R 1017
R 1018
R 1019
R 1020
R 1021
R 1022
R 1023
R 1024
R 1027
R 1029
R 1031
R 1032
R 1034
R 1036
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.MET.GLAZED
RES.MET.GLAZED
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
0.082UH 5% TDK
0.082UH 5% TDK
1UH 5% TDK
OQ0230 FINAL Y
OQ0229 FINAL X-Z
OQ0229 FINAL X-Z
TDA8444AT/N2 PEL
LM358M NSC
LM324M NSC
OP-77GSR PMI
TDA8444AT/N2 PEL
OP-77GSR PMI
LM358M NSC
RC-02H 1% 215K
RC-02H 1% 100K
RC-02H 1% 215K
RC-02H 1% 100K
RC-02H 1% 196E
RC-02H 1% 1K96
RC-02H 1% 100K
RC-02H 1% 100K
RC-02H 1% 215K
RC-02H 1% 3K83
RC-02H 1% 215K
RC-02H 1% 215K
RC-02H 1% 215K
RC-02H 1% 196E
RC-02H 1% 10K
RMC1/8 1% 42E2
RC-02H 1% 100E
RMC1/8 1% 46E4
RMC1/8 1% 46E4
RC-02H 1% 10K
RC-02H 1% 100E
RMC1/8 1% 42E2
RC-02H 1% 196E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 237E
RC-02H 1% 237E
RC-02H 1% 2K37
RC-02H 1% 13K3
RC-02H 1% 14K7
5.2 - 57
Ordering code
5322 157 63382
5322 157 63382
5322 157 63648
5322 209 12467
5322 209 12459
5322 209 12459
5322 209 30233
4822 209 60175
5322 209 61473
5322 130 62791
5322 209 30233
5322 130 62791
4822 209 60175
4822 051 52154
4822 051 51004
4822 051 52154
4822 051 51004
4822 051 51961
4822 051 51962
4822 051 51004
4822 051 51004
4822 051 52154
4822 051 53832
4822 051 52154
4822 051 52154
4822 051 52154
5322 11710538
4822 051 10103
5322 117 11753
4822 051 10101
5322 116 82896
5322 116 82896
4822 051 10103
4822 051 10101
5322 117 117 53
5322 117 10538
4822 051 51001
4822 051 51001
5322 117 10544
5322 117 10544
4822 051 52372
4822 051 51333
5322 117 10528
5.2 - 58
R 1086
R 1087
R 1088
R 1089
R 1091
R 1201
R 1202
R 1203
R 1204
R 1206
R 1207
R 1208
R 1209
R 1303
R 1304
R 1306
R 1307
R 1308
R 1309
R 1311
R 1073
R 1074
R 1076
R 1077
R 1078
R 1079
R 1081
R 1082
R 1083
R 1084
Item
R 1037
R 1038
R 1039
R 1041
R 1042
R 1043
R 1044
R 1046
R 1047
R 1048
R 1049
R 1051
R 1053
R 1059
R 1061
R 1063
R 1064
R 1066
R 1071
R 1072
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RC-02H 1% 750E
RC-02H 1% 750E
RC-02H 1% 147E
RC-02H 1% 19K6
RC-02H 1% 19K6
RC-02H 1% 5K11
RC-02H 1% 162K
RC-02H 1% 21K5
RC-02H 1% 21K5
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 23K7
RC-02H 1% 3K83
RMC1/8 1% 21E5
RMC1/8 1% 21E5
RC-02H 1% 3K83
RC-02H 1% 100E
RC-02H 1% 1K
RC-02H 1% 3K83
RMC1/8 1% 75E
RMC1/8 1% 75E
RC-02H 1% 422E
RC-02H 1% 3K83
RC-02H 1% 3K83
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RC-02H 1% 464E
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 51E1
RC-02H 1% 51E1
RC-02H 1% 1K21
RC-02H 1% 7K5
RMC1/8 1% 51E1
RC-02H 1% 100K
RC-02H 1% 100K
RMC1/8 1% 51E1
RC-02H 1% 2K37
RC-02H 1% 2K37
RC-02H 1% 3K16
RC-02H 1% 1K78
RC-02H 1% 162K
RC-02H 1% 162K
RC-02H 1% 51K1
RC-02H 1% 51K1
RC-02H 1% 28K7
RC-02H 1% 750E
RC-02H 1% 21K5
UNIT DESCRIPTIONS
Ordering code
5322 117 10582
5322 117 10582
4822 051 51471
4822 051 51963
4822 051 51963
4822 051 55112
4822 051 51624
4822 051 52153
4822 051 52153
4822 051 51003
4822 051 51003
4822 051 52373
4822 051 53832
5322 117 11734
5322 117 11734
4822 051 53832
4822 051 51001
4822 051 51002
4822 051 53832
4822 111 91937
4822 111 91937
5322 117 10564
4822 051 53832
5322 117 10561
5322 111 91893
5322 111 91893
4822 051 54641
4822 051 51003
4822 051 51003
4822 051 51001
4822 051 51001
5322 11711731
5322 117 11731
4822 051 51212
4822 051 57502
5322 111 91893
4822 051 51004
4822 051 51004
5322 111 91893
4822 051 52372
4822 051 52372
4822 051 53162
4822 051 51782
4822 051 51624
4822 051 51624
4822 051 55113
4822 051 55113
4822 051 52873
4822 051 57501
4822 051 52153
UNIT DESCRIPTIONS
R 2134
R 2136
R 2137
R 2138
R 2151
R 2161
R 2171
R 2172
R 2176
R 2177
R 2102
R 2103
R 2104
R 2107
R 2111
R 2112
R 2114
R 2131
R 2132
R 2133
R 2016
R 2017
R 2018
R 2020
R 2021
R 2023
R 2024
R 2026
R 2063
R 2064
R 2065
R 2066
R 2067
R 2068
R 2101
Item
R 1312
R 1313
R 2001
R 2002
R 2003
R 2004
R 2006
R 2007
R 2008
R 2009
R 2011
R 2012
R 2013
R 2014
R 2015
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RC-02H 1% 215K
RC-02H 1% 7K5
RC-02H 1% 16K5
RC-02H 1% 12K1
RC-02H 1% 1K
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RC-02H 1% 1K47
RC-02H 1% 1K47
RC-02H 1% 1K
RC-02H 1% 6K81
RC-02H 1% 215K
RC-02H 1% 1K96
RC-02H 1% 4K64
RC-02H 1% 1K
RC-02H 1% 10K
RC-02H 1% 316K
RC-02H 1% 46K4
RC-02H 1% 14K7
RC-02H 1% 46K4
RC-02H 1% 14K7
RC-02H 1% 14K7
RMC1/8 1% 10E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 2K87
RC-02H 1% 2K87
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 51E1
RMC1/8 1% 21E5
RMC1/8 1% 51E1
RC-02H 1% 12K1
RC-02H 1% 237E
RMC1/8 1% 21E5
RC-02H 1% 383E
RC-01 1% 6E8
RMC1/8 1% 21E5
RC-02H 1% 5K11
RC-02H 1% 14K7
RC-02H 1% 14K7
RC-02H 1% 1K78
RC-02H 1% 121E
RC-01 5% 3E3
RMC1/8 1% 10E
RMC1/8 1% 42E2
MRS25 1% 9K53
RC-02H 1% 28K7
RC-02H 1% 316K
RC-02H 1% 261K
5.2 - 59
Ordering code
4822 051 52154
4822 051 57502
5322 117 10532
4822 051 51213
4822 051 51002
5322 111 91893
5322 111 91893
4822 051 51472
4822 051 51472
4822 051 51002
4822 051 56812
4822 051 52154
4822 051 51962
4822 051 54642
4822 051 51002
4822 051 51003
4822 051 53164
4822 051 54643
4822 051 51473
4822 051 54643
4822 051 51473
4822 051 51473
4822 111 91885
4822 051 51001
4822 051 51001
4822 051 52872
4822 051 52872
4822 111 91885
4822 111 91885
5322 111 91893
5322 111 92014
5322 111 91893
5322 117 10522
4822 051 52371
5322 111 92014
4822 051 53831
4822 051 10688
5322 111 92014
4822 051 55112
4822 051 51473
4822 051 51473
5322 11710535
4822 051 51211
4822 051 10338
4822 111 91885
4822 111 91887
4822 050 29532
4822 051 52873
4822 051 53164
4822 051 52614
5.2 - 60
Item
R 2201
R 2202
R 2203
R 2204
R 2207
R 2211
R 2212
R 2214
R 2231
R 2232
R 2233
R 2234
R 2236
R 2237
R 2238
R 2251
R 2261
R 2271
R 2272
R 2276
R 2277
R 2301
R 2302
R 2303
R 2304
R 2306
R 2307
R 2308
R 2309
R 2311
R 2312
R 2313
R 2411
R 2412
R 2416
R 2418
R 2419
R 2421
R 2422
R 2423
R 3001
R 3002
R 3003
R 3004
R 3006
R 3007
R 3008
R 3009
R 3011
R 3012
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RMC1/8 1% 51E1
RMC1/8 1% 21E5
RMC1/8 1% 51E1
RC-02H 1% 12K1
RC-02H 1% 237E
RMC1/8 1% 21E5
RC-02H 1% 383E
RMC1/8 1% 6E8
RMC1/8 1% 21E5
RC-02H 1% 5K11
RC-02H 1% 14K7
RC-02H 1% 14K7
RC-02H 1% 1K78
RC-02H 1% 121E
RC-01 5% 3E3
RMC1/8 1% 10E
RMC1/8 1% 42E2
MRS25 1% 9K53
RC-02H 1% 28K7
RC-02H 1% 316K
RC-02H 1% 261K
RC-02H 1% 215K
RC-02H 1% 215K
RC-02H 1% 61K9
RC-02H 1% 61K9
RC-02H 1% 51K1
RC-02H 1% 51K1
RC-02H 1% 215K
RC-02H 1% 7K5
RC-02H 1% 21K5
RC-02H 1% 28K7
RC-02H 1% 750E
RC-02H 1% 750E
RC-02H 1% 750E
RMC1/8 1% 42E2
RMC1/8 1% 42E2
RC-02H 1% 16K2
RMC1/8 1% 10E
RMC1/8 1% 10E
RC-02H 1% 316E
RC-02H 1% 19K6
RC-02H 1% 11K
RC-02H 1% 1K
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 1K
RC-02H 1% 11K
RC-02H 1% 19K6
UNIT DESCRIPTIONS
Ordering code
5322 111 91893
5322 111 92014
5322 111 91893
5322 117 10522
4822 051 52371
5322 111 92014
4822 051 53831
4822 051 10688
5322 111 92014
4822 051 55112
4822 051 51473
4822 051 51473
5322 117 10535
4822 051 51211
4822 051 10338
4822 111 91885
4822 111 91887
4822 050 29532
4822 051 52873
4822 051 53164
4822 051 52614
4822 051 52154
4822 051 52154
4822 051 56193
4822 051 56193
4822 051 55113
4822 051 55113
4822 051 52154
4822 051 57502
4822 051 52153
4822 051 52873
4822 051 57501
4822 051 57501
4822 051 57501
4822 111 91887
4822 111 91887
4822 051 51623
4822 111 91885
4822 111 91885
4822 051 53161
4822 051 51963
4822 051 51103
4822 051 51002
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51002
4822 051 51103
4822 051 51963
UNIT DESCRIPTIONS
R 3136
R 3137
R 3138
R 3151
R 3161
R 3171
R 3176
R 3201
R 3202
R 3203
R 3067
R 3068
R 3069
R 3101
R 3102
R 3103
R 3104
R 3107
R 3111
R 3112
R 3114
R 3131
R 3132
R 3133
R 3134
R 3204
R 3207
R 3211
R 3212
R 3214
R 3231
R 3232
R 3233
R 3234
R 3236
R 3237
R 3238
R 3251
R 3261
R 3271
Item
R 3013
R 3014
R 3015
R 3018
R 3021
R 3024
R 3026
R 3063
R 3064
R 3066
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RC-02H 1% 5K62
RC-02H 1% 21K5
RC-02H 1% 28K7
RC-02H 1% 19K6
RC-02H 1% 19K6
RC-02H 1% 14K7
RMC1/8 1% 10E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 909E
RC-02H 1% 909E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 51E1
RMC1/8 1% 21E5
RMC1/8 1% 51E1
RC-02H 1% 12K1
RC-02H 1% 237E
RMC1/8 1% 21E5
RC-02H 1% 383E
RC-01 5% 6E8
RMC1/8 1% 21E5
RC-02H 1% 5K11
RC-02H 1% 14K7
RC-02H 1% 14K7
RC-02H 1% 1K78
RC-02H 1% 121E
RC-01 5% 3E3
RMC1/8 1% 10E
RMC1/8 1% 42K2
MRS25 1% 9K53
RC-02H 1% ^1K1
RMC1/8 1% 51E1
RMC1/8 1% 21E5
RMC1/8 1% 51E1
RC-02H 1% 12K1
RC-02H 1% 237E
RMC1/8 1% 21E5
RC-02H 1% 383E
RC-01 I5% 6E8
RMC1/8 1% 21E5
RC-02H 1% 5K11
RC-02H 1% 14K7
RC-02H 1% 14K7
RC-02H 1% 1K78
RC-02H 1% 121E
RC-01 :5% 3E3
RMC1/8 1% 10E
RMC1/8 1% 42E2
MRS25 1% 9K53
5.2 - 61
Ordering code
4822 051 55622
4822 051 52153
4822 051 52873
4822 051 51963
4822 051 51963
4822 051 51473
4822 111 91885
4822 051 51001
4822 051 51001
4822 051 59091
4822 051 59091
4822 111 91885
4822 111 91885
5322 111 91893
5322 111 92014
5322 111 91893
4822 051 51213
4822 051 52371
5322 111 92014
4822 051 53831
4822 051 10688
5322 111 92014
4822 051 55112
4822 051 51473
4822 051 51473
4822 051 51782
4822 051 51211
4822 051 10338
4822 111 91885
4822 111 91887
4822 050 29532
4822 051 55113
5322 111 91893
5322 111 92014
5322 111 91893
4822 051 51213
4822 051 52371
5322 111 92014
4822 051 53831
4822 051 10688
5322 111 92014
4822 051 55112
4822 051 51473
4822 051 51473
4822 051 51782
4822 051 51211
4822 051 10338
4822 111 91885
4822 111 91887
4822 050 29532
5.2 - 62
R 4006
R 4007
R 4008
R 4009
R 4031
R 4032
R 4033
R 4034
R 4036
R 4037
R 4038
R 4039
R 4040
R 4041
R 4042
Item
R 3276
R 3301
R 3302
R 3311
R 3312
R 3313
R 3314
R 3316
R 3411
R 3412
R 3416
R 3418
R 3419
R 3421
R 3422
R 3423
R 4001
R 4002
R 4003
R 4004
R 4043
R 4044
R 4051
R 4110
R 4111
R 4112
R 4113
R 4114
R 4116
R 4117
R 4118
R 4119
R 4121
R 4122
R 4123
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.HI-TENSION
RES.HI-TENSION
RES.HI-TENSION
RES.HI-TENSION
RES.HI-TENSION
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.HI-TENSION
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RC-02H 1% 51K1
RC-02H 1% 61K9
RC-02H 1% 12K1
RC-02H 1% 511E
RC-02H 1% 2K87
RC-02H 1% 2K87
RC-02H 1% 10K
RC-02H 1% 14K7
RC-02H 1% 750E
RC-02H 1% 750E
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RC-02H 1% 16K2
RMC1/8 1% 10E
RMC1/8 1% 10E
RC-02H 1% 316E
RC-02H 1% 51K1
VR25 5% 3M3
VR25 5% 3M3
VR25 5% 3M3
VR25 5% 6M8
VR25 5% 6M8
RC-02H 1% 31K6
RC-02H 1% 31K6
RMC1/8 1% 10E
RC-02H 1% 31K6
RC-02H 1% 1K
RMC1/8 1% 10E
RC-02H 1% 316E
RC-02H 1% 31K6
RC-02H 1% 681E
RC-02H 1% 16K2
RC-02H 1% 31K6
RC-02H 1% 51K1
RC-02H 1% 1K
RC-02H 1% 1K
RC-02H 1% 1M
VR25 5% 3M3
RC-02H 1% 21E5
RMC1/8 1% 100E
RMC1/8 1% 100E
RMC1/8 1% 21E5
RMC1/8 1% 21E5
RC-02H 1% 316E
RC-02H 1% 316E
RC-02H 1% 1K1
RC-02H 1% 1K1
RMC1/8 1% 10E
RMC1/8 1% 10E
RC-02H 1% 422E
UNIT DESCRIPTIONS
Ordering code
4822 051 55113
4822 051 56193
4822 051 51213
4822 051 55111
4822 051 52872
4822 051 52872
4822 051 51003
4822 051 51473
4822 051 57501
4822 051 57501
5322 111 91893
5322 111 91893
4822 051 51623
4822 111 91885
4822 111 91885
4822 051 53161
4822 051 55113
4822 053 20335
4822 053 20335
4822 053 20335
4822 053 20685
4822 053 20685
4822 051 53163
4822 051 53163
4822 111 91885
4822 051 53163
4822 051 51002
4822 111 91885
4822 051 53161
4822 051 53163
4822 051 56811
4822 051 51623
4822 051 53163
4822 051 55113
4822 051 51002
4822 051 51002
4822 051 51005
4822 053 20335
5322 111 92014
4822 051 10101
4822 051 10101
5322 117 11734
5322 117 11734
5322 117 10552
5322 117 10552
4822 051 51102
4822 051 51102
4822 111 91885
4822 111 91885
4822 051 54221
UNIT DESCRIPTIONS
Item
R 4124
R 4126
R 4127
R 4128
R 4129
R 4130
R 4132
R 4133
R 4134
R 4135
R 4136
R 4137
R 4138
R 4139
R 4141
R 4142
R 4143
R 4144
R 4146
R 4147
R 4148
R 4149
R 4150
R 4151
R 4152
R 4153
R 4154
R 4155
R 4156
R 4157
R 4158
R 4159
R 4160
R 4161
R 4162
R 4163
R 4164
R 4166
R 4167
R 4168
R 4169
R 4171
R 4172
R 4173
R 4174
R 4176
R 4177
R 4178
R 4179
R 4181
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RC-02H 1% 422E
RC-02H 1% 511E
RC-02H 1% 511E
RC-02H 1% 1K
RC-02H 1% 1K
RC-02H 1% 5K62
RC-02H 1% 5K62
RC-02H 1% 5K62
RC-01 5% 3E3
RC-02H 1% 5K62
RC-01 5% 3E3
RC-01 5% 3E3
RC-01 !5% 3E3
RC-02H 1% 750E
RC-02H 1% 750E
RC-01 I5% 4E7
RC-01 I5% 4E7
RMC1/8 1% 42E2
RMC1/8 1% 42E2
RMC1/8 1% 42E2
RMC1/8 1% 42E2
RC-01 I5% 4E7
RC-01 !5% 4E7
RC-01 !5% 10E
RMC1/8 1% 42E2
RMC1/8 1% 42E2
RC-02H 1% 10E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RMC1/8 1% 75E
RMC1/8 1% 75E
RC-02H 1% 51K1
RC-02H 1% 51K1
RC-02H 1% 215K
RC-02H 1% 215K
RC-02H 1% 215K
RC-02H 1% 215K
RC-02H 1% 215K
RC-02H 1% 215K
RC-02G 1% 61K9
RC-02G 1% 7K50
RC-02H 1% 10E
RC-02H 1% 10K
RC-02H 1% 10E
RC-02H 1% 10E
RC-02H 1% 215K
5.2 - 63
4822 111 91887
4822 051 10478
4822 051 10478
4822 111 91885
4822 111 91887
4822 111 91887
4822 111 91885
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 111 91937
4822 111 91937
4822 051 55113
4822 051 55113
4822 051 52154
4822 051 52154
4822 051 52154
4822 051 52154
4822 051 52154
4822 051 52154
4822 051 56193
4822 051 57502
4822 111 91885
4822 111 91885
4822 111 91885
4822 111 91885
4822 051 52154
Ordering code
4822 051 54221
4822 051 55111
4822 051 55111
4822 051 51002
4822 051 51002
4822 051 55622
4822 051 55622
4822 051 55622
4822 051 10338
4822 051 55622
4822 051 10338
4822 051 10338
4822 051 10338
4822 051 57501
4822 051 57501
4822 051 10478
4822 051 10478
4822 111 91887
4822 111 91887
4822 111 91887
5. 2-64
R 5134
R 5136
R 5137
R 5138
R 5139
R 5151
R 5201
R 5206
R 5211
R 5216
R 5231
R 5236
R 5251
R 5301
R 5306
R 5311
R 5316
R 5321
R 5326
R 5331
R 5336
R 5351
R 5411
R 5416
R 5501
Item
R 4182
R 4201
R 4202
R 4203
R 4261
R 4262
R 5001
R 5002
R 5003
R 5004
R 5007
R 5008
R 5101
R 5111
R 5116
R 5121
R 5126
R 5131
R 5132
R 5133
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RC-02H 1% 215K
RC-01 5% 4E7
RC-01 5% 3E3
RC-01 5% 4E7
RMC1/8 1% 42E2
RMC1/8 1% 42E2
RC-01 5% 1E
RC-01 5% 1E
RC-01 5% 1E
RC-01 5% 1E
RC-01 5% 1E
RC-01 5% 1E
RC-01 5% 4E7
RC-01 5% 3E3
RC-01 5% 3E3
RC-01 5% 4E7
RC-01 5% 4E7
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 3K83
RC-02H 1% 3K16
RMC1/8 1% 10E
RMC1/8 1% 10E
RC-01 5% 3E3
RC-01 5% 3E3
RC-01 5% 3E3
RC-01 5% 3E3
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RC-01 5% 3E3
RC-01 5% 3E3
RC-01 5% 3E3
RC-01 5% 3E3
RC-01 5% 4E7
RC-01 5% 4E7
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 10E
RMC1/8 1% 21E5
RMC1/8 1% 21E5
RC-02H 1% 1K
UNIT DESCRIPTIONS
Ordering code
4822 051 52154
4822 051 10478
4822 051 10338
4822 051 10478
4822 111 91887
4822 111 91887
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 10478
4822 051 10338
4822 051 10338
4822 051 10478
4822 051 10478
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 53832
4822 051 53162
4822 111 91885
4822 111 91885
4822 051 10338
4822 051 10338
4822 051 10338
4822 051 10338
4822 111 91885
4822 111 91885
4822 111 91885
4822 051 10338
4822 051 10338
4822 051 10338
4822 051 10338
4822 051 10478
4822 051 10478
4822 111 91885
4822 111 91885
4822 111 91885
5322 111 92014
5322 111 92014
4822 051 51002
UNIT DESCRIPTIONS
V 2213
V 2231
V 2232
V 2233
V 2234
V 2301
V 2413
V 2416
V 2421
V 3001
V 2113
V 2131
V 2133
V 2132
V 2134
V 2201
V 2202
V 2203
V 2205
V 2211
V 1026
V 1027
V 1028
V 1201
V 1202
V 1203
V 1204
V 1301
V 2061
V 2062
V 2101
V 2102
V 2103
V 2105
V 2111
Item Description
V 1009
V 1011
V 1014
V 1016
V 1018
V 1019
V 1021
V 1022
V 1023
V 1024
SEMI CONDUCTORS
DIODE,CHIP
DIODE.CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE.CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
TRANSISTOR,CHIP
TRANSISTOR
DIODE.CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
TRANSISTOR,CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
TRANSISTOR,CHIP
TRANSISTOR
DIODE.CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR
DIODE.CHIP
DIODE,CHIP
DIODE,CHIP
DIODE.CHIP
DIODE.CHIP
BBY39
BBY39
PEL
PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC848C PEL
BC848C PEL
BFT92
BFT92
PEL
PEL
BZX84-C6V8 PEL
BC858C PEL
BC858C PEL
BC858C PEL
BC858C PEL
BZX84-C8V2 PEL
BC858C PEL
BC858C PEL
BF824 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BF824 PEL
BFQ252A
BAV99
BF824
BF840
BFQ232A
PEL
PEL
PEL
BF840 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BF824 PEL
BFQ252A
BAV99
BF840
BF824
BFQ232A
PEL
PEL
PEL
BZX84-C8V2 PEL
BZX84-C8V2 PEL
BZX84-B27 PEL
BZX84-C6V8 PEL
BAV99 PEL
5.2 - 65
Ordering code
5322 130 82199
5322 130 82199
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 42136
5322 130 42136
5322 130 44711
5322 130 44711
5322 130 80406
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 80255
4822 130 42513
4822 130 42513
4822 130 60383
4822 130 83566
4822 130 83566
4822 130 83566
4822 130 60383
4822 130 62932
5322 130 34337
4822 130 60383
4822 130 60887
4822 130 62751
4822 130 60887
4822 130 83566
4822 130 83566
4822 130 83566
4822 130 60383
4822 130 62932
5322 130 34337
4822 130 60887
4822 130 60383
4822 130 62751
5322 130 80255
5322 130 80255
5322 130 82039
5322 130 80406
5322 130 34337
5.2 - 66
V 3236
V 3237
V 3301
V 3311
V 3312
V 3413
V 3416
V 3421
V 4001
V 4002
V 4003
V 4004
V 4031
V 4032
V 4033
V 4034
V 4036
V 4037
V 4038
V 4039
V 4040
V 4041
V 4042
V 4043
V 4044
Item
V 3002
V 3061
V 3062
V 3101
V 3102
V 3103
V 3105
V 3111
V 3113
V 3131
V 3132
V 3133
V 3134
V 3136
V 3137
V 3201
V 3202
V 3203
V 3205
V 3211
V 3213
V 3231
V 3232
V 3233
V 3234
BC858C PEL
BF824 PEL
BF824
BF840
PEL
PEL
BZX84-B12 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BF824
BFQ252A
PEL
BAV99 PEL
BF840
BF824
BFQ232A
BAS21
BAS21
PEL
PEL
PEL
PEL
BF840 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BZX84-B12 PEL
BF824 PEL
BFQ252A
BAV99
BF840
BF824
BFQ232A
PEL
PEL
PEL
BAS21
BAS21
PEL
PEL
BF820 PEL
BC858C PEL
BAV99 PEL
BZX84-C8V2 PEL
BZX84-B27 PEL
BZX84-C6V8 PEL
BAV99 PEL
BF821 PEL
BF821
BF821
BF821
BF821
BF820
PEL
PEL
PEL
PEL
PEL
BF820 PEL
BZX84-B18 PEL
BAS21
BF820
BF821
PEL
PEL
PEL
BAS21
BAS21
BAS21
BAS21
BAS21
PEL
PEL
PEL
PEL
PEL
DIODE,CHIP
DIODE,CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
DIODE,CHIP
DIODE,CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
Description
TRANSISTOR,CHIP
TRANSISTOR.CHIP
TRANSISTOR,CHIP
TRANSISTOR.CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
TRANSISTOR.CHIP
TRANSISTOR
DIODE,CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
TRANSISTOR
DIODE,CHIP
DIODE,CHIP
TRANSISTOR.CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
TRANSISTOR.CHIP
TRANSISTOR
DIODE,CHIP
TRANSISTOR.CHIP
TRANSISTOR.CHIP
TRANSISTOR
UNIT DESCRIPTIONS
Ordering code
4822 130 42513
4822 130 60383
4822 130 60383
4822 130 60887
4822 130 83566
4822 130 83566
4822 130 83566
4822 130 60383
4822 130 62932
5322 130 34337
4822 130 60887
4822 130 60383
4822 130 62751
4822 130 33702
4822 130 33702
4822 130 60887
4822 130 83566
4822 130 83566
4822 130 83566
4822 130 60383
4822 130 62932
5322 130 34337
4822 130 60887
4822 130 60383
4822 130 62751
4822 130 33702
4822 130 33702
5322 130 62802
4822 130 42513
5322 130 34337
5322 130 80255
5322 130 82039
5322 130 80406
5322 130 34337
4822 130 61923
4822 130 61923
4822 130 61923
4822 130 61923
4822 130 61923
5322 130 62802
5322 130 62802
5322 130 83709
4822 130 33702
5322 130 62802
4822 130 61923
4822 130 33702
4822 130 33702
4822 130 33702
4822 130 33702
4822 130 33702
UNIT DESCRIPTIONS
Item
V 4101
V 4102
V 4103
V 4104
V 4106
V 4107
V 4108
V 4109
V 4111
V 4112
V 4113
V 4114
V 5001
V 5002
Description
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE,CHIP
CONNECTORS AND SOCKETS
X 2101
X 2301
X 2402
X 2403
X 2411
CONNECTOR
CONNECTOR
CONNECTOR
SOCKET
CONNECTOR
X 2501 CONNECTOR
BF824
BF824
BF840
BF840
BF824
PEL
PEL
PEL
PEL
PEL
BF824
BFG35
BFG35
BFG55
BFG55
PEL
PEL
PEL
PEL
PEL
BBY62 PEL
BC858C PEL
BAS21
BAS21
PEL
PEL
4-P SNG RT.ANG
26-P DBL STRGHT
3-P SNG RT.ANG
55595 PEL
26-P DBL STRGHT
50-P DBL STRGHT
5.2 - 67
Ordering code
4822 130 60383
4822 130 60383
4822 130 60887
4822 130 60887
4822 130 60383
4822 130 60383
5322 130 62805
5322 130 62805
5322 130 62806
5322 130 62806
5322 130 82685
4822 130 42513
4822 130 33702
4822 130 33702
5322 265 30907
4822 267 50668
5322 265 30433
5322 255 40502
4822 267 50558
5322 265 61242
UNIT DESCRIPTIONS 5.3-1
5.3 MICROPROCESSOR A3
5.3.1 Description A3
Introduction
The unit can be seen as the heart of the oscilloscope. It controls all oscilloscope functions and receives input signals from the following sources:
- the rotary and push button knobs present at front unit A4 and CRT controls unit A5.
- commands from an external computer that are applied to the RS232 interface that is part of microprocessor D1001.
- circuits throughout the oscilloscope indicating the state of the circuitry.
- commands from an external computer that are applied via the optional IEEE-488 interface. This interface is also located on unit A3.
Control signals coming from the microprocessor unit can be split up as follows:
- serial data that is applied to numerous digital-to-analog converters that control the continuous oscilloscope functions.
- serial data that is applied to latches that control "on/off" oscilloscope functions.
- 16 analog output voltages that control continuously variable "potentiometer" functions in the oscilloscope.
Diagram 1
The microprocessor system is formed by microprocessor D1001, FlashROM D1013 and RAM
D1012. FlashROM D1015 is used for instrument extensions such as digital signal storage and processing. Amongst other features the processor incorporates 8 analog "ADC" inputs (ACHO ...
ACH7), a RS232 interface (CPTXD, CPRXD, CPDTR, CPRTS, CPCTS, CPDSR) and a I2C bus
(SDAUP/SDA, SCLUP/SCL). Via the I2C bus structure many control buffers and digital-to-analog converters are loaded with data. D1001 has a 12 MHz clock with crystal G1001 that is connected between pin 8 and 9. Half the clock frequency is available as CPCLOCK at output pin 7. The 8 analog
ADC inputs ACHO ... ACH7 are used for the autocal function (YCAL and XCAL) and probe identification (PTEST-XA). These inputs are also used for temperature measurement (R1009) and time base status indication (signal TBSMART). The outputs PRMUXO through PRMUX2 are used for the probe detection circuit on the next diagram.
D1011 demultiplexes the combined address and databits CPADOO through CPAD07. The output consists of address-information only. Address information is present on the address/data bus if input
ALE-HT is high.
The output latch D1017 creates the enable signals for the I2C bus latches and digital-to-analog converters that control the circuits throughout the oscilloscope.
Signal POWER-HT is low the first 250 ms after switching-on. This results via the gates D1007 in a low signal CPRESET-LT that initializes the microprocessor D1001. RESET-LT resets a number of chips at the unit A3 and also front unit A4. Signal EA is made high; this has the result that the microprocessor can only reach its internal ROM. This ROM incorporates the start-up routine. The routine ends by applying signal CPRSTCSLT to pin 11 of flipflop D1014. This makes signal EA low and the microprocessor can reach the FLASHROM D1013.
D1009 is a PAL that makes the selection for various chips on the unit. Examples are D1012 RAM selection via RAMCS-LT (pin 19) that results in RCS-LT via gate D1018. D1018 also generates the write pulse WRROM-LT for D1013. D1013 EPROM selection occurs via D1009 output signal
ROMOCSLT. D1015 EPROM selection occurs via D1009 output signal ROM1CSLT.
D1016 is a 3 to 8 decoder that controls circuits on unit A3. Depending on the state of the 3 inputs
CPA04 through CPA06, one of the 8 outputs is low at a time.
5. 3- 2
UNITS DESCRIPTION
Diagram 2
The resistance value of the indication ring in the probe at channels 1,2, 3 and 4 is present between ground and pin 13, 14, 15 and 12 of multiplexer D1008 respectively. The analog probe resistance value results in a certain DC voltage that is switched to ADC input PTEST-XA of the processor
D1001.
The circuit part indicated with ’RS232-C INTERFACE’ consists of a buffer D1302 that converts the microprocessor’s TTL signals (0 and 5 volt) into -12 and +12 volt RS232 output levels. The buffer
D1301 does the same in the opposite direction.
The buzzer circuit incorporates an oscillator built around the buffer D1301 and amplifier D1302.
D1302 is enabled by flipflop D1102. The buzzer H1001 is a piezo ceramic transducer.
The +5 V reference voltage for the A.D.C.’s inside D1001 is derived from the instrument’s +10 V reference voltage via operational amplifier N1801.
Diagram 3
This diagram shows the "DAC-POT" IC D1112 that converts the digital data from the microprocessor into 16 analog voltages. Each of these voltages is independently adjustable between 1 V and 4 V.
The reference voltage for this D/A converter comes from N1101.
This diagram also shows the IEEE interface that is a factory-installed option. The heart of the interface is lEEE-controller D1104. The registers inside D1104 can be controlled by microprocessor
D1001 via the buffer D1103. The clock for D1104 is generated by crystal oscillator G1111, D1101 and divider stage D1102. The bidirectional buffers D1107, D1108, D1109, D1111 form an interface between D1004 and the IEEE bus devices outside the oscilloscope. D1106 controls the bidirectional buffers.
Diagram 4
This diagram comprises the generation of CRT text and cursors. The heart of the system is formed by the text generator IC D1402. This device is controlled by the microprocessor via the 8 data bus lines CPA00 through CPA07. The text that has to be displayed is stored in RAM D1401. Every 19 ms the input TXTCS-LT at pin 35 of D1402 becomes active and the actual text information is written into the text generator.
The vertical component of the text display is represented by the 10 bits code Y0 through Y9. This is converted into analog via DAC N1401. The balanced current output signals are YTXT0 and YTXT1.
These signals are in opposite phase.
The horizontal component of the text display is represented by the 10 bits code X0 through X9.
Conversion into analog occurs via DAC N1402. The balanced current output signals are XTXT0 and
XTXT1. These signals are in opposite phase.
The switching of the X and Y deflection between text and normal signal is controlled by the current signals XYSW0 and XYSW1 that are derived from pin 64 and 65 of D1402 and are in opposite phase.
Text is displayed if XYSW1 is at 1 mA and XYSW0 is at 0mA. Text display is on during the autocal procedure if TXTOPT-HT is high.
The current signals ZSW0 and ZSW1 switch the Z amplifier between signal display and text display and are derived from pin 80 and 1 of D1401. At time base sweep speeds of 0.1 ms/div and faster, parts of the text are displayed during the time base hold-off period. The presence of the hold off period is indicated to D1402 via V1401 by signal TBHOTXT. At sweep speeds of 0.2 ms/div and slower, the text is displayed at a random basis during the normal signal display that is interrupted for a while. This is done so that it is invisible to the user.
UNITS DESCRIPTION 5 . 3 - 3
The signal ZINFO-LT that comes from pin 80 of D1401 determines the intensity of the text and cursors. This happens via the output current signals ZTXTO and ZTXT1 that are in opposite phase.
They originate from the circuit with V1448, V1449, V1443, V1444 and V1446. Intensity is also controlled by the front panel INTENS TEXT rotary that influences the DAC output signal INTRDO.
Diagram 5
Diagram 5 shows the pinning of the two connectors on microprocessor unit A3. Connector X1101 makes contact with the motherboard. Connector X1501 makes contact with the signal unit A1 via a flat cable. D1931 is a real-time clock that may be present as a factory-installed option.
5.3.2 Signal name list A3
Note: In the signal name list you find the itemnumber of the component that is source or destination.
Behind this itemnumber (separated b y y o u find the number of the diagram where the source/destination can be found.
