8003
Page 1 of 7
8003
PRECISION
SCALAR
ANALYZER
The Giga-tronics Model
rather than the
8003 Precision Scalar
log amplifiers
Analyzer combines a 90 dB
typically used in
wide dynamic range with
scaler analyzers.
the accuracy and linearity
In addition to
of a power meter in a sin-
wide dynamic
gle instrument.
range, our
CONT/
PAUSE
PERFORMING POWER SWEEP
SENSOR A
1V
100 mV
PASS
PASS
PASS
PASS
PASS
1:
2:
3:
4:
10 mV
Balanced sensor limits
CALIBRATOR OUTPUT POWER dBm
approach also
Autozero:
ATTEN.
ATTEN.
ATTEN.
ATTEN.
-25 -20 -15 -10
ATTN 1 10dB
-5
ATTN 2 20dB
0
5
10
15
ATTN 3 30dB
+20
+10
0
-10
-20
˜
˜
˜
˜
˜
+11 dBm:PASS
+1 dBm:PASS
-9 dBm:PASS
-19 dBm:PASS
-30 dBm:PASS
ATTN 4 40dB
ABORT
CAL
WIDE DYNAMIC
delivers ex-
RANGE
tremely accurate low level
The Model 8003 Precision
measurements all the way
–30 to +20 dBm. The cali-
Scalar Analyzer can make
down to –70 dBm.
bration system uses the
accurate, single sensor
The Model 8003 incorporates a unique,
built-in power sweep calibrator.
inherent linearity and sta-
power measurements over
POWER
bility of an ovenized ther-
a frequency range of 10
METER
mistor to accurately cali-
MHz to 40 GHz with a
LINEARITY
brate the high-speed diode
dynamic range of –70 to
The Model 8003 also
sensors from 0 to 50°C,
+20 dBm.
incorporates a unique,
ambient.
This wide dynamic range
built-in power sweep
The result is a linearity
results from our unique
calibrator that linearizes
specification of ± 0.02 dB
use of switched linear gain
the sensor’s diode
(0.5 %) over any 20 dB
stages, with a maximum
response in the non-
span and ± 0.04 dB (1%)
gain of more than 100 dB,
square-law region, from
over the entire 90 dB
The Giga-tronics Model 8003 combines wide dynamic range, accuracy and linearity.
Giga-tronics 8003 Precision Scalar Analyzer
Page 2 of 7
dynamic range to ensure
POWER SENSORS TO
pulsed fixed frequency
accurate ratio or relative
MEET YOUR
(CW mode), or with a
measurements.
APPLICATION
pulsed swept frequency
Giga-tronics offers an
(start/stop mode) signal
ABSOLUTE POWER
extensive line of power
from a sweeper. The sen-
MEASUREMENTS
sensors for the Model
sors can also be used to
The same built-in calibra-
8003 to address a variety
display the response of
tor that linearizes the sen-
of power measurement
devices with no pulse mod-
sor provides a 1 mW signal
applications. This includes
ulation on the signal gener-
accurate to within ±0.7%,
standard CW power sen-
ator.
stable over temperature
sors, low VSWR CW
and time, and traceable to
power sensors, true RMS
SWEEPER CONTROL
NIST.
sensors, and our unique
The Model 8003 Precision
triggerable pulse sensors.
Scalar Analyzer can control
And each Giga-tronics
power sensor contains an
The 80340 Series trigger-
all Giga-tronics sweepers
EEPROM programmed with
able pulse sensors let you
as well as most sweepers
the frequency calibration
display the response from a
from HP, Wiltron and
factors measured at the
pulsed source. You can
Marconi.
factory, or in your cal lab.
choose between two
When you key in the fre-
modes of operation —
quency at which power is
measure with either a
being measured, the meter
automatically applies the
correct cal factor from
the sensor EEPROM.
The combination of an
accurate, traceable calibration reference and an accurate frequency response
curve for each power sensor ensures absolute
power measurements with
power meter accuracy.
