Page 1 Registrar: BSI, Certification No. FM 34226 v Registered 04 June 1996 v Amended 01 March 2000 Giga-tronics Incorporated v 4650 Norris Canyon Road v San Ramon, California 94583 925.328.4650 or 800.726.4442 v 925.328.4700 (Fax) v 800.444.2878 (Customer Service) v 925.328.4702 (CS Fax)
Page 2 Giga-tronics Series 8035XA Peak Power Sensors are warranted against defective materials and workmanship for one years from date of shipment. Giga-tronics will at its option repair or replace products that are proven defective during the warranty period. This warranty DOES NOT cover...
Page 3: Declaration Of Conformity
Type of Equipment: Model Series Number: Peak Power Sensors 8035XA Model Numbers In Series: 80350A, 80351A, 80352A, 80353A, 80354A, 80355A Declaration of Conformity on file. Contact Giga-tronics, Inc. 4650 Norris Canyon Rd. San Ramon, CA 94583 Ph: 1-925-328-4650 Fx: 1-925-328-4700...
Page 5: Table Of Contents
Table of Contents About This Manual ....................1-vii Conventions ......................1-viii Record of Manual Changes ..................1-x Special Configurations ....................1-xi Introduction Description....................1-1 1.1.1 Accessories ..................1-1 1.1.2 Product Returns ................1-1 Specifications ....................1-2 1.2.1 Performance Specifications ............1-3 1.2.2 Compatible Power Meters ............1-5 Operation Introduction ....................2-1 Power Sweep Calibration ................2-1...
Page 6 Reassembly of the Sensor ............5-8 Parts Lists Introduction....................6-1 80350A PEAK POWER SENSOR, TYPE N, Rev. F ........6-1 80351A HI PWR PEAK POWER SENSOR, 5W, Rev. C........ 6-2 80352A HI PWR PEAK POWER SENSOR, 25W, Rev. C......6-3 80353A PEAK POWER SENSOR, TYPE K, Rev. D........6-4 80354A PEAK POWER SENSOR, TYPE K, Rev.
Page 7 Preface 21350 ANALOG PCB ASSY (A1), Rev. P..........6-8 21353 DIGITAL PCB ASSY (A2), Rev. Z..........6-10 List of Manufacturers ..................6-12 Diagrams Introduction ....................7-1 Index Series 8035XA Peak Power Sensors Index............Index-1 Manual 21568, Rev. F, March 2008...
Page 8 Series 8035XA Peak Power Sensors Illustrations Figure 2-1: Sensor Setup Menu Tree ..............2-2 Figure 2-2: Internal Triggering Levels..............2-3 Figure 2-3: 8035XA Sensor Timing Diagram............2-4 Figure 2-4: Sample Delay Adjustment Display ............2-6 Figure 2-5: Channel A Default Sample Delay ............2-7 Figure 2-6: Channel B Default Sample Delay............2-7 Figure 2-7: Channel A &...
Page 9 Table 1-2: Power Sensor Cal Factor Uncertainties ..........1-5 Table 6: Sample Delay Limits ................4-6 Table 7: 80350A, 80353A, 80354A Trigger Test ..........4-9 Table 8: 80351A Trigger Test................4-9 Table 9: 80352A, 80355A Trigger Verification........... 4-9 Table 10: External Trigger Verification ..............
Page 10 Series 8035XA Peak Power Sensors Manual 21568, Rev. F, March 2008...
Page 11: About This Manual
About This Manual This manual contains the following chapters and appendices to describe the operation and maintenance of Giga-tronics Series 8035XA Peak Power Sensors: Preface: In addition to a comprehensive Table of Contents and general information about the manual, the Preface also contains a record of changes made to the manual since its publication, and a description of Special Configurations.
Page 12: Conventions
Series 8035XA Peak Power Sensors Conventions The following conventions are used in this product manual. Additional conventions not included here will be defined at the time of usage. Warning WARNING The WARNING statement is encased in gray and centered in the page.
Page 13 Manual 21568, Rev. F, March 2008...
Page 14: Record Of Manual Changes
Series 8035XA Peak Power Sensors Record of Manual Changes This table is provided for your convenience to maintain a permanent record of manual change data. Corrected replacement pages will be issued as Technical Publication Change Instructions, and will be inserted at the front of the binder. Remove the corresponding old pages, insert the new pages, and record the changes here.
