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- 8 Pages
General Radio 804 B UHF Signal Generator Operating Instructions
Below you will find brief information for UHF Signal Generator 804 B. The 804-B U-H-F Signal Generator produces radio-frequency oscillations over a wide frequency band. Primarily for testing radio receivers, the generator is designed with shielding to achieve a continuously-variable calibrated output voltage. The output of the generator can be either unmodulated or modulated. The Type 804-B U-H-F Signal Generator is designed to work on 115-volt or 230-volt power lines with a frequency of 42- to 50-cycles.
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FOR
TYPE 804-B
U-H-F SIGNAL
GENERATOR
GENERAL RADIO COMPANY
CAMBRIDGE A, MASSACHUSETTS
•
PATENT NOTICE
This instrument is licensed under
Telephone and Telegraph Company solely search, investigation, measurement, testing, development work in pure and applied science.
PlANOGRAPH PRINTED BY SPAULDING-MOSS COMPANY
BOSTON, MASSACHUSETTS, U. S. A
GENERAL RADIO COMPANY
OPERATING INSTRUCTIONS
FOR
TYPE 804-B U-H-F SIGNAL GENERA TOR
1.0 DESCRIPTION
1.1 PURPOSE
The Type 804-B U-H-F Signal Generator is a device for producing radio-frequency oscillations over a wide frequency band and is so arranged and shielded that a continuously variable calibrated output voltage is obtainable . It is designed primarily for testing radio receivers .
1,2 FREQUENCY RANGE
The frequency range is 7.5 megacycles to 330 megacycles . This range is covered by five steps, any one of which can be chosen by means of a band-change switch on the front of the panel . Within each range the frequency is controlled by a worm driven tuning condenser. The driving shaft carries a 100-division dial. Fif teen turns of this dial are required to cover each frequency range, Geared with this tuning dial is a large indicator dial which carries on the outside a scale with
15 unifonn divisions and , in addition, five direct reading frequency scales corresponding to the five frequency ranges . The band change switch is located in the center of the indicator dial and covers with a mask all scales that are not used .
In addition to the five frequency ranges , a sixth position of the frequency range switch has been provided for the convenience of the user. A plug in type of coil without winding is furnished with the instrument .
1.3 OUTPUT
The output of the Type 804-B U-H F
Signal Generator is continuously variable between 1 microvolt and 20 millivolts . The output is determined by the reading of the output meter on the panel and by the setting of the single calibrated attenuator dial . The output may be obtained either unmodulated or modulated , Modulation is adjustable up to 60% . An internal source for modulation at 400 cycles is provided ,
Provision is also made for use of external modulation.
1 .
4 POWER SUPPLY
The Type 804-B U H-F Signal Generator is intended for use on 115 volt or 230 volt power lines of 42 to 50 cycle fre quency. The primary of the power trans former·has two windings which can be con nected in parallel or in series . The cor rect voltage for which a particular in strument is wired is indicated on the name plate located below the receptacle for line connection . The power consumption is approximately 25 watts .
2 .
0 PRINCIPLES OF OPERATION
2 .
1 DIAGRAMS
A wiring diagram which follows close ly the actual arrangement of component parts in the instrument will be found on the inside of the cabinet. A more functional diagram is shown in Figure 1.
The power supply furnishes filament
' and plate power for the Type 955 Acorn Os cillator Tube , V4 , and the Type 6G6G Modu lator Tube , V3 , The modulator tube can be used as a generator of 400 cycle modulating voltage or as an amplifier for exter nal modulating voltages . The output of the o~cillator is connected to a capaci tive attenuator and is available afte r attenuation at a jack at the lower right hand corner of the instrument .
2.2 OPERATING VOLTAGES
The heaters of all tubes operate at
6 .