The 80340 Series triggerable pulse sensors let you display
the response from a pulsed source.
Giga-tronics 8003 Precision Scalar Analyzer Specifications
Page 3 of 7
SYSTEM SPECIFICATIONS
Specifications describe the instrument’s warranted
performance, and apply when using 80300A Series
Power Sensors and 80500A Series Bridges.
Frequency Range: 10 MHz to 40 GHz in coax using
the Giga-tronics 80300 Series power sensors and
80500 Series bridges.
Power Range: +30 to -70 dBm, see power sensor
specifications.
System Dynamic Range:
CW Measurements: 90 dB
Peak Measurements: 40 dB
Swept Measurements: AC Mode 90 dB
DC Mode 80 dB
Inputs: Three identical inputs, A, B and C, accept
detected outputs from the Giga-tronics power sensors and bridges.
DISPLAY
CRT: Full color display. Each channel can be assigned a
different color. Graticule color is selectable (default
green). Menus for soft keys use color.
Display resolution: 608 X 430 points.
Channels: Four channels can be used to select and
simultaneously display inputs from A, B and C sensors
in single channel or ratio mode.
DISPLAY MODES
Graph/Readout: Graph mode displays swept frequency response on CRT. Readout mode displays power
level at cursor frequency or CW power levels in
digital format on CRT.
Graph Mode:
dBm: single channel power measurement.
dB: relative power measurement (ratio or relative
to trace memory).
Display
Mode
dBm/dB
Display
Scale
Resolution
0.1 dB to 20 dB/div
(1, 2, 5 sequence)
Display
Range
Vertical
Resolution
-99.99 to +99.99
0.01
Readout Mode:
dBm: single channel power measurement
dB: relative power measurement
Lin: nW, µW, mW and Watts: signal channel
measurement. %: dual channel measurement.
% Rel: dual channel measurement relative to a
reference.
Channel Offset: -90 dB to +90 dB in .01 dB
increments.
Autoscale: Automatically sets the scale factor,
reference level and reference position to provide
optimum display of active channel.
Averaging: 2, 4, 8, 16, 32, 64, 128, or 256 successive
traces (swept) or readings (CW) can be averaged to
reduce effects of noise on measurement.
Smoothing: Provides a linear moving average of adjacent data points.The smoothing aperture defines the
trace width (number of data points) to be averaged.
The smoothing aperture can be set from 0.1% to
20% of the trace width.
Trace Memory: Ten traces can be individually labeled
and stored in non-volatile memory and recalled.
Stored traces can be displayed, and trace differences
from any measurement can be displayed.
Adaptive Path Calibration (Normalization):
Traces are stored in non-volatile memory and normalized with the highest resolution, independent of
display scale/division or offset. Up to 4,096 points for
each trace are stored over the full frequency range of
the sweeper or any user selected frequency range.
Normalization data is automatically interpolated for
ranges within the original normalized range.
Settings Store/Recall: Allows up to nine front panel
setups, plus a power down last instrument state, to
be stored and recalled from non-volatile memory.
Limit Lines: Horizontal, sloped, and/or single point
lines for each trace can be set as go/no-go data limits.
Limit lines are stored in non-volatile memory.
Complex limit lines can be entered through the front
panel or via GPIB interface.
CURSOR AND MARKERS
Cursor: The cursor can be positioned with the tuning
knob or via the numeric keypad.The frequency and
amplitude test data at the cursor on all active
channels is digitally displayed.
Giga-tronics 8003 Precision Scalar Analyzer Specifications
Page 4 of 7
Figure 1 – LINEARITY PLUS ZERO vs INPUT POWER
(Fig. 2), instrument linearity errors, and noise uncertainty. With low return loss devices (<10 dB), reflection accuracy is typically dominated by source match
(Fig. 3). Calibration with an open and short effectively
removes uncertainties due to frequency response of
the source, sensors, and signal splitting device.
