STATus:QUEStionable:TEMPerature?
Contents
1. 6 09 0 o9 go oO0 go 60 GO 005969 060905999 0990 500220525202055055 0250000500559055025500 8 32 Hex Screw 9 6060 604090 99 490 0G 9 G9 59 59 4950505050 94 8 32 Hex Screw a ae oe MEVS Q 8 32 Screw not 67 installed 3 2 OO T A O Safety Ground 8 32 Screw 8 32 Hex Screw gt lt 8 32 Hex Screw Figure 7 2 Location of Fan Assembly Screws on the Rear of the Mainframe VX1410 IntelliFrame Instruction Manual 7 5 Maintenance Power Supply 8 32 Screws 5 Fan Cables Fan Assembly Removing the Fan Assembly Figure 7 3 Cable Tie Fan Assembly wn v o wn ex e Removing the Fans Figure 7 4 VX1410 IntelliFrame Instruction Manual 7 6 Maintenance Procedure 2 Remove remove the monitor board standard or enhanced perform Procedure 1 Monitor Board Remove Fan Assembly and then refer to Figure 7 5 to remove the fan assembly Grasp th2. g 3 Figure 1 11 Locations of Safety and Chassis Ground Connections on Left Rear of the Mainframe VX1410 IntelliFrame Instruction Manual 1 21 Getting Started EMI Configurations Perform the following steps if you intend to install the optional EMI shields part numbers are listed under Optional Accessories on page 1 5 1 To install the Backplane EMI DIN shields determine the slot connectors where you want to install the shields 2 Remove any modules surrounding the slots where you intend to install the Backplane EMI DIN shields 3 Refer to Figure 1 12 and install the shields over the backplane connector 4 Mount the connector in place using two 4 20 thread forming screws 5 Reinstall any modules that you removed in step 2 7 7 7747274727472747 7 7 7 7 7 7 7 7 7 4727 472747272727 m M Backplane EMI DIN Shield DIIUCUCUCDUDDUDDDDDDDDDUDDUDDDDUUUCOev DIIOUOLDUDUODDODDDDUDDUDDUDDDDDDDDUDOTmUO y 47 7 7 7 7 7 7 7 7 7 7 77 7 77 7 77 7 7 7 7 7 7 7 7 77 7 77
3. 3 13 Status Commands 3 13 System 3 15 Test Commands e eR REN idl ge ee rae Soe EE pea 3 18 VXI Monitor Commands 3 18 IEEE 488 2 Commands 3 19 iue era hr ere mite eir su m reis ise 3 21 DEPT MU Ete to wa ghee et 3 21 Command Syntax vo b ERU PEN ES PR enn 3 21 Entering 68 3 24 DISPlay Su bsystem 55 42 eer er e n n 3 27 STATUS Subsystem ees rmn ehh ee in 3 29 SYS Tem Subsystem Jesse e Eee mairies revisit are PUR nU 3 77 TEST Su bsySteni Rote Sie 3 109 VXIMonitor Subsystem 3 115 IEEE 488 2 Common Commands 3 119 Status and Events 3 131 RS 232 and VXI Interface Status and Events 3 135 Error and Event Messages i sse Rede RR AR 3 136 VX1410 IntelliFrame Instruction Manual i Table of Contents Specifications Examples se 3 139 Example 1 Monitor
4. 8 80 o 67 06 cm 26 4 in Min 79 76 cm 314 in Max amp e o 17 50 in Figure 4 3 Front View and Side View of VX1410 IntelliFrame with Option 1U and Rackmount Option VX1410 IntelliFrame Instruction Manual 4 11 Specifications 48 01 cm 67 06 cm 26 4 in Min 18 9 in 79 76 cm 31 4 in Max A A A a TILES EJ oR qe cw 42 5 cm de 16 75 in H 44 5 cm E 1 b 2 17 50 in JAE A E o 48 9 19 25 in 44 c Y 1 U Y Figure 4 4 Front View and Side View of VX1410 IntelliFrame with Option 2U and Rackmount Option Table 4 10 VXI and Plug amp Play Characteristic VXI Plug amp Play Mainframe Description Fully compatible with VXIbus System Specif
5. A 1 Appendix B Special Configuration Options B 1 Remote Power Switch Configuration B 1 85 105 and 135 155 Jumper on the Standard Monitor Board B 3 Enhanced Monitor Board Jumpers B 4 Remote Power Supply Installation B 5 Appendix C SCPI Conformance Information C 1 VX1410 IntelliFrame Instruction Manual Table of Contents List of Figures Figure 1 1 Power Cord Identification Chart 1 7 Figure 1 2 Installing the Option 1U 1 75 inch Deep Cable Tray Option 2U 3 5 Inch Deep Installation is Similar 1 9 Figure 1 3 Installing the Option 2U 4 25 inch Deep Cable Tray Option 10 2 5 Inch Installation is 1 10 Figure 1 4 Installing the Option 2U 6 0 Inch Deep Cable Tray Option 10 4 25 Inch Deep Installation is Similar 1 11 Figure 1 5 Installing the Rackmount Kit Hardware 1 13 Figure 1 6 Assembling the Slide Out Track Assemblies 1 14 Figure 1 7 Vertical Clearance for Rack Installation Standard 1 15 Figure 1 8 Installing the Slide Out Track Assemblies in the Rack VIEW c Lose Lippe inte Aa cided eto eb 1 16 Figure 1 9 Installing the Rackmount Door Option 2R
