USER MANUAL - Rohde & Schwarz
Contents
1. CERTIFICATE DQS GmbH Deutsche Gesellschaft zur Zertifizierung von Managementsystemen hereby certifies that the company Rohde amp Schwarz GmbH amp Co KG M hldorfstrasse 15 D 81671 M nchen with the production sites as listed in the annex for the scope Design and Development Production Sales Services of Electronic Measurement and Communication Equipment and Systems has implemented and maintains a Quality Management System An audit documented in a report has verified that this quality management system fulfills the requirements of the following standard DIN EN ISO 9001 2000 December 2000 edition The quality management system of the sites marked with in the annex fulfills the requirements set out by the international and German Road Traffic Regulations including the approval objects as listed in the appendix This certificate is valid until 2008 01 23 Certificate Registration No 001954 QM ST Frankfurt am Main 2005 01 24 This certificate is based on a quality audit in cooperation with the CETECOM ICT Services GmbH as a Notified Body under the Scope of the EC directive 99 5 EC It was verified by the Notified Body that the supplementary requirements of the Annex V of the European Concil Directive 99 5 EC are fulfilled Ass iur M Drechsel Dipl Ing S Heinloth Senior xgcutive Officer of CETECOM ICT Services GmbH MANAGING DIRECTORS Dipl Ing J Schirra DOS is member Deut2. ROHDE amp SCHWARZ USER MANUAL Analog Stimulus and Measurement Module TS PSAM User Manual for ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM 6th Issue 11 05 GB 1142 9878 12 All rights also translation into foreign languages are reserved No part of this manual is permitted to be reproduced in any form print photocopy or any other method also not for the preparation of lectures or processed reproduced or made available using electronic systems without written permission from ROHDE amp SCHWARZ The passing on to third parties and the reproduction of this documentation utilisation and com munication of its contents is not permitted unless specifically approved Infringements will incur claims for damages All rights reserved in the case of the award of a patent or registration of a design We draw to your attention that the names of software and hardware used in the Service Manual and the brand names of the respective companies are in general the subject of protection as trademarks or under proprietary rights or patent law ROHDE amp SCHWARZ GmbH amp Co KG Corporate Headquarters Telephone 49 0 89 4129 13774 M hldorfstr 15 Fax 49 0 89 4129 13777 D 81671 M nchen Printed in the Federal Republic of Germany Errors excepted subject to technical change without notice Safety Instructions Attention Electrostatic sensitive devi ces require special care N
3. 40 95 rel humidity Dimensions mm 316 x 174 x 20 Weight 0 45 kg Calibration interval recommended 1 year 10 2 Technical Specifications for the TS PDC Mod ule 10 2 1 Electrical Specifications Input voltage 5 VDC Output voltages 2x output voltages 15 VDC 0 5 A 15 VDC 0 5 5 VDC 0 5 3 3 VDC 0 25 Clock frequency 10 2 2 General Data 200 kHz EMC according to EMC Directive 89 336 EEC and Standard EN61326 Safety CE EN61010 Part 1 Mechanical strength Vibration test sinusoidal Sinus 5 Hz 55 Hz Sinus 55 Hz 150 Hz 2 g MIL T 28800D class 5 0 5 g MIL T 28800D class 5 Vibration test random 10 Hz 300 Hz 1 2g Shock test 40 g MIL STD 810 Classes 3 and 5 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ Specifications Heat resistance Nominal temperature range 5 40 Operating temperature range 0 50 C Storage temperature range 40 70 e Humidity 40 C 95 rel humidity Dimensions in mm 120 x 95 x 20 Weight 0 3 kg 10 11
4. 401 89 g 1 sw G G 5 2 Q 2 GND b g aos ov cowe cw sem Sas _ STOP O GND O UOJO U Q 2 5V ND AR ND IPMB SCL STOP 33V Key Area N _ ang G 2 GND GND GND GND GND GND GND GND ND ZZ g G GND GND e 2 2 2 Z CO 2 ND ND AD 27 AD 28 AD 29 AD 30 AD 31 REQH 5V 12V OIOI 2 2 2 2 OJ OJOJUO OOII 2 2 2 2 mo me s o r o vo ooo svo 2 Z LK GNT D RST BSRSV BSRSV V 2 zZ 2 g Table 9 4 Pin assignment for connector X1 C R Interface description 9 5 ROHDE amp SCHWARZ Interface description Analog Stimulus and Measurement Module TS PSAM 9 2 Interface description for TS PDC 9 2 1 Connector X20 Extension Connector ZABCDEF Figure 9 5 Connector X20 TS PDC mating side 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Interface description 1 2 3 C T R TS PDC V1 0 is supplied via these pins from 5 for backplanes up to V3 x TS PDC V1 1 is supp
5. E N J 8 RBCOM o a GND 9 GND CHA GND 1 l Figure 5 1 Block Diagram of TS PSAM a oe amp SCHWARZ 1 1 Si 1 1 ZILX TILX COLX TOLX INOW 0 LX Analog Stimulus and Measurement Module TS PSAM TATI IXd WOdd J Function description 52 dav 21 524 L SISVNZ 24 1 SIEVNS 520 1 LRERNRERRRERRRERNSERRERENSSERESERSRERSSERSRERSSESSEERSERRSRERREESSSERERENR Ty E Tod XOLX WNZ XQW XOLX R d RRR RRR 4 25 XOLI AYTI 15 SINL JAILOV JAL INI Jarana a 90 DUL MS SALWLS x X VN3 XON XOL ELM A EE E 2 HOLVT IIS YaLNNOO 219 21901 44075 TAVIS LIST 8 WITTE lnn nn nnn nnn RRR RRR RRR RRR RUR px 1013409 pue 2 WTO Idd JOV4WSINI SNE Idd SU LL anses ui9 d 0TNTO IXd XOIUL IXd 508 1242 LXd c N gt lt 1242 Figure 5 2 Block Diagram of the Trigger Hardware 5 6 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ Functiondescription 5 2 Function Description of the TS PDC Module On this topic see also Figure 5 3 The DC DC converter is configured as a primary reference DC DC con verter The input voltage 5 VDC is transfered to two secondary
