SERVICE MANUAL - Rohde & Schwarz
Contents
1. e Perform voltage measurements Connection 4 e All coupling relays are closed e CH3 LPBA CH3 HI LABb1 CH3 LO LABb2 e CH7 LPBB CH7 HI LABdl CH7 LO LABd2 e Perform voltage measurements Connection 5 e All coupling relays are closed e CH4 LPBA CH4 HI LABb2 CH4 LO LABbl e CH8 LPBB CH8 HI LABd2 CH8 LO LABdl e Perform voltage measurements 4 6 10 5 Bus isolation 4 6 10 5 1 Description The coupling relays on the component are closed and the insulation re sistance of the bus lines with each other and the resistance of the single bus lines against GND is measured For the measurement against GND the DCS is used because high ohm resistors against GND can not be carried out with the resistance measuring function in the Mode V voltage injection and current measurement of the R amp S TS PSAM mo dule To determine whether the minimum permitted resistance of a bus line against GND is not reached DCS_LO is connected with GND and DCS_HI switched to the line to be tested A voltage of 5 V and a current 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test limit of 10 pA gives a threshold of the 500 kOhm If the insulation resis tance is low the source goes into the current limit and thus displays an error The insulation resistance between two bus lines is measured in the 10 MQ2. cc ccececeeeesseseeeeeeeeeeeeeeeeeeeeeeeenens 7 3 Spare Parts List R amp S TS PSCO ee eeceeeeesseseeeeseeeeeeeeeeeeeeeeeeees 7 4 Spare Parts List R amp S TS PSC3 eeee een 7 4 Spare Parts List R amp S TS PSC4 eeeeeeee een 7 4 Spare Parts List R amp S TS PSM1 0eoeeeeee eee eee 7 4 Spare Parts List R amp S TS PSM2 0 eee eee 7 5 Spare Parts List R amp S TS PSU eeeooooeeeeee eee nenene 7 5 Spare Parts List R amp S TS PIO2 eee eee eneaeeennnee 7 5 Spare Parts List R amp S TS PHDT ooo nenene 7 6 Spare Parts List for several Modules s 7 6 15 ROHDE amp SCHWARZ Tables 16 R amp S CompactTSVP R amp S PowerTSVP 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP UserInformation 1 User Information 1 1 Purpose of the Handbook The Service Handbook provides the information necessary for e Faultfinding and e Fault rectification on the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP The Service Handbook must be read carefully by the operator service engineer tasked with working on the R amp S CompactTSVP R amp S Pow erTSVP prior to performing service tasks Apart from the Service Handbook the Operating Instructions the health and safety regulat
3. Connect CHx LO with GND Connect CHx LO with the four channels CHxy HI For each combination of oscilloscope channels Configure channels 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test Carry out measurement Disconnect CHx LO from the four channels CHxy HI Disconnect CHx LO from GND 4 6 7 15 Scanner Gain 4 6 7 15 1 Description The oscilloscope channels are provided with a DC Voltage The LO line of the source DCS on R amp S TS PSAM is connected with GND the data acquisition paths are ungrounded All possible combinations of the channels are measured Data acquisition path A CHA1 CHA2 CHA1 CHA3 CHA1 CHA4 CHA2 CHA3 CHA2 CHA4 CHA3 CHA2 CHA3 CHA4 CHA4 CHA2 CHA4 CHA3 Data acquisition path B CHB1 CHB2 CHB1 CHB3 CHB1 CHB4 CHB2 CHB3 CHB2 CHB4 CHB3 CHB2 CHB3 CHB4 CHB4 CHB2 CHB4 CHB3 The following settings are selected Range 1V Input impedance 10 MQ Filter 400 Hz Observation time 20 0 ms Sampling values 1000 4 69 ROHDE amp SCHWARZ Self Test 4 70 R amp S CompactTSVP R amp S PowerTSVP The average value is taken from the sample values The DCS is wired as follows DCS LO to ABal ABcl and GND DCS HI to ABb1 ABdl The source is set as follows Voltage 1V Current limit 1mA All coupling relay
4. Repeat measurement Ifthe measured voltage is low enough Set isolation test for the relay to Passed otherwise Set isolation test for the relay to Failed e otherwise e Set contact test for the relay to Failed e Set isolation test for the relay to Skipped Move the channel to its basic state 4 6 9 21 High current 4 6 9 21 1 Description The self test connector is required for this test Output of high currents and the current measurement function of the measurement unit is checked The force lines are short circuited via the self test connector The following settings are used for the voltage Range 50 V Level 5V The measurement is configured as follows Sampling values 40 Interval 1 ms Delay 0 The following signal paths are selected CH1 lt K30 gt CH1 2 CH2 lt K35 gt CH2 2 The PSU channels are grounded 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 9 21 2 Sequence For each channel e Connect CHx LOand CHx HI to each other via the force multiple xer and self test connector e Configure measurement unit e Set the voltage range and value e Turn on the channel e For each level Set current limiting range and value Perform current measurement Move the channel to its basic state Disconnect the channel from the self test connector 4 6 9 22 External sensing
5. Self Test Passed T Show Report Bild 4 7 Self Test Result Passed Selftest Result Self Test Failed T Show Report Bild 4 8 Self Test Result Failed 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test Show Report If this check box is selected the self test report is displayed after the OK button is clicked ROHDE amp SCHWARZ Self Test 4 4 Configuration R amp S CompactTSVP R amp S PowerTSVP Example configuration for the self test in the PHSYCAL INI file physical layer ini file device gt pmb1 Description Type ResourceDesc DriverPrefix DriverD11 DriverOption SFTDI1 SFTPrefix device gt psam Description Type ResourceDesc DriverPrefix DriverD11 DriverOption TS PMB Slot 6 PMB CANO 0 1 6 rspmb rspmb dll Simulate 0 sftmpmb dll SFTMPMB TS PSAM Slot 8 PSAM PXI1 10 INSTR rspsam rspsam dll Simulate 0 Tested in Basic Tests SFTD11 SFTPrefix device gt pict Description Type ResourceDesc DriverPrefix DriverD11 DriverOption SFTD11 SFTPrefix device gt pmb2 Description Type ResourceDesc DriverPrefix DriverD11 DriverOption SFTDI1 SFTPrefix device gt pmb3 Description Type ResourceDesc DriverPrefix DriverD11 DriverOption SFTDI1 SFTPrefix de
6. The DCS voltage is set to 0 3 V The DCS current limiter is set to maximum value 100 mA The DCS is switched on The DCS must go into the current limiter The contact re sistance has now been checked MU_LO is switched to GND The connection DCS_HI lt gt analog bus is opened The connection MU_LO lt gt analog bus is opened This measurement is repeated for all analog bus lines up to ABd2 The test results are recorded in the SFT Report MU Relayfunction HI Tests the function of the relays on the MU_HI line In this test the relays of the DCS_HI line and the two ground relays must function The low resistance connection between MU_HI and MU_LO must also be guaranteed in the current measurement with the MU Measuring path DCS_HI gt analog bus line gt MU_HI gt MU_LO gt GND gt DCS_LO The DCS voltage is set to 0 3 V The DCS current limiter is set to maximum value 100 mA DCS_LO is switched to GND MU_LO is switched to GND The MU is switched to the current measuring mode 100 mA range current measuring without shunt DCS_HI is switched to the analog bus line MU_HI is switched to the analog bus line The DCS is switched on The DCS must go into the current limiter The contact re sistance is therefore less than 3 Ohm The DCS is switched off The connection MU_HI lt gt analog bus is opened If
7. 4 54 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Sequence The inputs DIN are configured threshold1 2 0 V threshold2 2 0 V The inputs DIN and the outputs DOUT are connected to each other for the loop back test The Pattern is prepared The Pattern is executed The inputs DIN are read and the result stored in an ar ray This test is now repeated with the following pattern 0x00000000 0x00000001 0x00000002 0x00000004 0x00000008 0x00000010 0x00000020 0x00000040 0x00000080 0x00000100 0x00000200 0x00000400 0x00000800 0x00001000 0x00002000 0x00004000 0x00008000 0x00010000 0x00020000 0x00040000 0x00080000 0x00100000 0x00200000 0x00400000 0x00800000 0x01000000 0x02000000 0x04000000 0x08000000 0x10000000 0x20000000 0x40000000 0x80000000 0x7b7b7b7b 0xb7b7b7b7 Oxffffffff All 36 patterns have now been executed and read back The inputs DIN and the outputs DOUT are separated from one another The last pattern is run again to see whether all DIN DOUT connections have been separated The ResponsePattern Array is compared with the Stimu lusPattern Array Check Level Tests the output levels of the outputs DOUT and the voltage thresholds of the inputs DIN A pattern is generated The mode is configured The outputs DOUT
8. ROHDE amp SCHWARZ SERVICE MANUAL Test System Versatile Platform R amp S CompactTSVP TS PCA3 R amp S PowerTSVP TS PWA3 Note Service Manual for ROHDE 8 SCHWARZ Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP Sth Issue 08 06 GB 1152 3914 22 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 per mission 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 R amp S is a registered trademark of ROHDE amp SCHWARZ GmbH amp Co KG 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
9. Tests the CAN Bus the test can only be car ried out with the self test adapter connected The Loopback Test is carried out 4 84 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 9 Power Supply Load Module R amp S TS PSU 4 6 9 1 Initialisation 4 6 9 1 1 Description The driver is opened The Resource Descriptor and optional Option String from the physical INI file are used to do this If the initialisation of the driver fails the test for the module is interrupted 4 6 9 1 2 Sequence Function rspsu InitWithOptions is called 4 6 9 2 Configuration 4 6 9 2 1 Description The current configuration parameters driver and firmware version as signed slot on the frame and hardware code are determined The Op tion String used during initialisation is also generated in the report 4 6 9 2 2 Seguence Call to function rspsu revision guery and query of attributes RSPSU ATTR SLOT NUMBER and RSPSU ATTR HW CODE 4 6 9 3 Device self test 4 6 9 3 1 Description The self test function is started in the driver This function performs in ternal tests in the module In the event of an error it returns a message identifying the first error that was found 4 6 9 3 2 Seguence Call to function rspsu self test 4 85 ROHDE amp SCHWARZ Self Test 4 86 R amp S CompactTSVP R amp S PowerTSVP 4 6 9 4 Exte
10. 4 6 11 36 1 Description The 5 V reference voltage is measured once with the DMM at zero load and once at a load of 499 Ohms DMM and R amp S TS PIO2 are groun ded for this 4 6 11 36 2 Sequence All coupling relays are closed Connect DMM LO with GND Connect DMM HI with ABa2 Connect R amp S TS PIO2 AGND with GND Connect R amp S TS PIO2 LABa2 with AGND Connect CH1_IN with LABa2 Connect AGND with Lo Perform voltage measurement at zero load Connect CH1_IN with CH1 2 499 Ohm againstLo Perform voltage measurement Disconnect connection 4 145 ROHDE amp SCHWARZ Self Test 4 146 R amp S CompactTSVP R amp S PowerTSVP 4 6 11 37 External Trigger The self test connector is reguired for this test 4 6 11 37 1 Description Signals XTO1 and XTI1 are connected in the self test connector A trig ger signal is generated on line XTO1 that starts the sequence control of the R amp S TS PIO2 module 4 6 11 37 2 Sequence e Configure trigger output e Configure external triggering e Start measurement e Generate trigger signal XTO1 Retrieve measurement data 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP 4 7 Self Test Report See appendix A ROHDE amp SCHWARZ Self Test 4 147 ROHDE amp SCHWARZ Self Test 4 148 R amp S CompactTSVP R amp S PowerTSVP 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP
11. 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 10 10 2 Sequence The coupling relays are tested together with the matrix relays The measurement path is always set up as follows 5th Issue 08 06 DMM HI LABx PSAM ABx lt Kx gt LABx CHx y LABy lt Ky gt ABy LABy PSAM DMM LO Signal Note DMM HI HI line of the resistance measurement unit LABx PSAM HI line on the local analogue bus R amp S TS PSAM ABx HI line on analogue bus Kx Coupling relay in the HI line LABx HI line on the local analogue bus R amp S TS PSM2 CHx y Channel to R amp S TS PSM2 LABy LO line on the local analogue bus R8S TS PSM2 Ky Coupling relay in the LO line ABy LO line on analogue bus LABy PSAM LO line on the local analogue bus R8S TS PSAM DMM LO LO line of the resistance measurement unit Two bus lines must always be selected that do not have any short cir cuit between them The results of the bus isolation measurement are used for this purpose If the measurement branch is a low Ohm connection the measurement value is logged as a contact resistance for both relays Kx and Ky Then Kx and Ky are each opened individually and a separate isolation measurement is performed for each If no low Ohm connection is determined one of the four relays involved on the module will not close Then no isolation measuremen
12. 6 2 Removal 6 2 1 Removing Standard cPCI PXI Plug in Cards 6 2 2 Removing ROHDE amp SCHWARZ specific Plug in Cards 6 2 3 Removing Power Supply 6 2 4 Removing Fans 6 3 Installation 6 4 Packaging Shipment and Storage 7 Spare Parts List 7 1 Spare Parts List R amp S CompactTSVP TS PCA3 7 2 Spare Parts List R amp S PowerTSVP TS PWA3 7 3 Spare Parts Modules 7 3 1 7 3 2 7 3 3 7 3 4 7 3 5 7 3 6 7 3 7 7 3 8 7 3 9 7 3 10 7 3 11 7 3 12 7 3 13 7 3 14 7 3 15 7 3 16 R amp S TS PAM R amp S TS PDC R amp S TS PDFT R amp S TS PFG R amp S TS PICT R amp S TS PMB R amp S TS PSAM R amp S TS PSCO R amp S TS PSC3 R amp S TS PSC4 R amp S TS PSM1 R amp S TS PSM2 R amp S TS PSU R amp S TS PIO2 R amp S TS PHDT Spare Parts for several Modules 8 Service Documents 8 1 Interface Description 8 1 1 8 1 2 Interface Description R amp S CompactTSVP TS PCA3 Interface Description R amp S PowerTSVP TS PWA3 8 2 Plug In Cards 8 2 1 8 2 2 8 2 3 8 2 4 8 2 5 8 2 6 Analyzer Module R amp S TS PAM Digital Functional Test Module R amp S TS PDFT Arbitrary Function Generator Module R amp S TS PFG InCircuit Test Module R amp S TS PICT Matrix Module B R amp S TS PMB Source and Measurement Module R amp S TS PSAM 6 3 6 3 6 4 6 4 6 4 6 6 6 6 7 1 7 1 7 1 7 2 7 2 7 2 7 2 7 2 7 3 7 3 7 3 7 4 7 4 7 4 7 4 7 5 7 5 7 5 7 6 7 6 8 1 8 1 8 1 8 1 8 2 8 2 8 2 8 2 8 2 8 2 8 2 5th Issue 08 06 5th Is
13. Bild 4 3 Connection of R amp S TS PSAM to Analog Bus al a2 b1 b2 ct c2 di d2 iil SC S S ORE SLS OO SC lt e lt e al a2 b b2 ct c2 di d2 Front Connector X10 Analog Bus LAB 4 5 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 3 Starting and Performance The self test of the R amp S CompactTSVP R amp S PowerTSVP is started as a test sequence As the R amp S CompactTSVP R amp S PowerTSVP is always part of a test system the self test of the R amp S CompactTSVP R amp S PowerTSVP is always part of a more comprehensive self test se quence The self test or the test sequence of the self test of the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP is a self contained executable program EXE file To run the self test proceed as follows 1 Start the self test file Selftest exe The self test created and supplied by ROHDE 8 SCHWARZ is stored in the default directory C Program Files GTSL Bin If a different directory was specified when the software was installed then you will find the self test in that directory XBin You can also start the self test by selecting Start gt Programs gt Rohde 8 Schwarz GTSL gt TSVP Self Test TSVP Self Test selftest ini Mel x File Help Application INI File Physical INI File physical ini Info Start Self Test Quit Bild
14. ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence DCS Relayfunc tion SENSE Tests the function of the relays between DCS SHI and analog bus and DCS SLO and analog bus It is assumed that the relays of the DCS_HI line are functioning The DCS_SLO line is connected to the DCS_LO line via 100 kOhm The SENSE line is con nected to DCS SLO via a relay This relay is also tested Here again the contact resis tance cannot be determined very accurately The DCS voltage is set to 5 V The DCS is switched on The contact measurement of the DCS_SLO lt gt SEN SE relay is not initialized correctly The DCS current limiter is set to 45 pA DCS_SHI is switched to ABa1 SENSE is switched to ABa1 The DCS must go into the current limiter The resistance is therefore less than 111 kOhm The connection DCS_SHI lt gt ABa1 is opened The connection SENSE lt gt ABa1 is opened This measurement is repeated for all analog bus lines up to ABd2 If a contact is found The DCS current limiter is set to the minimum value The contact measurement of the DCS_SLO gt SENSE relay is marked as successful If the insulation of the DCS_SLO gt SENSE relay has not yet been measured Open the relay DCS_SLO gt SENSE The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than t
15. The connection DCS HI lt gt ABa1 is opened The DCS is switched off This measurement is repeated for all analog bus lines up to ABd2 The test results are recorded in the SFT Report DCS Relayfunc tion SHI Tests the function of the relays between DCS_SHI and the analog bus The DCS SHI line is connected to DCS Hl via 100 kOhm The volume resistance cannot be measured very accurately in this way The DCS voltage is set to 5 V The DCS is switched on The connection DCS LO lt gt GND is opened The DCS current limiter is set to 45 pA DCS SHI is switched to ABa1 DCS LO is switched to ABa1 The DCS must go into the current limiter The resistance is therefore less than 111 kOhm The connection DCS SHI lt gt ABa1 is opened The connection DCS_LO lt gt ABa1 is opened This measurement is repeated for all analog bus lines up to ABd2 If a connection has been found The DCS current limiter is set to the minimum value The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance The connection DCS_LO lt gt analog bus is opened This measurement is repeated for all analog bus lines up to ABd2 The test results are recorded in the SFT Report 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP
16. The relay between CH1 LO and CH2 Hlis closed The contact resistance is measured The relay between CH1 LO and CH2 Hl is opened The insulation resistance is measured Function Genera tor Tests the signal generators of CH1 and CH2 MU LO is switched to ABa1 MU_HI is switched to ABa2 The coupling relays between ABa1 LABa1 and ABa2 LABa2 are closed CH1 LO on LABa1 is closed CH1 Hl on LABa1 is closed An output signal of 1 kHz and 10 Vpp is generated on CH1 The RMS value is measured 3 536 V CH1 LO on LABa1 is opened CH1 Hl on LABa2 is closed The same measurement is repeated with CH2 Front Connector Tests the connections to the front connector X10 This test can only be carried out with the self test adapter connected All coupling relays are closed 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence MU LO is switched to ABa1 MU_HI is switched to ABa2 The contact resistance is measured The test is repeated with the buses ABb1 ABb2 ABc ABc2 and ABd1 ABd2 4 6 5 InCircuit Test Module R amp S TS PICT The InCircuit Test Module test consists of the following test cases Initialization e Device self test e Configuration e Bus Isolation e Matrix Relays Testcase Description Test S
17. Figure 2 1 System Information 2 5 ROHDE amp SCHWARZ Customer Service R amp S CompactTSVP R amp S PowerTSVP The menu option Action gt Save As System Information File can be used to save an MSInfo Document Filename nfo All system relevant information is stored in this document 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Safety 3 Safety 3 1 General During service work on the Test System Versatile Platform R amp S Com pactTSVP R amp S PowerTSVP the safety regulations applicable in the country of use must be observed NOTE If during service work on the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP the applicable service regulations are ignored ROHDE amp SCHWARZ GmbH amp Co KG is not liable in the case of damage and any right to make a claim un der the warranty against is void 3 2 Safety Instructions ELECTROCUTION HAZARD The Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP is only permitted to be opened by appropriately trained specialist personnel The appropriate regulations for work on electrical equipment must be observed Prior to working on the R amp S CompactTSVP R amp S PowerTSVP itis to be isolated from the mains power supply WARNING Do not bridge defective fuses Defective fuses are only permitted to be replaced with fuses of the same
18. If there was continuity the DCS voltage is set to 5 V The DCS current limiter is set to the minimum value The DCS is switched on The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance The connection DCS_HI lt gt analog bus is opened This measurement is repeated for all analog bus lines up to ABd2 The test results are recorded in the SFT Report MU Relayfunction SHI Tests the function of the relays between SENSE and MU SHI This test assumes that a number of relays function correctly Measuring path DCS_HI gt analog bus gt SENSE gt MU SHI via 10kOhm on MU HI gt second analog bus line gt DCS LO 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence The DCS voltage is set to 5 V The DCS current limiter is set to 450 LA DCS LO is switched to GND The connection MU lt gt GND is opened The following connections are made DCS HI lt gt Analog bus Analog bus lt gt SENSE SENSE lt gt MU SHI MU HI lt gt second analog bus line second analog bus line lt gt DCS_LO The DCS is switched on The DCS must go into the current limiter The resistance is therefore less than 11 kOhm T
19. Testcase Description Test Seguence The AOS output signal is configured DC 5V 0V 5V AC 1 kHz 0 1 V 0 2 V 1 0 V The output of the AOS is activated The RMS value is measured with the R amp S TS PSAM mo dule The output of the AOS is de activated The relays between AOS HI ABa1 and GND ABc are opened Check CMU Tests the function of the CMU on the R amp S DCS_HI and DCS_SHI R amp S TS PSAM are switched to TS PICT module with the R amp S TS PSAM ABa1 DCS_LO and DCS_SLO are switched to ABc1 module All coupling relays on the R amp S TS PSAM are closed The individual ranges of the CMU are now tested with the DCS on the R amp S TS PSAM AC 1 pA 2 pA DC 20 pA 200 pA 2 mA 20 mA 50 mA 100 mA 200mA The reference resistance 3 3 kOhm is inserted on the R amp S TS PICT for the three smallest ranges 1 pA 2 pA 20 pA The results are compared with their limits and recorded in the SFT Report Check AOS Out Res Tests the output resistors of the AOS This The relays between AOS HI ABa1 and CMU_HI ABa1 test case is only run when the CheckAOS are closed and CheckCMU tests cases have been passed Configure the AOS output signal 0 1 V Output resistance 0 Ohm 10 Ohm 100 Ohm 1000 Ohm Configure the CMU for the current measurement The output of the AOS is activated The current is measured with the CMU and the output re sistance
20. Tests trigger outputs PXI0 to PXI7 The R amp S TS PSU module gene rates trigger pulses with a length of approximately 1 us The measure ment unit on the R amp S TS PSAM module is set to external triggering and receives the signals 4 6 9 18 2 Sequence For all lines PXIO to PXI7 e Configure and activate trigger output e Configure external triggering to R amp S TS PSAM e Start measurement on R amp S TS PSAM e Generate trigger signal e Retrieve measurement data from R amp S TS PSAM e Deactivate trigger output 4 6 9 19 External trigger In Out 4 6 9 19 1 Description The self test connector is required for this test It tests trigger inputs XTIx and trigger outputs xTOx The following con nections are implemented in the self test connector XTO1 gt XTI2 XTO2 gt XTI1 During the test each channel generates a trigger signal to XTOx and thereby triggers the measurement unit for the second channel via XTIy 4 6 9 19 2 Sequence Self test connector is present For both trigger outputs XTOx Configure trigger output Configure trigger signal Define trigger source for Channel y Start measurement for Channel y 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test Generate trigger signal Retrieve results for Channel y 4 6 9 20 Monitor output 4 6 9 20 1 Description The self test connector is r
21. 4 6 11 29 4 6 11 29 1 4 6 11 29 2 4 6 11 30 4 6 11 30 1 4 6 11 30 2 4 6 11 31 4 6 11 31 1 4 6 11 31 2 4 6 11 32 4 6 11 32 1 4 6 11 32 2 4 6 11 33 4 6 11 34 4 6 11 34 1 4 6 11 34 2 4 6 11 35 4 6 11 35 1 4 6 11 35 2 4 6 11 36 4 6 11 36 1 4 6 11 36 2 4 6 11 37 4 6 11 37 1 4 6 11 37 2 Description Sequence Digital Input Description Sequence Square Wave Description Sequence Trigger bus input Description Sequence Trigger bus output Description Sequence Noise Input Description Sequence Noise Output Description Sequence Noise Current Limit Description Sequence Input Multiplexer Description Sequence LO Relay Output Standard Channel Description Sequence Output Extended Channel Description Sequence 5 V Reference Load Test Description Sequence External Trigger Description Sequence Self Test Report Manual Fault Finding Visual Inspection Supply Voltages Fans Removal Installation of Modules Important User Notes 6 1 1 6 1 2 Anti Static Work Station Tools ROHDE amp SCHWARZ Content 4 135 4 135 4 136 4 136 4 136 4 137 4 137 4 137 4 138 4 138 4 138 4 138 4 138 4 138 4 139 4 139 4 139 4 139 4 139 4 139 4 140 4 140 4 140 4 141 4 141 4 141 4 142 4 143 4 143 4 143 4 144 4 144 4 144 4 145 4 145 4 145 4 146 4 146 4 146 4 147 5 1 5 1 5 1 5 2 6 1 6 1 6 2 6 2 ROHDE amp SCHWARZ Content 10 R amp S CompactTSVP R amp S PowerTSVP
22. Configure R amp S TS PIO2 ground free again Disconnect DCS LO from GND 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 16 Loop Back Relays 4 6 11 16 1 Description The relays between channels CHx OUT and CHx IN K2 K16 K18 K20 K22 K24 K26 K28 K30 K32 K34 K36 K102 K103 K104 K105 are tested To do this the output is programmed to 1 9 V 19 mA at 100 Ohm load After the Loop Back Relay is closed the voltage is measured via the analog bus with the SFT DMM After a load has been placed on the output with the 100 Ohm reference resistor the voltage is measured again If the difference in voltages is less than 19 mV then the value of the relay s contact resistor is less than 1 Ohm If no voltage is measured or the difference is too great the self test reports an error If the contact measurement was successful the relay and the connec tion to the reference resistor are opened and a third voltage measure ment is performed If the relay is opened correctly no level should be measured 4 6 11 16 2 Sequence Coupling relays are closed Connect DMM LO with GND For all channels Connect DMM HI with analog bus line Connect CHx OUT with CHx IN Connect CHx IN with analog bus line Adjust current limiting with extended channel Adjust the voltage Perform voltage measurement V_ul Connect analog bus line with 100 Ohm r
23. Simulate 0 RangeCheck 1 Test Case Name Test Case Status BusIsolation passed Test Case Name Test Case Status Matrix Relays passed KKK RK KR AKA A KA AK A AK A KA AKA AZ AK A KA AKA AK A KA KR A AK A KA KK A AKA KA KK A K A KA KK KKK KK KKK RK KK KK k k Component Name Hardware Code Resource Descriptor Slot Number Driver Version p g 0 PRIS 31522022 INSTR 8 Driver rspfg 2 00 Compiler CVI 5 50 Components IVIEngine 1 62 VISA A 3 ROHDE amp SCHWARZ Appendix Spec 2 20 Firmware Version SFT DLL Version SFT DLL Name R amp S CompactTSVP R amp S PowerTSVP REV 514 SFTMPFG 01 04 C Program Files gtsl develop libraries sftmpfg sftmpfg dll Component Status passed Test Case Name Initialization Test Case Status passed Test Case Name Test Case Status passed Test Case Name Configuration Test Case Status passed Comment Option string is Simulate 0 RangeCheck 1 Test Case Name Test Case Status passed Test Case Name BusIsolation Test Case Status passed Test Case Name passed Test Case Name Ground Relays passed Test Case Name passed Test Case Name Function Generator passed Test Case Name Comment Test Case Status Front Connector skipped Self test board reguired KKEKKKKKKKKKKKK AZ AZ A AZ A AX A X X X AX XX AX AZ AZ AX AX AX ZAZ AX AZ ZAZ ZAZ AX AZ AZ AZ AX AX AX AX AX AX AX AXA AZ AZ AZ AZ AZ AZ AZ Z Z Z AZ A
24. stored in the result array The measurement is now repeated with the frequencies 100 Hz 1 kHz 10 kHz The R amp S TS PICT is reset and the test results recorded in the SFT Report 4 53 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 6 Digital Functional Test Module R amp S TS PDFT The Digital Functional Test Module test consists of the following test cases e Initialization e Device self test e Configuration e Check RS232 Interface e Check CAN Bus Check PWM e Check Static Pattern e Check Level e Check Dynamic Pattern e Check Aux Relais e Check Remaining DIN DOUT lines Test Case Description Test Seguence INIT Initializes the module with the function The driver function rspdft_InitWithOptions is star rspdft_InitWithOptions ted Device SFT Starts the Device Self Test The function rspdft_self_test is started Configuration Reads the configuration of the module firm ware version slot number hardware code The function getConfiguration is started Check RS232 Inter face This test case is not yet implemented Check CAN Bus This test case is not yet implemented Check PWM This test case is not yet implemented Check Static Pat tern Runs a static pattern test A pattern is generated The mode is configured The outputs DOUT are configured 5 0 V 500 mA