6. 5 Adjustment Procedures This chapter describes adjustment procedures for the VX1410 IntelliFrame There are no hardware adjustments required for the VX1410 IntelliFrame The information in this chapter describes the command set for service related tasks The information in this section is designed for use by qualified service person nel Read the Safety Summary at the front of this manual and Service Strategy before attempting any procedures in this chapter Refer to the Operating Basics chapter for information on the location of controls indicators and connectors used with the mainframe NOTE This procedure assumes that you have a PC running MS Windows with the Microsoft Terminal program The following steps describe the calibration procedure using the CALibration command 1 Make sure that the Temperature Sense board is located toward the front of the mainframe You can see the position of the board by looking through the exhaust holes on the side of the mainframe If the Temperature Sense board is located toward the rear of the mainframe you must remove the mainframe cover and move the Temperature Sense board to the front of the mainframe Refer to Procedure 6 Remove the Temperature Sense Board on page 7 12 for instructions on moving the Temperature Sense board Replace the mainframe cover before continuing with this calibration procedure 2 Place the VX1410 IntelliFrame in a constant temperature en
7. AT 54 55 AT 56 57 AT 58 59 AT 10 S11 XX XX C AT S12 XX C Fan Status Messages Fan 1 RPM XXXX Fan 2 RPM XXXX Filter Status Messages Filter Hr LefHHHH Miscellaneous Messages Time On HHHHHH MM Hr of Oper HHHHHH 3 10 VX1410 IntelliFrame Instruction Manual Reference Table 3 6 Front Panel Display Messages Cont Category Message SYSTEM OFF SYSTEM OK To reset the filter cleaning interval display the filter status message by pressing the Next or Prev scroll buttons While the messages displays press both buttons at the same time The Filter Cleaning Interval will reset to the current interval 1 You can also query the individual messages and status information using the commands and queries described in the remainder of this chapter The remainder of this chapter provides the following information A summary of the SCPI commands and queries An overview of the syntax used with the commands and queries m A detailed description of each command and query m A list of error messages m Brief examples of using commands and queries VX1410 IntelliFrame Instruction Manual 3 11 Bep V Command Groups Display Commands Status Commands This section lists VX1410 IntelliFrame commands by functional groups A question symbol surrounded by brackets identifies commands that also have a query form C
8. VX1410 Current Limit 80A 12A 13A 3A 13A 3A 12A 6 5A 12A 6 5A 60A 9A 30A 5A Individual Current Sums Less Than VX1410 Currert Limits Power Calculation E E Total Power lt 87AN PASYJIOM 1e3png 2 y xipuoddy D ae a Appendix B Special Configuration Options A This appendix contains information for configuring your VX1410 IntelliFrame for specific situations not documented earlier in this manual These special configuration options require you to disassemble parts of the mainframe to access jumpers or circuit boards Refer to the Maintenance chapter for detailed information on the assembly and disassembly procedures You may also need to refer to the exploded views The information in this section is intended for use by qualified service personnel Read the Safety Summary at the front of this manual and the static precautions on page 7 1 before attempting any procedures in this appendix Refer to the Operating Basics chapter for information on the location of controls indicators and connectors used with the mainframe CAUTION To avoid damage from high currents on the backplane always power off the mainframe and disconnect the power cord before performing any of the configuration procedures for the mainframe described in this appendix Remote Power Switch Configuration You can control the power on function of the mainframe by the front panel On Standby switch and from a remote
9. 1 17 Figure 1 10 Installing the Empty Slot Panel Fillers 1 20 Figure 1 11 Locations of Safety and Chassis Ground Screws on Left Rear of the Mainframe 1 21 Figure 1 12 Installing the Backplane EMI DIN Shields 1 22 Figure 1 13 Installing the EMI Intermodule Shield and Front Panel EMLEEBPll ers SARI Ne Bice V BEALI 1 23 Figure 1 14 Logical Address Switches 1 24 Figure 2 1 Front View of the Standard VX1410 IntelliFrame 2 1 Figure 2 2 Partial Front View of the VX1410 IntelliFrame with Option IM eee t e S eee 2 2 Figure 2 3 Rear View of the Standard VX1410 IntelliFrame 2 3 Figure 2 4 Rear View of the VX1410 IntelliFrame with Option 2 2 4 Figure 3 1 Passive Monitor Connector 3 1 Figure 3 2 RS 232 Connector 3 4 Figure 3 3 Tree Hierarchy 3 22 Figure 3 4 Command Header 3 22 Figure 3 5 Command Header with Parameter 3 22 Figure 3 6 DISPlay Subsystem Hierarchy 3 27 Figure 3 7 STATus Subsystem Hierarchy 3 29 Figure 3 8 SYSTem Subsystem Hierarchy 3 77 VX1410 IntelliFrame Instruction Manual iii Table o