Figure 2 – REFLECTION UNCERTAINTY vs DIRECTIVITY
5
30 dB*
MAXIMUM ERROR (dB)
4
35 dB*
40 dB*
3
2
1
0
-1
-2
-3
30 dB*
-4
35 dB*
40 dB*
-5
0
10
20
30
40
DUT RETURN LOSS (dB)
*DIRECTIVITY (dB)
Reflection Accuracy = Instrument Accuracy + Reflection Bridge Accuracy
Figure 3 – REFLECTION UNCERTAINTY vs SOURCE MATCH
3
2
MAXIMUM ERROR (dB)
Cursor Delta: Displays differences in dB and frequency between the reference cursor and the
main cursor.
Cursor Min/Max: Automatically moves the cursor to
the minimum or maximum value of test data.
Cursor “x” dB: Automatically moves the cursor to
the point on the trace equal to the value of “x”
in dB or dBm.
Cursor “x” Bandwidth: Automatically displays
cursors right and left of the cursor at the frequencies
where the test data is equal to the value of “x” dB,
and displays the bandwidth between the cursors.
Ref to Cursor: Automatically changes the Ref Level to
the level at the cursor.
Markers: Displays up to 10 markers generated by the
8003.The cursor can be moved directly to any marker or moved sequentially through the markers.
ACCURACY
Transmission Loss or Gain Measurement:
Transmission loss or gain measurements are made
relative to a 0 dB reference point established during
calibration.Therefore, frequency response errors of
the source, sensors, and signal splitting device are
removed.The remaining elements of uncertainty are
mismatch error, instrument linearity (Fig. 1) and
noise uncertainty given in the absolute power
accuracy section.
2*
1.5*
1
1.25*
0
-1
1.25*
1.5*
-2
2*
-3
-4
0
10
20
30
DUT RETURN LOSS (dB)
*Source match VSWR
Absolute Power Measurement Accuracy: The
absolute power measurement accuracy is determined
by a number of factors including calibrator accuracy,
noise, sensor calibration factor error, and the mismatch
CW MODE
uncertainty between sensor and device under test.
Calibrator: Provides a 50 MHz calibration signal at 51
DC MODE
AC MODE
very accurately controlled levels from +20 to -30 dBm
to dynamically linearize the sensors.
Frequency: 50 MHz nominal
Connector: Type N(f) precision connector, 50 Ω.
Settability: The 1.00 mW level in the power sweep
POWER (dBm)
is factory set to ±0.7% traceable to the National
Transmission Accuracy = Instrument Accuracy + Mismatch Uncertainty
Institute of Standards and Technology.
Reflection Measurements: When measuring devices
Accuracy: ±1.2% worst case for one year, over
with high return loss (>10 dB), reflection accuracy is
temperature range 15 to 35º C.
typically dominated by the effective system directivity
VSWR: <1.05 (Return Loss >33 dB)
3
MAXIMUM ERROR (dB)
2
1
0
-1
-2
Sensor
80301
80310
80320
80330
Bridge
80501
-3
20
26
30
10
16
20
l
l
l
l
l
0
6
10
-10
-4
0
-20
-14
-10
20
-30
-24
-20
10
-40
-34
-30
0
-50
-44
-40
-10
-60
-54
-50
-20
-70
-64
-60
-30
20
15
5
-5
-15
-25
-35
-45
-55
40
Giga-tronics 8003 Precision Scalar Analyzer Specifications
Instrument plus Power Sensor Linearity:
Standard Sensors:
CW Mode:
±0.02 dB (±0.5%) over any 20 dB range from
+16 to -70 dBm
±0.02 dB + (+0 dB, -0.05 dB/dB) from
+16 to +20 dBm
±0.04 dB (±1.0%) from +16 to -70 dBm
Swept Mode:
±0.03 dB (±0.7%) over any 20 dB range from
+16 to -70 dBm
±0.03 dB + (+0 dB, -0.05 dB/dB) from
+16 to +20 dBm
±0.06 dB (±1.4%) from +16 to -70 dBm
Low VSWR Sensors:
-64 to +20 dBm: Same as for Standard Sensors.