6. s MU A 4 E Figure 1 3 Cross connection for 2 wire resistance measuring in Mode V HI Rs SHI DCS 4 MU A SLO LO Figure 1 4 Cross connection for 4 wire resistance measuring in Mode V 1 5 ROHDE amp SCHWARZ Usage 1 6 Analog Stimulus and Measurement Module TS PSAM 1 2 2 2 Expanded applications On this topic see also Figure 1 5 and Figure 1 6 Further in circuit measurements can be made in conjunction with the TS PICT module ICT expansion module These are Diode and transistor test Guarded resistance measurements 3 4 and 6 wires Impedance measurements 3 4 and 6 wires For this purpose the TS PICT module provides a special AC voltage source AOS and current measurement unit CMU The UUT is connected for the in circuit test ICT via the TS PMB mod ule matrix module B 1 2 2 2 1 Examples of use On this topic see also Figure 1 5 and Figure 1 6 The following section presents some examples of cross connection for guarded measurements A1 A2 R1 B1 Figure 1 5 Cross connection in a guarded resistance measurement 6 wire 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Usage A1 2 71 e ZX D CMU A S B2 22 1 Figure 1 6 Cross connection in a guarded impedance measurement 6 wire ROHDE amp SCHWARZ Usage 1
7. 2 5 mV 10 kHz 20 kHz 1 5 2 5 mV 20 kHz 50 kHz 25425mv BV 20 Hz 50 Hz 2 5 5mV 50 Hz 10 kHz 1 0 5 mV 10 kHz 20 kHz 1 5 5 mV 20 kHz 50 kHz 2 5 5mV 10 V 20 Hz 50 Hz 2 5 10 mV 50 Hz 10 kHz 1 0 10 mV 10 kHz 20 kHz 1 5 10 mV 20 kHz 50 kHz 2 5 10 mV 20V 20 Hz 50 Hz 2 5 25 mV 50 Hz 10 kHz 1 0 25 mV 10 kHz 20 kHz 1 5 25 mV 20 kHz 50 kHz 2 5 25 mV 50V 20 Hz 50 Hz 2 5 50 mV 50 Hz 10 kHz 1 0 50 mV 10 kHz 20 kHz 1 5 50 mV 20 kHz 50 kHz 2 5 50 mV 100 V 20 Hz 50 Hz 2 5 100 mV 50 Hz 10 kHz 1 0 100 mV 10 kHz 20 kHz 1 5 100 mV 20 kHz 50 kHz 2 5 100 mV 200 V 20 Hz 50 Hz 2 5 200 mV 50 Hz 10 kHz 1 0 200 mV 10 kHz 20 kHz 1 5 200 mV 10 5 ROHDE amp SCHWARZ Specifications Analog Stimulus and Measurement Module TS PSAM Range Frequency range Accuracy 1 20 kHz 50 kHz 2 5 200 mV 1 Accuracy of the read value absolute value Temperature coefficient 0 1 Accuracy averaged over 100 sampling points measuring time 20 ms 40 kHz filter 10 1 2 3 2 AC current 6th Issue 11 05 Range Frequency range Accuracy 1 100 pA 20 Hz 50 Hz 2 5 500 nA 50 Hz 10 kHz 1 0 500 nA 10 kHz 20 kHz 1 5 500 nA 20 kHz 50 kHz 2 5 500 nA 200 pA 20 Hz 50 Hz 2 5 1 25 pA 50 Hz 10 kH
8. 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Layout 4 Layout 4 1 Mechanical construction of the TS PSAM On this topic see also Figure 4 1 The TS PSAM module is designed as a long cPCI plug in module for mounting in the front of the CompactTSVP The board height of the module is 3 HU 134 mm In order to ensure that it is inserted correctly into the Compact TSVP the front panel is furnished with a locating pin The module is secured in place with the two retaining screws on the front panel Front connector X10 is used for connecting the UUTs Con nector X30 connects the TS PSAM module to the analog bus back plane in the CompactTSVP Connectors X20 X1 connect the TS PSAM module to the cPCI backplane PXI control backplane LEDs X30 X20 X10 TS PSAM X1 Figure 4 1 Arrangement of connectors and LEDs on the TS PSAM module 4 1 ROHDE amp SCHWARZ Layout Analog Stimulus and Measurement Module TS PSAM Symbol Use X1 cPCI Bus X10 UUT X20 Extension PXI Rear I O X30 Analog Bus Table 4 1 Connectors on the TS PSAM module 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ 4 2 Display elements on the TS PSAM module On this topic see also Figure 4 2 Three light emitting diodes LEDs are located on the front of the TS PSAM module to show the current status of the module These LEDs have
9. 8 Analog Stimulus and Measurement Module TS PSAM 1 2 3 Features of the TS PDC module The TS PDC module is used as an floating DC voltage source for the TS PSAM module It is configured with two identical DC DC converters The following floating direct voltages are obtained from an input voltage of 5 VDC 15 VDC 5 0 5A 2x 15 VDC 5 0 5A 2x 5 VDC 5 0 5A 2x 3 3 VDC 595 0 25A 2x 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM View 2 View Figure 2 2 shows the TS PSAM module without the associated TS PDC rear I O module The TS PDC rear I O module is shown in Figure 2 2 Figure 2 1 View of the TS PSAM module 2 1 ROHDE amp SCHWARZ View Analog Stimulus and Measurement Module TS PSAM IPC 1157 980402 t Figure 2 2 View of the TS PDC rear I O module 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ Blockdiagram 3 Block diagrams Figure 3 1 shows the block diagram of the TS PSAM module and Fig ure 3 2 shows the block diagram of the TS PDC module Figure 3 3 is a simplified functional block diagram of both modules in the Com pactTSVP S a1 a2 bi b2 c1 c2 di d2 Analog Bus AB 8 E E j o X N PN J E DCH L DCH
10. ROHDE amp SCHWARZ Specifications Range Resolution Input Accuracy Accuracy characteristics averaged 1 4 unaveraged 1 5 1 UA 0 04 nA 2 0 2 2nA 0 2 100 nA 2 pA 0 08 nA 2 0 2 4 0 2 100 nA 5 0 2 2 0 2 10 0 2 100 nA 10 pA 0 4 nA 2 0 1 10nA 0 1 300 nA 20 pA 0 8nA 2 0 1 20 nA 0 1 300 nA 50 2nA 2 0 1 50nA 0 1 300 nA 100 UA 4 2 0 1 100 nA 0 1 500 nA 200 pA 8 2 0 1 200 nA 0 1 500 nA 500 UA 20 nA 2 0 1 500 nA 0 1 1000 nA 1 mA 40 nA 2 0 1 1000 nA 0 1 2000 nA 2mA 80 nA 2 0 1 2000 nA 0 1 4000 nA 5 mA 0 2 uA 2 0 1 5 pA 0 1 10 pA 10 mA 0 4 uA 2 0 1 10 pA 0 1 20 20 0 8 uA 2 0 1 20 0 1 40 50 2 UA 2 0 1 50 uA 0 1 100 pA 100 4ygA 2 0 1 100 0 1 200 pA 200 8ypA 3 0 5 200 pA 0 5 400 500 20 3 0 5 500 pA 0 5 1000 1 40 pA 3 0 5 1000 pA 0 5 2000 pA 1 Accuracy of read value absolute value Temperature coefficient 0 1 accuracy C 2 active current measurement with a current voltage amplifier 3 0 5 Shunt 4 averaged over 100 sampling points measuring time 20 ms 400 Hz filter 5 Signal recording 1 8 k sampling points unaveraged 40 kHz filter 10 3 ROHDE amp SCHWARZ Specifications Analog Stimulus and Measurement Modu
11. Stimulus and Measurement Module TS PSAM 10 1 2 Measurement unit Signal sampling rate 200 kHz max Memory 8 k sampling points Triggers PXI bus signal with programmable threshold 10 1 2 1 Voltage Range Resolution Input Accuracy Accuracy characteristics averaged 1 2 unaveraged 1 3 10 mV 4 0 4 uV 2100 MQ 0 02 80 UV 0 02 150 uV 20 mV 4 0 8 2100 MQ 0 02 80 pV 0 02 150 uV 50 mV 4 2 uV 2100 MQ 0 02 80 UV 0 02 150 uV 100 mV 4 uV 2100 MQ 0 02 100 uV 0 02 200 UV 200 mV 8 uV 2100 MQ 0 02 100 pV 0 02 200 uV 500 mV 20 uV 2100 MQ 0 02 100 uV 0 02 250 UV 1V 40 uV 2100 MQ 0 02 160 UV 0 02 400 uV 2 V 80 2100 MO 0 02 320 uV 0 02 800 uV B V 0 2 mV 2100 MQ 0 02 0 8 mV 0 02 1 6 mV 10 V 0 4 mV 2100 MQ 0 02 1 6 mV 0 02 3 2 mV 20 V 0 8 mV 10 MQ 0 02 3 2 mV 0 02 6 4 mV 50 V 2 mV 10 MQ 0 02 8 mV 0 02 16 mV 100 V 4 mV 10 MQ 0 02 16 mV 0 02 32 mV 200 V 5 8mV 10 MQ 0 02 64 mV 0 02 128 mV 1 Accuracy of read value absolute value Temperature coefficient 0 1 accuracy C 2 averaged over 100 sampling points measuring time 20 ms 400 Hz filter 3 Signal recording 1 8 k sampling points unaveraged 40 kHz filter 4 ground connected 5 max input voltage 125 V m 10 2 S 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM 10 1 2 2 Current