3 volts. Plate voltage is obtained in a full wave rectifier · circuit and is main tained at 150 volts by means of a Type VR -
150 Stabilizer Tube , V2 , A resistance capacitance filter is used to smooth out power supply ripples .
2,3 CARRIER OSCILLATOR
The plate and the grid of the 955 -
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GENERAL RADIO COMPANY
FIGURE 1. Circuit diagram of Type 804-B U H F Signal Generator.
Resistors
R 1
R 2
1250 .11
1250 .11
R 3
R 4
R 5
500 .11
500 kS6
= 30 k.IG
R 6
R 7
200 .11
= 25 k.rl
R 8 = 30 f6
R 9
=
20 k.IG
R-10
R 11
=
50 k.rl
=
500 n,
R 12 = 500 &6
R 13 = 500 .11
R 14
=
500 b/,
R 15 = 500 >6
R 16 75 16
R 17
R 18
R 19
=
500.1G
=
500 fl,
=
500 fl,
V -1
=
RCA Type 6X5G
V 2 = RCA Type VR 150 30
V 3
=
RCA Type 6G6G
V 4 = RCA Type 955
PARTS LIST
C 1
C 2
C 3
C 4
C 5
=
0.001
)lf
= 0.001 )lf
=
0 .
001 pf
=
0.001 llf
=
10 pf
C 6 = 10 pf
C-7
C 8 = 0 .
1
)lf
C 9
=
5 )lf
=
0 .
8 )lf
C 10
=
0.1 )lf
C 11 = 0.01
)lf
C 12 = 400
)l)lf
C 13
=
50
)l)lf
C 14
C 15
=
12 150
)l)lf
=
100
)l)lf
Condensers
C-16 = 30
)l}lf
C-17 = 2 )l)lf
C-18
=
0 15
&
15 0 )l)lf
C 19
=
0 .
001 )lf
C 20 = 0.001
)lf
C 21
C 22
=
0 .
001 pf
= 0 .
001 )lf
C-23
C-24
C 25
C 26 = 0 .
001 )lf
C 27
C-28
C 29
=
=
0
0
.
.
25 )lf
=
0 .
0004 pf
0004 )lf
=
0 .
001 )lf
=
0.001 pf
=
0 .
001 )lf
Inductors
L 1
L 2
L 3
L 4
804-310
804
745
-
-
310
200
745-201
L 5 804 32
L 10 804-844
L 11 804 87
L 12 = 504 3o
L 13 804 37
L14 = 804 38
(240 330 Me)
(120 240 Me)
(50 120 Me)
(22 50 Me)
(8 22 Me)
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GENERAL RADIO COMPANY
type Oscillator Tube, V4 , are permanently connected to rotor and stator , respective ly, of the tuning condenser. Roto r and stator are balanced to ground. The maximum and minimum capacitances of the t1ming condenser c14 are 150 ~~f and 12 ~~f . By means of the FREQ . RAN G E switch any one of the five tuning coils can be connected across the tuning condenser. The cathode of the oscill ator tube is grounded for radio frequencies by a condenser, c12 The plate voltage is supplied at a tap of " each coil . The plate voltag e is contro ll ed by the CARRIER potentiometer and is set to give 100 microamperes grid current as read on the right-hand meter on the front panel.
The gr id current of the oscillator tube is proportiona l to the amplitude of oscillation, and is used to establish the proper level of carrier voltage fed to the atten uator. of the CARRIER potentiometer. The percentage modulation is read directly on the left-hand panel meter . This meter · iS a co·-er -o xide -r ectifier type meter of 7 .
5 volts full scale , which is connected to about one-tenth of the turns of the modu lation choke ~ · In the EXT. position of the modulation switch the modulator tube acts as an amplifier with the modulation potentiometer as the plate load.
Changing the plate voltage of the oscillator tube will change the oscillator frequency in addition to changing the oscillator amplitude . Such a change in oscillator frequ enc y is known as frequency modulation . The amount of frequency modu lation incr eases with carrier frequency and is inversely proportional to tuning condenser capacitance. Allow,nce for fre quency modulation must be made in tests of selective receivers .