+20 to +30 dBm: Same as for Standard Sensors,
plus an additional ±0.13 dB.
High Power Sensors:
-60 to +20 dBm: Same as for Standard Sensors.
+20 to +30 dBm: Same as for Standard Sensors,
plus an additional ±0.13 dB.
True RMS Sensors:
CW Mode:
±0.02 dB (±0.5%) over any 20 dB range from
+20 to -30 dBm
±0.04 dB (±1.0%) from +20 to -30 dBm
Swept Mode:
±0.03 dB (±0.7%) over any 20 dB range from
+20 to -30 dBm
±0.06 dB (±1.4%) from +20 to -30 dBm
Temperature Coefficient of Linearity: <0.3% /ºC
temperature change after calibration
Zeroing Accuracy:
(CW Mode, Averaging Factor = 32):
Zero set: ±50 pW
Zero drift: <±200 pW in 1 hour at
constant temperature after at 24 hour warmup.
(Swept Mode, Averaging Factor = 32):
Zero set: ±50 pW (AC Detection)
±800 pW (DC Detection)
Zero drift: 2 nW (DC detection), typical, in 1 hour
at constant temperature after 24 hour warmup.
Page 5 of 7
Zero drift not applicable in AC detection.
Noise Uncertainty: <50 pW, typical, at constant
temperature, measured over a 1 minute interval, two
standard deviations.
Cal Factor Correction: Manual or automatic correction to power readings to compensate for frequency
response variations of the power sensors and
bridges.
Manual: Cal Factor, Cal Frequency, Off
Auto: Sweeper
GPIB
Interface: Operates according to IEEE-488.2 and
IEC-625 interface standards, A private line GPIB
is used to connect the analyzer to firmware
supported sweepers.
Programmable Functions: All front panel functions,
except power on/off are programmable.
Interrupts: SRQ’s are generated for these conditions:
• Power Up
• Illegal command
• Front panel key pressed • Instrument self-test error
• Operation complete
• Limit test failed
REAR PANEL INPUTS/OUTPUTS
Sweep In (Sweep Voltage Requirements):
(BNC connector). 0 to +10 V nominal.
Blanking Input: (BNC connector) Used to blank
the sweep oscillator band switching points on the
8003 display.
Voltage level: Blanked >2 V; Unblanked <0.8 V
Input 1: (BNC connector) TTL levels, used with some
sweepers to provide synchronization.
AC Modulation Output: (BNC connector) Provides
drive to modulation input on sweeper or external
modulator for use in AC detection mode.
Bias Output: (BNC connector). Programmable output
voltage used to display family of curves.
Voltage range: +/-10 V
Current compliance: Source or sink 150 mA max
System GPIB: (GPIB connector) Used to connect
8003 to GPIB system controller.
Private GPIB: (GPIB connector) Used to connect
8003 to dedicated signal source, plotter or printer.
RS232 Port: Serial Communications Interface for
driving an HP Laserjet printer.