12. accuracy C B CS 4 wire current applied voltage measured V 2 wire voltage applied current measured VS 4 voltage applied current measured 10 8 6th Issue 11 05 6th Issue 11 05 10 1 3 Discharge circuit ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM max input voltage 125V Overvoltage protection up to 200 V DC max discharge current 400 mA typ 10 1 4 Analog bus and relay multiplexer Analog bus access 8 buses Relay scanner 2 x 4 to 1 multiplex ers max DC AC voltage 125 125 rm Specifications max current 1A 1A ms Max switching capacity 10W 10 VA 10 1 5 General Data Power consumption 5V 5 8A 3 3 V 0 2 A 30 W max inc TS PDC EMC according to EMC Directive 89 336 EEC and Standard EN61326 Safety CE EN61010 Part 1 Mechanical strength Vibration test sinusoidal Sinus 5 Hz 55 Hz Sinus 55 Hz 150 Hz 2 g MIL T 28800D class 5 0 5 g MIL T 28800D class 5 Vibration test random 10 Hz 300 Hz 1 2g Shock test Classes 3 and 5 40 g MIL STD 810 10 9 ROHDE amp SCHWARZ Specifications 10 10 Analog Stimulus and Measurement Module TS PSAM Heat resistance e Nominal temperature range Operating temperature range e Storage temperature range e Humidity 5 40 0 50 40 70
13. max Current limit ranges 100 mA 10 mA 1 mA 0 1 mA 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ Resistance measurement With the DC Stimulus DCS and current measurement unit MU re sistances can be measured in the following ways Aknown DC voltage Vs is applied to the resistor that is to be meas ured and the resulting current Ix is measured with the MU Aknown DC current Is is applied to the resistor via the DCS and the resulting drop in voltage Vx at the resistor is measured with the MU 5 1 2 Discharge unit DCH DCH Discharge Unit The discharge unit is provided to enable the controlled discharge of ca pacitors on the UUT to prevent the circuit relays in the test system from being irreparably damaged or the UUT from becoming charged as a re sult of the test procedure For this purpose a constant discharge cur rent is generated with an active current limiter The circuit is protected against overload by an integrated heat cutout The residual voltage af ter discharge is typically less than 100 mV The DCH can be connected to the local analog bus via relays In order to minimize loading on the circuit relays the circuit path should be set first before the DCH is activated Specifications Discharge current ranges 400 mA 275 mA 150 mA and 10 mA typical Discharge mode Constant current Maximum voltage 125 VD
14. 0 kHz max FIFO 8k AC voltage measurement AC voltage is measured using an RMS to DC converter AC voltage that is present at the inputs is converted to a DC output voltage that is proportional to the real RMS value of the input signal The converted DC output voltage is processed by the A D converter DC current measurement The measurement unit for current is capable of taking readings in a range from a few hundred nanoamperes to a 1 A It can be switched into the 8 wire analog bus without limitation through a full matrix Cur rents larger than 100 mA are measured using a shunt resistor On the other hand currents smaller than 100 mA are measured actively using a current voltage converter I U converter AC current measurement The AC current is converted to an AC voltage using a shunt or I U con verter the AC voltage is converted to a DC voltage with an RMS to DC converter and the DC voltage is processed by the A D converter DC stimulus source DCS DCS DC Source The DCS is a potentialless programmable DC voltage source with ad justable current limiting and sense wires for compensating voltage drops in circuits to the load Depending on the test requirements it can function either in voltage mode or in current limiting mode DC stimulus source specification Voltage mode Voltage range 0 5 V Current 0 100 mA max Current limiting mode Voltage range 0 1 V 5 V
15. 23 24 GND GND GND 25 GND 26 GND GND GND 27 AUX1 GND AUX2 28 GND GND GND 29 XTO1 GND XTO2 30 XTI1 GND XTI2 31 GND GND GND 32 GND GND CHA GND Table 9 1 Pin assignment for connector X10 The CHA GND signal is connected to the front panel of the TS PSAM The front panel is capacitively coupled to GND 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Interface description 9 1 2 Connector X20 Extension Connector FEDCBAZ Figure 9 2 Connector X20 mating side EIE MEE GNU EUER ND CNN NEC 2212 2 2 2 2 2 2 2 gt lt N C T R Table 9 2 Pin assignment for connector X20 ROHDE amp SCHWARZ Interface description Analog Stimulus and Measurement Module TS PSAM 9 1 3 Connector X30 Analog Bus Connector o e o e o em OOO OO O C 0 0 000000 9 Figure 9 3 Connector X30 mating side D A 7 IL2 IL1 6 GND 9 ABC1 1 4 1 3 ABC2 ABB2 2 ABA2 1 ABD2 ABD1 Table 9 3 Pin assignment for connector X30 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ 9 1 4 Connector X1 cPCI Bus Connector FEDCBAZ Figure 9 4 Connector X1 mating side Pn F BAZ