NAME MEANING SOURCE DESTINATION
CPCTS
CPDSR
CPDTR
CPRTS
CPRXD
CPTXD
DACPEN-LT
DACPWR-LT
DLENO-HT
DLEN1-HT
DLEN2-HT
FOCUS-DA
HOLDOFF
INTTRA
MTBVAR
LEVDTB
LEVMTB
POS1
POS2
POS3
POS4
POWER-HT
PRMUXO
PRMUX1
PRMUX2
PROBE1
PROBE2
PROBE3
PROBE4
PTEST-XA
SCL
SCLUP
SDA
SDAUP
STROBEO-HT
STROBE1-HT
RS232 CLEAR TO SEND (TTL)
RS232 DATA SET READY (TTL)
RS232 DATA TERMINAL READY (TTL)
RS232 REQUEST TO SEND (TTL)
RS232 RECEIVE DATA (TTL)
RS232 TRANSMIT DATA (TTL)
ENABLE SIGNAL FOR DACPOT CIRCUIT
WRITE SIGNAL FOR DACPOT CIRCUIT
DATA LATCH ENABLE 0
DATA LATCH ENABLE 1
DATA LATCH ENABLE 2
DC PART FOCUSING SIGNAL
HOLD OFF CONTROL SIGNAL
TRACE INTENSITY CONTROL SIGNAL
MAIN TB VAR CONTROL SIGNAL
DELAYED TB LEVEL CONTROL SIGNAL
MAIN TB LEVEL CONTROL SIGNAL
CH1 POSITION CONTROL SIGNAL
CH2 POSITION CONTROL SIGNAL
CH3 POSITION CONTROL SIGNAL
CH4 POSITION CONTROL SIGNAL
POWER UP INDICATION SIGNAL
PROBE READ-OUT MPX CONTROL 0
PROBE READ-OUT MPX CONTROL 1
PROBE READ-OUT MPX CONTROL 2
PROBE DETECTION/50C PROTECT CH1
PROBE DETECTION/50Q PROTECT CH2
PROBE DETECTION/5CX2 PROTECT CH3
PROBE DETECTION/50O PROTECT CH4
PROBE TEST SIGNAL
SERIAL CLOCK
SERIAL CLOCK AT MICROPROCESSOR
SERIAL DATA
SERIAL DATA AT MICROPROCESSOR
STROBE/ENABLE SIGNAL 0
STROBE/ENABLE SIGNAL 1
D1301:02 D1001:01
D1301:02 D1001:01
D1001:01 D1302:02
D1001:01 D 1302:02
D1301:02 D1001:01
D1001:01 D1302:02
D1016:01 D1112:03
D1016:01 D1112:03
R1063:01 X1101:05
R1064:01 X1101:05
R1066:01 X1101:05
R1136:03 X1101:05
R1122:03 X1501:05
R1123:03 X1501:05
R1124:03 X1501:05
R1126:03 X1501:05
R1125:03 X1501:05
R1129:03 X1501:05
R1132:03 X1501:05
R1134:03 X1501:05
R1128:03 X1501:05
X1101:05 D1007:01
D1001:01 D1008:02
D1001:01 D1008:02
D1001:01 D1008:02
X1101:05 V1014:02
X1101:05 V1013:02
X1101:05 V1012:02
X1101:05 V1011:02
D1008:02 D1001:01
R1054:01 X1101:05
D1001:01 R1053:01
R1052:01 X1101:05
D1001:01 R1051:01
R1067:01 X1101:05
R1068:01 X1101:05
5 . 3 - 4
TBHOTXT
TRASEP
UFODAVLT
UFOWR-LT
VAR1
VAR2
VAR3
VAR4
XCAL
XTXTO
XTXT1
XYSWO
XYSW1
YCAL
YTXTO
YTXT1
ZSWO
ZSW1
ZTXTO
ZTXT1
HOLD OFF INDICATION FOR TEXT IC
TRACE SEPARATION CONTROL SIGNAL
FRONT WRITES TO MICROPROCESSOR
MICROPROCESSOR WRITES TO FRONT
CH1 VARIABLE GAIN CONTROL SIGNAL
CH2 VARIABLE GAIN CONTROL SIGNAL
CH3 VARIABLE GAIN CONTROL SIGNAL
CH4 VARIABLE GAIN CONTROL SIGNAL
SIGNAL FOR X CALIBRATION
HORIZONTAL TEXT SIGNAL 0
HORIZONTAL TEXT SIGNAL 1
X AND Y SWITCHING TEXT/SIGNAL 0
X AND Y SWITCHING TEXT/SIGNAL 1
SIGNAL FOR Y CALIBRATION
VERTICAL TEXT SIGNAL 0
VERTICAL TEXT SIGNAL 1
Z SWITCHING TEXT/SIGNAL 0
Z SWITCHING TEXT/SIGNAL 1
TEXT INTENSITY 0
TEXT INTENSITY 1
UNITS DESCRIPTION
X1101:05 R1411:04
R1127:03 X1501:05
X1101:05 D1001:01
D1016:01 X1101:05
R1135:03 X1501:05
R1133:03 X1501:05
R1131:03 X1501:05
R1130:03 X1501:05
X1101:05 D1001:01
R1451:04 X1101:05
R1451:04 X1101:05
V1431:04 X1101:05
V1434:04 X1101:05
X1101:05 D1001:01
R1453:04 X1501:05
R1454:04 X1501:05
V1436:04 X1101:05
V1442:04 X1101:05
V1446:04 X1101:05
V1444:04 X1101:05
'w '
HOLDOFF
HTBVAR
LEVDTB
POS4
P083
POS2
POS1
C31 c
C90 e
C29 o
CM D
+ 12V
»■
+SVD
C27 o
C M (
CM (
I-
PROBE4
PROBE3
»-
YTXTl
YTXTO b
ZSW1
ZSWO
+5VBAT b b
STRMTB-HT
C14 ,
CIS O
C l 2 o
C11 □
CIO | c® o
C8 o
TXTCS 4.7
BATRDYHT
C7 ,
CO o
C5 o
C4 o
C3 o
C2 o
C1 ,
CPA13
CPA10
CPAD07
CPAD04 b
631 o
630 o
620 o
B M D
XCAL
-12V
+ 12V b
♦ 5VD B27 a
B M q
B25 a
PROBE 1
PROBE2 b
INTROO
ZTXTO
ZTXT1 b
XYSW1
XYSWO b
TBSHART
STROBE 1-HT
I
8TRO6E0 MT B13 a
B12 a
B11 a
B10 G
DLEN1-HT
SCL
BATINTMT
RQSQP-LT
ALE-HT
CPROLT
Be a
B6 a b
CPA 12 cpaoo
CPAD00
CPAOOS
CPAO01
D 0 0 0 0 i -
+6VBAT -
DK)1
OKU
0*03
0104
EOI
OAV
NRFO
NOAC
Q - - O oSS«
I
;i
IFC
9RQ
° S 8 D
O S B D
ATN
0*06 oioe
0*07
0*00
REN fi)
*<
6
c
0)
Ol
Gd
G> c
□ ai
HOLDOFF
HTBVAA
LEVDTB
POS4
P083
POS2
POS1
X1101
C32 o
C31 a
C30 o h
♦ 12V
X1101
B 3 2n
B91 a
B 3 0 d h
XCAL
•12V
A32 o
A9i a
A30 o h
YCAL
Si-
t-
0 0 0 0 0
*3 s S
0 0 0 0 cn
03
03
x i 101
CS2 g ft
C31 g
C30 o
C20 o
C26 g
C27 o
C20 a
C26 g
C24 g
C23 g
C22 g
♦ 12V ft
+SVD ft
PROBE4
PROBES ft
YTXT1
C31 a
C20 g
YTXTO ft
2SW1 zswo c io a
CIO B
C17 g
CIO g
C1S o
C14 o
CIS o
C12 g
4-6VBAT ft ft
STRMTBHT ft
STRDTBHT ft
SOA C11 o c io a co a ce o
WS
TXTCS-LT
BATROYWT
C7 a ce □
UFORES ft
CPA13 CS a
C4 a
CS O
C2 a
C l g
CPA10
CPA007
CPAD04 ft
X1101
B S 2g
B31 g
BSOg
020 g
B28 g ft
XCAL
■ 12V
♦ 12V ft
♦ 5VD B27 q
B20 g
B 2 5 g
PROBE 1
PROBE2
B24 g
B23 q
B22 g f t
INTR00
ZTXT0
B21 a
620 g
B10 g
BIO q
B17 a
B ie □
ZTXT1 ft
XYSW1
XYSW0 ft
TBSMART
B is a
014 g
STROBE1-HT ft
8TROBEO HT B is a
B12 Q DLEN1-HT
Bl1 o
010 o bo □
Be □
SCL
BATINTHT
ROSOFM.T
ALE HT
B7 o CPRO-LT
B0 o f t
CPA 12 B6 a
B4 q CPA00
B9 □ CPA006
B2 o
B l g
CPAOOS
CPAO01
X1101
A32 g ft
YCAL AS1 o
AS0 g
A 2 0 q POWEFHT
FOCUS-OA
A2S g
A27 o
A26 g
A2S o f 5VO
♦10VREF
A24 g m ft
XTXT0
XTXTl A23 g
A 2 2 g ft
UFOWR A21 o
A20 g CPOAV-LT
A10 p UFORD-LT
UFODAV4.T
A10 g
A17 g
A16 g T8HOTXTT
A16 o
A14 o
I ft
DLEN2-HT A19 O
A12 o
A ll p
A10 q
A9 g
A6 g
DLENQ-HT ft
OPTCS-LT
I
OPT1NTLT
A7 O
A0 o as a
CPRWRLT
RE80PTLT
CPA11
A4 a
A3 O
A2 a
A1 g
CPA06
CPAD05
CPAO02
CPAD00
R1102 ~
R1101 -
R1679 -
R1672 -
R1071 -
R1104 | -
- | B1674 ~[u
HI 406 -
H i402 -
D1402
O)
'Nj
> oo O O ai
bc646c U p
BC866C : 3Lp
5 . 3 - 6
6 5 4 3 2
UNIT DESCRIPTIONS
1
D
6 5 4 3 2
B
1
ST8277
970428
A
Lay-out 15 - Micro-miniature component side of microprocessor unit A3
8
5 . 3 - 6
7 I 6 5 4 3 2
UNIT DESCRIPTIONS
1
Lay-out 15 - Micro-miniature component side of microprocessor unit A3
S T 8 2 7 7
9 7 0 4 2 8
UNIT DESCRIPTIONS 5 . 3- 7
5.3.4 Location list Microprocessor unit A3
D1004C12
D1007 C9
D1008 C9
D1009 D12-L
D1011 C12
D1012C13
D1013 B12-L
D1014D9
D1015 A12-L
D1016C12
D1017 B9
D1018 A11
D1101 B2
D1102 B3
D1103 C4
D1104C4-L
D1106C2
D1107 D4
D1108 D2
D1109 D4
D1111 D3
D1112 A5
C1809 D11
C1811 D9
C1812 D9
C1814C10
C1815C9
C1816A11
C1817C12
C1832C2
C1833 C2
C1842B7
C1843 C7
C1844C6
C1846 B7
C1861 B3-L
C1862B3-L
C1863 B3-L
C1867B2
C1868 B2
C1881 C9
C1882C2
C1891 B6
C1892 B9-L
C1893 A6
C1894 B10-L
C1897 A6
C1898 B9-L
C1899 A6
D1001 C10-L
’-L’ means that the component is located on the printed circuit board side with the large components.
Otherwise the component is located on the side with small components (SMD’s: surface mounted devices).
C1103C4
C1104C3
C1106 C2
C1107 D3
C1108 D2
C1109 D3
C1111 D4
C1112 A4
Cl 121 B3
C1122 B2
C1123 A5
C1301 B1
C1302C1
C1303 C2
C1304C1
C1002C11
C1003C11
C1004D11
C1011 B9
C1012 B8
C1013B9
C1014 B9
C1022B2
C1051 B10
C1052 B10
C l 053 B7
C1054 B7
C1056 B9
C1101 B2
C1102 B3
C1306C1
C1307C1
C1401 C7
C1402 C7
C1403 D7
C1404 B7
C1405 B8
C1406 C7
C1407 B7
C1408C8
C1409 D7
C1410B8
C1421 D7
C1801 C11
C1802A11
C1803 A11
C1804 B11
C1805 B12
C1806C12
C1807 B12
D1301 C1
D1302C1
D1401 C7
D1402C6-L
D1931 C9-L
G1001 C11-L
G1111 B2-L
G1931 C9-L
G4401 C7-L
H1001 D1-L
L I111 B2-L
N1101 A6
N1401 B8
N1402 B7
N1801 A6
R1001 D10
R1002C11
R1003 D11
R1004C11
R1005 A12
R1007C11
R1008 D12
R1009 C11-L
R1010C9
R1018B2
R1019B2
R1028C1
R1029C1
R1031 C5
R1032 C5
R1033 C5
R1034 C5
R1036 C5
R1037 C5
R1038 C5
R1039 C5
R1041 A12
R1042 A12
R1043 A12
R1044 A12
R1046 A12
R1047 A12
R1048 A12
R1049 D11
R1051 B10
R1052 B9
R1053 B10
R1054 B9
R1057 B9
R1058 B9
R1134 A5
R1135 B5
R1136 A5
R1137B4
R1401 C7
R1402 B7-L
R1404 B7
R1406 B7-L
R1408 B7
R1409 C6
R1411 C6
R1412C6
R1413C6
R1421 C8
R1422 C8
R1423 C8
R1424 D8
R1426 C7
R1427C7
R1428C7
R1429 D7
R1430C7
R1431 C7
R1432 D8
R1061 B10
R1062 B9
R1063 B9
R1064 B9
R1066 B9
R1067 B9
R1068 B9
R1071 D11
R1101 A6-L
R1102 A6-L
R1103 A5-L
R1104 A6-L
R1106 A5
R1121 A5
R1122 A5
R1123 B5
R1124A5
R1125 B5
R1126 A5
R1127 B5
R1128 A5
R1129 B5
R1130 A5
R1131 B5
R1132 A5
R1133 B5
5 . 3 -8
R1433 D8
R1434D7
R1435C7
R1436 D7
R1437 D8
R1438 D8
R1439 D7
R1441 D7
R1442 D7
R1443 D7
R1444 D7
R1451 B8
R1452 B8
R1453 B8
R1454 B8
R1801 B10
R1802A11
R1803A11
R1805 A11
R1807A11
R1842C8
R1843 D6
R1844 D6
R1846 B6
R1862 B4
R1871 A6-L
R1872 A6-L
R1873 A6-L
R1874 A6-L
R1876 D11
R1877 A6
R1881 C9
R1882 C2
R1883 C2
R1884 C2
R1901 A5
V1006 C9
V1011 B9
V1012B8
V1013B9
V1014 B9
V1401 C6
V1421 C8
V1431 C7
V1432 C8
V1433 C8
V1434 C8
V1436 D7
UNIT DESCRIPTIONS
V1438 D8
V1441 C8
V1442 D8
V1443 D8
V1444 D8
V1446 D8
V1447 D7
V1448 D7
V1449 D7
V1451 D7
X1101 9A-L
X1102 D4-L
X1301 C1-L
X1501 B5-L
UNIT DESCRIPTIONS
5.3.5 Circuit diagrams
5 . 3 - 9
Diagram 1 - Central processor unit
UNIT DESCRIPTIONS
5.3.5 Circuit diagrams
5 .3 - 9 r i
Diagram 1 - Central processor unit
R1682
01012
5. 3-10
| RS232-C INTERFACE |
UNIT DESCRIPTIONS
| PROBE INDICATION INPUTS |
•10VREF ^
^
■
C1888
REF
X1101/C28 X1101/C2S X1101/B2S X1101/B28
01301
<488
BUZZER CIRCUIT
+ 12VE
01302
1486
T T L / xxxxx
01302
1488
T T L / XXXXX
T x
I '
^ C1306
I *
01302
1488
T T L / xxxxx
I 1n I 8________
+ 12V
+ 12VE
+ 10VREF
-12V i-IZVE
+ 10VREF
| +5VREF SOURCE |
0.1%
Diagram 2 - Auxiliary circuits
REF NR
01008
01301
01302
N1801
TYPE
HEF40S1
1488
I486
O P77
-SO
18
SYE + 12V
14
7
• 12V +12VE -12VE
J.
4
14
C
C1B31
C1832, C l833
ST8279
070428
01001*1
01001/84
01001/31
| PROBE IN D IC A T IO N IN P U T S |
1
X1101/C26
01010
HEF4O00
01010
HEF4O06
T
C1682
100n
I tL Cl
682
icieoi lOGp
T
20V J_ lOOn
01102
74LS74
BU ZZE R C IR C U IT |
, C1022
1 220n x x x x x
£T
01301
1400
/ T T L
R1O10
100K
R1010
TT kw
T T L / »
&
C1883 + L C18S4
| 25V
I R1063
1 ■‘t . . h
^
^
C l832
lOn
I
^C18C7 ^C1896 ioo n
J T wan
I R1884
C1899
100n
-12V
1-12VE
-10VRE
5. 3-10
| R S 232-C INTERFACE ]
UNIT DESCRIPTIONS
01301
R1026
1006
V1018
8ZX84
C4V3
_ _ _ _ _ _ _ _ _ _ _ _ _ _
BU ZZER a R C U IT |
01301 f
I
;
R1B83
'+12V
•ftOVREF
T T L / xxxxx
V
T T L / xxxxx
T ^ r i “
J. C13 T" i
I *
T T L / xxxxx
^ C1307_
1 “
| + 5 V R E F S O U R C E |
0.1%
♦ 5VREF
REF NR piooe
01301
01302
N1801
TYPE
H g4 0S 1 i* 8 0
1488
OP-77
-SO
18
-5VE + 12V
14
•12V +12VE •1ZVE
J.
14
C
31831
C1B32, C l 833
^ lOn
+10VR6F
Diagram 2 - Auxiliary circuits
R1877
S
1006
ST8279
970428
5.3-11 UNIT DESCRIPTIONS
CPAD04
CPAD05
CREDOS
CPW X7
----------- oA C P w n-a
. — ; » « « « «
♦2.SVRCF
^
1
C l 123 |
T - -1 1
™ CMC
CMC
24
1
2
3
4
»
IS
14
24
D1112
000244
DAC-PO T
MCI*
MCI*
MCI*
MC««
C1M 2
^
C l 101
X
C l 102
J_
C1103
^
C l 104
^
C l 108
^
C1107
X
C1108
X c,,0> X r r r r r r r r r i
^ C 1 1 1 2
J 220n
^
^
C l908
100n ♦T
Diagram 3 - Potentiometer DAC and lEEE-option
UNIT DESCRIPTIONS
5.3-11
^ C l 968
T 100n
C1963
I80u
Diagram 3 - Potentiometer DAC and lEEE-option
5. 3-12
G4«oi
12MG
| TEXT/CURSOR CONTBOL~~|
UNIT DESCRIPTIONS i
Diagram 4 - Text and cursor circuit
I TEXT/CURSOR MEMORY~|
04401
12MG
*12V
12V
REF NR
01401
D1402
N1401
N'402
TYPE
8264
PCF-3036
PACK?
DAC10
5TX
26
16
15 3
14
X1101«23
NTRDO
I
I
5. 3-12
G4401
12MG
TEXT/CURSOR CONTROL
UNIT DESCRIPTIONS
Diagram 4 - Text and cursor circuit
UNIT DESCRIPTIONS
D1013
CPADDRESS
CPDATABUS
D1012
CPADOO cp m xc
CPAD06
CPAoe
CPA11
R1016 ^
RE8QPT4.T
D1001/50 ^
C PW B-LT
D1001/40 ^
0PT1WHT
D1004/11
R1063
R1066
DLENO-HT
DLEM2-HT
R1421 ^ TBHOTXT
D1001/30
D1004/8
D1001/41
D1016/1S
UFOOAV-LT
UFORO-LT
CPOAV-iT
UFOWR-IT
R14S2 ^ XTXT1
R1461 ^ yTXT°
R 1136
+10VR EF ►
+5V D
FOCUS-OA
D1007/1
PO W ER-KT
X
CAL
C1053
YCAL
X1101
OPTION
|
■■ u l K I I
?
32KHZ
* 2 2 0
|
L h X o OCO
D1031
PCF85B3
1 Of t o
VDO
6
VSt
4
«0
•c
40
M
3
6
7
SCLUP
+5V BAT _
^ ^
X
^
C1B32
100n
CPAD01
CPAD03
CPADOO
CPA09
CPA12
01001/3
D1103/11
D1016/10
01001/26
R1064
R1064
R1067
CPRO-LT
ALE-KT
RQSORLT
BAT1NTHT s e t
DLEN1-HT
STROBEO-HT
R1068
C l 056
V1431
V1434
V1444
V1446 x
STROBE1-HT________
TBS MART x
XYSWO
XYSW1 x
Z T X T f
ZTXTO
X
B14
B15
B20
B21
B2
B3
B4
X1101
R1444
R1121
V1013
V1014
V1054
INTRDO
PROBE2
PROBE 1
X
+
5
VD ► -
X
+ 12V ► -
-
12
V ► -
XCAL
B23
B24
B2S
B26
82 7
^ a a a
B29
B30 j T T t t z .
•PM 33XX o n ly
01007/10
01010/2
01000/17
R1062
R10S2
R1058
R1057
V1436
V1442
R1453
R1464
V1012
V1011
C31
J T T
C 32
C24
C 2S
C 26
C 27
C 2 8
C l 2
C 13
C14
C 1S
C 1 7
CIO r i i
L
X1001
BATTERY 1
2 I
V1901
BAV06
»5VBAT
1
5.3 -13
R1122 ^ H O LD O FF
INTTRA
R1123
R1124 ^
R1125
MTBVAR
LEVM TB
R1126
LEVDTB
R1127
T R A S E P
P O S4
R112B
R1135
^ VAR1
R1134 ^
P O S3
R1133
VAR2
R1132 ^
POS2
VARS
R1131
R1128
^ POS1
R1130 ^
R1901
VAR4
M TBVAR
H O LD O F F
C1900 I"
W TTRA
O AC
^ C l 001 I'"
IWTRDC
C l 002 J L C 1003 1“
D A C
I’
LEVM T B LEVDTB
^ C 1904 ^ C1006 I'"
O AC
I’"
T R A S E P P O S 4
. i . C 1906 ^ C l 007 I'"
O A C
I’"
PO S1 V A R4
^ C 1008 I"
VA R3 r C 1010
VAR2
O A C
□ A C
I c ie o e 1“
P O S2
C1011
”
P O S3
I ' "
^
^ C 1912 J b C l 913 1“
O AC
I’"
VAR1 F O C U S-O A
C 1 91 4 ^ C 1 91 5 I'"
O A C
ST6262
070428
Diagram 5 - Connectors
UNIT DESCRIPTIONS
CPDATABUS
R1016
D1001/50
D1001/40
R1063
R1066
D1001/30
D 1004/6
01001/41
D1016/15
R1452
R1461
♦10VR EF I
+SVD |
FOCUS-OA
YCAL
X -
CAL
R5051
RS053
01103/11
01016/10
V1431
V1434
R1444
R1121
V1013
V1014
B14
B1S
B20
B21
+ 12V
•12V
•PM33XX o n ly
O1010
7 « R »
+ 12V
-12V
01010
74F08
814
815
8 1 7
B18
01010/2
01000/17
R14S3
R1464
V1012
V1011
C24
C2S
C27
0 2 8
C31
C32
C l 2
C13
C14
C IS
C16
C17 l~
I
I
X1901_______
BATTERY 1
2 I
“
1
V1001
BAV9G
- w -
5.3 -13
^ C1904
TRASEP
J _ C1906
^
POST
C1906
^
VAR2
C1912
^ C1B14
I ”
R1122
R1123
R1124
R112S
R1126
R1127
R1128
R1135
R1134
R1133
R1132
R1131
R1120
R1130
X
DAC
“ — c r
VAB4
C l 90S
I ”
POS2
C1B11
ST8282
070428
Diagram 5 - Connectors
UNIT DESCRIPTIONS
Item
5.3.6 Parts list
Description
C 1405
C 1406
C 1407
C 1408
C 1410
C 1414
C 1421
C 1801
C 1802
C 1803
C 1804
C 1805
C 1806
C 1807
C 1809
C 1051
C 1052
C 1053
C 1054
C 1056
C 1057
C 1059
C 1102
C 1112
C 1123
C 1301
C 1302
C 1303
C 1304
C 1306
CAPACITORS
C 1002
C 1003
C 1004
C 1006
C 1011
C 1012
C 1013
C 1014
C 1021
C 1022
C 1307
C 1401
C 1402
C 1403
C 1404
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
63V 5% 39pF
63V 5% 39pF
63V 10% 100nF
63V 10% 100nF
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
63V 10% 2.2nF
63V 10% 220nF
63V 5% 220pF
63V 5% 220pF
63V 10% 220nF
63V 10% 220nF
63V 10% 10nF
63V 10% 10nF
63V 10% 100pF
63 V 10% 10nF
63V 10% 220nF
63V 10% 10nF
63V 5% 1 nF
63V 5% 1nF
63V 5% 1nF
63V 5% 1nF
63V 5% 1nF
63V 5% 1nF
63V 5% 27pF
63V 5% 27pF
63V 10% 10nF
63V 10% 10nF
63V 5% 100pF
63V 10% 10nF
63V 10% 10nF
63V 5% 100pF
63V 5% 100pF
63V 5% 100nF
63V 10% 100nF
63V 10% 100nF
63V 10% 100nF
63V 10% 10nF
63V 10% 10nF
63V 10% 100nF
63V 10% 10nF
63V 10% 100nF
63V 10% 10nF
Ordering code
5. 3-15
5322 122 32966
5322 122 32966
4822 122 33496
4822 122 33496
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
4822 121 41339
4822 122 32916
4822 122 33575
4822 122 33575
4822 122 32916
4822 122 32916
5322 122 34098
5322 122 34098
5322 122 32531
5322 122 34098
4822 122 32916
5322 122 34098
5322 126 10511
5322 126 10511
5322 126 10511
5322 126 10511
5322 126 10511
5322 126 10511
5322 122 31946
5322 122 31946
5322 122 34098
5322 122 34098
5322 122 32531
5322 122 34098
5322 122 34098
5322 122 32531
5322 122 32531
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 34098
4822 122 33496
5322 122 34098
5.3-16
UNIT DESCRIPTIONS
Item
C 1811
C 1812
C 1814
C 1815
C 1816
C 1817
C 1832
C 1833
C 1842
C 1843
C 1844
C 1846
C 1861
C 1862
C 1863
C 1867
C 1868
C 1881
C 1882
C 1889
C 1891
C 1892
C 1893
C 1894
C 1897
C 1898
C 1899
Description
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
63 V 10% 100nF
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
63 V 10% 100nF
63V 10% 100nF
63 V 10% 100nF
63V 10% 100nF
25V 20% 180jxF
25V 20% 180(j.F
25V 20% 180nF
63V 10% 100nF
63V 10% 100nF
63V 10% 100nF
63V 10% 100nF
50 V 10% 10nF
63V 10% 100nF
25V 20% 180nF
63V 10% 100nF
25V 20% 180^iF
63V 10% 100nF
25V 20% 180(iF
63V 10% 100nF
Ordering code
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
4822 122 33496
5322 122 34098
5322 122 34098
5322 122 34098
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
5322 124 42228
5322 124 42228
5322 124 42228
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
5322 124 21731
4822 122 33496
5322 124 42228
4822 122 33496
5322 124 42228
4822 122 33496
5322 124 42228
4822 122 33496
INTEGRATED CIRCUITS
D 1001
D 1004
D 1007
D 1008
D 1009
MICROPROC.
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
I.C. ROM
D 1009
D 1010
INTEGR.CIRCUIT
INTEGR.CIRCUIT
D 1011
D 1012
INTEGR.CIRCUIT
INTEGR.CIRCUIT
D 1013, D 1015 INTEGR.CIRCUIT
INTEGR.CIRCUIT
N74LS32D PEL
PC74HCT14T PEL
HEF4051BT PEL
PLS153AN-PROG
PLS153AN PEL
N74F08D PEL
N74LS373D PEL
56LFP-10TZU HIT
P28F010-150 (*!) and/or
P28F020-150 (*!)
5322 209 52205
5322 209 73968
5322 209 71568
5322 209 11446
5322 209 52095
5322 209 60478
5322 209 61002
5322 209 60178
5322 209 30228
5322 209 30267
5322 209 52348
('!)• This Fl ASH-ROM is EMPTY and must be loaded with operatina and calibration software.
Refer to chapter 8.9.2 for further information. FLASH-ROM capacity depends on instrument configuration (e.g. IEEE option)
D 1014
D 1015
D 1016
D 1017
D 1018
INTEGR.CIRCUIT
FOR IEEE
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
N74LS74AD PEL
P28F010-150 (*!)
N74LS138D PEL
PC74HCT259T PEL
HEF4066BT PEL
5322 209 60993
5322 209 30267
5322 209 61478
4822 209 30086
5322 209 14542
UNIT DESCRIPTIONS 5. 3- 17
Item
D 1102
D 1104
D 1112
D 1301
D 1302
N 1101
D 1401
D 1402
N 1101
N 1401
N 1402
N 1801
Description
INTEGR.CIRCUIT
GPIB
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
I.C. ANALOGUE
I.C. ANALOGUE
RESISTORS
R 1001
R 1002
R 1003
R 1004
R 1005
R 1006
R 1007
R 1008
R 1009
R 1010
R 1018
R 1019
R 1026
R 1028
R 1029
R 1031
R 1032
R 1033
R 1034
R 1036
R 1037
R 1038
R 1039
R 1041
R 1042
R 1043
R 1044
R 1046
R 1047
R 1048
R 1049
R 1051
R 1052
R 1053
R 1054
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.N.T.C.
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
Ordering code
N74LS74AD PEL
P8291A
OQ0244
MC1489ADR2
MC1488D MOT
5322 209 60993
5322 209 81264
5322 209 12468
5322 209 30232
5322 209 30269
OP-77GSR PMI
264ALFP-12T
5322 130 62791
5322 209 30265
PCF3035HP/008 TEXT ASIC 5322 209 30217
OP-77GSR 5322 130 62791
DAC10GS 5322 209 12469
DAC10GS
OP-77GSR PMI
5322 209 12469
5322 130 62791
RC-02H 1% 10K
RC-02H 1% 1M
RC-02H 1% 10K
RC-02H 1% 1E
RC-02H 1% 10K
RC-02H 1% 46 K4
RC-02H 1 % 4K64
RC-02H 1% 1K
NTC640 2% 3K3
RC-02H 1% 1E
RC-02H 1% 100K
RC-02H 1 % 4K64
RC-02H 1% 100E
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1 % 5K11
RC-02H 1% 215E
RC-02H 1% 5K11
RC-02H 1% 215E
4822 051 51003
4822 051 51005
4822 051 51003
4822 051 10108
4822 051 51003
4822 051 54643
4822 051 54642
4822 051 51002
5322 116 30421
4822 051 10108
4822 051 51004
4822 051 54642
4822 051 51001
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 55112
4822 051 52151
4822 051 55112
4822 051 52151
5. 3-18
R 1135
R 1136
R 1137
R 1401
R 1402
R 1404
R 1406
R 1408
R 1409
R 1411
R 1412
R 1413
R 1414
R 1421
R 1422
R 1423
R 1424
R 1426
R 1427
R 1428
R 1125
R 1126
R 1127
R 1128
R 1129
R 1130
R 1131
R 1132
R 1133
R 1134
Item
R 1057
R 1058
R 1059
R 1061
R 1062
R 1063
R 1064
R 1066
R 1067
R 1068
R 1071
R 1101
R 1102
R 1103
R 1104
R 1106
R 1121
R 1122
R 1123
R 1124
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1% 100E
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1 % 51 El
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RMC1/8 1% 51E1
RC-02H 1 % 2K15
1/4W 0.1% 10K
1/4W 0.1% 5K
1/4W 0.1% 5K
1/4W 0.1% 10K
RC-02H 1% 1K
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 1K
RC-02H 1% 10K
RC-02H 1% 1M
1/4W 0.1% 2k5
RC-02H 1% 2k61
1/4W 0.1% 5k
RC-02H 1% 5k11
RMHz 1/8 1% 464Q
RC-02H 1% 100Q
RC-02H 1% 16k2
RC-02H 1 % 5k11
RC-02H 1% 100K
RC-02H 1 % 4k64
RC-02H 1% 14k7
RC-02H 1% 1k47
RC-02H 1% 750Q
RC-02H 1 % 21 k5
RC-02H 1% 2k15
RC-02H 1 % 2k15
UNIT DESCRIPTIONS
Ordering code
5322 111 91893
5322 111 91893
4822 051 51001
5322 111 91893
5322 111 91893
5322 111 91893
5322 111 91893
5322 111 91893
5322 111 91893
5322 111 91893
4822 051 52152
5322 116 82868
5322 116 80369
5322 116 80369
5322 116 82868
4822 051 51002
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51002
4822 051 51003
4822 116 81165
5322 116 80365
4822 111 91821
5322 116 80369
5322 116 81228
5322 116 82898
5322 116 80426
5322 111 92025
5322 116 81228
4822 051 51004
5322 111 91903
4822 111 91816
5322 111 91902
4822 116 82384
4822 111 91818
5322 116 81794
5322 116 81794
UNIT DESCRIPTIONS
Item
R 1429
R 1430
R 1431
R 1432
R 1433
R 1451
R 1452
R 1453
R 1454
R 1801
R 1802
R 1805
R 1807
R 1842
R 1843
R 1844
R 1846
R 1862
R 1871
R 1872
R 1434
R 1435
R 1436
R 1437
R 1438
R 1439
R 1441
R 1442
R 1443
R 1444
R 1873
R 1874
R 1876
R 1877
R 1881
R 1882
R 1883
R 1884
R 1901
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
SEMICONDUCTORS
V 1006
V 1011
V 1012
V 1013
V 1014
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
RC-02H 1 % 2k15
RC-02H 1% 1k
RC-02H 1 % 2k15
RC-02H 1% 1k47
RC-02H 1% 1k
RC-02H 1% 215Q
RC-02H 1% 1k
RC-02H 1% 215Q
RC-02H 1 % 2k37
RC-02H 1% 1k96
RC-02H 1% 1k
RC-02H 1 % 1k96
RC-02H 1 % 4k64
RC-02H 1 % 5k11
RC-02H 1% 1k62
RC-02H 1%511Q
RC-02H 1% 5110
RC-02H 1% 215Q
RC-02H 1% 215Q
RC-01 5% 1E
RC-01 5% 1E
RC-01 5% 1E
RC-02H 1% 10K
RC-01 5% 1E
RC-01 5% 1E
RC-01 5% 1E
RC-01 5% 10E
RC-01 5% 4E7
1/4W 0.1% 10K
1/4W 0.1% 5K
1/4W 0.1% 10K
1/4W 0.1% 5K
RC-01 0E
RC-02H 1% 100E
RC-01 5% 1E
RC-01 5% 4E7
RC-01 5% 4E7
RC-01 5% 4E7
RC-01 0E
5. 3- 19
Ordering code
5322 116 81794
5322 116 80427
5322 116 81794
5322 111 91902
5322 116 80427
5322 116 81226
5322 116 80427
5322 116 81226
4822 111 91819
5322 111 92027
5322 116 80427
5322 111 92027
5322 111 91903
5322 116 81228
4822 116 82485
4822 111 91826
4822 111 91826
5322 116 81226
5322 116 81226
4822 051 10108
4822 051 10108
4822 051 10108
4822 051 51003
4822 051 10108
4822 051 10108
4822 051 10108
4822 111 91885
4822 051 10478
5322 116 82868
5322 116 80369
5322 116 82868
5322 116 80369
4822 051 10008
4822 051 51001
4822 051 10108
4822 051 10478
4822 051 10478
4822 051 10478
4822 051 10008
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5.3 - 20
Item
V 1016
V 1401
V 1421
V 1431
V 1432
V 1433
V 1434
V 1436
V 1438
V 1441
V 1442
V 1443
V 1444
V 1446
V 1447
V 1448
V 1449
V 1451
V 1901
Description
DIODE.CHIP
CONNECTORS
X 1101
X 1301
X 1501
X1901
CONNECTOR
CONNECTOR
CONNECTOR
CONNECTOR
MISCELLANEOUS
G 1001
G 1111
H 1001
CRYSTAL
CRYSTAL
BUZZER
BZX84-C4V3 PEL
BC848C
BC858C
BC858C
BAV99
BAV99
BC858C
BC858C
BAV99
BC858C
BC858C
BC858C
BC858C
BC858C
BAV99
BC848C
BC848C
BAV99
BAV99
96-P PIN 2.54
9-P PIN DIPS
P1.25MMSTR
CRYSTAL 12MHz
CRYSTAL 16MHz
7EPP-4001 MUR
UNIT DESCRIPTIONS
Ordering code
5322 130 80256
5322 130 42136
4822 130 42513
4822 130 42513
5322 1 30 34337
5322 130 34337
4822 130 42513
4822 130 42513
5322 130 34337
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
4822 130 42513
5322 130 34337
5322 130 42136
5322 130 42136
5322 130 34337
5322 130 34337
5322 265 61238
5322 265 41143
5322 267 51107
5322 265 20525
5322 242 71444
5322 242 72193
5322 280 10249
UNIT DESCRIPTIONS 5.4-1
5.4 FRONT UNIT A4
5.4.1 Description
Diagram 1
The front unit incorporates several keys and a number of rotary knobs that are read by a microcomputer D5001. This microcomputer can communicate with the instrument’s main microprocessor on unit A3 via connector X5002. The communication from front unit A4 to unit A3 occurs via buffer D5003. The communication in the opposite direction happens via buffer D5006. The flipflops D5004 are used to facilitate this communication.
If unit A3 wants to write information to front unit A4 the following occurs:
D5006 is loaded with 8 bits of information via write pulse UFOWR-LT. This pulse is also applied to flipflop D5004/11 and this makes CPDAV-LT low. This causes an interrupt for the front processor
D5001. D5001 reads D5006 via the signal CPURD-LT.
If the front A4 wants to send information to A3 the following occurs:
D5003 is loaded with 8 bits of information via write pulse CPUWR-LT. This pulse is also applied to flipflop D5004/3 and this makes UFODAVLT low. This is recognized by the main microprocessor on unit A3. This device reads the contents of D5003 via signal UFORD-LT.
The rotaries and the keys are read via the 4 bit ROT-BUS and the 8 bit SW-BUS respectively. One bit in these busses is made low at a time and via the 8 bit UFOAD-BUS an 8 bit pattern is sent back to processor D5001. This bit pattern incorporates information concerning the keys/rotaries that are activated.
Diagram 2
The keys and rotaries are both grouped in a matrix. The key position is read out by making one of the
SW lines low at a time. If a key is pressed, a low level is switched through to one of the 8 input lines of key latch D5002. The other lines stay at a high level via the pull-up resistors R5121 through R5129.