Page 15: Special Configurations
Special Configurations When the accompanying product has been configured for user-specific application(s), supplemental pages will be inserted at the front of the manual binder. Remove the indicated page(s) and replace it (them) with the furnished Special Configuration supplemental page(s). Manual 21568, Rev. F, March 2008...
Page 16 Series 8035XA Peak Power Sensors Manual 21568, Rev. F, March 2008...
Page 17 Manual 21568, Rev. F, March 2008...
Page 18 Series 8035XA Peak Power Sensors Manual 21568, Rev. F, March 2008...
Page 19: Introduction
Option 03: SMB (plug) to SMA (jack) adapter 1.1.2 Product Returns Should it be necessary to return the product to Giga-tronics, use the original shipping container. If this is not possible, use a strong carton (350 lbs/in bursting strength), or a wooden box.
Page 20: Specifications
NOTE: If you are returning an instrument to Giga-tronics for service, first contact Customer Service so that a return authorization number (RMA) can be assigned via e-mail at repairs@gigatronics.com or at 800.227-9764 (The 800 number is only valid within the US).
Page 21: Performance Specifications
1.2.1 Performance Specifications Performance specifications describe warranted performance. Typical performance shown in italics is non-warranted. Specifications are subject to change without notice. Rise-Time (10% to 90%, 0 dBm = 100%) < 100 ns Fall Time (90% to 10%, 0 dBm = 100%) < 250 ns System Linearity (50 MHz for Standard Peak Power Sensors:) 0.13 dB from -30 to +16 dBm...
Page 22 Series 8035XA Peak Power Sensors Zero Accuracy Applies to 80350A, 80353A and 80354; 80351A = 100x larger, 80352A = 1000x larger Zero Set: < ±1.0 mW, Peak; < ±0.05 mW, CW Zero Drift: < ±1.0 mW, Peak < ±0.05 mW, CW...
Page 23: Compatible Power Meters
Table 1-2: Power Sensor Cal Factor Uncertainties Freq. (GHz) Sum of Uncertainties (%) Probable Uncertainties (%) 80351A 80353A 80353A Lower Upper 8035XA 80351A 80352A 80355A 8035XA 80352A 80354A 80354A 80355A 1.61 3.06 9.09 9.51 10.16 1.04 1.64 4.92 1.95 3.51 9.43 9.85 10.50...
Page 24 Series 8035XA Peak Power Sensors Manual 21568, Rev. F, March 2008...
Page 25: Operation
Operation Introduction When a sensor is first connected to a Model 8540 or 8650 Series Universal Power Meter or to a Model 58542 VXIbus Universal Power Meter, it is necessary to calibrate the sensor to the meter’s sensor input, using the meter’s power sweep calibration system. The power meter will not allow measurements to be performed until this calibration is completed successfully.
Page 26: 5, 25 And 50 Watt Peak Power Sensors
Series 8035XA Peak Power Sensors 2.2.1 5, 25 and 50 Watt Peak Power Sensors Power Sweep Calibration of the 5, 25 and 50 W Peak Power Sensors (80351A, 80352A and 80355A, respectively) require you to disconnect the high power attenuator before you connect the sensor directly to the front panel calibrator connector.
Page 27: Triggering
Operation 2.2.2 Triggering The 8540 power meters will not display a new peak power reading until the 8035XA sensor is triggered. The default configuration is internal triggering (INT) at -20 dBm. Press [MENU], select SETUP MENU, select PEAK SNSR SETUP, (select sensor A or B if necessary), and then select INT triggering.
Page 28: Zeroing
Series 8035XA Peak Power Sensors 2.2.3 Zeroing Zero the sensor before taking critical measurements in the bottom 10 dB of the peak power sensor’s dynamic range. For standard peak power sensors, this level is -10 dBm. When making dual channel power measurements, zero the sensors whenever another sensor is attached or disconnected.
Page 29: Sensor Triggering
Operation 2.2.4 Sensor Triggering A measurement will not be possible until the peak power sensor is triggered. The Series 8540 Power Meters will display until a valid trigger is received. The following trigger NO TRIG verification technique is valid for both Series 8540 and 58542 VXI Power Meters: 1.