25. 11 14 1 Description Relay K45 is tested against GND The DCS with adjustable current li mitation is used for the evaluation The contact resistance of the nor mally closed contact of K3 is also tested in this test case To test both poles of the relay the contact measurement is performed once via the odd bus lines and once via the even bus lines All coupling relays to SFT DMM and R amp S TS PIO2 are closed The DCS is switched as follows For all measurements DCS_LO to GND First contact measurement DCS_HI to ABal ABb1 ABcl ABdl odd bus lines Second contact measurement DCS HI to ABa2 ABb2 ABc2 ABd2 even bus lines The settings for the source were selected as follows Measurement type Voltage Current limiting Note inV in A Contact measurement 0 5 100e 3 Threshold at 5 Ohm Isolation measurement 5 0 100e 6 Threshold at 50 kOhm 4 126 The following signal paths are wired in parallel for the first contact measurement on the module ABal lt K37 gt LABal lt K111 gt lt K3 gt AGND lt K45 gt GND ABb1 lt K39 gt LABb1 lt K111 gt lt K3 gt AGND lt K45 gt GND ABcl lt K41 gt LABcl lt K lt K3 gt AGND lt K45 gt GND ABdl lt K43 gt LABdl lt K111 gt lt K3 gt AGND lt K45 gt GND VV V The following signal paths are wired in parallel for the second contact measurement on the module ABa2 lt K38 gt
26. 4 4 Self Test Start Screen Application INI File Enter the name of the Application INI file that is needed for the self test in this window 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test Physical INI File Enter the name of the Physical INI file that is needed for the self test in this window Info Displays status messages while the self test is running Start Self Test Quit Starts the automatic self test routine Stops the self test 2 Inthe Self Test Parts and Options dialog box settings can be made on the way in which the self test sequence is performed see Bild 4 5 The dialog box is opened automatically by the SFT_Setup function Default values for the settings in the dialog box can be defined in the INI file see Section 4 4 Configuration Self Test Parts and Options M Self Test Boards available Report File C Program Files Rohde amp Schwarz GTSL SFT_ Select Manual Interventions Report Style SE rors only T Stop on first failure T Append to existing File Self Test Parts Bild 4 5 Self Test Parts and Options Self Test Boards avai The Self Test Boards necessary for performing the individual test lable steps are available The self test boards are plugged into the corres ponding interface as prompted during the self test sequence ROHDE amp SCHWARZ Self Test er Manual Interventions Stop
27. 4 6 9 22 1 Description The self test connector is required for this test The voltage adjustment will be tested using the sense lines Resistors are built into the self test connector for this purpose The set voltage is measured with the SFT DMM The following connections are set up Channel 1 CHI lt K29 gt CH1 1 CH1 S lt K1 gt CH1 S1 CH1 HI with ABbl CH1 LO with ABal Channel 2 CH2 lt K34 gt CH2 1 CH2 S lt K39 gt CH2 S1 CH2 HI with ABdl CH2 LO with ABcl The PSU channels are grounded The sense lines run through an input of sense multiplexer Because of this the corresponding relay is tested as well If the relay is opened thereby interrupting the sense lines the output voltage changes accor dingly The result of the relay test is logged in the Sense Relays test 4 99 ROHDE amp SCHWARZ Self Test 4 100 R amp S CompactTSVP R amp S PowerTSVP case The following settings are used for current limiting Range 3A Level 50 mA The measurement is configured as follows Sampling values 40 Interval 1 ms Delay 0 4 6 9 22 2 Seguence For each channel e Setup signal path e Set contact test for the sense relay involved to Skipped e Switch the channel to external sensing and turn on For all output voltages Adjust the voltage Configure DMM If voltage is within valid range set contact test for the sense re lay invol
28. ABa2 CH1 Hl on LABa1 is closed CH1 Hl on LABa1 is closed The contact resistance is measured CH1 Hl on LABa1 is closed The insulation resistance is measured CH1 Hl on LABa1 CH1 Hl on LABa1 is closed CH1 Hl on LABa2 is closed The insulation resistance is measured CH1 Hl on LABa2 CH1 Hl on LABa1 is closed This measurement is now repeated with all matrix relays on all eight buses All coupling relays are opened Ground Relays Tests the GROUND relays which connect the LO lines of channels CH1 and CH2 to Ground MU LO is switched to AGND MU_HI is switched to ABa1 Coupling relay ABa1 lt gt LABa1 is closed CH1_LO on LABat is closed The GROUND relay that connects CH1 LO to AGND is closed 4 47 ROHDE amp SCHWARZ Self Test 4 48 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The contact resistance is measured The GROUND relay that connects CH1 LO to AGND is opened The insulation resistance is measured CH1 LO on LABa1 is opened The same measurement is carried out with CH2 LO Channel Connect Relay Tests the relays that connects CH1 LO with CH2 HI MU_HI is switched to ABa1 MU_LO is switched toABa2 The coupling relays between ABa1 LABa1 and ABa2 LABa2 are closed CH1 LO on LABa1 is closed CH2 Hl on LABa2 is closed
29. AC Supply PSU RIO Module PSU AC DC Converter Table 7 15 Spare Parts List R amp S TS PSU 7 3 14 R amp S TS PIO2 Item Number Spare Part 1504 4801 02 Analog Digital IO Module 2 with R amp S TS PDC Table 7 16 Spare Parts List R amp S TS PIO2 7 5 ROHDE amp SCHWARZ Spare Parts List 7 6 7 3 15 R amp S TS PHDT R amp S CompactTSVP R amp S PowerTSVP Item Number Spare Part 1157 9704 02 High Speed Digital Test Module Table 7 17 Spare Parts List R amp S TS PHDT 7 3 16 Spare Parts for several Modules Item Number Spare Part 0386 3164 00 Relay 109 1 A 5 2 1153 5285 00 Relay SILO5 1A75 71M 1133 7718 00 EMC Strip Table 7 18 Spare Parts List for several Modules 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Service Documents 8 Service Documents 8 1 Interface Description 8 1 1 Interface Description R amp S CompactTSVP TS PCA3 NOTE The interfaces on the Test System Versatile Platform R amp S Com pactTSVP are described in the Test System Versatile Platform R amp S CompactTSVP TS PCA3 User Manual in Section 8 8 1 2 Interface Description R amp S PowerTSVP TS PWA3 NOTE The interfaces on the Test System Versatile Platform R amp S Pow erTSVP are described in the Test System Versatile Platform R amp S PowerTSVP TS PWA3 User Manual in Section 8 8 1
30. CH2 HI lt K35 gt CH2 HI2 CH2 LO2 lt K35 gt CH2 LO CH2 HI lt K36 gt CH2 HI3 CH2 LO3 lt K36 gt CH2 LO CH2 HI lt K37 gt CH2 HI4 CH1 HI4 lt K32 gt CH1 HI lt K8 gt LAI lt K32 gt CH1 LO4 CH2 LO4 lt K37 gt CH2 LO 4 103 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 9 25 2 Sequence For each channel e Short circuit the force lines of the other channel via the matrix e Connect CHx with CHx 4 of the other contact e For each force relay Close the relay to be tested Configure source for contact measurement Turn on source Query status of source Turn off source Open the relay to be tested Ifthe contact measurement was successful Set contact test to Passed Configure source for isolation measurement Turn on source Query status of source Turn off source If the source was not within the current limits Set isolation test to Passed otherwise Set isolation test to Failed otherwise Set contact test to Failed Set isolation test to Skipped e Disconnect CHx from CHx 4 of the other contact Disconnect force lines of the other channel from the matrix Switch the channel to its basic state 4 6 9 26 Sink mode 4 6 9 26 1 Description The self test connector is required for this test In this test Cannel 1 is connected with Channel 2 through the self test connector One channel is operated in source mode
31. DCS is switched to the analogue bus For each channel Adjust DCS for contact measurement Set up the measurement path Query DCS status Open the relay against ground If DCS was in the current limit the contact measurement was successful and the isolation measurements can be performed Otherwise the isolation measurement is omitted Isolation measurement Configure DCS for isolation measure ment query DCS status Remove measurement path 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 9 11 Voltage setting 4 6 9 11 1 Description The output voltage is verified Various levels are programmed and then measured with the SFT DMM The following settings are used for cur rent limiting Range 3A Level 1 mA The PSU channels are grounded 4 6 9 11 2 Seguence For each channel e Connect CHx Lo and CHx HI with the analogue bus e Set current limiting Turn on the channel For each level Set the voltage range and value Measure the voltage with DMM Move the channel to its basic state e Disconnect the channel from the analogue bus 4 6 9 12 Current setting 4 6 9 12 1 Description Current limiting is verified Various levels are programmed and then measured with the SFT DMM The following settings are used for the voltage Range 50 V Level 5V The PSU channels are grounded 4 91 ROHDE amp SCHWARZ Self Test R amp S Co
32. Deutsche Gesellschaft zur Zertifizierung von Managementsystemen hereby certifies that the company Rohde amp Schwarz GmbH amp Co KG M hldorfstrasse 15 D 81671 Munchen 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 C i 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 of Deutscher y Sr FA D 60433 Frankfurt am Main
33. GND CHA2 HI1 lt RY9 gt CHA2 HI CHA LO GND CHA2 HI2 lt RY9 gt CHA2 HI CHA LO GND CHA2 HI3 lt RY9 gt CHA2 HI CHA LO GND CHA3 HI1 lt RY11 gt CHA3 HI CHA LO GND CHA3 HI2 lt RY11 gt CHA3 HI CHA LO GND CHA3 HI3 lt RY11 gt CHA3 HI CHA LO GND CHA4 HI1 lt RY11 gt CHA4 HI CHA LO GND CHA4 HI2 lt RY11 gt CHA4 HI CHA LO GND CHA4 HI3 lt RY11 gt CHA4 HI CHA LO GND 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP Data acguisition path B LAI Bc LA LAI Bc2 Ba LAI LAI LAI LAI I a I Oaaa aan aaanan 4 6 7 23 2 Seguence Bl HI1 lt RY15 gt Bl HI2 lt RY15 gt Bl HI3 lt RY15 gt B2 HI1 lt RY15 gt B2 HI2 lt RY15 gt B2 HI3 lt RY15 gt B3 HI1 lt RY18 gt B3 HI2 lt RY18 gt B3 HI3 lt RY18 gt B4 HI1 lt RY18 gt B4 HI2 lt RY18 gt B4 HI3 lt RY18 gt Self test board is present Coupling relays R amp S TS PSAM and R amp S TS PAM are closed ROHDE amp SCHWARZ CHB1 HI CHB LO CHB1 HI CHB LO CHB1 HI CHB LO CHB2 HI CHB LO CHB2 HI CHB LO CHB2 HI CHB LO CHB3 HI CHB LO CHB3 HI CHB LO CHB3 HI CHB LO CHB4 HI CHB LO CHB4 HI CHB LO CHB4 HI CHB LO DCS LO is connected with GND For each data acauis
34. HI lt K1012 gt CH1 HI4 CH5 HI4 lt K5012 gt CH5 HI LABc LABal CH1 LO lt K1012 gt lt K1009 gt CH1 LO4 CH5 LO4 lt K5009 gt lt K5012 gt CH5 LO LABc1 LABa1 CH2 HI lt K2004 gt CH2 HI1 CH6 HI1 lt K6004 gt CH6 HI LABcl LABal CH2 LO lt K2004 gt lt K2001 gt CH2 LO1 CH6 LO1 lt K6001 gt lt K6004 gt CH6 LO LABc1 LABa1 CH2 HI lt K2005 gt CH2 HI2 CH6 HI2 lt K6005 gt CH6 HI LABcl LABa1 CH2 LO lt K2005 gt lt K2002 gt CH2 LO2 CH6 LO2 lt K6002 gt lt K6005 gt CH6 LO LABc1 LABal CH2 HI lt K2011 gt CH2 HI3 CH6 HI3 lt K6011 gt CH6 HI LABcl LABal CH2 LO lt K2011 gt lt K2008 gt CH2 LO3 CH6 LO3 lt K6008 gt lt K6011 gt CH6 LO LABc1 LABal CH2 HI lt K2012 gt CH2 HI4 CH6 HI4 lt K6012 gt CH6 HI LABcl LABal CH2 LO lt K2012 gt lt K2009 gt CH2 LO4 CH6 LO4 lt K6009 gt lt K6012 gt CH6 LO LABc1 LABb1 CH3 HI lt K3004 gt CH3 HI1 CH7 HI1 lt K7004 gt CH7 HI LABd1 LABb1 CH3 LO lt K3004 gt lt K3001 gt CH3 LO1 CH7 LO1 lt K7001 gt lt K7004 gt CH7 LO LABd LABb1 CH3 HI lt K3005 gt CH3 HI2 CH7 HI2 lt K7005 gt CH7 HI LABd1 LABb1 CH3 LO lt K3005 gt lt K3002 gt CH3 LO2 CH7 LO2 lt K7002 gt lt K7005 gt CH7 LO LABd1 LABb1 CH3 HI lt K3011 gt CH3 HI3 CH7 HI3 lt K7011 gt CH7 HI LABd1 LABb1 CH3 LO lt K3011 gt lt K3008 gt CH3 LO3 CH7 LO3 lt K7008 gt lt K7011 gt CH7 LO LABd LABb1 CH3 HI lt K3012 gt CH3 HI4 CH7 HI4 lt K7012 gt CH7 HI LABdl LABb1 CH3 LO lt K3012 gt lt K3009 gt CH3 LO4 CH7 LO4 lt K7009 gt lt K7012 gt CH7 LO LABd1 LABb1 CH4 HI lt K4004 gt CH4 HI1 CH8 HI1 lt K8004
35. K2009 gt lt K2012 gt CH2 LO LABa2 LABb1 CH3 HI lt K3004 gt CH3 HI1 CH7 HI1 lt K7001 gt CH7 LO1 CH3 LO1 lt K3001 gt lt K3004 gt CH3 LO LABb2 LABb1 CH3 HI lt K3005 gt CH3 HI2 CH7 HI2 lt K7002 gt CH7 L02 CH3_LO2 lt K3002 gt lt K3005 gt CH3_LO LABb2 LABb1 CH3 HI lt K3011 gt CH3 HI3 CH7 HI3 lt K7008 gt CH7 LO3 CH3 LO3 lt K3008 gt lt K3011 gt CH3 LO LABb2 LABb1 CH3 HI lt K3012 gt CH3 HI4 CH7 HI4 lt K7009 gt CH7 LO4 CH3 LO4 lt K3009 gt lt K3012 gt CH3 LO LABb2 LABb1 CH4 HI lt K4004 gt CH4 HI1 CH8 HI1 lt K8001 gt CH8 LO1 CH4 LO1 lt K4001 gt lt K4004 gt CH4 LO LABb2 LABb1 CH4 HI lt K4005 gt CH4 HI2 CH8 HI2 lt K8002 gt CH8 L02 CH4 LO2 lt K4002 gt lt K4005 gt CH4 LO LABb2 LABb1 CH4 HI lt K4011 gt CH4 HI3 CH8 HI3 lt K8008 gt CH8 LO3 CH4 LO3 lt K4008 gt lt K4011 gt CH4 LO LABb2 LABb1 CH4 HI lt K4012 gt CH4 HI4 CH8 HI4 lt K8009 gt CH8 LO4 CH4 LO4 lt K4009 gt lt K4012 gt CH4 LO LABb2 4 118 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test The following signal paths are set up for contact measurements bet 5th Issue 08 06 ween CHx THRU_LO1 and CHx LO1 LABal CH1 LO lt K1004 gt lt K1001 gt CH1 THRU LO1 H2 THRU LO1 lt K2001 gt lt K2004 gt CH2 LO LABa2 LABb1 CH3 LO lt K3004 gt lt K3001 gt CH3 THRU L01 H4 THRU LO1 lt K4001 gt lt K4004 gt CH4 LO LABb2 LABc1 CH5 LO lt K5004 gt lt K5001 gt CH5 THRU L01 H6 THRU LO1 lt K6001 gt lt K6004 gt C
36. LABa2 lt K111 lt K3 gt AGND lt K45 gt GND ABb2 lt K40 gt LABb2 lt K111 lt K3 gt AGND lt K45 gt GND ABc2 lt K42 gt LABc2 lt K111 lt K3 gt AGND lt K45 gt GND ABd2 lt K44 gt LABd2 lt K111 lt K3 gt AGND lt K45 gt GND 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 14 2 Sequence Connect DCS HI with ABal ABb1 ABcl ABdl Connect DCS LO with GND Connect R amp S TS PIO2 AGND via K45 with GND Connect R amp S TS PIO2 LABal LABb1 LABc1 and LABd1 with AGND Adjust DCS for contact measurement Query DCS status Disconnect R amp S TS PIO2 AGND from GND If DCS was in current limiting Contact measurement was successful and isolation measure ment can be performed Mark the corresponding normally closed contact of K3 as passed Isolation measurement Configure DCS for isolation measure ment query DCS status Remove measurement path Connect DCS_HI with ABa2 ABb2 ABc2 ABd2 Connect DCS LO with GND Connect R amp S TS PIO2 AGND via K45 with GND Adjust DCS for contact measurement Query DCS status If DCS is in current limiting Mark the corresponding contact of K3 as passed Ifthe isolation measurement for K45 has not been performed yet perform the measurement now Disconnect connection 4 127 ROHDE amp SCHWARZ Se
37. R amp S PowerTSVP Manual Fault Finding o Manual Fault Finding 5 1 Visual Inspection On the occurrence of an error on the R amp S CompactTSVP R amp S Pow erTSVP a visual inspection of the housing the internal modules e g backplanes and the plug in cards is to be performed In the case of ob vious faults the corresponding module is to be replaced 5 2 Supply Voltages NOTE The supply voltages of the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP can be indicated by LED s on the plug in cards The front panel of the Plug In Cards incorporates three LED s with the following functions LED Description red Fault condition Lights up when a fault is detected on the Plug In Card in the power on test after the supply voltage is switched on yellow Communication Lights up briefly when the Plug In Card is accessed via the interface green Supply voltage OK Lights up when all supply voltages are present Table 5 1 Display elements on the Plug In Cards LED Test When voltage is powered up all three LEDs light up for around 1 sec ond This ensures that the 5 V supply is present and that the LED s and power on test are functioning 5 1 ROHDE amp SCHWARZ Manual Fault Finding 5 2 R amp S CompactTSVP R amp S PowerTSVP 5 3 Fans On the occurrence of over temperature in the housing of the R amp S Com pactTSVP R amp S PowerTSVP the fault may be caused by
38. S CompactTSVP R amp S PowerTSVP Description Seguence Device Self Test Description Seguence External Voltage Description Seguence Bus Isolation Description Seguence Coupling Relays Description Seguence P Matrix Relays Description Seguence IL Matrix Relays Sense Relays Description Seguence Front Connector Description Seguence Ground Relay Description Seguence Source and Measurement Module R amp S TS PSAM Arbitrary Function Generator Module R amp S TS PFG InCircuit Test Module R amp S TS PICT Digital Functional Test Module R amp S TS PDFT Analyzer Module R amp S TS PAM Initialization Description Sequence Configuration Description Sequence Device Self Test Description Sequence External Voltage Description Sequence Bus Isolation Description Sequence Coupling Relays Bus Lines A B Description Sequence Coupling Relays Bus Lines C D Matrix Relays Bus Lines A B Description Sequence 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP 4 6 7 9 4 6 7 10 4 6 7 10 1 4 6 7 10 2 4 6 7 11 4 6 7 11 1 4 6 7 11 2 4 6 7 12 4 6 7 12 1 4 6 7 12 2 4 6 7 13 4 6 7 13 1 4 6 7 13 2 4 6 7 14 4 6 7 14 1 4 6 7 14 2 4 6 7 15 4 6 7 15 1 4 6 7 15 2 4 6 7 16 4 6 7 16 1 4 6 7 16 2 4 6 7 17 4 6 7 17 1 4 6 7 17 2 4 6 7 18 4 6 7 18 1 4 6 7 18 2 4 6 7 19 4 6 7 19 1 4 6 7 19 2 4 6 7 20 4 6 7 20 1 4 6 7 20 2 4 6 7 21 4 6 7 21 1 4 6 7 21 2 4 6 7 22 4 6 7 22 1 4 6
39. Set up signal path Switch DMM to the corresponding analogue bus lines Perform contact measurement If the contact measurement was successful Open first relay Perform isolation measurement for first relay Close first relay again Open second relay Perform isolation measurement for second relay Close second relay again Disconnect signal path Disconnect DMM from analogue bus CH1 HI lt K1010 gt LPBA lt K2010 gt CH2 H LABa2 CH1 LO lt K1010 gt LPBA lt K2010 gt CH2 LO LABa2 CH3 HI lt K3010 gt LPBA lt K4010 gt CH4 HI LABb2 CH3 LO lt K3010 gt LPBA lt K4010 gt CH4 LO LABb2 CH5 HI lt K5010 gt LPBB lt K6010 gt CH6 HI LABc2 CH5 LO lt K5010 gt LPBB lt K6010 gt CH6 LO LABc2 CH7 HI lt K7010 gt LPBB lt K8010 gt CH8 HI LABd2 CH LO lt K7010 gt LPBB lt K8010 gt CH8 LO LABd2 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 10 12 Shunt resistor path 4 6 10 12 1 Description The function of the shunt resistor and the partial function of the sense and multiplexer relay is tested There is a 1 kOhm resistor in the sense line that is measured during this test The isolation measurement of the multiplexer relay involved cannot be performed with this measurement system connection In the likely event that a contact is merely stuck a high Ohm resistance would still be measured after the two pin relay is opened The isol
40. Source and Measure ment Module with R amp S TS PDC Table 7 9 Spare Parts List R amp S TS PSAM 7 3 ROHDE amp SCHWARZ Spare Parts List R amp S CompactTSVP R amp S PowerTSVP 7 3 8 R amp S TS PSCO Item Number Spare Part 1157 9085 02 PCI to CompactPCI Interface Kit Table 7 10 Spare Parts List R amp S TS PSCO 7 3 9 R amp S TS PSC3 Item Number Spare Part 1134 2578 00 System Controller CP304 1134 2584 00 Rear I O for System Controller RIO 02 Table 7 11 Spare Parts List R amp S TS PSC3 7 3 10 R amp S TS PSC4 Item Number Spare Part 1134 2503 08 System Controller 4 CP306 incl RIO Module Table 7 12 Spare Parts List R amp S TS PSC4 7 3 11 R amp S TS PSM1 Item Number Spare Part 1143 0139 02 Power Switching Module 1 1143 0222 00 Relay AZ764 1143 0239 00 Relay AZ832 1143 0245 00 ORO1 4W 1 Table 7 13 Spare Parts List R amp S TS PSM1 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Spare Parts List 7 3 12 R amp S TS PSM2 Item Number Spare Part 1504 4901 02 Multiplex Switch Module 2 1143 0239 00 Relay AZ832 0386 3164 00 Relay 109 1 A 5 2 Table 7 14 Spare Parts List R amp S TS PSM2 7 3 13 R amp S TS PSU Item Number Spare Part 1504 4701 02 PSU Power Module without R amp S TS PAC 1504 4553 02 R amp S TS PAC PSU
41. and the other channel is operated in sink mode The current is limited by the channel in sink mode The current is measured with the measurement unit of the channel in source mode plus sign The following connection is set up 4 104 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test CH1 HI lt K32 gt CH1_HI4 CH2 HI4 lt K37 gt CH2 HI CH1 LO lt K32 gt CH1_LO4 CH2 LO4 lt K37 gt CH2 LO Both channels are grounded Settings of the channel in source mode Voltage range 50 V Voltage level 5V Current range 3A Current level 0 5A Fixed settings of the channel in sink mode Voltage range 50 V Voltage level 2V 4 6 9 26 2 Sequence Connect Channel 1 with Channel 2 using the self test connector For each channel e Move channel to source mode e Switch the other channel to sink mode Turn on both channels e Configure the current measurement e Set the current range and current of the other channel e Perform measurement e Move both channels to their basic states Disconnect Channel 1 from Channel 2 4 105 ROHDE amp SCHWARZ Self Test 4 106 R amp S CompactTSVP R amp S PowerTSVP 4 6 10 Switch Multiplex Module 2 R amp S TS PSM2 4 6 10 1 Initialisation 4 6 10 1 1 Description The driver is opened The Resource Descriptor and optional Option String from the physical INI file are used to do this If th
42. e HW State e Voltage Source e Digital Input Output e Temperature measurement e SYNC Signal e Trigger Lines e CAN Bus Loopback Test Case Description Test Sequence INIT Initializes the module with the function The driver function rspsys InitWithOptions is star rspsys InitWithOptions ted Voltage Source The supply voltages are checked The following supply voltages are measured e 33V e 5V e 12V 12 V only R amp S TS PSYS1 Check Digital In put Output Tests the digital inputs and outputs The test can only be carried out with the self test ad apter connected Output DOUT1 is set Inputs DIN1 and DIN3 must be 1 Inputs DIN2 and DIN4 must be 0 Output DOUT2 is set Inputs DIN2 and DIN4 must be 1 Inputs DIN1 and DIN3 must be 0 Output DOUT3 is set Inputs DIN1 and DIN3 must be 1 Inputs DIN2 and DIN4 must be 0 Output DOUT4 is set Inputs DIN2 and DIN4 must be 1 Inputs DIN1 and DIN3 must be 0 Check temperature Measures voltage TEMP_OUT The test can only be carried out with the self test adapter connected The temperature is read as attribute RSPSYS ATTR HW STATE TEMP and compared Check trigger lines The eight trigger lines are tested The test can only be carried out with the self test ad apter connected The R8S TS PSAM module generates a trigger signal The eight trigger lines are tested by two trigger lines being connected at a time RSCAN read
43. gt CH8 HI LABdl LABb1 CH4 LO lt K4004 gt lt K4001 gt CH4 LO1 CH8 LO1 lt K8001 gt lt K8004 gt CH8 LO LABd1 LABb1 CH4 HI lt K4005 gt CH4 HI2 CH8 HI2 lt K8005 gt CH8 HI LABdl LABb1 CH4 LO lt K4005 gt lt K4002 gt CH4 LO2 CH8 LO2 lt K8002 gt lt K8005 gt CH8 LO LABd1 LABb1 CH4 HI lt K4011 gt CH4 HI3 CH8 HI3 lt K8011 gt CH8 HI LABd1 LABb1 CH4 LO lt K4011 gt lt K4008 gt CH4 LO3 CH8 LO3 lt K8008 gt lt K8011 gt CH8 LO LABd LABb1 CH4 HI lt K4012 gt CH4 HI4 CH8 HI4 lt K8012 gt CH8 HI LABd1 LABb1 CH4 LO lt K4012 gt lt K4009 gt CH4 LO4 CH8 LO4 lt K8009 gt lt K8012 gt CH8 LO LABd 4 116 4 6 10 13 2 Seguence e Self test connector present Coupling relays R amp S TS PSAM and R amp S TS PSM2 are closed For each signal path Close LPB relays involved disconnect channels from side connector Setup signal path Perform contact measurement Ifthe contact measurement was successful If no isolation measurement has been performed yet for CHx LOy CHx LOy com see test case Shunt Resistor Path e Activate sense relay e Perform resistance measurement e Deactivate
44. interrupted 4 6 11 1 2 Sequence Function rspio2 InitWithOptions is called 4 6 11 2 Configuration 4 6 11 2 1 Description The current configuration parameters driver and firmware version as signed slot on the frame and hardware code are determined The Op tion String used during initialisation is also generated in the report 4 6 11 2 2 Sequence Call to function rspio2 revision query and query of attributes RSPIO2 ATTR FRAME NUMBER RSPIO2 ATTR SLOT NUMBER and RSPIO2 ATTR HW CODE 4 6 11 3 Device self test 4 6 11 3 1 Description The self test function is started in the driver This function performs in ternal tests in the module In the event of an error it returns a message identifying the first error that was found 4 6 11 3 2 Sequence Call to function rspio2 self test 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 4 Supply Voltages 4 6 11 4 1 Description Supply voltages of the module are logged 4 6 11 4 2 Sequence Using a special driver function the power supply voltages monitored by the module are queried 4 6 11 5 Temperatures 4 6 11 5 1 Description The temperatures monitored by the module are logged Temperatures saved during the last autocorrection are also logged 4 6 11 5 2 Sequence Using a special driver function the temperatures monitored by the mo dul
45. is designed to determine voltages on the local analogue bus this bus is available on X20 and on the side connector For this purpose only the coupling relays are turned They remain set for sub sequent measurements Connections 2 to 5 are designed to determine voltages that could reach the measurement system because of a jam med Local Power Bus relay through the side connector 4 6 10 4 2 Sequence The following sub sequence is traversed after each connection Volage measurements Connect DMM LO with GND For all bus lines Switch DMM HI to the line that will be tested Perform voltage measurement Disconnect DMM HI from the bus line Disconnect DMM LO from GND For all combinations of bus lines Switch DMM _LO to the first line Switch DMM HI to the second line Perform voltage measurement Disconnect DMM LO from the bus line Disconnect DMM HI from the bus line Connection 1 Close all coupling relays Perform voltage measurements 4 107 ROHDE amp SCHWARZ Self Test 4 108 R amp S CompactTSVP R amp S PowerTSVP Connection 2 e All coupling relays are closed e CH1 LPBA CH1 HI LABal CH1 LO LABa2 e CH5 LPBB CH5 HI LABcl CH5 LO LABc2 e Perform voltage measurements Connection 3 e All coupling relays are closed e CH2 LPBA CH2 HI LABa2 CH2 LO LABal e CH6 LPBB CH6 HI LABc2 CH6 LO LABc
46. is reset MU LO is switched to ABa1 and MU Hl to ABa2 The insulation resistance between LABa1 and LABa2 is measured MU_HI is switched to ABb1 The insulation resistance between LABa1 and LABb1 is measured The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way MU_LO is switched to ABa2 and MU_HI to ABb1 The insulation resistance between LABa2 and LABb1 is measured MU_HI is switched to ABb2 The insulation resistance between LABa2 and LABb2 is measured The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way This process is now repeated until all the bus lines have been tested one to the other The MU is reset If this test case ended with FAILED all the following tests cases are skipped Matrix Relays Tests all matrix relays MU LO is switched to ABa1 MU_HI is switched to ABa2 The relays between AOS_HI ABa1 and between AOS_HI ABa2 are closed The contact resistance is measured The relay between AOS_HI ABa1 is opened The insulation resistance is measured 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Testcase Description Test Seguence The relay between AOS HI ABa1 is closed and the relay between AOS Hl ABa2 is opened The insulation resistance is
47. limit in A Comment Contact measure ment 0 7 10e 3 Threshold at 70 Ohm because of the 50 Ohm resistance against GND Insulation measu rement 5 0 10e 6 Threshold at 500 kOhm The following signal paths were selected on the module Data acquisition path A ABbl ABbl ABdl ABdl CHA1 HI CHA2 HI CHA3 HI z p p CHA4 HI lt Data acquisition path B ABbl ABbl ABdl ABdl RY55 gt CHA LO RY56 gt CHA LO RY57 gt CHA LO RY58 gt CHA LO CHB1 HI lt RY59 gt CHB LO CHB2 HI lt RY60 gt CHB LO CHB3 HI lt RY61 gt CHB LO lt RY62 gt CHB LO CHB4 HI GND GND GND GND GN GN GN GN AL AD 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ 4 6 7 11 2 Sequence DCS is switched to the analog bus e The following run is carried out for both data acquisition paths Connect CHx LO with GND The following procedure is carried out for all oscilloscope chan nels Set DCS for the contact measurement Set up measuring path Query DCS status Open relay to be tested If DCS is in the current limit the contact measurement was successful and the insulation measurement can be carried out Otherwise the insulation measurement is left out Insulation measurement Configure DCS for the insulation measurement
48. measured The relays between AOS HI ABa1 and between AOS HI ABa2 are both opened The relays between CMU HI ABa1 and CMU HI ABa2 are closed The contact resistance is measured The relay between CMU Hl ABa1 is opened The insulation resistance is measured The relay between CMU HI ABa1 is closed and the re lay between CMU HI ABa2 is opened The insulation resistance is measured The relays between CMU Hl ABa1 and between CMU HI ABa2 are both opened MU LO is switched to ABb1 MU_HI is switched to ABb2 The relays between AOS_HI ABb1 and between AOS_HI ABb2 are closed The contact resistance is measured The relay between AOS Hl ABb1 is opened The insulation resistance is measured The relay between AOS HI ABb1 is closed and the relay between AOS Hl ABb2 is opened The insulation resistance is measured The relays between AOS HI ABb1 and between AOS HI ABb2 are both opened again The contact resistance and the insulation resistance is measured on all matrix relays in the same way Check AOS Tests the function of the AOS on the R8S TS PICT module with the R amp S TS PSAM modu le MU LO is switched to ABc1 MU_HI is switched to ABa1 The relays between AOS HI ABa1 and GND ABc are closed 4 51 ROHDE amp SCHWARZ Self Test 4 52 R amp S CompactTSVP R amp S PowerTSVP