Each rotary can occupy 4 different states. A rotary incorporates a rotor contact that can make contact with one of the two stator contacts. It is also possible that the rotor makes no contact. The last possibility is that the rotor makes contact with both stator contacts. Most of the rotaries are present on front unit A4. Via connector X5001 the rotaries on the CRT controls unit A5 are read out. The rotaries are read out via the ROT-BUS lines RA, RB, RC and RD that are made low one at a time.
This results in a certain bit pattern at the input of key latch D5002. This bit pattern is read by the microprocessor via enable signal PSEN-LT.
Diodes are used throughout the key and rotary matrix to guarantee that false information is not read by the microprocessor in case more than one control is operated at a time.
5.4.2 Signal name list A4.
Note: In the signal name list you find the itemnumberofthe component that is source or destination.
Behind this itemnumber (separated by you find the number of the diagram where the source/destination can be found.
NAME MEANING SOURCE DESTINATION
PSEN-LT
UFODAVLT
UFOWR-LT
READ SIGNAL FOR KNOBS AND KEYS
FRONT WRITES TO MICROPROCESSOR
MICROPROCESSOR WRITES TO FRONT
D5001:01 D5002:02
D5004:01 X5002:01
X5002:01 D5006:01
D5004:01
5 . 4 -2
UNIT DESCRIPTIONS
5.4.3 Key switches
Digital oscilloscopes: PM3394A, PM3392A, PM3384A , PM3382A and PM3380A
Analog oscilloscopes: PM3094, PM3092, PM3084 and PM3082
Test code is obtained via the UTIL MAINTENANCE menu. Refer to section 8.11.4.2 for detailed information.
SWITCH DIGITAL OSC.
ANALOG OSC.
TEST CODE
S5021
S5022
S5023
S5024
S5026
S5027
S5028
S5029
S5031
S5032
S5033
S5034
S5036
S5037
S5038
S5039
S5001
S5002
S5003
S5004
S5006
S5007
S5008
S5009
S5011
S5012
S5013
S5014
S5016
S5017
S5018
S5019
S5041
S5042
S5043
S5044
S5046
S5047
S5048
S5049
DISPLAY
MATH
MEASURE
RECALL
SAVE
DSO
UTILITY
CAL
PLOT
MAGNIFY-R
MAGNIFY-L
TRIGGER
ACQUIRE pin hole
SETUPS
AUTO SET
SINGLE
STOP
RUN
CURSORS
DTBs
SOFTKEY 2
SOFTKEY 1
STATUS/LOCAL
TIME/DIV ns
TIME/DIV s
TB MODE
DTB ns
MODE
SOFTKEY 3
SOFTKEY 4
SOFTKEY 5
AC/DC CH4
INV CH4
TRIG CH4
AVERAGE
50Q CH1
AMPL mV CH1
SOFTKEY 6
UTILITY
CAL
TRACE SEPARATION-R
TRACE SEPARATION-L
TB MODE pin hole
SETUPS
AUTO SET
SINGLE/RESET
10x MAGN
CURSORS
DTBs
SOFTKEY 2
SOFTKEY 1
STATUS/LOCAL
MTB ns
MTBs
TRIGGER MTB
DTB ns
DTB
SOFTKEY 3
SOFTKEY 4
SOFTKEY 5
AC/DC CH4
INV CH4
TRIG CH4
ALT CHOP
BWL
50Q CH1
AMPL mV CH1
SOFTKEY 6
70
60
50
40
30
20
10
00
71
61
51
41
31
(21)
11
(01)
72
62
52
42
32
22
12
02
74
64
54
44
34
24
14
04
33
23
13
03
73
63
53
43
UNIT DESCRIPTIONS
S5051
S5052
S5053
S5054
S5056
S5057
S5058
S5059
S5061
S5062
S5063
S5064
S5066
S5067
S5068
S5069
S5071
S5072
S5073
S5074
S5076
S5077
S5078
S5079
R5001
R5002
R5003
R5004
R5006
R5007
R5008
R5009
R5011
R5012
R5013
ON CH4
500 CH4
TRIG CH3
TRIG CH2
TRIG CH1
ON CH1
AMPL V CH1
TEXT OFF
ON CH4
500 CH4
TRIG CH3
TRIG CH2
TRIG CH1
ON CH1
AMPLVCH1
TEXT OFF
AMPL mV CH4
CH3+CH4
500 CH3
AMPL mV CH3
INV CH2
500 CH2
AMPL mV CH2
CH1+CH2
AMPL V CH4
AC/DC CH3
ON CH3
AMPL V CH3
AC/DC CH2
ON CH2
AMPL V CH2
AC/DC CH1
AMPL mV CH4
CH3+CH4
500 CH3
AMPL mV CH3
INV CH2
500 CH2
AMPL mV CH2
CH1+CH2
AMPL V CH4
AC/DC CH3
ON CH3
AMPL V CH3
AC/DC CH2
ON CH2
AMPL V CH2
AC/DC CH1
TRACK
POS 1
TRACK
POS 1
POS 2
DELTA
DELAY
POS 2
DELTA
LEVEL DTB
TRIGGER POSITION DELAY
HOLD OFF HOLD OFF
POS 3
POS 4
X-POS
TRIGGER LEVEL
POS 3
POS 4
X-POS
LEVEL MTB
77
67
57
47
37
27
17
07
36
26
16
06
76
66
56
46
75
65
55
45
35
25
15
05
.5
.E
.6
.F
.7
.A
.B
.3
.C
.4
.D
5. 4- 3
UNIT DESCRIPTIONS
5.4.4
Unit lay-outs
T O X5201 O N CRT
C O N TR O L A5
I O CO | |
—I DC GC —I —|
5 6
5 . 4 - 5
TO X 1004 O N C O N N E C TO R -
B O A R D A10
X5002
±
1 □
±
3 □
±
5 □
±
7 □
±
9 □
±
11 □
±
13 □
±
15 □
±
17 □
±
19 □
±
21 □
±
23 □
±
25 □
JL
27 □
□ 2 CPADOO
□ 4
□ 6
CPAD01
CPAD02
□ 8 C PAD03
□ 10 CPA D 04
□ 12
□ 14
CPA D 05
C P A D 06
□ 16 C PAD07
□ 18 UFODAVLT
□ 20 UFO RD-LT
□ 22 + 5 V D
□ 24 CPDAV-LT
□ 26 UFOW R-LT
□ 28 U FO RES
5 6 S T 8283
97 0 42 8
Lay-out 14- Large component side of front unit A4
UNIT DESCRIPTIONS
5.4.4
Unit lay-outs
TO X5201 O N CRT
C O N T R O L A5
H cc c c - IH
5 . 4 - 5
4 5 6
D
TO X1004 O N C O N N E C TO R -
B O A R D A 10
X 5002
±
1 □
±
3 □
±
5 □
±
7 □
±
9 □
±
11 □
±
13 □
±
15 □
±
17 □
±
19 □
±
21 □
±
23 □
±
25 □
JL
27 □
□ 2 CPADOO
□ 4 CPAD01
□
6 C PAD02
□ 8 C PAD03
□ 10 CPA D 04
□ 12
□ 14
CPA D 05
C PA D 06
□ 16 CPAD07
□ 18 UFODAVLT
□ 20 UFO RD-LT
□ 22 + 5 V D
□ 24
□ 28
CPDAV-LT
□ 26 UFOW R-LT
U FO RES
B
4 5 6 S T 8283
970 42 8
Lay-out 14 - Large component side of front unit A4
D
B
R5164
R5165
R5166
R5168
R5169
R5170
R5121 t il 3 c o
R5172
R5102
2 3
£ >
31
i
■w
R5173 C5173
R5171 C5171
R5122
<N 3
C O 5 3
C5155
R5107
R5106
C5156
C5157
5 . 4 - 6
C 9
S
CO 3
C O « 3
S
R5123 c 3
R5124 c in
>
3
V5008 V5009
R5128
" c B ” s i
J _ 3
O 3
O
T T
S in
•a 3 c o
SC 3
R5126
15 3
^ O 3
C O c o
UNIT DESCRIPTIONS
1
D
B
A
ST8284
970428 nc a
J 3 _______ CL
A6p
---□--c
8AS16 e b
_______ O .
1Lp
---□---
BC848C
Lay-out 15 - Small component side of front unit A4
D
B
R5164
R5165
R5166
R5168
R5169
R5170
R5172
R5121
R5102
R5173 C5173
R5171 C5171
. n n n n n n n n.n n
D5002
R5156 to
.
U U U U ' D ' U U U U U
00 o n n n n n n n
-r~
D5004 u u u u u u u
£
<o
CM 3
O
3
R5122
C5155
R5107
R5106
C5156
C5157
A6p BAS16
5
5 . 4 - 6
4
C O
« 3
3
R5123
3 2
UNIT DESCRIPTIONS
1
D
N-
CM n n n n
V5008 V5009 o>
5
GC
R5128
5>
C
|C5155
R5107
R5106
C5156 c o w a
1C □
R5126
B
1
ST8284
870428
A
5 4 3 nc a
X I______C l
A6p
---□--c
BASIS e b n _______n
1Lp
---□--c
BC848C
Lay-out 15 - Small component side of front unit A4
2
UNIT DESCRIPTIONS
5.4.5
Circuit diagrams
5 . 4 - 7
CS801
10On
^
J
cs«02
10n
^
^
C5603
io n
^ cseo. io n
^
^
<
1
A4 - Diagram 1 ; Front processor
UNIT DESCRIPTIONS
5.4.5 Circuit diagrams
+5VD
D5004
74LS74
CPUWB-U
UFORP4J
CPUftCHT
+5V0
10
11
_
12
_________ 13
05004
741S74
8
UFODAVHT i
UfOQAVLT
UFOftD-LT
CPDAV-LT
UFOWR-LT
5 . 4 - 7
>5006
11S374 fc>C1
12
16
10
2
6
UFOADO
UF0AD2
UFQAD*
UFOADO
UF0AD7 l
" X ^ T
T 22°p
R5172
1 1006 a s is a
~| 31 Eg H
RS164
I 31E6 r s i «
H i e ?
R5196
~ ^ T e 6
RS1B7
1 31E6
RS168
1 31E6 ftsia o
I31E6
RS170
I 31E6
J L CS173
I 22°P
X CS17™
J 220p
SW1
05002 csaoi
100n
^ 0 5 6 0 2 1 CS0O3 ^ C5804 ^ (
10n j ^ j ^ j 1
A4 - Diagram 1 ; Front processor
5 . 4- 8 UNIT DESCRIPTIONS
REF NR.
TYPE
74HC5A1
A4 - Diagram 2 ; Key matrix
-5VD
20
-L
C
10 CS0Q2
STB286
970428
V6021
BASIS
+3-
V5022
BASIS
V5027
BASIS
-W-
V5G26
BASIS
V6029
BASIS
V5031
BASIS
-w-
V5032
BASIS
-w-
V5033
BASIS
V50S4
BASIS
-w-
V50S6
BASIS
VS023
BASIS
-w-
V5024
BASIS
V5026
BASIS
V5037
BASIS
V5038
BASIS
-w-
VS030
BASIS
-w-
V5041
BASIS
-+3-
V5W2
BASIS
-W-
V5043
BASIS
V5044
BASIS
-w-
VTO*S
BASIS
-w-
V5047
BASIS
S d \
35001 Q .
031 Q ^ _
051 Q ^ _
1b \
*Tb \
071 Q ^ _
V5001
BASIS
ROTARY MATRIX
LEVEL MTB/
TRIG.LEVEL
5 RBI 21
SSK2
St
St
OELAY / TWG.POS
s t.
St ,:
LEVEL DTB / DELAY s t
- O p o s i SO------------- i-
St
I
5 . 4 - 8 UNIT DESCRIPTIONS
REF NR
05002
TYPE
74HC841
A4 - Diagram 2 ; Key matrix
-5VO
20
±
C csace 10
STB2M
070428
UNIT DESCRIPTIONS
Item
5.4.6 Parts list
Description
CAPACITORS
C 5158
C 5159
C 5160
C 5161
C 5162
C 5171
C 5172
C 5173
C 5801
C 5802
C 5001
C 5002
C 5150
C 5151
C 5152
C 5153
C 5154
C 5155
C 5156
C 5157
C 5803
C 5804
C 5806
CAP.CERAMIC
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
INTEGRATED CIRCUITS
D 5001
D 5002
D 5003
D 5004
D 5006
INTEGR.CIRCUIT
I.C. INTERFACE
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
MISCELLANEOUS
G 5004
H 5101
CERAM FILTER
LED
ROTARY SWITCHES
R 5001
R 5002
R 5003
R 5004
R 5006
SWITCH,ROTARY
SWITCH,ROTARY
SWITCH,ROTARY
SWITCH,ROTARY
SWITCH, ROTARY
63V 5% 39pF
63V 5% 39pF
63V 5% 100pF
63V 5% 100pF
63V 5% 100pF
63V 5% 100pF
63V 5% 100pF
63V 5% 100pF
63V 5% 100pF
63V 5% 100pF
63V 5% 1nF
63V 5% 100pF
63V 5% 100pF
63V 5% 100pF
63V 5% 100pF
63V 5% 220pF
63V 5% 220pF
63V 5% 220pF
63V 10% 100nF
63V 10% 10nF
63 V 10% 10nF
63 V 10% 10nF
63 V 10% 10nF
P83C652 EBB/077
PC74HC541T PEL
N74LS374D PEL
N74LS74AD PEL
N74LS374D PEL
12MHZ KYO
TLHR4613 AEG
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
Ordering code
5 . 4 - 9
5322 122 32966
5322 122 32966
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
5322 126 10511
5322 122 32531
5322 122 32531
5322 122 32531
5322 122 32531
4822 122 33575
4822 122 33575
4822 122 33575
4822 122 33496
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 209 90095
4822 209 63763
5322 209 60995
5322 209 60993
5322 209 60995
5322 242 71444
5322 130 81522
5322 105 90036
5322 105 90036
5322 105 90036
5322 105 90036
5322 105 90036
5.4-10
Item
R 5007
R 5008
R 5009
R 5011
R 5012
R 5013
Description
SWITCH, ROTARY
SWITCH,ROTARY
SWITCH,ROTARY
SWITCH, ROTARY
SWITCH, ROTARY
SWITCH,ROTARY
RESISTORS
R 5101
R 5102
R 5103
R 5104
R 5106
R 5151
R 5152
R 5153
R 5154
R 5155
R 5156
R 5157
R 5158
R 5159
R 5160
R 5161
R 5162
R 5163
R 5164
R 5165
R 5166
R 5167
R 5168
R 5169
R 5170
R 5171
R 5172
R 5173
R 5801
R 5107
R 5121
R 5122
R 5123
R 5124
R 5126
R 5127
R 5128
R 5129
R 5150
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.MET.GLAZED
RES.MET.GLAZED
RES.MET.GLAZED
RES.MET.GLAZED
RES.MET.GLAZED
RES.MET.GLAZED
RES.MET.GLAZED
RES.MET.GLAZED
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
RC-02H 1% 1M
RC-02H 1% 1K
RC-02H 1 % 4K64
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1 % 56K2
RC-02H 1% 56K2
RC-02H 1% 56K2
RC-02H 1% 56K2
RC-02H 1% 56K2
RC-02H 1% 56K2
RC-02H 1% 56K2
RC-02H 1 % 56K2
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RMC1/8 1% 31E6
RMC1/8 1% 31E6
RMC1/8 1% 31E6
RMC1/8 1% 31E6
RMC1/8 1% 31E6
RMC1/8 1% 31E6
RMC1/8 1% 31E6
RMC1/8 1% 31E6
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 100E
RC-01 5% 1E
UNIT DESCRIPTIONS
Ordering code
5322 105 90036
5322 105 90036
5322 105 90036
5322 105 90036
5322 105 90036
5322 105 90036
4822 051 51005
4822 051 10102
4822 051 54642
4822 051 51003
4822 051 51003
4822 051 51003
4822 051 55623
4822 051 55623
4822 051 55623
4822 051 55623
4822 051 55623
4822 051 55623
4822 051 55623
4822 051 55623
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 51001
5322 116 82895
5322 116 82895
5322 116 82895
5322 116 82895
5322 116 82895
5322 116 82895
5322 116 82895
5322 116 82895
4822 051 51001
4822 051 51001
4822 051 51001
4822 051 10108
UNIT DESCRIPTIONS
Item Description
V 5007
V 5008
V 5009
V 5021
V 5022
V 5023
V 5024
V 5026
V 5027
V 5028
V 5029
V 5031
V 5032
V 5033
V 5034
V 5036
V 5037
V 5038
V 5039
V 5041
V 5042
V 5043
V 5044
V 5046
V 5047
V 5102
SEMICONDUCTORS
V 5001
V 5002
V 5003
V 5004
V 5006
DIODE.CHIP
DIODE,CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
DIODE.CHIP
TRANSISTOR,CHIP
CONNECTORS
X 5001
X 5002
CONNECTOR
CONNECTOR
BAS 16 PEL
BAS 16 PEL
BAS16 PEL
BAS16 PEL
BAS16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS16 PEL
BAS16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS16 PEL
BAS16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BAS 16 PEL
BC848C PEL
P 1.25MM STR
P 1.25MM STR
5.4 - 11
Ordering code
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 31928
5322 130 42136
4822 267 50668
5322 267 60311
UNIT DESCRIPTIONS 5.5-1
5.5 CRT CONTROLS UNIT A5
5.5.1 Description
Each rotary can occupy 4 different states. A rotary incorporates a rotor contact that can make contact with one of the two stator contacts. It is also possible that the rotor makes no contact. The last possibility is that the rotor makes contact with both stator contacts. Most of the rotaries are present on front unit A4. Via connector X5201 the rotaries on the CRT controls unit A5 are read out. The rotaries are read out via the ROT-BUS lines RA, RB, RC and RD that are made low one at a time.
This results in a certain bit pattern at the input of key latch D5002 on unit A4. This bit pattern is read by the microprocessor via enable signal PSEN-LT from the front processor on unit A4.
Diodes are used throughout the key and rotary matrix to guarantee that false information is not read by the microprocessor in case more than one control is operated at a time.
Note: The connectors X5001 on unit A4 and X5201 on unit A5 have opposite numeration.
5 . 5 -2
5.5.2 Unit Lay-outs c l a 2 fA7?l BAV99 u 1 a1, c2
UNIT DESCRIPTIONS
Lay-out 1; Smal component side of CRT controls unit A5
F R O M X 5 0 0 1 O N F R O N T A 4
X 5 2 0 1
1 2 11 1 0 9 8 7 6 5 4 3 2 1
A § fc J L g J . £
_i Ff < g - L
111 s 5
S T 8 2 8 9
9 7 0 4 2 0
Lay-out 2; Large component side of CRT controls unit A5
UNIT DESCRIPTIONS
5.5.3 Circiuit diagram
X5201
5 . 5- 3
A5 - Diagraml; CRT controls unit
5 . 5 - 4
Item
5.5.4 Parts list
Description
SEMICONDUCTORS
V 5201
V 5202
V 5203
V 5204
V 5206
V 5207
V 5208
V 5209
V 5211
V 5212
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
ROTARY SWITCHES
R 5201
R 5202
R 5203
R 5204
R 5205
SWITCH, ROTARY
SWITCH,ROTARY
SWITCH, ROTARY
SWITCH,ROTARY
SWITCH,ROTARY
CONECTORS
X 5201 CONNECTOR
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
BAV99 PEL
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
15-SL.PHILICODER
P 1.25MM STR
UNIT DESCRIPTIONS
Ordering code
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 130 34337
5322 105 90036
5322 105 90036
5322 105 90036
5322 105 90036
5322 105 90036
4822 267 50668
UNIT DESCRIPTIONS 5.6-1
5.6 POWER SUPPLY A6
5.6.1 Description A6
Diagram 1
Diagram 1 comprises the following circuit parts:
- input circuit
- converter circuit
- line trigger circuit
Input circuit
Input to the circuit is the mains voltage. The following voltages are allowed:
- AC voltage between 90 and 250 V
- Theoretically a DC voltage between 100 and 380 V can be applied.
The mains input is primarily protected by a slow acting 1.6 A fuse (1.6 AT), which is located on the rear of the instrument.
Inrush current limiting is provided by NTC resistor R1001.
By means of the capacitors C1002, C1003, C1004 and C1006, an input signal for the line trigger generator is made. The capacitors form a voltage divider. This functions only if the mains voltage is
AC.
C1001,1002, 1006,1007 and L1001 are for interference suppression.
The mains voltage is rectified by V1001 through 1004 and smoothed by C1008 and C1009.
The output voltage from the rectifier at C1009 can between 100 and 380 V.
WARNING: For measurements in the primary circuit, the use of an isolating transformer is strongly recommended. If no isolating transformer is used, all measurements in the primary circuit must be carried out with floating measuring instruments.
Converter circuit
The power supply is a multiple output flyback converter of the SOPS (Self Oscillating Power
Supply) principle. Basically, the converter consists of a switch with control circuitry (transistor V1019) and a transformer (T1001).
The first switching-on of V1019 is initiated by a small current via R1007/R1008. When V1019 is ON, the control voltage of T1001 pin 18 to C1011 is positive and this keeps V1016 and V1019 ON. During the
ON or FORWARD cycle, the current through the primary winding of T1001 increases linearly, and energy (0.5 LI2) is stored into this transformer. At about 2.5 A, this value is determined by the control circuit, thyristor V1014 is switched ON and due to this, V1019 is switched OFF. This is the beginning of the OFF or FLYBACK cycle. Now, the transformer voltages are reversed and the stored energy is transformed to the secondary windings. As long as the transformer is not fully demagnetized, the voltage from pin 18 to C1011 is negative and this will keep V1007, V1016 and V1019 switched OFF. As soon as the transformer demagnetizing has ended, this voltage becomes zero and so, a positive going voltage appears at C1011. Due to this, V1007,
V1016 and V1019 are switched ON and the
FORWARD cycle starts again.
Figure 5.5 Converter circuit
5 . 6 -2
UNIT DESCRIPTIONS
To reduce the switching losses in
V1019, a dV/dt limiter, often called
“snubber", is used. C1021 decreases the dV/dt of the collector voltage of
V1019 during switching off, as the current to the transistor can pass during a certain time through C1021.
This slowing down of the collector voltage will reduce the switching losses during switching off. During the ON cycle, the energy in C1021 is transferred to L1006 and the capacitor is discharged. During the
OFF cycle, the energy in L1006 is transferred to C1018 and during the next ON cycle, the energy in C1018 is delivered to the transformer. In that way, no energy is wasted. As a consequence of this system, the voltage at the transformer is slightly increased during the first part of the
ON cycle, but this has no disadvantages.
Figure 5.6 Timing diagram converter circuit
Voltage regulation takes place by varying the control voltage from R1046 to the gate of V1014. A more positive voltage will cause a smaller peak current through the transformer and this results in smaller output voltages. The converter frequency can be 20 to 50 kHz. This depends on the mains voltage and the load of the power supply. The lower the mains voltage, the lower the frequency. A lower load means a higher frequency. R1018 compensates for gate-cathode voltage variations of
V1014 due to the temperature.
Line trigger circuit
For triggering purposes, a sinusoidal signal at the mains frequency is available. Of course there will be no LINE signal if the mains voltage is DC.
A small signal is picked up with capacitors C1002, C1003, C1004 and C1006 and amplified in N1046.
This results in output signal at pin 1. This circuit provides a sine-wave with low distortion and with an amplitude of 3 to 8 V, depending on the mains voltage.
Diagram 2
Diagram 2 comprises the following circuit parts:
- trace rotation control
- fan control
- illumination control
- EHT converter
Trace rotation control
To supply the trace rotation coil, of which the resistance is about 200 Q, a voltage of -10 V to +10 V is created in amplifier V1146-1147. Control takes place via a part of N1101 by means of the signal
DAC3 which can be 1 to 10 V, together with the signal DAC0 with a level between 1 and 3V. The signals DAC3 and DAC0 originate from the microprocessor unit A3.
Fan control
The speed the cooling fan depends on the temperature in the oscilloscope. This temperature is measured at the microprocessor unit A3 by a NTC resistor. The microprocessor generates the signal
DAC1 with a level of about 1.7 to 4 V. The fan is supplied by amplifier V1148 which is controlled by this signal. The output from the amplifier is a DC voltage of -10 to +10 V.
UNIT DESCRIPTIONS 5 . 6 - 3
Illumination control
The illumination of the graticule must be variable. For this reason the illumination voltage can be varied between about 2 and 28 V. Control of the illumination amplifier V1148 takes place by means of the signal DAC2, level about 1.7 to 4 V. The output voltage from the amplifier is -16 to +10 V.
EHT converter
The EHT converter supplies three voltages.
- An AC voltage of 6,3 V (F1, F2), to supply the filament of the CRT.
- The cathode voltage to the CRT, a DC voltage of -2200 V.
- The post acceleration voltage to the CRT, a DC voltage of +14 kV.
These voltages are made in a separate converter, equipped with a separate transformer. The EHT converter is a resonant flyback converter, the output voltages of the transformer are sinusoidal.
BV
) T1002
I LP
Basically, the converter consists of a resonant
LC circuit formed by the transformer with its parasitic capacitances. This resonance circuit defines the converter frequency which is about 80 kHz. Energy is supplied to this LC circuit by injecting current to it from the supply voltage, the +58 V, by switching ON V1109.
Most of the time, V1109 is OFF. The primary peak to peak amplitude is about 200 V, the negative peak about -40 V. During the positive half of the sine-wave, capacitor
C1111 is discharged very little via R1114.
/
V1108
V1109 igure 5.7 High tension generator
When the sine-wave reaches its most negative value, a small current will pass through C l 111 and
V1106 and this acts as base current for V1102. Due to this, the thyristor configuration V1102-1109 will be switched ON and energy is supplied to the resonant circuit. The ON time of V1109 can be controlled by the operational amplifier N1101 pin 7.
To protect against too high voltages, e.g. caused by a defective N1101, the circuit is provided with an over-voltage protection. This circuit consists of V1103 and V1104. The maximum output voltage is defined by this circuit as it will overrule the control circuit at too high voltage.
The AC voltage at T1002 pins 4 and 5 is used to supply the CRT filament voltage of 6.3 V.
The voltage at pins 11 and 3 is rectified and this -2200 V is used as CRT cathode voltage. The voltage at pins 11 and 2 is rectified and multiplied in a cascade circuit. The output, +14 kV, is used as post acceleration voltage to the CRT.
Diagram 3
Diagram 3 comprises the following circuit parts:
- secondary output circuitry
- over- and under-voltage protection
- power fail circuit
- temperature protection
- 10 V reference circuit
5 . 6 -4
UNIT DESCRIPTIONS
Secondary output circuitry
The secondary output circuits consist of rectifier diodes and buffer capacitors, followed by chokes and capacitors for ripple suppression. The output circuits are protected against overload by the under voltage protection.
Over and under-voltage protection
To protect the oscilloscope circuitry against over-voltage and the supply circuits against overload, the power supply is provided with a protection circuit. As, due to the multiple output principle, the output voltages are interdependent, it is sufficient to check only one voltage. In case of overload, the output voltages will decrease and this will be detected by the under-voltage detection, V1241, which monitors the -12 V. This will cause the collector of V1241 to be LOW. In case of over-voltage, the over voltage detection detects a too high +12 V or +5 V and this will cause pin 13 of N1236 to be LOW.
Due to this LOW signal, the intervention circuit V1241-1242-1243 will cause a current, the TPDOWN signal, to V1213. This will switch ON this thyristor and this causes switching off the converter by decreasing all output voltages to a very low, safe value.
Powerfail circuit
In normal cases, about 250 ms after switching on, the signal POWER HT will become HIGH and stay
HIGH. In case of an over- or under-voltage failure, the signal will become LOW due to V1242. In case of a too low mains voltage, i.e. less than 80 V (AC) or 100 V (DC), the signal will become LOW due to N1236 pin 2. The signal POWER HT is a logic signal, it will not switch off the main convertor circuit, but it will shut down the EHT-convertor. POWER HT signals to the microprocessor unit A3 that power is going down. This gives the processor the opportunity to save important data.
Temperature protection.
To protect the circuits against too high temperatures, the oscilloscope is provided with an overheat shutdown circuit. The temperature of the power supply printed circuit board is monitored by NTC resistor R1231, which is located on the PCB. At temperatures higher than about +80 °C, pin 8 of
N1236 will become HIGH and this will cause pin 14 to be LOW. Due to this, the TPDOWN signal becomes active and the converter is switched off by triggering V1213. This temperature protection is only meant for the power supply.
+10 V reference circuit
For application in the power supply and at other places in the oscilloscope, a stable +10 V reference voltage is needed. This voltage is made by N1226A/1226 in the power supply. The voltage is not adjustable. The accuracy is ±5 mV. Temperature coefficient is ±0,001 °K. The load of the +10 V is about 10 mA.
5.6.2 Signal name list A6
Note: In the signal name list you find the itemnumber of the component that is source or destination.
Behind this itemnumber (separated by you find the number of the diagram where the source/destination can be found.
NAME MEANING
SOURCE DESTINATION
FAN0
FAN1
ILLUM0
ILLUM1
LINE
POWER-HT
SCL
SDA
TROTO
TROT1
FAN SUPPLY 0
FAN SUPPLY 1
GRATICULE ILLUMINATION 0
GRATICULE ILLUMINATION 1
LINE/MAINS TRIGGER SIGNAL
POWER UP INDICATION SIGNAL
SERIAL CLOCK
SERIAL DATA
TRACE ROTATION 0
TRACE ROTATION 1
S-12V:02 X1004:02
L1146:02 X1004:02
S-18V:02 X1002:02
V1149:02 X1002:02
N1046:01 X1002:01
N1236:03 X1002:03
V1111:02
X1002:02 N1141:02
X1002:02 N1141:02
EARTH :02 X1002:02
V1146:02 X1002:02
UNIT DESCRIPTIONS
5.6.3 Unit lay-outs
TO X2401 ON
FINAL X-Y-ZA2
X1001
TO FAN TO BATT
X1004 X10Q6
5 . 6 - 5
□ □ □ a
CM O
3 3 3 o a
CM
O
CM o
□
CM
O
□
CM
O
B a
CM o
CM
O a
CM
O a
CM
O O 5 O O o
C
CM o o o
O o fl
T T T
0)
O 8 O
□ □ C D
CO
O 8 3 8
"H"
5
ST8290
970420
Lay-out 8 - Wire component side of power supply unit A6
UNIT DESCRIPTIONS
5.6.3 Unit lay-outs
TO X2401 ON
11 12 13
D
11 12
X1003
C1006
13
TO MAINS INPUT
X1003
ST8290
970420
Lay-out 8 - Wire component side of power supply unit A6
5 . 6 - 6
5 | 4 | 3 | 2 | 1
UNIT DESCRIPTIONS
5 4 3 2
Lay-out 9 - Micro miniature component side of power supply unit A6
1
ST8291
770426
> 00 o o
O) o>
5 . 6- 6
Lay-out 9 - Micro miniature component side of power supply unit A6
UNIT DESCRIPTIONS
M
BASIS : A6p
BAS31 JSp
B2C84-C5V1 22p i n 8CS48C:1Lp
8C8S«C 3Lp
BFB20 1 V d
BFBS1 tWp
UNIT DESRIPTIONS 5 . 6- 7
5.6.4 Location list Power Supply unit A3
’-L’ means that the component is located on the printed circuit board side with the large components.
Otherwise the component is located on the side with small components (SMD’s: surface mounted devices).
C1106 B4
C1107B4
C1108C5
C1109C4
C1111 C4
C1112C5-L
C1131 D2-L
C1132 D2-L
C1133 D3-L
C1141 A2
C1142 A2
C1144 A2
C1147 D6-L
C1148 B3
C1150 B1
C1201 A8-L
C1203 B6-L
C1204C7-L
C1206 B5-L
C1208 C7-L
C1209 B6-L
C1211 D8-L
C1212 B5-L
C1213B7-L
C1214B6-L
C1216 D7-L
C1001 B13-L
C1002 A13-L
C1003 A13
C1004 A13
C1006 A13-L
C1007 C13-L
C1008 D13-L
C1009 D11-L
C1011 A12
C1012 A12-L
C1013 A12
C1018 C11-L
C1021 C11-L
C1022 B12
C1042 A12
C1048A11
C1049 A10
C1051 A10
C1061 A10
C1062 A11
C1101 B3
C1102 C3-L
C1103 B3
C1104 B3
C1217B4-L
C1218C6
C1219B7-L
C1221 C6-L
C1226B4
C1228B4
C1231 B3-L
C1234C10
C1241 C9
C1244 C8
C1245 C9
C1247C9
C1272 A9-L
C1274 B7-L
C1277 C9
C1281 B3
C1282 B3
C1283 A8
C1284 A10
C1285 B9-L
C1286C9
C1291 D8-L
D1131 B2-L
H1046 A11-L
L1001 D12-L
L1004 B12-L
L1006 B11-L
L1101 C5-L
L1131 C2-L
L1146 B3-L
L1201 B8-L
L1202 C7-L
L1203 B6-L
L1204 C6-L
L1206 C7-L
L1207 D7-L
L1208 D6-L
L1209 C7-L
L1273 B7-L
N1046 A10
N1101 B2
N1102 B1
N1141 A2-L
N1226 B4-L
N1236 D9
R1001 B13-L
R1002 A12-L
R1004 A12
R1007C12
R1008 B12
R1011 A12-L
R1016 B12
R1017B12
R1018 B12-L
R1019 B12-L
R1021 B12
R1022 B12
R1023 C12-L
R1024 C12-L
R1027 B11-L
R1028 B11-L
R1042 A12
R1046 A12
R1047B12
R1048 A10
R1049 A11
R1051 A10
R1052 A10
R1054 C9
R1056 A10
R1057 A10
R1058 A10
R1061 A13
R1063 A11
R1064 A11
R1101 B3
R1103 C3-L
R1104 B3
R1106 B3
R1107B2
R1108 B4
R1109 C4
R1111 B4
R1112 C4
R1113 B4
R1114C4
R1116B4
R1118C5
R1119C5
R1122 B4-L
R1123 B3
R1146 B3
R1147 A3
R1148A3
R1149 B3
R1151 B3
R1152 B2
R1153 B2
R1154 B2
R1156 B1
R1157 B2
R1158 B1
R1218C6
R1226 B4
R1227 B4
R1228 B4
R1231 D8-L
R1232 D9
R1233 D9
R1234 C9
R1235 D9
R1236C9
R1238C9
R1239C9
R1241 C9
R1242C10
R1243 C9
R1244 C9
R1245C8
R1246C9
R1247C9
R1248C9
R1249C9
R1278 B8
R1281 B9
R1282 C9
R1283C9
R1291 D8-L
T1001 C9-L
T1002 C4-L
V1001 C13-L
V1002 C13-L
V1003 C13-L
V1004 C13-L
V1006 A12
V1007 B12-L
V1008 B12
V1009 A12
V1013 A12
V1014 B12
V1016 A12-L
V1017 B12-L
V1018 C11-L
V1019 B12-L
V1021 D10-L
V1022 C10-L
V1023 C12-L
V1046A10
V1101 C4
V1102 B4
5 . 6 - 8
V1103 C4
V1104 D4
V1106 C4
V 1107C 4
V1108 B5-L
V1109 B4-L
V1111 B4
V1131 D3-L
V1146 A1-L
V1147 A2-L
V1148 A1-L
V1149 A1-L
V1201 B8-L
V1203 D8-L
V 1 2 0 4 C 8 -L
V1206 C8-L
V1207 C8-L
V1208 C8-L
V1209 C8-L
V1211 D8-L
V 1 2 1 2 D 6 -L
V 1213C 6 -L
V 12 1 4 B 8 -L
V1216 B6-L
V 12 2 6 B 4
V1241 C9
V1242 D9
V1244 C8
V1246 C9
V1271 A10-L
V1272 B10-L
V1277 B8
V1278 B8
UNIT DESRIPTIONS
V1279 B8
V1280 B8
V1281 B9
V1283 B9
V1284 B9
X1001 D1-L
X1002 A5-L
X1003 A13-L
X 1 004D 5 -L
X1006 D5-L
X 1 007D 1 -L
UNIT DESCRIPTIONS
5.6.5 Circuit diagrams
L1001 taopH
VOLTAGE
STABILIZER
| 100V—375V I
SWITCH
CONTROLLER
CONVERTER
SWITCH dv/dt
LIMITER
5 . 6 - 9
Diagram 1 - Converter circuit
UNIT DESCRIPTIONS
5.6.5 Circuit diagrams
LI 001 fKfcjH
G
/
L1001 tacipH
VOLTAGE
STABILIZER
| 1QOV—37SV I
SWITCH
CONTROLLER
CONVERTER
SWITCH d v/dt
LIMITER
5 . 6 - 9
Diagram 1 - Converter circuit
t
5. 6-10
AUXILIARY DRIVERS
EHT converter and auxiliary circuits
TO TUBE REAR PANEL A2-2
X1001 I-------------1
UNIT DESCRIPTIONS
TO X1006 ON
CONNEC8A10
X1002
| EHT CONVERT
5. 6-10
| EHT CONVERTER |
L1101 a r u m
2K37
, C l 107
1 100n
•►12V
3 R1112
464E
O R1109
" " i R1113
4K04
R1118
51 El
Ct 1121
100p
R1119
51E1
V1103
B2XS4B47
- H cito e
2n2
T
I
C1109
2n2
V1104
6AS21
• l
SME WAVE
200VE
V1102
V1106
BAS21
& -----
V1107
BAS21
C1111
3n3
X V.108
BYV27
R1116
4K64
TO TUBE REAR MMEL A 2 *
X1001
I-------------1
UNIT DESCRIPTIONS
TO X10O6 ON
CONNEC8A10 f
| AUXILIARY DRIVERS |
Diagram 2 - EHT converter and auxiliary circuits f
ST8293
070426
UNIT DESCRIPTIONS
T1001
T1001
T1001 now
T1001
T1001 now now
V1271
BYV29
| OUTPUT CIRCUIT |
5.6-11
♦12V +5V
| 10V REFERENCE |
♦ 18V
+10VREF
REFNfi TYPE ♦14RJ
N1251________ LM368_______________
N1236 LM339 8
♦ 12V •12V
12
STB294
970428
Diagram 3 - Output circuit and protection circuits
UNIT DESCRIPTIONS
T1001
T1001
T1001
T1001
T1001
T1001
TI001
T1001
V1271
BYV20
| OUTPUT CIRCUIT |
REF
5.6-11
+ 12V +5V
| 10V REFERENCE |
♦ 18V
REF. NR TYPE
N12S1________ LM368
N1236 LM330
♦14R)
______
3
♦ 12V 12V
J.