Page 30: Sample Delay
Series 8035XA Peak Power Sensors Sample Delay Sample Delay is the time value in nano-, micro-, or milliseconds that appears on the Series 8540 display after an 8035XA Series sensor has been calibrated. This is the length of time between the trigger point and the sample point on the pulsed signal. This capability allows you to measure the power level of your pulsed signal at any time point along its amplitude path.
Page 31: Sample Delay Display
Operation 2.3.1 Sample Delay Display With a single peak power sensor attached, the default display after attachment and calibration of the sensor will have the power displayed on one line and the sample delay displayed on the other line. The default for channel A will be as shown in Figure 2-5. Figure 2-5: Channel A Default Sample Delay The default for channel B will be as shown in Figure 2-6.
Page 32: Setting Sample Delay
Series 8035XA Peak Power Sensors The default display will be presented after attachment of a new sensor. Sample delay offsets are available for each sensor. The use of a non-zero offset will be indicated by an asterisk between the last digit and the units as shown below. The delay displayed is the sample delay before the application of any offset.
Page 33: Sample Delay Limits
Operation mode, the display may show MEAS* with the asterisk lines rotating as each measurement is made. Figure 2-9: Sample Delay with No Trigger Display The GPIB will return numerical data in the No Trig state, depending on the GPIB measurement mode.
Page 34: Setting Sample Delay Offset
Series 8035XA Peak Power Sensors Setting Delay from the Peak Setup Menu The cursor will be available immediately upon entering this menu. The sensor will not be updated with the new delay setting until the peak menu sequence is completed. This requires selecting the trigger mode, setting the trigger level, setting the sample delay, and setting the sample delay offset.
Page 35: Real Time Pulse Profile And Sample Position Display
Operation 2.3.6 Real Time Pulse Profile and Sample Position Display The Detector Out connector on the rear of the 8035XA Series Peak Power Sensor can be connected to any common oscilloscope for a real-time amplitude profile of your signal, delayed by about 120 ns.
Page 36: Sample Delay Offset
Series 8035XA Peak Power Sensors 2.3.7 Sample Delay Offset In addition to compensating for delay line triggering variations or external triggering cables, sample delay offset can be used to set a 0.0 ns time reference point after the trigger point (see Figure 2-13).
Page 37: Measuring Pulse Droop
Operation 2.3.8 Measuring Pulse Droop Pulse characteristics such as droop, ripple, and overshoot can be measured quickly using referenced measurements. This involves the use of the front panel REL key for the Series 8540 power meter users, or the CALC#:REF:COLL function for 58542 power meters. 1.
Page 38: Measuring 3 Db Pulse Width
Series 8035XA Peak Power Sensors 2.3.9 Measuring 3 dB Pulse Width Pulse width and other pulse timing parameters can be measured using the REL key and the sample delay offset control (see Figure 2-16). 1. Preset the delay offset to 0 nS. Set the sample delay equal to about half the pulse width.
Page 39: Measuring Rise-Time
Operation 2.3.10 Measuring Rise-Time Rise time measurements can be performed using a technique similar to the pulse width measurement. This example uses a linear Watts display readout rather than the more common logarithmic dBm readout for convenient identification of the 10% and 90% levels. 1.
Page 40: Setting Delays
Series 8035XA Peak Power Sensors Examples: OUTPUT 713;TR3 ! Last measured value will be returned OUTPUT 713;TR2 ! Refill averaging buffer before measurement display OUTPUT 713;TR1 ! Wait for trigger before returning measurement OUTPUT 713;TR0 ! Measure, but no display The meter will measure power, but the display of measured data will be suppressed and the GPIB bus will not be updated with measurement data.
Page 41: Reading Values
Operation 2.4.3 Reading Values These commands read the current settings of delay or offset. Examples: OUTPUT 713;PEAK A? ! Query the current sensor A trigger setting ENTER 713;TRIG$ ! Query the trigger mode setting of the sensor, and return: INT_TRIG EXT_TRIG OUTPUT 713;PEAK A DELAY? ! Query the current sensor A delay setting...
Page 42: Commands For The 58542
Series 8035XA Peak Power Sensors 2.4.4 Commands for the 58542 The following peak power sensor GPIB commands are used with the Model 58542 VXI Universal Power Meter. Refer also to the Model 58542 Operation and Maintenance Manual for additional details. SENSe<sensor 1 or 2>:TRIGger:SOURce<INTernal|EXTernal|CW>...