49. mode is configured The Timing is configured The Patternset is loaded The Patternset is executed The Patternset is read back The response Patternset is compared with the stimulus Patternset Check AUX Relais Tests all AUX relays The self test adapter must be connected for this test All connections between the inputs DIN and the outputs DOUT are disconnected A Pattern is generated The mode is configured The outputs DOUT are configured 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence The inputs DIN are configured Now only one bit in the pattern for the channels OUT1 to OUT4 is set to high at a time The corresponding AUX relay is closed The prepared Pattern is executed The Pattern is read back The test checks whether the right bit is set to high The AUX relay is opened The Pattern is executed again The Pattern is read back The test now checks whether no single bit is set to high This check is repeated for all four AUX relays Check Remaining DIN DOUT lines The remaining DIN DOUT channels are tes ted all the channels that have not been tes ted with the AUX relay test All connections between the inputs DIN and the outputs DOUT are disconnected A Pattern i
50. overall self test is split into many test steps calling functions from the standard and customer SFT libra ries The complexity of the sequence grows with the complexity of the sys tem If the system is just a R amp S CompactTSVP R amp S PowerTSVP fra me with some cards in it the self test sequence consists only of one step ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 1 4 R amp S CompactTSVP R amp S PowerTSVP Self Test The R amp S CompactTSVP R amp S PowerTSVP self test consists of the R amp S CompactTSVP R amp S PowerTSVP Self Test Frame and a R amp S CompactTSVP R amp S PowerTSVP Module Self Test for each type of hardware module The R amp S CompactTSVP R amp S PowerTSVP SFT frame reads the configuration information from the resource manager and activates the self test for each testable module 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP 4 2 Hardware Reguired ROHDE amp SCHWARZ Self Test The Source and Measurement Module R amp S TS PSAM is needed to carry out the self test on the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP The R amp S TS PSAM performs the necessary measurements on the analog bus of the R amp S CompactTSVP R amp S PowerTSVP Bild 4 3 shows the connection of the R amp S TS PSAM to the analog bus Analog Bus AB Analog Bus Connector X30 DCS HI Q e lt DCS SHI OOO O 4
51. query DCS status Remove measuring path Disconnect CHx LO from GND Self Test 4 65 ROHDE amp SCHWARZ Self Test 4 66 R amp S CompactTSVP R amp S PowerTSVP 4 6 7 12 Amplifier Offset 4 6 7 12 1 Description The offset error of the oscilloscope channels is determined The data acquisition path is thus connected with GND The input is connected with CHx LO and the offset error measured in each range The following settings are selected Input impedance 200 mV to 5 V 10 MQ 10 V to100 V 1 MQ Filter 400 Hz Observation time 20 0 ms Sampling values 1000 The average value is taken from the sample values 4 6 7 12 2 Sequence e For each data acquisition path Connect CHx LO with GND For each oscilloscope channel Connect CHx_LO with CHxy HI For each measurement range e Set range e Carry out measurement Disconnect CHx LO from CHxy HI Disconnect CHx LO from GND 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test 4 6 7 13 Amplifier Gain 4 6 7 13 1 Description The oscilloscope channels are provided with a DC Voltage The LO line of the source DCS on R amp S TS PSAM is connected with GND the data acauisition paths are ungrounded The following settings are selected Input impedance Filter Observation time Sampling values 200 mV to 5 V 10 MQ 10 V to 100 V 1 MQ 400 Hz 20 0 ms 1000 The average valu
52. rating The electrical equipment in the R amp S CompactTSVP R amp S PowerTSVP is to be checked at regular intervals Defects such as loose connec tions or chaffed cables must be rectified immediately The safety instructions on the safety sheet included are to be observed 3 1 ROHDE amp SCHWARZ Safety R amp S CompactTSVP R amp S PowerTSVP 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 Self Test 4 1 Function 4 1 1 System overview Self Test Sequences Test Self Test Sequences SDE EXE Customer Self Test E Self Libraries est Iorary LabWindows CVI on Resource Manager C C Library Library Library Layer Rohde 8 Schwarz Device Drivers i Other Device Drivers Customer Specific Generic Software Software Bild 4 1 SFT Software Overview The software for the self test consists of four main parts e The Self Test Sequence which combines the R amp S CompactTSVP R amp S PowerTSVP internal part the standard system part and the user defined part of the self test e The Standard Self Test Libraries One is responsible for the self test of the R amp S CompactTSVP R amp S PowerTSVP frame and the built in cards Other libraries contain self test functions for external devices in standard systems e The Customer Self Test Libraries which are responsible for the self test of customer specific external devices the fixture and the
53. sense relay Open the first multiplexer relay involved 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Perform isolation measurement Close first multiplexer relay again Open the second multiplexer relay Perform isolation measurement Close second multiplexer relay again Disconnect signal path Open the LPB relay involved disconnect channels from LPB 4 6 10 14 Sense relays A self test connector is required for this test case 4 6 10 14 1 Description The 32 sense relays are tested with additional measurements The contact and isolation resistance is determined between CHx HIy and CHx LOy The contact resistance between CHx THRU LO1 and CHx LO1 is measured in this test case The isolation measurement is not possible with this signal path When the relay is activated CHx L01 is also dis connected from the multiplexer relay This contact is demonstrated to be isolated however if the contact measurement between CHx HIy and CHx LOy is successful mechanics of the relay The following signal paths are set up for contact measurement between CHx HIyandCHx LOy LABc1 CH5 HI lt K5004 gt CH5 HI1 CH1 HI1 lt K1001 gt CH1 LO1 CH5 LO1 l
54. the matrix relays The measurement path is always set up as follows DMM HI LABx PSAM ABx lt Kx gt LABx CHx IN LABy lt Ky gt ABy LABy PSAM DMM LO Signal Note DMM HI HI line of the resistance measurement unit LABx PSAM HI line on the local analog bus R amp S TS PSAM ABx HI line on analog bus Kx Coupling relay in the HI line LABx HI line on the local analog bus R amp S TS PIO2 CHx HI Channel to R amp S TS PIO2 LABy LO line on the local analog bus R amp S TS PIO2 Ky Coupling relay in the LO line ABy LO line on analog bus LABy PSAM LO line on the local analog bus R amp S TS PSAM DMM LO LO line of the resistance measurement unit Two bus lines must always be selected that do not have any short cir cuit between them The results of the bus isolation measurement are used for this purpose If the measurement branch is a low Ohm connection the measurement value is logged as a contact resistance for both relays Kx and Ky Then Kx and Ky are each opened individually and a separate isolation measurement is performed for each If no low Ohm connection is determined one of the four relays involved on the module will not close Then no isolation measurement can be performed for the coupling relay 4 125 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 11 14 Ground Relay 4 6
55. the self test for the R amp S Com pactTSVP frame Enter the name of the application and physical ini file in the start dialog A sample application and physical ini file is provided in the configuration directory SFT CompactTSVP application ini CompactTSVP_physical ini HINWEIS You can use the specimen INI files that are supplied as templa tes for the SFT application ini and physical ini files The specimen INI files should not be overwritten The source code for this self test program is provided in the directory develop tools selftest 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 1 3 Self Test Sequence The self test sequence calls functions from the standard and customer self test libraries Overall Self Test SSS oo ystem Self Test a S elf Test Sequence Environ Standard ment Self Test Reset Cabling Frame y System Standard Customer Reset ae Sell Test Self Test Device 2 Module 2 Device X M y Standard Customer Self Test Self Test Module n Device 1 Device Y Bild 4 2 Self Test Sequence Note that the complete R amp S CompactTSVP R amp S PowerTSVP self test is done in only one test step inside the R amp S CompactTSVP R amp S PowerTSVP SFT library The system
56. with generally recog nised technical regulations and the current state of the art in science and engineering Nevertheless there are risks associated with the unit that cannot be avoided by design To provide adequate safety for the personnel working with the R amp S CompactTSVP R amp S PowerTSVP additional safety instructions are given A satisfactory level of safety when using the Test System Versatile Platform cannot be guaranteed unless these in structions are followed Certain sections of text are specially highlighted These sections have the following meaning DANGER Failure to follow instructions can result in personal injury ELECTROCUTION HAZARD Failure to follow instructions can result in personal injury WARNING Failure to follow instructions can result in damage to the Test System Versatile Platform R amp S CompactTSVP R amp S Pow erTSVP y EP o NOTE Highlights important details to which special attention must be paid and that make work easier ROHDE amp SCHWARZ User Information CPCI DCS DMM EGTSL GTSL MU Overall Self Test PSW PXI Self Test SFT System Self Test TSVP Module Self Test TSVP Self Test UUT R amp S CompactTSVP R amp S PowerTSVP 1 4 Glossary Compact PCI DC Source Digital Multimeter Enhanced Generic Test Software Library Generic Test Software Library Measurement Unit Self test of a
57. 00 Ohm re ference resistor serves as the load The average value and peak to peak value of the voltage are recorded 4 6 11 31 2 Sequence e Connect analog bus line with 100 Ohm reference resistor e For all extended channels Connect input with output Connect input via analog bus line 100 Ohms Set voltage to 1 V Set current limiting to 2 mA For both input bandwidths Configure the sample interval and number of samples Record measurement values Reset current limiting Reset voltage Disconnect input from output and analog bus e Disconnect analog bus lines from 100 Ohm reference resistor 5th Issue 08 06 5th Issue 08 06 D A D A ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test MM HI ABxl Bx2 DMM LO MM HI ABxl Bx2 DMM LO 4 6 11 32 Input Multiplexer The self test connector is reguired for this test 4 6 11 32 1 Description The 100 Ohm resistor and relays between CHx INandCHx 1 CHx 2 in the channel input are tested CHx 1R is connected with LO in the self test connector The resistance is measured with the SFT_DMM The following measurement paths are set up CHx IN lt Kmux gt CHx 1 lt 100R gt LO lt K106 gt AGND lt K3 gt lt K111 gt or CHx IN lt Kmux gt CHx 2 lt 499R gt LO lt K106 gt AGND lt K3 gt lt K111 gt The contact between LO and AGND K106 is also measured during re sistance me
58. 02 V lt measurement value lt 1 96 V Incorrect resistance value 0 98 V lt measurement value lt 1 02 V 100 Ohm resistance measured correctly 30 mV lt measurement value lt 0 98 V Incorrect resistance value 0 V lt measurement value lt 30 mV K3 not switching 4 130 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test 4 6 11 17 2 Seguence All coupling relays are closed e Connect DCS and MU e Set up signal path to R amp S TS PIO2 e Adjust DCS e Perform measurement e Disconnect signal paths 4 6 11 18 5 V reference 4 6 11 18 1 Description Measure the 5 V reference voltage with DMM DMM and R amp S TS PIO2 are grounded for this DMM HI is connected with bus lines ABa2 ABb2 ABc2 ABd2 The following signal paths are wired in parallel on the module ABa2 lt K38 gt LABa2 lt K111 gt lt K3 gt 5V REF ABb2 lt K40 gt LABb2 lt K111 gt lt K3 gt 5V REF ABc2 lt K42 gt LABc2 lt K111 gt lt K3 gt 5V REF ABd2 lt K44 gt LABd2 lt K111 gt lt K3 gt 5V REF 4 6 11 18 2 Seguence All coupling relays are closed e Connect DMM LO with GND e Connect DMM HI with ABa2 ABb2 ABc2 ABd2 Connect R amp S TS PIO2 AGND with GND Connect R amp S TS PIO2 LABa2 LABb2 LABc2 and LABd2 with AGND e Perform voltage measurement e If 5 Vis
59. 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 34 Output Standard Channel The self test connector is required for this test 4 6 11 34 1 Description In this test case the relay between CHx OUT and CHx OUT1 is tested for the standard channels To do this the output voltage is first measu red internally at zero load Then a load is placed on the output via the following path CHx OUT lt Kout gt CHx OUT1 CHx 1 lt 100R gt CHx_1R LO AGND The voltage on the relay contact is measured via the connection from CHx IN to CHx_1 Ata voltage of 2 5 V a current of 25 mA flows th rough the contact and thus through the 100 Ohm resistor 4 6 11 34 2 Seguence Connect AGND with LO For all standard channels Connect output with input Set voltage to 2 5 V Measure voltagev ul at zero load Connect CHx OUT with CHx OUT1 Connect CHx IN with CHx 1 Measure voltage V 1 under load Disconnect CHx OUT from CHx OUT1 If the contact measurement was successful Measure voltage V_iso with relay open Disconnect CHx IN from CHx 1 Reset voltage Disconnect AGND from LO 4 143 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 11 35 Output Extended Channel The self test connector is reguired for this test 4 6 11 35 1 Description In this test case the function of the relay is tested between CHx OUT and CHx OUT1 together
60. 11 gt CH4 HI3 lt R4002 gt lt R4006 gt lt K4008 gt lt K4011 gt CH4 LO LABb2 LABb1 CH4 HI lt K4012 gt CH4 HI4 lt R4003 gt lt R4007 gt lt K4009 gt lt K4012 gt CH4 LO LABb2 LABc1 CH5 HI lt K5004 gt CH5 HI1 lt R5000 gt lt R5004 gt lt K5001 gt lt K5004 gt CH5 LO LABc2 LABc1 CH5 HI lt K5005 gt CH5 HI2 lt R5001 gt lt R5005 gt lt K5002 gt lt K5005 gt CH5 LO LABc2 LABc1 CH5 HI lt K5011 gt CH5 HI3 lt R5002 gt lt R5006 gt lt K5008 gt lt K5011 gt CH5 LO LABc2 LABc1 CH5 HI lt K5012 gt CH5 HI4 lt R5003 gt lt R5007 gt lt K5009 gt lt K5012 gt CH5 LO LABc2 LABc1 CH6 HI lt K6004 gt CH6 HI1 lt R6000 gt lt R6004 gt lt K6001 gt lt K6004 gt CH6 LO LABc2 LABc1 CH6 HI lt K6005 gt CH6 HI2 lt R6001 gt lt R6005 gt lt K6002 gt lt K6005 gt CH6 LO LABc2 LABc1 CH6 HI lt K6011 gt CH6 HI3 lt R6002 gt lt R6006 gt lt K6008 gt lt K6011 gt CH6 LO LABc2 LABc1 CH6 HI lt K6012 gt CH6 HI4 lt R6003 gt lt R6007 gt lt K6009 gt lt K6012 gt CH6 LO LABc2 LABd1 CH7 HI lt K7004 gt CH7 HI1 lt R7000 gt lt R7004 gt lt K7001 gt lt K7004 gt CH7 LO LABd2 LABd1 CH7 HI lt K7005 gt CH7 HI2 lt R7001 gt lt R7005 gt lt K7002 gt lt K7005 gt CH7 LO LABd2 LABd1 CH7 HI lt K7011 gt CH7 HI3 lt R7002 gt lt R7006 gt lt K7008 gt lt K7011 gt CH7 LO LABd2 LABd1 CH7 HI lt K7012 gt CH7 HI4 lt R7003 gt lt R7007 gt lt K7009 gt lt K7012 gt CH7 LO LABa2 LABd1 CH8 HI lt K8004 gt CH8 HI1 lt R8000 gt lt R8004 gt lt K8001 gt lt K8004 gt CH8 LO LABd2 LABd1 CH8 HI lt K8005 gt CH8 HI2 lt R8001 gt lt
61. 13 1 Description The function of 32 multiplexer relays will be tested A contact and iso lation measurement is performed for each normally open contact of the two pin relays If the contact measurement was successful in a signal path the con nection CHx LOy CHx LOy com is also ensured through the corres ponding sense relay If necessary an isolation measurement can also be performed for this case between CHx LOy and CHx LOy comin Because of the special connection of this relay the 1 kOhm resistance in the sense path must be measured within the tolerance The corres ponding relay is marked as defective for all other measurement values The following signal paths are set up one after the other LABal CH1 HI lt K1004 gt CH1 HI1 CH5 HI1 lt K5004 gt CH5 HI LABcl LABal CH1 LO lt K1004 gt lt K1001 gt CH1 LO1 CH5 LO1 lt K5001 gt lt K5004 gt CH5 LO LABc1 LABal CH1 HI lt K1005 gt CH1 HI2 CH5 HI2 lt K5005 gt CH5 HI LABcl LABal CH1 LO lt K1005 gt lt K1002 gt CH1 LO2 CH5 LO2 lt K5002 gt lt K5005 gt CH5 LO LABc1 LABal CH1 HI lt K1011 gt CH1 HI3 CH5 HI3 lt K5011 gt CH5 HI LABcl LABal CH1 LO lt K1011 gt lt K1008 gt CH1 LO3 CH5 LO3 lt K5008 gt lt K5011 gt CH5 LO LABc1 4 115 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP LABal CH1
62. 15 friendly disposal or specialized recycling Dispose of them in appropriate containers only Do not short circuit the battery Equipment returned or sent in for repair must be packed in the original packing or in packing with electrostatic and mechanical protection implemented 14 The outside of the instrument is suitably cleaned using a soft lint free dustcloth Never use solvents such as thinners acetone or similar as they may damage the front panel labeling or plastic parts Any additional safety instructions given in this manual are also to be observed Additional safety instructions Any alteration to the basic equipment is prohibited unless carried out by persons authorized to do so according to section 9 of these safety instructions In case that a module is inserted which is specified for an analog bus operation lt 60 VDC then this limit is also restrictively valid for the total system The voltage limits for exposed voltage carrying parts under DIN EN61010 1 6 3 must on no account be exceeded If the use of higher voltages is required this may be done only after consultation with R amp S The total power which may be drawn from the secondary side depends on the format of the relevant backplane segment typically 250VA When installing in racks the ventilation of the system must be such that the specified data sheet values of 0 50 C are adhered to 095 1000 BI 16 PLN SA CERTIFICATE DQS GmbH
63. 5 2 4 6 9 6 4 6 9 6 1 4 6 9 6 2 4 6 9 7 4 6 9 8 4 6 9 8 1 4 6 9 8 2 4 6 9 9 4 6 9 10 4 6 9 10 1 4 6 9 10 2 4 6 9 11 4 6 9 11 1 4 6 9 11 2 4 6 9 12 4 6 9 12 1 4 6 9 12 2 4 6 9 13 4 6 9 13 1 4 6 9 13 2 4 6 9 14 4 6 9 14 1 4 6 9 14 2 4 6 9 15 4 6 9 15 1 4 6 9 15 2 4 6 9 16 4 6 9 16 1 4 6 9 16 2 4 6 9 17 4 6 9 17 1 4 6 9 17 2 4 6 9 18 4 6 9 18 1 4 6 9 18 2 4 6 9 19 4 6 9 19 1 4 6 9 19 2 4 6 9 20 4 6 9 20 1 4 6 9 20 2 4 6 9 21 4 6 9 21 1 4 6 9 21 2 4 6 9 22 4 6 9 22 1 4 6 9 22 2 4 6 9 23 R amp S CompactTSVP R amp S PowerTSVP Description Sequence External voltage Description Sequence Bus isolation Description Sequence Coupling relays bus lines A B Description Sequence Coupling Relays Bus Lines C D Matrix relays bus lines A B Description Sequence Matrix Relays Bus Lines C D Ground relays Description Sequence Voltage setting Description Sequence Current setting Description Sequence PAC control Description Sequence Measurement of voltage force Description Sequence Measurement of voltage sense Description Sequence Measurement current Description Sequence Trigger bus input Description Sequence Trigger bus output Description Sequence External trigger In Out Description Sequence Monitor output Description Sequence High current Description Sequence External sensing Description Sequence Sense protection 4 85 4 85 4 86 4 8
64. 6 4 86 4 86 4 86 4 87 4 87 4 87 4 87 4 88 4 88 4 88 4 89 4 89 4 90 4 90 4 90 4 91 4 91 4 91 4 91 4 91 4 92 4 92 4 92 4 92 4 93 4 93 4 93 4 93 4 93 4 94 4 94 4 94 4 95 4 95 4 95 4 95 4 96 4 96 4 96 4 96 4 96 4 96 4 97 4 97 4 97 4 98 4 98 4 99 4 99 4 99 4 100 4 101 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP 4 6 9 23 1 4 6 9 23 2 4 6 9 24 4 6 9 24 1 4 6 9 24 2 4 6 9 25 4 6 9 25 1 4 6 9 25 2 4 6 9 26 4 6 9 26 1 4 6 9 26 2 4 6 10 4 6 10 1 4 6 10 1 1 4 6 10 1 2 4 6 10 2 4 6 10 2 1 4 6 10 2 2 4 6 10 3 4 6 10 3 1 4 6 10 3 2 4 6 10 4 4 6 10 4 1 4 6 10 4 2 4 6 10 5 4 6 10 5 1 4 6 10 5 2 4 6 10 6 4 6 10 6 1 4 6 10 6 2 4 6 10 7 4 6 10 8 4 6 10 9 4 6 10 10 4 6 10 10 1 4 6 10 10 2 4 6 10 11 4 6 10 11 1 4 6 10 11 2 4 6 10 12 4 6 10 12 1 4 6 10 12 2 4 6 10 13 4 6 10 13 1 4 6 10 13 2 4 6 10 14 4 6 10 14 1 4 6 10 14 2 4 6 11 4 6 11 1 4 6 11 1 1 4 6 11 1 2 4 6 11 2 4 6 11 2 1 4 6 11 2 2 Description Sequence Sense relays Description Sequence Force relays Description Sequence Sink mode Description Sequence Switch Multiplex Module 2 R amp S TS PSM2 Initialisation Description Sequence Configuration Description Sequence Device self test Description Sequence External voltage Description Sequence Bus isolation Description Sequence Matrix relays LABa1 LABa2 Description Sequence Matrix relays LABb1
65. 6 11 23 1 4 6 11 23 2 4 6 11 24 R amp S CompactTSVP R amp S PowerTSVP Device self test 4 120 Description 4 120 Sequence 4 120 Supply Voltages 4 121 Description 4 121 Sequence 4 121 Temperatures 4 121 Description 4 121 Sequence 4 121 Correction Data 4 121 Description 4 121 Sequence 4 121 External voltage 4 122 Description 4 122 Sequence 4 122 Bus isolation 4 122 Description 4 122 Sequence 4 123 Matrix relays LABa1 LABa2 4 123 Description 4 123 Sequence 4 123 Matrix relays LABb1 LABb2 4 124 Matrix relays LABc1 LABc2 4 124 Matrix relays LABd1 LABd2 4 124 Coupling relays 4 125 Description 4 125 Sequence 4 125 Ground Relay 4 126 Description 4 126 Sequence 4 127 AGND to LAB Relays 4 128 Description 4 128 Sequence 4 128 Loop Back Relays 4 129 Description 4 129 Sequence 4 129 100 Ohm reference 4 130 Description 4 130 Sequence 4 131 5 V reference 4 131 Description 4 131 Sequence 4 131 Reference Relay 4 132 Analog Input 4 132 Description 4 132 Sequence 4 132 Analog Output 4 133 Description 4 133 Sequence 4 133 Output Current 4 133 Description 4 133 Sequence 4 133 Digital Output 4 134 Description 4 134 Sequence 4 134 Current Limit 4 135 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP 4 7 5 1 5 2 5 3 6 1 4 6 11 24 1 4 6 11 24 2 4 6 11 25 4 6 11 25 1 4 6 11 25 2 4 6 11 26 4 6 11 26 1 4 6 11 26 2 4 6 11 27 4 6 11 27 1 4 6 11 27 2 4 6 11 28 4 6 11 28 1 4 6 11 28 2
66. 7 22 2 4 6 7 23 4 6 7 23 1 4 6 7 23 2 4 6 7 24 4 6 7 24 1 4 6 7 24 2 4 6 8 4 6 9 4 6 9 1 4 6 9 1 1 4 6 9 1 2 4 6 9 2 4 6 9 2 1 4 6 9 2 2 4 6 9 3 Matrix Relays Bus Lines C D Ground Relays Description Sequence CHx_LO to CHxy_HI Relays Description Sequence Amplifier Offset Description Sequence Amplifier Gain Description Sequence Scanner Offset Description Sequence Scanner Gain Description Sequence Filter DC Description Sequence DAC Description Sequence DAC Multi Channel Description Sequence Trigger Bus Input Description Sequence Trigger Bus Output Description Sequence Analog Trigger Description Sequence External Trigger In Out Description Sequence Channel Multiplexer Description Sequence CHx_LO to CHx_LO1 Relay Description Sequence System Module R amp S TS PSYS1 and R amp S TS PSYS2 Power Supply Load Module R amp S TS PSU Initialisation Description Sequence Configuration Description Sequence Device self test ROHDE amp SCHWARZ Content 4 62 4 63 4 63 4 63 4 64 4 64 4 65 4 66 4 66 4 66 4 67 4 67 4 67 4 68 4 68 4 68 4 69 4 69 4 70 4 70 4 70 4 72 4 73 4 73 4 73 4 74 4 74 4 74 4 75 4 75 4 75 4 76 4 76 4 76 4 77 4 77 4 78 4 79 4 79 4 79 4 80 4 80 4 81 4 81 4 81 4 83 4 84 4 85 4 85 4 85 4 85 4 85 4 85 4 85 4 85 ROHDE amp SCHWARZ Content 4 6 9 3 1 4 6 9 3 2 4 6 9 4 4 6 9 4 1 4 6 9 4 2 4 6 9 5 4 6 9 5 1 4 6 9
67. 8 Matrix relays bus lines A B 4 6 9 8 1 Description The function of relays on analogue bus lines is tested A contact and isolation measurement is performed for each relay In the measure ment of the contact resistance multiple relays are always measured wi red in series 4 88 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 9 8 2 Sequence The measurement path is always set up as follows DMM HI LABx PSAM ABx LABx lt Kx gt CHx y lt Ky gt LABy ABy LABy PSAM DMM LO Signal Note DMM HI HI line of the resistance measurement unit LABx PSAM HI line on the local analogue bus R amp S TS PSAM ABx HI line on analogue bus LABx HI line on the local analogue bus R amp S TS PSU Kx Matrix relay in the HI line CHzn R amp S TS PSU device connection Ky Matrix relay in the LO line LABy LO line on the local analogue bus R amp S TS PSU ABy LO line on analogue bus LABy PSAM LO line on the local analogue bus R8S TS PSAM DMM LO LO line of the resistance measurement unit Two bus lines must always be selected that do not have any short cir cuit between them The results of the bus isolation measurement are used for this purpose If the measurement branch is a low Ohm connection the measurement value is logged as a contact resistance for both relays Kx and Ky Then Kx an
68. ABGI CH7 HI lt K70115CH7 HI3 CH3 HI3 lt K3008 gt CH3 LO3 CH7 LO3 lt K7008 gt lt K7011 gt CH7 LO LABd2 LABd1 CH7 HI lt K7012 gt CH7 HI4 CH3 HI4 lt K3009 gt CH3 LO4 CH7 LO4 lt K7009 gt lt K7012 gt CH7 LO LABd2 LABd1 CH8 HI lt K8004 gt CH8 HI1 CH4 HI1 lt K4001 gt CH4 LO1 CH8 LO1 lt K8001 gt lt K8004 gt CH8 LO LABd2 LABd1 CH8 HI lt K8005 gt CH8 HI2 CH4 HI2 lt K4002 gt CH4 LO2 CH8 LO2 lt K8002 gt lt K8005 gt CH8 LO LABd2 LABd1 CH8 HI lt K8011 gt CH8 HI3 CH4 HI3 lt K4008 gt CH4 LO3 CH8 LO3 lt K8008 gt lt K8011 gt CH8 LO LABd2 LABd1 CH8 HI lt K8012 gt CH8 HI4 CH4 HI4 lt K4009 gt CH4 LO4 CH8 LO4 lt K8009 gt lt K8012 gt CH8 LO LABd2 LABal CH1 HI lt K1004 gt CH1 HI1 CH5 HI1 lt K5001 gt CH5 LO1 CH1 LO1 lt K1001 gt lt K1004 gt CH1 LO LABa2 LABal CH1 HI lt K1005 gt CH1 HI2 CH5 HI2 lt K5002 gt CH5 LO2 CH1 LO2 lt K1002 gt lt K1005 gt CH1 LO LABa2 LABal CH1 HT lt K1011 gt CH1 HT3 CH5 HT3 lt K5008 gt CH5 LO3 CH1 LO3 lt K1008 gt lt K1011 gt CH1 LO LABa2 LABal CH1 HI lt K1012 gt CH1 HI4 CH5 HI4 lt K5009 gt CH5 L04 CH1 LO4 lt K1009 gt lt K1012 gt CH1 LO LABa2 LABal CH2 HI lt K2004 gt CH2 HI1 CH6 HI1 lt K6001 gt CH6 LO1 CH2 LO1 lt K2001 gt lt K2004 gt CH2 LO LABa2 LABal CH2 HI lt K2005 gt CH2 HI2 CH6 HI2 lt K6002 gt CH6 LO2 CH2 LO2 lt K2002 gt lt K2005 gt CH2 LO LABa2 LABa1 CH2 HI lt K2011 gt CH2 HI3 CH6 HI3 lt K6008 gt CH6 LO3 CH2 LO3 lt K2008 gt lt K2011 gt CH2 LO LABa2 LABal CH2 HI lt K2012 gt CH2 HI4 CH6 HI4 lt K6009 gt CH6 LO4 CH2 LO4 lt
69. August Schanz Stra e 21 A v ha p TED e E a AACR Se 104 2M 02 90 KBA ZM A 00023 95 Appendix to Certificate Registration No 001954 OM ST Rohde amp Schwarz GmbH amp Co KG Munhldorfstrasse 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 GP Annex to Certificate Registration No 001954 OM 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 Wendenschlo strasse 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 Munchen Rohde amp Schwarz Messgeratebau 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 Production and Sale of Communication Equipment Installa
70. Ba1 and LABa2 is measured MU_HI is switched to ABb1 The insulation resistance between LABa1 and LABb1 is measured MU_HI is switched to ABb2 The insulation resistance between LABa1 and LABb2 is measured The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way 4 31 ROHDE amp SCHWARZ Self Test 4 32 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The MU is reset MU_HI is switched to ABa1 MU_LO is switched to Ground The insulation resistance between ABa1 and Ground is measured The connections of MU_LO and MU_HI are opened again MU_LO is switched to ABa2 and MU_HI to ABb1 The insulation resistance between LABa2 and LABb1 is measured MU_HI is switched to ABb2 The insulation resistance between LABa2 and LABb2 is measured The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way This process is now repeated until measurements have been carried out between all the bus lines and between each individual bus line and Ground At the end of the test case all coupling and matrix relays are opened again by calling the function rspmb reset DCS Basic Test The insulation resistance between DCS_HI and DCS_LO and DCS_HI and GND is measured The connection DCS_LO lt gt GND is opened The DCS
71. Bx CHzn LABy lt Ky gt ABy LABy PSAM Signal Comment DMM HI HI line of the resistance measuring unit LABx PSAM HI line on local analog bus R amp S TS PSAM HI line on analog bus Kx Coupling relay in the HI line LABx HI line on local analog bus R amp S TS PAM CHzn Device connection R amp S TS PAM LABy LO line on local analog bus R amp S TS PAM Ky Coupling relay in the LO line LO line on analog bus 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Signal Comment LABy PSAM LO line on local analog bus R amp S TS PSAM DMM LO LO line of the resistance measuring unit Two bus lines are always selected which show no short circuit with each other For this the result of the bus insulation measurement is used If the measuring path shows a low ohm connection the measured va lue is recorded as contact resistance for both relays Kx and Ky Then Kx and Ky are individually opened and on each a insulation measure ment is carried out If no low ohm connection is detected one of the four relays on the mo dule R amp S TS PAM does not close No insulation measurement for the coupling relay can thus be carried out The measurement is repeated with the next device channel CHzn If on all lines CHzn no connection is fou