10. 160 Block data error 161 200 203 Invalid block data An invalid block data element was received Execution Error Command protected A password protection program command or query could not be executed because the command was disabled 213 220 221 222 Init Ignored The measurement initiation was ignored because another measurement was already in progress Parameter error A program data element related error occurred Settings conflict A legal program data element was parsed but could not be executed due to the current state of the mainframe Data out of range The value of the data was outside of the legal range 223 224 315 VX1410 IntelliFrame Instruction Manual Too much data More data was received by the instrument than what it was capable of handling Illegal parameter value The parameter value must be one of the exact values from the command list Queue Overflow An error occurred but there was no room in the queue to record the error 3 137 Status and Events Table 3 20 VX1410 IntelliFrame Error and Event Codes Cont Code Message 350 Too many errors An error occurred but there was no room in the queue to record the error 380 Calibration failed 381 Execution queue overflow Internal error 410 Query INTERRUPTED The query was interrupted before a response was completely sent 420 Query UNTERMINATED An incomplete program message was r
11. c m Front Panel Display Control Test 3 This test writes the following blinking message to the display Text is BLINKING 3 110 VX1410 IntelliFrame Instruction Manual TEST Subsystem TEST TEST This command executes all internal self tests If a failure occurs and the halt control is enabled the test will immediately end The query form returns the unique numeric identifier of the first test that failed A value of zero is returned if there are no failures The command form executes the same tests but returns no results code Each internal self test has a unique numeric identifier in the range of 1000 to 1999 see Table 3 19 on page 3 109 TST and TEST are aliases Syntax TEST ALL TEST ALL Parameters Parameter Not Applicable Query Response NR 1 0 1000 lt N lt 1999 Reset Value Not Applicable Errors and Events None Dependencies None Examples Command TEST Query TEST Response 0 Related Commands TEST RESults TEST RESults VERBose VX1410 IntelliFrame Instruction Manual 3 111 TEST Subsystem TEST NUMBer TEST NUMBer The command executes the specified self test but does not return the test results The query returns the results of the specified test A value of zero is returned if there are no failures Each internal self test has a unique numeric identifier in the range of 1000 to 1999 see Table 3 19 on page 3 109 Syntax T
12. Table 3 1 Table 3 2 Table 3 3 Table 3 4 Table 3 5 Table 3 6 Table 3 7 Table 3 8 Table 3 9 Table 3 10 Table 3 11 Table 3 12 Table 3 13 Table 3 14 Table 3 15 Table 3 16 Table 3 17 Table 3 18 Table 3 19 Table 3 20 Table 4 1 Table 4 2 Table 4 3 Table 4 4 Table 4 5 Table 4 6 Table 4 7 Table 4 8 Table 4 9 Table 4 10 VX1410 IntelliFrame Options and Upgrade Kits 1 3 Power Cord Identification 1 4 Power Supply Voltages at the 25 Pin Connector 1 24 Passive Monitor Connector Pinouts 3 2 RS 232 Pin Connector 3 5 P1 Connector Pinouts 3 6 P2 Connector Pinouts for Slots 1 12 3 7 P2 Connector Pinouts for 51010 3 8 Front Panel Display Messages 3 9 Display Commands 3 13 Status Commands 3 13 System Commands 3 15 Test Commands 3 18 VXI Monitor Commands 3 18 IEEE 488 2 Common Commands 3 19 Parameter Types for Syntax Descriptions 3 23 Default Factory RS 232 Communication Settings 3 77 Effects of PRESet on Serial Port Parameters 3 86 VX1410 IntelliFrame Factory Default Setting
13. 020 2117 00 950 0991 00 212 0157 00 407 4363 00 212 0671 00 351 0800 00 Serial No Effective Serial No Discont d Qty Name amp Description 1R RACKMOUNT ASSEMBLY COMPONENT KIT RACKMOUNT KIT 1R VX1410 KIT CONTAINS ITEMS 1 THROUGH 5 HANDLE ALUMINUM BLK SCREW MACHINE 8 32 X 0 5 FLH 100 DEG STL CDPL TORX BRACKET RACKMOUNT 2R VX1410 SCREW MACHINE 10 32 X 0 625 FLH 100 DEG STL CD PL TORX GUIDE SLIDE CHASSIS TRACK PAIR Mfr Code 80009 80009 0 01 80009 0 01 06666 Mfr Part Number 020211700 950099100 ORDER BY DESC 407436300 ORDER BY DESC CTS 124 VX1410 IntelliFrame Instruction Manual Replaceable Parts ANS ON OS tun DONC UR N f x 5 ge f ANIS A AAN Yasi NA Ans f ff 4 A 5 N 7 x ff X _ X Nx 20 Nee Y amp Figure 8 4 1 Rackmount Assembly 8 13 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp Index Number 5 0 8 14 Tektronix Part Number 020 2118 00 950 0991 00 212 0157 00 214 4678 00 407 4363 00 211 0718 00 212 0671 00 212 0158 00 200 4243 00 351 0800 00 Serial No Effective Serial No Discont d Qty Mfr Name amp Description Code 2R RACKMOUNT AND DOOR ASSEM