Page 43 Theory of Operation Introduction This chapter describes the electrical operation of the Series 8035XA Peak Power Sensors. Refer to the block diagram in Figure 3-1 to follow the general function of the sensor. The RF signal is rectified in the sensor element, and the video envelope is buffered and delayed by the input amplifier and delay buffers.
Page 44: Analog Assembly Description
Series 8035XA Peak Power Sensors INTernal trigger is slightly longer than the delay through the EXTernal trigger due to the delay of the input differential preamp. Figure 3-1: 8035XA High Level Block Diagram Analog Assembly Description Refer to Figure 3-2, the Analog Timing Diagram in Figure 3-3, and schematic diagram #21351 in Chapter 7 to follow the discussion of the Analog PC assembly circuit operation.
Page 45: Figure 3-2: Analog Pc Assembly Block Diagram
Theory of Operation U10C and U7A provide a fast Track and Hold (T&H). U7A buffers the T&H capacitor C21, and U7B buffers the S&H capacitors, C1 & C2. Figure 3-2: Analog PC Assembly Block Diagram A track and hold differs from a sample and hold in the manner in which the signal prior to the hold is manipulated.
Page 46: Figure 3-3: Analog Circuit Timing Diagram
Series 8035XA Peak Power Sensors NEG INPUT POS INPUT DIF - AMP 1ST DELAY 2ND DELAY MONITOR TRACK & HOLD OUTPUT TP12 TRIG AMP J2-5 SAMP DELAY TIME TRANSFER TIME Figure 3-3: Analog Circuit Timing Diagram Manual 21568, Rev. F, March 2008...
Page 47: Digital Assembly Description
5µs, the LOAD unasserted, and the TRIGger, SAMPle, and READY flip-flops reset for about 1µs. A 48-bit serial stream provides the 80350A configuration information. When the serial clock is running, CLKHOLD resets the TRIG loop and loads the counter.
Page 48: Description
CLK is low. After device stop has been sent, the host sends a 48-bit serial stream to set up the 80350A sensor. Four zeros are sent followed by the 12 DAC trigger bits, followed by the fine counter 8 bits, 20 bits for the COARSE counter (with FFFFF meaning zero delay), and finally the 4 control bits (INTernal, EXTernal, CW, and HIGHGAIN).
Page 49: Figure 3-5: Digital Timing Diagram, Int/Ext Trig Mode
Theory of Operation Figure 3-5: Digital Timing Diagram, INT/EXT Trig Mode Manual 21568, Rev. F, March 2008...
Page 50: Figure 3-6: Digital Timing Diagram, Cw Mode
Series 8035XA Peak Power Sensors Figure 3-6: Digital Timing Diagram, CW Mode Figure 3-7: Digital Serial Data Cycle Timing Diagram Manual 21568, Rev. F, March 2008...
Page 51: Calibration And Testing
The following items of test equipment (or equivalent) are required for completing the Performance Tests described in this chapter. Description Instrument Model Requirements Power Meter Giga-tronics 8650, 8540 or Compatible with 8035XA Sensor 58542 Series RF Source Wavetek Model 2510 (Hi +20 dBm @ 50 MHz Power Opt.) or equivalent...
Page 52: Power Linearity Test
Series 8035XA Peak Power Sensors Power Linearity Test The linearity will be tested in a series of 10 dB steps over the range of the sensor. At low power levels, the measurements will reflect the uncertainty due the noise and zeroing specifications. Make a copy of the Performance Verification Data Sheets at the end of this chapter to record the data from this test.
Page 53: Peak Linearity Test
Calibration and Testing Adjust the RF source until the thermistor power meter reads 10.0 mW ±0.25 mW. Record the thermistor power meter reading, P1, and the power meter reading, R1, on the data sheet. Adjust the RF source until the thermistor power meter reads 1.0 mW ±0.025 mW. Record the power meter reading, P2, and the power meter reading, R2, on the data sheet.
Page 54: Trigger Modes Tests
Series 8035XA Peak Power Sensors Trigger Modes Tests Connect the test setup as shown in Figure 4-9. Set the pulse generator for a 100 Hz pulse repetition frequnecy. Set the RF source to generate a 2 ms wide pulse. Set the power meter to display power in linear units (mW).