72. CH1no lt gt LABa1 is opened The insulation resistance is measured 4 19 ROHDE amp SCHWARZ Self Test 4 20 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The connection CH1no lt gt LABb1 is opened The connection CH5no lt gt LABa1 is closed The connection CH5no lt gt LABb1 is closed The contact resistance is measured The connection CH5no lt gt LABa1 is opened The insulation resistance is measured The connection CH5no lt gt LABb1 is opened The contact resistance and insulation resistance is measured in the same way up to CH8com All coupling relays are opened Channel Relays Tests all channel paths CH1 CH16 All coupling relays are closed MU LO is switched to ABa1 MU_HI is switched to ABb1 The connection CH1com lt gt LABa1 is closed The connection CH1no lt gt LABb1 is closed The connection CH1com lt gt CH1no is closed The contact resistance is measured The connection CH1com lt gt CH1no is opened The insulation resistance is measured The connection CH1com lt gt CH1no is closed The connection CH1com lt gt LABa1 is opened The insulation resistance is measured The connection CH1com lt gt LABa1 is closed The connection CH1no lt gt LABb1 is opened The insulation resista
73. DCS must go into the current limiter The voltage is measured and recorded The test results are recorded in the SFT Report Trigger Bus Tests the function of the driver and receiver chips to the trigger bus A trigger pulse is configured with the help of IT1 on the current trigger bus line A triggered voltage measurement is configured on the current trigger bus line The trigger pulse is initiated The test result is obtained There must be no timeout This measurement is repeated for all trigger bus lines The test results are recorded in the SFT Report 4 43 ROHDE amp SCHWARZ Self Test 4 44 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence Relays Multiplexer The relay contacts of the two multiplexers can be tested with the self test board This board contains connections between the lo cal analog bus and the relay contacts This test therefore also tests the plug in contacts of the analog bus The test can only be car ried out with the self test adapter connected to X10 The test results are recorded in the SFT Report External Trigger Tests the function of the XTOx and XTIx sig nals The outputs are connected to the trigger inputs via the self test board The test can only be carried out with the self test adapter connected to X10 Configure trigger pulse on XTO1 with the help of IT1 Configu
74. E amp SCHWARZ Appendix KKEKEKKKKKKKKKKKKKKKKKKKKKKKKKKKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK Z Z Z KKK KKK KKK KKKKKKK Component Name Component Status Information passed Test Case Name Test Case Status Result Loop Counter 1 Loop Count passed KKEKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKKKKKKK Component Name SFT DLL Version SFT DLL Name Component Status Basic Tests SFTSTSVP 01 02 SFTSTSVP passed Test Case Name Test Case Status Extern Voltage passed Test Case Name Test Case Status Result Configuration passed A 1 ROHDE amp SCHWARZ Appendix R amp S CompactTSVP R amp S PowerTSVP TS PSAM Driver Revision Driver rspsam 2 43 Compiler CVI 5 50 Components IVIEngine 1 62 VISA Spec 2 20 TS PSAM Firmware Revision Rohde amp Schwarz TS PSAM 338931 002 01 00 TS PSAM Hardware Code 0 TS PSAM Slot Number 0 Test Case Name BusIsolation Test Case Status passed Test Case Name DCS Basic Test Test Case Status passed Test Case Name DCS Relayfunction HI LO Test Case Status passed Test Case Name DCS Relayfunction SHI Test Case Status passed Test Case Name DCS Relayfunction SENSE Test Case Status passed Test Case Name Relayfunction GND Test Case Status passed Test Case Name MU Relayfunction HI Test Case Status passed Test Case Name MU Relayfunction LO Test Case Status passed Test Case Name MU Relayfun
75. Germany Errors excepted subject to technical change without notice Safety Instructions This unit has been designed and tested in accordance with the EC Certificate of Conformity and has left the manufacturer s plant in a condition fully complying with safety standards To maintain this condition and to ensure safe operation the user must observe all instructions and warnings given in this operating manual Safety related symbols used on equipment and documentation from R amp S L ditions and positions specified by the manufac turer Unless otherwise agreed the following applies to R amp S products IP degree of protection 2X Pollution severity 2 overvoltage category 2 altitude max 2000 m The unit may be operated only from AC supply mains fused with max 16 A For measurements in circuits with voltages Vrms gt 30 V suitable measures should be taken to avoid any hazards using for example appropriate measuring equipment fusing current limiting electrical separation insulation If the unit is to be permanently wired the PE terminal of the unit must first be connected to the PE conductor on site before any other con nections are made Installation and cabling of the unit to be performed only by qualified techni cal personnel For permanently installed units without built in fuses circuit breakers or similar protective de vices the supply circuit must be fused such as to provide suitable protectio
76. H6 LO LABc2 LABd1 CH7 LO lt K7004 gt lt K7001 gt CH7 THRU LO1 H8 THRU LO1 lt K8001 gt lt K8004 gt CH8 LO LABd2 4 6 10 14 2 Seguence Contact between CHx HIy and CHx LOy e Self test connector present e Coupling relays R amp S TS PSAM and R amp S TS PSM2 are closed e For each signal path Close LPB relays involved disconnect channels from side connector Set up signal path Perform contact measurement Ifthe contact measurement was successful Deactivate sense relay Perform isolation measurement Disconnect signal path Open the LPB relay involved disconnect channels from LPB Contact betweencHx THRU _LO1 and CHx LO1 e Self test connector present e Coupling relays R amp S TS PSAM and R amp S TS PSM2 are closed e For each signal path Close LPB relays involved disconnect channels from side connector Setup signal path Perform contact measurement Disconnect signal path Open the LPB relay involved disconnect channels from LPB 4 119 ROHDE amp SCHWARZ Self Test 4 120 R amp S CompactTSVP R amp S PowerTSVP 4 6 11 Analog Digital IO Module 2 R amp S TS PIO2 4 6 11 1 Initialisation 4 6 11 1 1 Description The driver is opened The Resource Descriptor and optional Option String from the physical INI file are used to do this If the initialisation of the driver fails the test for the module is
77. HI line on local analog bus R amp S TS PSAM ABx HI line on analog bus Kx Coupling relay in the HI line LABx HI line on local analog bus R amp S TS PAM Px Device connection R amp S TS PMB LABy LO line on local analog bus R amp S TS PAM Ky Coupling relay in the LO line ABy LO line on analog bus 4 25 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP Signal Comment LABy PSAM LO line on local analog bus R amp S TS PSAM DMM LO LO line of the resistance measuring unit Two bus lines are always selected which show no short circuit with each other For this the result of the bus insulation measurement is used If the measuring path shows a low ohm connection the measured va lue is recorded as contact resistance for both relays Kx and Ky Then Kx and Ky are individually opened and on each a insulation measure ment is carried out If no low ohm connection is detected one of the four relays on the mo dule R amp S TS PMB does not close No insulation measurement for the coupling relay can thus be carried out The measurement is repeated with the next channel Px If on all lines Px no connection is found a coupling relay is probably defective The measurements are repeated for all bus lines ABx 4 6 2 7 P Matrix Relays 4 6 2 7 1 Description The function of the relay for the pins P1 up to P90 is tested For each relay a contact and
78. LABb2 Matrix relays LABc1 LABc2 Matrix relays LABd1 LABd2 Coupling relays Description Sequence Local power bus relays Description Sequence Shunt resistor path Description Sequence Multiplexer relays Description Sequence Sense relays Description Sequence Analog Digital IO Module 2 R amp S TS PIO2 Initialisation Description Sequence Configuration Description Sequence ROHDE amp SCHWARZ Content 4 101 4 101 4 102 4 102 4 102 4 103 4 103 4 104 4 104 4 104 4 105 4 106 4 106 4 106 4 106 4 106 4 106 4 106 4 106 4 106 4 106 4 107 4 107 4 107 4 108 4 108 4 109 4 109 4 109 4 109 4 110 4 110 4 110 4 110 4 110 4 111 4 112 4 112 4 112 4 113 4 113 4 115 4 115 4 115 4 116 4 117 4 117 4 119 4 120 4 120 4 120 4 120 4 120 4 120 4 120 ROHDE amp SCHWARZ Content 4 6 11 3 4 6 11 3 1 4 6 11 3 2 4 6 11 4 4 6 11 4 1 4 6 11 4 2 4 6 11 5 4 6 11 5 1 4 6 11 5 2 4 6 11 6 4 6 11 6 1 4 6 11 6 2 4 6 11 7 4 6 11 7 1 4 6 11 7 2 4 6 11 8 4 6 11 8 1 4 6 11 8 2 4 6 11 9 4 6 11 9 1 4 6 11 9 2 4 6 11 10 4 6 11 11 4 6 11 12 4 6 11 13 4 6 11 13 1 4 6 11 13 2 4 6 11 14 4 6 11 14 1 4 6 11 14 2 4 6 11 15 4 6 11 15 1 4 6 11 15 2 4 6 11 16 4 6 11 16 1 4 6 11 16 2 4 6 11 17 4 6 11 17 1 4 6 11 17 2 4 6 11 18 4 6 11 18 1 4 6 11 18 2 4 6 11 19 4 6 11 20 4 6 11 20 1 4 6 11 20 2 4 6 11 21 4 6 11 21 1 4 6 11 21 2 4 6 11 22 4 6 11 22 1 4 6 11 22 2 4 6 11 23 4
79. R amp S PowerTSVP 4 6 9 25 Force relays 4 6 9 25 1 Description ROHDE amp SCHWARZ Self Test The self test connector is reguired for this test The function of the force relays is tested Using the self test connector the force lines are short circuited or connected with each other through a resistor The function of the contact is tested using adjustable current limiting The settings for the source were selected as follows Measurement type Voltage Current limiting Note inV in A Isolation measurement 50 0 1000e 6 Threshold at 50 kOhm Contact measurement CHx 1 10 500e 6 Threshold at 20 kOhm Contact measurement CHx 2 0 5 100e 3 Threshold at 5 Ohm CHx 3 Contact measurement CHx 4 1 0 100e 3 Threshold at 10 Ohm Channel 1 The following signal paths are used for measurements Only channel 1 is connected with GND lt 10 kOhm gt CHI LO1 lt K29 gt CH1 IO lt K29 gt CH1 HI 1 lt K30 gt CH1 H lt K31 gt CH1 H CH1 HI CH1 HI CH1 HI CH1 HI Channel 2 HI lt K32 gt CH1 HI4 CH2 HI lt K37 gt CH2 LO4 Only channel 2 is connected with GND I2 CH1 LO2 lt K30 gt CH1 LO I3 CH1 LO3 lt K31 gt CH1 LO 4 lt K37 gt CH2 HI CH1 LO4 lt K32 gt CH1 LO lt K45 gt LAB D2 lt K50 gt CH2 LO B B2 lt K12 gt CH1 LO CH2 HI lt K34 gt CH2 HI1 lt 10 kOhm gt CH2 LO1 lt K34 gt CH2 LO
80. R8005 gt lt K8002 gt lt K8005 gt CH8 LO LABd2 LABd1 CH8 HI lt K8011 gt CH8 HI3 lt R8002 gt lt R8006 gt lt K8008 gt lt K8011 gt CH8 LO LABd2 LABd1 CH8 HI lt K8012 gt CH8 HI4 lt R8003 gt lt R8007 gt lt K8009 gt lt K8012 gt CH8 LO LABd2 4 114 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP 4 6 10 12 2 Seguence e Coupling relays R amp S TS PSAM and R amp S TS PSM2 are closed ROHDE amp SCHWARZ Self Test For each Local Power Bus channel Close LPB relay disconnect channel from side connector Swi Swi For each multipl Perform relay If the resistance value is within the limits Perform isolation measurement Disconnect CHx_y from CHx Disconnect Disconnect Open LPB relay Connect CHx Hl resistance measurement Disconnect CHx HIy from CHx LOy deactivate sense tch CHx HI and CHx LO to analogue bus tch DMM HI and DMM LO to analogue bus exer channel Connect CHx y with CHx y with CHx LOy activate sense relay t DMM HI and DMM LO from the analogue bus t CHx HI and CHx LO from the analogue bus 4 6 10 13 Multiplexer relays A self test connector is required for this test case 4 6 10
81. ROHDE amp SCHWARZ Service Documents R amp S CompactTSVP R amp S PowerTSVP 8 2 Plug In Cards 8 2 1 Analyzer Module R amp S TS PAM The interfaces for the Analyzer Module are described in the Analyzer Module R amp S TS PAM User Manual 8 2 2 Digital Functional Test Module R amp S TS PDFT The interfaces for the Digital Functional Test Module are described in the Digital Functional Test ModuleR amp S TS PDFT User Manual 8 2 3 Arbitrary Function Generator Module R amp S TS PFG The interfaces for the Arbitrary Function Generator Module are de scribed in the Arbitrary Function Generator Module R amp S TS PFG User Manual 8 2 4 InCircuit Test Module R amp S TS PICT The interfaces for the InCircuit Test Module are described in the InCir cuit Test Module R amp S TS PICT User Manual 8 2 5 Matrix Module B R amp S TS PMB The interfaces for the Matrix Module B are described in the Matrix Module B R amp S TS PMB User Manual 8 2 6 Source and Measurement Module R amp S TS PSAM The interfaces for the Source and Measurement Module are described in the Source and Measurement Module R amp S TS PSAM User Manu al 8 2 7 Power Switch Module R amp S TS PSM1 The interfaces for the Power Switch Module are described in the Pow er Switch Module R amp S TS PSM1 User Manual 8 2 8 Switch Multiplex Module 2 R amp S TS PSM2 The interfaces for the Switch Multiplex Module are described in the Switc
82. SVP 4 6 7 16 2 Sequence DCS is switched to the analog bus e For each data acquisition path For the two combinations of the oscilloscope channels Connect channel 1 with bus line LO Connect channel 2 with bus line HI Configure channels For all filter settings e Select filter e Carry out measurement Disconnect channel 1 from bus line LO Disconnect channel 2 from bus line HI 4 72 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 7 17 DAC 4 6 7 17 1 Description The function of the digital to analog converter DAC is tested The data acquisition path is connected with GND Each oscilloscope channel is connected one after another with the associated DAC The following measurements are carried out DAC voltage in V Measurement range in V 0 0 0 2 0 5 1 0 The following settings are the same for all measurements Input impedance 10 MQ Filter 400 Hz Observation time 20 0 ms Sampling values 1000 The average value is taken from the sample values 4 6 7 17 2 Sequence e For each data acquisition path Connect CHx LO with GND For each oscilloscope channel Connect UREFxy with CHxy HI For each voltage e Set range e Set DAC e Carry out measurement Disconnect UREFxy from CHxy HI Disconnect CHx LO from GND 4 73 ROHDE amp SCHWARZ Self Test 4 74 R amp S CompactTS
83. SVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence The insulation resistance between LABa1 and LABb1 is measured MU_HI is switched to ABb2 The insulation resistance between LABa1 and LABb2 is measured The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way The MU is reset MU_HI is switched to ABa1 MU_LO is switched to Ground The insulation resistance between ABa1 and Ground is measured The connections of MU_LO and MU_HI are disconnec ted MU_LO is switched to ABa2 and MU_HI to ABb1 The insulation resistance between LABa2 and LABb1 is measured MU_HI is switched to ABb2 The insulation resistance between LABa2 and LABb2 is measured The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way This process is now repeated until measurements have been carried out between all the bus lines and between each individual bus line and Ground At the end of the test case all coupling relays are opened again by calling the function rspsml reset Shunt Relays Tests the shunt relays All coupling relays are closed MU LO is switched to ABa1 MU_HI is switched to ABb1 The connection CH1no lt gt LABa1 is closed The connection CH1no lt gt LABb1 is closed The contact resistance is measured The connection
84. TA2 is programmed to 4 V The voltage measurement triggered by XTA2 is configu red The DCS is switched on The measurement result is read out There must be no timeout The result must be greater than 4 V The DCS is switched off The test results are recorded in the SFT Report MU AC Coupling Tests the MU AC Coupling The DCS is connected to the MU The MU is run in the AC voltage mode in the 1 V range Stimulus DC The DCS generates a DC voltage of 1 V The MU must not indicate any voltage Stimulus AC 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence The test results are recorded in the SFT Report DCH Tests the function of the discharge circuit DCS Hl is switched to ABa1 DCS LO is switched to GND MU_HI is switched to ABa1 MU_LO is switched to GND DCH_HI is switched to ABa1 MU settings Function DC Volt Range 10 V Filter 400 Hz The DCS is switched on The DCH is switched on The following settings are made for all ranges of the DCH unit The DCH range is set The DCS current limiter is set The DCS voltage is set to 2 V The DCS must go into the current limiter The voltage is measured and recorded The DCS voltage is set to 2 V The
85. U is reset All coupling relays are closed The output voltage of the DCS is set The current limit of the DCS is set DCS_LO is switched to GND DCS_HI is switched to ABa1 and ABa2 Coupling relays ABa1 LABa1 and ABa2 LABa2 on R amp S TS PSAM are closed The ground relay is closed The matrix relay P1 LABa1 is closed The DCS output is activated Is the DCS in the current limit Yes gt Test OK No gt Test not OK The DCS output is deactivated All ports P1 P90 are tested in the same way All relays are opened 4 21 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP END TEST Test Case Description Test Sequence 4 22 Shunt Resistors Tests all shunt resistors The self test adapter must be connected to X10 and X1 for this test The MU is configured for a 4 wire resistance test MU_SHI is switched to ABa1 applied directly to CH1no MU_SLO is switched to ABb1 applied directly to CH1no MU_HI is switched to ABa2 continues via CH2com and the short circuit connector at X1 via power relay CH1com CH1no MU LO is switched to ABb2 via CH2no to the short cir cuit connector at X10 The relay between CH1no LABa1 is closed The relay between CH1no LABb1 is closed The relay between CH2com LABa2 is closed The relay between CH2no LABb2 is closed The rela
86. V The DCS current limiter is set to maximum value 100 mA DCS LO is switched to GND MU LO is switched to GND DCS Hl is switched to an analog bus line MU LO is switched to an analog bus line The DCS is switched on The DCS must go into the current limiter If it does there is continuity and all contact resistors are OK The DCS is switched off The connection DCS HI lt gt analog bus is opened The connection MU LO lt gt analog bus is opened If there is continuity The DCS is switched off The connection DCS LO lt gt GND is opened The DCS voltage is set to 5 V The DCS current is set to the minimum value The DCS is switched on The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance Therefore the relay between MU LO and DCS LO also isolates cleanly DCS LO is switched to GND The connection MU LO lt gt GND is opened The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Sequence The DCS is switched off MU_LO is connected to DCS_LO via the configuration re lay
87. VP R amp S PowerTSVP 4 6 7 18 DAC Multi Channel 4 6 7 18 1 Description During this test both data acquisition paths are tested one after ano ther as follows Each path is connected with GND Each oscilloscope channel is connected with the associated DAC Each DAC supplies dif ferent voltage Channel Voltage in V CHx1 0 25 CHx2 0 50 CHx3 0 75 CHx4 1 00 All oscilloscope channels are simultaneously started and record the voltages quasi simultaneously with the maximum possible sampling ra te The following settings are the same for all measurements Range 1V Input impedance 10 MQ Filter off Observation time 6 5536 ms Sampling values 32768 The average minimum and maximum value is determined from the sample values Also the number of the sample values which lie outside the tolerance band are recorded 4 6 7 18 2 Sequence e For each data acquisition path Connect CHx LO with GND connect all four UREFxy with associated CHxy HI Set all four DAC on different voltages Configure all four oscilloscope channels Carry out measurement Disconnect all four UREFxy from associated CHxy HI Disconnect CHx LO from GND 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 7 19 Trigger Bus Input 4 6 7 19 1 Description Tests the trigger inputs PXIO to PXI7 The module R amp S TS PSAM ge nerates
88. VP are permitted to be replaced e All cPCI plug in cards e All PXI plug in cards e All ROHDE 8 SCHWARZ specific Plug in Cards e Power supply Fans NOTE If a fault occurs on one of the other modules in the Test System Versatile Platform R amp S CompactTSVP R amp S Pow erTSVP e g backplane the entire R amp S CompactTSVP R amp S PowerTSVP chassis must be sent for repair WARNING On the removal of modules from the Test System Versatile Platform R amp S CompactTSVP R amp S Pow erTSVP the ESD regulations electrostatic discharge are to be observed 6 2 1 Removing Standard cPCI PXI Plug in Cards Replace cPCI PXI plug in cards as follows 1 Switch off Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP and isolate from the mains 2 Undo all cable connections to the cPCI PXI plug in card 3 Undo retaining bolts on the cPCI PXI plug in card 4 Release cPCI PXI plug in card using the ejection lever and remove from the R amp S CompactTSVP R amp S PowerTSVP chassis Removal Installation 6 3 ROHDE amp SCHWARZ Removal Installation R amp S CompactTSVP R amp S PowerTSVP 6 2 2 Removing ROHDE 8 SCHWARZ specific Plug in Cards Replace ROHDE 8 SCHWARZ specific plug in cards as follows 1 Switch off Test System Versatile Platform R8S CompactTSVP R amp S PowerTSVP and isolate from the mains Undo all cable connections to the ROHDE amp SCHWAR
89. WA3 7 1 ROHDE amp SCHWARZ Spare Parts List 7 3 Spare Parts Modules 7 3 1 R amp S TS PAM R amp S CompactTSVP R amp S PowerTSVP Item Number Spare Part 1158 0100 02 Analyzer Module with R amp S TS PDC Table 7 3 Spare Parts List R amp S TS PAM 7 3 2 R amp S TS PDC Item Number Spare Part 1157 9804 02 DC DC Converter Module Table 7 4 Spare Parts List R amp S TS PDC 7 3 3 R amp S TS PDFT Item Number Spare Part 1152 3850 00 Digital Functional Test Module Table 7 5 Spare Parts List R amp S TS PDFT 7 3 4 R amp S TS PFG Item Number Spare Part 1158 0052 02 Function Generator Module with R amp S TS PDC Table 7 6 Spare Parts List R amp S TS PFG 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Spare Parts List 7 3 5 R amp S TS PICT Item Number Spare Part 1158 0000 02 ICT Extension Module with R amp S TS PDC Table 7 7 Spare Parts List R amp S TS PICT 7 3 6 R amp S TS PMB Item Number Spare Part 1153 5040 98 Matrix Module B used part version V2 0 for ser no up to 100182 1143 0039 02 Matrix Module B version V3 x for ser no greater than 100182 1153 5085 00 Reed Relay Modul Table 7 8 Spare Parts List R amp S TS PMB 7 3 7 R amp S TS PSAM Item Number Spare Part 1142 9503 02 Analog
90. XTOx path y is triggered by XTI y Query status until recording is completed Discard path x results Discard path y results Deactivate trigger output 4 79 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 7 23 Channel Multiplexer 4 6 7 23 1 Description For this test the self test board is necessary The relays of the input multiplexer are tested The DCS with the adjus table current limit is used for evaluation DCS LO is connected with GND All coupling relays on R amp S TS PSAM and R amp S TS PAM are closed The settings for the source were selected as follows Type of Voltage Current limit Comment measurement inV in A Contact measure 0 7 10e 3 Threshold at 70 Ohm because of the ment 50 Ohm resistance against GND Insulation measu 5 0 10e 6 Threshold at 500 kOhm 4 80 rement The DCS_HI line is individually switched to the corresponding bus li nes In the self test board the local analog bus is connected with the input multiplexer The following signal paths were selected on the module Data acquisition path A LABal LABa2 LABb1 LABal LABa2 LABb1 LABal LABa2 LABb LABal LABa2 LABb 1 CHA1 HI1 lt RY9 gt CHA1 HI CHA LO GND CHA1 HI2 lt RY9 gt CHA1 HI CHA LO GND CHA1 HI3 lt RY9 gt CHA1 HI CHA LO
91. Z Z AZ AZ Z KKKKKKKEK Component Name Hardware Code Resource Descriptor Slot Number Driver Version VISA Spec 2 20 Firmware Version SFT DLL Version SFT DLL Name pdft 0 PAIS 32133202 INSTR 11 Driver rspdft 1 00 Compiler CVI 5 50 Rohde amp Schwarz SFTMPDFT 01 00 sftmpdft dll Components Component Status passed Test Case Name Initialization Test Case Status passed IVIEngine 1 62 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Appendix Test Case Name Test Case Status Device self test passed Test Case Name Test Case Status Comment Option string is Simulate 0 RangeCheck 1 DriverSetup ie l Configuration passed Test Case Name Test Case Status passed Test Case Name Test Case Status Comment Self test board required Aux Relays skipped KKEKEKKKKKKKKKKKKKKKKKKKKKKKKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKK KKKKKKK Component Name Hardware Code Resource Descriptor Slot Number Driver Version VISA Spec 2 20 Firmware Version SFT DLL Version SFT DLL Name Component Status psys 1 CAN0 0 5 15 15 Driver rspsys 1 04 Compiler Rohde amp Schwarz TS PSYS1 1 100001 004 01 00 01 00 SFTMPSYS 01 00 sftmpsys dll passed Components IVIEngine 1 62 Test Case Name Initialization passed Test Case Name passed Test Case Name Test Case Stat
92. Z specific plug in card Undo retaining bolts on the ROHDE amp SCHWARZ specific plug in card Release ROHDE amp SCHWARZ specific plug in card using the ejection lever and remove from the R amp S CompactTSVP R amp S PowerTSVP chassis 6 2 3 Removing Power Supply Replace power supply as follows 1 Switch off Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP and isolate from the mains Undo retaining bolts on the power supply Release power supply using the ejection lever and remove from the R amp S CompactTSVP R amp S PowerTSVP chassis 6 2 4 Removing Fans Replace fans as follows 1 Switch off Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP and isolate from the mains Undo all connections on the front and rear of the R amp S Com pactTSVP R amp S PowerTSVP To remove the fans the housing of the R amp S CompactTSVP R amp S PowerTSVP must be opened 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ ANALOG BU a Figure 6 1 R amp S CompactTSVP R amp S PowerTSVP Rear View DO Housing Cover Housing Feet 4 off Unbolt the four housing feet on the rear of the R amp S CompactTSVP R amp S PowerTSVP Place the R amp S CompactTSVP R amp S PowerTSVP on the handles on the front and carefully remove the housing cover from the R amp S CompactTSVP R amp S PowerTSVP The R am
93. _SLO is switched to the second analog bus Fixed DCS settings Current limiter 100 mA fast loading of parasitic capaci tors 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence Fixed MU settings Config DC Volts Filter 400 Hz The test results are recorded in the SFT Report MU DC Current Tests the MU current ranges with the help of the DCS All possible settings of the amplifier stages are checked DCS LO is switched to GND The connection MU LO lt gt GND is opened DCS Hl is switched to the analog bus DCS SHI is switched to the analog bus MU_SHI is switched to the analog bus DCS_LO is switched to the second analog bus DCS_SLO is switched to the second analog bus MU_SLO is switched to the second analog bus Fixed DCS settings Voltage 5 V or 5 V Fixed MU settings Config DC Current Filter 400 Hz The test results are recorded in the SFT Report MU RMS to DC Converter Tests the accuracy of the RMS to DC con verter This test is carried out with the DCS The measuring unit is run in the AC plus DC mode The coupling capacitor is linked out Fixed DCS settings Current limiter 100 mA fast loading of parasitic capaci tors Fixed MU settings Config AC plus DC Volts F
94. a contact was found the DCS voltage is set to 5 V The DCS current limiter is set to the minimum value The DCS is switched on The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance DCH_HI is switched to ABa1 The connection DCH_HI lt gt ABa2 is opened The test waits for a while because the complete DCH unit is on the DCS_HI line The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance The connection DCH_HI lt gt ABA1 is opened The remaining connections are removed The test results are recorded in the SFT Report MU DC Voltage This test tests the MU and DCS together The DCS unit generates DC voltages which are measured with the MU The MU checks every possible setting of the amplifier stages If all measurements fail then the source is pro bably faulty If the measurements within a certain range fail then one amplifier stage in the measurement chain is probably faulty DCS_LO is switched to GND The connection MU_LO lt gt GND is opened DCS_HI is switched to the analog bus DCS_SHI is switched to the analog bus MU_SHI is switched to the analog bus DCS_LO is switched to the second analog bus DCS_SLO is switched to the second analog bus MU
95. ange Set up range Measure output voltage Move the channel to its basic state Disconnect connection 4 101 ROHDE amp SCHWARZ Self Test 4 102 R amp S CompactTSVP R amp S PowerTSVP 4 6 9 24 Sense relays 4 6 9 24 1 Description The self test connector is reguired for this test The sense relays on the multiplexer that are not tested yet are tested with the SFT DMM The DMM is switched by the matrix to the contact short circuited in the self test connector A contact and isolation measurement is performed During the isolation measurement the input divider of the sense lines is measured The results of all sense relay tests are logged together Relays are checked in the following test cases Channel1 Channel2 Test case K1 K39 External sensing K2 K40 Sense relays K3 K41 Sense relays K4 K42 Monitor output 4 6 9 24 2 Seguence For each channel e Switch DMM to sense lines e For each sense relay Close sense relay Perform contact measurement Open sense relay Ifthe contact measurement was successful Set contact test to Passed Perform isolation measurement If successful Set isolation test to Passed otherwise Set isolation test to Failed otherwise Set contact test to Failed Set isolation test to Skipped Disconnect DMM from sense lines 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP
96. are configured Analog Mode 9 0V 500 mA The inputs DIN are configured threshold1 9 5 V threshold2 8 5 V The inputs DIN and the outputs DOUT are connected to each other for the loop back test The pattern Oxffffffff is prepared The Pattern is executed The inputs DIN are read and the result stored in an ar ray 4 55 ROHDE amp SCHWARZ Self Test 4 56 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The inputs DIN are configured threshold1 10 0 V threshold2 9 6 V The inputs DIN are read and the result stored in an ar ray The outputs DOUT are configured 3 3V TTL Mode The inputs DIN are configured threshold1 3 8 V threshold2 2 8 V The inputs DIN are read and the result stored in an ar ray The inputs DIN are configured threshold1 4 9 V threshold2 3 9 V The inputs DIN are read and the result stored in an ar ray At the end of the test case the set levels and the read re sponse patterns are recorded in the Self test Report Check Dynamic Pattern Runs a dynamic pattern test The memory for stimulus and response pattern set is re served The ports are configured The mode is configured The inputs DIN and the outputs DOUT are connected to one another The data buffer is filled with 36 patterns The Stimulus and Response
97. asurements The isolation measurement is therefore also performed for this contact 4 6 11 32 2 Sequence All coupling relays are closed Connect AGND with ABa2 ABb2 ABc2 and ABd2 Connect AGND with Lo Connect DMM LO with ABa2 ABb2 ABc2 and ABd2 For all channels e Connect input with analog bus CHx IN with LABx1 e Connect resistor with input CHx 1 with CHx IN Perform measurement e Disconnect resistor from input CHx IN from CHx 1 e Ifthe resistance measurement was in the valid range Perform isolation measurement for the relay between CHx IN and CHx 1 Reconnect CHx IN with CHx 1 Ifthe isolation measurement for K106 has not been performed yet Reconnect CHx IN with CHx 1 Disconnect Lo from AGND K106 Perform isolation measurement for K106 Reconnect LO with AGND 4 141 ROHDE amp SCHWARZ Self Test 4 142 R amp S CompactTSVP R amp S PowerTSVP e Connect CHx_IN with CHx 2 e Perform resistance measurement 499 Ohm in the self test con nector e Disconnect CHx IN from CHx 2 e Ifthe resistance measurement was in the valid range Perform isolation measurement e Disconnect input from the analog bus 4 6 11 33 LO Relay The self test connector is required for this test The result of measurements for the LO relay K106 is logged The measurements were performed in test case Input Multiplexer 5th Issue
98. ation measurement is therefore performed in an addi tional test case with a self test connector CH1 HI 1 CHL THRU LOL CH1 SENSE EN 1 C CH1 HI lt gt CH1 LO 5V COIL 5 CH1 LO I CH1 NUX EN 1 Bild 4 9 Shunt resistor path If the resistance measured is too great either the shunt resistor is faulty or one of the relays involved is not closing Thus an isolation measure ment for the sense really is also not possible If the measured resistance is too small on the other hand the sense re lay is faulty normally close contact between CHx_LOy and CHx LOy comis stuck Thus an isolation measurement is superflu ous If the resistance value is within the limits the sense relay is opened and an isolation measurement is performed If one of the two pins is not opened too low a resistance is measured approx 2 Ohm or 1 kOhm and the corresponding contact is stuck No conclusions may be drawn regarding the contact resistance bet 4 113 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP ween CHx LOy CHx HIy and CHx LOy CHx THRU LOx based on these measurements Thus the only way to test the sense relays com pletely is with a self test connector All 32 multiplexer channels are tested one after the other Before the signal paths are set up the corresponding LPB relay Local Power Bus rela
99. ays on R amp S TS PSAM and R amp S TS PAM are closed The settings for the source were selected as follows Voltage 0 4V Current limit 100 mA A threshold of 4 Ohms results The following signal paths were selected on the module ABax Py lt X10 z gt GNDNO lt K65 gt GND Because in this path there is also the relay against GND K65 this is tested during each contact measurement The first low ohm path is therefore also used for the Ground Relay test case 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 2 10 2 Sequence e Coupling relays are closed e Connect DCS_LO with GND e Connect DCS_HI with ABal and ABa2 e Set DCS voltage and current limit for contact measurement e For each channel Py Switch Py to corresponding bus line ABal or ABa2 Query DCS status Disconnect Py from the bus line 4 6 2 11 Ground Relay 4 6 2 11 1 Description For this test the self test board is necessary The path found in the test case Front connector is restored The con tact measurement was already carried out in the Front connector test case The relay against GND is now opened and the insulation measu rement carried out If no usable path was found the relay against GND probably does not close 4 6 2 11 2 Seguence e Coupling relays are closed e Connect DCS_LO with GND e Connect DCS_HI with ABa
100. cabling between the R amp S CompactTSVP R amp S PowerTSVP and these parts e The Self Test Support Library which provides generic SFT support functions like report generation user communication etc ROHDE amp SCHWARZ Self Test 4 2 R amp S CompactTSVP R amp S PowerTSVP HINWEIS Further information on the software implementation of the self test is given in the software description Generic Test Software Library GTSL 4 1 2 Concept of Execution The basic self test concept is not very different from any other test ap plication There is the Resource Manager which coordinates the ac tions and there are the device drivers which connect the software to the devices This makes it easy for the user since there is no difference between loading and running a test program and running the self test It makes it easy for the programmer since the self test libraries are writ ten the same way as the high level test libraries The self test is configured by entries in the Resource Manager s physi cal and application INI files The physical layer describes the devices the application layer contains information about self test benches opti ons and test cases The selftest exe program starts functions from the libraries descri bed above Customer specific self tests can be added to the source co de Sequence Editors like TestStand can also be used to launch self test functions from the DLLs The program selftest exe starts
101. ce Addresses 2 1 1 Technical Support 2 1 2 Ordering Spare Parts 2 2 Service Questionnaire 2 2 1 Configuration Information 2 2 1 1 PCitree example 2 2 1 2 Windows System Information 3 Safety 3 1 General 3 2 Safety Instructions 4 Self Test 4 1 Function 4 1 1 System overview 4 1 2 Concept of Execution 4 1 3 Self Test Sequence 4 1 4 R amp S CompactTSVP R amp S PowerTSVP Self Test 4 2 Hardware Required 4 3 Starting and Performance 4 4 Configuration 4 5 Basic Tests 4 6 Self Test of Plug In Cards 4 6 1 Power Switch Module R amp S TS PSM1 4 6 2 Matrix Module B R amp S TS PMB 46 2 1 Initialization 4 6 2 1 1 Description 4 6 2 1 2 Seguence 4 6 2 2 Configuration ROHDE amp SCHWARZ Content 1 1 1 1 1 2 1 3 1 4 2 1 2 1 2 1 2 1 2 2 2 5 2 5 2 5 3 1 3 1 4 1 4 1 4 1 4 2 4 3 4 4 4 5 4 6 4 12 4 15 4 16 4 16 4 23 4 23 4 23 4 23 4 23 ROHDE amp SCHWARZ Content 4 6 2 2 1 4 6 2 2 2 4 6 2 3 4 6 2 3 1 4 6 2 3 2 4 6 2 4 4 6 2 4 1 4 6 2 4 2 4 6 2 5 4 6 2 5 1 4 6 2 5 2 4 6 2 6 4 6 2 6 1 4 6 2 6 2 4 6 2 7 4 6 2 7 1 4 6 2 7 2 4 6 2 8 4 6 2 9 4 6 2 9 1 4 6 2 9 2 4 6 2 10 4 6 2 10 1 4 6 2 10 2 4 6 2 11 4 6 2 11 1 4 6 2 11 2 4 6 3 4 6 4 4 6 5 4 6 6 4 6 7 4 6 7 1 4 6 7 1 1 4 6 7 1 2 4 6 7 2 4 6 7 2 1 4 6 7 2 2 4 6 7 3 4 6 7 3 1 4 6 7 3 2 4 6 7 4 4 6 7 4 1 4 6 7 4 2 4 6 7 5 4 6 7 5 1 4 6 7 5 2 4 6 7 6 4 6 7 6 1 4 6 7 6 2 4 6 7 7 4 6 7 8 4 6 7 8 1 4 6 7 8 2 R amp
102. ceesesesnnneecetenns 4 10 Bild 4 9 Shunt resistor Path 3zo5 aionoioeSao di cece Sadu zueasiukanomnadinakls eku ee 4 113 Figure 6 1 R amp S CompactTSVP R amp S PowerTSVP Rear View 6 5 13 ROHDE amp SCHWARZ Figures 14 R amp S CompactTSVP R amp S PowerTSVP 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP Tables Table 5 1 Table 7 1 Table 7 2 Table 7 3 Table 7 4 Table 7 5 Table 7 6 Table 7 7 Table 7 8 Table 7 9 Table 7 10 Table 7 11 Table 7 12 Table 7 13 Table 7 14 Table 7 15 Table 7 16 Table 7 17 Table 7 18 ROHDE amp SCHWARZ Tables Display elements on the Plug In Cards e eeeeeeeeeeeennne 5 1 Spare Parts List TS PCAS ccccecessesssseeeeeeeeeseeeeseeeeusneeeseeeaeeeees 7 1 Spare Parts List TS PWA3 saci cicecsssciescdcuedcecessdecaicerdenetescrntaaviawcceredes 7 1 Spare Parts List R amp S TS PAM 0 0 ceceeeeeeeesesseeeeeeeesseseeeeeeeeeeeeees 7 2 Spare Parts List R amp S TS PDC 10 0 0 eeeeceeeeeessseeeeeeeeeeeeeeeeeeseeeeeees 7 2 Spare Parts List R amp S TS PDFT ccccsceeeesssseeeeeeeeesssseeeeeeeeneeeees 7 2 Spare Parts List R amp S TS PFG ccceseseeeeeeseesseeeeeeeeeeseeeeseneneeees 7 2 Spare Parts List R amp S TS PICT eeeeeeeeee eee 7 3 Spare Parts List R amp S TS PMB cccseseceeeeesseeeeeeseeeeeeeeeeeeseeeenees 7 3 Spare Parts List R amp S TS PSAM
103. component and when there is an error delivers a message on the first error found 4 6 7 3 2 Seguence Call of the function rspam self test 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test 4 6 7 4 External Voltage 4 6 7 4 1 Description The coupling relays on the component are closed Then voltage measurements between each individual bus line and GND and bet ween all bus lines are carried out If too high a level is measured the self test for this component must be aborted 4 6 7 4 2 Seguence Close coupling relay Connect DMM LO with GND For all bus lines Switch DMM H Carry out volta Disconnect DM I to the line to be tested ge measurement M HI from the bus line Disconnect DMM LO from GND For all combinations of bus lines Switch DMM LO to the first line Switch DMM H Carry out volta Disconnect DM Disconnect DM I to the second line ge measurement M Lo from the bus line M HI from the bus line 4 6 7 5 Bus Isolation 4 6 7 5 1 Description The coupling relays on the component are closed and the insulation re sistance of the bus lines with each other and the resistance of the single bus lines against GND is measured For the measurement against GND the DCS is used because high ohm resistors against GND cannot be carried out with the resistance measuring function in the Mode V vol tage injection and current measurement
104. ction SHI Test Case Status passed Test Case Name DCH Relays Test Case Status passed Test Case Name MU DC Voltage Test Case Status passed Test Case Name MU DC Current Test Case Status passed Test Case Name MU RMS to DC Converter Test Case Status passed Test Case Name MU Analog Trigger Test Case Status passed Test Case Name MU AC Coupling Test Case Status passed 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP Test Case Name Test Case Status DCH passed ROHDE amp SCHWARZ Appendix Test Case Name passed Test Case Name 40 MHz Counter passed Test Case Name Test Case Status Comment Self test board required Relays Multiplexer skipped Test Case Name Test Case Status Comment Self test board reguired External Trigger skipped KKK KKK KK AKA A RK AKA AZ AK A KA AKA A AK A KA AKA A AK A KA AZ A AK A KA KK A AKA KA KR A AK A KA AKA A AK AKA KK KKK RK KK KKK k k k Component Name Hardware Code Resource Descriptor Slot Number Driver Version VISA Spec 2 20 Firmware Version SFT DLL Version SFT DLL Name Component Status pict 0 PXI2 S130 INSTR 7 Driver rspict 1 01 Compiler CVI 5 50 SFTMPICT 01 01 sftmpict dll passed Components IVIEngine 1 62 Test Case Name passed Test Case Name Device self test passed Test Case Name Test Case Status Comment Configuration passed Option string is
105. cuit with each other For this the result of the bus insulation measurement is used If the measuring path shows a low ohm connection the measured va lue is recorded as contact resistance for both relays Kx and Ky Then Kx and Ky are individually opened and on each a insulation measure ment is carried out If no low ohm connection is detected one of the four relays on the mo dule R amp S TS PAM does not close No insulation measurement for the matrix relay can thus be carried out The two relays are marked and in a second run individually tested against a functioning relay according to the same procedure The measurements are repeated for all bus lines ABx 4 6 7 9 Matrix Relays Bus Lines C D The function of the matrix relay of the bus lines ABc1 ABc2 ABd1 and ABa2 is tested The test procedure is the same as in Section 4 6 7 8 4 62 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 7 10 Ground Relays 4 6 7 10 1 Description The relays against ground for both data acquisition paths are tested The DCS with the adjustable current limit is used for evaluation The DCS is wired as follows DCS LO to ABal ABcl and GND DCS HI to ABb1 ABd All coupling relays on R amp S TS PSAM and R amp S TS PAM are closed The settings for the source were selected as follows Type of Voltage Current limit Comment measurement in V
106. d Ky are each opened individually and a separate isolation measurement is performed for each If no low Ohm connection is determined one of the four relays involved on the module will not close Then no isolation measurement can be performed for the matrix relay The two relays are marked and tested in the second pass through against a relay that is functioning reliably The measurements are repeated for all bus lines ABx 4 6 9 9 Matrix Relays Bus Lines C D The function of the matrix relays of bus lines ABc1 ABc2 ABd1 and ABa2 is tested This procedure is described in Section 4 6 9 8 4 89 ROHDE amp SCHWARZ Self Test 4 90 R amp S CompactTSVP R amp S PowerTSVP 4 6 9 10 Ground relays 4 6 9 10 1 Description Relays against ground are tested for both channels The DCS with ad justable current limitation is used for the evaluation The DCS is swit ched as follows DCS LO to ABa DCS HI to ABb1 ABd1 ABcl and GND All coupling relays to R amp S TS PSAM and R amp S TS PSU are closed The settings for the source were selected as follows Measurement type Voltage in V Current limit in A Note Contact measurement 0 5 50e 3 Threshold at 10 Ohm Isolation measurement 5 0 100e 6 Threshold at 50 kOhm The following signal paths are selected on the module Al Bb Al Bb1 CH1 LO lt K33 gt GND CH2 LO lt K38 gt GND 4 6 9 10 2 Seguence
107. d maximum input bandwidth The average value and peak to peak value of the voltage are recorded 4 6 11 29 2 Sequence e Switch all bus lines to AGND e For all channels Connect input with analog bus line For both input bandwidths Configure the sample interval and number of samples Record measurement values Disconnect input from analog bus line Disconnect all bus lines from AGND 4 6 11 30 Noise Output 4 6 11 30 1 Description In this test case inputs are connected with the outputs and are sampled with the lowest and maximum input bandwidth The measurements are performed at an output voltage of 0 V The average value and peak to peak value of the voltage are recorded 4 6 11 30 2 Sequence For all channels Connect input with output Set current limiting for the extended channels to 10 mA For both input bandwidths Configure the sample interval and number of samples Record measurement values Reset current limiting for the extended channels Disconnect input from output 4 139 ROHDE amp SCHWARZ Self Test 4 140 R amp S CompactTSVP R amp S PowerTSVP 4 6 11 31 Noise Current Limit 4 6 11 31 1 Description In this test case inputs of the extended channels are connected with the outputs and are sampled under load with the lowest and maximum input bandwidth The measurements are performed at an output volta ge of 1 V and with active current limitations of 2 mA The 1
108. e PSU channels are grounded 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 9 16 2 Sequence For each channel e Connect CHx LOand CHx_HI to each other via the analogue bus e Configure measurement unit e Set the voltage range and value e Turn on the channel e For each level Set current limiting range and value Perform current measurement Move the channel to its basic state e Disconnect the channel from the analogue bus 4 6 9 17 Trigger bus input 4 6 9 17 1 Description Tests trigger inputs PXIO to PXI7 The R amp S TS PSAM module gene rates trigger signals with a duration of 200 ns on the corresponding li nes The tests are performed with Channel 1 of the R amp S TS PSU 4 6 9 17 2 Sequence e Set external triggering e Configure channel For all lines PXIO to PXI7 Configure trigger generator activate output Start the first measurement call the read function and test for expected exceeding of measurement time no trigger signal If the measurement was triggered in an unexpected manner in terrupt the test for that line Start the second measurement Generate trigger signal Retrieve measurement data Deactivate trigger output to R amp S TS PSAM 4 95 ROHDE amp SCHWARZ Self Test 4 96 R amp S CompactTSVP R amp S PowerTSVP 4 6 9 18 Trigger bus output 4 6 9 18 1 Description
109. e are queried 4 6 11 6 Correction Data 4 6 11 6 1 Description The following items of status information are logged for correction date e The date of the last calibration correction values saved in Flash EPROM The corresponding temperature value of the 5 V reference con verter value e The date and time of the last autocorrection 1900 01 01 01 00 00 if no correction has been performed 4 6 11 6 2 Sequence The information is queried with a special driver function 4 121 ROHDE amp SCHWARZ Self Test 4 122 R amp S CompactTSVP R amp S PowerTSVP 4 6 11 7 External voltage 4 6 11 7 1 Description The coupling relays in the module are closed Then voltage measure ments are performed between each individual bus lines and GND as well as between all individual bus lines If too high a level is detected the self test must be interrupted for that module 4 6 11 7 2 Sequence e Close coupling relays e Connect DMM LO with GND e For all bus lines Switch DMM HI to the line that will be tested Perform voltage measurement Disconnect DMM HI from the bus line e Disconnect DMM Lo from GND e For all combinations of bus lines e Switch DMM LO to the first line e Switch DMM HI to the second line Perform voltage measurement e Disconnect DMM LO from the bus line e Disconnect DMM HI from the bus line 4 6 11 8 Bus isolation 4 6 11 8 1 Description The coupling relays on the com
110. e function rspmb self test 4 23 ROHDE amp SCHWARZ Self Test 4 24 R amp S CompactTSVP R amp S PowerTSVP 4 6 2 4 External Voltage 4 6 2 4 1 Description The coupling relays on the component are closed Then voltage measurements between each individual bus line and GND and between all bus lines are carried out If too high a level is measured the self test for this component must be aborted 4 6 2 4 2 Sequence e Close coupling relay e Connect DMM LO with GND e For all bus lines Switch DMM HI to the line to be tested Carry out voltage measurement Disconnect DMM HI from the bus line e Disconnect DMM Lo from GND e For all combinations of bus lines Switch DMM LO to the first line Switch DMM HI to the second line Carry out voltage measurement Disconnect DMM LO from the bus line Disconnect DMM HI from the bus line 4 6 2 5 Bus Isolation 4 6 2 5 1 Description The coupling relays on the component are closed and the insulation re sistance of the bus lines to one another and the resistance of the indi vidual bus lines to GND are measured For the measurement against GND the DCS is used because high ohm resistances against GND can not be carried out with the resistance measuring function in the Mode V voltage injection and current measurement of the R amp S TS PSAM module To determine whether the minimum permitted resistance of a bus line against GND is not reac
111. e initialisation of the driver fails the test for the module is interrupted 4 6 10 1 2 Sequence Function rspsm2 InitWithOptions is called 4 6 10 2 Configuration 4 6 10 2 1 Description The current configuration parameters driver and firmware version as signed slot on the frame and hardware code are determined The Op tion String used during initialisation is also generated in the report 4 6 10 2 2 Seguence Call to function rspsm2 revision query and query of attributes RSPSM2 ATTR FRAME NUMBER RSPSM2 ATTR SLOT NUMBER and RSPSM2 ATTR HW CODE 4 6 10 3 Device self test 4 6 10 3 1 Description The self test function is started in the driver This function performs in ternal tests in the module In the event of an error it returns a message identifying the first error that was found 4 6 10 3 2 Seguence Call to function rspsm2 self test 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 10 4 External voltage 4 6 10 4 1 Description The following connections are made on the module one after the other using the R amp S TS PSAM Voltage measurements are performed in bet ween these via the bus lines Measurements are performed between each individual bus line and GND as well as between all individual bus lines If too high a level is detected the self test must be limited for that module Connection 1
112. e is taken from the sample values The DCS is wired as follows DCS_LO to ABal ABc DCS HI to ABb1 ABdl and GND All coupling relays on R amp S TS PSAM and R amp S TS PAM are closed 4 6 7 13 2 Sequence DCS is switched to the analog bus e For each data acquisition path For each oscilloscope channel Connect channel with analog bus For each measurement range e Set range e Set source e Carry out measurement Disconnect channel from the analog bus 4 67 ROHDE amp SCHWARZ Self Test 4 68 R amp S CompactTSVP R amp S PowerTSVP 4 6 7 14 Scanner Offset 4 6 7 14 1 Description The offset error of the scanner is checked To do this all oscilloscope channels of a data acquisition path are connected with one another and switched to GND All possible combinations of the channels are measu red Data acquisition path A CHA1 CHA2 CHA1 CHA3 CHA1 CHA4 CHA2 CHA3 CHA2 CHA4 CHA3 CHA2 CHA3 CHA4 CHA4 CHA2 CHA4 CHA3 Data acquisition path B CHB1 CHB2 CHB1 CHB3 CHB1 CHB4 CHB2 CHB3 CHB2 CHB4 CHB3 CHB2 CHB3 CHB4 CHB4 CHB2 CHB4 CHB3 The following settings are selected Range 200 mV Input impedance 10 MQ Filter 400 Hz Observation time 20 0 ms Sampling values 1000 The average value is taken from the sample values 4 6 7 14 2 Sequence e For each data acquisition path
113. easure voltage Disconnect output from input 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 24 Current Limit 4 6 11 24 1 Description Current limiting of the extended channels CH4 CH8 CH12 and CH16 is checked Different currents are measured with the SFT DMM 4 6 11 24 2 Sequence All coupling relays are closed Connect R amp S TS PIO2 AGND with GND e Connect SFT DMM with GND For all extended channels Connect output with input Connect input to analog bus line Switch DMM HI to analog bus For all current and voltage settings Adjust the voltage Set current limiting Measure current with SFT DMM Reset voltage and current limiting Disconnect DMM HI from analog bus Disconnect input from analog bus line Disconnect output from input Disconnect AGND from GND e Configure SFT DMM ground free 4 135 ROHDE amp SCHWARZ Self Test 4 136 R amp S CompactTSVP R amp S PowerTSVP 4 6 11 25 Digital Input 4 6 11 25 1 Description The input comparators are tested To do this different limits are set High Threshold and Low Threshold in each case to the same va lue All outputs are connected with the inputs and switched to Digital Static mode The Digital Low Level is programmed to a level just un der the threshold and the Digital High Level is programmed to a level just over the threshold All
114. eference Perform voltage measurement V I Disconnect CHx OUT from CHx IN Disconnect analog bus line from 100 Ohm reference If voltage values are within the valid range Perform voltage measurement V iso Switch channel to basic state Disconnect DMM HI from analog bus line Disconnect DMM LO from GND 4 129 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 11 17 100 Ohm reference 4 6 11 17 1 Description The 100 Ohm reference resistor is measured The following connec tions are set up on the SFT DMM for this purpose Coupling relays are closed DCS_HI to ABal ABb1 ABcl ABd DCS LO to GND MU HI to ABal ABb1 ABcl ABd1 MU LO to GND The following signal paths are set up on the module AGND lt K45 gt GND ABal lt K37 gt LABal lt K111 gt lt K3 gt 100R REF AGND ABb1 lt K39 gt LABb1 lt K111 gt lt K3 gt 100R REF AGND ABcl lt K41 gt LABcl lt K111 gt lt K3 gt 100R REF AGND ABdl lt K43 gt LABdl lt K111 gt lt K3 gt 100R REF AGND The DCS is adjusted as follows Voltage 2V Current limiting 10 mA The following statements hold true depending on the measurement va lue Measurement value Statement 1 96 V lt measurement value lt 2 V No connection to the measurement object Coupling relays not switching K111 not switching K45 not switching 1
115. eguence INIT Initializes the module with the function The driver function rspict InitWithOptions is star rspict_InitWithOptions ted Device SFT Starts the Device Self Test The function rspict self test is started Configuration Reads the configuration of the module firm ware version slot number hardware code The function getConfiguration is started Bus Isolation Tests the insulation resistance between all buses and all bus lines to Ground MU LO is switched to ABa1 and MU Hl to ABa2 The MU is reset The DCS is set to 5 0 V and 10 0 pA All coupling relays of the MU are closed DCS LO is switched to Ground DCS Hl is switched to ABa1 The DCS is energized its status interrogated and it is then de energized again immediately If the DCS was in the current limit then the insulation re sistance is lt 500 kOhm and the test was FAILED other wise PASSED MU_HI is switched to ABa2 4 49 ROHDE amp SCHWARZ Self Test 4 50 R amp S CompactTSVP R amp S PowerTSVP Testcase Description Test Seguence The DCS is energized its status interrogated and it is then de energized again immediately If the DCS was in the current limit then the insulation re sistance is lt 500 kOhm and the test was FAILED other wise PASSED The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way The MU
116. equired for this test Monitor outputs CH1 MHI CH1_ MLO and CH2 MHI CH2_ MLO are tes ted The monitor output of Channel 1 is connected with the sense input of Channel 2 and the monitor output of Channel 2 is connected with the sense input of Channel 1 in the self test connector The following signal paths are used CH1 Mx CH2 S4 lt K42 gt CH2 S CH2 Mx CH1 S4 lt K4 gt CH1 S The measurement is performed using an input of sense multiplexer Because of this the corresponding relay is tested as well The result of the relay test is logged in the Sense Relays test case The following settings are used for current limiting Range 3A Level 50 mA The measurement is configured as follows Sampling values 40 Interval 1 ms Delay 0 4 6 9 20 2 Seguence For each channel e Set up signal path e Set contact test for the relay involved to Skipped e Configure monitor output to Voltage Force e Turn on channel with configured monitor output e Configure measurement on other channel e For all output voltages Adjust voltage on channel with configured monitor output Measure voltage on monitor output with other channel If voltage is within valid range set contact test for the relay in 4 97 ROHDE amp SCHWARZ Self Test 4 98 R amp S CompactTSVP R amp S PowerTSVP volved to Passed e Open the sense relay involved If the contact test was successful
117. ersatile Platform R amp S CompactTSVP can be found in the utilities like PCltree or similar software tools and Windows Sys tem Information A print out of the information from these two utilities is to be included with the service questionnaire 2 2 1 1 PCitree example PCltree is a shareware program and displays all the PCIbus devices in a tree structure For further information and downloads visit http www pcitree de 2 2 1 2 Windows System Information Start the utility Windows System Information as follows 1 Select Start gt Programs gt Accessories gt System Tools gt System Information OE Action View Tools Je gt Am Esn R uray IRO Number Device Tree System Information 12 Intel R 82562 based Fast Ethernet 3 System Summary 12 PXI GPIB C Hardware Resources 12 Standard Universal PCI to USB Host 3 Conflicts Sharing 11 Rohde amp Schwarz TS PS S DMA 11 TS PSAM 3 Forced Hardware 10 TS PICT Gyo 14 Primary IDE Channel a IRQs 7 Standard Universal PCI to USB Host U Memory 9 182801 SM bus driver Components 5 PEP Watchdog a Software Environment 1 PC XT P5 2 Keyboard 84 Key Internet Explorer 5 4 Communications Port COM1 3 Communications Port COM2 6 Standard floppy disk controller 8 System CMOS real time clock rs ow Numeric data processor