16. 5 1 25 mA 20 kHz 50 kHz 2 5 1 25 mA 500 mA 20Hz 50Hz 2 5 2 50 mA 50 Hz 10 kHz 1 0 2 50 mA 10 kHz 20 kHz 1 5 2 50 mA 20 kHz 50 kHz 2 5 2 50 mA 1A 20 Hz 50 Hz 2 5 5mA 50 Hz 10 kHz 1 0 5 mA 10 kHz 20 kHz 1 5 5 mA 10 7 ROHDE amp SCHWARZ Specifications Analog Stimulus and Measurement Module TS PSAM Range Frequency range Accuracy 1 20 kHz 50 kHz 2 5 5 mA 1 Accuracy of the read value absolute value Temperature coefficient 0 1 Accuracy C averaged over 100 sampling points measuring time 20 ms 40 kHz filter 10 1 2 4 Resistance measurement Resistance measurements are taken with the aid of the DC voltage source and the measurement unit 2 and 4 wire measurements are possible Either of two different methods may be used depending n the range Range Accuracy Operating Voltage source Current source mode 3 0 10 10 1 5 2 CS 0 5 V max 100 mA 10 100 0 5 1 CS 0 2 V max 10 mA 10 100 Q 0 5 1 VS 0 2V 25 mA max 100 Q 1 KQ 0 5 1 VS 0 2V 2 5 mA max 1 10 0 5 1 V 0 2V 1 mA max 10 100 KQ 1 1 V 0 2V 0 1 mA max 100 kQ 1 MO 1 1 V 1V 0 1 mA max 1 MO 10 MO 1 11 V BV 0 1 mA max 1 Accuracy of read value Temperature coefficient 0 1 accuracy C 2 Accuracy of read value absolute value Temperature coefficient 0 1
17. C Discharge residual voltage lt 100 mVDC Discharge power average 2 W max Overvoltage protection 200 VDC max Overload protection Thermal sensor Functiondescription ROHDE amp SCHWARZ Function description 5 4 Analog Stimulus and Measurement Module TS PSAM 5 1 3 Trigger logic On this topic see also Figure 5 2 The TS PSAM module can be synchronized with other system compo nents by trigger signals from the PXI trigger bus or by local trigger events or software triggers In all such events the TS PSAM module can function as a trigger master or a trigger slave Trigger inputs The internal FPGA Hardware uses the global trigger input signals from the PXI trigger bus PXI TRIGO PXI TRIG7 and the local TTL trig ger inputs on the front connector XTI1 XTI2 In addition the trigger signals XTA1 XTA2 derived from the analog input signal and the four internal feedback trigger circuits of the trigger logic blocks IT01 IT04 are all used to detect a trigger event The signals to be consid ered and their levels high low are selected in configuration registers Trigger logic blocks The FPGA contains four independently functioning trigger logic blocks for generating complex trigger sequences 1 Multiple trigger pulses with various delay periods and the same time reference 2 Cascade triggers 3 Multiple trigger pulses with adjustable duty factor 4 Trigger log
18. HI Ee c c lt pes DCS HI a P 2 Ne 2 J DCS SHI Y _ H LN Pd X A Nu eT RN K DCS SLO E Pa SENSE PUN UON ET E uw CA AJ DCS LO ela Aa l l s S 2 f N Z K N KJ N 19 MU MU HI MU SHI x r MU SLO 8 c MU LO MIN IS p E 1 la A WFP Local 5 WP Analog Bus C Isolation LAB XTA1 XTA2 a1 a2 bi b2 c1 c2 di d2 G x XTO1 XTO2 PXI_TRIG7 rigger 99 XTI1 XTI2 L AUX1 AUX2 e N X 5 o c c o o o GAO GA4 1 S gt Geographic G Addressing lt p SPI Interface CPCI Bus Connector X1 CPCI gt Interface eo RBCH4 RBCOM GND GND CHA GND Figure 3 1 Block Diagram of TS PSAM ROHDE amp SCHWARZ Block diagram Analog Stimulus and Measurement Module TS PSAM ON OFF primary DC Transducer Regulator Regulator 2 Figure 3 2 Block Diagram of TS PDC CompactTSVP 2 le 7 Analog la Coupling Bus X Relays TE 22 TS PSAM TS PDC is PXI Trigger __ e Floating DC Source 8 Intarf ca N e DC A 5 xi gt lt T Rela Supply y o i m Measurement Unit S x Matrix Control CL Discharge Unit Logic Floating PCI Relay DC Multiplexer ME x Supply HI Figure 3 3 Functional block diagram of TS PSAM with TS PDC in the CompactTSVP 6th Issue 11 05
19. I O module 2 2 Figure 3 1 Block Diagram of TS PSAM sese essere ennenen enne 3 1 Figure 3 2 Block Diagram of 3 2 Figure 3 3 Functional block diagram of TS PSAM with TS PDC the LR lt T Te Tod SVP ew T 3 2 Figure 4 1 Arrangement of connectors and LEDs on the TS PSAM module 4 1 Figure 4 2 Arrangement of LEDs on the TS PSAM module 4 3 Figure 4 3 Arrangement of the connector and LEDs on the TS PDC module 4 4 Figure 4 4 Arrangement of LEDs on the TS PDC module 4 5 Figure 5 1 Block Diagram of TS PSAM sese essere ennenen eenn 5 5 Figure 5 2 Block Diagram of the Trigger Hardware 5 6 Figure 5 3 Block Diagram of 5 7 Figure 7 1 Soft Panel Tl S P SAM mm 7 2 Figure 9 1 Connector X10 mating 9 1 Figure 9 2 Connector X20 mating Side eee 9 3 Figure 9 3 Connector X30 mating 9 4 Figure 9 4 Connector X1 mating side eeeeeeeeees 9 5 Figure 9 5 Connector X20 TS PDC mating 9 6 ROHDE amp SCHWARZ Figures Analog Stimulus and Measurement Mo
20. Production and Sale of Communication Equipment Installations and systems Design and Development Production Sales Services of Electronic Measurement and Communication Equipment and Systems Design and Development Production Sales Services of Electronic Measurement and Communication Equipment and Systems Design and Development Production Sales Services of Electronic Measurement and Communication Equipment and Systems Design and Development Production Sales Services of Electronic Measurement and Communication Equipment and Systems This annex as of 2005 01 24 is only valid in connection with the above mentioned certificate Support Center Telephone Europe 49 180 512 42 42 Telephone worldwide 49 89 4129 13774 Fax 49 89 4129 13777 e mail customersupport rohde schwarz com If you have any technical queries about this Rohde amp Schwarz equipment our Hotline at the Support Center of Rohde amp Schwarz Sales GmbH will be glad to help Our team will discuss your queries and look for solutions to your problems The Hotline is open Mondays to Fridays from 08 00 to 17 00 hrs For queries outside office hours you can leave a message or send a note via fax or email We will then get back to you as soon as possible amp ROHDE amp SCHWARZ 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM Content 1 Usage 1 1 General 1 2 Features of the TS PSAM 1 2 1 Hardware Components 1 2 2 App