Page 55: High Power Peak Sensors
Width: 2 msec Pulse State: ON Applies to 80350A, 80353A and 80354A sensors only. NOTE: 1. Set the Pulse Sensor trigger to Internal and sample delay to 1 ms. 2. Set the sensor trigger level to -5 dBm. Set the pulse amplitude of the RF source to 0 dBm and verify triggering by noting that the sample delay pulse is present 3.
Page 56: Delay Test
If the sensor fails to meet the criteria defined in these tests, refer to the Maintenance and Troubleshooting chapters of this manual, or contact your local Giga-tronics Sales Representative for assistance. Manual 21568, Rev. F, March 2008...
Page 57 Calibration and Testing Series 8035XA Peak Power Sensors Performance Verification Test Data Recording Sheet Date: Model 8035_A: Operator: Peak Power Sensor S/N: (if required) Test Number: CW Linearity Data Linearity Error (%) Power power Step Power Meter meter Power Reading Attenuator Accumulated Set Point...
Page 58 Series 8035XA Peak Power Sensors Notes: Linearity Error (%) = [(R1/R2) / (P1/P2) - 1] x 100 Accumulated error is the sum of the current 10 dB segment linearity error plus the previous accumulated error. System linearity + power meter uncertainty + zero settability. Peak Linearity Data Linearity Error (%) Power...
Page 59: Table 7: 80350A, 80353A, 80354A Trigger Test
Calibration and Testing Table 7: 80350A, 80353A, 80354A Trigger Test Trigger Level Pulsed Input Meter Trigger State Pass/Fail Setting (dBm) Level (dBm) Triggered Pass/Fail Not Triggered Pass/Fail Triggered Pass/Fail 80351A Trigger Test Table 8: 80351A Trigger Test Trigger Level Pulsed Input...
Page 60: Table 11: Sample Delay Test
Series 8035XA Peak Power Sensors Table 11: Sample Delay Test Lower/Upper Measured Pass/Fail Delay Setting Limit 10 - 30 ns Pass/Fail -20 ns 40 - 110 ns Pass/Fail 60 ns 1 µs 900 - 1100 ns Pass/Fail 10 µs 9 - 11 µs Pass/Fail 900 - 1100 µs Pass/Fail...
Page 61: Introduction
Maintenance Introduction There is no regularly scheduled maintenance required for the Peak Power Sensors. Utilize the normal operation calibration procedure in Chapter 2, Section 2.2 to ensure that the sensor is operating within its specified linearity. It is recommended that the sensor rise-time, overshoot, and zero be calibrated at 6-month intervals as follows: 5.1.1 Rise-Time Adjustments...
Page 62: Zero Adjustment
Series 8035XA Peak Power Sensors 5.1.2 Zero Adjustment 1. This test requires that no RF is present, and that the instrument is in the CW mode. Be sure that the system is allowed to warm up at least 30 minutes. The measurement should be made quickly to prevent cooling of the circuit.
Page 63: Table 5-1: Sensor Malfunction Symptoms
Maintenance A1TP1 should measure about -0.2V, and A1TP2 should measure about +0.2V with a 0 dB CW input. If either of these voltages are absent, the element is probably bad and should be replaced. The following table lists problems that can occur with the sensor in the logical order that these problems might become evident.
Page 64: Sensor Not Present
Series 8035XA Peak Power Sensors 5.2.1 Sensor Not Present Note that this type of failure indication is usually caused by a bad cable or a faulty temperature sensing thermistor (RT1). With the sensor disconnected from the power meter, check the resistance from Digital board J1 pin 4 to ground.
Page 65: Internal
Maintenance 5. (A2TP1 OK) A2TP9 high? A2U9, A2U10, or A2U12B bad Continue to Step 6 6. (A2TP9 high) A2TP11 stuck high? A2U7 bad, or the coarse counter A2U1, U5, U6, or U16. Note that A2TP8 and TP10 check the ICs on the back of the board for RCOs (Ripple Carry Outs).