118. ess Contact Person Telephone Fax eMail Project No R amp S CompactTSVP R amp S PowerTSVP Identification No B R amp S CompactTSVP R amp S PowerTSVP EQUIPMENT LISTS Identification of Equipment Quantity C R amp S CompactTSVP R amp S PowerTSVP CONFIGURATION R amp S CompactTSVP R amp S PowerTSVP Frame Serial Number R amp S CompactTSVP R amp S PowerTSVP Configuration Type Configuration of CPCI PXI Cards Slot Number Identification of CPCI PXI Card Serial Number 2 3 ROHDE amp SCHWARZ Customer Service R amp S CompactTSVP R amp S PowerTSVP Configuration of CPCI PXI Cards Version of Software Utilities Please see the attached reports generated by a PCI Software Tool and Windows System Infor mation in chapter 2 2 1 1 and 2 2 1 2 D OPERATIONAL HOUR No of operating hour per day hrs D REPLACEMENT OF FAULTY COMPONENTS IF ANY S No Faulty Component s Remedial Actions Fault Analysis E REMARKS Location of Recording Testing Recorded By Date 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Customer Service 2 2 1 Configuration Information Further information on the configuration of the Test System V
119. ests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests Basic Tests DCS Basic Test DCS Relayfunction HI LO DCS Relayfunction SHI DCS Relayfunction SENSE Relayfunction GND MU Relayfunction HI MU Relayfunction LO MU Relayfunction SHI DCH Relays MU DC Voltage MU DC Current MU RMS to DC Converter MU Analog Trigger MU AC Coupling DCH Bild 4 6 Self Test in Progress 4 9 ROHDE amp SCHWARZ Self Test 4 10 Part Components Test Case Failure Count Information Current Overall Status Abort Selftest R amp S CompactTSVP R amp S PowerTSVP Indicates the self test part currently under test Indicates the self test component currently under test Indicates the current test case for the corresponding self test compo nent Counts the test cases that end with the status Failed failed tests Indicates the test steps performed Indicates the overall status of the self test sequence Green No error failed test has occurred yet Red Atleast one error failed test has occurred The Abort Selftest button immediately interrupts the performance of the self test sequence Following completion of the self test sequence the result is displayed see Bild 4 7 and Bild 4 8 Selftest Result
120. g relays are closed Allrelays onthe MU Hland MU LO lines on the R8S TS PSAM board under test are closed The test looks for a reference bus line gt Refline MU Hlis switched to ABa1 and MU LO to ABa2 The contact resistance of coupling relays ABa1 lt gt LABa1 and ABa1 lt gt LABa2 is measured Coupling relay ABa1 lt gt LABa1 is opened The insulation resistance of coupling relays ABa1 lt gt LABa1 is measured If the measurement is OK then ABa1 is the Refline Coupling relay ABa1 lt gt LABa1 is closed All bus lines are measured against the Refline The contact resistance of coupling relays Refline ABa1 and ABa2 lt gt LABa2 is measured Coupling relay ABa2 lt gt LABa2 is opened The insulation resistance of coupling relay ABa2 lt gt LABa2 is measured Coupling relay ABa2 lt gt LABa2 is closed The coupling relays of the other buses are measured in the same way Refline ABa1 ABb1 Refline ABa1 ABb2 Refline ABa1 ABc1 Refline ABa1 ABc2 Refline ABa1 ABd1 Refline ABa1 ABd2 At the end of the test case all coupling and matrix relays are opened again by calling the function rspmb reset Bus Isolation Tests the insulation resistance between all buses and all bus lines to Ground All coupling relays are closed MU_LO is switched to ABa1 and MU_HI to ABa2 The insulation resistance between LA
121. gger signal Query status until measurement is terminated Get measurement data Deactivate trigger output 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 7 21 Analog Trigger 4 6 7 21 1 Description The comparators for the analog trigger are tested For this a threshold of 4 0 V is set in the 5 0 V range Each oscilloscope channel is un grounded and is connected one after another with the DCS The source is programmed to 5 V voltage and to a current limit of 5 uA When the source is switched on a voltage ramp of 0 V to 5 V which should trig ger the oscilloscope arises conditionally through the parasitary capa citances and the low current limit The following settings are selected Range 5V Input impedance 10 MQ Filter off Observation time 500 us Sampling values 10000 The DCS is wired as follows DCS LO to ABal ABc1 and GND DCS HI to ABb1 ABd The source is set as follows Voltage 5V Current limit 5 pA All coupling relays on R amp S TS PSAM and R amp S TS PAM are closed 4 77 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 7 21 2 Sequence DCS is switched to the analog bus Configure DCS e For each data acquisition path Configure analog trigger Set sampling parameters For each oscilloscope channel Connect CHx_LO with the analog bus Connect CHxy HI with the analog b
122. h Multiplex Module 2 R amp S TS PSM2 User Manual 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Service Documents 8 2 9 Power Supply Load Module R amp S TS PSU The interfaces for the Power Supply Load Module are described in the Power Supply Load Module R amp S TS PSU User Manual 8 2 10 Analog Digital IO Module 2 R amp S TS PIO2 The interfaces for the Analog Digital IO Module 2 are discribed in the Analog Digital IO Module 2 R amp S TS PIO2 User Manual 8 2 11 High Speed Digital Test Module R amp S TS PHDT The interfaces for the High Speed Digital Test Module are discribed in the High Speed Digital Test Module R amp S TS PHDT User Manual 8 3 ROHDE amp SCHWARZ Service Documents R amp S CompactTSVP R amp S PowerTSVP 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP A Appendix A 1 SFT Report Example System Name Date Time User Name SFT Support DLL Version SFT Support DLL Report style Fixture present Manual interventions Suppress dialogs Overall status Number of Test Cases failed Component Status Summary Information Basic Tests pict p g pd t psys SELF JE EHS E REPORT TSVP Oualification TP3a 2003 05 21 09 40 19 Administrator SFT 01 20 C PROGRA 1 GTSL Bin sft dl1l Report only errors no no yes passed passed passed passed passed passed passed ROHD
123. h7no LABd1 Ch8com LABc2 Ch8no LABd2 All analog buses are tested as described above The following connections switch any voltages present on channels Ch9 Ch12 to the analog buses Ch9com LABa1 Ch9no LABb1 Ch10com LABa2 Ch10no LABb2 Ch11com LABc1 Ch11no LABd1 Ch12com LABc2 Ch12no LABd2 All analog buses are tested as described above The following connections switch any voltages present on channels Ch13 Ch16 to the analog buses Ch13com LABa1 Ch13no LABb1 Ch14com LABa2 Ch14no LABb2 Ch15com LABc1 Ch15no LABd1 Ch16com LABc2 Ch16no LABd2 All analog buses are tested as described above The following connections switch any voltages present on instrument lines IL1 and IL2 to the analog buses IL1com LABc1 IL1no LABb2 IL2com LABa1 IL2no LABd2 4 17 ROHDE amp SCHWARZ Self Test 4 18 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence All analog buses are tested as described above The following connections switch any voltages present on channels LPBA LPBD to the analog buses LPBA LABa1 LPBB LABb2 LPBC LABc1 LPBD LABd2 All analog buses are tested as described above Device SFT Starts the Device Self Test Starts the function rspsml self test Configuration Reads the configuration of the module driver version and firmware
124. he measurable insulation resistance Close relay DCS_SLO gt SENSE again The connection SENSE lt gt ABa1 is opened The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance The connection SENSE lt gt ABa1 is opened This measurement is repeated for all analog bus lines up to ABd2 If no contact is found in any of the analog bus lines then the relay between DCS_LO and SENSE is very probably faulty 4 35 ROHDE amp SCHWARZ Self Test 4 36 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The test results are recorded in the SFT Report Relayfunction GND Tests the function of the ground relays Both ground relays are connected in series and short circuit the DCS with an analog bus line Measuring path DCS HI gt analog bus line gt MU LO gt GND gt DCS LO One or more matrix relays could be faulty so the test looks for a functioning connection over the analog bus For this test to work the selected analog bus line must be safely isolated from the DCS LO line If this were not do ne both insulation measurements of the ground relays would fail This also applies if the relay between MU LO and DCS LO were to stick This test case therefore tests the function of this relay as well The DCS voltage is set to 0 3
125. he connection SENSE lt gt MU_SHI is opened If a contact was found the DCS current limiter is set to the minimum value The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance The test results are recorded in the SFT Report MU Relayfunction SLO Tests the function of the relays between SENSE and MU_SLO tbd The test results are recorded in the SFT Report DCH Relays Tests the function of the two relays on the DCH_HI line The function of relays DCS_HI lt gt ABA1 and DCS_LO lt gt ABA2 must be guaranteed Measuring path DCS_HI gt ABA1 gt DCH HI gt ABA2 gt DCS LO The DCS voltage is set to 0 5 V The DCS current limiter is set to maximum value 100 mA The connection DCS LO lt gt GND is opened The following connections are made DCS HI lt gt ABA1 DCH HI lt gt ABA1 DCH HI lt gt ABA2 DCS LO lt gt ABA2 The DCS is switched on 4 39 ROHDE amp SCHWARZ Self Test 4 40 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The DCS must go into the current limiter The resistance is therefore less than 5 Ohm The DCS is switched off The connection DCH HI lt gt ABa1 is opened The connection DCH HI lt gt ABa2 is opened If
126. hed DCS LO is connected with GND and DCS HI switched to the line to be tested A voltage of 5 V and a current limit of 10 pA gives a threshold of the 500 kOhm If the insulation resis 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test tance is low the source goes into the current limit and thus displays an error The insulation resistance between two bus lines is measured in the 10 MQ range of the resistance measuring function If too low a resis tance is found then the measurement with Autorange switched on is repeated to determine the exact value 4 6 2 5 2 Sequence Test all bus lines against GND Test all combinations of bus lines against one another Temporarily store result for the test of the relay on the bus lines 4 6 2 6 Coupling Relays 4 6 2 6 1 Description The function of the coupling relay is reported For each relay a contact and insulation measurement is carried out During the measurement of the contact resistance the serial connection of multiple relays is always measured 4 6 2 6 2 Sequence The coupling relay is tested together with the matrix relay Here measuring path is always set up as follows DMM HI LABx PSAM ABx lt Kx gt LABx Px LABy lt Ky gt ABy LABy PSAM DMM LO Signal Comment DMM HI HI line of the resistance measuring unit LABx PSAM
127. ilter 400 Hz The test results are recorded in the SFT Report MU Analog Trigger Tests the analog trigger signals Powering on the DCS generates a trigger event The DCS is connected to the MU with the analog bus The connection MU lt gt GND is opened DCS_LO is switched to GND The DCS current limiter is set to 0 1 mA 4 41 ROHDE amp SCHWARZ Self Test 4 42 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The DCS voltage is set to 5 V The trigger threshold for XTA1 is programmed to 4 V The voltage measurement triggered by XTA1 is configu red The DCS is switched on The measurement result is read out There must be no timeout The result must be greater than 4 V The DCS is switched off The trigger threshold for XTA2 is programmed to 4 V The voltage measurement triggered by XTA2 is configu red The DCS is switched on The measurement result is read out There must be no timeout The result must be greater than 4 V The DCS is switched off The DCS voltage is set to 5 V The trigger threshold for XTA1 is programmed to 4 V The voltage measurement triggered by XTA1 is configu red The DCS is switched on The measurement result is read out There must be no timeout The result must be greater than 4 V The DCS is switched off The trigger threshold for X
128. in A Contact measure 0 7 10e 3 Threshold at 70 Ohm because of the ment 50 Ohm resistance against GND Insulation measu 5 0 10e 6 Threshold at 500 kOhm rement The following signal paths were selected on the module ABb ABb CHA1 HI CHA LO lt RY29 gt GND CHB1 HI CHB LO lt RY30 gt GND 4 6 7 10 2 Sequence e DCS is switched to the analog bus e For all data acquisition paths Set DCS for the contact measurement Set up measuring path Query DCS status Open relay against ground If DCS is in the current limit the contact measurement was successful and the insulation measurement can be carried out Otherwise the insulation measurement is left out Insulation measurement Configure DCS for the insulation measurement query DCS status Remove measuring path 4 63 ROHDE amp SCHWARZ Self Test 4 64 4 6 7 11 CHx LO to CHxy HI Relays R amp S CompactTSVP R amp S PowerTSVP 4 6 7 11 1 Description The relays between CHx LO and CHxy HI for both data acquisition paths and all oscilloscope channels are tested The DCS with the adju stable current limit is used for evaluation The DCS is wired as follows DCS LO to ABal ABc1 DCS HI to ABb1 ABdl and GND All coupling relays on R amp S TS PSAM and R amp S TS PAM are closed The settings for the source were selected as follows Type of measurement Voltage inV Current
129. ine of the resistance measurement unit 4 110 Two bus lines must always be selected that do not have any short cir cuit between them The results of the bus isolation measurement are used for this purpose If the measurement branch is a low Ohm connection the measurement value is logged as a contact resistance for both relays Kx and Ky Then Kx and Ky are each opened individually and a separate isolation measurement is performed for each If no low Ohm connection is determined one of the four relays involved on the module will not close Then no isolation measurement can be performed for the matrix relay 4 6 10 7 Matrix relays LABb1 LABb2 The function of the matrix relays of bus lines ABb1 ABb2 is tested The same procedure is used for the test as described in Chapter 4 6 10 6 4 6 10 8 Matrix relays LABc1 LABc2 The function of the matrix relays of bus lines ABc1 ABc2 is tested The same procedure is used for the test as described in Chapter 4 6 10 6 4 6 10 9 Matrix relays LABd1 LABd2 The function of the matrix relays of bus lines ABd1 ABd2 is tested The same procedure is used for the test as described in Chapter 4 6 10 6 4 6 10 10 Coupling relays 4 6 10 10 1 Description The function of the coupling relays of the bus lines is logged A contact and isolation measurement is performed for each relay In the measu rement of the contact resistance multiple relays are always measured wired in series
130. inputs must detect the High and Low le vel 4 6 11 25 2 Seguence For all channels Connect output with input Activate Digital Static mode For all thresholds to be tested For all channels Adjust input thresholds Set Output Digital High Level Set Output Digital Low Level Set all outputs to High Read bit pattern via comparators Set all outputs to Low Read bit pattern via comparators Reset to basic state 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 26 Square Wave 4 6 11 26 1 Description The output of square wave signals is tested To do this a square wave signal with the following properties is generated on the extended chan nels Low Level 27 V High Level 27V Frequency 100 Hz Ratio 50 The square wave signal is recorded at the maximum sampling rate and evaluated 4 6 11 26 2 Sequence For all extended channels Connect output with input Activate Squarewave mode Adjust level frequency and ratio Start square wave generation Record waveform Stop square wave generation Switch the channel to its basic state 4 137 ROHDE amp SCHWARZ Self Test 4 138 R amp S CompactTSVP R amp S PowerTSVP 4 6 11 27 Trigger bus input 4 6 11 27 1 Description Tests trigger inputs PXIO to PXI7 The SFT DMM generates trigger si gnals with a duration of 200 ns o
131. insufficient ventilation The possible causes of the fault may be dirty or faulty fans The fans must be cleaned at regular intervals depending on the envi ronmental conditions The fans must also be checked for correct oper ation at regular intervals Faulty fans must be replaced 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ 6 Removal Installation of Modules 6 1 Important User Notes A ELECTROCUTION HAZARD e Modules are only to be removed and installed with the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP switched off e The removal and installation of modules is only permitted to be performed by suitably trained personnel Training is performed as part of a training course given by specialists from ROHDE amp SCHWARZ WARNING When removing or pulling out assemblies take extra care If the modules are pulled out too abruptly the modules may jam and be damaged When plugging in modules special attention must be paid to en suring that no pins are bent on the connectors Some modules in the Test System Versatile Platform R amp S Com pactTSVP R amp S PowerTSVP contain components that are sensitive to electrostatic discharge To avoid further damage the following points are to be observed e Components and circuit boards are only permitted to be removed and installed when unpowered For this purpo
132. insulation measurement is carried out During the measurement of the contact resistance the serial connection of multip le relays is always measured 4 6 2 7 2 Seguence A measuring path is always set up as follows DMM HI LABx PSAM ABx LABx lt Kx gt Px lt Ky gt LABy ABy LABy PSAM DMM LO Signal Comment DMM HI HI line of the resistance measuring unit LABx PSAM HI line on local analog bus R amp S TS PSAM ABx HI line on analog bus LABx HI line on local analog bus R amp S TS PAM Kx Matrix relay in the HI line 4 26 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Signal Comment Px Device connection R amp S TS PMB Ky Matrix relay in the LO line LABy LO line on local analog bus R amp S TS PAM ABy LO line on analog bus LABy PSAM LO line on local analog bus R amp S TS PSAM DMM LO LO line of the resistance measuring unit Two bus lines are always selected which show no short circuit with each other For this the result of the bus insulation measurement is used If the measuring path shows a low ohm connection the measured va lue is recorded as contact resistance for both relays Kx and Ky Then Kx and Ky are individually opened and on each a insulation measure ment is carried out If no low ohm connection is detected one of the four relays on the mo dule R amp S TS PMB does not close No insulation
133. ion resistance between LABa1 and LABa2 is measured MU_HI is switched to ABb1 The insulation resistance between LABa1 and LABb1 is measured MU_HI is switched to ABb2 The insulation resistance between LABa1 and LABb2 is measured The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way The MU is reset MU_HI is switched to ABa1 MU_LO is switched to Ground The insulation resistance between ABa1 and Ground is measured The connections of MU_LO and MU_HI are opened again MU_LO is switched to ABa2 and MU_HI to ABb1 The insulation resistance between LABa2 and LABb1 is measured MU_HI is switched to ABb2 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence The insulation resistance between LABa2 and LABb2 is measured The insulation resistance of all buses and bus lines up to LABd2 is measured in the same way This process is now repeated until measurements have been carried out between all the bus lines and between each individual bus line and Ground Atthe end of the test case all coupling relays are opened again by calling the function rspfgl reset Matrix Relays Tests all matrix relays All coupling relays are closed MU LO is switched to ABa1 MU_HI is switched to
134. ions applicable in the place where the unit is used as well as the applicable technical standards and regulations on safety and correct working are to be observed The service instructions must always be available in the place where the R amp S CompactTSVP R amp S PowerTSVP is used The operating organisation is to extend the service instructions as nec essary with information on national health and safety regulations and environmental regulations ROHDE amp SCHWARZ User Information R amp S CompactTSVP R amp S PowerTSVP 1 2 Important User Notes NOTE This Service Manual is intended for use with the following prod ucts e Test System Versatile Platform R amp S CompactTSVP TS PCA3 e Test System Versatile Platform R amp S PowerTSVP TS PWA3 The contents of this manual apply to both products Any differ ences are highlighted in the text NOTE When working with the Service Handbook the information from the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP Operating Instructions is to be observed NOTE To perform service tasks in particular to run the self test knowl edge of the WINDOWS 2000 operating system is required 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP UserInformation 1 3 Explanation of symbols The Test System Versatile Platform R amp S CompactTSVP R amp S Pow erTSVP has been manufactured in accordance
135. is set to 5 V The DCS current limiter is set to the minimum value With 1 pA there is a measurable insulation resistance of 5 MOhm The DCS must not go into the current limiter The resis tance between DCS_HI and DCS_LO is therefore greater than the measurable insulation resistance DCS_LO is switched to GND The DCS must not go into the current limiter The resis tance between DCS_HI and GND is therefore greater than the measurable insulation resistance The connection DCS_LO lt gt GND is opened DCS_HI is switched to ABa1 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Sequence The DCS must not go into the current limiter The insula tion resistance of the relay bus line to DCS LO is there fore greater than the measurable insulation resistance The connection DCS HI lt gt ABa1 is opened This measurement is repeated for all analog bus lines up to ABd2 DCS LO is switched to GND DCS Hl is switched to ABa1 The DCS must not go into the current limiter The insula tion resistance of the relay bus line to DCS LO and of the bus line to GND is therefore greater than the measurable insulation resistance The connection DCS HI lt gt ABa1 is opened This measurement is repeated for all analog bus lines up to ABd2 The test results are rec
136. ition path Connect CHx LO with GND For each oscilloscope channel Connect CHx LO with CHxy HI For each input of the input multiplexer r with the corresponding analog bus Connect DCS H1 line Connect CHxy HIz with CHxy HI OOA O OOA OA OA A A AZ Z Z Z A A Z Z Z Z OU VJ VJ V O VE VUV J VOV Self Test Set voltage and current limit for contact measurement Carry out contact measurement Disconnect CHxy HIz from CHxy HI If the contact measurement was not successful skip the insulation measurement Set voltage and current limit for insulation measurement Carry out insulation measurement Disconnect DCS HI from the analog bus Disconnect CHx LO from CHxy HI Disconnect CHx LO from GND 4 6 7 24 CHx LO to CHx_LO1 Relay 4 6 7 24 1 Description For this test the self test board is necessary 4 81 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP The relays between CHx LO and CHx_LO1 are tested The DCS with the adjustable current limit is used for evaluation DCS_ LO is connected with GND All coupling relays on R amp S TS PSAM and R amp S TS PAM are closed The settings for the source were selected as follows Type of Voltage Current limit Comment measurement inV inA Contact measure 0 7 10e 3 Threshold at 70 Ohm because of the ment 50 Ohm resistance against GND Insulation measu 5 0 10e 6 Threshold at 500 kOhm re
137. l and ABa2 e Set DCS voltage and current limit for insulation measurement e Restore found path from Front connector test case e Open relay against ground e Carry out insulation measurement 4 29 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 3 Source and Measurement Module R amp S TS PSAM The Source and Measurement Module test consists of the following test cases s INIT e Configuration e Coupling Relays e Bus Isolation e DCS Basic Test DCS Relayfunction HI LO DCS Relayfunction SHI e DCS Relayfunction SENSE e Relayfunction GND e MU Relayfunction HI e MU Relayfuntion LO e MU Relayfunction SHI e MU Relayfunction SLO e DCH Relays e MU DC Voltage e MU DC Current e MU RMS to DC Converter e MU Analog Trigger e MU AC Coupling e DCH e Trigger Bus e Relays Multiplexer External Trigger Test Case Description Test Seguence INIT Initializes the module with the function The driver function rspsam InitWithOptions is star rspsam_InitWithOptions ted 4 30 Configuration Reads the configuration of the module firm The function getConfiguration is started ware version slot number hardware code 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence Coupling Relays The eight coupling relays are tested All eight couplin
138. lf Test R amp S CompactTSVP R amp S PowerTSVP 4 6 11 15 AGND to LAB Relays 4 6 11 15 1 Description The contacts of relay K111 are tested These contacts are tested using the same procedure as for the ground relay In this case however the signal paths are set up one after the other DoD D DDD D Bal lt K37 gt LABal lt K gt lt K3 gt AGND lt K45 gt GND Ba2 lt K38 gt LABa2 lt K111 gt lt K3 gt AGND lt K45 gt GND Bb1 lt K39 gt LABb1 lt K111 gt lt K3 gt AGND lt K45 gt GND Bb2 lt K40 gt LABb2 lt K111 gt lt K3 gt AGND lt K45 gt GND Bcl lt K41 gt LABcl lt K111 gt lt K3 gt AGND lt K45 gt GND Bc2 lt K42 gt LABc2 lt K111 gt lt K3 gt AGND lt K45 gt GND Bdl lt K43 gt LABdl lt K111 gt lt K3 gt AGND lt K45 gt GND Bd2 lt K44 gt LABd2 lt K111 gt lt K3 gt AGND lt K45 gt GND 4 6 11 15 2 Seguence All coupling relays to SFT DMM and R amp S TS PIO2 are closed 4 128 Connect DCS LO with GND Connect R amp S TS PIO2 AGND via K45 with GND For all bus lines Connect DCS HI with the corresponding bus line Connect the corresponding bus line via K111 with AGND Configure DCS for contact measurement Query DCS status Disconnect the bus line from AGND If the contact measurement was successful Configure DCS Query DCS stat for isolation measurement us from the bus line Disconnect DCS HI
139. ly If units without power switches are integrated in racks or systems a disconnecting device must be provided at system level Applicable local or national safety regulations and rules for the prevention of accidents must be observed in all work performed Prior to performing any work on the unit or opening the unit the latter must be discon nected from the supply network Any adjustments replacements of parts main tenance or repair may be carried out only by authorized R amp S technical personnel Only original parts may be used for replacing parts relevant to safety e g power switches power transformers fuses A safety test must be performed after each replacement of parts relevant to safety visual inspection PE conductor test insulation resistance leakage current measurement func tional test continued overleaf Safety Instructions 10 Ensure that the connections with information 13 Electrostatics via the connectors may damage 11 12 technology equipment comply with IEC950 the eguipment For the safe handling and EN60950 operation of the equipment appropriate measures against electrostatics should be Lithium batteries must not be exposed to high temperatures or fire Keep batteries away from children If the battery is replaced improperly there is danger of explosion Only replace the battery by R amp S type see spare part list Lithium batteries are suitable for environmentally
140. m LABa1 Ch1no LABb1 Ch2com LABa2 Ch2no LABb2 Ch3com LABc1 Ch3no LABd1 Ch4com LABc2 Ch4no LABd2 MU LO is switched to ABa1 MU_HI is switched to ABa2 The voltage between these two buses ABa1 ABa2 is measured The measured value is compared with the limit If it ex ceeds the limit the complete self test is cancelled with an error message MU_HI is switched to ABb1 The voltage between ABa1 ABb1 is measured 5th Issue 08 06 The measured value is compared with the limit If it ex ceeds the limit the complete self test is cancelled with an error message 4 16 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence This measurement is repeated with all the bus lines up to ABd2 The MU is reset MU_HI is switched to ABa1 MU_LO is switched to Ground The voltage between ABa1 and Ground is measured The measured value is compared with the limit If it ex ceeds the limit the complete self test is cancelled with an error message The connections of MU_LO and MU_HI are disconnec ted This measurement is repeated with all the bus lines from ABa2 to ABd2 The following connections switch any voltages present on channels Ch5 Ch8 to the analog buses Ch5com LABa1 Ch5no LABb1 Ch6com LABa2 Ch6no LABb2 Ch7com LABc1 C
141. measured mark K3 as faulty Connect R amp S TS PIO2 LABa2 LABb2 LABc2 and LABd2 with K3 to 5V_REF e Perform voltage measurement Disconnect connection 4 131 ROHDE amp SCHWARZ Self Test 4 132 R amp S CompactTSVP R amp S PowerTSVP 4 6 11 19 Reference Relay The status of relay K3 is logged This relay was already tested in test cases Ground Relay 100 Ohm Reference and 5 V Reference 4 6 11 20 Analog Input 4 6 11 20 1 Description The voltage measurement is tested on all channels and in every measurement range Measurements are performed on the 5 V refe rence and on 0V input connected with AGND 4 6 11 20 2 Seguence e Connect 5 V reference to analog bus lines K3 K111 e For all channels Connect input to analog bus For each range Measure voltage Disconnect input from analog bus e Connect analog bus lines to AGND K3 K111 and thereby apply OV For all channels Connect input to analog bus For each range Measure voltage Disconnect input from analog bus 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 21 Analog Output 4 6 11 21 1 Description Different output voltages are measured with the corresponding inputs 4 6 11 21 2 Sequence For all channels Connect output with input For each level Adjust the voltage Measure voltage Disconnect