14. M LAC A ay b lt EN 2 E bos 22 we 2429 22 oet 12 7 mm 0 5 in For correct position of securing holes eu F Left Front Rail Figure 1 7 Vertical Clearance for Rack Installation Standard Mainframe VX1410 IntelliFrame Instruction Manual 1 15 Getting Started 1 16 7 Select the mounting method according to the rack type To mount the slide out tracks with the front and rear flanges outside of the front and rear rails use method A shown in Figure 1 8 when doing step 8 Add a bar nut to the installation only if the rails have untapped holes To mount with front and rear flanges inside of the rails use mounting method B shown in Figure 1 8 when doing step 8 This mounting method assumes untapped holes Using the mounting method determined from the previous step secure the right slide out track assembly to the front and rear rails Seat the screws fully but lightly to adjust the mounting later Tighten the screws left loose in step 4 to fix the front to rear flange spacing of the slide out track assembly 10 Repeat steps 6 through 9 to mount the left slide out track assembly Left Slide Out Track Left Slide Out Track Use bar nut if front rails are not tapped Left F ront Rail Left F ront Rail 10 32 Flat Head 10 32 Pan 10 32 Pan Head Screw 4 Head Screw 4 SOME Use two flat head screws if the cabinet rails
15. 222 Data Out of Range You attempted to set the enable list to an illegal value STATus PRESet Command STAT QUE ENAB 499 200 Query STAT QUE ENAB Response 499 200 STATus QUEue STATus PRESet SYSTem ERRor VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEue ENABle ALL Syntax Reset Value Errors and Events Dependencies Examples Related Commands Presets the Error Event queue enable to the value of 1999 1000 The SYS Tem ERRor ENABle ALL command is an alias STATus QUEue ENAB1e ALL Not Applicable None None Command STAT QUE ENAB ALL STATus PRESet STATus QUEue ENABle CLS VX1410 IntelliFrame Instruction Manual 3 73 STATus Subsystem STATus SCONdition Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 74 Returns the pass fail condition of all the monitors A value of one in a bit indicates the corresponding current condition has failed Unused bits always return a value of zero Definition of the bits can be found in STATus SEVent command on page 3 75 Reading the register does not clear it There is no command associated with this query STATus SCONdition Parameter Query Response Not Applicable NR1 Not Applicable None None Query STAT SCON Response 0 STATus SEVent VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus SEVent
16. Query STAT SEV Response 0 STATus SCONdition VX1410 IntelliFrame Instruction Manual SYSTem Subsystem This section describes each command and query in the SYSTem subsystem The SYSTem subsystem controls the parameters shown in Figure 3 8 The SYSTem subsystem collects the functions that are not related to the performance of the VX1410 IntelliFrame SYSTem COMMunicate DATE ERRor HELP IEMessage NVRecall NVSave POWer SYSReset TIME VERSion SERial Figure 3 8 SYSTem Subsystem Hierarchy Table 3 14 lists the factory default settings for the SYSTem COMMunicate Seri al parameters in the VX1410 IntelliFrame These default settings do not change when you issue the SYSTem FACTory command Table 3 14 Default Factory RS 232 Communication Settings Command Factory Default Setting SYSTem COMMunicate S ERial R E Ceive BAUD 9600 SYSTem COMMunicate S ER ial RECeive BITS 8 SYSTem COMMunicate SER ial CONTrol RTS ON SYSTem COMMunicate S ER ial ECHO 1 SYSTem COMMunicate S ERial ERESponse 1 SYSTem COMMunicate S ER ial LBUF fer 1 SYSTem COMMunicate S ER ial R ECeive PACE XON SY STem COMMunicate S ER ial R E Ceive PAR ity TY PE NONE SYSTem COMMunicate S ER ial R E Ceive S BITs 1 VX1410 IntelliFrame Instruction Manual 3 77 System Subsystem SYSTem COMMunicate SERial BAUD SYSTem COMMunicate SERial BAUD Syntax Parameters Reset Value Er
17. Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the enable mask for the Standard Event Status Register The STATus PRESet command does not change this enable mask The factory default setting is 0 ESE mask ESE Parameter Query Response NRf Non Decimal Numeric lt NR1 gt 0 lt N lt HFF Standard Status Byte Definition Query Response DO Operation Complete D1 NotUsed D2 Query Error D3 Device Dependent Error D4 Execution Error D5 Command Error D6 NotUsed D7 Power On Not Applicable 222 Data Out of Range You attempted to set the enable mask to an illegal value None Command ESE H40 Query ESE Response 64 ESR VX1410 IntelliFrame Instruction Manual IEEE 488 2 Common Commands ESR This query returns the event s from the Standard Event Status Register There is no command associated with this query The Error Event queue contains a chronological record of the events Syntax ESR Parameters Parameter Query Response Not Applicable NR1 Standard Status Byte Definition Query Response DO Operation Complete D1 Not Used D2 Query Error D3 Device Dependent Error D4 Execution Error D5 Command Error D6 NotUsed 07 Power On Reset Value Not Applicable Errors and Events None Dependencies Reading this register clears it Examples Query ESR Response 0 Related Commands ESE
18. ACFail SysRe set and On Stndby in a manner that is compatible with the VXI standard and the circuitry that interfaces with the signals within the mainframe After building and installing the connector make sure that you block the air path through the vacant power supply and that you reconnect the fans and the fan housing before applying power to the mainframe You can use the bracket available with Option 1D to block the air flow If necessary design the power supply cables so that they can be routed through the AC power connector on the Fan Assembly CAUTION To prevent damage to the mainframe do not operate the mainframe with the fans disconnected The mainframe will overheat if there is inadequate airflow To maintain safe operation when the mainframe is configured for Option ID the power supply that provides the power to the chassis should not exceed the DC Current Capacity Iyp listed in Table 4 2 page 4 2 The short circuit capacity of each voltage should not exceed 120 of the lyp rating The total power dissipation of the chassis with modules installed should not ex ceed 925 W The mating connector for the backplane is a DIN41612 Style M connector with ten high current female contacts and six signal pins The contacts can be either solder cups wire crimp or ECB solder tails Figure B 4 shows the backplane connector Option 1D connect the chassis to earth ground through one of the grounding screws
19. D24 TTLTRG1 24 TTLTRG2 D25 TTLTRG3 25 D26 GND 26 TTLTRG4 D27 TTLTRG5 2 TTLTRG6 D28 TTLTRG7 28 GND D29 GND 29 RSV2 D30 RSV3 30 MODID D31 GND 31 GND GND 24V 32 SUMBUS 24V VX1410 IntelliFrame Instruction Manual Reference 3 8 Table 3 5 P2 Connector Pinouts for Slot 0 Pin Row A Row B Row C 1 ECLTRGO CLK10 2 2V GND CLK10 3 ECLTRG1 RSVI GND 4 GND A24 52V 5 MODID12 A25 LBUSC00 6 MODID11 A26 LBUSCOI 7 5 2V A27 GND 8 MODID10 A28 LBUSC02 9 MODIDO9 A29 LBUSCO3 10 GND A30 GND ll MODIDO8 A31 LBUSC04 12 MODIDO7 GND LBUSCO5 13 5 2V 2V 14 MODID06 D16 LBUSC06 15 MODID05 17 LBUSCO7 16 GND D18 GND 17 MODID04 D19 LBUSC08 18 MODID03 D20 LBUSC09 19 5 2V D21 5 2V 20 MODID02 D22 LBUSC10 21 MODIDO1 D23 LBUSCII 22 GND GND GND 23 TTLTRGO D24 TTLTRG1 24 TTLTRG2 D25 TTLTRG3 25 D26 GND 26 TTLTRG4 D27 TTLTRG5 27 TTLTRG6 D28 TTLTRG7 28 GND D29 GND 29 RSV2 D30 RSV3 30 MODIDOO D31 GND 31 GND GND 24 V 32 SUMBUS 24V VX1410 IntelliFrame Instruction Manual Reference Enhanced Monitor The optional Enhanced Monitor Options 1M and 2M provides the VX1410 IntelliFrame with the following additional capabilities via the VXIbus and the rear panel RS 232 interface W Power supply voltage readouts m Input and exhaust temperature for each slot Fan speed readout User selectable alarms m User selectabl
20. Returns the summary information on the power supply voltage events tempera ture events blower events filter events and VXI monitor events A one in a bit indicates the corresponding event has been asserted Unused bits always return a value of zero The query returns a value of zero at power on or when you send the CLS command Reading events by this command does not clear the events There is no command associated with this query Syntax STATus SEVent Parameters Parameter Query Response Notapplicable NR1 Event Status Word Bits Definition DO Blower 1 D1 Blower 2 D2 Filter D3 Slot 0 Delta Temperature D4 Slot 1 Delta Temperature D5 Slot 2 Delta Temperature D6 Slot 3 Delta Temperature 07 5104 Delta Temperature D8 Slot 5 Delta Temperature 09 Slot 6 Delta Temperature D10 Slot 7 Delta Temperature Dil Slot 8 Delta Temperature D12 Slot 9 Delta Temperature D13 Slot 10 Delta Temperature D14 Slot 11 Delta Temperature D15 Slot 12 Delta Temperature D16 Ambient Temperature D17 24 V D18 12 V VX1410 IntelliFrame Instruction Manual 3 75 STATus Subsystem 3 76 Reset Value Errors and Events Dependencies Examples Related Commands Event Status Word Bits Definition D19 D20 5 Standby D21 5 V External D22 2V D23 5 2 V D24 12V D25 24V D26 BERR D27 SYSFAIL D28 ACFAIL D29 AS D30 Not Used D31 Not Used Not Applicable None None