12
ST8294
970428
Diagram 3 - Output circuit and protection circuits
UNIT DESCRIPTIONS
Item
5.6.6 Parts list
Description
C 1013
C 1018
C 1021
C 1022
C 1042
C 1048
C 1049
C 1051
C 1061
C 1062
C 1101
C 1102
C 1103
C 1104
C 1105
C 1106
C 1107
C 1108
C 1109
C 1111
C 1112
C 1114
C 1131
C 1132
C 1133
C 1141
C 1142
C 1144
C 1147
C 1148
CAPACITORS
C 1001
C 1002
C 1003
C 1004
C 1006
C 1007
C 1008
C 1009
C 1011
C 1012
CAP. FOIL
CAP.FOIL
CAP.CHIP
CAP.CHIP
CAP.FOIL
CAP.CERAMIC
CAP.ELECTROLYT.
CAP.ELECTROLVT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.FOIL
CAP.FOIL
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CERAMIC
CAP.CERAMIC
CAP.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
C 1150
C 1201
C 1203
C 1204
C 1206
CAP.CHIP
CAP.ELECTROLYT.
CAP.
CAP.ELECTROLYT.
CAP.
250V 20% 220nF
-20+20% 1nF
63 V 10% 100nF
63V 10% 100nF
-20+20% 1nF
3K V -20+50% 1.5nF
400V 20% 120pF
400V 20% 120(xF
63V 10% 47 nF
100V 20% 27pF
63V 5% 220pF
160V 1% 33nF
2KV 5% 3.3nF
63V 10% 4.7nF
63V 10% 4.7nF
63V 10% 220nF
63V 10% 2.2nF
63V 10% 4.7nF
63V 10% 1nF
63V 10% 1nF
63V 10% 6.8nF
4K V -10+10% 33pF
63V 10% 47nF
63V 5% 220pF
63V 10% 1pF
63V 10% 10nF
63V 10% 100nF
63V 10% 2.2nF
63V 10% 2.2nF
63V 10% 3.3nF
100V 20% 100^iF
63V 5% 100pF
3KV -20+50% 10nF
3KV -20+50% 10nF
-10+10% 2.2nF
63V 5% 100pF
63V 5% 100pF
63V 10% 10nF
25V 20% 2200(J.F
63V 10% 10nF
63V 10% 220nF
25V 20% 2200p.F
25V -20+20% 1000pF
25V 20% 2200pF
25V -20+20% 1000pF
Ordering code
5 .6 -1 3
5322 121 44372
5322 121 43656
4822 122 33496
4822 122 33496
5322 121 43656
5322 122 50092
5322 124 42231
5322 124 42231
4822 122 32542
5322 124 42193
4822 122 33575
5322 121 50997
5322 121 70117
5322 126 10223
5322 126 10223
4822 122 32916
4822 122 33127
5322 126 10223
4822 122 31746
4822 122 31746
5322 122 31866
5322 122 33081
4822 122 32542
4822 122 33575
5322 126 10511
5322 122 34098
4822 122 33496
4822 122 33127
4822 122 33127
4822 122 33891
5322 124 42227
5322 122 32531
5322 126 12921
5322 126 12921
5322 122 33851
5322 122 32531
5322 122 32531
5322 122 34098
5322 124 42229
5322 122 34098
4822 122 32916
5322 124 42229
5322 124 23276
5322 124 42229
5322 124 23276
5.6 - 14
Item
C 1221
C 1226
C 1227
C 1228
C 1231
C 1234
C 1241
C 1244
C 1245
C 1247
C 1208
C 1209
C 1211
C 1212
C 1213
C 1214
C 1216
C 1217
C 1218
C 1219
C 1251
C 1252
C 1270
C 1271
C 1272
C 1274
C 1277
C 1279
C 1281
C 1282
C 1283
C 1284
C 1285
C 1286
C 1291
MISCELLANEOUS
H 1046
T 1001
T 1002
TRANSIST, PHOTO
TRANSFORMER
TRANSFORMER
Description
CAP.ELECTROLYT.
CAP.
CAP.
CAP. FOIL
CAP.FOIL
CAP.FOIL
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CERAMIC
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.ELECTROLYT.
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.CHIP
CAP.ELECTROLYT.
CAP.CHIP
CAP.CERAMIC
25V 20% 2200pF
25V -20+20% 1OOOpF
25V -20+20% 1000pF
25V 20% 470(iF
25V 20% 470pF
25V 20% 470|iF
100V 20% 100|iF
100V 20% 100|iF
63V 10% 10nF
100V 20% 100|iF
100V 20% 100pF
63V 10% 100nF
63V 10% 10nF
63V 10% 10nF
100V 20% 27| a F
63 V 10% 10nF
63V 10% 10nF
63V 10% 100nF
63V 10% 220nF
63V 10% 10nF
63V 10% 100nF
63V 5% 47pF
63V 10% 10nF
63V 10% 10nF
25V 20% 2200pF
25V 20% 2200pF
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
63V 10% 10nF
100V 20% 27p.F
63V 10% 10nF
500V 10% 470pF
CNX36U PEL
MAIN TRAFO
EHT TRAFO
UNIT DESCRIPTIONS
Ordering code
5322 124 42229
5322 124 23276
5322 124 23276
5322 121 43885
5322 121 43885
5322 121 43885
5322 124 42227
5322 124 42227
5322 122 34098
5322 124 42227
5322 124 42227
4822 122 33496
5322 122 34098
5322 122 34098
5322 124 42193
5322 122 34098
5322 122 34098
4822 122 33496
4822 122 32916
5322 122 34098
4822 122 33496
5322 122 32452
5322 122 34098
5322 122 34098
5322 124 42229
5322 124 42229
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 122 34098
5322 124 42193
5322 122 34098
4822 122 31177
5322 130 91112
5322 148 60254
5322 140 10587
UNIT DESCRIPTIONS
Item
COILS
1001
1004
1006
1101
1131
1146
1201
1202
1203
1204
1206
1207
1208
1209
1273
Description
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
COIL
INTEGRATED CIRCUITS
D 1131
N 1046
N 1101
N 1102
N 1141
N 1226
N 1236
N 1251
EHT-MULTIPLIER
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
INTEGR.CIRCUIT
RESISTORS
R 1001
R 1002
R 1004
R 1007
R 1008
R 1011
R 1016
R 1018
R 1019
R 1021
R 1022
R 1023
R 1024
R 1027
R 1028
R 1042
R 1045
R 1046
R 1047
R 1048
RES.N.T.C.
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.N.T.C.
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
ECH30 180UH TDK
5.6UH
RM6-S
82UH
0.015H TDK
0.015H TDK
33UH TDK
33UH TDK
33UH TDK
100UH TDK
82UH
15UH
82UH
82UH
3.3UH TDK
BG2000-641-515
LM358M NSC
LM358M NSC
LM358M NSC
TDA8442/N3 PEL
LM369DN NSC
LM339D SIG
LM358M NSC
2.2A 15E
MRS25 1 % 464E
RC-02H 1% 10K
RC-02H 1 % 464K
RC-02H 1 % 464K
MRS25 1% 316E
RC-02H 1% 10K
0.5W 10% 1K5
MRS25 1% 1E96
RC-02H 1 % 215E
RC-02H 1% 178E
MRS25 1% 1E
MRS25 1% 1E
MRS25 1 % 3K16
MRS25 1 % 3K16
RMC1/8 1% 10E
RC-02H 1% 100K
RC-02H 1 % 464E
RC-02H 1% 13K3
RC-02H 1 % 31K6
5322 130 10177
4822 209 60175
4822 209 60175
4822 209 60175
4822 209 71703
5322 209 30266
5322 209 70684
4822 209 60175
5322 116 34035
4822 050 24641
4822 051 51003
4822 051 54644
4822 051 54644
4822 050 23161
4822 051 51003
4822 116 30248
4822 050 21968
4822 051 52151
4822 051 51781
4822 050 21008
4822 050 21008
4822 050 23162
4822 050 23162
4822 111 91885
4822 051 21004
4822 051 54641
4822 051 51333
4822 051 53163
5 .6 -1 5
Ordering code
5322 157 63378
4822 157 52259
5322 157 70858
4822 158 10563
5322 157 63383
5322 157 63383
4822 157 62886
4822 157 62886
4822 157 62886
5322 157 52363
4822 158 10563
5322 157 52539
4822 158 10563
4822 158 10563
5322 157 53017
5 .6 -1 6
Item
R 1049
R 1051
R 1052
R 1054
R 1056
R 1057
R 1058
R 1061
R 1062
R 1063
R 1064
R 1100
R 1101
R 1103
R 1104
R 1106
R 1107
R 1108
R 1109
R 1111
R 1112
R 1113
R 1114
R 1116
R 1118
R 1119
R 1122
R 1123
R 1146
R 1147
R 1159
R 1162
R 1163
R 1218
R 1226
R 1227
R 1228
R 1231
R 1232
R 1233
R 1148
R 1149
R 1151
R 1152
R 1153
R 1154
R 1155
R 1156
R 1157
R 1158
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.N.T.C.
RES.CHIP
RES.CHIP
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.HI-TENSION
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RC-02H 1% 100E
RC-02H 1% 6K19
RC-02H 1% 7K5
RC-02H 1% 100E
RC-02H 1 % 6K19
RMC1/8 1% 10E
RC-02H 1% 7K5
RC-02H 1% 100K
RC-02H 1% 100K
RC-02H 1% 100K
RC-02H 1% 100K
RC-02H 1 % 0E
RC-02H 1% 147K
VR37 1% 31M6
RC-02H 1% 316K
RC-02H 1 % 7K5
RC-02H 1% 10K
RC-02H 1 % 2K37
RMC1/8 1% 51E1
RC-02H 1% 215E
RC-02H 1 % 464E
RC-02H 1 % 4K64
RC-02H 1% 68K1
RC-02H 1 % 4K64
RMC1/8 1% 51E1
RMC1/8 1% 51E1
MRS25 1% 1E
RC-02H 1% 19K6
RC-02H 1% 100K
RC-02H 1% 121K
RC-02H 1% 215K
RC-02H 1% 10K
RC-02H 1% 12K1
RC-02H 1% 1K
RC-02H 1% 4K22
RC-02H 1% 215K
RC-02H 1% 10K
RC-02H 1% 1M
RC-02H 1% 10K
RC-02H 1% 100K
RC-02H 1% 10K
RC-02H 1% 0E
RC-02H 1% 0E
RC-02H 1% 1K
RC-02H 1 % 464E
RC-02H 1% 178E
RC-02H 1% 10K
0.5W 10% 1K5
RC-02H 1% 511E
RC-02H 1% 2K37
UNIT DESCRIPTIONS
Ordering code
4822 051 51001
4822 051 56192
4822 051 57502
4822 051 51001
4822 051 56192
4822 111 91885
4822 051 57502
4822 051 10104
4822 051 10104
4822 051 51004
4822 051 51004
4822 051 10008
4822 051 51474
5322 116 64103
4822 051 53164
5322 117 10583
4822 051 51003
4822 051 52372
5322 111 91893
4822 051 52151
4822 051 54641
4822 051 54642
4822 051 56813
4822 051 54642
5322 111 91893
5322 111 91893
4822 050 21008
4822 051 10113
4822 051 51004
4822 051 51214
4822 051 52154
4822 051 51003
4822 051 51213
4822 051 51002
4822 051 54222
4822 051 52154
4822 051 10103
4822 051 51005
4822 051 51003
4822 051 51004
4822 051 10103
4822 051 10008
4822 051 10008
4822 051 51002
4822 051 54641
4822 051 51781
4822 051 51003
4822 116 30248
4822 051 55111
4822 051 52372
UNIT DESCRIPTIONS
Item
R 1253
R 1254
R 1256
R 1257
R 1258
R 1260
R 1261
R 1262
R 1263
R 1264
R 1234
R 1235
R 1236
R 1238
R 1239
R 1241
R 1242
R 1243
R 1244
R 1245
R 1246
R 1247
R 1248
R 1249
R 1251
R 1278
R 1281
R 1282
R 1283
R 1291
R 9017
Description
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.CHIP
RES.METAL FILM
RES.CHIP
V 1007
V 1008
V 1009
V 1013
V 1014
V 1016
V 1017
V 1018
V 1019
V 1021
V 1022
V 1023
SEMICONDUCTORS
V 1001
V 1002
V 1003
V 1004
V 1006
DIODE
DIODE
DIODE
DIODE
DIODE,CHIP
BYM56E PEL
BYM56E PEL
BYM56E PEL
BYM56E PEL
BAS16 PEL
TRANSISTOR
DIODE.CHIP
DIODE,CHIP
DIODE.CHIP
TRANSISTOR,CHIP
BC337 PEL
BAS 16 PEL
BAS16 PEL
BZX84-C15 PEL
BRY62PEL
MOSFET
DIODE
DIODE
DIODE
DIODE
2SK1119
BYV27-150 PEL
BYV28-150 PEL
BUW12A PEL
BYV26C PEL
DIODE BYV26C PEL
DIODE,REFERENCE BZX79-C3V0 PEL
RC-02H 1 % 4K22
RC-02H 1% 1K
RC-02H 1% 215E
RC-02H 1% 5K11
RC-02H 1 % 2K37
RC-02H 1% 31K6
RC-02H 1% 10K
RC-02H 1 % 23K7
RC-02H 1% 21K5
RC-02H 1 % 26K1
RC-02H 1% 2K37
RC-02H 1 % 2K37
RC-02H 1% 1M
RC-02H 1% 5K11
RC-02H 1% 100E
RC-02H 1 % 5K11
RC-02H 1% 10K
RC-02H 1% 10K
RC-02H 1% 5K11
RC-02H 1% 100E
RC-02H 1% 7K5
RC-02H 1% 1K
RC-02H 1% 1K
RC-02H 1% 100E
RC-02H 1% 100E
RC-02H 1% 1K
RC-02H 1% 21K5
RC-02H 1% 10K
RC-02H 1% 26K1
MRS25 1% 100E
RC-02H 1% 100E
5 .6 -1 7
Ordering code
4822 051 54222
4822 051 51002
4822 051 52151
4822 051 55112
4822 051 52372
4822 051 53163
4822 051 51003
4822 051 52373
4822 051 52153
4822 051 52613
4822 051 52372
4822 051 52372
4822 051 51005
4822 051 55112
4822 051 51001
4822 051 55112
4822 051 51003
4822 051 51003
4822 051 55112
4822 051 51001
4822 051 57502
4822 051 51002
4822 051 51002
4822 051 51001
4822 051 51001
4822 051 51002
4822 051 52153
4822 051 51003
4822 051 52613
4822 050 21001
4822 051 51001
4822 130 80254
4822 130 80254
4822 130 80254
4822 130 80254
5322 130 31928
4822 130 40855
5322 130 31928
5322 130 31928
5322 130 33662
5322 130 62661
5322 130 63358
4822 130 31628
5322 130 32043
5322 130 42114
4822 130 32343
4822 130 32343
4822 130 31881
5 .6 -1 8
V 1209
V 1211
V 1212
V 1213
V 1214
V 1216
V 1226
V 1241
V 1242
V 1243
V 1244
V 1246
V 1251
V 1252
V 1253
V 1271
V 1272
V 1277
V 1278
V 1279
V 1280
V 1281
V 1283
V 1284
Item
V 1046
V 1100
V 1105
V 1101
V 1102
V 1103
V 1104
V 1106
V 1107
V 1108
V 1109
V 1111
V 1112
V 1113
V 1131
V 1146
V 1147
V 1148
V 1149
V 1201
V 1203
V 1204
V 1206
V 1207
V 1208
BZX84-C5V1 PEL
BZX84-C11
BZX84-C11
BC848C PEL
BC858C PEL
BZX84-B47 PEL
BAS21 PEL
BAS21 PEL
BAS21 PEL
BYV27-150 PEL
BUL147
BZX84-C4V3 PEL
BAS21 PEL
BAS21 PEL
BY8412 PEL
BC337 PEL
BC327 PEL
BD825 PEL
BD825 PEL
BYV28-150 PEL
BYV28-150 PEL
BYV28-150 PEL
BYV28-150 PEL
BYV28-150 PEL
BYV28-150 PEL
BYV27-150 PEL
BYV95C PEL
BYV27-150 PEL
BT151 PEL
BYV95C PEL
BYV27-150 PEL
BC858C PEL
BC848C PEL
BC848C PEL
BF821 PEL
BAS21 PEL
BAS16 PEL
BC858C PEL
BC858C PEL
BAS21 PEL
BYV28
BYV28
BAS16 PEL
BSVS2 PEL
BAT17 PEL
BAT17 PEL
BAS21 PEL
BZX84-C15 PEL
BF820 PEL
Description
DIODE,CHIP
DIODE
DIODE
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE
TRANSISTOR
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
TRANSISTOR
DIODE
DIODE
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE,CHIP
TRANSISTOR,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE
DIODE
DIODE,CHIP
TRANSISTOR,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE,CHIP
DIODE.CHIP
TRANSISTOR,CHIP
UNIT DESCRIPTIONS
Ordering code
5322 130 32835
4822 130 81338
4822 130 81338
5322 130 42136
4822 130 42513
4822 130 31628
4822 130 41487
4822 130 31628
5322 130 24081
4822 130 41487
4822 130 31628
4822 130 42513
5322 130 42136
5322 130 42136
4822 130 61923
4822 130 33702
5322 130 31928
4822 130 42513
4822 130 42513
4822 130 33702
5322 130 32043
5322 130 32043
5322 130 31928
5322 130 44336
5322 130 31544
5322 130 31544
4822 130 33702
5322 130 33662
5322 130 62802
4822 130 82521
4822 130 33702
4822 130 33702
4822 130 33702
4822 130 31628
5322 130 63515
5322 130 80256
4822 130 33702
4822 130 33702
5322 130 82711
4822 130 40855
4822 130 40854
4822 130 41746
4822 130 41746
5322 130 32043
5322 130 32043
5322 130 32043
5322 130 32043
5322 130 32043
5322 130 32043
UNIT DESCRIPTIONS
Item
X 1008
Description
CONNECTORS
X 1001
X 1002
X 1003
X 1004
X 1006
CONNECTOR
CONNECTOR
CONNECTOR
CONNECTOR
CONNECTOR
CONNECTOR
MECHANICAL PARTS
Fixing clip for
Insulator for
Fixing clip for
Insulator for
Fixing spring for
V 1019
V 1019
V 1016
V 1016
EHT multiplier D1131
3-P SNG RT.ANG
64-P PIN 2.54MM
5-P SNG STRGHT
2-P SNG RT.ANG
2-P SNG RT.ANG
2-P SNG RT.ANG
5. 6-19
Ordering code
5322 265 30433
5322 290 61087
5322 265 30436
5322 265 20525
5322 265 20525
5322 265 20525
5322 492 63721
5322 466 62628
4822 492 63051
5322 255 41133
5322 401 11111
UNIT DESCRIPTIONS
5.7 RESERVED FOR FUTURE EXTENSIONS
5.7-1
UNIT DESCRIPTIONS
5.8 RESERVED FOR FUTURE EXTENSIONS
5.8-1
UNIT DESCRIPTIONS
^ 5.9 RESERVED FOR FUTURE EXTENSIONS
5.9-1
UNIT DESCRIPTIONS
5.10 CONNECTOR BOARD A10
5.10.1 Unit lay-out
o d = j
1
CO o
X
-------G= o
A B C
32
I
5.10-1 f=U o
CO o
X
2 1 4 9 50
= 3 -------o
C B A
ST8295
970420
Lay-out 8 - lay-out of connector board A10
UNIT DESCRIPTIONS
5.10 CONNECTOR BOARD A10
5.10.1 Unit lay-out
28 27
O
O
X
2
IAJ
1
o
1
CO o
X
- - - - - - - G = o
A B C
32
5.10-1 c=J] o
CO o
X
2 1 49 50
= B --------o
C B A
ST8295
970420
Lay-out 8 - lay-out of connector board A10
5.10.2 Circuit Diagrams
+5VD
♦SVD
♦ 5SENSE
SEN
-5VD
-SVD
-5VO
+5VA
•58V
_ PROBE4
__ PR06E3
__ m n
_ YTXTO
_ 2SW1
_ zsw o
_ STBMTB-MT
_ STROTB-HT
_ SOA
__ w s
_ TXTCS-LT
__ BATROYHT
_ UFORES
_ CRM S
_ CRMO
_ CPAD07
_ CPAD04
°X" r
C32
C31 r
" V
COO
%
X 1 0 0 3
°x
*X"
C29
C28 _ r
C27
C20
% r
C25
C24 sX~
C23
" V
C22
" V
C21
" V
C20
C l 9
C18
D i
C17
1
C16
" V
C15
C l 4
°x
C3
C2
C1
C l 3
C12
C6
CS
C4
C11
CIO
C9
_ r
C8
C7
* r s
°x
1
1
|
:
1
1 i
1
1
.
|
1
!
I
1 i i
1 i
| i
1
1
_ XCAL
__ PROBE1
*
_ P908E2
*■
_ WTRDO
_ ZTXTO
_ m e n
_ m
XVSW1
_ XYSWO
_ TBSMAflT
_ STROBE1-HT
_ STROBED-HT
' 2 V »
-f 12V »
1 _ SCL
1
'
_ BATTNTHT
_ ROSOP4.T
1 AUE-HT
1
_ C P R D - U
.
|
_ CTA12
1
_ CPA09
| m
_ CPAD06
| _ CPAD03
1
_ CPAD01 i
A6 i-5VD |
*5VD |
♦SVD i
-SVD |
-5VD |
-5VD |
♦SVBAT |
-5VA |
♦5VA |
-58V |
•12V |
-12V
■< A *
-c £ * >
♦ 10V |
+ 12V |
4-12V I
4-58V I
REF
5. 10-2
° x
° X s X
° x
° X r
B32
023
" V
022
“ V
621
" V
020
“ V
619
" S
010
“ V
017
- v
010
" V
815
" V
014
“ V
013
V
012
B11
" V
810
69
" V
00
67
" V
B31 _ £
030
029
" V
620
027
826
B25
“ V
024
86
06
“ V
04
" V
B3
" Q
02
“ V
01
A 3 —
X 1 0 0 3
L n i i
I _ YCAL
| _ POWER-HT i
1 _ FOCUS-OA i
! _ XTXTO
| _ XTXT1
I
. _ UFOW R-U
| __ CPOAV-HT
I _ UFORD-LT
! _ UFOOAV-LT
| i
1 _ TBHOTXT
I
1 _ DLEN2-HT
! _ DLENO-HT
| i
1 _ OPTCS-LT
| _ O P n K H J
1 _ CPWR-LT
! _ RESOPT4J
| _ CRA11
I _ cpAoe
. _ CRAD05
| _ CPADQ2
J i
1 _ CFAD00
°
REF ^ s X
° x r
C A L X "
X 1 0 0 3 r
A32
A22 1
~ S
A21
" V
A20
A19 1
A10
A17
" V
A10 1
" S
A16
A14
A31 i
^
A30
" V
A29
A20 1
" S
A27
" V
A20
A2S 1
" \ i
A24
A23
° x
1
° x
° x
A13 1
" %
A12
™%i
A11
A10
*
" V
A9
“ V
AS
A7
A6
AS
" %
A4
A3
1
™ V x
A2
A1 1
L n i
•
I i
'
1
> j
'
|
* i
-
|
*
1
1
'
1
1
'
1
1
J i
|
'
1
1
1
1
A1
X1001
I------------- 1
+SVA |
TBSMART sX
+1ZV |
♦ 18V |
REF
AX"~
DLENO-HT
+-5VA |
PROBE!
STROBE 1-HT * ,
+-5VA
PROBE2
* X
Diagram 1 Connectors to unit A1, A2, A3 and A6
UNIT DESCRIPTIONS
YTXT0
XTXTO
CPA13
CPA11
CPA09
CPAD07
CRAD06
CPAD03
CPAD01
ZSWO
XYSWO
ZTXTO
+ 10VREF
BATHTHT
BATROYHT
RCSOFTLT
D u
C22 sX
C21
C20 sX
* 1
C19
C10
C17
C16
C16
C14
X 1 0 0 8 r
C32
C31
C30
C29
" V
C20
C27
« f
C26
025
C24 _ r
C23
A i
° x
C13
C12
_r
C11
C10
C9
C8
C7
_r
C0 c s
C4
C3
02
Cl
_r
° x
L
------------------- A 8 —
I
I l
!
|
!
|
I
1
J i
1
'
1
|
1
1
|
'
|
!
|
1
|
I
_
_
_ m
+5VD
_ HEFOUT
_ YTXTl
_ XTXT1
ZSW1
XYSW1
ZTXT1
_ TBHOTXT
_ TXTCS-LT
_ m
_
_
_
~
ALE-HT
CPRD-LT
CPWR-LT
_ m CPA12
_ CPA10
_ CPAO0
CPAD06
_ CPAD04
_
_
CPAD02
CPADOO o m
S J i ■
*1
■
REF J ■
A21
A20 i i
A19
A10
A17 i i
A16 i i
A16
A14
A13
A12 i i A11
A10
A9 i i
1
AS
A7
A0
| AS i i M
A3
------1
X 1 0 0 8 i r
A32 i A31
A30 i i
A29
A20 - t
A27 i
A20 i A25
A24
A23 i i
A22 i i i
L
A2
A1
_ XTXTO
_ ZTXT1
_ XTRAO
_ 2SW1
_ ZTRAO
_ XYSWi
_ YTXTO
_ SDA
X
SX
* X
* X s X u ref
X
CAL H a i r
1 i 3
5 i
7
9
11
13 i i i i
21
23
15
17
19 i
41 i
43 i i 45
47
40 i
25 i i 27
29
31 i i 33
36
37 i 39
X1002 n
A2
_ XTXT1
_ ZTXTO
_ XTRAl
_ ZSWO
_ ZTRA1
_ XYSWO
_ YTXT1
_ XCAL
_ YCAL
_ SCL
_ FOCUS-DA
X1002 r
I 2 n
SX sX
X
X
AX
. 10
1 20
1 22
. 24
1 20
1 28
> 30
1 32
1 34
, 6
I 8
I 10
! 12
1 14
1 10
. M
1 38
A m
1 40
. 42
1 44
1 40 h . 48
1 so
1
COfINECB
.
J
ST8296
970420
5.10.2 Circuit Diagrams
+5VD
♦5VO
+5SENS6
SEN
-5VD
-SVD
-5VD a -CT
+ 5VA
•58V
_ PROBE4
_ PA06E3
_ YTXT1
_ YTXTD
_ 2SW1
_ zsw o
_ STRMTB-WT
_ STROTB-HT
_ SOA
_ w s
_ TXTCS-LT
__ BATROYHT
_ UFORES
_ CRA13
_ CPA10
_ CPA007
_ CPAD04
° x ~
° X "
* X " s X ~
I
0 M B
X 1 0 0 3 r
C32
" V
C31
C30
C29
" V
“ V
C26
" S
C27
" V
C28
C25
C24
“ Vi
C23
C22
C21
C20
" S
_ y
" V
C l 9
C18
C17
" V
C16
" V
C15
C l 4
C l 3
" V
C12 r
C11
CIO
C9
“ S _r
C8
C7
C6
" V
CS
™ v
C4
C3
™ v *
" V
C2
C1
“ V
~ l
1
1
1
_ XCAL
1
1
|
|
1
1
|
.
1
1
|
.
1
1 i
I
|
1
!
|
1 i
_ PROBE1
_ P906E2
^
_ WTROO
_ ZTXTO
_ ZTXT1
_ XYSW1
*
_ XYSWO
_ TBSMAHT
_ STROBE 1-HT l
1
|
!
_ STROBED-HT
^
_ OLEN1-HT
1 i
1
1 _ SCL
!
| ,
_ BATTNTHT
*
_ ROSOfMT
AUE+fT
_ CPftO-LT
_ CPA12
_ CPA09
*
_ CPAD06
_ CPAD03
_ CPAD01
A 3
X 1 0 0 3
° X o X
S X o
° 1
, i - 1
B9
B8
87
86
05
013
812
_e
B11
810
B21
B20
819
818
817
816
B15
B14
/
628
827
826
B2S
B24
823
B22
B32
B31
B30
B29 r
B4
B3
_r
B2
81
A 6 i-SVD |
*5VD |
+-5VO ]
-5VO |
-5VD |
-5VD |
-5VBAT |
-5VA |
ZTRAO
STRM1
STROT
AJ r e f m
DLENO
DLEN2
_ STR06
SPA
PROBI
PROBt
+ 18V |
+ 12V |
4-12V |
4-58V I
REF
-<
5.10-2
_ XCAL
______i
_ PROBE1
_ PROBE2
_ INTRDO
_ ZTXTO
_ ZTXT1
_ XYSW1
_ XVSWO
_ TBSMAflT
_ smoeei-HT
STBOBEO-HT
_ 0LEN1-KT
_ SCL
__ BATTNTHT
_ ROSOP-LT
_ ALE+fT
_ CPRCMJ
_ C
_ CPA09
_ CPAD06
_ CPAD03
_ CPAD01
° r
° x s X
° r
A3 —
X 1 0 0 3 r
B32
B31
BOO
"V
B29
628
827
628
825
624
B23
B22
" V
621
820
619
616
617
616
"V
"V
815
614
613
612
611
810
" V
B8
60
67
"V
86
66
B4
“ V
83
- \ i
1 __ YCAL
1
| _ POWER-WT i
1 _ FOCUS-QA l
! _ XTXTO
I
| _ XTXT1
! _ UFOWR-U
| _ CPOAV-HT
1 _ UFORO-LT
! _ UFOOAV4J
1 i
1 _ TBHOTXT l
1
_ DLEN2-HT
! _ DLENO-HT i
1
_ OPTCS-LT i " "
|
_ O PTBfR J
1
_ CPWR-LT
!
_ RESOPT-IT
| __ CPA11
I
_ cPAoe
. _ CPA005
B2 r | _ CPAD02
B' 1 _ CPAD00 i i______________ i
° r
CAL
REF ^
SX
° r
1
° r
° r
°x
X1 r
A32
A31
A30
A2S
A26
A27
A26
A26
A24
A23
A22 t t
A21
A20
A19
V f f
V t
V t f
V t f
/ t
V
A6
A5
M
A9
A0
A7
A16
A17
A16
A15
■% t
V f
V f
A14 t
A13
A12
A11
V t f t
A10 f f t f
V t
V f
A3
A2 t f
AT t i______________ i
A1
X 1 0 0 1
I------------- 1
+5VA |
TBS MART sX
* X
*-L
REF J L
DLENO+fT
+5VA |
PROBE1
STROBE 1-HT A t SVA |
PROBE2
*x
** X
Diagram 1 Connectors to unit A1, A2, A3 and A6
UNIT DESCRIPTIONS
_
_
YTXTO xtxto
^
_
_ zsw o
XYSWO
ZTXTO
_ ♦ 10V REF
_ BAT6ITWT
_ BATROYHT
RESOPT-LT
_
_
_
_
_
_
CPA13
CPAT1
CPA09
CFAD07
CREDOS
CPAD03
CPAD01 ou s X s X
* 1
" 1
° 1 r
C32
C31 ^
V f
X 1 0 0 8
C30 ^ i
C26
C27
C26
^
+
+
*
C28
V
C24 f
+
L
C23 ^
C22
C21 ^
V
+
C20 ^
CIO
C16
V
\
+
+
C17 ^
"
C16
C15
C14
C13
C12 s +
V +
V s +
+
+
C11 ^
C10
V
V +
08 f
V
C6
C7 f
V f
C6
C5 f f
V
V
04
C3 t
-
C2
C l s f
j n
A8 -----------------1
X 1 0 0 8
+5VD i i r
A32
A31
A30
HEFOUT
YTXT1
XTXT1
ZSW1
XYSW1
ZTXT1
AT4 i
___
REF J i AT 3
TBHOTXT AT 2
TXTCS-LT
ALE-HT
CPRO-LT c p v m - u
CPA12
CPA10
CPA06
CPADOe
CPA004
CPAD02
CPADOO o B
S J i i i i i i i i i i i i i i i i i
A29
A26
A27
A26
A25
A24
A23
A22
A21
A20
A19
A16
AT 7
A16
A16
ATT
ATO
A9
AS
A
7
A6 i i
I
AS
A4
A3 i i i
L
A2
AT t
/ t f
V f t V f t V t
\
V t
/
V t t t
V f f f f f f t V t t
V t V t
/ t V
V f f j n
A2
X 1 0 0 2
I--------------- 1
X 1 0 0 2
I--------------- 1 sX
• X -
-5VA
»5VA
-58V
+58V
REF^""
ST8296
970428
UNIT DESCRIPTIONS
C P A 1 3
C P A 1 1
C P A 0 9
C P A D 0 7
C P A D 0 5
C P A D 0 3
C P A D 0 1
B A T R D Y H T
R E S O P T - L T
-5V D
-5V A
-5V A
+ 5 V A
- 1 2 V
-1 2 V
+ 1 8 V
+ 5 V D
+ 5 V D
+ 5 8 V
-5 8 V
+ 1 0 V R E F
X1009
A
A
A m m m
Dm
DJm
1
1
1
|
1
1
1
1
1
I
1
1
A 2 5
A 2 6
A 2 7
A 2 8
A 2 9
A 3 0
A 3 1
A 3 2
V
,
,
V
,
V
V
,
V f
,
V r
V
Vi
/■
,
V
,
V
,
V
,
Vi
V
,
V
, f
V
V
^
,
Vi
V r
^
,
Vi r
Vi r
V
V r c r
Vi
V
,
V
/ •
,
,
Vi
,
V .
Vi
,
Vi
Vi c
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
A 1 1
A 1 2
A 1 3
A 1 4
A 1 5
A 1 6
A 1 7
A 1 8
A 1 9
1
1
1
1
1
1
1
1
1
1
1
1
1
1 r
I
1
1
A1
A 2
A 3
A 4
A 5
A 6
A 7
A 8
A 9
A 1 0
1
1
1
1
1
1
1
A 2 0
A 21
A 2 2
A 2 3
A 2 4 o r r
1
A9
+ 5 V D
+ 5 V D r
C 1
C 2
C 3
T X T C S - L T
A L E - H T
C P R D - L T
C P W R - L T
C P A 1 2
C P A 1 0
C P A 0 8
C P A D 0 6
C P A D 0 4
C P A D 0 2
C P A D O O
-5V D
-5 V D
-5V A
+ 5 V A
-1 8 V
-1 2 V
+ 1 2 V
+ 1 2 V
+ 1 2 V
D J 7
+ 5 V B A T
A
R E F
DX "
C 2 2
C 2 3
C 2 4
C 2 5
C 1 7
C 1 8
C 1 9
C 2 0
C 2 1
C 2 6
C 2 7
C 2 8
C 2 9
C 3 0
C 3 1
C 1 0
C11
C 1 2
C 1 3
C 1 4
C 1 5
C 1 6
C 4
C 5
C 6
C 7
C 8
C 9
U
C 3 2
X1009
+12V
5. 10- 3
A4
X1004 i i r
2
4 r
V c i i i
6 r i i
8
1 0 i i i
12 i
1 4 c
V.
i
1 6 i i i
1 8 f
V .
i
2 0 i
2 2 i i i i
2 4
26 r i
2 8
^ i--------- >■ c f
V c n
|
I
I
I
, l
.
|
|
I
I
.
|
I i
_ U F O R E S
_ U F O W R -L T
►
_ C P D A V -H T
+ S V D ^
U F O R D - L T
U F O D A V -L T
C P A D 0 7
_ C P A D 0 6
C P A D 0 5
_ C P A D 0 4
C P A D 0 3
C P A D 0 2
C P A D 0 1
_
CPA D O O
X1004
I r
1 r
V .