142. measurement for the matrix relay can thus be carried out The two relays are marked and in a second run individually tested against a functioning relay on the line Px according to the same procedure The measurements are repeated for all bus lines ABx 4 6 2 8 IL Matrix Relays The function of the matrix relay for the lines IL1 IL2 and IL3 is tested The test procedure is the same as in Section 4 6 2 7 Self Test 4 27 ROHDE amp SCHWARZ Self Test 4 28 LA BX DMM HI PSAM R amp S CompactTSVP R amp S PowerTSVP 4 6 2 9 Sense Relays 4 6 2 9 1 Description The function of the Sense Relays is tested For each relay a contact and insulation measurement is carried out During the measurement of the contact resistance the serial connection of multiple relays is always measured 4 6 2 9 2 Sequence The following measuring path is set up ABx LABx lt Kx gt LABy ABy LABy PSAM DMM LO The contact resistance is measured and recorded for the relay Kx Then Kx is opened and an insulation measurement carried out The measurement is repeated for all Sense Relays 4 6 2 10 Front Connector 4 6 2 10 1 Description For this test the self test board is necessary The contacts on the front side plug are to be tested The DCS with the adjustable current limit is used for evaluation The DCS is wired as fol lows DCS LO GND DCS HI to ABal and ABa2 All coupling rel
143. med for each relay In the measurement of the contact resistance multiple relays are always measured wired in series 4 6 11 9 2 Sequence The measurement path is always set up as follows DMM HI LABx PSAM ABx LABx lt Kx gt CHx IN lt Ky gt LABy ABy LABy PSAM DMM LO Signal Note DMM HI HI line of the resistance measurement unit LABx PSAM HI line on the local analog bus R amp S TS PSAM ABx HI line on analog bus LABx HI line on the local analog bus R amp S TS PIO2 Kx Matrix relay in the HI line CHx IN Channel to R amp S TS PIO2 Ky Matrix relay in the LO line LABy LO line on the local analog bus R amp S TS PIO2 ABy LO line on analog bus 4 123 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP Signal Note LABy PSAM LO line on the local analog bus R amp S TS PSAM DMM LO LO line of the resistance measurement unit Two bus lines must always be selected that do not have any short cir cuit between them The results of the bus isolation measurement are used for this purpose If the measurement branch is a low Ohm connection the measurement value is logged as a contact resistance for both relays Kx and Ky Then Kx and Ky are each opened individually and a separate isolation measurement is performed for each If no low Ohm connection is determined one of the four relays involved on the
144. ment The DCS HI line is individually switched to the corresponding bus li 4 82 nes In the self test board each line of the local analog bus is connec ted with CHx LO1 The following signal paths were selected on the module Data acquisition path A LABb2 CHA LO1 lt RY5700 gt CHA LO GND Data acquisition path B LABd2 CHB LO1 lt RY5701 gt CHB LO GND 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 7 24 2 Sequence Self test board is present Coupling relays R amp S TS PSAM and R amp S TS PAM are closed DCS LO is connected with GND For each data acquisition path Connect CHx LO with GND Connect Dcs_HI with the corresponding analog bus line Connect CHx LO with CHx LO1 Set voltage and current limit for contact measurement Carry out contact measurement Disconnect CHx LO from CHx LO1 Ifthe contact measurement was not successful skip the insu lation measurement Set voltage and current limit for insulation measurement Carry out insulation measurement Disconnect DCS HI from the analog bus Disconnect CHx LO from GND 4 83 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 8 System Module R amp S TS PSYS1 and R amp S TS PSYS2 The System Module test consists of the following test cases e Initialization e Device self test e Configuration
145. module will not close Then no isolation measurement can be performed for the matrix relay If one of the matrix relays is no longer open a resistance value of ap proximately 2 1 MOhm is measured for the other lines CHx IN to the same bus This value is derived from the series circuit of the input im pedances The lower limit for the isolation measurement has therefore been set to a value of 2 MOhm 4 6 11 10 Matrix relays LABb1 LABb2 The function of the matrix relays of bus lines ABb1 ABb2 is tested The same procedure is used for the test as described in Section 4 6 11 9 4 6 11 11 Matrix relays LABc1 LABc2 The function of the matrix relays of bus lines ABc1 ABc2 is tested The same procedure is used for the test as described in Section 4 6 11 9 4 6 11 12 Matrix relays LABd1 LABd2 The function of the matrix relays of bus lines ABd1 ABd2 is tested The same procedure is used for the test as described in Section 4 6 11 9 4 124 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 13 Coupling relays 4 6 11 13 1 Description The function of the coupling relays of the bus lines is logged A contact and isolation measurement is performed for each relay In the measu rement of the contact resistance multiple relays are always measured wired in series 4 6 11 13 2 Sequence The coupling relays are tested together with
146. mpactTSVP R amp S PowerTSVP 4 6 9 12 2 Sequence e Configure DMM for current measurement e For each channel Connect CHx LO and CHx HI with the analogue bus Set the voltage range and value Turn on the channel For each level Set current limiting range and value Measure the current with DMM Move the channel to its basic state Disconnect the channel from the analogue bus e Configure DMM for voltage measurements 4 6 9 13 PAC control 4 6 9 13 1 Description The output voltage of the PAC module is verified The measurement is performed with the internal measurement unit The measurement is configured as follows Sampling values 40 Interval 1 ms Delay 0 The PSU channels are grounded 4 6 9 13 2 Seguence For each channel e Configure measurement e Set control voltage for PAC e Measure PAC output voltage Reset PAC control to Automatic 4 92 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 9 14 Measurement of voltage force 4 6 9 14 1 Description The measurement of the force voltage with the measurement unit is ve rified The following settings are used for current limiting Range 3A Level 50 mA The measurement is configured as follows Sampling values 40 Interval 1 ms Delay 0 The PSU channels are grounded 4 6 9 14 2 Seguence For each channel e Set current limiting e T
147. n for the users and equipment Prior to switching on the unit it must be ensured that the nominal voltage set on the unit matches the nominal voltage of the AC supply network If a different voltage is to be set the power fuse of the unit may have to be changed accordingly Units of protection class with disconnectible AC supply cable and appliance connector may be operated only from a power socket with grounding contact and with the PE conductor con nected 095 1000 BI 15 Observe Weight PE terminal Ground Danger Warning Hot Ground Attention operating indication for terminal Shock hazard surfaces Electrostatic instructions units gt 18 kg sensitive devi ces require special care 1 The unit may be used only in the operating con It is not permissible to interrupt the PE conduc tor intentionally neither in the incoming cable nor on the unit itself as this may cause the unit to become electrically hazardous Any extension lines or multiple socket outlets used must be checked for compliance with relevant safety standards at regular intervals If the unit has no power switch for disconnection from the AC supply the plug of the connecting cable is regarded as the disconnecting device In such cases it must be ensured that the power plug is easily reachable and accessible at all times length of connecting cable approx 2 m Functional or electronic switches are not suit able for providing disconnection from the AC supp
148. n the corresponding lines The se quence control of the R amp S TS PIO2 module is started by these signals 4 6 11 27 2 Sequence e Set external triggering e Configure measurement For all lines PXIO to PXI7 Configure trigger generator activate output Start the first measurement call the read function and test for expected exceeding of measurement time no trigger signal If the measurement was triggered in an unexpected manner in terrupt the test for that line Start second measurement Generate trigger signal Retrieve measurement data Deactivate trigger output to SFT DMM 4 6 11 28 Trigger bus output 4 6 11 28 1 Description Tests trigger outputs PXI0 to PXI7 The R amp S TS PIO2 module gene rates trigger pulses approximately 1 us in length The measurement unit on the SFT DMM module is set to external triggering and receives these signals 4 6 11 28 2 Sequence For all lines PXIO to PXI7 Configure and activate trigger output Configure external triggering to SFT DMM Start measurement Generate trigger signal with R amp S TS PIO2 module Retrieve measurement data from SFT DMM Deactivate trigger output 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 29 Noise Input 4 6 11 29 1 Description In this test case inputs are connected with AGND and are sampled with the lowest an
149. nce is measured The connection CH1com lt gt LABa1 is opened The connection CH1com lt gt CH1no is opened The contact resistance and insulation resistance are measured in the same way up to CH16 IL1 and IL2 are also measured in this way All coupling relays are opened LPB Relays Tests all LBPx relays All coupling relays are closed MU LO is switched to ABa1 MU_HI is switched to ABb1 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Test Case Description Test Seguence The connection CH1no lt gt LABb1 is closed The connection LPBA lt gt CH1no is closed The insulation resistance is measured The connection LPBA lt gt LABa1 is closed The contact resistance is measured The connection LPBA lt gt CH1no is opened The insulation resistance is measured The connection CH1no lt gt LABb1 is opened The connection CH2no lt gt LABb2 is closed The connection LPBA lt gt Ch2no is closed continue with measuring the contact resistance The contact resistance and insulation resistance of all LPBx relays are measured in the same way All coupling relays are opened Front Connector Tests all connections with the front connector X10 The self test adapter must be connected to X10 for this test The M
150. nd there is probably a defective coupling relay The measurements are repeated for all bus lines ABx 4 6 7 7 Coupling Relays Bus Lines C D The function of the coupling relay of the four bus lines ABc1 ABc2 ABd1 and ABa2 is tested The test procedure is the same as in Section 4 6 7 6 4 6 7 8 Matrix Relays Bus Lines A B 4 6 7 8 1 Description The function of the relay on the analog bus lines is tested For each re lay a contact and insulation measurement is carried out During the measurement of the contact resistance the serial connection of multip le relays is always measured 4 61 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 7 8 2 Sequence A measuring path is always set up as follows DMM HI LABx PSAM ABx LABx lt Kx gt CHzn lt Ky gt LABy ABy LABy PSAM DMM LO Signal Comment DMM HI HI line of the resistance measuring unit LABx PSAM HI line on local analog bus R amp S TS PSAM ABx HI line on analog bus LABx HI line on local analog bus R amp S TS PAM Kx Matrix relay in the HI line CHzn Device connection R8S TS PAM Ky Matrix relay in the LO line LABy LO line on local analog bus R8S TS PAM ABy LO line on analog bus LABy PSAM LO line on local analog bus R8S TS PSAM DMM LO LO line of the resistance measuring unit Two bus lines are always selected which show no short cir
151. non standard test system or a test system with customer specific modifications including the TSVP self test the system self test and customer specific additions and or modifications Pr fsoftware test software a software used in the production test field at Rohde amp Schwarz PCI eXtension for Instrumentation Software module which verifies the functionality of a specific hard ware component or a combination of components In case of a failure a diagnostic message is generated which identifies the defective com ponent s Abbreviation for Self Test Self Test of a standard test system built on the TSVP platform e g TS7100 including the self test of the TSVP and tests of the external devices and cabling Self test for a single module CPCI card inside the TSVP frame Self Test of the TSVP frame power supply backplanes and the CPCI cards inside the frame Unit Under Test Device Under Test 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Customer Service 2 Customer Service 2 1 Service Addresses 2 1 1 Technical Support If you have any technical queries about this Rohde amp Schwarz equip ment 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 prob lems The Hotline is open Mondays to Fridays from 08 00 to 17 00 hrs For queries outside office h
152. of the AOS is computed together with the selec ted AOS output voltage 0 1 V The output of the AOS is de activated The measurement is carried out separately for all four possible output resistances of the AOS 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test Testcase Description Test Seguence Check RefComp Tests the reference components on the PICT module R C and the relays that switch them to the analog bus this test case is only run when the CheckAOS and CheckCMU test ca ses have been passed MU LO is switched to ABa1 MU_HI is switched to ABb1 The relays between REF RC ABa1 and REF COM ABb1 are closed The resistance is measured The relay between REF COM ABb1 is opened The insulation resistance is measured The relay between REF COM ABb1 is closed again and the relay between REF RC ABa1 is opened The insulation resistance is measured The MU is disconnected from the analog bus The relays between REF RC ABa1 and REF COM ABb1 are closed AOS Hlis switched to ABa1 and CMU Hl is switched to ABb1 The AOS is switched to the AC mode The CMU is configured The AOS is configured The AOS output is activated The current is measured with the CMU The AOS output is deactivated The RMS value of the measured current is computed and
153. of the R amp S TS PSAM modu le To determine whether the minimum permitted resistance of a bus line against GND is not reached DCS LO is connected with GND and DCS HI I switched to the line to be tested A voltage of 5 V and a current limit of 10 pA gives a threshold of the 500 kOhm If the insulation resis 4 59 ROHDE amp SCHWARZ Self Test 4 60 DMM HI LABx DMM LO PSAM R amp S CompactTSVP R amp S PowerTSVP tance is low the source goes into the current limit and thus displays an error The insulation resistance between two bus lines is measured in the 10 MQ range of the resistance measuring function If too low a resis tance is found then the measurement with Autorange switched on is repeated to determine the exact value 4 6 7 5 2 Sequence Test all bus lines against GND Test all combinations of bus lines against one another Temporarily store result for the test of the relay on the bus lines 4 6 7 6 Coupling Relays Bus Lines A B 4 6 7 6 1 Description The function of the coupling relay of the four bus lines ABa1 ABa2 ABb1 and ABb2 is tested For each relay a contact and insulation measurement is carried out During the measurement of the contact re sistance the serial connection of multiple relays is always measured 4 6 7 6 2 Sequence The coupling relay is tested together with the matrix relay Here measuring path is always set up as follows ABx lt Kx gt LA
154. ogue bus Kx Coupling relay in the HI line LABx HI line on the local analogue bus R amp S TS PSU CHx y R amp S TS PSU device connection LABy LO line on the local analogue bus R8S TS PSU Ky Coupling relay in the LO line ABy LO line on analogue bus 4 87 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP Signal Note LABy PSAM LO line on the local analogue bus R amp S TS PSAM DMM LO LO line of the resistance measurement unit Two bus lines must always be selected that do not have any short cir cuit between them The results of the bus isolation measurement are used for this purpose If the measurement branch is a low Ohm connection the measurement value is logged as a contact resistance for both relays Kx and Ky Then Kx and Ky are each opened individually and a separate isolation measurement is performed for each If no low Ohm connection is determined one of the four relays involved on the module will not close Then no isolation measurement can be performed for the coupling relay The measurement is repeated with the next device connection CHx y If no connection is found on any li nes CHx y a coupling relay is probably faulty The measurements are repeated for all bus lines ABx 4 6 9 7 Coupling Relays Bus Lines C D The function of the four coupling relays of bus lines ABc1 ABc2 ABd1 and ABd2 is logged This procedure is described in Section 4 6 9 6 4 6 9
155. oks for a reference bus line gt Refline MU Hlis switched to ABa1 and MU LO to ABa2 The contact resistance of coupling relays ABa1 lt gt LABa1 and ABa1 lt gt LABa2 is measured Coupling relay ABa1 lt gt LABa1 is opened The insulation resistance of coupling relays ABa1 lt gt LABa1 is measured If the measurement is OK then ABa1 is the Refline Coupling relay ABa1 lt gt LABa1 is closed All bus lines are measured against the Refline 4 45 ROHDE amp SCHWARZ Self Test 4 46 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The contact resistance of coupling relays Refline ABa1 and ABa2 lt gt LABa2 is measured Coupling relay ABa2 lt gt LABa2 is opened The insulation resistance of coupling relay ABa2 lt gt LABa2 is measured Coupling relay ABa2 lt gt LABa2 is closed The coupling relays of the other buses are measured in the same way Refline ABa1 ABb1 Refline ABa1 ABb2 Refline ABa1 ABc1 Refline ABa1 ABc2 Refline ABa1 ABd1 Refline ABa1 ABd2 At the end of the test case all coupling and matrix relays are opened again by calling the function rspfg reset Bus Isolation Tests the insulation resistance between all buses and all bus lines to Ground All coupling relays are closed MU_LO is switched to ABa1 and MU_HI to ABa2 The insulat
156. on first failure Report File Select Report Style Append to existing File Self Test Parts Abort Selftest R amp S CompactTSVP R amp S PowerTSVP HINWEIS No Self Test Boards are available for the R amp S CompactTSVP modules The Self Test Boards are used by Production for final inspection Manual intervention in the self test sequence by the operator is per mitted e g the fitting of self test boards or the selection of individual test components The self test sequence is interrupted on the first failed test At this point the location and file name for the self test report are en tered The location and file name of the test report are selected using the Select button In this list box the type of output for the self test report is selected e Errors only A self test report containing only the error messages failed tests is prepared Small A self test report with header information is prepared Full A self test report containing all available information is prepared The self test report prepared during the self test sequence is appen ded to an existing self test report In this window the parts to be tested are displayed It is possible to se lect which parts are to be tested checkmarks The self test sequence is continued using the OK button The Abort Selftest button immediately interrupts the performance of the self test sequence Depending on the combination of the two va
157. orded in the SFT Report DCS Relayfunc tion HI LO Tests the function of the relays between DCS Hl and analog bus and DCS LO and analog bus The connection DCS LO lt gt GND is opened The DCS voltage is set to 0 3 V The DCS current limiter is set to maximum value 100 mA DCS_HI is switched to ABa1 DCS_LO is switched to ABa1 The DCS is switched on The DCS must go into the current limiter The resistance is therefore less than 3 Ohm The DCS is switched off The connection DCS_HI lt gt ABa1 is opened The connection DCS LO lt gt ABa1 is opened This measurement is repeated for all bus lines up to ABd2 If a low resistance connection has been found The DCS voltage is set to 5 V The DCS current limiter is set to minimum value The connection DCS HI lt gt ABa1 is opened The DCS is switched on 4 33 ROHDE amp SCHWARZ Self Test 4 34 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance The connection DCS LO lt gt ABa1 is opened DCS Hl is switched to ABa1 The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance
158. ours you can leave a message or send a note via fax or email We will then get back to you as soon as possible Telephone Europe 49 180 512 42 42 Telephone worldwide 49 89 4129 13774 Fax 49 89 4129 13777 e mail customersupport rohde schwarz com 2 1 2 Ordering Spare Parts The spare parts required for the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP can be ordered from the following address Spare Parts Express Service Phone 49 89 4129 12465 Fax 49 89 4129 13306 e mail customersupport rohde schwarz com 2 1 ROHDE amp SCHWARZ Customer Service 2 2 R amp S CompactTSVP R amp S PowerTSVP 2 2 Service Questionnaire To be able to process technical questions or orders for spare parts as quickly as possibly we request you to complete the following service questionnaire We request you to include the completed service ques tionnaire with all letters and parcels sent to ROHDE amp SCHWARZ In the case of telephone queries we also request you to complete the service questionnaire and keep it at hand such that the necessary in formation is available Please use the service questionnaire printed on the following two pages as a master A Service Questionnaire form is in a seperate PDF file 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP A CUSTOMER INFORMATION ROHDE amp SCHWARZ Customer Service Name of Customer Customer Addr
159. output from input 4 6 11 22 Output Current 4 6 11 22 1 Description In this test case the stability of the output voltage is tested with load The voltage is measured once at zero load and once at an output cur rent of 25 mA The 100 Ohm reference resistor is used as a load 4 6 11 22 2 Seguence Connect 100 Ohm reference with K3 to K111 For all channels Connect output with input Adjust current limiting for extended channel Set output voltage to 2 5 V Measure zero load voltage Set output voltage to 2 5 V Measure zero load voltage Connect 100 Ohm reference resistor via K111 to analog bus Connect input with analog bus line Measure voltage Set output voltage to 2 5 V Measure voltage Set output voltage to 0 V Reset current limiting for extended channel Disconnect input from analog bus line Disconnect 100 Ohms from analog bus 4 133 ROHDE amp SCHWARZ Self Test 4 134 R amp S CompactTSVP R amp S PowerTSVP Disconnect output from input e 100 Disconnect Ohm reference from analog bus 4 6 11 23 Digital Output 4 6 11 23 1 Description Different output voltages as digital low high level are measured with the corresponding inputs The DAC output Vout4 is responsible for the low level 4 6 11 23 2 Seguence For all channels Connect output with input For each level Adjust the voltage Adjust the corresponding bit pattern M
160. p S CompactTSVP R amp S PowerTSVP is now accessible from all sides Remove fan connector from the backplane Undo the retaining bolts for the fan and remove the fan from the housing of the R amp S CompactTSVP R amp S PowerTSVP Removal Installation 6 5 ROHDE amp SCHWARZ Removal Installation R amp S CompactTSVP R amp S PowerTSVP 6 3 Installation The modules are installed in the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP in the reverse order of removal WARNING During the installation of modules in the Test System Versatile Platform R amp S CompactTSVP R amp S Pow erTSVP the ESD regulations electrostatic discharge are to be observed 6 4 Packaging Shipment and Storage Should it be necessary to send an assembly from the Test System Versatile Platform R amp S CompactTSVP R amp S Pow erTSVP to ROHDE amp SCHWARZ the following points are to be ob served The module is to be shipped in appropriate packaging The module must not be damaged during transport e Electrical and electronic modules are also to be shipped in anti stat ic foil e Fit warning notes to the packaging self adhesive labels E g Caution Electronic Components Caution Fragile A letter is to be included with the module with as a minimum the following information Sender with contact person Name of the assembly Exact description of
161. ponent are closed and the insulation re sistance of the bus lines with each other and the resistance of the single bus lines against GND is measured For the measurement against GND the DCS is used because high ohm resistors against GND can not be carried out with the resistance measuring function in the Mode V voltage injection and current measurement of the R amp S TS PSAM mo dule To determine whether the minimum permitted resistance of a bus line against GND is not reached DCS_LO is connected with GND and DCS_HI switched to the line to be tested A voltage of 5 V and a current limit of 10 pA gives a threshold of the 500 kOhm If the insulation resis 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test tance is low the source goes into the current limit and thus displays an error The insulation resistance between two bus lines is measured in the 10 MQ range of the resistance measuring function If too low a resis tance is found then the measurement with Autorange switched on is repeated to determine the exact value 4 6 11 8 2 Sequence e Test all bus lines against GND Test all combinations of bus lines between each other e Temporarily store the result for the test of relays on the bus lines 4 6 11 9 Matrix relays LABa1 LABa2 4 6 11 9 1 Description The function of relays on analog bus lines is tested A contact and iso lation measurement is perfor
162. rame begins with the basic tests where the R amp S CompactTSVP R amp S PowerTSVP frame and the self test instrumenta tion is tested When this test is done it walks through the list of testable devices loads the appropriate SFT DLL dynamically and calls the test function The order in which the tests are performed is given by the or der in which the device entries are written in the physical ini file HINWEIS Because the Source and Measurement Module R amp S TS PSAM is needed as test instrumentation for the self test of the R amp S CompactTSVP R amp S PowerTSVP the basic test is identical with the module test on the R amp S TS PSAM see Section 4 6 3 4 15 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP 4 6 Self Test of Plug in Cards 4 6 1 Power Switch Module R amp S TS PSM1 The Power Switch Module test consists of the following test cases e INIT e Extern Voltage e Device SFT e Configuration e Coupling Relays e Bus Isolation e Shunt Relays e Channel Relays e LPB Relays Front Connector SELF TEST Test Case Description Test Sequence INIT Initializes the module with the function The driver function rspsm1_InitWithOptions is star rspsm1_InitWithOptions ted Extern Voltage Measures the potential between all bus lines The following connections switch any voltages present on and of each individual bus line to Ground channels Ch1 Ch4 to the analog buses Ch1co
163. range of the resistance measuring function If too low a resis tance is found then the measurement with Autorange switched on is repeated to determine the exact value 4 6 10 5 2 Sequence e Test all bus lines against GND Test all combinations of bus lines between each other e Temporarily store the result for the test of relays on bus lines ma trix 4 6 10 6 Matrix relays LABa1 LABa2 4 6 10 6 1 Description The function of relays on analogue bus lines is tested A contact and isolation measurement is performed for each relay In the measure ment of the contact resistance multiple relays are always measured wi red in series 4 6 10 6 2 Sequence The measurement path is always set up as follows DMM HI LABx PSAM ABx LABx lt Kx gt CHx y lt Ky gt LABy ABy LABy PSAM DMM LO Signal Note DMM HI HI line of the resistance measurement unit LABx PSAM HI line on the local analogue bus R amp S TS PSAM ABx HI line on analogue bus LABx HI line on the local analogue bus R amp S TS PSM2 Kx Matrix relay in the HI line CHx y Channel to R amp S TS PSM2 Ky Matrix relay in the LO line LABy LO line on the local analogue bus R8S TS PSM2 4 109 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP Signal Note ABy LO line on analogue bus LABy PSAM LO line on the local analogue bus R amp S TS PSAM DMM LO LO l