21. The slot exhaust air temperature and ambient air temperature are monitored to maintain a constant temperature rise across the installed modules Installing a VXIbus module activates the cooling for the corresponding occupied slots by opening the IntelliG uide mechanism Only provides cooling to installed modules P2to P1 bottom of module to the top of module Mainframe Intake Bottom rear of mainframe Mainframe Exhaust Cooling Clearance Pressurization Top sides of mainframe also on top rear of mainframe Two inches on both sides and rear of mainframe Positive modules pressurized Filter Access Filter accessible from rear of the mainframe Temperature Readout Fan Speed Readout Delta Temperature Rise Sensitivity typical Readout of intake air temperature and individual slot exhaust temperature through VXIbus or RS 232 with Option 1M RPM 15 4Pulse Width where P ulse Width is the positive pulse width of either of the Tach1 or Tach2 fan output signals Readout of system fan speed through VXIbus or RS 232 with Option 1M 100 mV per 0 C corresponds to 0 V output Temperature Sense Range typical Fan Speed Range typical 10 C to 490 C Delta temperature rise lt 50 C 1200 to 3350 RPM 1 If the VX1410 IntelliFrame is configured with Option 1D Delete Power Supply all product specifications in this table do not apply To be VXI compliant the power supply must adhere
22. VX1410 IntelliFrame Instruction Manual 3 121 IEEE 488 2 Common Commands IDN Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 122 This query returns the VX1410 IntelliFrame identification message There is no command associated with this query The fourth field of the id message includes both the SCPI and firmware version numbers IDN Parameter Query Response S yntax Defined by IEEE 488 2 Manufacturer Model Number S erial Number Firmware Version or Equivalent Not Applicable Not Applicable None None Query IDN Response TEKTRONIX VX1410 B123456 SCPI 95 0 RM1 1 0 RM2 1 0 None VX1410 IntelliFrame Instruction Manual IEEE 488 2 Common Commands OPC OPC Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands The command synchronizes command execution with the controller The command causes the device to set the OPC bit in the Standard Event Status register after the previous command has completed execution The query causes an ASCII one to be placed in the output queue after the previous command has completed execution OPC 0 Not Applicable None None Command OPC Query OPC Response 1 WAI VX1410 IntelliFrame Instruction Manual 3 123 IEEE 488 2 Common Commands PSC PSC Sets or queries the setting of the power on stat
23. temperature rise to approximately 10 C or less for the warmest module You can also manually set the fan to full speed to provide maximum cooling Air is exhausted at the sides of the mainframe allowing you to stack the mainframe with other rackmount equipment You don t have to to worry about restricting any airflow out of the top of the mainframe or creating a chimney effect Cooling is not wasted on empty slots IntelliGuides automatically direct air to only those slots containing modules empty slots are shut off The mainframe directs airflow across each installed module from the bottom to the top of each slot Baffles balance the airflow from the front to back and across occupied slots in the mainframe You can easily remove the air filter from the rear of the mainframe within a matter of seconds The fans can be easily replaced without disassembling the entire mainframe The VX1410 IntelliFrame has an autoconfigurable solid state backplane that uses electronic jumpering of the IACK and BUS GRANT signal lines There are no jumpers to move or install on the backplane This results in a high quality backplane that is ideal for ATE systems that must be reconfigured frequently Full differential distribution of the CLK10 signals provide a clean timing source for your VXIbus instruments You can order the VX1410 IntelliFrame with user installable rackmounts and cable trays Two different cable trays are available 1 75 inch deep Option