I
I
I
I
I
I
3
5 C
Vi
7
9
I
I
1
1
11
1 3
1
1
1
1
1 5
1 7
1
1 9 r V
1
1
1
1
1 i
21
23 r
25 c
27__ r v
“ I
TROT1
TROTO
TRACE ROTATION
X1101 l--------------------------- 1
J_J____ I
L J
ILLUMO
IL L U M 1
ILLUMINATION
X1102
I-----------------------------1
I 1 — I
L J
C O N N E C B 1
S T 8 2 9 7
9 7 0 4 2 8
A10 - Diagram 2 ; Connectors to unit A4, A9, trace rotation and illumination
UNIT DESCRIPTIONS
C P A 1 3
C P A 1 1
C P A 0 9
C P A D 0 7
C P A D 0 5
C P A D 0 3
C P A D 0 1
B A T R D Y H T
R E S O P T - L T
+ 5 V D
+ 5 V D
-5V D
-5V A
-5V A
+ 5 V A
- 1 2 V
-1 2 V
+ 1 8 V
+ 5 8 V
-5 8 V
+ 1 0 V R E F
X1009
A m
A —
A m
Dm i i i i i i i i i i i i i i i i i i i t i i i i i i i i i i i i i i i i i i i i i i r i i i i i i i i i i i
A1
A 2
A 3
A 4
A 5
A 6
A 7
A 8
A 9
A 1 0
A 1 1
A 1 2
A 1 3
A 1 4
A 1 5
A 1 6
A 1 7
A 1 8
A 1 9
A 2 0
A 2 1
A 2 2
A 2 3
A 2 4
A 2 5
A 2 6
A 2 7
A 2 8
A 2 9
A 3 0
A 3 1
A 3 2
□ x x
V f
,
Vi
,
V
,
Vi
V
, f
V
V f
Vi
, r
Vi f
V r
V
,
Vi
,
V r
V
V
+
V r
,
Vi
,
V
V
, r
V
,
Vi
V .
f f
Vi f
V
Vi r
V r
V
^ r
^
,
V f
Vi
Vi
1
A9
T X T C S - L T
A L E - H T
C P R D - L T
C P W R - L T
C P A 1 2
C P A 1 0
C P A 0 8
C P A D 0 6
C P A D 0 4
C P A D 0 2
C P A D O O
+ 5 V D
+ 5 V D
-5 V D
-5V D
-5V A
+ 5 V A
- 1 8 V
-1 2 V
+ 1 2 V
+ 1 2 V
+ 1 2 V
DX
+ 5 V B A T
R E F
DX " r
C 1
C 2
C 3
C 4
C 5
C 6
C 7
C 8
C 9
C 1 0
C11
C 1 2
C 1 3
C 1 4
C 1 5
C 1 6
C 1 7
C 1 8
C 1 9
C 2 0
C 2 1
C 2 2
C 2 3
C 2 4
C 2 5
C 2 6
C 2 7
C 2 8
C 2 9
C 3 0
C 3 1 u
C 3 2
X1009 n
5. 10- 3
X1009
C 1
C 2
C 3
C 4
C 5
C 6
C 7
C 8
C 9
C 1 0
C11
<
<
C 1 2
<
<
<
C 1 3
<
C 1 4
<
<
<
<
<
<
<
<
C 1 5
<
C 1 6
<
C 1 7
<
C 1 8
<
C 1 9
<
C 2 0
<
C 2 1
<
C 2 2
<
C 2 3
<
C 2 4
<
C 2 5
<
C 2 6
<
C 2 7
<
C 2 8
C 2 9
<
<
C 3 0
<
C 3 1
<
C 3 2
<
1
T R O T 1
T R O T O r
I
L r
X1004
TRACE ROTATION
X1101 i 1
I 3
2
_
1
1
1 i
J
A4
_ U F O R E S
^ U F O W R -L T
_ C P D A V -H T
_ U F O R D - L T
_ U F O D A V -L T
_ C P A D 0 7
_ C P A D 0 6
_ C P A D 0 5
_ C P A D 0 4
_ C P A D 0 3
_ C P A D 0 2
^ C P A D 0 1
_ C P A D 0 0
_ ILLU M O
IL L U M 1
A10 - Diagram 2 ; Connectors to unit A4, A9, trace rotation and illumination
X1004 r
1 1
I 3 c c
1
1 7
C
1 9 C
1 1 3
I 1 5
I 1 7
I 1 9 r
V c
V .
c
V
C
! 23
c
I 2 5 c
I 2 7
I c
V
ILLUMINATION
X1102 r
1 I
I 2
I
I_
C O N N E C B 1
S T 8 2 9 7
9 7 0 4 2 8
5. 10-4
Item
5.10.3 Parts list
CONNECTORS
X 1001
X 1002
X 1003
X 1004
X 1006
X 1011
X 1012
Description
UNIT DESCRIPTIONS
Ordering code
50-P DBL STRGHT
50-P DBL STRGHT
96-P 2.54MM
P 1.25MMSTR
64-P 2.54MM
3-P SNG STRGHT
2-P SNG STRGHT
5322 265 61242
5322 265 61242
5322 267 51108
5322 267 60311
5322 267 70308
5322 265 30434
5322 265 20275
UNIT DESCRIPTIONS 5.11 - 1
5.11 FACTORY INSTALLED OPTIONS
5.11.1 IEEE-OPTION
This option enables the oscilloscope to be controlled by an lEEE-system using the SCPI protocol
(SCPI = Standard Commands for Programmable Instruments). The IEEE connector is located at the rear panel of the oscilloscope. The version number of this factory-installable option is /40. The interface circuitry is located at the microprocessor unit A3. The specification of the interface is given in chapter 2.17. Programming data is given in a separate ’SCPI Programming Manual’.
The description is a part of the explanation of the complete unit A3 and is given in chapter 5.3. The lEEE-option requires additional software and thus requires an additional flash-ROM D1015. The lEEE-components in an oscilloscope without IEEE- option are not inserted.
5.11.2 AUXILIARY OUTPUTS AND EXTERNAL TRIGGER OPTION
Introduction to auxiliary outputs option
This option comprises 4 rear panel BNC outputs that provide Y- out, MTB-gate-out, DTB-gate-out and
External trigger input signals. The characteristics of the output signals are listed in chapter 2.16.3
’Optional outputs’ in this manual. Characteristics of the external trigger input are listed in this chapter.
General description
MTB-gate-out and DTB-gate-out are realized by adding rear panel BNC sockets and coaxial interconnection cables. The coaxial cables lead to the already existing 2-pole connectors on signal unit A1. The necessary circuitry is already present on unit A1. Refer for this to figure 1. The Y- out requires a small printed circuit board, a rear panel BNC socket and a coaxial interconnection cable.
The small printed circuit board is equipped with soldering pins that fit directly into unit A1. The lay-out of this unit is given in figure 2; the belonging circuit diagram in figure 3.
Circuit description
The balanced input signals for the Y-out unit are FNCYOPO and FNCYOP1. The signals originate from pin 5 and 6 of D1301 in the Y-functions section of signal unit A1.
The input current signal is applied to common base circuit V1001A/1002. Then it is applied as current signal to pin 9 and 8 of N1001. The output current signals are routed from pin 11 and 6 to pin 13 and
16. The voltage signal at output pins 12 is used as feedback via C1002/R1009. The voltage signal at output pin 1 is used as output signal via the emitterfollowers N1001/2,3,4 and V1006. Feedback is achieved via R1024/C1011.
Parts list
Item number
C 1001
C 1002
C 1006
C 1009
C 1011
C 1012
C 1013
C 1014
C 1017
C 1018
C 1019
C 1021
Description
10nF/63V
3.3pF/63V
1 pF/63V
10pF/63V
2.7pF/63V
10nF/63V
10nF/63V
5.6pF/63V
22nF/63V
100nF/63V
100nF/63V
100nF/63V
Service ord code
5322 122 34098
5322 122 32286
5322 122 32447
5322 122 32448
5322 122 31873
5322 122 34098
5322 122 34098
5322 122 32967
5322 122 32654
4822 122 33496
4822 122 33496
4822 122 33496
5.11 -2
R 1022
R 1023
R 1024
R 1026
R 1027
R 1028
R 1029
R 1031
R 1032
R 1033
R 1034
R 1036
R 1037
R 1038
R 1039
R 1041
R 1042
R 6101
R 8053
R 8073
Item
R 1001
R 1002
R 1003
R 1004
R 1006
R 1007
R 1008
R 1009
R 1011
R 1012
R 1013
R 1014
R 1015
R 1016
R 1017
R 1018
R 1019
R 1021
R 8137
R 8138
V 1001
V 1002
X 1011
1 k/1 %
147E/1 %
51E1/1 %
100E/1 %
100E/1 %
750E/1 %
1 k33/1 %
51E1/1%
5k11/1 %
511E/1 %
147E/1 %
1 k/1%
51E1/1 %
511 E/1 %
511 E/1 %
4E7/5%
4E7/5%
1 k/1 %
1 E/5%
1 k/1 %
Description
12k1/ 1%
1k1/ 1%
1 k/1 %
51E1/1 %
5k11/1%
825E/1 %
825E/1 %
21E5/1%
4E7/5%
4E7/5%
100E/1 %
100E/1%
5k11/1 %
5k11/1%
1 k33/1 %
147E/1 %
348E/1 %
1 k/1 %
3k16/1 %
3k16/1 %
BF579
BF579
Male Header
4822 051 51002
4822 051 51471
5322 111 91893
4822 051 51001
4822 051 51001
4822 051 57501
4822 051 51332
5322 111 91893
4822 051 55112
4822 051 55111
4822 051 51471
4822 051 51002
5322 111 91893
4822 051 55111
4822 051 55111
4822 051 10478
4822 051 10478
4822 051 51002
4822 051 10108
4822 051 51002
Service ord code
4822 051 51213
4822 051 51102
4822 051 51002
5322 111 91893
4822 051 55112
4822 051 58251
4822 051 58251
5322 111 92014
4822 051 10478
4822 051 10478
4822 051 51001
4822 051 51001
4822 051 55112
4822 051 55112
4822 051 51332
4822 051 51471
4822 051 53481
4822 051 51002
4822 724 53162
4822 724 53162
5322 130 61819
5322 130 61819
5322 265 20525
UNIT DESCRIPTIONS
UNIT DESCRIPTIONS 5. 11- 3
Fig. 1. Location of options Y-out and external trigger
UNIT DESCRIPTIONS
5. 11- 3
Fig. 1. Location of options Y-out and external trigger
5. 11-4 UNIT DESCRIPTIONS
Fig. 2. Printed circuit board lay-out of Y-out unit
UNIT DESCRIPTIONS
+ 12V + 12V + 12V + 12V +12V +12V + 12V +12V + 12V
5.11 5
X1003
YOR-HX
X1009
X1010
SCL
R1001
112K1 r + 12V
ST8300
970428
Fig. 3. Circuit diagram of Y-out unit
UNIT DESCRIPTIONS
+ 12V +12V +12V +12V
X1003
YOP-HX
X 1009
X 1010
SCL
R1001
I 12K1
+ 12V + 12V +12V +12V +12V +12V + 12V
5.11 -5
YOR-HX
1 SDA
1 SCL
R1001
1 12K1 I 1
+ 12V
ST8300
970428
Fig. 3. Circuit diagram of Y-out unit
UNIT DESCRIPTIONS 5.1 1 -7
Introduction toexternal trigger option
The External Trigger Input option provides an extra input at the rear of the oscilloscope. This input can be used as the trigger source for the Main Time Base (MTB). The option is factory-installable only.
The external trigger requires a small printed circuit board, a rear panel BNC socket and a coaxial interconnection cable.
The small printed circuit board is equipped with soldering pins that fit directly into unit A1. Refer to figure 1 for the exact location. The lay-out of this unit is given in figure 4; the belonging circuit diagram in figure 5.
The EXT TRIG input is suitable for use with the supplied 10:1 probe. The input characteristics are similar to those of CH1 ...CH4.
If External is chosen as trigger source, then the following trigger functions remain available:
- trigger filters ac, dc, lf_rej and hf_rej
- level-pp function
- +/- slope selection
- noise on/off
If External trigger is chosen as trigger source, then TV trigger mode is not available.
Line (50/60 Hz mains) as trigger source is not available.
If the External trigger option is present together with ’Y- out’ option, then the DTB gate output of the
Y-out is not available.
A diode V7801 (BAV99, 5322 130 34337) is added on signal unit A1. This diode is connected to the
’panel version identification’ circuit D9013. By means of this, the internal software knows that the external trigger option is present. Diode V7801 is located on unit A1 between V7802 and R7077.
Characteristics
The following has to added to chapter 2.3.1 of ’characteristics’.
SPECIFICATION CHARACTERISTICS
Source
SOURCE(S)
MTB- triggering
CH1 ... CH4
External
Composite
ADDITIONAL INFORMATION
No line triggering
Input characteristics
INPUT CONNECTOR
INPUT IMPEDANCE
R parade
- value
- tolerance
C parallel
- value
- tolerance
DYNAMIC RANGE
Up to 10 MHz
BNC
1 MQ
±1 %
25 pF
±5 pF
±2.5 V
At rear of instrument
Measured at freq.dM Hz
Symmetrical
5.1 1 -8
UNIT DESCRIPTIONS
CHARACTERISTICS SPECIFICATION ADDITIONAL INFORMATION
INPUT VOLTAGE LIMITS
A (d.c. + a.c. peak) A ±400 V
See note 1
See note 2
Note 1: Apparatus should be properly grounded through the protective ground conductor of the power cord.
Note 2: Up to 10 kHz; > 10kHz see figure 1.1.
Sensitivity
EDGE TRIGGER SENSITIVITY d.c. to 5 MHz d.c. to 10 MHz
100 mV
200 mV
Note 3: In noise-trigger multiply stated value by 2.
See note 3
Trigger level
Range
Accuracy
±1.5 V
<0.4 V
See note 4 at 1 kHz inputsignal triggercoupling DC
Note 4: With Level-pp on the range is restricted to the peak- peak value of the trigger signal.
Circuit description
Refer to figure 5 for the circuit diagram. The input signal is routed via RC circuit R1001/C1002 and a coaxial cable to the small printed circuit board. Via protection diodes V2002 the signal is applied to the operational amplifier N2021. This device functions as amplifier and level shifter. The analog multiplexer D2031 the output signal MTRIGEXT. This signal is applied to the base of transistor V6507 in the MTB trigger section on unit A1 (diagram 12). Multiplexer D2031 applies -9 V (-9EXT) to the diodes V2012 if the external trigger signal is not needed. This suppresses the signal directly at the input.
Parts list
Item number
C 1001
C 2082
C 2091
C 2001
C 2003
C 2004
C 2011
C 2016
C 2021
C 2023
C 2032
C 2082
C 2086
C 2092
C 2094
Description
33pF/500V
47uF/25V
47uF/25V
56pF/63V
100nF/63V
100nF/63V
10nF/63V
100nF/63V
100pF/63V
33pF/63V
100nF/63V
100nF/63V
100nF/63V
100nF/63V
100nF/63V
Service ord code
4822 122 31202
4822 124 20699
4822 124 20699
5322 122 32661
4822 122 33496
4822 122 33496
5322 122 34098
4822 122 33496
5322 122 32531
5322 122 32659
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
4822 122 33496
UNIT DESCRIPTIONS
Item
D 2031
R 1001
R 2001
R 2002
R 2013
R 2014
R 2021
R 2022
R 2023
R 2024
R 2033
R 2051
R 2052
R 2054
R 2061
R 2062
R 2063
R 2081
R 2086
R 2091
R 2094
V 2002
V 2012
V 2053
V 2064
V 2093
X 2001
Description
HEF4053BT
750k/0.25%
511 k/1 %
511 k/1 %
10M/5%
10M/5%
261E/1%
14k7/1 %
1 k47/1 %
3k16/1 %
1 k47/1 %
14k7/1%
2k15/1 %
5k11/1%
2k15/1 %
14k7/1 %
5k11/1%
4E7/5%
4E7/5%
4E7/5%
5k11/5%
BAS28
BAS28
BC848C
BC858C
BZX84-C3V0
Male Header
Service ord code
5322 209 14481
5322 116 53588
4822 051 55114
4822 051 55114
4822 051 10106
4822 051 10106
4822 051 52611
4822 051 51473
4822 051 51472
4822 051 53162
4822 051 51472
4822 051 51473
4822 051 52152
4822 051 55112
4822 051 51252
4822 051 51473
4822 051 55112
4822 051 10478
4822 051 10478
4822 051 10478
4822 051 55112
5322 130 80214
5322 130 80214
5322 130 42136
4822 130 42513
5322 130 32739
5322 265 20525
5.11 -9
5.11 -10
01002
UNIT DESCRIPTIONS
MTREXTSW-HD
Fig. 4. Printed circuit board lay-out of external trigger unit
CNT4MT-HT
UNIT DESCRIPTIONS
C10Q2
3 3 p i i r
L
X2001 0V + /-1 .8 V
SOmV/dh t
EXTSKa
| DC LIMITER*]
C 2 0 0 3 lOOn
+ 1.SEXT
a V2002
BAS26
X
C 20 04
100n u
5s
V2002
BAS28
-1.5EXT
V2012
BAS28
^ C201
T !0n
| AC LIMITER*"]
X2011
T
+12V R2Q81
I 4E 7
| SUPPLY VOLTAGES |
02081
+
S 47"
25V
X2012
I
" 100n
5.11-11
| AMPLIFIER AND LEVEL SHIFT |
C2Q23
X2018
REF NO
N2021
D2031
TYPE
LF357
HEF*053
+ 12EXT
7
+5EXT GND -9EXT
16 6 7
-12EXT
4
Fig. 5. Circuit diagram of external trigger unit
UNIT DESCRIPTIONS
C1002
3 3 p
DC LIMITER "|
X2011
T + 12V
R2061 f~4E7~
| SUPPLY VOLTAGES"|
C2061
+
S 47"
25V
X2012
Z m
C 20 62
" !0 0 n
+ 12
5.11-11
| AC LIMITER
| AMPLIFIER AND LEVEL SHIFT |
C2Q23
REF NO
N2021
D2031
TYPE
LF357
HEF4053
+ 12EXT
7
+SEXT GND
16 e
-9EXT
7
-12EXT
4
Fig. 5. Circuit diagram of external trigger unit
PERFORMANCE TEST 6 -1
6 PERFORMANCE TEST
6.1 GENERAL INFORMATION
WARNING: Before turning on the instrument, ensure that it has been installed in accordance with the Installation Instructions, outlined in Section 2 of the
Operation Guide.
This procedure is intended to:
Check the instrument’s specification.
Be used for incoming inspection to determine the acceptability of newly purchased instruments and/or recently recalibrated instruments.
Check the necessity of recalibration after the specified recalibration intervals.
NOTE: The procedure does not check every facet of the instrument’s calibration; rather, it is concerned primarily with those parts of the instrument which are essential to measurement accuracy and correct operation. Removing the instrument covers is not necessary to perform this procedure. All tests are made from the outside of the instrument.
If the test is started shortly after turning on the instrument, steps may be out of specification, due to insufficient warm up time. Be sure to allow the full warm up time of 30 minutes (under average conditions).
The tests are made with a stable, well-focused, low-intensity display. Unless otherwise noted, adjust the intensity, position, and trigger level controls as needed.
IMPORTANT NOTES
The input voltage must be supplied to the CH1 input, unless otherwise stated. Set the MTB/VAR key pair to a suitable position, unless otherwise stated.
Tolerances given are for the instrument under test and do not include test equipment error. Bear in mind that the test equipment and connecting cables are properly terminated.
In case of high-frequency signals, this termination must be 50ft. This is achieved with a 50ft termination at the end of the cable. Such termination is not necessary for the PM3094 (all channels), or CH1, CH2 of the PM3092; these oscilloscopes feature switchable internal 50ft input impedance.
In some tests vertical channels CH2, CH3, CH4 appear in parentheses after CH1, e.g., CH1
(CH2, CH3, CH4). This indicates that the CH1 test should be performed first, followed by the tests for CH2, CH3 and CH4.
Some of the tests are not necessary for all four oscilloscope types. This is indicated as necessary. The test step may then be skipped.
Test steps where the use of a 10:1 probe is required, must be done with the probe type such as supplied with the oscilloscope.
6 - 2 PERFORMANCE TEST
6.2 RECOMMENDED TEST EQUIPMENT
Note:
Note:
The digital multimeter and oscilloscope are not required for this test.
The FLUKE 5500A Multiproduct Calibrator is always used in SCOPE mode. The output signal must be taken from the BNC output ’Scope’.
Type of instrument Required specification Example of recommended instrument
Function generator Fluke 5500A mode: wavegen
Constant amplitude sine wave generator
Freq: 10 Hz... 100kHz
Sine wave/square-wave
Ampl: 0...20 V(pp)
Rise time <30 ns
Duty cycle 50%
Freq: 50 kHz...300 MHz.
Constant pp. amplitude of 10 mV to 5.5V.
Fluke 5500A mode: levsine
Square-wave calibration generator
Fluke 5500A mode: volt
Time marker generator
For ampl. calibration:
Freq: 1 kHz
Ampl: 10 mV...50 V
For rise time measurements:
Freq: 10 kHz... 1 MHz
Ampl: 10...900 mV
Rise time: <1 ns
Repetition rate:
0.5s...2 ns
Fluke 5500A mode: edge
Fluke 5500A mode: marker
Digital multimeter Wide voltage and current ranges.
Fluke 29/79 with AC, DC and resistance ranges.
High voltage probe.
Required: 1% accuracy, model 80K-40
Well insulated output voltage 90...264V (ac)
Variable voltage transformer (VARIAC)
TV pattern generator with video output
Oscilloscope
Fluke PM5418
Fluke PM3094
BNC/Probe tip adapter
500 cables,
750 cable,
500 terminations,
750 termination,
10:1 attenuator,
T-piece, power splitter
2:1 attenuator
The bandwidth must be the same or higher than the bandwidth of the instrument under test.
For bandwidth check in PM3092
Fluke or e.g. Tektronix
BNC types for fast risetime square-wave and high-frequency sinewave applications.
ord.nr. 5322 263 50022
Fluke PM9074
Fluke PM9075
Fluke PM9581
TEK 011-0055-01
TEK 011-0059-02
Fluke PM9067
Fluke PM9584/02
TEK 011-0069-02
PERFORMANCE TEST 6 - 3
6.3 TEST PROCEDURE
6.3.1 Preliminary settings
Test equipment:
None
Settings/procedure and requirements:
1 - If not present install 2 penlight (LR6) back up batteries in the holder at the rear panel of the oscilloscope.
2 - Turn on the oscilloscope under test.
3 - Press the STATUS and TEXT OFF keys simultaneously. This assures that the oscilloscope follows the default reaction when the green AUTOSET key is pressed. The now following steps are applicable for PM3092 and PM3094.
4 - Press the UTILITY menu key to display the UTILITY menu.
5 - Press softkey AUTOSET to display the UTILITY AUTOSET menu.
6 - Press the relevant softkey to put the oscilloscope in the ’AUTOSET userprog' mode; the text
’userprog’ must be intensified.
7 - Press softkey VERT.
8 - Select with softkey ’1 MO / 500 / unaffect’ the ’unaffect’ position.
9 - Check for the instrument settings in the lower part of the viewing area: when not available press TEXT OFF until the maximum amount of information is displayed.
6.3.2 Power supply
This test checks the proper operation of the power supply at all possible line voltages.
Test equipment:
Variable voltage transformer (VARIAC)
Test set-up:
VARIAC OSCILLOSCOPE UNDER TEST
TO MAINS OSC POWER CORD PROBE
Settings/procedure:
1 - Adjust the input line voltage to the oscilloscope (output from VARIAC) to a desired value between 100 and 240V (rms), frequency 50...400 Hz.
2 - Press POWER ON on the oscilloscope.
3 - Apply the Probe Adjust signal from the front panel of the oscilloscope to input CH1 , e.g., by means of a 10:1 probe.
4 - Press the green AUTOSET key.
6 - 4
PERFORMANCE TEST
Requirements:
1 - Verify that the oscilloscope starts at any input voltage between 100 and 240V; in particular the line voltages 100, 120, 220 and 240V must be checked.
2 - Verify that the instrument’s performance does not change over the indicated voltage range; and that the displayed Probe Adjust signal is distortion-free and has equal intensity.
6.3.3 Auto set
This test checks the correct working of the AUTOSET function.
Test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generator SG 503)
Test set-up:
5500A OSCILLOSCOPE UNDER TEST
5QQ CABLE
Settings/procedure:
1 - Apply a 10 MHz sine wave signal of 600 mV (pp into 50£2) to input CH1;.
2 - Press the green AUTOSET key. Use a 50Q termination at the end of the coax cable. For instruments with switchable 50Q input impedance it is recommended to use the internal termination (when active, the text ’LZ’ appears in the lower part of the viewing area). For instruments without internal termination, an external termination should be used.
Requirements:
Verify that the displayed waveform is stable and properly triggered. Amplitude should be within the screen area. Horizontally a number of signal periods should be displayed.
Repeat the same settings and procedure for CH2, CH3 and CH4.
6.3.4 Orthogonality
This test checks the angle between the horizontal and vertical deflection plates (orthogonality).
Test equipment:
Fluke 5500A mode: wavegen, wave sine (Alternative: function generator PM5136)
PERFORMANCE TEST
Test set up:
5500A OSCILLOSCOPE UNDER TEST
6 - 5
500 CABLE
Settings/procedure:
1 - Press the CAL key for a few seconds to start the autocal procedure. This takes approximately one minute. When ready, the oscilloscope is fine tuned to optimal accuracy.
2 - Apply a 50 Hz sine wave signal of 8 V(pp) to input CH1;
3 - Press the AUTOSET key and adjust the input signal to a trace- height of 8 div.
4 - Activate the GND function and verify that the straight line is exactly parallel to the horizontal graticule lines. If not, readjust the TRACE ROTATION.
5 - Switch the GND function off and verify that a signal of 8 divisions is displayed.
6 - Press the TB MODE menu key to display the TB MODE menu.
7 - Select X-DEFL ’on’ in this menu; the text ’on’ must be intensified. The name of the displayed menu now changes into : TB MODE X-DEFL.
8 - Select ’ch2’ in the TB MODE X-DEFL menu.
9 - Use the X POS control to shift the vertical line to the center of the screen.
Requirements:
1 - Verify that the vertical line is parallel to the vertical graticule line in the center of the screen.
2 - Verify that the angle with respect to the horizontal graticule lines is 90° ± 0.5°x as indicated in the figure.
< 0 .0 7 d iv S 0 .0 7 d iv
OR
MAT3913
Figure 6.5 Orthogonality
6 - 6 PERFORMANCE TEST
6.3.5 Trace distortion
This test checks the distortion of a horizontal line in the central 6 x 8 divisions of the screen.
Test equipment:
None
Settings/procedure:
1 - Press the AUTOSET key with no input signal applied to the scope.
2 - Use the CH1 POS control to shift the timebase line vertically across the center 6 divisions of the screen.
Requirements:
Verify that the deviation from the ideal straight line does not exceed 0.03 divisions in the center of screen and 0.1 divisions elsewhere.
Test equipment:
Fluke 5500A mode: wavegen, wave sine (Alternative: function generator PM5136)
Test set-up:
5500A OSCILLOSCOPE UNDER TEST
60S! CABLE
Settings/procedure:
1 - Apply a 50 Hz sine wave signal of 8 V(pp) to input CH1;
2 - Press the AUTOSET key and adjust the input signal to an amplitude of 8 divisions.
3 - Using the CH1 POS control, adjust the display around the center of the screen.
4 - Press the TB MODE menu key to display the TB MODE menu.
5 - Select X-DEFL ’on’ in this menu; the text ’on’ must be intensified. The name of the menu now changes into TB MODE X-DEFL.
6 - Select ’ch2’ in the TB MODE X-DEFL menu.
7 - Using the X POS control, shift the vertical line across the center 8 divisions of the screen.
Requirements:
Verify that the deviation from the ideal straight line does not exceed 0.03 divisions in the center of screen and 0.1 divisions elsewhere.
PERFORMANCE TEST 6 - 7
6.3.6 Vertical deflection; deflection coefficients
The vertical deflection coefficients of channels CH1, CH2, CH3, and CH4 are checked by means of a calibrated signal.
Test equipment:
Fluke 5500A mode: volt (Alternative: square-wave calibration generator PG 506)
Test set up:
5500A OSCILLOSCOPE UNDER TEST
/ -----------------------------\
SCOPE
OUTPUT o
T
5 0 0 CABLE
^ ___________ t r
DH1 f!H? P.H3 nKd
<Q O <0 O J
T T
Settings/procedure:
1 - Apply a 1 kHz square-wave signal of 20 mV to input CH1. Set the generator in volt mode. The generator must not be terminated with 50Q (the text ’LZ’ must not be visible in the lower part of the viewing area).
2 - Press the green AUTOSET key.
3 - Set CH1 to 5 mV/div and to DC input coupling. The waveform must be in the vertical middle of the screen.
4 - Press the BWL key to activate the bandwidth limiter.
5 - Press menukey TRIGGER MTB and activate softkey ’noise on’ and ’hf-rej’.
6 - Change the input voltage and the setting of CH1 according to table I and verify that the amplitude of the signal agrees with this table. The signal should remain positioned in vertical center of the screen.
Note: Only the input sensitivities are checked that are essential for instrument accuracy.
Requirements: table I.
Input voltage (pp) Setting Requirements
20 mV
50 mV
1V
5V
5 mV
10 mV
0.2V
1V
3.94...4.06 div (+/-1.3%)
4.93...5.07 div (+7-1.3%)
4.93...5.07 div (+/-1.3%)
4.93...5.07 div (+/- 1.3%)
Repeat the settings/procedure in table I for CH2, CH3 and CH4. Use table II for CH3 and CH4 in
PM3092 and PM3082.
table II.
Input voltage (pp) Setting Requirements
0.5V
2V
0.1V
0.5V
4.93...5.07 div (+/-1.3%)
3.94...4.06 div (+/-1.3%)
6 - 8
PERFORMANCE TEST
6.3.7 Vertical deflection; variable gain control range (continuation of 6.3.6)
This test checks the vertical VARiable gain control.
Settings/procedure:
1 - Apply a square-wave signal of 0.2V to input CH1 and press AUTOSET.
2 - Set CH1 to 50 mV/div and input coupling to DC. Using the CH1 POS control, center the waveform in the screen.
3 - Select the VARiable mode by simultaneously pressing both AMPL keys. The readout changes into 50.0 mV/div.
4 - Press the mV key to adjust an input sensitivity of 40.0 mV/div.
Requirements:
Verify that the displayed amplitude is between 4.86 and 5.14 divisions (+/- 2.8%).
Repeat the settings and procedure for CH2. For the PM3094 and PM3084 repeat the same steps for
CH3 and CH4.
6.3.8 Vertical deflection; input coupling (continuation of 6.3.7)
This test verifies the operation of the AC input coupling. Also, the operation of the ground (GND) function is checked.
Settings/procedure:
1 - Switch the CH1 VARiable mode off by simultaneously pressing both AMPL7VAR keys. The readout changes to 50 mV.
2 - CH1 sensitivity is 50 mV/div; the vertical deflection is now 4 divisions.
Requirements:
1 - Activate the CH1 GND function and verify that a horizontal line is displayed.
2 - Select the AC input coupling and verify that a 4 divisions square-wave signal is displayed.
Center this signal in the middle of the screen.
3 - Select the DC input coupling and verify that the 4 divisions square-wave signal moves up. This shift is caused by the signal’s positive dc component: this component is not blocked in DC coupled mode.
Repeat the settings and procedure for CH2, CH3, and CH4. In the PM3092 and PM3082, the test of the GND function is skipped for CH3 and CH4.
6.3.9 Vertical cursor accuracy (continuation of 6.3.8.)
This test verifies the accuracy of the voltage cursors
Settings/procedure:
1 - Change the generator output voltage to 0.1V.
2 - Apply this voltage to CH1.
3 - Switch CH1 to ON and the other channels off.
4 - Select DC coupled input and 20 mV/div for CH1.
5 - Select CH1 as trigger source (TRIG 1).
6 - Center the 5 div square-wave (on the dotted horizontal lines of the graticule) with the POS rotary.
7 - Press the CURSORS menukey.
8 - Select ’on’ and volt cursors (=) in the CURSORS menu.
9 - Select A V in the READOUT menu.
Requirements:
Position the cursor lines exactly on top and bottom of the signal using the TRACK and A controls.
Check for a cursor readout between 98.4 and 101.6 mV.
PERFORMANCE TEST
6.3.10 Vertical deflection, high-frequency response
This test verifies the upper transition point of the vertical bandwidth.
Test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generator SG 503)
Test set-up:
5500A OSCILLOSCOPE UNDER TEST
6 - 9 son CABLE
Settings/procedure:
1 - Apply a 50 kHz sine wave signal of 600 mV (pp into 50i2) to input CH1, and press the
AUTOSET key.
2 - Use an external 500 termination. Use the internal termination of the oscilloscope, when available (if active, the text ’LZ’ is visible in the lower part of the viewing area).
3 - Set CH1 to 0.1 V/div.
4 - Adjust the input signal to an amplitude of exactly 6 divisions.
5 - Slowly increase the frequency to 200 MHz (PM3092, PM3094) or 100 MHz (PM3082, PM3084) and verify that the displayed amplitude does not drop below 4.2 divisions.
6 - Switch the frequency of the sine wave signal to 50 kHz.
7 - Use the BWL key to activate the vertical bandwidth limiter. The text BWL appears in the display area.
8 - Slowly increase the frequency to 20 MHz and verify that the vertical deflection has decreased to 4.2 div approximately at 20 MHz.
9 - Switch the bandwidth limiter (BWL) off.
Requirements:
The vertical deflection must be 4.2 divisions or more. For the bandwidth limiter the requirement is
4.2 div approximately at 20 MHz.
Repeat the above settings and procedure for CH2, CH3 and CH4. The procedure for CH3 and CH4 in PM3092 must be done via the 10:1 probe instead of the 50Q cable. Oscilloscope in 1 V/div and generator voltage 5 Vpp into 50Q. Termination resistor directly at generator output. Use the BNC to probe tip adapter between termination resistor and probe tip. Adjust the amplitude at 50 kHz to
5 divisions, Check that the amplitude at higher frequencies does not drop below 3.5 div.
6.3.11 Vertical deflection, low-frequency response
This test verifies the lower transition point of the vertical bandwidth.
Test equipment:
Fluke 5500A mode: wavegen, wave sine (Alternative: function generator PM5136)
6 - 1 0
PERFORMANCE TEST
Test set up:
5500A
r
OSCILLOSCOPE UNDER TEST
SCOPE
OUTPUT o
T v .________________
IT
<Q O O O ) t r
500 CABLE
Settings/procedure:
1 - Apply a 5 kHz sine wave signal of 600 mV (pp) to input CH1, and press the AUTOSET key.
2 - Set CH1 to 0.1 V/div.
3 - Adjust the input signal to an amplitude of exactly 6 divisions.
4 - Lower the frequency to 10 Hz and verify that the displayed amplitude does not drop below
4.2 divisions.
Requirements:
The vertical deflection must be 4.2 divisions or more.
Repeat the above settings and procedure for CH2, CH3, and CH4.
6.3.12 Vertical deflection; dynamic range at 25/50 MHz
The oscilloscope must be capable of displaying signal amplitudes that are larger than the screen. In practice, a low frequency signal with an amplitude equivalent to 24 divisions must be displayed with no distortion.
Test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generator SG 503)
Test set up:
5500A OSCILLOSCOPE UNDER TEST
A
SCOPE
OUTPUT
T o l _________________ w
CH1 CH2 CH3 CH4
<Q O O O )
500 CABLE
ST8103
PERFORMANCE TEST 6- 11
Settings/procedure:
1 - Apply a 50 MHz (PM3092/94) or 25 MHz (PM3082/84) sine wave signal of 2.4 V(pp into 50Q) to input CH1 and press the AUTOSET key.
2 - Use a 50Q termination. Use the internal termination when avaialble.
3 - Set CH1 to 0.1 V/div.
4 - Using the CH1 POS control, shift the sine wave vertically over the screen.
Requirements:
Verify that top and bottom of the sine-wave signal of 24 divisions in amplitude can be displayed with no distortion.
Repeat the above settings and procedure for CH2, CH3, and CH4.
6.3.13 Vertical deflection; dynamic range at 100/200 MHz (continuation of 6.3.12)
In this test, the dynamic range of the amplifier is checked at a high frequency.
Settings/procedure:
1 - Apply a 200 MHz (PM3092, PM3094) or 100 MHz (PM3082, PM3084) sine-wave signal of
0.8V (pp into 50Q) to input CH1.
2 - Press the AUTOSET key, and set CH1 to 0.1 V/div.
3 - Use a 50£2 termination. Use the internal termination when available.
4 - Set the amplitude to exactly 8 divisions.
Requirements:
Verify that the sine wave of 8 divisions in amplitude is displayed with no distortion.
Repeat the above settings and procedure for CH2, CH3, and CH4.
6.3.14 Vertical deflection; position range
The range of the vertical shift is checked with a sine-wave signal of 8 divisions in amplitude.
Test equipment
Fluke 5500A mode: wavegen, wave sine (Alternative: function generator PM5136)
Test set up:
5500A OSCILLOSCOPE UNDER TEST
SOCl CABLE
8TB104
6 - 1 2 PERFORMANCE TEST
Settings/procedure:
1 - Apply a 1 kHz sine wave signal with an amplitude of 0.8 V(pp) to input CH1.
2 - Press the AUTOSET key and set CH1 to 0.1 V/div.
Requirements
Turn the CH1 POS control fully clockwise and counterclockwise and verify that top and bottom of the
8 divisions signal can be positioned outside the graticule.
Repeat the above settings and procedure for CH2, CH3, and CH4.
6.3.15 Vertical deflection; crosstalk between channels at 100/200 MHz
At higher frequencies there exists some crosstalk between any two channels. In the following test, crosstalk is verified at a high frequency.
Test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generator SG 503)
Test set up:
5500A OSCILLOSCOPE UNDER TEST
50£i CABLE
Settings/procedure:
1 - Apply a 200 MHz (PM3092, PM3094) or 100 MHz (PM3082, PM3084) sine-wave signal of
0.8V (pp into 500) to input CH1.
2 - Press the AUTOSET key.
3 - Use a 50Q termination. Use the internal termination when available.
4 - Switch all channels ON.
5 - Set all channels to 0.1 V/div.
6 - Adjust the generator to a signal amplitude of 8 div.
7 - Activate the GND function of CH2, CH3, and CH4 (if present on the oscilloscope).
Requirements:
Verify that the displayed amplitude the channels with no input signal applied is less than
0.16 divisions, (better than 1:50).
Repeat the above settings and procedure:
Input signal applied to CH2. CH1, CH3, and CH4 input GND.
Input signal applied to CH3. CH1, CH2, and CH4 input GND.
Input signal applied to CH4. CH1, CH2, and CH3 input GND.