21. ane connectors module is correctly located when a distinct stop can be felt Tighten the two retaining screws on the front panel of the module WARNING Install the associated TS PDC rear I O module as described in Section 6 2 Commissioning 6 1 ROHDE amp SCHWARZ Commissioning Analog Stimulus and Measurement Module TS PSAM 6 2 Installing the TS PDC Module To install the plug in module proceed as follows e TS PSAM module must have been installed beforehand Select the corresponding rear I O slot for the TS PSAM module Remove the corresponding rear panel portion from the Com pactTSVP chassis by loosening the two screws WARNING Check the backplane connectors for bent pins Any bent pins must be straightened Failure to do this may permanently damage the backplane Pushin the plug in module using moderate pressure WARNING To insert the plug in module use both hands to guide carefully into the backplane connectors 6 2 module is correctly located when a distinct stop can be felt Tighten the two retaining screws on the front panel of the module 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM 7 Software 7 1 Driver Software ROHDE amp SCHWARZ A LabWindows IVI DMM driver is provided for the DMM functions on the card All other ha
22. ciated TS PDC rear I O module This is inserted in the appropriate rear slot in the back of the device same slot number as TS PSAM The TS PSAM module is inserted in the front of the CompactTSVP chassis It is based on the cPCI PXI standard The front connector ends flush with the front panel of the Com pactTSVP chassis and is used for contacting the test products or meas urement sensors At the back the TS PSAM module is connected to the cPCI control bus and the PXI trigger bus Instead of using the front connector analog measurement signals can be captured via the Com pactTSVP s analog measuring bus A LabWindows IVI DMM driver is provided for the DMM functions on the card All other hardware functions are controlled using specific ex tensions of the driver As is typical for a LabWindows CVI driver Func tion Panels and Online Help are available Usage ROHDE amp SCHWARZ Usage 1 2 Analog Stimulus and Measurement Module TS PSAM 1 2 Features of the TS PSAM 1 2 1 Hardware Components The TS PSAM modules includes a ground connected discharge circuit an floating programmable voltage source and an floating measure ment unit These components can be switched into the Com pactTSVP s analog bus via a relay matrix Measuring tasks can be syn chronized using triggered measurements across the PXI bus and the trigger inputs on the front connector Two relay multiplexers with four channels each are also provided The majo
23. confirmed the TS PDC module must be replaced 8 3 TSVP Self Test The TSVP self test runs an in depth test on the module and generates a detailed log This is done with the Self Test Support Library The TS PSAM module is used as a measurement unit of R amp S modules in the TSVP The correct operation of the modules is ensured by meas urements on the analog bus NOTE You will find information about starting the self test and on the sequence of necessary steps in the GTSL soft ware description or the GTSL on line help 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM 9 Interface description Below the interface description for the TS PSAM module and the TS PDC module is shown ROHDE amp SCHWARZ Interface description 9 1 Interface description for TS PSAM 9 1 1 Connector X10 Front Connector 32 Figure 9 1 Connector X10 mating side ABC Pin A C 1 LABA1 GND LABA2 2 LABB1 GND LABB2 3 LABC1 GND LABC2 4 LABD1 GND LABD2 5 GND GND GND Table 9 1 Pin assignment for connector X10 9 1 ROHDE amp SCHWARZ Interface description Analog Stimulus and Measurement Module TS PSAM Pin A B C D IL1 GND IL2 7 GND GND GND 8 9 RACH1 RBCH1 10 RACH2 RBCH2 11 RACH3 RBCH3 12 RACH4 RBCH4 13 RACOM RBCOM 14 15 16 17 18 19 20 21 22
24. dently of one another In the in circuit test ICT the TS PSAM module performs the following measuring tasks Discharging capacitors 2 and 4 wire resistance measurements Figure 1 1 to Figure 1 4 Contact test Short circuit test Connection test ROHDE amp SCHWARZ Usage Analog Stimulus and Measurement Module TS PSAM 1 2 2 1 Examples of use On this topic see also Figure 1 1 to Figure 1 4 Resistance measurements are taken with the aid of the DC voltage source and the measurement unit 2 and 4 wire measurements are possible Two different procedures may be followed depending on the resistance value to be measured If necessary the source can be con nected to GND Mode C for small resistances In this method a constant current is applied and the voltage is measured see Figure 1 1 and Figure 1 2 HI e e LO e e e Figure 1 1 Cross connection for 2 wire resistance measuring in Mode C H Ps SHI DCS MU R SLO 11 LO Ry Figure 1 2 Cross connection for 4 wire resistance measuring in Mode C 1 4 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Usage Mode V for large resistances In this method the voltage is applied and the current is measured see Figure 1 3 and Figure 1 4 HI DCS
25. dule TS PSAM 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM Tables Table 4 1 Connectors the TS PSAM module Table 4 2 LEDs the TS PSAM module Table 4 3 Connector for the TS PDC module Table 4 4 Display elements on the TS PDC module Table 7 1 Driver InstallationTS PSAM Table 8 1 Statements about the LED Table 8 2 Statements about the power on test Table 9 1 Pin assignment for connector X10 Table 9 2 Pin assignment for connector X20 Table 9 3 Pin assignment for connector X30 Table 9 4 Pin assignment for connector X1 Table 9 5 Pin assignment for connector X20 TS PDC ROHDE amp SCHWARZ Tables ROHDE amp SCHWARZ Tables Analog Stimulus and Measurement Module TS PSAM 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ 1 Usage 1 1 General The TS PSAM Analog Stimulus and Measurement Module is a meas urement module for the CompactTSVP Test System Versatile Plat form universal test platform The module is used to perform analog measuring tasks in circuit measurements and the CompactTSVP self test The module s floating DC supply voltage is provided via the asso