164. re triggered voltage measurement with XTI1 Initiate trigger pulse Get test result There must be no timeout Configure trigger pulse on XTO2 with the help of IT1 Configure triggered voltage measurement with XTI2 Initiate trigger pulse Get test result There must be no timeout The test results are recorded in the SFT Report 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ Self Test 4 6 4 Arbitrary Function Generator Module R amp S TS PFG The Arbitrary Function Generator Module test consists of the following test cases Initialization e Device self test e Configuration e Coupling Relays e Bus Isolation e Matrix Relays e Ground Relays e Channel Connect Relay Function Generator Front Connector Test Case Description Test Sequence INIT Initializes the module with the function The driver function rspfg_InitWithOptions is star rspfg InitWithOptions ted Device SFT Starts the Device Self Test The function rspfg self test is started Configuration Reads the configuration of the module firm ware version slot number hardware code Starts the function getConfiguration Coupling Relays The eight coupling relays are tested All eight coupling relays are closed All relays on the lines CH1 HI CH1 LO on the R amp S TS PFG board under test are closed The test lo
165. riables Self Test Boards available and Manual Interventions different self test sequences are possible HINWEIS No Self Test Boards are available for the R amp S CompactTSVP modules The Self Test Boards are used by Production for final inspection 5th Issue 08 06 5th Issue 08 06 R8S CompactTS V Self Test Boards available IV Manual Interventions V Self Test Boards available T Manual Interventions Self Test Boards available V Manual Interventions Self Test Boards available T Manual Interventions ROHDE amp SCHWARZ VP R amp S PowerTSVP Self Test All possible tests are performed The self test boards must be plugged in or unplugged as required Corresponding messages appear on the screen It is assumed that all the necessary self test boards are plugged in pri or to the start of the self test Only those tests that require a self test board or that the self test board does not interfere with are performed No messages are displayed on the screen Only those tests that do not require a self test board are performed Only those tests that do not require a self test board are performed No messages are displayed on the screen During the performance of the self test the current status of the self test is displayed see Bild 4 6 O1 x Pat TSVP Current Overall Status Component Basic Tests Test Case DCH Failure Count 0 Information check isolation ABd1 and ABd2 Basic T
166. rnal voltage 4 6 9 4 1 Description The coupling relays in the module are closed Then voltage measure ments are performed between each individual bus lines and GND as well as between all individual bus lines If too high a level is detected the self test must be interrupted for that module 4 6 9 4 2 Seguence e Close coupling relays e Connect DMM LO with GND e For all bus lines Switch DMM HI to the line that will be tested Perform voltage measurement Disconnect DMM HI from the bus line e Disconnect DMM Lo from GND For all combinations of bus lines Switch DMM_IO to the first line Switch DMM HI to the second line Perform voltage measurement Disconnect DMM LO from the bus line Disconnect DMM HI from the bus line 4 6 9 5 Bus isolation 4 6 9 5 1 Description The coupling relays on the component are closed and the insulation re sistance of the bus lines with each other and the resistance of the single bus lines against GND is measured For the measurement against GND the DCS is used because high ohm resistors against GND can not be carried out with the resistance measuring function in the Mode V voltage injection and current measurement of the R amp S TS PSAM mo dule To determine whether the minimum permitted resistance of a bus line against GND is not reached DCS LO is connected with GND and DCS Hl switched to the line to be tested A voltage of 5 V and a curren
167. s generated The mode is configured The outputs DOUT are configured The inputs DIN are configured Now only one bit in the pattern for the remaining chan nels OUT5 to OUT32 is set to high at a time The prepared Pattern is executed The Pattern is read back The test checks whether the right bit is set to high The check is now repeated for all the remaining channels OUT5 to OUT32 4 57 ROHDE amp SCHWARZ Self Test 4 58 R amp S CompactTSVP R amp S PowerTSVP 4 6 7 Analyzer Module R amp S TS PAM 4 6 7 1 Initialization 4 6 7 1 1 Description The driver is opened For this the Resource Descriptor and the opti onal Option String from the Physical INI File are used If the initializa tion of the driver fails the test for the module is aborted 4 6 7 1 2 Sequence The function rspam_InitWithOptions is called 4 6 7 2 Configuration 4 6 7 2 1 Description The current configuration parameters Driver and Firmware version assigned slot Hardware Code are determined The Option String used during the initialization is shown in the report 4 6 7 2 2 Sequence Call of the function rspam revision query and query of the attribu te RSPAM ATTR SLOT NUMBER and RSPAM ATTR HW CODE 4 6 7 3 Device Self Test 4 6 7 3 1 Description The self test function in the driver is started This function conducts in ternal tests on the
168. s on R amp S TS PSAM and R amp S TS PAM are closed 4 6 7 15 2 Sequence DCS is switched to the analog bus e For each data acquisition path For each combination of oscilloscope channels Connect channel 1 with bus line LO Connect channel 2 with bus line HI Configure channels Carry out measurement Disconnect channel 1 from bus line LO Disconnect channel 2 from bus line HI 4 6 7 16 Filter DC 4 6 7 16 1 Description The signal path through the filter is tested For this a DC Signal is used So that each filter is controlled the three filter settings are tested with two different connections of the oscilloscope channels Data acquisition path A CHA2 CHA3 CHA3 CHA2 Data acquisition path B CHB2 CHB3 CHB3 CHB2 Channel 1 is connected with DCS HI channel 2 with DCS LO 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test The following settings are selected Range 1V Input impedance 10 MQ Filter 400 Hz Observation time 20 0 ms Sampling values 1000 The average value is taken from the sample values The DCS is wired as follows DCS LO to ABal ABcl and GND DCS HI to ABb1 ABd The source is set as follows Voltage 1V Current limit 1 mA All coupling relays on R amp S TS PSAM and R amp S TS PAM are closed 4 71 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerT
169. se after switching off the power it is necessary to wait until the filter capacitors have dis charged e The contacts on the connector on circuit boards containing parts sensitive to static and that have been removed are to be shorted to gether e g using aluminium foil copper foil e The installation and removal as well as the repair of assemblies is only to be performed on a anti static workstation e Modules removed must be stored and transported in anti static packaging Removal Installation ROHDE amp SCHWARZ Removal Installation 6 2 R amp S CompactTSVP R amp S PowerTSVP 6 1 1 Anti Static Work Station Minimum reguirements for an anti static work station e Conducting bench and floor coverings e Chair with conducting covers Earthed metal work top e Conducting armbands with a protective resistor between 200 ko and 1 MQ and a connecting cable with plug in connector e Earthed soldering iron e All conducting covers armbands etc must be connected together using insulated wires 6 1 2 Tools Commonly available electrical tools are required for the installation and removal of the modules in the Test System Versatile Platform R amp S CompactTSVP R amp S PowerTSVP 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP ROHDE amp SCHWARZ 6 2 Removal In the case of the need for service only the following modules in the R amp S CompactTSVP R amp S PowerTS
170. sue 08 06 R amp S CompactTSVP R amp S PowerTSVP 8 2 7 Power Switch Module R amp S TS PSM1 8 2 8 Switch Multiplex Module 2 R amp S TS PSM2 8 2 9 Power Supply Load Module R amp S TS PSU 8 2 10 Analog Digital IO Module 2 R amp S TS PIO2 8 2 11 High Speed Digital Test Module R amp S TS PHDT A Appendix A 1 SFT Report Example ROHDE amp SCHWARZ Content 8 2 8 2 8 3 8 3 8 3 A 1 11 ROHDE amp SCHWARZ Content 12 R amp S CompactTSVP R amp S PowerTSVP 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Figures Figures Figure 2 1 System Information sie ascetic ci nano kase nao ss dona an ikonu ooo oukda d l 2 5 Bild 4 1 SFT Software OvervieW lt lt lt lt lt rrrrrrrrr ereeene nenene nana nn 4 1 Bild 4 2 Self Test SCQUGMCE iscir dianoia aeae pap iiaia aana EEEa 4 3 Bild 4 3 Connection of R amp S TS PSAM to Analog Bus 4 5 Bild 4 4 Self Test Start SCFG0N sms suumuuosksu saka a suea mak ada aaa oa aaa KK aa Kaka sena 4 6 Bild 4 5 Self Test Parts and Options s ssssssscsssssssscsssssssnscsnncsesseesseeensees 4 7 Bild 4 6 Self Test in ProgreS5 iiss scsciscs n ninandaaan ce eceececeteres erence dua Ku SuG GUBE 4 9 Bild 4 7 Self Test Result Passed cccseeeeeeeeeeeeeeeeeeeeeeeeneeeeeeeeeeeeeeeeeees 4 10 Bild 4 8 Self Test Result Failed 2 ccccccecseneenccceeesennensn
171. t limit of 10 pA gives a threshold of the 500 kOhm If the insulation resis 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test tance is low the source goes into the current limit and thus displays an error The insulation resistance between two bus lines is measured in the 10 MQ range of the resistance measuring function If too low a resis tance is found then the measurement with Autorange switched on is repeated to determine the exact value 4 6 9 5 2 Sequence Test all bus lines against GND Test all combinations of bus lines between each other Temporarily store the result for the test of relays on bus lines 4 6 9 6 Coupling relays bus lines A B 4 6 9 6 1 Description The function of the four coupling relays of bus lines ABa1 ABa2 ABb1 and ABb2 is logged A contact and isolation measurement is performed for each relay In the measurement of the contact resistance multiple relays are always measured wired in series 4 6 9 6 2 Sequence The coupling relays are tested together with the matrix relays The measurement path is always set up as follows DMM HI LABx PSAM ABx lt Kx gt LABx CHx y LABy lt Ky gt ABy LABy PSAM DMM LO Signal Note DMM HI HI line of the resistance measurement unit LABx PSAM HI line on the local analogue bus R amp S TS PSAM ABx HI line on anal
172. t K5001 gt lt K5004 gt CH5 LO LABc2 LABcI CH5 HI lt K5005 gt CH5 HI2 CH1l HIZ lt K1002 gt CH1 L02 CHS LO2 lt K5002 gt lt K5005 gt CH5 LO LABc2 LABCI CH5 HI lt K5011 gt CH5 HI3 CH1 HT3 lt K100B gt CH1 LO3 CHS LO3 lt K5008 gt lt K5011 gt CH5 LO LABG2 LABCI CH5S HI lt K5012 gt CH5 HI4 CHl HI4 lt K1009 gt CH1 LO4 CH5 LO4 lt K5009 gt lt K5012 gt CH5 LO LABc2 LABc1 CH6 HI lt K6004 gt CH6 HI1 CH2 HI1 lt K2001 gt CH2 LO1 CH6 LO1 lt K6001 gt lt K6004 gt CH6 LO LABc2 LABCI CH6 HI lt K6005 gt CH6 HI2 CH2 HI2 lt K2002 gt CH2 LO2 CH6 LO2 lt K6002 gt lt K6005 gt CH6 LO LABc2 LABCI CH6 HI lt K6011 gt CH6 HI3 CH2 HI3 lt K200B gt CH LO3 CH6 LO3 lt K6008 gt lt K6011 gt CH6 LO LABc2 LABc1 CH6 HI lt K6012 gt CH6 HI4 CH2 HI4 lt K2009 gt CH2 LO4 CH6 LO4 lt K6009 gt lt K6012 gt CH6 LO LABc2 LABd1 CH7 HI lt K7004 gt CH7 HI1 CH3 HI1 lt K3001 gt CH3 LO1 CH7 LO1 lt K7001 gt lt K7004 gt CH7 LO LABd2 4 117 ROHDE amp SCHWARZ Self Test R amp S CompactTSVP R amp S PowerTSVP LABd1 CH7_HI lt K7005 gt CH7_HI2 CH3_HI2 lt K3002 gt CH3_LO2 CH7_LO2 lt K7002 gt lt K7005 gt CH7_LO LABd2 L
173. t can be performed for the coupling relay The measurement is repeated with the next device connection CHx y If no connection is found on any li nes CHx y a coupling relay is probably faulty The measurements are repeated for all bus lines ABx 4 111 ROHDE amp SCHWARZ Self Test 4 112 R amp S CompactTSVP R amp S PowerTSVP 4 6 10 11 Local power bus relays 4 6 10 11 1 Description The function of the eight two pin Local Power Bus relays LPB relays is tested Each pin of this relay is designed as a change contact The normally closed contact connects the side connector with the cor responding channel This contact cannot be tested in the self test be cause generally nothing is connected to the X40 side connector and no self test connector can be provided for X40 A contact and isolation measurement is performed for each normally open contact of the LPB relays In the measurement of the contact re sistance multiple relays are always measured wired in series The iso lation measurement can only be performed if the contact measurement was successful The following signal paths are set up one after the other LABa LABa LABb1 LABb LABc l LABc l LABd LABd 4 6 10 11 2 Seguence e Coupling relays R amp S TS PSAM and R amp S TS PSM2 are closed e For each signal path
174. the system from which the module was re moved Completed service questionnaire including exact description of fault The modules for the Test System Versatile Platform are to be stored in a dry dust free place of constant temperature The modules are to cov ered or stored in suitable packaging Electrical or electronic modules are to be stored in anti static foil 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP 7 Spare Parts List ROHDE amp SCHWARZ Spare Parts List 7 1 Spare Parts List R amp S CompactTSVP TS PCA3 Item Number Spare Part 1133 7260 00 FAN 1133 7353 00 BP Rueck 12TE 1133 7376 00 BP Rueck 4TE 1152 3508 00 BP Front 16TE 1152 3543 00 BP Front 4TE 1152 2601 00 CPCI Backplane 1152 2653 00 Analogbus Backplane 1152 2682 00 Power Supply 1152 2724 00 PCI PCI Bridge 1143 0145 00 System Module R amp S TS PSYS1 Table 7 1 Spare Parts List TS PCA3 7 2 Spare Parts List R amp S PowerTSVP TS PWA3 Item Number Spare Part 1133 7260 00 Fan 1133 7353 00 BP Rueck 12TE 1133 7376 00 BP Rueck 4TE 1152 3508 00 BP Front 16TE 1152 3543 00 BP Front 4TE 1157 8208 00 Control Backplane 1152 2653 00 Analogbus Backplane 1152 2682 00 Power Supply 1143 0151 00 System Module R amp S TS PSYS2 Table 7 2 Spare Parts List TS P
175. there was continuity the DCS voltage is set to 5 V The DCS current limiter is set to the minimum value The DCS is switched on 4 37 ROHDE amp SCHWARZ Self Test 4 38 R amp S CompactTSVP R amp S PowerTSVP Test Case Description Test Seguence The DCS must not go into the current limiter The insula tion resistance of the relay is therefore greater than the measurable insulation resistance The connection DCS HI lt gt analog bus is opened This measurement is repeated for all analog bus lines up to ABd2 The test results are recorded in the SFT Report MU Relayfunction LO Tests the function of the relays on the MU LO line In this test the relays of the DCS_HI line and the two ground relays must function Measuring path DCS_HI gt analog bus line gt MU_LO gt GND gt DCS_LO The DCS voltage is set to 0 3 V The DCS current limiter is set to maximum value 100 mA DCS_LO is switched to GND MU_LO is switched to GND The MU is switched to the voltage measurement mode 10 V range high resistance input stage DCS_HI is switched to the analog bus line DCS_LO is switched to the analog bus line The DCS is switched on The DCS must go into the current limiter The contact re sistance is therefore less than 3 Ohm The DCS is switched off The connection MU_LO lt gt analog bus line is opened
176. tions 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 Eguipment and Systems Design and Development Production Sales Services of Electronic Measurement and Communication Eguipment and Systems Design and Development Production Sales Services of Electronic Measurement and Communication Eguipment 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 8 Schwarz equipment our Hotline at the Support Center of Rohde amp Schwarz Vertriebs 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 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP Content 1 User Information 1 1 Purpose of the Handbook 1 2 Important User Notes 1 3 Explanation of symbols 1 4 Glossary 2 Customer Service 2 1 Servi
177. trigger pulses with a length of 200 ns on the corresponding li nes The tests are carried out with the data acquisition path A oscillo scope channel 1 4 6 7 19 2 Sequence e Set path A for external triggering e Configure oscilloscope channel For all lines PXIO to PXI7 Configure trigger generator activate output Start first measurement call read function and test for expec ted exceeding of measuring time no trigger signal If the measurement was triggered in an unexpected way abort test for this line Start second measurement Generate trigger signal Query status until measurement is terminated Get measurement data Deactivate trigger output on R amp S TS PSAM 4 75 ROHDE amp SCHWARZ Self Test 4 76 R amp S CompactTSVP R amp S PowerTSVP 4 6 7 20 Trigger Bus Output 4 6 7 20 1 Description Tests the trigger outputs PXI0 to PXI7 The module R amp S TS PAM ge nerates trigger pulses with a length of 200 ns The measuring unit on the module R amp S TS PSAM is set to external triggering and receives the signals 4 6 7 20 2 Seguence Set pulse width in the trigger generator path A at 200 ns Set oscilloscope channel A1 for software triggering Configure oscilloscope channel For all lines PXIO to PXI7 Configure and activate trigger output Configure external triggering on R amp S TS PSAM Start measurement on R amp S TS PSAM Start measurement on R amp S TS PAM Generate tri
178. uration for the self test in the file APPLICATION INI application layer ini file ResourceManager global tracing flags normally off r Trace 0 TraceFile SGTSLROOTS SFT Trace txt bench gt SFT The bench SFT contains the device required to run the complete self test The TS PSAM source and measurement module which includes the switch matrix for analog bus access r DigitalMultimeter device gt psam SwitchDevice device gt psam Trace 0 SftOptions The SftOptions section defines default values for the self test dialog r 4 13 ROHDE amp SCHWARZ Se 4 14 If Test SystemName CompactTSVP ReportFile GTSLROOT SFT Report txt ReportStyle options 1 report only errors 2 short report 3 full report ReportStyle 1 Self Test Fixtures are available 0 or 1 SFTFixture 0 Allow manual interventions i e selection of ManualInterventions 1 SftParts r R amp S CompactTSVP R amp S PowerTSVP subtests 0 or 1 The SftParts section contains a list of parts to test r Format PartX PartName BenchName SelectFlag The PartName must be unique for the whole section The name for Part 1 must be TSVP Partl TSVP TSVP 1 bench gt TSVP Bench for TSVP self test Trace 0 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 5 Basic Tests The self test f
179. urn on the channel e For each level Set the voltage range and value Measure the voltage with the measurement unit Move the channel to its basic state 4 6 9 15 Measurement of voltage sense 4 6 9 15 1 Description The measurement of the sense voltage with the measurement unit is verified The sense lines are connected with the force lines via the local analogue bus The following settings are used for current limiting Range 3A Level 1 mA The measurement is configured as follows Sampling values 40 Interval 1 ms Delay 0 4 93 ROHDE amp SCHWARZ Self Test 4 94 R amp S CompactTSVP R amp S PowerTSVP The PSU channels are grounded 4 6 9 15 2 Seguence For each channel e Connect CHx LO and CHx HI with the analogue bus e Connect CHx SLO and CHx SHI with the analogue bus e Configure measurement unit e Set current limiting e Turn on the channel e For each level Set the voltage range and value Measure the voltage with DMM Move the channel to its basic state e Disconnect the channel from the analogue bus 4 6 9 16 Measurement current 4 6 9 16 1 Description The current measurement function of the measurement unit is verified The force lines are short circuited via the local analogue bus The fol lowing settings are used for the voltage Range 50 V Level 5V The measurement is configured as follows Sampling values 40 Interval 1 ms Delay 0 Th
180. us Comment Configuration passed Instrument Model TS PSYS11 Option string is Simulate 0 RangeCheck 1 Resource Descriptor for second CAN Port CAN0 0 5 15 Test Case Name Test Case Status HW State passed Test Case Name Test Case Status Comment Self test board reguired Voltage Source skipped Test Case Name Test Case Status Comment Digital Input Output skipped ROHDE amp SCHWARZ Appendix Self test board required R amp S CompactTSVP R amp S PowerTSVP Test Case Name Test Case Status Comment Self test board required Temperature measurement skipped Test Case Name Test Case Status Comment Self test board required SYNC Signal skipped Test Case Name Test Case Status Comment Self test board required Trigger Lines skipped Test Case Name Test Case Status Comment Self test board required CAN Bus Loopback skipped 5th Issue 08 06
181. us Configure channel Start measurement Switch on DCS Query status until measurement is completed Get measurement data Switch off DCS Disconnect CHxy HI from the analog bus Disconnect CHx LO from the analog bus 4 78 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerTSVP 4 6 7 22 External Trigger In Out 4 6 7 22 1 Description ROHDE amp SCHWARZ Self Test For this test the self test board is necessary It tests the trigger inputs XTIx and trigger outputs XTOx In the self test board there are the following connections XTO1 gt XTI2 XTO2 gt XTI1 During the test a data acquisition path generates a trigger signal on XTOx and triggers the second data acquisition path on XTTy The ge nerated trigger pulse is 200 ns wide The following settings are selected Range 100 V Input impedance 1 MQ Filter off Observation time 500 us Sampling values 10000 4 6 7 22 2 Sequence e Self test board is present e Set sampling parameters for path A e Configure oscilloscope channel A1 e Set sampling parameters for path B e Configure oscilloscope channel B1 e For both trigger outputs XTOx Configure trigger output and activate Configure trigger signal Set trigger source path x Software path y XTly Start measurement path x Start measurement path y Trigger path x by software and thus generate trigger signal on
182. ved to Passed e Open the sense relay involved e If the contact test was successful Repeat measurement If the measured voltage is high enough Set isolation test for the sense relay to Passed otherwise Set isolation test for the sense relay to Failed e otherwise Set contact test for the sense relay to Failed Set isolation test for the sense relay to Skipped Move the channel to its basic state Disconnect connection 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 9 23 Sense protection 4 6 9 23 1 Description The self test connector is required for this test The sense lines are short circuited via the self test connector The out put voltage may only exceed the set voltage up to a specified value It is measured with the SFT DMM The following connections are set up Channel 1 H1 S lt K2 gt CH1 2 H1 HI with ABb H1 LO with ABal hannel 2 H2 S lt K40 gt CH2 S2 H2 HI with ABdl H2 LO with ABc aaa 0 aaa The PSU channels are grounded The following settings are used for the voltage Level 5V The following settings are used for current limiting Range 3A Level Minimum 4 6 9 23 2 Sequence For each channel e Set up signal path e Adjust voltage level e Switch the channel to external sensing and turn on e For each voltage r
183. version Starts the function getConfiguration Coupling Relays The eight coupling relays are tested All eight coupling relays are closed All power relays and their connections with the correspon ding analog bus lines on the PSM1 board CH1 CH16 are closed MU_HI is switched to ABa1 and MU LO to ABb1 The contact resistance of coupling relays ABa1 lt gt LABa1 and ABb1 lt gt LABb1 is measured Coupling relay ABa1 lt gt LABa1 is opened The insulation resistance of coupling relay ABa1 lt gt LABa1 is measured Coupling relay ABa1 lt gt LABa1 is closed Coupling relay ABb1 lt gt LABb1 is opened The insulation resistance of coupling relay ABb1 lt gt LABb1 is measured Coupling relay ABb1 lt gt LABb1 is closed The coupling relays of the other buses are measured in the same way ABc1 ABd1 ABa2 ABb2 ABc2 ABd2 At the end of the test case all coupling relays and all po wer and analog bus relays CH1 CH16 are opened by calling the function rspsml reset Bus Isolation Tests the insulation resistance between all buses and all bus lines to Ground All coupling relays are closed MU LO is switched to ABa1 and MU Hl to ABa2 The insulation resistance between LABa1 and LABa2 is measured MU_HI is switched to ABb1 5th Issue 08 06 5th Issue 08 06 R amp S CompactTSVP R amp S PowerT
184. vice gt pmb4 Description Type ResourceDesc DriverPrefix DriverDl11 DriverOption 4 12 sftmpsam dll SFTMPSAM TS PICT Slot 9 PICT PXI2 15 INSTR rspict rspict dll Simulate 0 sftmpict dll SFTMPICT TS PMB Slot 10 PMB CANO 0331210 rspmb rspmb dll Simulate 0 sftmpmb dll SFTMPMB TS PMB Slot 13 PMB CANO 205113 rspmb rspmb dll Simulate 0 sftmpmb dll SFTMPMB TS PMB Slot 14 PMB CANO 0 1 14 rspmb rspmb dll Simulate 0 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test SFTD11 sftmpmb dll SFTPrefix SFTMPMB device gt pfg Description TS PFG Slot 15 Type PMB ResourceDesc PXI2 9 INSTR DriverPrefix rspfg DriverDl1 rspfg dll DriverOption Simulate 0 DriverSetup ie 1 SFTDI1 sftmpfg dll SFTPrefix SFTMPFG device gt psys Description TS PSYS Slot 15 rear Type PSYS1 ResourceDesc CAN0 0 5 15 DriverPrefix rspsys DriverDl1 rspsys dll DriverOption Simulate 0 SFTD11 sftmpsys dll SFTPrefix SFTMPSYS device gt psm1 Description TS PSM1 Slot 16 Type PSM1 ResourceDesc CAN0 0 1 16 DriverPrefix rspsml DriverDl1 rspsml dll DriverOption Simulate 0 SFTDI1 sftmpsml dll SFTPrefix SFTMPSM1 mandatory analog bus entry device gt ABUS Description Analog Bus Type ab Example config
185. with switching to external sensing for the ex tended channels To do this the output voltage is first measured inter nally at zero load Then a load is placed on the output via the following path CHx OUT lt Kout gt CHx OUT1 lt 10R gt CHx 1 lt 100R gt CHx 1R lt 10R gt LO AGND 4 144 The voltage on the relay contact is measured via the connection from CHx IN to CHx 1 The test is performed at a voltage of 2 7 V Then external sensing is turned on and the voltage is measured on both sides of the load resistor 4 6 11 35 2 Seguence Connect AGND with LO For all extended channels Connect output with input Set voltage to 2 7 V Adjust current limiting to 100 mA Measure voltagev ul at zero load Connect CHx OUT with CHx OUT1 Connect CHx IN with CHx 1 Measure voltagev_1 under load Disconnect CHx OUT from CHx OUT1 Ifthe contact measurement was successful Measure voltage V_iso with relay open Reconnect CHx OUT with CHx OUT1 Turn on external sensing Measure voltage V sense hi viaCHx 1 Disconnect CHx IN from CHx 1 Connect CHx IN with CHx 2 Measure voltage V sense lo via CHx 2 Disconnect CHx IN from CHx 2 Reset voltage Disconnect AGND from LO 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 11 36 5 V Reference Load Test The self test connector is required for this test
186. y is closed so there is no connection to the side connector The following signal paths are set up LABal CH1 HI lt K1004 gt CH1 HI1 lt R1000 gt lt R1004 gt lt K1001 gt lt K1004 gt CH1 LO LABa2 LABal CH1 HI lt K1005 gt CH1 HI2 lt R1001 gt lt R1005 gt lt K1002 gt lt K1005 gt CH1 LO LABa2 LABal CH1 HI lt K1011 gt CH1 HI3 lt R1002 gt lt R1006 gt lt K1008 gt lt K1011 gt CH1 LO LABa2 LABal CH1 HI lt K1012 gt CH1 HI4 lt R1003 gt lt R1007 gt lt K1009 gt lt K1012 gt CH1 LO LABa2 LABal CH2 HI lt K2004 gt CH2 HI1 lt R2000 gt lt R2004 gt lt K2001 gt lt K2004 gt CH2 LO LABa2 LABa1 CH2 HI lt K2005 gt CH2 HI2 lt R2001 gt lt R2005 gt lt K2002 gt lt K2005 gt CH2 LO LABa2 LABal CH2 HI lt K2011 gt CH2 HI3 lt R2002 gt lt R2006 gt lt K2008 gt lt K2011 gt CH2 LO LABa2 LABal CH2 HI lt K2012 gt CH2 HI4 lt R2003 gt lt R2007 gt lt K2009 gt lt K2012 gt CH2 LO LABa2 LABb1 CH3 HI lt K3004 gt CH3 HI1 lt R3000 gt lt R3004 gt lt K3001 gt lt K3004 gt CH3 LO LABb2 LABb1 CH3 HI lt K3005 gt CH3 HI2 lt R3001 gt lt R3005 gt lt K3002 gt lt K3005 gt CH3 LO LABb2 LABb1 CH3 HI lt K3011 gt CH3 HI3 lt R3002 gt lt R3006 gt lt K3008 gt lt K3011 gt CH3 LO LABb2 LABb1 CH3 HI lt K3012 gt CH3 HI4 lt R3003 gt lt R3007 gt lt K3009 gt lt K3012 gt CH3 LO LABb2 LABb1 CH4 HI lt K4004 gt CH4 HI1 lt R4000 gt lt R4004 gt lt K4001 gt lt K4004 gt CH4 LO LABb2 LABb1 CH4 HI lt K4005 gt CH4 HI2 lt R4001 gt lt R4005 gt lt K4002 gt lt K4005 gt CH4 LO LABb2 LABb1 CH4 HI lt K40
187. y between CH1com CH1no is closed The resistance of the shunt on CH1no is measured All relays on the PSM1 board are opened again All shunt resistors are tested in the same way 5th Issue 08 06 5th Issue 08 06 ROHDE amp SCHWARZ R amp S CompactTSVP R amp S PowerTSVP Self Test 4 6 2 Matrix Module B R amp S TS PMB 4 6 2 1 Initialization 4 6 2 1 1 Description The driver is opened The Resource Descriptor and the optional Op tion String from the Physical INI File is used for this If the initialization of the driver fails the test for the module is aborted 4 6 2 1 2 Sequence The function rspmb InitWithOptions is called 4 6 2 2 Configuration 4 6 2 2 1 Description The current configuration parameters Driver and Firmware version assigned slot Hardware Code are determined The Option String used during the initialization is also shown in the report The mode ne cessary for the self test for operation of the coupling relay is set 4 6 2 2 2 Seguence Call of the function rspmb revision query and query of the attribu te RSPAM ATTR HW CODE The attribute RSPMB ATTR CR AUTO is set to 0 4 6 2 3 Device Self Test 4 6 2 3 1 Description The self test function in the driver is started This function conducts in ternal tests on the component and when there is an error delivers a message about the first error found 4 6 2 3 2 Seguence Call of th
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