24. the switch controls the power in the mainframe When the switch is connected to J23 the power on functions are controlled by an external source through the 25 pin connector on the Monitor board Although the switch still illuminates when power is applied to the mainframe the on off function of the switch is disabled Refer to Remote Power Switch Configuration on page B 1 for information on powering the mainframe with a remote momentary switch The backplane connects to the Power Supply Interface board at J20 and J21 A 34 wide ribbon cable at 0J4 on the backplane connects to J16 on the Temperature Sense board Connectors 0J1 0J2 and OP3 carry instrument monitoring information from the backplane to the Monitor board VX1410 IntelliFrame Instruction Manual Maintenance E Option 1M and 2M xternal Power Logical Addr RS 232 Passive Monitor 12 Fan Speed Switch 16 523 10 P9 S1 J7 8 Standard System Monitor A3 or Enhanced System Monitor A7 Option 1M and 2M Power Supply Interface Board Power Supply 0J4 0P3 0 0 S Backplane 6P1 7 1 10 1 1 1 12P1 11P2 9P2 10P2 lot 5101 Slot2 Slot3 Slot4 Slot5 5106 Slot7 Slot8 51019 510110 50111 Slot 12 Option 1M only Standby Switch Front Panel Status amp Alarm Displ
25. 1U and the 3 5 inch deep Option 2U The cable trays provide a means to conve niently route cables from the front of the modules to the rear of the mainframe Options 1U and 2U include a 1 75 inch and a 3 5 inch butch plate respectively You can install Option 1U to provide a 1 75 inch 2 5 inch or 4 25 inch deep cable tray Similarly you can install Option 2U to provide a 3 5 inch 4 25 inch or 6 0 inch deep cable tray The rackmount adapters let you recess the mainframe from the front panel mounting surface at specified depths from 0 735 inches to 5 735 inches in 0 5 inch increments Similarly you can configure the mainframe to extend out of the front of the rack at specified depths 0 57 inches to 5 57 inches in 0 5 inch increments VX1410 IntelliFrame Instruction Manual Getting Started You can install the rackmount kits along with the cable trays to provide vertical cable access to easily route cables to instruments above or below the mainframe while keeping lead lengths as short as possible You can also install an optional Lexan door with the rackmount kit NOTE If you choose to extend the mainframe out of the front of the rack the mainframe cannot accept a door Instructions for installing the cable trays begin on page 1 7 and instructions for the rackmounts begin on page 1 12 Optional Enhanced The optional enhanced monitor Options 1M and 2M lets you monitor the Monitor power supply voltages slot tempera
26. 7 7 77 7 7 DIOUGOUOGGODOOOGOGGGNOGOGOODGOUDOGDDDUCGC LDICUCUODDUO NUDUDDDDUDDDDUGUUDUDDQUODU Figure 1 12 Installing the Backplane EMI DIN Shields NOTE It is only necessary to install the EMI intermodule shields if your VXIbus module does not have EMI shielding 1 22 VX1410 IntelliFrame Instruction Manual Getting Started 6 Refer to Figure 1 13 and slide the EMI intermodule shields between the grooves of the card guide on one side of each installed VXIbus module This is recommended to use with unshielded modules the shielding may not be compatible with some modules The shield conforms with the VXI specifica tion for intermodule shielding 7 Install a blank EMI front panel for each empty slot making sure that the EMI shielding is in contact with the adjacent front panel EMI Shielding Strip Standard Part on Mainframe Double Panel EMI Filler lt Single Panel EMI Filler EMI Intermodule Shield Figure 1 13 Installing the EMI Intermodule Shield and Front Panel EMI Fillers VX1410 IntelliFrame Instruction Manual 1 23 Getting Started Logical Address Switch Settings 1 24 If your mainframe includes the enhanced monitor you can set the logical address of the mainframe with the switches on the rear panel Figure 1 14 shows the locations of the logical address switches on the rear of the Enhanced Monitor Board In most
27. Ceo ect t c CLOG hee CCE EEC EEG be CE GG GC E Ce atch is Cooke eK EEE located at c 0 AS 0 9 0 EE S 0 2959 oe pH 0 0 gole 0 So e 0 o a 2 Bracket Figure 1 5 Installing the Rackmount Kit Hardware Remove the five 8 32 screws from both sides of the mainframe Attach the left and right inside tracks to the sides of the VX1410 Intelli Frame using five 8 32 flathead screws Orient the button latch so that it faces away from the mainframe and toward the rear VX1410 IntelliFrame Instruction Manual 1 13 Getting Started Install the Mainframe in the Rack 1 14 Use the following procedure to install the VX1410 IntelliFrame in the rack 1 Identify the right and left slide out track assemblies find the date code label on each assembly The assembly to be mounted in the left side of the rack the side nearest the left side of the mainframe when it is mounted in the rack has a date code that ends with LH for left hand The right assembly has a date code ending with RH 2 Measure the distance between the front and rear rail of the rack 3 Align the rear bracket to the right slide out track as shown in Figure 1 6 Note that the rear bracket has two pairs of mount through holes When aligning the bracket and the track select a pair of holes that mount the rear bracket so the flange to flang