2.4 MODULATOR 2.5 ATTENUATOR
The MODULATION switch S2 controls the operation of the Type 6G6G Modulation Tube,
V3. In the OFF position of this switch the screen of the modulator tube is disconnected and the tube is not in operation. In the INT. position , the tube is connected to a circuit which is tuned to
400 cps , and delivers about 70 volts modu lating volta~e to the MODULATION potentiometer. Depending on the position of the potentiometer arm , modulating voltage correct for up to 60% modulation i s in serted in series with the d e plate supp ly of the oscillator tube . Since the d e supply is regulated at 150 volts , the amount of modulating voltage introduced is directly proportional to the percentage modulat ion obtained , independent of the actua l plate voltabe of the oscillator tube which is determined by the position.
The oscillator is connected to the attenuator by means of a capacitance volt age divider C17 and Cl6 · The actua l voltage at the attenuator input i s about onetenth of the gr id voltage of the oscilla tor . The output capacitance of the atten u at or is 100 ~~f, and the variable attenuator capacitance varies between very sma ll values and 15 ~~f . The attenuator dial is calibrated between 0 .0
01 and 20 millivolts (1 and 20 , 000 microvo lt s). At the low output , the variable attenuator capacitance has the low value of 0.00075
~~f. As a matter of fact , this capaci tance can be further decreased but the
MILLIVOLTS dial has not been calibrated b e low 0.001 millivolt . The attenuator i s compensated to present a constant capacitance to the oscillator circuit to avoid carrier frequency changes with attenuator a:
0 1.2
I-
0
~
1.0 z
Q
1.8
0 w a: a:
0
0
.
6
.
4
5 10
__.../ v v r.
1\
/"\.
,.... v
'\.. v
""'
20 30 40 50 100
FREQUENCY IN Me
200 300 400 500 1000
FIGURE 2. Plot of correction factor for output voltage as a function of frequency.
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GENERAL RADIO COMPANY
setting . The compensation is adjusted with 9 screws which can be seen on the attenuator housing.
2.6 OUTPUT CIRCUIT .
Output volta ges are obtained at the output jack at the lower right-hand corner of the front panel, across a 100 ppf con denser, C15,which is built into the atten uator housing and in series with the 75n resistor R16 which is located inside the output jack . A concentric shielded output cable 3 feet long with a characteristic impedance of 75 .a is furnished with the
Type 804 B Signal Generator . This cable is fitted with male and female plugs and should be inserted into the output jack.
The Type 774-YA-1 Terminal Unit which is furnished in addition serves merely to convert the concentric output terminal in to convenient screw terminals .
The calibration of the attenuator dial is g iven interms of open-circuit out put voltage at the output jack . For high frequencies the output voltage at the far end of the output cable is practically the same . For lower frequencies a correction has to be applied. The output impedance approaches 75 n at the high-frequency end and corresponds to 185 ~~f at low frequencies (100 in the output and 85 ~pf in the cable) . Correction factor and output impedance plotted against frequency are shown in Figures 2 and 3, respectively.
The resistive and reactive components of the output impedance are shown in Figure 4.
To obtain low output voltages beyond the last calibration point of the atten uator dial, an additional external attenuator, the Type 774-X-1 Insertion Unit, can be connected to the output cable. This unit contains aT pad attenuator of 60 , 15 and 61.4 a and reduces the output voltage at high frequencies by a factor of 10 : 1; at low frequencies the attenuation is higher.
Figure 5 shows the correction factor plotted against frequency. The output impedance of the insertion unit lli practically constant at 75f6.
3 .