PERFORMANCE TEST 6 - 1 3
6.3.16 Vertical deflection; common mode rejection ratio at 1 MHz
The common mode rejection ratio (CMRR) is a measure of susceptibility to common mode signals.
This susceptibility is verified in this test.
Test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generator SG 503)
Power splitter
Test set up:
5500A OSCILLOSCOPE UNDER TEST
Settings/procedure:
1 - Use a power splitter and two cables of equal length to CH1 and CH2.
Apply a 1 MHz sine-wave signal of 1.6 V(pp into 50Q) to inputs CH1 and CH2.
2 - Press the AUTOSET key.
3 - Use 50Q terminations. Use the internal terminations when available.
4 - Set CH1 and CH2 to 0.1 V/div and adjust the generator voltage for a deflection of 8 divisions.
5 - Set CH1 and CH2 to DC input coupling.
6 - Press the CH1+CH2 key to activate the ‘added’ mode.
7 - Press the INV key of CH2; the result is the display of CH1-CH2.
8 - Press the ON keys of CH1 and CH2; this switches CH1 and CH2 off and only the differential signal (CH1 CH2) is now visible.
9 - Readjust the VAR function of CH1 or CH2 for minimum amplitude.
Requirements
Verify that the trace-height of the CH1-CH2 differential signal is less than 0.08 divisions.
Repeat the above settings and procedure for CH3 and CH4 (PM3084/94 only).
6.3.17 Vertical deflection; common mode rejection ratio at 50 MHz
(continuation of 6.3.16)
The common mode rejection ratio (CMRR) indicates the susceptibility to common mode signals at higher frequencies. The susceptibility is verified in this test.
Settings/procedure:
1 - Use a power splitter and two cables of equal length to CH1 and CH2. Apply a sine-wave signal of 50 MHz with an amplitude of 0.8 V(pp into 50£2) to inputs CH1 and CH2.
2 - Press the AUTOSET key.
3 - Use a 5012 termination. Use the internal termination when available.
4 - Set CH1 and CH2 to 0.1 V/div and adjust the generator voltage for a deflection of 8 divisions.
6 - 1 4
PERFORMANCE TEST
5 - Set CH1 and CH2 to DC input coupling.
6 - Press the CH1+CH2 key; to activate the added mode.
7 - Press the INV key of CH2; the result is the display of the differential signal of CH1-CH2.
8 - Press the ON keys of CH1 and CH2; this switches CH1 and CH2 off and only the differential signal of CH1 CH2 display is now visible.
9 - Readjust the VAR function of CH1 or CH2 for minimum amplitude.
Requirements:
Verify that the amplitude of the CH1-CH2 differential signal is less than 0.32 divisions.
Repeat the above settings and procedure for CH3 and CH4(PM3084/94 only).
6.3.18 Vertical deflection; LF linearity
The linearity of the vertical amplifier is checked by moving a signal with a fixed amplitude vertically over the entire screen area.
Test equipment
Fluke 5500A mode: wavegen, wave square (Alternative: function generator PM5136)
Test set up:
5500A OSCILLOSCOPE UNDER TEST
5 0 0 CABLE
Settings/procedure
1 - Apply a 50 kHz square-wave signal of 200 mV (pp) to input CH1.
2 - Press the AUTOSET key and set CH1 to 0.1 V/div.
3 - Move the square-wave signal to the vertical center of the screen.
4 - Adjust the generator output so that the displayed amplitude is exactly 2 divisions.
5 - Use the CH1 POS control to shift the signal across the central 6 divisions of the screen.
Requirements
Verify that the amplitude in the two upper and lower divisions is between 1.96 ...2.04 divisions
(+/-2%).
Repeat the above settings and procedure for CH2, CH3 and CH4.
PERFORMANCE TEST 6 - 1 5
6.3.19 Vertical deflection; visual signal delay
Many applications require that the leading edge of a fast pulse triggering the oscilloscope be made visible. A fixed amount of signal delay is introduced in the vertical channels of this instrument to allow the timebase to start before the triggering leading edge causes vertical deflection to occur.
This delay is verified in the following test.
Test equipment
Fluke 5500A mode: edge (Alternative: square-wave calibration generator PG 506)
Test set-up:
5500A
r
OSCILLOSCOPE UNDER TEST
\
SCOPE
OUTPUT
T
O
500 CABLE o m cmo r.m r;Hd
K
_____________
<Q O O O ) w
SOn TERM.
T T
Settings/procedure:
1 - Apply a signal with a fast rise time of less than 1 ns and an amplitude of 0.5 V (into 500), and a frequency of 1 MHz, to input CH1. Set the generator in the ’edge’ mode.
2 - Press the AUTOSET button and set CH1 to 0.1 V/div.
3 - Use a 500 termination. Use the internal termination when provided.
4 - Set the MTB to 50 ns/div.
5 - Press x10 MAGN and turn the X POS control to display the leading edge.
6 - Turn the TRACE INTENSITY control clockwise for maximum intensity.
7 - Press the TRIGGER MAIN TB menu key to access the TRIGGER MTB menu.
8 - Select level-pp ’o ff mode in this menu.
9 - Select ’dc’ trigger coupling in the menu.
10 - Adjust LEVEL MTB for a triggered display and maximum visible signal delay.
Requirements
Verify that the visible signal delay is at least 15 ns (3 divisions) for PM3092/PM3094.
For PM3082/PM3084, the visible signal delay should be at least
13 ns (2.6 divisions).
Figure 6.6 Visual signal delay
6 - 1 6 PERFORMANCE TEST
6.3.20 Vertical deflection; base line instability
In the following test, several adjustments of balance, offset and jump, are checked.
Test equipment
None
Settings/procedure and requirements:
1 - Press the AUTOSET key (no input signal) and set CH1 to 5 V/div.
2 - Use the CH1 POS control to position the trace in the vertical middle of the screen.
3 - Press both CH1 AMPL keys simultaneously to select the VARiable mode. The readout changes to 5.00V. The input sensitivity can be adjusted now in very fine steps between 2 mV and 12.5 V/div.
4 - Press the ’V’ key and verify that the base line jump is not more than 0.2 divisions between
5.00V to 12.5 V/div.
5 - Press the ’mV’ key and verify that the base line jump is not morethan 0.2 divisions between
12.5 V/div to 5 mV/div.
6 - Press the ON keys of CH2 and CH1; CH2 is now on and CH1 is off.
7 - Using the CH2 POS control, position the trace in the vertical middle of the screen.
8 - Press both CH2 AMPL keys simultaneously to select the VARiable mode. The readout changes to 5.00V. The input sensitivity can be adjusted now in very fine steps between 2 mV and 12.5 V/div.
9 - Press the ’V’ key and verify that the base line jump is not more than 0.2 divisions between
5.00V to 12.5 V/div.
10 - Press the ’mV’ key and verify that the base line jump does not 0.2 divisions between 12.5 V/div to 5 mV/div.
11 - Press the INV key repeatedly and verify that the base line jump is not more than 0.2 divisions.
For the PM3094 and PM3084 repeat the above procedure for CH3 and CH4. The CH3 settings are equal to those of CH1; the CH4 settings are equal to CH2.
For the PM3092 and PM3082 the following steps are required to check CH3 and CH4:
1 - Press the ON keys of CH3 and CH2; CH3 is now on and CH2 is off.
2 - Use the CH3 POS control to position the trace in the vertical center of the screen.
3 - Press the CH3 AMPL key repeatedly and verify that the base line jump does not exceed
0.2 divisions.
4 - Press the ON keys of CH4 and CH3; CH4 is now on and CH3 is off.
5 - Using the CH4 POS control, position the trace in the vertical center of the screen.
6 - Press the CH4 AMPL key repeatedly and verify that the base line jump does not exceed
0.2 divisions.
7 - Press the INV key repeatedly and verify that the base line jump does not exceed 0.2 divisions.
6.3.21 Delay difference between vertical channels
The delay difference between CH1, CH2, CH3, and CH4 is checked here.
Test equipment:
■ Fluke 5500A mode: edge (Alternative: square wave calibration generator PG 506)
- Power splitter PM9584
PERFORMANCE TEST
Test set up:
5500A OSCILLOSCOPE UNDER TEST
6 - 1 7
Settings/procedure PM3092, PM3094, PM3082, PM3084:
1 - Apply a square-wave signal with a fast rise time of less than 1 ns, and an amplitude of 1V (into
50Q), with a frequency of 1 MHz, to inputs CH1 and CH2. The generator must be set in the
’edge’ mode.
Use a power splitter and two cables of equal length to CH1 and CH2.
2 - Press the AUTOSET key.
3 - Use 500 terminations. Use the internal terminations when available.
4 - Set CH1 and CH2 to 0.1 V/div and input coupling to DC.
5 - Press the 10x MAGN key and set the MTB to 2 ns/div (PM3092, PM3094) or to 5ns /div
(PM3082, PM3084).
6 - Press menukey TRIGGER MTB.
7 - Select level-pp ’off and ’dc’ trigger coupling in the belonging menu.
8 - Press menukey TB MODE.
9 - Select ’trig' in the belonging menu.
10 - Adjust LEVEL MTB for a triggered display of the leading edge.
11 - Using the X POS and LEVEL MTB control, position the leading edges of the signals in the horizontal center of the screen.
12 - Using both CH1 and CH2 POS controls, adjust the vertical position of each trace between the dotted 0% and 100% lines. The signals appear to be superimposed.
Requirements
Verify that the delay difference between the two displayed signals is less than 0.25 ns.
This equals 0.13 divisions in PM3092 and PM3094 or 0.05 divisions in PM3082 and PM3084.
Repeat the above settings and procedure for CH3 and CH4.
Figure 6.7 Delay difference <0.13 div in PM3092/94 or < 0.05 div in PM3082/84.
6 - 18 PERFORMANCE TEST settings/procedure PM3092 and PM3082:
1 - Apply a fast rise time (£ 1 ns) signal of 1V (into 50Q), frequency 1 MHz, to inputs CH1 and CH3.
Generator in ’edge’ mode.
Use a power splitter and two cables of equal length to CH1 and CH3.
2 - Press the AUTOSET key.
3 - Use 500 terminations.
4 - Set CH1 and CH3 to 0.1 V/div and input coupling to DC.
5 - Press 10x MAGN key and set MTB to 2 ns (PM3092) or to 5ns (PM3082).
6 - Press menukey TRIGGER MTB.
7 - Select level-pp ’off’ and ’dc’ trigger coupling in the belonging menu.
8 - Press menukey TB MODE.
9 - Select ’trig’ in the belonging menu.
10 - Adjust LEVEL MTB for a triggered display of the leading edge.
11 - Position the rising edges of the signals in the horizontal center of the screen, by means of the
X POS and LEVEL MTB control.
12 - Adjust the two traces between the dotted lines 0% and 100% by means of the CH1 and CH3
POS controls so that both signals cover each other.
requirements:
Verify that the delay difference between the two displayed signals is less than 0.5 ns: this equals
0.25 divisions in PM3092 or 0.1 divisions in PM3082.
Repeat settings/procedure for CH1 and CH4.
Figure 6.8 Delay difference < 0.25 div in PM3092 or <0.1 div in PM3082.
6.3.22 Horizontal deflection; display modes and trace separation
The correct working of main timebase (MTB), delayed timebase (DTB) and the TRACE
SEPARATION is checked.
test equipment:
Fluke 5500A mode: wavegen, wave sine (Alternative: function generator, PM5136)
PERFORMANCE TEST 6 - 1 9 test set-up:
5500A
r
OSCILLOSCOPE UNDER TEST
\
SCOPE
OUTPUT o l
500 CABLE v ________________
W
DH1
<Q
C.H9
CHS
CM
O O O J
T T settings/procedure and requirements:
1 - Apply a 2 kHz sine-wave signal of 400 mV (pp) to input CH1.
2 - Press the AUTOSET key and set CH1 to 0.1 V/div.
3 - Adjust the generator signal to a trace height of 4 divisions.
4 - Set MTB to 0.5 ms.
5 - Press menukey DTB.
6 - Set DEL’D TB to ’on’ in the DELAYED TIMEBASE menu.
7 - Set MAIN TB to ’on' in the DELAYED TIMEBASE menu.
8 - Set the DELAYED TIME BASE to 50 ps.
9 - Operate the DELAY control and verify that the intensified part can be shifted horizontally along the MAIN TB display.
10 - Operate the TRACE SEPARATION keys (or the TRACK control) and check that the DELAY TB and MAIN TB display can be shifted so that they do not cover each other.
6.3.23 Horizontal deflection; X deflection
The correct working of the X Y mode (X-DEFL ’on’) is tested. test equipment:
Fluke 5500A mode: wavegen, wave sine (Alternative: function generator, PM5136) test set-up:
5500A
/
OSCILLOSCOPE UNDER TEST
A
SCOPE
OUTPUT
T o
500 CABLE
___________
W nm rtH9 r.m r>4d
<Q O O O ,
U settings/procedure:
1 - Apply a 2 kHz sine-wave signal of 800 mV (pp) to input CH1.
2 - Press the AUTOSET key and set CH1 to 0.1 V/div.
3 - Adjust the generator signal to a trace height of 8 divisions.
4 - Select X DEFL ’on’ in the TB MODE menu (present under the TB MODE menu key).
5 - Select ’ch1 ’ as X-deflection source in the TB MODE X-DEFL menu.
6 - Use the CH1 POS and X POS controls to obtain the display in the figure below.
6 - 2 0 requirements:
Verify that a line with an angle of 45° is displayed.
PERFORMANCE TEST
M AT3837
Figure 6.9 X deflection
6.3.24 Horizontal deflection; main time-base deflection coefficients
The deflection coefficients of the main timebase generator (MTB) are verified by means of a calibration signal.
test equipment:
Fluke 5500A mode: marker (Alternative: time marker generator TG 501) test set-up:
5500A OSCILLOSCOPE UNDER TEST
5 0 0 CABLE settings/procedure:
1 - Apply a 50 ns time marker signal to input CH1.
2 - Press the AUTOSET key.
3 - Use a 50Q termination. For instruments with switchable 50£2 input impedance it is recommended to make use of this feature. Put CH1 in 0.2V/div.
4 - Press menukey TRIGGER MTB.
5 - Select level-pp ’off’ and ’dc’ in the TRIGGER MAIN TB menu.
6 - Press menukey TB MODE.
7 - Select ’trig’ in the TB MODE menu.
8 - Adjust the LEVEL MTB rotary for a correctly triggered display.
9 - Verify the deflection coefficients of MTB with 10x MAGN off and 10x MAGN on (MGN in display) according to the requirements in the tables. Make use of the deflection error readout of the time marker generator.
PERFORMANCE TEST
6 - 2 1
Note: - Error limits must be measured between the 2nd and the 10th graticule line (there are 11 graticule lines). These are the central 8 divisions.
- With 10x MAGN on (MGN), the central 10 divisions of the expanded 100 divisions ofMTB are measured.
- Only the time base positions are checked that are essential for instrument accuracy.
Requirements analog mode 10x MAGN off:
MTB setting Marker pulse
20 ns
0.1 ps
0.5 ps
1 ps
5 ps
20 ps
0.5 ms
1 ms
10 ms
20 ns
0.1 ps
0.5 ps
1 ps
5 ps
20 ps
0.5 ms
1 ms
10 ms
Max. error
1.8% (PM3092/94)
1.8%
1.8%
1.8%
1.8%
1.8%
1.8%
1.8%
1.8%
Requirements analog mode 10x MAGN on (MGN):
MTB setting Marker pulse
2 ns
5 ns
10 ns
0.1 ps
2 ns
5 ns
10 ns
0.1 ps
Max. error
3.3% (PM3092/94)
3.3%
2.3%
2.3%
6.3.25 Horizontal deflection; VARiable mode accuracy MTB.
The horizontal MTB deflection coefficients can be varied in steps such as done in 6.3.24. A range of much finer steps can also be selected. Here, the accuracy of this range is checked.
test equipment:
Fluke 5500A mode: marker (Alternative: time marker generator TG 501) test set-up.
5500A OSCILLOSCOPE UNDER TEST
50Q CABLE
Settings/procedure:
1 - Apply a 5 us time marker signal to input CH1.
2 - Press the AUTOSET key.
3 - Use a 50Q termination. For instruments with switchable 50Q input impedance it is recommended to make use of this feature.
6 - 2 2 PERFORMANCE TEST
4 - Select in the TRIGGER MTB menu level-pp ’off’ and ’dc’ trigger coupling.
5 - Adjust LEVEL MTB for a correctly triggered display.
6 - Set the MTB to 5 us.
7 - Select the MTB VARiable mode by pressing both MTB keys at a time: the readout changes into
5.00 us.
8 - Press the ’ns’ key and adjust the readout to 2.50 ps.
Requirements:
Verify that the horizontal distance between the time markers equals 2 divisions. Use the X POS control to align the marker pulses with the graticule. Now check (across the central 8 divisions) if the timebase accuracy is + 2.8%: make use of the deflection error readout of the time marker generator to check this.
6.3.26 Time cursor accuracy (continuation of 6.3.25)
This test verifies the accuracy of the time cursors.
Settings/procedure:
1 - Switch the MTB VARiable mode off by pressing both MTB TIME/DIV keys at a time: the readout changes to 2 ps.
2 - Select 5 ps/div for the MTB.
3 - Switch the deflection error facility of the time marker generator to off.
4 - Press the CURSORS menukey.
5 - Select ’on’ and time cursors (//) in the CURSORS menu.
6 - Select A T in the READOUT menu.
Requirements:
Position one cursor line exactly on the 2nd time marker on the screen and the other cursor on the 10th time marker. The distance between both cursors is 8 time marker intervals then. Check for a cursor readout between 39.5 and 40.5 ps.
6.3.27 Horizontal deflection; delayed time-base deflection coefficients
The deflection coefficients of the delayed timebase generator (DTB) are verified by means of a calibration signal.
test equipment:
Fluke 5500A mode: (Alternative: time marker generator TG 501) test set-up:
5500A OSCILLOSCOPE UNDER TEST
\
SCOPE
OUTPUT
T o
S0C
CABLE
V
U
CH1 CH2 CH3 CH4
<Q O O O )
ET
50C3 TERM.
STB109
PERFORMANCE TEST 6 - 2 3 settings/procedure:
1 - Apply a 0.5 ms time marker signal to input CH1.
2 - Press the AUTOSET key.
3 - Use a 500 termination. For instruments with switchable 500 input impedance it is recommended to make use of this feature. Put CH1 in 0.2V/div.
4 - Select in the TRIGGER MTB menu level-pp ’off and ’dc’ trigger coupling.
5 - Press the TB MODE menu key: select in the belonging menu ’trig’ mode.
6 - Adjust LEVEL MTB for a correctly triggered display.
7 - Set the trace height to about 4 divisions.
8 - Press menukey DTB and select in the belonging menu DEL'D TB 'on' and MAIN TB 'on'.
9 - Set MTB to 1 ms and DTB to 0.5 ms.
10 - Set the delay time to about 0 sec. using the DELAY control.
11 - Adjust the vertical position of the MTB display with the CH1 POS control in the top half of the viewing area.
12 - Adjust the vertical position of the DTB display with the TRACE SEPARATION keys (or the
TRACK control).
13 - Verify the DTB deflection coefficients with 10x MAGN off and 10x MAGN on (MGN in display) according to the requirements in the tables. Make use of the deflection error readout of the time marker generator.
Note: - Error limits must be measured between the 2nd and the 10th graticule line (there are 11 graticule lines). These are the central 8 divisions.
- With 10x MA GN on (MGN), the central 10 divisions of the expanded 100 divisions of DTB are measured.
- Only the time base positions are checked that are essential for instrument accuracy.
- DTB TIME/DIV is electrically coupled with MTB TIME/DIV; to check the settings in the table only the key pair MTB TIME/DIV VAR must be pressed.
Requirements analog mode 10x MAGN off:
DTB setting
0.5 ms
20 ps
5 ps
1 ps
0.5 ps
0.1 ps
50 ns
20 ns
MTB setting
0.5 ms
20 ps
5 ps
1 ps
0.5 ps
0.1 ps
50 ns
20 ns
Marker pulse
0.5 ms
20 ps
5 ps
1 ps
0.5 ps
0.1 ps
50 ns
20 ns
Max. error
1.8%
1.8%
1.8%
1.8%
1.8%
1.8%
1.8%
1.8% (PM3092/94)
Requirements analog mode 10x MAGN on (MGN):
DTB setting MTB setting
0.1 ps
10 ns
5 ns
2 ns
0.1 ps
10 ns
5 ns
2 ns
Marker pulse
0.1 ps
10 ns
5 ns
2 ns
Max. error
2.3%
2.3%
3.3%
3.3% (PM3092/94)
6 - 2 4
PERFORMANCE TEST
6.3.28 Horizontal deflection; delay time multiplier
In this test the minimum and maximum delay time is checked.
test equipment:
None settings/procedure and requirements:
1 - Press the AUTOSET key.
2 - Press the DTB menu key: select in the belonging menu DEL’D TB ’on’ and MAIN TB ’on’.
3 - Set MTB to 0.5 ps.
4 - Set DTB to 50 ns.
5 - Adjust the vertical position of the MTB display with the CH1 POS control in the top half of the viewing area.
6 - Adjust the vertical position of the DTB display with the TRACE SEPARATION keys (or the
TRACK control).
7 - Adjust the delay time to 500.0 ns by means of the DELAY control.
8 - Adjust the start of the MTB display exactly on the first graticule line by means of X POS.
9 - Verify that the difference between start of MTB and start of intensified part is between 0.9... 1.1
divisions.
10 - Adjust the delay time to 5.000 ps with the DELAY control.
11 - Verify that the difference between start of MTB and start of the intensified part is between 9.9
to 10.1 divisions.
6.3.29 Horizontal deflection; delayed timebase jitter
There is a certain instability in the starting point, the so called jitter, of the DTB. The maximum allowed jitter is checked in this test.
test equipment:
Fluke 5500A mode: levsine (Alternative: function generator PM5136) test set-up:
5500A OSCILLOSCOPE UNDER TEST
5 0 0 CABLE settings/procedure:
1 - Apply a 1 MHz sine-wave signal of 120 mV (pp into 50Q) to input CH1.
2 - Press the AUTOSET key and set for a trace-height of 6 divisions.
3 - Use a 50Q termination. For instruments with switchable 50Q input impedance it is recommended to make use of this feature.
4 - Press menukey DTB and select in the belonging menu DEL’D TB ’on’ and MAIN TB ’on’.
5 - Set MTB to 0.5 ms.
6 - Set DTB to 0.5 ps.
7 - Adjust the delay time to 0 s by means of the DELAY control.
PERFORMANCE TEST 6 - 2 5
8 - Switch the MAIN TB display to ’off in the DELAYED TIME BASE menu: only the DELAY TB is displayed now.
requirements:
Verify that the jitter of the DTB is not more than 0.4 divisions. (1 part per 25000)
6.3.30 Horizontal deflection; X deflection coefficient via CH1
The amplification of the horizontal amplifier via the vertical input amplifier is checked. test equipment:
Fluke 5500A mode: volt (Alternative: square-wave calibration generator PG 506) test set-up:
5500A OSCILLOSCOPE UNDER TEST
500 CABLE
STBIM settings/procedure:
1 - Apply a 1 kHz square-wave signal of 0.1V to input CH1. Generator in ’mode volt’ mode and output not terminated into 50Q (’LZ’ must not appear in lower part of viewing area).
2 - Press the AUTOSET key.
3 - Set CH1 to 20 mV and DC coupled input.
4 - Select X-DEFL ’on’ and ’c h i’ in the menu under the TB MODE menukey.
5 - Press the CH2 ON key and then the CH1 ON key; the result is that CH2 is on and CH1 off.
requirements:
Verify that two dots with a horizontal distance of 4.7 ... 5.3 divisions are displayed.
6 - 2 6 PERFORMANCE TEST
6.3.31 Horizontal deflection; X deflection coefficient via ’line’
The amplification of the horizontal amplifier via the line trigger signal is checked. Do this test only when 220V line voltage is available.
test equipment:
None settings/procedure:
1 - Press the AUTOSET key.
2 - Select X-DEFL ’on’ in the menu under the TB MODE menukey.
3 - Select ’line’ in the menu.
requirements:
Verify that a horizontal line of 4.3 to 7.7 divisions is displayed when the line voltage is 220 V (rms).
6.3.32 Horizontal deflection; high frequency response
In this test, the bandwidth of the horizontal amplifier is checked. test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generator SG 503). test set-up:
5500A OSCILLOSCOPE UNDER TEST
50Q CABLE settings/procedure:
1 - Apply a 50 kHz sine-wave signal of 30 mV (pp into 50Q) to input CH1.
2 - Press the AUTOSET key and set CH1 to 5 mV.
3 - Use a 50Q termination. For instruments with switchable 50Q input impedance it is recommended to make use of this feature (’LZ’ must be visible in lower part of viewing area).
4 - Select X-DEFL ’on’ in the menu under the TB MODE menukey.
5 - Select’c h i’ in the menu.
6 - Press the CH2 ON key and then the CH1 ON key: the result is that CH2 is on and CH1 off.
7 - Adjust the input voltage for exactly 6 divisions horizontal deflection.
8 - Increase the input frequency up to 2 MHz.
requirements:
Verify that the trace width is at least 4.2 divisions over the complete bandwidth range.
PERFORMANCE TEST 6 - 2 7
6.3.33 Maximum phase shift between horizontal and vertical deflection
There will be a certain phase shift between the horizontal and vertical amplifier. The value of this shift is measured here.
test equipment:
Fluke 5500A mode: wavegen, wave sine (Alternative: function generator, PM5136) test set-up:
5500A OSCILLOSCOPE UNDER TEST
500 CABLE s ettings/procedure:
1 - Apply a 2 kHz sine-wave signal of 1.2 V (pp) to CH1.
2 - Press the AUTOSET key.
3 - Adjust the generator to a trace height of exactly 6 divisions.
4 - Select X-DEFL ’on’ in the menu under the TB MODE menukey.
5 - Select ’c h i’ in the menu.
6 - Increase the input frequency to 100 kHz.
requirements:
Verify that the phase shift is less than 3°, <0.32 div.see figure).
Figure 6.10 Phase shift between horizontal and vertical channel
6 - 2 8
PERFORMANCE TEST
6.3.34 MTB triggering PM3092/3094; trigger sensitivity via CH1, CH2, CH3 and CH4
The trigger sensitivity depends on the amplitude and frequency of the trigger signal. In this test the main timebase trigger sensitivity via the CH1, CH2, CH3 and CH4 inputs is checked.
test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generators (SG 503 +
SG 504) test set-up:
5500A OSCILLOSCOPE UNDER TEST
50ft CABLE settings/procedure and requirements:
1 - Apply a 100 MHz sine-wave signal of 1 V(pp into 50Q) from the calibrator to input CH1.
2 - Press the AUTOSET key and set CH1 to 0.5 V/div.
3 - Use a 500 termination. For instruments with switchable 500 input impedance it is recommended to make use of this feature.
4 - Set the input coupling of CH1 to DC and Position the signal in the vertical center of screen.
5 - Select ’trig' in the TB MODE menu.
6 - Press the TRIGGER MTB menu key and select level-pp ’off’ and ’dc’ trigger coupling in the belonging menu.
7 - Turn LEVEL MTB control for a well-triggered signal.
8 - Decrease the amplitude of the input signal.
9 - Verify that the signal is well-triggered at amplitudes of 0.5 divisions and more.
10 - Decrease the input frequency to 50 kHz.
11 - Verify that the signal stays well-triggered at amplitudes of 0.5 divisions and more.
12 - Increase the input frequency to 200 MHz.
13 - Increase the input voltage to 1 division.
14- Turn LEVEL MTB.
15 - Verify that the signal is well-triggered at amplitudes of 1 division and more.
16 - Apply a 300 MHz sine-wave signal of 2 V(pp into 50n) to input CH1.
17 - Adjust the input voltage to 2 divisions.
18 - Verify that the signal is well-triggered at amplitudes of 2 divisions and more; adjust LEVEL MTB when necessary.
Repeat the procedure for CH2, CH3 and CH4 for the frequencies 50 kHz (0.5 div input signal) and
300 MHz (2 div input signal)
PERFORMANCE TEST 6 - 2 9
6.3.35 MTB triggering PM3082/3084; trigger sensitivity via CH1, CH2, CH3 and CH4
The trigger sensitivity depends on the amplitude and frequency of the trigger signal. In this test the main timebase trigger sensitivity via the CH1, CH2, CH3 and CH4 inputs is checked.
test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generator SG 503) test set-up:
5500A OSCILLOSCOPE UNDER TEST
5 0 0 CABLE sottings/procedure and requirements:
1 - Apply a 50 MHz sine-wave signal of 1 V (pp into 50Q) to input CH1.
2 - Press the AUTOSET key and set CH1 to 0.5 V/div.
3 - Use a 500 termination.
4 - Set the input coupling of CH1 to DC and POSition the signal in the vertical center of screen.
5 - Select ’trig’ in the TB MODE menu.
6 - Press the TRIGGER MTB menu key and select level-pp ’off’ and ’dc’ trigger coupling in the belonging menu.
7 - Turn LEVEL MTB control for a well-triggered signal.
8 - Decrease the amplitude of the input signal.
9 - Verify that the signal is well-triggered at amplitudes of 0.5 divisions and more.
10 - Decrease the input frequency to 50 kHz.
11 - Verify that the signal stays well-triggered at amplitudes of 0.5 divisions and more.
12 - Increase the input frequency to 100 MHz.
13 - Increase the input voltage to 1 division.
14 - Turn LEVEL MTB.
15 - Verify that the signal is well-triggered at amplitudes of 1 division and more.
16 - Increase the input frequency to 200 MHz.
17 - Adjust the input voltage to 2 divisions.
18 - Verify that the signal is well-triggered at amplitudes of 2 divisions and more; adjust LEVEL MTB when necessary.
Repeat the procedure for CH2, CH3 and CH4 for the frequencies 50 kHz (0.5 div input signal) and
200 MHz (2 div input signal)
6 - 3 0 PERFORMANCE TEST
6.3.36 MTB/DTB triggering; trigger sensitivity TVL-TVF
This test chocks the trigger sensitivity for television line- and field synchronization pulses. test equipment:
TV pattern generator with video output (PM5418) test set-up:
PM5418 OSCILLOSCOPE UNDER TEST
7 5 0 CABLE settings/procedure:
1 - Apply a video signal to input CH1 with an amplitude of about 1V synchronization pulse amplitude; use a 75£2 termination.
2 - Press the AUTOSET key.
3 - Select 'tv' twice in the menu under the TRIGGER MTB menukey.
4 - Select ’pos’ or ’neg’ (depends on employed generator) in the TRIGGER MAIN TB menu. The generator must be in ’pal’ system mode.
5 - Select in the TRIGGER MAIN TB menu’field T,'field 2’ o r ’lines’.
requirements:
Decrease the amplitude of the input signal and verify that the signal is well-triggered on the narrow
TV line and the wide TV field pulse, at sync pulse amplitudes of 0.7 divisions and more.
Repeat settings/procedure with the generator in ’ntsc’ mode.
settings/procedure:
6 - Select ’field T, ’field 2’ in the TRIGGER MAIN TB menu. The generator must be in ’pal’ system mode.
7 - Press menu key DTB and select in the belonging menu DEL’D TB ’on’, MAIN TB ’on’ and
’tvline’.
8 - Adjust the vertical position of the MTB display with the CH1 POS control in the top half of the viewing area.
9 - Adjust the vertical position of the DTB display with the TRACE SEPARATION keys (or the
TRACK control).
requirements:
Decrease the amplitude of the input signal and verify that the signal is well-triggered on the narrow
TV line pulse, at sync pulse amplitudes of 0.7 divisions and more.
Repeat settings/procedure with the generator in ’ntsc’ mode.
PERFORMANCE TEST 6- 31
6.3.37 DTB triggering PM3092/3094; trigger sensitivity via CH1, CH2, CH3 and CH4
The trigger sensitivity depends on the amplitude and frequency of the trigger signal. In this test the main timebase trigger sensitivity via the CH1, CH2, CH3 and CH4 inputs is checked.
test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generators (SG 503 +
SG 504) test set-up:
5500A r
OSCILLOSCOPE UNDER TEST
\
SCOPE
OUTPUT
T o
50Q CABLE v_________
TT r m p h
? r.na rwA
<Q O O O ,
T T
5 0 0 TERM.
settings/procedure and requirements:
1 - Apply a 100 MHz sine-wave signal of 1 V(pp into 500) from the calibrator to input CH1.
2 - Press the AUTOSET key and set CH1 to 0.5 V/div.
3 - Use a 500 termination. For instruments with switchable 500 input impedance it is recommended to make use of this feature.
4 - Set the input coupling of CH1 to DC and Position the signal in the vertical center of screen.
5 - Select ’trig’ in the menu under menukey TB MODE.
6 - Press menukey TRIGGER MTB and select in the TRIGGER MAIN TB menu level-pp ’off’ and
’dc’ trigger coupling.
7 - Adjust LEVEL MTB for a correctly triggered display.
8 - Press menukey DTB and select DEL’D TB ’on’ and MAIN TB ’on’ in the belonging menu.
9 - Set MTB to 0.2 us/div and DTB to 20 ns/div.
10 - Adjust the DELAY control to a delay time of 1.000 (is.
11 - Select ’trig’d’ and ’dc’ coupling in the DELAYED TIME BASE menu and press the front panel key TRIG1. Or TRIG2 (CH2 on), TRIG3 (CH3 on), TRIG4 (CH4 on).
12 - Adjust the LEVEL DTB control for a well-triggered signal (intensified part must be visible).
13 - Operate the TRACE SEPARATION keys (or TRACK control) to separate MTB and DTB for well visible displays.
14 - Decrease the amplitude of the input signal.
15 - Verify that the DTB is well triggered at signal amplitudes of 0.5 divisions and more.
16 - Decrease the input frequency to 50 kHz. Set MTB to 50 (is/div and DTB to 20 |is/div.
17 - Verify that the DTB stays well triggered at signal amplitudes of 0.5 divisions and more.
18 - Increase the input frequency to 200 MHz.
19 - Increase the input voltage to 1 division.
20 - Operate the LEVEL DTB control.
21 - Verify that the DTB is well triggered at all amplitudes of 1 division or more.
22 - Apply a 300 MHz sine-wave signal of 2 V(pp into 50 ohm) from the calibrator to input CH1.
23 - Adjust the input voltage to 2 divisions.
24 - Verify that the DTB is well-triggered at signal amplitudes of 2 divisions and more: adjust the
LEVEL DTB control if necessary.
Repeat the procedure for CH2, CH3 and CH4 for the frequencies 50 kHz (0.5 div input signal) and
300 MHz (2 div input signal)
6 - 3 2
PERFORMANCE TEST
6.3.38 DTB triggering PM3082/3084; trigger sensitivity via CH1, CH2, CH3 and CH4
The trigger sensitivity depends on the amplitude and frequency of the trigger signal. In this test the main timebase trigger sensitivity via the CH1, CH2, CH3 and CH4 inputs is checked.
test equipment:
Fluke 5500A mode: levsine (Alternative: constant amplitude sine wave generator SG 503) test set-up:
5 0 0 CABLE settings/procedure and requirements:
1 - Apply a 50 MHz sine-wave signal of 1 V(pp into 50Q) from the calibrator to input CH1.
2 - Press the AUTOSET key and set CH1 to 0.5 V/div.
3 - Use a 50Q termination.
4 - Set the input coupling of CH1 to DC and POSition the signal in the vertical center of screen.
5 - Select 'trig' in the menu under menukey TB MODE.
6 - Press menukey TRIGGER MTB and select in the TRIGGER MAIN TB menu level-pp 'off and
'dc' trigger coupling.
7 - Adjust LEVEL MTB for a correctly triggered display.
8 - Press menukey DTB and select DEL'D TB 'on' and MAIN TB 'on' in the belonging menu.
9 - Set MTB to 0.2 jis/div and DTB to 20 ns/div.
10 - Adjust the DELAY control to a delay time of 1.000 (is.
11 - Select 'trig'd' and 'dc' coupling in the DELAYED TIME BASE menu and press the front panel key TRIG1. OrTRIG2 (CH2 on), TRIG3 (CH3 on), TRIG4 (CH4 on).
12 - Adjust the LEVEL DTB control for a well-triggered signal (intensified part must be visible).
13 - Operate the TRACE SEPARATION keys (or TRACK control) to separate MTB and DTB for well visible displays.
14 - Decrease the amplitude of the input signal.
15 - Verify that the DTB is well triggered at signal amplitudes of 0.5 divisions and more.
16 - Decrease the input frequency to 50 kHz. Set MTB to 50 (xs/div and DTB to 20|is/div.
17 - Verify that the DTB stays well triggered at signal amplitudes of 0.5 divisions and more.
18 - Increase the input frequency to 100 MHz.
19 - Increase the input voltage to 1 division.
20 - Operate the LEVEL DTB control.
21 - Verify that the DTB is well triggered at all amplitudes of 1 division or more.
22 - Increase the input frequency to 200 MHz.
23 - Adjust the input voltage to 2 divisions.
24 - Verify that the DTB is well-triggered at signal amplitudes of 2 divisions and more: adjust the
LEVEL DTB control if necessary.
Repeat the procedure for CH2, CH3 and CH4 for the frequencies 50 kHz (0.5 div input signal) and
200 MHz (2 div input signal)
PERFORMANCE TEST
6.3.39 Z-MOD sensitivity
This test checks the sensitivity of the Z modulation facility. test equipment:
Fluke 5500A mode: wavegen, wave square (Alternative: function generator PM5136)
T-piece test set-up:
5500A OSCILLOSCOPE UNDER TEST
6 - 3 3 settings/procedure and requirements:
1 - Apply a 1 kHz square-wave signal, duty cycle 50%, amplitude between 0 to +2.5V, to input
CH1. Adjust the generator to a signal of 2.5 Vpp with an offset of 1.25V.