Giga-tronics 8003 Precision Scalar Analyzer Specifications
Page 6 of 7
Power Sensor Selection Guide
Frequency Range/
Power Range
CW Power Sensors
80301A 10 MHz to 18 GHz
-70 to +20 dBm
80302A 10 MHz to 18 GHz
-70 to +20 dBm
80303A 10 MHz to 26.5 GHz
-70 to +20 dBm
80304A 10 MHz to 40 GHz
-70 to 0 dBm
Maximum
Power
Power Linearity 3
(Frequency > 8 GHz)
RF Connector
Length
Diameter
Weight
VSWR
+23 dBm (200 mW)
-70 to -20 dBm: ±0.00 dB
-20 to +20 dBm: ±0.05 dB/10 dB
-70 to -20 dBm: ±0.00 dB
-20 to +20 dBm: ±0.05 dB/10 dB
-70 to -20 dBm: ±0.00 dB
-20 to +20 dBm: ±0.1 dB/10 dB
-70 to -20 dBm: ±0.00 dB
-20 to 0 dBm: ±0.2 dB/10 dB
Type N(m)
50Ω
APC-7(m)
50Ω
Type K(m) 2
50Ω
Type K(m) 2
50Ω
114.5 mm
(4.5 in)
114.5 mm
(4.5 in)
114.5 mm
(4.5 in)
114.5 mm
(4.5 in)
32 mm
(1.25 in)
32 mm
(1.25 in)
32 mm
(1.25 in)
32 mm
(1.25 in)
0.18 kg
(0.4 lb)
0.18 kg
(0.4 lb)
0.18 kg
(0.4 lb)
0.18 kg
(0.4 lb)
1.12: 0.01 - 2 GHz
1.22: 2 - 12.4 GHz
1.29: 12.4 - 18 GHz
1.12: 0.01 - 2 GHz
1.22: 2 - 12.4 GHz
1.38: 12.4 - 18 GHz
1.43: 18 - 26.5 GHz
1.92: 26.5 - 40 GHz
-64 to -14 dBm: ±0.00 dB
-14 to +26 dBm: ±0.05 dB/10 dB
-64 to -14 dBm: ±0.00 dB
-14 to +26 dBm: ±0.1 dB/10 dB
-64 to -14 dBm: ±0.00 dB
-14 to +6dBm: ±0.2 dB/10 dB
Type K(m) 2
50Ω
127 mm
(5.0 in)
32 mm
(1.25 in)
0.23 kg
(0.5 lb)
1.13: 0.01 - 2 GHz
1.16: 2 - 12 GHz
1.23: 12 - 18 GHz
1.29: 18 - 26.5 GHz
1.50: 26.5 - 40 GHz
-60 to -10 dBm:±0.00 dB
-10 to +30 dBm: ±0.05 dB/10 dB
-60 to -10 dBm: ±0.00 dB
-10 to +30 dBm: ±0.1 dB/10 dB
-60 to -10 dBm: ±0.00 dB
-10 to +10 dBm: ±0.2 dB/10 dB
Type K(m) 2
50Ω
127 mm
(5.0 in)
32 mm
(1.25 in)
0.23 kg
(0.5 lb)
1.11: 0.01 - 2 GHz
1.12: 2 - 12 GHz
1.18: 12 - 18 GHz
1.22: 18 - 26.5 GHz
1.36: 26.5 - 40 GHz
-30 to +20 dBm: ±0.00 dB
Type K(m) 2
50Ω
152 mm
(6.0 in)
32 mm
(1.25 in)
0.27 kg
(0.6 lb)
1.12: 0.01 - 12 GHz
1.15: 12 - 18 GHz
1.18: 18 - 26.5 GHz
1.29: 26.5 - 40 GHz
Type N(m)
14.6 cm
(5.75 in)
3.7 cm
(1.44 in)
0.3 kg
(0.7 lbs)
Type K(m)
14.6 cm
(5.75 in)
3.7 cm
(1.44 in)
0.3 kg
(0.7 lbs)
1.12: 0.5 - 2 GHz
1.22: 2 - 12.4 GHz
1.37: 12.4 - 18 GHz
1.50: 18 - 26.5 GHz
1.92: 26.5 - 40 GHz
Type K(m)
14.6 cm
(5.75 in)
3.7 cm
(1.44 in)
0.3 kg
(0.7 lbs)
+23 dBm (200 mW)
+23 dBm (200 mW)
+23 dBm (200 mW)
Low VSWR CW Power Sensors
80310A 10 MHz to 18 GHz
+29 dBm (800 mW)