26. e Utility Options Help 5 00E 0 2 50E 0 0 00 0 2 50 0 5 00 0 3 Scaling Filter Measurement Function Range Bipolar range 0 400 kHz DC Volt AutoRange Sample Interval ms Buz Sample Count 1 8192 Trigger 0 0050 fi Continuous Figure 7 1 Soft PanelTS PSAM 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Software 7 3 TS PSAM Programming Example Simple voltage measurement with TS PSAM include rspsam h main ViSession handle ViReal64 result rspsam InitWithOptions PXI1 14 0 1NSTR VI TRUE VI TRUE amp handle rspsam Connect handle DMM HI ABal rspsam Connect handle DMM LO ABc1 rspsam ConfigureMeasurement handle RSPSAM VAL DC VOLTS RSPSAM VAL AUTO RANGE ON 0 0001 rspsam Read handle 5000 amp result rspsam close handle 7 3 ROHDE amp SCHWARZ Software Analog Stimulus and Measurement Module TS PSAM 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Self Test 8 Self Test The Analog Stimulus and Measurement Module TS PSAM has inte grated self test capability The following tests are possible N LED Test N Power on test N TSVP self test 8 1 LED Test When the device is switched on all three LEDs are lit for about one sec ond Thi
27. ic blocks 3 and 4 are reserved for internal use DCS ADC blocks1 and 2 are available to the user Trigger outputs The outputs from the trigger logic blocks can be switched to the trigger outputs on the front connector XTOXx and to the PXI trigger bus PXI_TRIGx The polarity of the trigger signal is programmable The trigger output signals are TTL compatible and are buffered using driver circuits 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Functiondescription 9 M Analog Bus AB ai a2 bi b2 ci c2 d d2 8 O Meu L Nou Nos Nul NL o 2 a DCH DCH HI 5 e lt BES DCS HI Tant DCS SHI x toi DCS SLO ESOC Ke ANAN DCS_LO e H X P 2 ed P UNS f X Ne MU OX 4 MU Su o gt x MU_SLO 5 MU LO AMAN AK L S Cer T Ta T ay 8 N No Toga 5 L y Analog Bus Isolation LAB XTA4 XTA2 ai a2 bi b2 ci c2 d d2 PXI_TRIGO PXI TRIG7 XTO1 XTO2 m Trigger XTM XTI2 lt AUX1 AUX2 e N 5 c E o E GAO GA4 T Geographic Addressing lt gt SPI Interface a RBCH e VRBCH2 CPCI bd 14 gt Interface e RBCH3 3 RBCH4
28. justment 10 1 1 2 Current limiting 10 1 2 Measurement unit 10 1 2 1 Voltage 10 1 2 2 Current 10 1 2 3 RMS value measurement 10 1 2 4 Resistance measurement 10 1 3 Discharge circuit 10 1 4 Analog bus and relay multiplexer 10 1 5 General Data 10 2 Technical Specifications for the TS PDC Module 10 2 1 Electrical Specifications 10 2 2 General Data 8 2 8 2 9 1 9 1 9 1 9 3 9 4 9 5 9 6 9 6 10 1 10 1 10 1 10 1 10 1 10 2 10 2 10 3 10 4 10 8 10 9 10 9 10 9 10 10 10 10 10 10 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Figures Figures Figure 1 1 Cross connection for 2 wire resistance measuring in Mode 1 4 Figure 1 2 Cross connection for 4 wire resistance measuring in Mod E suoni MEUM UNAM EM DIM ME DEUM dE 1 4 Figure 1 3 Cross connection for 2 wire resistance measuring 00 eee 1 5 Figure 1 4 Cross connection for 4 wire resistance measuring IN 3 MC 1 5 Figure 1 5 Cross connection in a guarded resistance measurement INI 1 6 Figure 1 6 Cross connection in a guarded impedance measurement 2 1 7 Figure 2 1 View of the TS PSAM 2 1 Figure 2 2 View of the TS PDC rear
29. le TS PSAM 10 1 2 3 RMS value measurement The accuracy measurements apply only for sinus signals in the fre quency range from 20 Hz to 50 kHz This accuracy is only achieved if the input level is at least 1096 of the measurement range final value 10 1 2 3 1 AC voltage 6th Issue 11 05 Range Frequency range Accuracy 1 20 mV 20Hz 50Hz 2 5 100 uV 50 Hz 10 kHz 1 0 100 pV 10 kHz 20 kHz 1 5 100 pV 20 kHz 50 kHz 2 5 100 uV 50 mV 20 Hz 50 Hz 2 5 150 UV 50 Hz 10 kHz 1 0 150 UV 10 kHz 20 kHz 1 5 150 UV 20 kHz 50 kHz 2 5 150 UV 100 mV 20 Hz 50 Hz 2 5 200 uV 50 Hz 10 kHz 1 0 200 uV 10 kHz 20 kHz 1 5 200 UV 20 kHz 50 kHz 2 5 200 uV 200 mV 20 Hz 50 Hz 2 5 500 50 Hz 10 kHz 1 0 500 pV 10 kHz 20 kHz 1 5 500 UV 20 kHz 50 kHz 2 5 500 500 mV 20 Hz 50 Hz 2 5 500 50 Hz 10 kHz 1 0 500 pV 10 kHz 20 kHz 1 5 500 pV 20 kHz 50 kHz 2 5 500 1V 20 Hz 50 Hz 2 5 1mV 10 4 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ Specifications Range Frequency range Accuracy 1 50 Hz 10 kHz 1 0 1 mV 10 kHz 20 kHz 1 5 1 mV 20 kHz 50 kHz 2 5 1mV 2V 20 Hz 50 Hz 2 5 2 5 mV 50 Hz 10 kHz 1 0
30. lications 1 2 2 1 Examples of use 1 2 2 2 Expanded applications 1 2 3 Features of the TS PDC module 2 View Block diagrams 4 Layout 4 1 Mechanical construction of the TS PSAM 4 2 Display elements on the TS PSAM module 4 3 Mechanical construction of the TS PDC 4 4 Display elements of the TS PDC module 5 Function Description 5 1 Function description of the TS PSAM module 5 1 1 Primary matrix and analog measuring bus 5 1 2 Discharge unit DCH 5 1 3 Trigger logic 5 2 Function Description of the TS PDC Module 6 Commissioning 6 1 Installing the TS PSAM Module 6 2 Installing the TS PDC Module 7 Software 7 1 Driver Software 7 2 Soft Panel 7 3 TS PSAM Programming Example 8 Self Test 8 1 LED Test ROHDE amp SCHWARZ Content 1 1 1 1 1 2 1 2 1 3 1 4 1 6 1 8 2 1 3 1 4 1 4 1 4 3 4 4 4 5 5 1 5 1 5 1 5 3 5 4 5 7 6 1 6 1 6 2 7 1 7 1 7 2 7 3 8 1 8 1 ROHDE amp SCHWARZ Content 10 Analog Stimulus and Measurement Module TS PSAM 8 2 Power on test 8 3 TSVP Self Test Interface description 9 1 Interface description for TS PSAM 9 1 1 Connector X10 Front Connector 9 1 2 Connector X20 Extension Connector 9 1 3 Connector X30 Analog Bus Connector 9 1 4 Connector X1 cPCI Bus Connector 9 2 Interface description for TS PDC 9 2 1 Connector X20 Extension Connector Specifications 10 4 Technical Specifications for the TS PSAM Module 10 1 1 DC voltage source 10 1 1 1 Voltage ad
31. lied via these pins or pins from 1 for backplanes V1 x to V4 x TS PDC V1 1 and V1 2 GND for version V1 3 NC Not Connected Table 9 5 Pin assignment for connector X20 TS PDC 9 7 ROHDE amp SCHWARZ Interface description 9 8 Analog Stimulus and Measurement Module TS PSAM 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Specifications 10 Specifications NOTE In the event of any discrepancies between data in this manual and the technical data in the data sheet the data sheet takes precedence 10 1 Technical Specifications for the TS PSAM Module 10 1 1 DC voltage source 10 1 1 1 Voltage adjustment Output voltage 5V to 5V Resolution approx 200 uV Accuracy 1 0 2 5 mV Maximum output current 100 mA Source impedance see Current limiting 1 Accuracy of adjustment value absolute value Temperature coefficient 0 1 accuracy C 10 1 1 2 Current limiting Range Resolution Accuracy Output characteristics 1 Sense wires not cross connected 100 pA 2nA 0 25 1 uA max 10 30 HA 1 mA 20 nA 0 25 5 uA max 1 300 pA 10 mA 200 nA 0 25 50 pA max 100 Q 3 mA 100 mA 2 pA 0 25 100 100 1 Accuracy in of adjustment value absolute value Temperature coefficient 0 1 accuracy C 10 1 ROHDE amp SCHWARZ Specifications Analog