2 - Press the AUTOSET key.
3 - Set MTB to 0.5 ms/div.
4 - Set the trace of CH1 in mid position with the CH1 POS control.
5 - Apply the same signal by means of the T-piece to the Z input (rear side).
6 - Adjust TRACE INTENSITY so that only the bottom half of the square-wave is displayed: the top half must be just invisible (0.5 ms light on; 0.5 ms light off).
7 - Decrease the input signal to 0.5 Vpp with an offset of 0.25V.
8 - Set CH1 to 0.5 V/div.
9 - Verify that the complete square-wave is visible.
6 - 3 4
PERFORMANCE TEST
6.3.40 Probe Adjust signal; frequency and output voltage
The Probe Adjust (CAL) signal is a calibration signal with fixed frequency and voltage. In this test, the values of frequency and voltage are checked.
test equipment:
None test set-up:
OSCILLOSCOPE UNDER TEST
CABLE settings/procedure:
1 - Connect the Probe Adjust signal to input CH1 and press the AUTOSET key.
2 - Select GND of CH1.
3 - Set the trace in the center of the screen.
4 - Switches GND of CH1 off.
5 - Select DC input coupling for CH1.
requirements:
1 - Verify that a positive going square-wave signal of 0.6 V(pp) is displayed, i.e. 3 divisions vertical at 0.2V.
2 - Verify that the frequency of the displayed signal is about 2 kHz, i.e. a period time between
4.0 ... 6.0 divisions horizontal at MTB 0.1 ms.
CALIBRATION ADJUSTMENT PROCEDURE 7 -1
7 CALIBRATION ADJUSTMENT PROCEDURE
7.1 INTRODUCTION
The calibration adjustment procedure can be split up in two:
- Manual adjustment
- Automatic calibration (AUTOCAL).
All calibration is done with the oscilloscope’s cabinet closed. This eliminates calibration inaccuracies due to temperature changes.
Manual calibration data are protected by a keyword and a seal and must be changed by qualified personnel only. Some of the adjustments require external calibration equipment. A list of necessary equipment is given in chapter 6 (performance test). Manual calibration should be done after 2000 service hours or once a year.
Operation of the front panel CAL key activates the automatic calibration. AUTOCAL can only function usefully if the manual adjustments (especially the 'screen calibrations’) are correct. The AUTOCAL function should in general be activated once a week. AUTOCAL should be used always after warming-up if the oscilloscope is used in extreme environmental conditions such as very high or low temperatures while maximum accuracy is needed. AUTOCAL requires no external calibration equipment.
The calibration adjustment should be started after a warming-up time of 30 minutes.
The most accurate adjustments are done with a well-focused low intensity display.
The calibration parameters are saved after power-down if the memory back-up batteries are installed.
Additionally these parameters can be saved into the instrument’s non-volatile memory. This is done by pressing softkey ’save calibr data’ and then activation of the pin hole key. The number of times that this save action can be done is limited. The memory is full after a number (10x)of actions and needs to be cleared. Refer to chapter 8 (corrective maintenance) for how to proceed then.
7.2 DARK LEVEL OF CRT
- Press the STATUS and TEXT OFF keys simultaneously: this gives a defined position of the instrument settings.
- Adjust MTB/VAR to 1 ms/div.
- Select the key sequence 'UTILITY > MAINTENANCE > ENTER KEYWORD'.
- Enter the five digit keyword ’3 2 4 1 5’. If correct, an automatic return to the UTIL MAINTENANCE menu is done.
- Press softkey MANUAL CALIBR.
- Select ’dark’ with the TRACK rotary.
- Put the TEXT INTENSITY and TRACE INTENSITY rotaries in minimal intensity position.
- Adjust the A rotary so that the dot at the beginning of the CH1 trace is just invisible.
- Put TEXT INTENSITY and TRACE INTENSITY in normal intensity position again.
- Press softkey RETURN to go to the UTIL MAINTENANCE MENU.
7.3 TRACE ROTATION
- Adjust the INTENSITY TRACE rotary for a well-visible horizontal on the screen.
- Align the CH1 trace exactly in parallel with the horizontal graticule lines using screw-driver operated TRACE ROTATION rotary.
7 - 2
CALIBRATION ADJUSTMENT PROCEDURE
7.4 HORIZONTAL (X) GAIN AND OFFSET
- Press softkey SCREEN CALIBR.
- Select ’x-gain’ with the softkeys.
- Adjust the TRACK (gain) and A (offset) rotary so that the two vertical lines coincide exactly with the 3rd and 9th graticule line.
ST6293
Figure 7.11 Position of lines for horizontal (X) and vertical (Y) gain and offset calibration
7.5 TEXT STABILITY AND X-OFFSET
- Select ’x-text’ with the softkeys.
- Adjust the TRACK rotary to maximal stability of the text
- Adjust the A rotary so that the vertical line is exactly in the middle of the graticule.
7.6 VERTICAL (Y) GAIN AND OFFSET
- Select ’y-gain’ with the softkeys.
- Adjust the TRACK (gain) and A (offset) rotary so that the two horizontal lines coincide exactly with the 2nd and 8th graticule line.
- Select ’y-offs’ with the softkeys.
- Adjust the TRACK rotary so that the horizontal line is exactly in the middle of the graticule.
- Press softkey ’accept’ if the screen calibrations are correct.
- Press softkey RETURN to go to the UTIL MAINTENANCE MENU.
7.7 ASTIGMATISM
- Press softkey MANUAL CALIBR.
- Select ’astig' with the TRACK rotary.
- Position the CH1 trace in the centre of the graticule.
- Adjust the A rotary for the best possible sharpness of text across the screen: the small dots from which the text is composed must be well visible. Adjustment of the FOCUS rotary is necessary during the adjustment.
CALIBRATION ADJUSTMENT PROCEDURE 7 - 3
7.8 AUTOCAL PROCEDURE
- Press the CAL key during 2 seconds.
- Within 2 minutes the instrument automatically does its main calibrations.
- Watch the CRT and check that no errors are reported. If errors are mentioned, the oscilloscope will need corrective maintenance. The error number indicates in what part of the oscilloscope the fault may be expected. Refer to chapter 8.13 for more information.
7.9 LF SQUARE-WAVE RESPONSE CH1
- Press menukey TB MODE.
- Switch X-DEFL to ’off’ with the softkey.
- Switch CH1 to ON.
- Press the TRIG 1 key.
- Press menukey UTILITY.
- Press softkey MAINTENANCE.
- Press softkey MANUAL CALIBR.
- Select ’If ch1 ’ with the TRACK rotary.
- Select ’Ifx100’ with the softkeys.
- Put CH1 in 1 V/div with DC coupled input.
- Apply a square-wave signal of 100 kHz and 2.75 V(pp into 50Q) from a calibrator (mode ’edge’) to CH1. As an alternative you may use a 100 kHz/5 Vpp square-wave from a function generator.
- Use a 500 termination resistor between cable and oscilloscope input.
- Adjust MTB/VAR to 2 us/div.
- Adjust the A rotary for a flat pulse top (the initial overshoot should not be adjusted).
- Select ’Ifx10’ with the softkeys.
- Put CH1 in 0,1 V/div.
- Change the square-wave signal into 10 kHz/500 mV peak-peak.
- Adjust MTB/VAR to 20 us/div.
- Adjust the A rotary for a flat pulse top (the initial overshoot should not be adjusted).
- Remove the input signal.
Figure 7.12 Adjustment of LF square wave response CH1, CH2, CH3 and CH4
7 - 4
CALIBRATION ADJUSTMENT PROCEDURE
7.10 LF SQUARE-WAVE RESPONSE CH2
- Select ’If ch2’ with the TRACK rotary.
- Select ’Ifxl 00’ with the softkeys.
- Switch CH2 to ON and CH1 off.
- Press the TRIG 2 key.
- Put CH2 in 1 V/div with DC coupled input.
- Apply a square-wave signal of 100 kHz and 2.75 V(pp into 50Q) from a calibrator (mode ’edge’) to CH2. As an alternative you may use a 100 kHz/5 Vpp square-wave from a function generator.
- Use a 50Q termination resistor between cable and oscilloscope input.
- Adjust MTB/VAR to 2 us/div.
- Adjust the A rotary for a flat pulse top (the initial overshoot should not be adjusted).
- Select 'Ifxl 0’ with the softkeys.
- Put CH2 in 0,1 V/div.
- Change the square-wave signal into 10 kHz/500 mV peak-peak.
- Adjust MTB/VAR to 20 us/div.
- Adjust the A rotary for a flat pulse top (the initial overshoot should not be adjusted).
- Remove the input signal.
7.11 LF SQUARE-WAVE RESPONSE CH3
- Select ’If ch3’ with the TRACK rotary.
- Select ’Ifxl 00' with the softkeys: the A sign is displayed behind ’Ifxl 00’. This is not necessary in
PM3082/PM3092: for these instruments only the step 'Ifxl 0’ has to be adjusted.
- Switch CH3 to ON and CH2 off.
- Press the TRIG 3 key.
- Put CH3 in 1 V/div with DC coupled input.
- Apply a square-wave signal of 100 kHz and 2.75 V(pp into 50Q) from a calibrator (mode ’edge’) to CH3. As an alternative you may use a 100 kHz/5 Vpp square-wave from a function generator.
- Use a 50Q termination resistor between cable and oscilloscope input.
- Adjust MTB/VAR to 2 us/div.
- Adjust the A rotary for a flat pulse top (the initial overshoot should not be adjusted).
- Select ’Ifxl 0’ with the softkeys.
- Put CH3 in 0,1 V/div.
- Change the square-wave signal into 10kHz/500 mV peak-peak.
- Adjust MTB/VAR to 20 us/div.
- Adjust the A rotary for a flat pulse top (the initial overshoot should not be adjusted).
- Remove the input signal.
7.12 LF SQUARE-WAVE RESPONSE CH4
- Select ’If ch4’ with the TRACK rotary.
- Select ’Ifx100’ with the softkeys: the A sign is displayed behind ’Ifx100’. This is not necessary in
PM3082/PM3092: for these instruments only the step ’Ifx10’ has to be adjusted.
- Switch CH4 to ON and CH3 off.
- Press he TRIG 4 key.
- Put CH4 in 1 V/div with DC coupled input.
- Apply a square-wave signal of 100 kHz and 2.75 V(pp into 50Q) from a calibrator (mode ’edge’) to CH4. As an alternative you may use a 100 kHz/5 Vpp square-wave from a function generator.
- Use a 50Q termination resistor between cable and oscilloscope input.
- Adjust MTB/VAR to 2 us/div.
- Adjust the A rotary for a flat pulse top (the initial overshoot should not be adjusted).
- Select ’Ifxl 0’ with the softkeys.
- Put CH4 in 0,1 V/div.
- Change the square-wave signal into 10 kHz/500 mV peak-peak.
- Adjust MTB/VAR to 20 us/div.
- Adjust the A rotary for a flat pulse top (the initial overshoot should not be adjusted).
- Remove the input signal.
CALIBRATION ADJUSTMENT PROCEDURE 7 - 5
7.13
HF SQUARE-WAVE RESPONSE FINAL Y AMPLIFIER
Select ’hf y’ with the TRACK rotary.
Apply a 1V/1 MHz square-wave signal with a rise-time faster than 1 nsec to CH1. This signal is delivered in the ’edge’ mode of the calibrator. As alternative you may use the fast-rise output of the square-wave calibration generator. Use a 10x (20 dB) attenuator at the end of the cable from the generator. For reduced channels (0.1 and 0.5 V/div): use a 2:1 (6dB) attenuator.
Press AUTOSET.
Select the key sequence ’UTILITY > MAINTENANCE > MANUAL CALIBR’.
Put CH1 in 20 mV/div with DC coupled input. Reduced channels must be put in 0.1 V/div.
Select 50£2 input impedance; if not available use a 50Q termination resistor directly at the oscilloscope input.
Adjust MTB/VAR to its fastest position (20 or 50 ns/div). Small adjustments of MTB/VAR may be necessary to have a good view of signal details of interest.
Select in succession ’pulse t4’,
’pulse t3’, 'pulse t2’, 'pulse t l ’ and ’pulse t0’ with the softkeys. Adjust the pulse top to maximum flatness and the risetime to the required value with the A rotary. The adjustments are a compromise between fast risetime and minimal pulse distortion
(aberrations). The influence of these adjustments ranges between mid-frequency (pulse t4) and high-frequency (pulse tO). The requirement is a rise time of < 3,6 ns for 100 MHz instruments and < 2 ns for
200 MHz. This value includes the generator rise-time.
The pulse aberrations must not exceed + and - 6% (excl. aberrations of test generator).
The adjustment of t1 and to should be done in such a way
Figure 7.13 Influence oft4, t3, t2, t1 and tO on HF square wave response that aberrations of the pulse top are symmetrical at + and -
0.4 div (see fig. 7.3). This must be achieved in such a way that the number in the adjustment menu for tO is low (e.g. 10 .. 15) and that for t1 is in the higher ranges (e.g. 55 .. 60).
Remove the input signal.
Check if the pulse response (rise-time and aberrations) of CH2, CH3 or CH4 in 20 mV/div is within specification.
Remove the input signal.
Pulse response and bandwidth are interdependent: the higher the pulse aberrations, the higher the bandwidth and vice versa. To check the bandwidth apply a 120 mV/50 kHz sinewave from a constant amplitude sinewave generator (5500A calibrator in scope mode ’levsine’) to CH1. For reduced channels apply 600 mV/50 kHz
Press AUTOSET.
Select 50Q input impedance; if not available use a 50Q termination resistor directly at the oscilloscope input.
Adjust the amplitude of the sine-wave to 6 div exactly.
7 - 6 CALIBRATION ADJUSTMENT PROCEDURE
- Increase the frequency of the sinewave up to 100 MHz (for 100 MHz instruments) or 200 MHz (for
200 MHz instruments) and check that the amplitude on the screen does not become smaller then
4,2 div.
- Remove the input signal.
- Repeat the bandwidth check for CH2, CH3 and CH4 (the bandwidth check for CH3 and CH4 of
PM3092 must be checked via the 10:1 probe that is delivered with the oscilloscope).
- Remove the input signal.
7.14 SAVING THE CALIBRATION DATA
If you are sure that the instrument is well calibrated, the calibration data must be saved. For this proceed as follows:
- Turn the TRACK rotary until softkey text ’RETURN’ is visible.
- Press softkey RETURN.
- If present, remove the calibration sticker from the pin hole.
- Press softkey ’save calibr data’.
- Press the pin hole key (e.g. with a paperclip). When doing this, it is indicated in the viewing area how many ’calibration fields’ are free to save calibration data.
Note: The number of times that this ’save ’ action can be done is limited to 10. Refer to chapter 8.9.2
for how to proceed if the memory is full.
- Close the pin hole key with a new calibration sticker, part number 5322 455 81144.
7.15 TESTING THE INSTRUMENT’S PERFORMANCE
If you want, you can check the instrument’s performance by means of chapter 6 ’PERFORMANCE
TEST’. In general a quick check of the instrument’s main characteristics is sufficient. For this, use the following paragraphs in chapter 6 of this manual:
- Vertical deflection; deflection coefficients (6.3.6).
- Horizontal deflection; MAIN TB deflection coefficients (6.3.24).
- Horizontal deflection; delayed time-base deflection coefficients (6.3.27).
CORRECTIVE MAINTENANCE PROCEDURES 8 -1
8 CORRECTIVE MAINTENANCE PROCEDURES
8.1 DISMANTLING THE INSTRUMENT
8.1.1 General information
This section contains the dismantling procedures required for the removal and testing of components during repair.
All circuit boards removed from the instrument must be adequately protected against damage, and all normal precautions regarding the use of tools must be observed.
During the dismantling a careful note must be made of all disconnected leads so that they can be reconnected to their correct terminals during assembly.
CAUTION: Damage may result if:
- The instrument is swltched-on when a circuit board has been removed.
- A circuit board is removed within one minute after switching-off the instrument.
8.1.2 Removing the cabinet and carrying handle
Note: The cabinet does not need to be removed to do the calibration adjustment procedure.
To remove the cabinet proceed as follows:
- Fit the front cover on to the instrument.
- Hinge the carrying handle clear of the front cover.
- Place the instrument with the front cover on a flat surface.
- Pull off both plastic parts that are around the instrument’s rear feet.
- Remove the screws (6) that secure the cabinet to the instrument’s rear panel.
- Gently slide the cabinet (and carrying handle) off the instrument.
ATTENTION: - When installing the cabinet again, special care must be taken that cables are not damaged between the cabinet and the chassis. This is especially important for the flat cable above the Cathode Ray Tube (CRT) that connects Front unit A4 and CRT controls unit A5.
- Also take care that the cabinet fits well into the plastic front frame and that grounding fingers are not damaged during installation.
The rotation points of the carrying handle are secured by means of metal ’omega’ clips. After removal of these clips the handle can be removed by pulling both handle ends outwards away from the instrument.
8.2 REPLACEMENTS
WARNING: The Extremely High Tension (EHT) cable is directly connected to the EHTmultiplier unit. When the EHT cable to the post-acceleration anode Is disconnected, the cable must be discharged by shorting the terminal to the instrument’s earth.
8 - 2
CORRECTIVE MAINTENANCE PROCEDURES
8.2.1 Standard parts
Electrical and mechanical replacement parts can be obtained through your local FLUKE organization or representative. However, many of the standard electronic components can be obtained from other local suppliers. Before purchasing or ordering replacement parts, check the parts list for value, tolerance, rating and description.
NOTE: Physical size and shape of a componenent may affect the instrument’s performance, particularly at high frequencies. Always use direct-replacement components, unless it is known that a substitute will not degrade the instrument’s performance.
8.2.2 Special parts
In addition to the standard electronic components, some special components are used:
- Components, manufactured or selected by Fluke to meet specific performance requirements.
- Components which are important for the safety of the instrument.
ATTENTION: Both type of components may only be replaced by components obtained through your local FLUKE organization of representative.
8.2.3 Transistors and Integrated Circuits
- Return transistors and IC’s to their original positions, if removed during routine maintenance.
- Do not replace or switch semi-conductor devices unnecessarily, as it may affect the calibration of the instrument.
- Any replacement component should be of the original type or a direct replacement. Bend the leads to fit the socket or p.c.b. holes and cut the leads to the same length as on the component being replaced. See also the Performance Test in this manual.
- When a device has been replaced, check the operation of the part of the instrument that may be affected.
8.3 STATIC SENSITIVE COMPONENTS
In the oscilloscope the black/yellow ’static sensitive components’ symbol is present (see also figure 8.1). This means that this instrument contains electrical components that can be damaged by electrostatical discharge.
Although all MOS integrated circuits incorporate protection against electrostatic discharge, they nevertheless can be damaged by accidental over-voltages.
Figure 8.14 Static sensitive symbol
(black/yellow)
It is also possible that a delayed failure or ’wounding’ effect may occur. When this happens the component will fail anywhere between two hours to six months later.
In storing and handling static sensitive components, the normal precautions for these devices are recommended. Handling and servicing static sensitive assemblies and components should be performed only at a static free workstation by qualified personnel.
CAUTION: Testing, handling and mounting call for special attention. Personnel, handling static sensitive devices, should normally be connected to ground via a highohmic resistor.
Extensive information on how to deal with static sensitive components is contained in Support Bulletin
OSC296 (ordering number 4822 872 08407).
CORRECTIVE MAINTENANCE PROCEDURES 8 - 3
8.4 SOLDERING TECHNIQUES
8.4.1 General soldering techniques
Working method:
- Carefully unsolder the soldering tags of a semi-conductor one after the other.
- Remove all superfluous soldering material. Use desolder braided wire; ordering code:
4822 321 40042.
- Check that the leads of the replacement part are clean and pre-tinned on the soldering places.
- Place the replacement semiconductor exactly in the same position, and solder each lead to the relevant printed conductor on the printed circuit board.
NOTE: The maximum permissible soldering time is 10 seconds during which the temperature of the leads must not exceed 250 °C. The use of solder with a low melting point is recommended.
Take care not to damage the plastic encapsulation of the semiconductor (softening point of the plastic is 150 °C).
ATTENTION: When you are soldering inside the instrument it is essential to use a low voltage soldering iron, the tip of which must be grounded to the chassis of the oscilloscope.
A suitable soldering iron is:
Mini soldering iron station, WECP-COD3 (regulated transformer) and Weller LR-20 (soldering iron).
Ordinary 60/40 solder with core and 35 ... 40 W pencil-type soldering iron can be used to do the majority of the soldering. If a higher wattage-rating soldering iron is used on the printed circuit board, excessive heat can cause the circuit wiring to separate from the base material.
8.4.2 Soldering micro-miniature semi-conductors
Because of the small dimensions of these SOT semi-conductors and the lack of space between the components on the printed circuit board, it is necessary to use a miniature soldering iron with a pin point tip (max. diameter 1mm) to solder a SOT on to a printed circuit board.
Suitable soldering tools are:
- Mini soldering iron station, WECP-COD3 (regulated transformer) and Weller MLR-20 (mini soldering iron).
- A hot-air solder tool: Leister Hot-Jet.
Next, the following materials are recommended:
- Soldering tin, diameter 0.8 mm, SnPb 60/40 with a Resin Mildly Activated (RMA) flux. Ordering code: 4822 390 80133.
- Desolder braided wire; ordering code 4822 321 40042.
- Solder paste 26.
- Non-corrosive and Resin Mildly Activated (RMA) flux-Colophony. Ordering code: 4822 390 50025.
Refer to the Support Bulletin OSC296 (ordering code 4822 872 08407) for a complete discussion of the soldering techniques for SMD’s.
8 - 4
CORRECTIVE MAINTENANCE PROCEDURES
8.5 REMOVING THE UNITS, MECHANICAL PARTS AND CRT
NOTE: For installation, reverse the sequence.
8.5.1 Removing the rotary knobs
Rotary knobs can be removed by simply pulling them off. The knobs have an integrated shaft and fixing device. Most of the knobs (11) have a light grey colour. The knobs for cursor positioning are dark grey. The knobs DELAY and LEVEL DTB are almost white (’dark mushroom’).
For installation push the rotary into its hole, rotate it gently until it clicks into place.
8.5.2 Detachment of ribbon cables
The white ribbon cables are used together white connectors with integrated locking device. Proceed as follows to take the cable out of the connector:
- Lift the outside part of the connector: this unlocks the cable.
- Pull the ribbon cable out of the connector.
Proceed as follows to connect the the ribbon cable again:
- Push the ribbon cable fully into the connector. The blue line on the cable must be on the connector side where the contacts are visible (in unlocked position). Figure 8.2 explains this.
- Push down the outside part of the connector in order to lock the cable.
Figure 8.15 Mounting position of white ribbon cables in connector
8.5.3 Removal of the units in the front frame
The plastic front frame incorporates the Front unit A4 and the CRT controls unit A5. The frame can be removed from the chassis by bending out four clamping lips. Before doing so unlock the ribbon cable at the connector board.
Removal of Front unit A4:
- Pull the self-locking white plastic clamps.
- Remove the rotary knobs.
- Bend out the four clamping lips that secure unit A4 to the front frame and take the unit out.
- If required separate the rubber key mat from the printed circuit board.
NOTE: - Do not allow dirt to reach the contact areas of the printed circuit board and the key mat. If dirty, contact areas may be cleaned with cleansing alcohol.
- Small studs on the key mat position it on the printed circuit board. During installation the studs must be pressed gently into the matching holes of the circuit board. This can be done by using a small screwdriver.
- The key mat as delivered as a spare part is universal. It may be that the number of keys are too much for your instrument. If so, the unnessary keys must be cut off with a sharp knife.
CORRECTIVE MAINTENANCE PROCEDURES 8 - 5
Removal of CRT controls unit A5:
- Remove the rotary knobs.
- Pull the two self-locking white plastic clamps.
- Take the unit out of the front frame.
8.5.4 Removal of the Power supply unit A6
WARNING: On the power supply unit there are many parts that carry dangerous high voltages. Some of these voltages remain some time after disconnecting the instrument from the mains. Therefore it is recommended to wait at least five minutes after having disconnected the instrument from the mains, before removing the printed circuit board, if working on the power supply under live condition cannot be avoided, it must be done by a qualified technician who is aware of the dangers involved.
- Disconnect the oscilloscope from the mains.
- Remove the screw that secures the unit to the chassis.
- Unplug the cables from the -2.2 kV cathode/filament (3 wires), the fan (2 wires) and the back-up voltage (2 wires).
WARNING: The E.H.T. cable is directly connected to the E.H.T. multiplier that is present on the power supply. When the E.H.T. cable is disconnected from the CRT, the cable must be discharged by shorting it to the instrument’s ground (e.g. the CRT shielding).
- Unplug the +14.3 kV connector from the CRT.
- Unlock the plastic clamps (are part of the chassis) that secure the lower edges of the unit.
- Slide the unit upwards out of the instrument and unplug the mains input connector (3 thick wires).
NOTE: The power supply unit can be measured under working conditions, by using the extension board with ordering code 5322 218 61479. On this board there is a jumper that can be removed to switch off the EHT- converter. For safety reasons it is strongly recommended to use this feature. Refer to chapter 8.8 for more faultfinding hints.
8.5.5 Removal of microprocessor unit A3
- Remove the screw that secures the unit to the rear panel.
- Remove the screw that secures (and grounds) the unit to the bottom chassis plate.
- Unplug the ribbon cable that leads to signal unit A1.
- If the IEEE option is installed, unplug the ribbon cable that leads to the lEEE-connector.
- Slide the unit upwards out of the instrument.
NOTE: The microprocessor unit can be measured under working conditions, by using the extension board with ordering code 5322218 61479. On this board there is a jumper that can be removed to switch off the EHT- converter. This feature is not used when testing the microprocessor.
8 - 6 CORRECTIVE MAINTENANCE PROCEDURES
8.5.6 Removal of Final XYZ amplifier unit A2
ATTENTION: On the XYZ unit there are parts that carry high voltages. If working on the unit under live condition cannot be avoided, it must be done by a qualified technician who is aware of the dangers involved.
- Remove the screw that secures (and grounds) the unit to the bottom chassis plate.
- Disconnect the 4 wires that lead to the CRT (The X- and Y-deflection plates): this action must be done carefully to avoid damage to the side connections of the CRT. For correct reinstallation refer to the wiring diagram in chapter 4.2.
- Bend out the two clamping lips that secure the unit at the top side. The unit is loosened now.
NOTE: The unit can be put now in an inclined position as shown in figure 8.3. Measuring on the SMDcomponent side in working condition is possible then. Measuring the output wires that lead to the X- and Y-deflection plates is possible with a 10 fcQ damping resistor between measuring point and probe tip. This avoids oscillations.
Unplug two ribbon cables and take the unit out of the chassis.
- Unplug the delayline connector.
Figure 8.16 Final XYZ amplifier in inclined position
CORRECTIVE MAINTENANCE PROCEDURES 8 - 7
8.5.7 Removal of unit at socket of CRT
WARNING: On this unit there are parts that carry dangerous high voltages (-2.2 kV). Some of these voltages remain some time after disconnecting the instrument from the mains. Therefore it is recommended to wait at least five minutes after having disconnected the instrument from the mains, before removing the printed circuit board. If working on the unit under live condition cannot be avoided, it must be done by a qualified technician who is aware of the dangers Involved.
Now proceed as follows:
- Unplug the ribbon cable at the Final XYZ amplifier or at the CRT socket unit.
- Pull the unit gently off the CRT socket.
- Unplug the -2.2 kV cathode/filament (3 wires).
8.5.8 Removal of signal unit A1
- Remove 3 screws with washers that fix the printed circuit board to the chassis plate.
- Remove 1 long screw that fixes (and grounds) the screen of the input attenuators to the chassis plate.
- Unplug the blue ribbon cable.
- Lift the rear side of the unit over the plastic stud and slide the unit backwards: the unit becomes loose from the chassis now.
NOTE: The unit can be toppled over. The SMD component side is accessible now and can be measured in working condition after reinstallation of the blue ribbon cable. Figure 8.4 shows this.
Unplug the white ribbon cable and the coaxial delayline connector.
- Unplug the connectors for the output options (MTB gate, DTB gate, Y-out and Ext trigger) if they are present in the instrument.
- Remove the unit from the instrument.
For removal of the screen of the attenuators proceed as follows:
Pull off the plactic bracket between the BNC inputs.
Remove the two screws between the BNC’s.
Remove the two screws in the sides of the screening plate.
Figure 8.17 Signal unit in position to measure SMD component side
8 - 8 CORRECTIVE MAINTENANCE PROCEDURES
8.5.9 Removal of Cathode Ray Tube (CRT)
IMPORTANT: - Handle the CRT and its side connections carefully. Rough handling or scratching can cause the CRT to implode.
- When installing the CRT, first remove its protective cover. Then take care that its screen is pressed tight to the front side of the chassis.
- Remove the unit from the socket of the CRT (refer to 8.5.7).
- Disconnect the 4 wires that lead to the CRT (The X- and Y-deflection plates): this action must be done carefully to avoid damage to the side connections of the CRT. For correct reinstallation refer to the wiring diagram in chapter 4.2.
- Pull the graticule lamp holder out of the front rubber.
- Remove the bezel and contrast filter.
- Unplug the trace rotation cable (3 wires) at the connector board.
WARNING: The E.H.T. cable is directly connected to the E.H.T. multiplier that is present on the power supply. When the E.H.T. cable is disconnected from the CRT, the cable must be discharged by shorting it to the instrument’s ground (e.g. the CRT screen).
- Unlock the EHT cable and discharge it to ground potential.
- Push the two plastic clamping lips that secure the CRT support to the chassis and gently lift the
CRT including its shield out of the oscilloscope.
8.6 INSTRUMENT REPACKING
If the instrument is to be shipped to a Service Centre for service or repair, attach a tag showing the full address and the name of the individual at the users firm that can be contacted. The Service Centre needs the complete instrument, its serial number and a fault description. If the original packing is not available, repack the instrument in such a way that no damage occurs during transport.
8.7 TROUBLESHOOTING TECHNIQUES
If a fault appears, the following test sequence can be used to assist in locating the defective component:
- Check to verify that the control settings of the instrument are correct. Consult the operating instructions in the Operating guide.
- Check the equipment to which the instrument is connected, and check the interconnection cables.
- Verify that the instrument is properly calibrated. If it is not, start the autocalibration procedure by pressing the CAL key for 2 seconds. If this does not solve the problem refer to Chapter 7
’Calibration Adjustment Procedure’.
- Locate the circuit(s) in which the fault is suspected: the symptom often indicates the faulty circuit.
If the power supply is defective, the symptom may appear in several circuits.
- Visually check the circuit(s) in which the fault is suspected. Often it is possible to find faults such as ’cold’ or defective solder joints, intermittent or open interconnection plugs and wires or damaged components.
CORRECTIVE MAINTENANCE PROCEDURES 8 - 9
8.8 TROUBLESHOOTING THE POWER SUPPLY
WARNING: On the power supply there are many parts that carry dangerous high voltages.
Some of these voltages remain some time after disconnecting the unit from the mains. Therefore, it is recommended to wait at least five minutes after having disconnected the unit from the mains, before removing the unit. If working on the power supply unit under live condition cannot be avoided, it must be done by a qualified technician who is aware of the dangers involved. The use of an mains isolation transformer is strongly recommended.
The table below indicates the output voltages, currents and power figures delivered by the power supply. To determine whether a certain fault condition is initiated by the power supply itself or by the connected oscilloscope circuits, a dummy load is listed in the table. The table gives also an example of the resistor types that can be used to compose the dummy load. The resistors and connector
(ordering number 5322 267 70308) that fits on connector X1002 can be ordered.
Supply voltage
+5 V
-5.2V
+12 V
-12 V
+18 V
-18 V
+58 V
-58 V
+10 Vref
6.3Vac
-2.2kV
+14.5kV
Current drain
1735 mA
550 mA
1160 mA
850 mA
350 mA
195 mA
60 mA
80 mA
9 mA
240 mA
700 uA
50 uA
Substitution resistance
2.9ft
Dissipated power
5.4W
9.1ft
10.3ft
2.8W
13.9W
14.2ft
51.4ft
92.5ft
966 f t
725 ft
1100 f t
26.3ft
3.1 Mft
290 Mft
Dummy load resistors
3x 10S2/4W (4822 112 21054) in parallel
10ft/4W (4822 112 21054)
10.1W
6.3W
3.5W
12.1 W
4.7W
0.1W
1.5W
—
—
1.55W
—
0.7W
-
22ft/7W (4822 112 41063) and
27ft/7W (4822 112 41065) in parallel
27ft/7W (4822 112 41065) and
33ft/7W (4822 112 41067) in parallel
2x 27ft/4W (4822 112 21065) in series
2x 47ft/4W (4822 112 21072) in series
2x 470ft/7W (4822 112 41098) in series
330ft/4W (4822 112 21094) and
390ft/4W (4822 112 21096) in series
Another way of fault location is the use of the extension board with ordering code 5322 218 61479.
On this board there is a jumper that can be removed to switch off the EHT-converter. For safety reasons it is strongly recommended to use this feature.
The current drawn from a certain supply voltage can be measured after having removed the series choke and connecting a current meter instead of it. The chokes are L1273 (+5 V), L1201 (-5.2 V),
L1202 (+12 V), L1203 (-12 V), L1204 (+18 V), L1206 (-18 V), L1208 (+58 V) and L1209 (- 58 V).
8 - 1 0 CORRECTIVE MAINTENANCE PROCEDURES
8.9 SPECIAL TOOLS
8.9.1 Extension board
For test and repair purposes the units A3 and A6 can be plugged in their connectors via an extension board. This board is available under ordering number 5322 218 61479. On this board there is a jumper that can be removed to switch off the EHT-converter. For safety reasons it is strongly recommended to use this feature.
8.9.2 Flash-ROM loader program
After calibration of the oscilloscope, the softkey 'save calibr data’ must be pressed. This saves the calibration data in the oscilloscope’s internal Flash-ROM. When the oscilloscope is turned off now, calibration data does not disappear with no back-up batteries installed. The save action can be done
10 times.
The Flash-ROM contains blocks of calibration data (of which the most recent block is valid) and the operating software. After operation of softkey ’save calibr data’, the text ’XX CALIBRATION FIELDS
FREE’ is displayed. XX can be a figure between 10 ... 1 o r’NO’. In case o f’NO’, the Flash ROM must be emptied and redundant blocks of calibration data must be removed. To have this done, send your oscilloscope to the nearest Service Center.
The data exchange takes place via the oscilloscope’s RS232 interface. It occurs via a program running on a Personal Computer with RS232 interface.
The Flash-ROM D1013 as listed in the parts lists is empty. After exchange it must be filled with operating software and calibration data. Also for this the oscilloscope must be sent to the nearest
Fluke Service Center.
8.10 RECALIBRATION AFTER REPAIR
After any electrical component has been renewed the calibration of its associated circuit should be checked, as well as the calibration of other closely-related circuits.
Since the power supply affects all circuits, calibration of the entire instrument should be checked it work has been done in the power supply or if the transformer has been renewed.
CORRECTIVE MAINTENANCE PROCEDURES 8- 11
8.11 TROUBLE SHOOTING TOOLS
This family of analog oscilloscopes offers a number of possibilities to trace a fault. The tests 1 ... 4 can be done quickly and easily; however they require that parts of the oscilloscope function correctly.
The display part and power supply must be OK. Also the keys must be read by the microprocessor.
If the scope is ’dead,’ you have to start with test 5.
The following tests can be selected:
1 Power-up tests that are done automatically each time that the oscilloscope is switched on. A fault is indicated by a screen message. For information refer to chapter 8.12.1 ’Power-up test’.
2 Menu-operated tests that can be done without opening the instrument. Parts of the digital circuitry can be tested. Refer to chapter 8.12.3 ’Selftest’.
3 Menu-operated tests that put circuitry in defined state. In most cases the oscilloscope must be opened to measure the result. For this an additional measuring oscilloscope must be used. Parts of the digital circuitry can be tested in an easy way. Refer to chapter 8.12.4 ’Repair tools’.
4 The autoCalibration function is intended to automatically calibrate most of the oscilloscope’s circuitry. In case of a defective circuit part, this calibration cannot be completed for the full 100%. The procedure is terminated then with an error number. Via a table this number indicates the circuit part where a fault may be expected. Refer to chapter 8.13 ’The autocal procedure’ for more information.
5 The tests 1 ... 4 can point in a quick and easy way to the approximate fault location. To find the defective component, you have to measure in the instrument. For this purpose the circuit diagrams in this manual are provided with DC and AC voltages that can be measured with and additional measuring oscilloscope. For details refer to chapter 3.1.4. ’Voltage values in the circuit diagrams’.
Where no values are mentioned, it is often possible to measure by means of comparison between identical circuit parts. This can e.g. be used for the vertical channels, MTB/DTB trigger and
MTB/DTB sweep circuits. Of course for comparison these circuit parts must have the same input signal and must be put in the same settings. Also supply voltages can be measured. When measuring the power supply, you have to take care of dangerous life voltages that are present.
8.12 TESTS BUILT INTO THE INSTRUMENT
8.12.1 Power-up test
After turning the oscilloscope on, power-up tests start automatically. The tests take less than a second. A message appears on the screen when errors are found. With no message displayed, the oscilloscope is ready for use. The tests that are sequentially done and the associated error messages are:
- The oscilloscope’s internal control bus is checked. This is done by addressing N9001, N9002,
N9003, N8005, N6014, D9009 (unit A1), N1001, N2002 (unit A2) and N1141 (unit A6).
Message: ’NO ACKNOWLEDGE ON I2C BUS’.
- The oscilloscope’s hardware configuration is tested on the units A1 and A3. On unit A1 is tested for 100 or 200 MHz and 4 or 2+2 channels. On A3 the presence of an IEEE interface and the amount of memories. Also is tested if the the software version corresponds with the hardware modification level.