-64 to +26 dBm
80313A 10 MHz to 26.5 GHz
+29 dBm (800 mW)
-64 to +26 dBm
80314A 10 MHz to 40 GHz
+29 dBm (800 mW)
-64 to +6 dBm
1W CW Power Sensors
80320A 10 MHz to 18 GHz
+30 dBm (1 W)
-60 to +30 dBm
80323A 10 MHz to 26.5 GHz
+30 dBm (1 W)
-60 to +30 dBm
80324A 10 MHz to 40 GHz
+30 dBm (1 W)
-60 to +10 dBm
True RMS Sensors (-30 dBm to +20 dBm)
80330A 10 MHz to 18 GHz
+33 dBm (2 W)
80333A 10 MHz to 26.5 GHz
80334A 10 MHz to 40 GHz
Triggerable Pulse Power Sensors
80340A 50 MHz to 18 GHz
+23 dBm (200 mW)
-20 to +20 dBm (Triggered)
-30 to +20 dBm (Free Run)
80343A 50 MHz to 26.5 GHz
+23 dBm (200 mW)
-20 to +20 dBm (Triggered)
-30 to +20 dBm (Free Run)
±0.13 db, 0 dBm to -30 dBm
±0.13 dB, ±0.01 dB dB/dB
from 0 dBm to +20 dBm
±0.13 db, 0 dBm to -30 dBm
±0.13 dB, ±0.01 dB dB/dB
from 0 dBm to +20 dBm
80344A
±0.13 db, 0 dBm to -30 dBm
50 MHz to 40 GHz
-20 to 0 dBm (Triggered)
-30 to 0 dBm (Free Run)
+23 dBm (200 mW)
2
The K connector is electrically and mechanically compatible with the APC-3.5 and SMA connectors. 3For frequencies above 8 GHz, add power linearity to system linearity.
Bridge Selection Guide
Frequency Range/
Maximum
Power Range
Power
Precision CW Return Loss Bridges
80501
10 MHz to 18 GHz
+27 dBm (0.5 W)
-35 to +20 dBm
4
80502
10 MHz to 18 GHz
-35 to +20 dBm
+27 dBm (0.5 W)
80503
10 MHz to 26.5 GHz
-35 to +20 dBm
+27 dBm (0.5 W)
80504
10 MHz to 40 GHz
-35 to +20 dBm
+27 dBm (0.5 W)
For frequencies above 8 GHz, add power linearity to system linearity.
Power Linearity 4
(Frequency > 8 GHz)
-35 to +10 dBm: ±0.1 dB
+10 to +20 dBm: ±0.1 dB
±0.005 dB/dB
-35 to +10 dBm: ±0.1 dB
+10 to +20 dBm: ±0.1 dB
±0.005 dB/dB
-35 to +10 dBm: ±0.1 dB
+10 to +20 dBm: ±0.1 dB
±0.005 dB/dB
-35 to +10 dBm: ±0.1 dB
+10 to +20 dBm: ±0.1 dB
±0.005 dB/dB
Input
Test Port
Directivity
Weight
Dimensions
VSWR
Type N(f)
50Ω
Type N(f)
50Ω
38 dB
0.340 kg
(12 oz.)
7.6 X 5 X 2.8 cm
(3 X 2 X 1.125 in)
< 1.17: 0.01 - 8 GHz
< 1.27: 8 - 18 GHz
Type N(f)
50Ω
APC-7(f)
50Ω
40 dB
0.340 kg
(12 oz.)
7.6 X 5 X 2.8 cm
(3 X 2 X 1.125 in)
< 1.13: 0.01 - 8 GHz
< 1.22: 8 - 18 GHz
SMA(f)
50Ω
SMA(f)
50Ω
35 dB
0.340 kg
(7 oz.)
1.9 X 3.8 X 2.9 cm
< 1.22: 0.01 - 18 GHz
(.75 X 1.5 X 1.125 in) < 1.27: 18 - 26.5 GHz
Type K(f)
50Ω
Type K(f)
50Ω
30 dB
0.198 kg
(7 oz.)