Page 66: External
Series 8035XA Peak Power Sensors 5.2.4 EXTernal Check A1R127, A1R128, EXT (J2 pin 11 - A2U17 is bad if EXT is high). Otherwise, replace A1U10. 5.2.5 Delay Delay problems are caused by the coarse counter, the fine delay, or the serial data link. Problems can be grouped by checking in order the delays shown in the table below.
Page 67: Sensor Element Replacement
Maintenance Sensor Element Replacement This section describes how to disassemble the 80350A Peak Power Sensors, how to replace sensor elements, and then to reassemble the Sensors. Refer to the diagrams on pages 7-3 through 7-7, as applicable, while performing the following steps.
Page 68: Reassembly Of The Sensor
5.3.3 Reassembly of the Sensor CAUTION The 80350A Sensor contains static sensitive components. Use proper techniques including wrist straps, anti-static mats, tools, soldering irons, desoldering tools, and proper non-static clothing. (Refer to the diagram on page 7-3) 1.
Page 69: Parts Lists
Sensors. A list of component manufacturers is Section 6.2. 80350A PEAK POWER SENSOR, TYPE N, Rev. F Item Part Number Cage Mfr’s Part Number Description 31554 58900 31554 80350A OUTLINE DRAWING 31670 58900 31670 ATTENUATOR OUTLINE DRAWING 21472 58900 21472 MDL 80350A SENSOR,N,18GHZ 21497 58900...
Page 70: 80351A Hi Pwr Peak Power Sensor, 5W, Rev. C
PCB ASSY,DIGITAL 15183 58900 15183 TYPE N 18.5GHZ DET.HSG.ASSY 21471 58900 21471 SENSOR HOUSING ASSY 21563 58900 21563 DET ELEMENT,UNTESTED,80350A 21460-001 74970 21460-XXX 6 FT WHITE SMB-BNC CABLE 21460-002 74970 21460-002 6 FT RED SMB-BNC CABLE 21460-003 74970 21460-XXX 6 FT BLACK SMB-BNC CABLE...
Page 71: 80352A Hi Pwr Peak Power Sensor, 25W, Rev. C
PCB ASSY,DIGITAL 15183 58900 15183 TYPE N 18.5GHZ DET.HSG.ASSY 21471 58900 21471 SENSOR HOUSING ASSY 21563 58900 21563 DET ELEMENT,UNTESTED,80350A 21460-001 74970 21460-XXX 6 FT WHITE SMB-BNC CABLE 21460-002 74970 21460-002 6 FT RED SMB-BNC CABLE 21460-003 74970 21460-XXX 6 FT BLACK SMB-BNC CABLE...
Page 72: 80353A Peak Power Sensor, Type K, Rev. D
PCB ASSY,DIGITAL 20706-001 58900 20706-001 8500/SAM DET HSG ASSY,TYPE K 21471 58900 21471 SENSOR HOUSING ASSY 21563 58900 21563 DET ELEMENT,UNTESTED,80350A 21460-001 74970 21460-XXX 6 FT WHITE SMB-BNC CABLE 21460-002 74970 21460-002 6 FT RED SMB-BNC CABLE 21460-003 74970 21460-XXX 6 FT BLACK SMB-BNC CABLE Manual 21568, Rev.
Page 73: 80354A Peak Power Sensor, Type K, Rev. E
PCB ASSY,DIGITAL 20706-001 58900 20706-001 8500/SAM DET HSG ASSY,TYPE K 21471 58900 21471 SENSOR HOUSING ASSY 21563 58900 21563 DET ELEMENT,UNTESTED,80350A 21460-001 74970 21460-XXX 6 FT WHITE SMB-BNC CABLE 21460-002 74970 21460-002 6 FT RED SMB-BNC CABLE 21460-003 74970 21460-XXX 6 FT BLACK SMB-BNC CABLE Manual 21568, Rev.
Page 74: 80355A Hi Pwr Peak Power Sensor, 50W, Rev. C
PCB ASSY,DIGITAL 15183 58900 15183 TYPE N 18.5GHZ DET.HSG.ASSY 21471 58900 21471 SENSOR HOUSING ASSY 21563 58900 21563 DET ELEMENT,UNTESTED,80350A 21460-001 74970 21460-XXX 6 FT WHITE SMB-BNC CABLE 21460-002 74970 21460-002 6 FT RED SMB-BNC CABLE 21460-003 74970 21460-XXX 6 FT BLACK SMB-BNC CABLE 32133 SENSOR-S-CLOCK-BUFFER PCA, Rev.