• 0 OPERATING IN3TRUCTIONS
3 .1 TUBES AND PILOT LIGHTS
Type Function
955 Carrier Oscillator Tube
6G6G
6X5G
VR -1
Modulator Tube
Rectifier
50 Regulator
Tube
Tube
Location
Isolantite socket on top of tuning condenser
Left-hand side of instrument com partment
Vertically in power supply compartment
Horizontally in power supply compartment
5 -6 Volt Pilot Light Front Panel position and that the MODUh~TION and CARRI-
ER potentiometers be turned all the way in a counterclockwise direction before throwing the ON-OFF switch to ON.
3.3 SETTING OF CARRIER FREQUENCY
The carrier frequency is set by the
FREQ . RANGE switch and the tuning condenser dial and can be adjusted to the desired value on the direct reading frequency scale which is exposed.
3 .
4 SETTING OF CARRIER AMPLITUDE
To establish the proper level of carrier amplitude at the attenuator input, the
CARRIER potentiometer is set to give 100 microamperes grid current on the right-hand meter. If it is not possible to set to 100
3.2 POWER SUPPLY
Before connecting the instrument to the line make sure that line voltage and frequency agree with those shown on the name plate below the power cord receptacle.
The power transformer is made with a split primary which can be connected in parallel or in series . Whenever a change in con nection of the power transformer is made , the name plate below the receptacle should be unscrewed and reversed .
To follow more easily instructions in the next paragraphs it is suggested that the modulation switch be set to the OFF r:
0
0
0
'\
0 . .
""'
"
I
A
) \ . \.. [V
~ ~ ~ '" ·~
FREQUENCY 1N Me
300<1.()0500 ·~o
-4-
FIGURE 3. Plot of output impedance at end of cable as a function of frequency.
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on the two highest frequency ranges , the meter can be set to a convenient lower value , and the output of the signal generator will be correspondingly reduced .
3 5 SETTING OF INTERNAL
400 CYCLE MODULATION
Internal 400 cycle modulation is obtained by throwing tl'll modulation switch into the INI'. position . The percentage modulation is controlled by the MODULATION potentiometer , and the desired value is set on the left -
1
The carrier and modulation controls show a slight interaction . For correct output both meters shou ld be set to the desired values . r-
' l j
A
I 1'--
/
II v
~!I
.
A -
I-v!v
I
1 f/ v v.
I
I v
~-
~
3 .
6 SETTING OF EXTERNAL MODULATION
I
I
External modulation is obtained by throwing the modulation switch into the
EXT . position and by connecting a source of external modulating voltage to the EXT.
MOD. binding posts. The input impedance at the binding posts is 0.25 megohm . The modulati on characteristic is flat within
~2 db , between 100 and 20 , 000 cps , and within 1 db between 200 and 10,000 cps .
Control and setting of the desired percent age modulation is exactly the same as for internal modulation (see Paragraph 3.5).
When external modulation is used, do not overload the input circuit . The best pro cedure is to turn the MODULATION control to maximum , and use the external oscilla tor volume control to regulate the percent age modulation. It takes about 7 volts to
FIGURE 4 . components
Resistive (R) of output imp and react"ve (X) edance . get 50% modulation under these conditions.
Twelve volts is the maximum that should be applied to the EXT. MOD . terminals under any condition.
3 7 SETTING OF ATTENUAT O R of
FREQUENCY IN Me
After establishiTib the correct level unmodulated or modulated carrier desired frequency be set to any value between millivolts , attenuator dia
, the output voltage can as marked l. As
0 on the explained
.
001 in cal at the and 20 ibrated paragraph
I
1 i
I
T o.
I
0:::
0 f-
(.)
.09 lt
.oe
(9 z
.07 s a_
5
.06
::::>
~ .05
I v
I
I
1
/
/
~
I
5 10 20 30 40 50 100
FREQUENCY IN Me
200 500
FIGURE 5 . Correction factor for output voltage when Type 774-X-1 Insertion Unit is connected to end of cable .
5 -
~.ENERAL
RADIO COMPANY
.