1.9 X 3.8 X 2.9 cm
< 1.35: 0.01 - 26.5 GHz
(.75 X 1.5 X 1.125 in) < 1.44: 26.5 - 40 GHz
Giga-tronics 8003 Precision Scalar Analyzer Specifications
Sensor Calibration Factor Uncertainties
Frequency (GHz)
Lower
0.1
1
2
4
6
8
12.4
18
26.5
5
Upper
1
2
4
6
8
12.4
18
26.5
40
Probable Uncertainties (%)
5
80303A
80301A 80304A 80310A 80320A 80330A
80302A 80343A 80313A 80323A 80333A
80340A 80344A 80314A 80324A 80334A
1.04
1.64
1.58
1.58
1.58
1.20
1.73
1.73
1.73
1.73
1.33
1.93
1.91
1.91
1.90
1.41
2.03
2.02
2.01
2.01
1.52
2.08
2.07
2.06
2.06
1.92
2.55
2.54
2.53
2.53
2.11
2.83
2.80
2.79
2.78
—
3.63
3.68
3.62
3.59
—
6.05
5.54
5.39
5.30
Square root of sum of the individual uncertainties squared (RSS).
DIRECTIONAL BRIDGES
The 80500 Series of Directional Bridges are designed
specifically for use with the 8003 to measure the return
loss of a test device.The bridges can be used in AC or
DC detection mode. Each bridge includes an EEPROM
which has been programmed with identification data
for that bridge. Alternatively, an adapter is available to
allow Wiltron Directional Bridges (SWR Autotesters)
to be used with the 8003.
Bridge Frequency Response: Calibrated return loss
measurements using the 8003 can be frequency
compensated using the standard “Open/Short” supplied
with the bridge.
Insertion Loss: 6.5 dB nominal from input port to
test port.
Detector Polarity: Negative
Maximum Input Power: +27 dBm (0.5 W)
Directional Bridge Accessories: Open/Short is
included for establishing the 0 dB return loss
reference during path calibration.
SIGNAL SOURCES
System Integrated: The 8003 can be system integrated (sweeper control using the 8003) with all
Giga-tronics sweepers and the following sweepers:
Marconi 6310 Series Programmable Sweep Generators
HP8350A & B Sweep Oscillator with RF plug-in
(HP83500 Series or HP 86200 Series with HP11869A adapter)
HP8340A/B or HP8341B Synthesized Sweeper
HP8360 Series Synthesized Sweepers
Wiltron 6600B Sweep Generators
Wiltron 6700A Swept Frequency Synthesizers
Typical performance, (shown in italics), is non-warranted.
Specifications subject to change without notice.
All trademarks are property of their respective owners.
© 1998 Giga-tronics Incorporated
GT-155-A
Page 7 of 7
Operator Integrated: The 8003 is compatible with
any signal source meeting the following requirements:
Horizontal Ramp: Provides 0 to +10 V nominal
ramp signal.
Blanking Signal: Provides a TTL level during
retrace and bandswitching.
Modulation:
AC Detection Mode: A square wave is provided
by the analyzer to modulate the signal source.
Frequency: 1 KHz nominal
On/Off ratio: >30 dB
GENERAL SPECIFICATIONS
Temperature Range: Operating: 0 to 50º C,
Storage: -40 to 70º C
Power Requirements:
100/120/220/240 V ±10%, 48 to 440 Hz, 200 VA
Physical Characteristics:
Dimensions: 45.1 cm (17.76 in) wide,
17.8 cm (7.00 in) high, 48.3 cm (19.00 in) deep
Weight: 16.6 Kg (36.5 lbs)
ORDERING INFORMATION
8003 Precision Scalar Analyzer
Options for 8003:
01 Rack Mount
02 RGB Interface
Power Sensor Options
20954-001 1.5 meter cable (5 feet)
20954-002 3.0 meter cable (10 feet)
20954-003 7.6 meter cable (25 feet)
20954-004 15.2 meter cable (50 feet)
8003 Accessories
PC Board Extender Kit P/N 20641
Bridge Adapter for use with Wiltron 560 Series
Bridges P/N 20779
Giga-tronics Incorporated
4650 Norris Canyon Road
San Ramon, California 94583
Telephone: 800 726 4442 or
925 328 4650
Telefax: 925 328 4700
Web Site: www.gigatronics.com
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