Page 75: 21471 Sensor Housing Assy, Rev. C
Parts Lists 21471 SENSOR HOUSING ASSY, Rev. C Item Part Number Cage Mfr’s Part Number Description WSPC-2891X 04569 N304-736U-91 28 GA PVC COLOR 91 WSPC-2892X 04569 N304-736U-92 28 GA PVC COLOR 92 WSPC-2893X 04569 N304-736U-93 28 GA PVC COLOR 93 WSPC-2894X 04569 N304-736U-94...
Page 76: Analog Pcb Assy (A1), Rev. P
Series 8035XA Peak Power Sensors 21350 ANALOG PCB ASSY (A1), Rev. P Item Part Number Cage Mfr’s Part Number Description 21349 58900 21349 PCB,ANALOG 60340 58900 60340 80350 ANALOG PCA TEST PROC CF63-R3100 68919 MKS2-0.01UF-5%-63 .01UF 63V POLYESTER CF63-R4100 68919 MKS2-0.1UF-10%-63 .1UF 63V POLYESTER CK50-00047...
Page 77: Description....................................................................................................1-1
Parts Lists 21350 ANALOG PCB ASSY (A1), Rev. P (Continued) Item Part Number Cage Mfr’s Part Number Description RK45-11000 65940 MCR10EZFHFX1001 1.00K OHM 1% FILM SMT RK45-41000 59124 RN73K2A1004F 1M OHM 1% FILM SMT RK45-11000 65940 MCR10EZFHFX1001 1.00K OHM 1% FILM SMT RK45-11000 65940 MCR10EZFHFX1001...
Page 78: Digital Pcb Assy (A2), Rev. Z
Series 8035XA Peak Power Sensors 21353 DIGITAL PCB ASSY (A2), Rev. Z Item Part Number Cage Mfr’s Part Number Description 21352 58900 21352 PCB,DIGITAL 21354 58900 21354 SCHEMATIC,DIGITAL 60339 58900 60339 80350 DIGITAL PCA TEST PROC 60339 58900 60339 80350 DIGITAL PCA TEST PROC 20772-002 46384 KFS2-256...
Page 79 Parts Lists 21353 DIGITAL PCB ASSY (A2), Rev. Z Item Part Number Cage Mfr’s Part Number Description RK45-31000 ——- RK73H2AT1003F 100K OHM 1% FILM SMT RK45-41000 59124 RN73K2A1004F 1M OHM 1% FILM SMT RK45-31000 ——- RK73H2AT1003F 100K OHM 1% FILM SMT RK45-32000 ——- RK73H2AT2003F...
Page 80: List Of Manufacturers
Series 8035XA Peak Power Sensors List of Manufacturers The names and addresses of manufacturers cited in the preceding parts lists are shown in Table 6-1. Each manufacturer is listed under its CAGE number (COMMERCIAL AND GOVERNMENT ENTITY), as noted in the parts lists. In a few cases, no CAGE number has been assigned. Table 6-1: List of Manufacturers Cage Supplier...
Page 81 Parts Lists Table 6-1: List of Manufacturers (Continued) Cage Supplier Name Address City State 24355 ANALOG Analog Devices, Inc. 1 Technology Wy. Norwood 04ZM0 APPLIE Applied Thin-Film Products 3439 Edison Wy. Fremont ----- ARCO Arco Electronics 400 Moreland Rd. Commack 1HYW5 ARDIN Ardin Frequency Control, Inc.
Page 82 Series 8035XA Peak Power Sensors Table 6-1: List of Manufacturers (Continued) Cage Supplier Name Address City State 09CW5 CALCHP Cal Chip Electronics 59 Steamwhistle Dr. Ivyland 56427 CALMIC California Micro Devices 215 Topaz St. Milpitas 0N0K0 CALOGI Calogic Corp. 237 Whitney Pl. Fremont 53387 CAPAX...
Page 83 10 Melville Pk. Rd. Melville 0J9P9 GEROME Gerome Manufacturing Co, Inc. 403 N. Main St. Newburg 58900 GIGA Giga-tronics Inc. 4650 Norris Canyon Rd. San Ramon 3T059 GILWAY Gilway Technical Lamps Inc. 800 W. Cummings Prk. Woburn Manual 21568, Rev. F, March 2008...