Messages: ’WRONG A1 HARDWARE VERSION’ or ’WRONG A3 HARDWARE VERSION’.
- The communication between the front unit A4 (named ’ufo’) and microprocessor A3 is checked.
Message: ’CANNOT COMMUNICATE WITH UFO’.
- The contents of the settings memory is checked if back-up batteries are installed.
Message: ’NO BATTERY BACKUP’.
8 - 1 2 CORRECTIVE MAINTENANCE PROCEDURES
8.12.2 Introduction to diagnostic tests
The tests are accessible via the softkey menu’s. A good knowledge of the circuitry of the oscilloscope is necessary to take advantage of these tests. Refer to chapter 5 ’Unit descriptions’ for additional information and circuit diagrams.
Tests can be performed on:
- The microprocessor system.
- The inputs for the microprocessor (rotaries and keys via the processor in the front unit).
- The outputs from the microprocessor (digital to analog converters and output buffers).
The configuration of the microprocessor control part is given in the figure. The lines SDA (Serial DAta) and SCL (Serial CLock) are fed to the many circuits, where the serial information is converted into the different control signals.
NOTE: For servicing, solder joints are added in the p.c.b. tracks. These can be used to localize a fault in the bus by means of isolating a suspected 1C from SCL or SDA lines.
Proceed as follows to reach the tests:
- Press menukey ’UTILITY’.
- Press softkey ’MAINTENANCE’.
- Now softkey selection is possible between ’SELFTEST’ and ’REPAIR TOOLS’.
8.12.3 Selftest
Under the softkey ’SELFTEST’ it is possible to run tests for the microprocessor memories. This comprises a checksum test for the ROM and a (non destructive) pattern write/read test for the RAM.
With a toggle softkey, selection is possible between ’test-all’ and ’specific’.
A test is started with softkey ’start’. A test that is being executed can be interrupted with softkey
’abort’. A test completed succesfully gives the screen message ’TEST PASSED’.
The selection ’test all’ tests all memories. If a fault is found, ’specific’ must be selected: this gives the possibility to determine what memory is defective. By means of the ’TRACK’ rotary one of the memory devices can be selected. The selection (e.g. ram 0, ram 1, rom 0, rom 1) depends on the instrument’s configuration.
Note: softkey 'RETURN' is used to move upwards in the menu structure.
CORRECTIVE MAINTENANCE PROCEDURES
12C-BUS
STB302
970426
Figure 8.5. Configuration of mmicroprocessor control part
8 - 1 3
C-8US
H ff-B U S
CORRECTIVE MAINTENANCE PROCEDURES f
A4-FRONT UNIT
A5-CRT CONTROLS
6 ANALOG INPUTS o
D D
□ □ o □ □ o D
/ ------------------- ---------------------------------------- N
D1001
C E N T R A L
P R O C E S S O R
/^-MICROPROCESSOR
ROM
READ ONLY
MEMORY
RAM
RANOOM
ACCESS
MEMORY
DAC POT
D1112
16
ANALOG
VOLTAGES
0....10V
SDA
SCL
DAC
N8005
8 ANALOG OUTPL
0...10V TIME BASE
SDA
SCL
DAC
N1001
8 ANALOG OUTP1
0...10V , FINAL-Y
12C-BUS
A2-FINAL XYZ AMPLIFIER i A6-P0W ER SUPPLY
STB302
970426
Figure 8.5. Configuration of mmicroprocessor control part
8 - 1 3
C-8US
HB^BUS
CORRECTIVE MAINTENANCE PROCEDURES 8 - 1 5
8.12.4 Repair tools
8.12.4.1 General
Under the softkey ’REPAIR TOOLS’, tests can be selected concerning the exchange of information in the area around the microprocessor:
- Data exchange between keys/rotaries and microprocessor.
- Data exchange between microprocessor and the devices that control the oscilloscope circuits.
Tests can be selected with a softkey pair. A test can be activated with toggle softkey ’on off’. Data in connection with the tests is displayed in the viewing area as two lines of information. The last setting is present in the utmost right position of the lowest of the two lines.
8.12.4.2 Repair tools / ufo
With this test the proper functioning of the keys and rotaries at the front panel (ufo) can be tested.
Each control has its own number. There is also information given concerning the position occupied by the controls. The tables below indicate the information from controls towards microprocessor. This is separately listed for rotaries and keys.
Rotaries (L is rotation left to right, R is rotation right to left, X indicates the rotation speed):
ILLUM
POS CH2
POS CH4
FOCUS
POS CH1
POS CH3
L/ROX
L/R3X
L/R6X
L/R8X
L/RBX
L/REX
TEXT INTENSITY L/R1X
LEVEL DTB L/R4X
LEVEL MTB
TRACE ROT
’delta’
X POS
L/R7X
L/R9X
L/RCX
L/RFX
TRACE INTENSITY L/R2X
HOLD OFF
FOCUS
TRACK
DELAY
L/R5X
L/R8X
L/RAX
L/RDX
Keys (A = autorepeat, M = more than 1 key pressed, X=P is function off, X=U is function on):
CAL
STATUS
TEXT OFF
UTILITY
Softkey 4
AMPL mV CH2
Softkey 2
ON CH1
DTB s
TRIG1
TB MODE
ALT CHOP
AMPL VCH3
TRIGGER MTB
50 ohm CH3
MTB s
CH3 + CH4
MTB ns
AMPL mV CH4
XOO
X02
X05
X10
X13
X16
X22
X25
X32
X35
X41
X44
X47
X53
X56
X63
X66
X73
X76
AUTOSET
Softkey 5
CH1 + CH2
SETUPS
AMPL mV CH1
AMPL V CH2
Softkey 3
AMPL V CH4
X01
X03
X06
X11
X14
X17
X23
50 ohm CH2
DTB trig
X26
X33
INV CH2 X36
CURSORS X42
TRIG2 X45
TRACE SEP down X51
TRIG4
ON CH3
INV CH4
AC DC GND CH3
AC DC GND CH4
X54
X57
X64
X67
X74
X77
STATUS LOCAL
AMPLVCH1 pin hole
50 ohm CH1
ON CH2
X02
Softkey 6 X04
AC DC GND CH1 X07
Softkey 1 X12
X15
X21
X24
X27
BWL X34
AC DC GND CH2 X37
DTB ns X43
AMPL mV CH3 X46
MAGN X52
TRIG3 X55
TRACE SEP up X61
50 ohm CH4
RESET
ON CH4
X65
X72
X75
Note: the table with keys is based upon PM3094. In other oscilloscope versions (PM3082, PM3084,
PM3092) some of the keys are not present or have a different function.
8 - 1 6
CORRECTIVE MAINTENANCE PROCEDURES
8.12.4.3 Repair tools / I2cbus
This test displays the data (SDA) that is send by the microprocessor to a number of addressable devices. Synchronization is achieved via SCL. Each data block sent by the microprocessor is preceeded by an address on which the device can respond. The characters 'A, B, C, D, E and F’ represent one hexadecimal character. The devices are the ADC’s mentioned under ’REPAIR TOOLS
/ DAC ’ and DAC N1141 on power supply unit A1.
Device Unit Name of circuit diagram
D9009
N9001
N9002
N9003
N8005
N1001
N2002
N1141
A1
A1
A1
A1
A1
A2
A2
A6
Display and trigger control
Control circuits
Control circuits
Control circuits
Time base logic
Final Y preampl. + control
Final X amplifier + control
EHT converter + auxiliary
Address
48
46
4E
88
36
40
4C
44
Data format
AB CD EF
AB CD
AB CD
AB CD
AB CD
AB CD
AB CD
AB CD
8.12.4.4 Repair tools / adc
This test displays the decimal representation of the input voltage applied to the analog inputs
ACHO ... ACH7 of the microprocessor D1001. The readout consists of two lines of information.
The first line displays in sequence the analog inputs:
- ACH7: the NTC-resistor R1009 (on unit A3) that measures the temperature inside the oscilloscope is connected to this input.
- ACH6 (PTEST-XA): the voltage value that represents the type of the probes applied to CH1 ...
CH4 is applied to this input.
- ACH5 (TBSMART): the voltage value representing the state of a number of time base circuits is applied here. TBSMART originates from unit A1 and is applied to unit A3.
- ACH4: the applied voltage is used as a reference and derived from reference voltage +5VREF via voltage divider R1003/R1004 (unit A3).
The second line displays in sequence:
- ACH3: the applied voltage is 0 volt (CAL ground). Decimal value approx. 0.
- ACH2 (XCAL): the applied voltage originates from the measuring circuit of the horizontal output on unit A2. This is used for automatic calibration of he horizontal section.
- ACH1 (YCAL): the applied voltage originates from the measuring circuit of the vertical output on unit A2. This is used for automatic calibration of he vertical section.
- ACHO: the applied voltage is 0 volt (CAL ground). Decimal value approx. 0.
8.12.4.5 Repair tools / hef
To control simple on/off functions there are 7 buffers (of the type HEF4094) on unit A1: this structure is called the ’HEF-bus’. Each buffer has 8 outputs as shown in the figure. The buffers are divided into
2 groups: group 0 consists of 2 buffers and group 1 consists of 5 buffers. A group can be regarded as a shift register of 16 or 40 bits. Each group of buffers has its common enable signal: STROBEO-
HT or STROBE1-HT.
The test makes the data (SDA) visible that is shifted by the microprocessor into the shift register. Data is displayed in the viewing area as two lines of information. The last data block is present in the utmost right position of the lowest of the two lines. Synchronization is achieved via SCL.
CORRECTIVE MAINTENANCE PROCEDURES 8 - 1 7
The configuration of group 0 and 1 is shown in the table:
Group
0
1
Enable signal
STROBEO-HT
STROBE1-HT
Buffers
D9003
D9004
D9011
D9008
D9007
D9012
D9013
Name of circuit diagram
Control circuits
Control circuits
MTB trigger
Time base logic
Delayed time base
DTB trigger
DTB trigger
The data representation for group 0 is ’0:ABCD\ Each character represents the hexadecimal (16 possible states) information for 4 outputs (total 16 outputs):
- Character ’A’ represents the information for D9004 outputs 14, 13, 12, 11.
- Character ’B’ represents the information for D9004 outputs 4, 5, 6, 7.
- Character ’C’ represents the information for D9003 outputs 14, 13,12, 11.
- Character ’D’ represents the information for D9003 outputs 4, 5, 6, 7.
The data representation for group 1 is ’1 :ABCD 1 :EFGH’. Each character represents the hexadecimal
(16 possible states) information for 4 outputs (total 32 outputs):
- Character ’A’ represents the information for D9012 outputs 14,13,12, 11.
- Character ’B’ represents the information for D9012 outputs 4, 5, 6, 7.
- Character 'C' represents the information for D9007 outputs 14, 13,12,11.
- Character ’D’ represents the information for D9007 outputs 4, 5, 6, 7.
- Character ’E’ represents the information for D9008 outputs 14, 13, 12, 11.
- Character ’F’ represents the information for D9008 outputs 4, 5, 6, 7.
- Character ’G’ represents the information for D9011 outputs 14, 13, 12, 11.
- Character ’H' represents the information for D9011 outputs 4, 5, 6, 7.
Note: the data for D9013 is not displayed. This buffer is only used when turning-on the oscilloscope: it tests if hardware and software belong to each other.
8.12.4.6 Repair tools / cbus
To control on/off functions in the CH1 ... CH4 attenuators and in the main and delayed time base, there are 3 buffers on unit A1 of the instrument. This configuration is called the ’c-bus’. Each buffer has 13 outputs and can be regarded as a shift register of 13 bits. Each buffer has its own enable signal. The test makes the data (SDA) visible that is shifted by the microprocessor into the buffer.
Synchronization is achieved via SCL.
The configuration is shown in the table:
Enable signal
DLENO-HT
DLEN1-HT
DLEN2-HT
Buffer
D9001
D9002
D9006
Name of circuit diagram
Control circuits
Control circuits
Main time base
The data representation for D9006 is ’0:ABCD’. Each character represents the hexadecimal (16 possible states) information for 4 outputs. The data representation for D9001 and D9002 is more complex: these buffers drive the pulse relays in the CH1 ... CH4 attenuators. Changing an attenuator setting can cause the generation of several ’0:ABCD’ blocks of data. Refer to chapter 5.1.1 for information on how the pulse relays are controlled. D9001 controls CH1 and CH2: data blocks have the configuration ’0:ABCD’. D9002 controls CH3 and CH4: data blocks have the configuration
’1 :ABCD’.
8 - 1 8 CORRECTIVE MAINTENANCE PROCEDURES
8.12.4.7 Repair tools /D A C
Thoughout the oscilloscope there are several digital-to-analog converters (DAC’s) that are controlled by the microprocessor. The ’REPAIR TOOLS’ menu enables to select a certain DAC output (via
TRACK) and to determine the output voltage (via A) at this output. After having opened the instrument, the voltage can be measured with a voltmeter or oscilloscope. The DAC output voltage range is between 0 ... 10V (1 ... 4V for D1112). This test is not influenced by softkey ’on off’. A DAC
VALUE once changed returns to the old value if the menu is left.
The selections with the TRACK rotary have the configuration X.Y. The character X points to a certain
DAC IC. The table shows the relation:
X-value
0.Y
2.Y
3.Y
4.Y
6.Y
7.Y
8.Y
IC reference number
N9001
N9003
N1001
N8005
N9002
N2002
D1112
Unit number
A1
A1
A2
A1
A1
A2
A3
Name of circuit diagram
Control circuits
Control circuits
Final Y preampl. + control
Time base logic
Control circuits
Final X amplifier + control
Potentiometer DAC + IEEE
The character Y points to a certain output within the selected DAC IC. The table shows this for N9001,
N9002, N9003 and N8005 on unit A1:
Y-value Pin Name of generated signal: number N9001 N9002
X.O
X.1
X.2
X.3
X.4
X.5
X.6
X.7
11
13
14
15
16
17
18
20
PAIOFFSTRG
PA1OFFSET
AT 1LFCAL
AT1 OFFSET
AT1LOOPCAL
ATCALO
ATCAL1
ATCAL2
AT3LFCAL
AT30FFSET
AT3LOOPCAL
PA20FFSTRG
PA20FFSET
AT2LFCAL
AT20FFSET
AT2LOOPCAL
N9003
DLDOFFSET
PA40FFSTRG
PA40FFSET
AT4LFCAL
AT40FFSET
AT4LOOPCAL
PA30FFSTRG
PA30FFSET
N8005
TBINTTRAT-XA
DTBVAR
DSOCALD
DSOCALM
DTRSEN
MTRTVMODE
MTRBAL
MTRSEN
Note: for explanation of signal names, refer to chapter 5.1.2
For N1001 and N2002 (unit A2) refer to the table below:
Y-valuePinName/function of generated signal:
Y-value
X.O
X.1
X.2
X.3
X.4
X.5
X.6
X.7
Pin number
11
13
14
15
16
17
18
20
Name/function of generated signal:
N1001 N2002
LF sq. wave
LF sq. wave
Gain
HF sq. wave
Offset
Offset
MF sq. wave
MF sq. wave
ASTDR
DARK
XHFADJ
XTRAGC
XCRTGCL
XCRTGCH
XCRTOFL
XCRTOFH
Note: for explanation of signal names, refer to chapter 5.2.2
CORRECTIVE MAINTENANCE PROCEDURES 8 - 1 9
Y-value
X.6
X.4
X.2
X.8
X.1
X.3
X.5
X.7
X.12
X.11
X.10
X.15
X.9
X.O
X.14
X.13
For D1112 (unit A3) refer to the table below:
Pin number
10
11
6
12
20
18
17
9
23
7
8
16
19
21
13
22
Pin name
POS CH1
POS CH2
POS CH3
POS CH4
VAR CH1
VAR CH2
VAR CH3
VAR CH4
VAR MTB
LEVEL MTB
LEVEL DTB
INTENS TEXT
TRACE SEP
FOCUS-DA
HOLD OFF
INTENS TRACE
IMPORTANT: After having completed these tests, it is recommended to reset the oscilloscope.
Therefore press the keys 'STATUS’ a n d ’TEXT OFF’ simultaneously.
8.13 THE AUTOCAL PROCEDURE
8.13.1 Introduction
The oscilloscopes PM3094/92/84/82 have an autocal function. After pushing the CAL key for more than 2 seconds, a big number of adjustments are performed automatically. The advantages are:
- high measuring accuracy
- considerable gain of time. The manual calibration adjustment is limited to a job of half an hour.
The autocal procedure consists of a number of adjustment steps that are performed in sequence.
Each step comprises a series of attempts - via ’successive approximation’ - to obtain the ideal adjustment. The procedure is controlled by the instrument’s microprocessor. The internal references are a very accurate 10 volt source and a quartz crystal.
During a calibration step, a defined stimulus is applied at a certain point in the circuit (the input).
The response is measured at a later point in the circuit (the output). Somewhere inbetween, a digital-to-analog-converter (DAC) influences the performance of the circuitry. The DAC output is varied such that the output response has the desired value.
8 - 2 0
The figure shows this.
CORRECTIVE MAINTENANCE PROCEDURES
If a calibration step is not completed succesfully, this is indicated at the end of the autocal procedure.
This is displayed on the CRT with a message:
’ERROR DURING AUTOCALIBRATION’ Via key sequence UTILITY> MAINTENANCE, you can reach a screen where an error code YXX is displayed in the bottom text line.
YXX is a hexadecimal number indicating the first adjustment step that could not be adjusted to an optimal position.
8.13.2 FAULT LOCATION VIA ERROR CODES
The reason that an error code is displayed after an unsuccesful autocal can be:
1 - the manual calibration adjustment is not OK.
2 - a deviation of supply voltage(s) that affects all circuitry.
3 - a defective circuit part.
If calibration adjustment and power supply are OK, it may be that a defective circuit part is causing the error code. The error code gives information in what circuit part the fault may be found. This circuit part lies of course between input (stimulus) and output (response). This publication gives a survey to indicate for each error code the circuit part to be involved.
8.13.3 HOW TO USE THE ERROR CODE LISTS
The error codes are listed in sequence of error number: 001,002, etc. They are grouped per function: time-base, final amplifiers, etc.
For each error code is given:
- error code: this is a hexadecimal figure.
- calibration step: a short description of the adjustment that could not be completed.
- input: signal name and circuit diagram number of the stimulus.
- control signal: signal name and circuit diagram number of the DAC output to be adjusted.
- output: signal name and circuit diagram number of the response.
The circuit diagram number (e.g. A2/1/D1001) gives information about the printed circuit board (A1,
A2, etc.), the number of the diagram itself (1,2, etc.) and the component to which the signal is applied
(e.g. D1001). A node number (e.g. N1001/17) is given if a signal has no name.
CORRECTIVE MAINTENANCE PROCEDURES 8- 21
The number of the circuit diagram is given for the 200 MHz version. For the 100 MHz version the corresponding circuit diagram should be used.
IMPORTANT:
The error code lists are a usefull help in faultfinding; in many cases a displayed error code will point to the defective circuit part. However bear in mind that there is is always a possibility that the fault will be found somewhere else.
8.13.4 ERROR CODE LISTS
Time base autocalibration
MTB (DTB) is put in defined time/div settings to adjust for the tolerance of each timing capacitor. Also
VAR is adjusted. The sweep is switched on during a certain time. This happens via control signal
STRCALM-HT (STRCALD-HT) that makes MTBGATE (DTBGATE) high. The sweep is compared inside sweep generator D6011 (D7011) with +2,7 V reference TBCALREF.
A deviation of the sawtooth makes MTBCALTST (DTBCALTST) low or high. The ideal time base adjustment is obtained after a number of steps.
Error code
001
003
004
006
007
008
002
005
Calibration step Input(s) Control signal Output
MTB, 0.5us/div, C6011
MTB, 1 us/div, VAR
MTB, 20us/div, C6012
MTB, 40us/div, VAR
MTB, 5ms/div, C6013
MTB, 10ms/div, VAR
DTB, 0.5us/div, C7011
DTB, 20us/div, C7012
STRCALM
(A1/15/V8003)
TBCALREF
(A1/16/D6011)
*> STRCALD
(A1/15A/8007)
TBCALREF
, (A1/17/D7011)
MTBVAR
(A1/16/R6009)
DTBVAR
(A1/17/R7009)
MTBCALTST
(A1/16/D6011)
DTBCALTST
(A1/17/D7011)
Final amplifier autocalibration
Signals generated by the text generator - D1402 on microprocessor unit A3 in the analog versions;
D8047 on digitizer unit A8 in the digital versions - are used as inputs. The output signals are measured on unit A2 on the Y- and X-deflection plates of the CRT. This results in the signals YCAL
(vertical plates) and XCAL (horizontal plates).
Calibration step Input(s) signal Control Output Error code
00A
00B
OOC
00D
OOF
00E
010
011
Y-offset, MSB
Y-offset, LSB
Y-gain
X-offset, MSB
X-gain, MSB
X-offset, LSB
X-gain, LSB
YTXT0/YTXT1
(A2/1/D1001)
YTXT0/YTXT1
YTXT0/YTXT1
1 XTXTO/XTXT1
J (A2/3/R2007)
XTXTO/XTXT 1
XTXTO/XTXT 1
XTXTO/XTXT 1
N1001/17 (A2/1) YCAL
(A2/2/R1309)
N1001/16 (A2/1) YCAL
N1001/14 (A2/1) YCAL
XCRTOFH
(A2/3/N2002)
XCRTGCH
(A2/3/N2002)
XCRTOFL
(A2/3/N2002)
XCRTGCL
(A2/3/N2002)
XCAL
(A2/3/R2313)
XCAL
XCAL
XCAL
8 - 2 2 CORRECTIVE MAINTENANCE PROCEDURES
Autocalibration of horizontal gain and offset
As input signals are used signals generated by generator circuit (D7004, N7014, N7015) on the DTB circuit diagram (unit A1). The accurate output signals are MCLOOP (MTB) and DCLOOP (DTB).
The output signals are measured on the X-deflection plates of the CRT. This results in the signal
XCAL (horizontal plates).
Error code
013
015
01B
01C
014
016
017
019
018
01A
01D
01E
Calibration step Input
X-pos, MTB x10
X-pos, MTB x1
X-pos 0 div, timebase
X-pos -3 div, timebase
..
X-gain, MTB x10
X-gain, MTB x1
MCLOOP
(A1/17A/7075)
J
MCLOOP
X-pos, DTB x1
X-pos, DTB x1
\ DCLOOP
J
(A1/17/V7075)
X-gain, DTB x10
X-gain, DTB x1
J- DCLOOP
X-pos 0 div, X-defl
X-pos -3 div, X-defl
1 LEVDTB
J
(A1/14/R7681)
Control signal
TBXPOS
(A1/17/R7099)
XTRAGC
(A2/3/N2002)
TBXPOS
XTRAGC
TBXPOS
Output
XCAL
(A2/3/R2313)
XCAL
XCAL
XCAL
XCAL
Autocalibration of offset delay line driver and channels 4, 3, 2 and 1
As input is used the accurate signal ATCAL generated by circuit with D1152, N1104 on the circuit diagram of the input attenuators (unit A1).
The output signals are measured on the Y-deflection plates of the CRT (YCAL).
Delay line driver offset
The delay line driver input signals FNC..OUTO and FNC..OUT1 are differentially 0 V. D.A.C. output
DLDOFFSET is adjusted such that YCAL detects the mid screen position.
Error code
02C
Calibration step Input(s) Control signal Output
Delay line driver offset
FNC..OUT0
FNC..OUT1
(A1/9/R1313.R1314)
DLDOFFSET
(A1/9/R5018)
YCAL
(A2/2/R1309)
02E
02F
Offset trace separation 0 div idem, 3 div
[ ATCAL
J (A1/1/R1008)
TRASEP
(A1/9/R5021)
YCAL
Position midscreen
ATCAL is set such that a positive trace shift is obtained. The microprocessor controls the trace back to just above midscreen via POS4 in the Y-functions section.
DC loopgain
ATCAL generates a 13 Hz sq-wave. The microprocessor monitors the top of the sq-wave (via YCAL) at successive moments in time. In successive steps AT4LFCAL is adjusted for a correct sq-wave response.
CORRECTIVE MAINTENANCE PROCEDURES 8 - 2 3
VAR gain jump
ATCAL applies 0 V to the attenuator. VAR4 is varied between min and max in various sensitivity positions. The microprocessor adjusts PA40FFSET to minimal trace jump (YCAL).
Input Control signal Output Error code
Calibration step
Channel 4:
021
023
025
027
029
POS midscreen
CH4 10mV/div idem, 5mV/div idem, 5mV/div idem, 10mV/div idem, 20mV/div
022
024
DC loopgain CH4
LF square-wave
Attenuator offset
2<->5mV/div
026
028
02A
Channel 3:
031
033
035
037
039
POS midscreen
CH3 10mV/div idem, 5mV/div idem, 5mV/div idem, lOmV/div idem, 20mV/div
032
Preampl offset
CH4 5mV/div idem, 10mV/div idem, 20mV/div
034
DC loopgain CH3
LF square-wave
Attenuator offset
2<->5mV/div
036
038
03A
Preampl offset
CH3 5mV/div idem, 10mV/div idem, 20mV/div
ATCAL
Attenuator
:1<->:2.5
>
ATCAL
Attenuator
:1<->:2.5
>
*
ATCAL
(A1/4/R4008)
VAR4
' (A1/7/R4211)
ATCAL
(A1/3/R3008)
VAR3
(A1/7/R3211)
POS4
(A1/8/R4308)
AT4LOOPCOR YCAL
(A1/4/V4001)
AT40FFSET
(A1/4/R4039)
YCAL
PA40FFSET
(A1/7/R4203)
POS3
(A1/8/R3308)
AT3LOOPCOR YCAL
(A1/3A/3001)
AT30FFSET
(A1/3/R3039)
YCAL
PA30FFSET
(A1/7/R3203)
YCAL
(A2/2/R1309)
YCAL
YCAL
(A2/2/R1309)
YCAL
8 - 2 4 CORRECTIVE MAINTENANCE PROCEDURES
Error code
Calibration step
Channel 2:
041
043
045
047
049
POS midscreen
CH2 10mV/div idem, 5mV/div idem, 5mV/div idem, 10mV/div idem, 20mV/div
042
044
DC loopgain CH2
LF square-wave
Attenuator offset
2<->5mV/div
046
048
04A
Channel 1:
051
053
055
057
059
POS midscreen
CH1 10mV/div idem, 5mV/div idem, 5mV/div idem, 10mV/div idem, 20mV/div
052
Preampl offset
CH2 5mV/div idem, 10mV/div idem, 20mV/div
054
DC loopgain CH1
LF square-wave
Attenuator offset
2<->5mV/div
056
058
05A
Preampl offset
CH1 5mV/div idem, 10mV/div idem, 20mV/div
,
Input
ATCAL
' (A1/2/R2008)
ATCAL
Attenuator
:1<->:2.5
VAR2
' (A1/6/R2211)
ATCAL
(A1/1/R1008)
,
ATCAL
Attenuator
:1<->:2.5
..
VAR1
' (A1/6/R1211)
Control signal
POS2
(A1/8/R2308)
YCAL
(A2/2/R1309)
AT2LOOPCOR
(A1/2A/2001)
AT20FFSET
(A1/2/R2039)
YCAL
YCAL
PA20FFSET
(A1/6/R2203)
YCAL
POS1
(A1/8/R1308)
AT 1LOOPCOR
(A1/1/V1001)
AT1OFFSET
(A1/1/R1039)
PA1OFFSET
(A1/6/R1203)
Output
YCAL
(A2/2/R1309)
YCAL
YCAL
YCAL
CORRECTIVE MAINTENANCE PROCEDURES 8 - 2 5
Error code
0A1
OAA
OAB
OAC
OAD
OAE
OAF
0B0
0B1
0B2
0B3
0B4
0B5
0B6
0A2
0A3
0A4
0A5
0A6
0A7
0A8
0A9
Autocalibration of trigger offset
The correctness of these adjustments is checked for MTB (DTB) via signal MTBCALTST
(DTBCALTST).
Trigger offset MTB
Adjustment of the signal path between D6541 (final stage), D8004, V8013, V8014, D6011 is done here. LEVMTB is in mid position. For level-pp ’on’ is MTRBAL varied such that triggering passes the trigger gap.
Trigger offset via vertical channels
Adjustment of the signal path between grounded input (ATCAL = GND) CH4, D4204, D4301, D6541
(dc coupled), D8004, V8013, V8014, D6011 is done here.
Trigger offset DTB
Adjustment of the signal path between D7541 (final stage), D8004, V8012, V8011, D7011 is done here. LEVDTB varied such that triggering passes the trigger gap.
Calibration step
Trigger offset mtb pk-pk, + slope idem, - slope idem, ac + slope idem, ac - slope
Trigg, offs, mtb
CH4, + slope idem, - slope
Trigg, offs, mtb
CH3, + slope idem, - slope
Trigg, offs, mtb
CH2, + slope idem, - slope
Trigg, offs, mtb
CH1, + slope idem, - slope
Trigg, offs, dtb ac, + slope idem, - slope
Trigg, offs, dtb
CH4, + slope idem, CH4 - slope idem, CH3 + slope idem, CH3 - slope idem, CH2 + slope idem, CH2 - slope idem, CH1 + slope idem, CH1 - slope
Input
LEVMTB
' (A1/12/R6622)
1 ATCAL
| (A1/4/R4008)
1 ATCAL
| (A1/3/R3008)
1 ATCAL j (A1/2/R2008)
1 ATCAL ' ' '
| (A1/1/R1008)
1
J
ATCAL
Control signal
MTRBAL
(A1/12/R6709)
PA40FFSTRG
(A1/7/R4229)
PA30FFSTRG
(A1/7/R3229)
PA20FFSTRG
(A1/6/R2229)
PA1OFFSTRG
(A1/6/R1229)
MTBCALTST
LEVDTB
(A1/14/R7681)
LEVDTB
Output
MTBCALTST
(A1/16/D6011)
MTBCALTST
MTBCALTST
MTBCALTST
DTBCALTST
(A1/17/D7011)
DTBCALTST
8 - 2 6
CORRECTIVE MAINTENANCE PROCEDURES
Autocal of normal/invert position and gain adjustment
Normal invert position
ATCAL applies 0 V (GND) to the CH4 attenuator. YCAL is adjusted to mid screen via POS4 in normal and in inverted mode. Then CH3 (normal mode only), CH2 and CH1 (normal mode only) are adjusted.
• t f \ .
Gain adjustment
Gain is adjusted in various attenuator positions. ATCAL generates the required calibrated signals.
Error code
Calibration step
064
065
066
067
068
069
06A
06B
06C
06D
Channel 4:
061
062
063
Offset normal
Offset invert
Gain position
Gain x1, 2mV/div
Gain /2.5, 2mV/div
Gain x1, 5mV/div
Gain /2, 5mV/div
Gain x1, 10mV/div
Gain /2,10mV/div
Gain x1,2 0 mV/div
Gain /2.5, 20mV/div
Gain x1, 50mV/div
Gain 12, 50mV/div
Channel 3:
071
073
Offset normal
Gain position
074
075
076
077
078
079
07A
07B
07C
07D
Gain x1, 2mV/div
Gain 12.5, 2mV/div
Gain x1, 5mV/div
Gain 12, 5mV/div
Gain x1, 10mV/div
Gain 12, lOmV/div
Gain x1,20 mV/div
Gain /2.5, 20mV/div
Gain x1, 50mV/div
Gain 12, 50mV/div j
Input
1 ATCAL
I (A1/4/R4008)
„• r >'
• ATCAL
1 ATCAL
J (A1/3/R3008)
1
> ATCAL
Control signal
POS4
(A1/8/R4308)
VAR4
(A1/7/R4211)
POS3
(A1/8/R3308)
VAR3
(A1/7/R3211)
Output
YCAL
(A2/2/R1309)
YCAL
YCAL
(A2/2/R1309)
YCAL
CORRECTIVE MAINTENANCE PROCEDURES
091
093
094
095
096
097
098
099
09A
09B
09C
09D
Error code
Calibration step
Channel 2
081
082
083
084
085
086
087
088
089
08A
08B
08C
08D
Offset normal
Offset invert
Gain position
Gain x1, 2mV/div
Gain /2.5, 2mV/div
Gain x1, 5mV/div
Gain 12, 5mV/div
Gain x1,10mV/div
Gain 12, 10mV/div
Gain x1,20 mV/div
Gain 12.5, 20mV/div
Gain x1, 50mV/div
Gain 12, 50mV/div
Channel 1
Offset normal
Gain position
Gain x1, 2mV/div
Gain /2.5, 2mV/div
Gain x1, 5mV/div
Gain 12, 5mV/div
Gain x1,10mV/div
Gain/2, 10mV/div
Gain x 1 ,20 mV/div
Gain /2.5, 20mV/div
Gain x1, 50mV/div
Gain 12, 50mV/div j
Input
1 ATCAL ' ’ '
I"
(A1/2/R2008)
• ATCAL
"t ; ■
>
1
11 ATCAL
J
1 (A1/1/R1008
: i
•
.
' *
.
\
!
,
>
-ATCAL l , i .
'
: ' i i ! !
\
Control signal Output
POS2
(A1/8/R2308)
>-
..
VAR2
(A1/6/R2211)
,
YCAL
(A2/2/R1309)
YCAL
POS1
(A1/8/R1308)
. .
t
VAR1
(A1/6/R1211)
YCAL
(A2/2/R1309)
YCAL
• 1
. V : '
‘ <0 7 * :
I i
*
■
''
>;
8 - 2 7
8 - 2 8 CORRECTIVE MAINTENANCE PROCEDURES
Autocal of trigger gain MTB/DTB
Via ATCAL a signal giving vertical deflection is applied. Coupling is dc and LEVMTB is varied such that the upper and lower level of the trigger gap are passed.
The gain is adjusted via MTRSEN. Next the same procedure is followed for DTB. Gain is adjusted with DTRSEN.
0D4
0D7
0D8
ODB
ODC
ODF
OEO
0D2
0D5
0D6
0D9
ODA
ODD
ODE
0D3
0C6
0C7
0C8
0C9
OCA
OCB
OCC
OCD
OCE
OCF
0D0
0D1
Errorcode Calibration step
0C1
0C2
0C3
0C4
Trigg, gain MTB dc, + slope idem, - slope
Trigg, gain DTB dc, + slope idem, - slope
0C5 Trigg, gap MTB upper, normal idem, lower, normal idem, upper, noise idem, lower, noise idem, upper, autoset idem, lower, autoset
Trigg, gap DTB upper, normal idem, lower, normal idem, upper, noise idem, lower, noise idem, upper, autoset idem, lower, autoset
Trigg, offs. MTB
CH1, upper idem, CH1, lower idem, CH2, upper idem, CH2, lower idem, CH3, upper idem, CH3, lower idem, CH4, upper idem, CH4, lower
Trigg, offs. DTB
CH1, upper idem, CH1, lower idem, CH2, upper idem, CH2, lower idem, CH3, upper idem, CH3, lower idem, CH4, upper idem, CH4, lower
‘J j
'j
Input
J l
'ATCAL
' (A1/1/R1008)
ATCAL
LEVMTB
' (A1/12/R6622)
4
>
LEVDTB
(A1/14/R7681)
*
ATCAL
ATCAL
Control signal
LEVMTB
(A1/12/R6622)
LEVDTB
(A1/14/R7681)
MTRSEN
(A1/12/R6554)
DTRSEN
(A1/14/R7554)
LEVMTB
LEVDTB
Output
MTBCALTST
(A1/16/D6011)
DTBCALTST
(A1/17/D7011)
MTBCALTST
DTBCALTST
MTBCALTST
DTBCALTST
SAFETY INSPECTION AND TESTS
9 - 1
9 SAFETY INSPECTION AND TESTS AFTER REPAIR
AND MAINTENANCE IN THE PRIMARY CIRCUIT
9.1 GENERAL DIRECTIONS
- Take care that the creepage distances and clearances have not been reduced.
- Before soldering, bend the wires through the holes of the solder leads, or wrap the wires around the leads in the form of an open U, or, maintain wiring ridigity by cable clamps or cable lacing.
- Replace all insulating guards and plates after performing all repairs.
9.2 SAFETY COMPONENTS
For safety reasons, components in the primary circuit may only be replaced by components indicated in the replaceable parts list.
9.3 CHECKING PROTECTIVE GROUND
The correct connection and condition is checkeidby visual control and by measuring the resistance between the protective ground connection at the plug and the cabinet/frame. The resistance shall not be more than 0.5 £2, test current 25A. During measurement the line cable should be removed from line power. Resistance variations indicate a defect.
9.4 CHECKING INSULATION RESISTANCE
Measure the insulation resistance at U = 500 V dc between the line connections and the protective ground connections. For this purpose, set the mains switch to ON. The insulation resistance shall not be less than 2 M£1
NOTE: The insulation resistance of 2 M il is a minimum requirement at 40 °C and 95% relative humidity. Under normal conditions the insulation resistance should be much higher
(10... 2 0 M il).
9.5 CHECKING LEAKAGE CURRENT
The leakage current shall be measured between each pole of the line power supply in turn, and all accessible conductive parts connected together {including the measuring ground terminal).
The leakage current is not excessive if the measured currents from the mentioned parts is <, 0.5 mA rms (without filter capacitor) or 2 3.5 mA rms (with filter capacitor).
9.6 VOLTAGE TEST
The instrument shall withstand, without electrical breakdown, the application of a test voltage between the supply circuit and accessible conductive parts that are likely to become energized. The test potential shall be 1500 V rms or dc equivalent at supply-circuit frequency, applied for one second.
The test shall be conducted when the instrument is fully assembled, and with the primary switch in the ON position.
During the test, both sides of the primary circuitJOf the instrument are connected together and to one terminal of the voltage test equipment; the other voltage test equipment terminal is connected to the accessible conductive parts.
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