32. ncorrectly e g cPCI PXI standard mod ules in the front both modules may be damaged irreparably 5e LEDs TS PDC Figure 4 3 Arrangement of the connector and LEDs on the TS PDC module Symbol Use X20 Extension Rear I O Table 4 3 Connector for the TS PDC module 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Layout 4 4 Display elements of the TS PDC module On this topic see also Figure 4 4 Eight light emitting diodes LEDs are located on the front of the TS PDC module to show the current status of the generated supply voltag es The individual LEDs have the following meanings GO O On EGAR Figure 4 4 Arrangement of LEDs on the TS PDC module LED Description 1 lights up 15 VDC DCS present 2 lights up 5 VDC DCS present 3 lights up 3 3 VDC DCS present 4 lights up 15 VDC DCS present 5 lights up 15 VDC MU present 6 lights up 5 VDC MU present 7 lights up 3 3 VDC MU present 8 lights up 15 VDC MU present Table 4 4 Display elements on the TS PDC module 4 5 ROHDE amp SCHWARZ Layout 4 6 Analog Stimulus and Measurement Module TS PSAM 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Functiondescription 5 Function Description 5 1 Function description of the TS PSAM module On this to
33. pic see also Figure 5 1 and Figure 5 2 5 1 1 Primary matrix and analog measuring bus On this topic see also Figure 5 1 The stimulus and measurements can be cross connected in any per mutation through a full matrix to a local analog bus 8 wires LABx The discharge circuit can only be connected to wires a1 and a2 Cross con nection to the TSVP s analog measuring bus is possible via separate bus coupling relays Configuration relays The following relays are used for internal configuration e Ground relays MU and DCS configuration relays Voltage and current measurement unit MU MU Measurement Unit AC and DC voltages and currents are measured with the MU Both MU inputs can be switched into the local 8 wire analog bus via the full ma trix DC voltage measurement The DC voltage measurement unit MU is a floating measuring device with programmable pre filtering and adjustable input voltage ranges Analog Digital conversion is performed with a serial A D converter whose output data are stored in a FIFO memory Low Pass Filter 3 dB MU 4 ranges 400 Hz 4 kHz 40 kHz Filter 100 kHz the same applied for cur rent measurements Voltage ranges see specifications Overvoltage protection 200 V max Analog bandwidth 3 dB 2500 kHz ROHDE amp SCHWARZ Function description 5 2 Analog Stimulus and Measurement Module TS PSAM converter Resolution 16 bit sampling rate 20
34. poten tials and rectified to the nominal voltage by line controllers The status of the output voltage is displayed in each case by an LED The following DC voltages are generated 15 VDC 0 5A 2x 15 VDC 0 5A 2x 5 VDC 0 5A 2x 3 3 VDC 0 25A 2x GND gt ON OFF UNE MT RR E Regulator 1 primary DC Transducer Regulator 2 Figure 5 3 Block Diagram of TS PDC 5 7 ROHDE amp SCHWARZ Function description 5 8 Analog Stimulus and Measurement Module TS PSAM 6th Issue 11 05 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ 6 Commissioning 6 1 Installing the TS PSAM Module To install the plug in module proceed as follows Power down and switch off the CompactTSVP e Select a suitable front slot slots 5 15 possible preferably slot 8 TS PSAM should be connected to slot 8 and TS PICT to slot 9 for an in circuit test configuration Remove the corresponding front panel portion from the TSVP chassis by loosening the two screws WARNING Check the backplane connectors for bent pins Any bent pins must be straightened Failure to do this may permanently damage the backplane Apply moderate pressure to insert the plug in module use locating pin to attach WARNING To insert the plug in module use both hands to guide carefully into the backpl
35. r features of these three function blocks will be explained in detail in the following section floating DC voltage source DCS adjustable voltage and current limiting 5 V 100 mA max fast settling time four quadrant operation sense wires floating measurement unit MU Measurement range DC 10mV 125V 1 1 Measurement range AC ms 20mV 125V e 100HA 1A triggered measurements across the PXI Triggerbus 2 triggers derived from the measurement signal with program mable threshold 4 filters 16 bit converter Sampling rate 200 kHz max Single or multipoint measurement with storage depth up to 8 k samples Discharge circuit DCH Discharge current 400 mA max Discharge voltage 125V max 6th Issue 11 05 6th Issue 11 05 ROHDE amp SCHWARZ Analog Stimulus and Measurement Module TS PSAM Usage 1 2 2 Applications On this topic see also Figure 1 1to Figure 1 6 The module is used to perform analog measuring tasks in circuit measurements and the CompactTSVP self test In these tests the module functions as a measuring device with adjustable sampling rate for voltage current and resistance measurements The measurement unit and the adjustable DC voltage source are cross connected with each other in a suitable manner for measuring resistance If necessary the source can also be connected with GND The measurement unit and the DC voltage source can also be operated indepen