Page 84 Series 8035XA Peak Power Sensors Table 6-1: List of Manufacturers (Continued) Cage Supplier Name Address City State 1BX85 GLOBAL Global Computer Supplies 2318 E. Del Amo Blvd., Dpt. 75 Compton ----- GOLDEN Golden Pacific Quality Products 23585 Connecticut St., #18 Hayward 95348 GORDOS...
Page 85 Parts Lists Table 6-1: List of Manufacturers (Continued) Cage Supplier Name Address City State 0K971 JAE Electronics 142 Technology Dr., Ste. 100 Irvine 91293 JOHANS Johanson Mfg. Co. 400 Rockway Valley Rd. Boonton 30035 JOLO I Jolo Industries Inc. 13921 Nautilus Dr. Garden Grove 05236 JONATH...
Page 86 Series 8035XA Peak Power Sensors Table 6-1: List of Manufacturers (Continued) Cage Supplier Name Address City State 59365 METELI Metelics Corp. 975 Stewart Dr. Sunnyvale 0RN63 MICRLA Micro Lambda, Inc. 4037 Clipper Ct. Fremont ----- MICROC Micro-Chem Inc. 00929 MICROL Microlab/FXR 10 Microlab Rd.
Page 87 Parts Lists Table 6-1: List of Manufacturers (Continued) Cage Supplier Name Address City State 63345 OVERLA Overland Products Co. 1867 Airport Rd. Fremont 61964 PHASE PHASE II 0DJ29 PSELEC PSElect 520 Mercury Dr. Sunnyvale 0HS44 PAC MI Pacific Millimeter 169 Linbrook Dr. San Diego 55387 PAMTEC...
Page 88 Series 8035XA Peak Power Sensors Table 6-1: List of Manufacturers (Continued) Cage Supplier Name Address City State 53387 STMICR ST Microelectronics 53387 SYNSEM Synergy Semiconductor 3250 Scott Blvd. Santa Clara 07180 SAGE Sage Laboratories Inc. E. Natick Industrial Pk. Natick 55322 SAMTEC Samtec Inc.
Page 89 Parts Lists Table 6-1: List of Manufacturers (Continued) Cage Supplier Name Address City State OB3G8 TOKIN Tokin America Inc. 2261 Fortune Dr. San Jose 06049 TOPAZ Topaz Inc. 1660 Scenic Ave. Costa Mesa 61802 TOSHIB Toshiba International 13131 W. Little York Rd. Houston 82152 TRANSC...
Page 90 Series 8035XA Peak Power Sensors 6-22 Manual 21568, Rev. F, March 2008...
Page 91: Introduction
Diagrams Introduction This chapter contains assembly drawings and circuit schematics for the Series 8035XA Peak Power Sensors. Parts Lists for all assemblies are contained in Chapter 6. Manual 21568, Rev. F, March 2008...
Page 108: Series 8035Xa Peak Power Sensors Index
Series 8035XA Peak Power Sensors Special 11" x 17" landscape diagrams/schematics follow this page continuing Chapter 7 of the Series 8035XA Peak Power Sensors Operation & Maintenance manual. Manual 21568, Rev. F, March 2008...
Page 109: Accessories ..................................................................................1-1
Index Series 8035XA Peak Power Sensors Index Numerics 5, 25 and 50 Watt Peak Power Sensors List of Manufacturers 6-12 About This Manual 1-vii Maintenance Accessories Diagrams Analog Assembly Description Dissembly of the Sensor Analog Timing Diagram Reassembly of the Sensor Replacing the Sensor Element Rise-Time Adjustments Sensor Element Replacement...
Page 110 Series 8035XA Peak Power Meters Sample Delay 3 dB Pulse Width 2-14 Measuring 3 dB Pulse Width 2-14 Measuring Pulse Droop 2-13 Measuring Rise-Time 2-15 Offset 2-12 Pulse Droop 2-13 Real Time Pulse Profile and Sample Position Display 2- Rise-Time 2-15 Sample delay operation Sample Position...

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Giga-tronics 80350A Operation & Maintenance Manual

Introduction

Operation

Calibration and Testing

Maintenance

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