-
2.6,the output Jltage then is correct for increased percentage modulation and that the open circuit condl ::: ic _ l at the output jack and for the open circuit condition at the end of the 3-foot 0..1tput cable for high frequencies. For low frequencies, particularly below 50 Me, the correction factors shown in Figure 2 must be used, additional peaks are observed as the receiver is detuned, Testing of selective receivers should therefore be confined to testing with unmodulated carrier.
3.10 PLUG-IN COIL FORM
3.8 EXTERNAL ATTENUATOR
For low output voltages, beyond the last calibration poi n t of the attenuator, the Type 774-X-l Insertion Unit is plugged into the output ca~le, This unit reduces the output voltage by a factor of 10:1 except at low frequencies where the correction factors of Figure 5 must be used.
3,9 TES'l'ING OF SELECTIVE RECEIVERS
As explained in Paragraph 2.4, pure amplitucre modulation cannot be obtained with the Type 804-B U-H-FSignalGenerator.
In addition to amplitude modulation, frequency modulation will be present, particularly at the high-frequency end of each frequency range, This frequ e ncy modulation will be very noticeable in testing selective receivers. It will be observed that the receiver output does not increase with
A plug-in coil form is furnished with the Type 804-B U-H-F Signal Generator.
This can be plugged into the mycalex disc of the range changing switch in a position corresponding to the blank sector of the indicator dial, No winding is furnished.
This position is intended for an additional frequency range, It can be used, for instance, with a fixed shunt capacitance for reduced frequency spread and improved setting accuracy. Owing to the plug-in type construction of · the coil, frequencies above 100 Me cannot be obtained, but frequencies well below the range of the Type
804-B U-H-F Signal Generator can be produced. As an example, a coil with a 3bank winding of 140 turns No, 30 DCC wire with a tap at 70 turns and with a shunt capacitance of 100 ~f will have a range of 0,8 Me to 1,2 Me. With a 3/8" diameter dust core, the range will be 0,6 Me to 9,9
Me.
4.0 MAINTENANCE
The only part f of the Type 804-B
U-H-F Signal Gener
· .JT which are subject to wear ana deterioration, ana which require periodical attention are the vacuum tubes, the tuning condenser contacts, and the band-chan g e switch contact s . In addition, as a r s ult of aging or excessive temperature vari n tion, the calibration of the inductors may show slight drifts. milliamperes and screen current about 4 milliamperes.
The regulated power supply should deliver 150 volts at about 20 milliamperes to the instrument. There should be a purple glow inside the Type VR-150 Rectifier
Tube, The alternating-current ripple voltage as measured across the regulator tube should not be more than 150 millivolts,
4,1 TUBES
The location of the tubes is given in paragraph 3.1, The heaters of all tubes operate on 6,3 volts, Plate voltage and current of the 955-type Oscillator Tube,
V4, depends on the selected frequency and on the setting of the controls, The maximum values of voltage and current are 150 volts and 10 milliamperes, These values are obtained at the low frequency end of
Coil A and B. The plate current for most of the other ranges is around 5 milliamperes,
6G6G
Plate and screen voltage of the Type
Modulator Tube, v
3 , are 150 volts. In the INI. and EXT. positions of the MODU-
LATION switch, plate current is about 8
4,2 BAND-CHANGE SWITCH
AND CONDENSER CONTACTS
The band-change switch and the condenser contacts may become erratic in operation after long use as a result of oust accumulating on the contacts. When this occurs the contacts should be carefully cleaned with a dry cloth,
4,3 FREQUENCY CALIBRATION Some of the inductors are provided with adjustable dust cores to compensate for slight variations. If adjustments have to be made on any of the ranges it is suggested that the frequency in the middle of the range be set ac~urately.
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Key Features
- Continuously-variable calibrated output voltage
- Unmodulated and modulated output
- Frequency range: 7.5 megacycles to 330 megacycles
- Five frequency ranges
- Internal and external modulation
- Plug-in coil form for custom frequency ranges
- Output impedance: 75 ohms at high frequencies
- Correction factors for low frequencies