36. rdware functions are controlled using specific ex tensions of the driver The driver is part of the ROHDE amp SCHWARZ GTSL software All the functions of the driver are described fully in the on line help and in the LabWindows CVI Function Panels The following software modules are installed during driver installation Module Path Remarks rspsam dll lt GTSL Directory gt Bin Driver rspsam hlp lt GTSL Directory gt Bin Help file rspsam fp lt GTSL Directory gt Bin LabWindows CVI Function Panel File Function Panels for CVI Development En vironment rspsam sub lt GTSL Directory gt Bin LabWindows CVI Attribute File This file is needed by some Function Panels rspsam lib lt GTSL Directory gt Bin Import Library rspsam h lt GTSL Directory gt Include Header File for the Driver Table 7 1 Driver InstallationTS PSAM The IVI and VISA libraries produced by National Instruments are needed to run the driver Software 7 1 ROHDE amp SCHWARZ Software Analog Stimulus and Measurement Module TS PSAM 7 2 7 2 Soft Panel On this topic see also Figure 7 1 A soft panel TS PSAM is provided for the module The soft panel is based on the LabWindows CVI driver It enables the measurement module to be operated interactively The measurement values are out put in digital or graphical format Multipoint Measurements TS PSAM PXI1 10 INSTR E File Configur
37. s indicates that the 5 V supply voltage is present and all LEDs are working also that the power on test was successful The following statements can be made about the different LED statuses in this pow er on phase LED Description One LED Hardware problem on the module does notlight LED faulty up No LED s No 5 supply light up Table 8 1 Statements about the LED Test NOTE If diagnostics suggest a problem with the supply voltage the LEDs for the associated rear I O module TS PDC must be in spected visually If a supply voltage failure is confirmed the TS PDC module must be replaced ROHDE amp SCHWARZ Self Test 8 2 Analog Stimulus and Measurement Module TS PSAM 8 2 Power on test The power on test runs at the same time as the LED test In this test the result of the FPGA loading process is calculated The following statements can be made about the different statuses of the red and green LEDs LED Description Green LED all supply voltages present on green LED at least one supply voltage from TS PSAM module off or the TS PDC module is not present red LED off no errors were detected red LED on The FPGA uP was not successfully loaded Table 8 2 Statements about the power on test NOTE If diagnostics suggest a problem with the supply voltage the LEDs for the associated rear I O module TS PDC must be in spected visually If a supply voltage failure is
38. scher D 60433 Frankfurt am Main August Schanz Straf e 21 B E s 1 AE L Z CR DZ Wee Se TGA 24 02 90 KBA ZM A 00023 95 Appendix to Certificate Registration No 001954 QM ST Rohde amp Schwarz GmbH amp Co KG M hldorfstrasse 15 D 81671 M nchen The international and German Road Traffic Law was audited regarding the following approval objects No 22 Electrical Electronic Sub Assembly This appendix as of 2005 01 24 is only valid in connection with the above mentioned certificate Annex to Certificate Registration No 001954 QM ST Rohde amp Schwarz GmbH amp Co KG M hldorfstrasse 15 D 81671 M nchen Organizational unit site ROHDE amp SCHWARZ GmbH amp Co KG Service Centre Cologne ROHDE amp SCHWARZ Systems GmbH Graf Zeppelin Strasse 18 D 51147 K ln Rohde amp Schwarz FTK GmbH Wendenschlofstrasse 168 D 12557 Berlin Rohde amp Schwarz GmbH amp Co KG Kaikenrieder Strasse 27 D 94244 Teisnach Rohde amp Schwarz z vod Vimperk s r o Spidrova 49 CZE 38501 Vimperk Tschechische Republik Rohde amp Schwarz GmbH amp Co KG M hldorfstrasse 15 81671 M nchen Rohde amp Schwarz Messger tebau GmbH Riedbachstrasse 58 D 87700 Memmingen Scope Technical services in the field of measuring communication techniques maintenance repair calibration training technical documentation Development production systems Design and Development
39. the following meanings Fault Communication gt DC supply UB TS PSAM x20 x10 Figure 4 2 Arrangement of LEDs on the TS PSAM module LED Description red Fault condition ERR Lights up when a fault is detected on the TS PSAM module during the power on test after the supply voltage is switched on This means that there is a hardware problem on the module see also Section 8 Self test yellow Communication COM Lights up when data is exchanged across the inter face green Supply voltage OK PWR Lights up when all necessary supply voltages are present inc the TS PDC voltages Table 4 2 LEDs on the TS PSAM module Layout ROHDE amp SCHWARZ Layout Analog Stimulus and Measurement Module TS PSAM 4 3 Mechanical construction of the TS PDC On this topic see also Figure 4 3 The TS PDC module is a rear I O module for mounting in the back of the CompactTSVP The board height of the module is 3 HU 134 mm The module is secured in place with the two retaining screws on the front panel Connector X20 connects the TS PDC module to the exten sion backplane in the CompactTSVP The TS PDC module must al ways use the corresponding rear lO slot for the main module e g TS PSAM module WARNING The TS PDC module must always be inserted in the correspond ing rear I O slot same slot code of the TS PSAM module If modules are inserted i
40. z 1 0 1 25 uA 10 kHz 20 kHz 1 5 1 25 uA 20 kHz 50 kHz 2 5 1 25 pA 500 pA 20 Hz 50 Hz 2 5 2 50 pA 50 Hz 10 kHz 1 0 2 50 uA 10 kHz 20 kHz 1 5 2 50 uA 20 kHz 50 kHz 2 5 2 50 pA 1 mA 20 Hz 50 Hz 2 5 5 50 Hz 10 kHz 1 0 5 10 kHz 20 kHz 1 5 5 20 kHz 50 kHz 2 5 5 2 20 Hz 50 Hz 2 5 12 5 pA 50 Hz 10 kHz 1 0 12 5 uA 10 kHz 20 kHz 1 5 12 5 uA 20 kHz 50 kHz 2 5 12 5 pA 5 mA 20 Hz 50 Hz 2 5 25 0 pA 10 6 6th Issue 11 05 Analog Stimulus and Measurement Module TS PSAM ROHDE amp SCHWARZ Specifications Range Frequency range Accuracy 1 50 Hz 10 kHz 1 0 25 0 pA 10 kHz 20 kHz 1 5 25 0 pA 20 kHz 50 kHz 2 5 25 0 pA 10 mA 20 Hz 50 Hz 2 5 50 pA 50 Hz 10 kHz 1 0 50 uA 10 kHz 20 kHz 1 5 50 uA 20 kHz 50 kHz 2 5 50 pA 20 mA 20 Hz 50 Hz 2 5 125 uA 50 Hz 10 kHz 1 0 125 pA 10 kHz 20 kHz 1 5 125 uA 20 kHz 50 kHz 2 5 125 pA 50 mA 20 Hz 50 Hz 2 5 250 uA 50 Hz 10 kHz 1 0 250 uA 10 kHz 20 kHz 1 5 250 uA 20 kHz 50 kHz 2 5 250 uA 100 mA 20 Hz 50 Hz 2 5 500 pA 50 Hz 10 kHz 1 0 500 pA 10 kHz 20 kHz 1 5 500 pA 20 kHz 50 kHz 2 5 500 uA 200 mA 20 Hz 50 Hz 2 5 1 25 mA 50 Hz 10 kHz 1 0 1 25 mA 10 kHz 20 kHz 1
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