28. D15 Not Used Reset Value Not Applicable Errors and Events None Dependencies Reading the register clears it 3 30 VX1410 IntelliFrame Instruction Manual STATus Subsystem Examples Query STAT OPER Response 0 Related Commands STATus OPERation CONDition STATus OPERation ENABle VX1410 IntelliFrame Instruction Manual 3 31 STATus Subsystem STATus OPERation CONDition Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 32 Returns the contents of the Operation Condition register A value of one in a bit indicates the corresponding current condition is asserted Definition of the bits in this register can be found under the STATus OPERation command on page 3 30 Unused bits always return a value of 0 Reading the Operation Condition register does not clear it There is no command associated with this query STATus OPERation CONDition Parameter Query Response Notapplicable NR1 Not Applicable None None Query STAT OPER COND Response 0 STATus OPERation STATus OPERation ENABle VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus OPERation ENABle STATus OPERation ENABle Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the contents of the Operation Event Enable register Setting unused enable bits does not generate an error
29. D8 24V D9 NotUsed D10 NotUsed NotUsed D12 NotUsed D13 NotUsed D14 NotUsed D15 NotUsed Not Applicable None VX1410 IntelliFrame Instruction Manual 3 61 STATus Subsystem Dependencies Reading the register clears it Examples Query STAT QUES VOLT Response 0 Related Commands STATus QUEStionable VOLTage CONDition STATus QUEStionable VOLTage ENABle 3 62 VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable VOLTage CONDition Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Queries the contents of the Voltage Condition register A value of one in a bit indicates the corresponding power supply has a failure Unused bits always return a value of zero Definition of the bits in this register can be found in STATus QUEStionable VOLTage command on page 3 61 Reading the register does not clear it There is no command associated with this query STATus QUEStionable VOLTage CONDition Parameter Query Response Not Applicable NR1 Not Applicable None None Query STAT QUES VOLT COND Response 0 STATus QUEStionable VOLTage STATus QUEStionable VOLTage ENABle VX1410 IntelliFrame Instruction Manual 3 63 STATus Subsystem STATus QUEStionable VOLTage ENABle STATus QUEStionable VOLTage ENABle Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Co
30. ESE SRE VX1410 IntelliFrame Instruction Manual 3 135 Status and Events Error and Event Messages Command Errors Execution Errors Device Specific Errors Query Errors 3 136 Table 3 20 on page 3 137 lists some of the error messages that you may encounter while sending commands and queries to the VX1410 IntelliFrame The VX1410 IntelliFrame reports the following categories of errors Command Errors W Execution Errors Device Specific Errors m Query Errors Command errors have error codes within the range of 100 and 199 These errors indicate syntax errors The syntax errors can be due to the command parser detecting an IEEE 488 2 syntax error or an unrecognized header was received Command errors may also occur when you attempt to send an unimplemented IEEE 488 2 common command Execution errors have error codes within the range of 200 and 299 These errors are detected by the VX1410 IntelliFrame execution control block Execution errors can occur when a program data element following a header was evaluated as outside of the legal input range or when the program data element is inconsistent with the capabilities of the mainframe Device specific errors have error codes within the range of 300 and 399 These errors may indicate that some operations failed to complete due to abnormal hardware or firmware conditions Query errors have error codes within the range of 400 499 These errors
31. External N2 2V N5PT2 5 2V N12 12V N24 24V Not Applicable 224 Parameter Value You attempted to use an illegal parameter value None Query STAT QUES VOLT LEV P24 Response 24 01 STATus QUEStionable VOLTage STATus QUEStionable VOLTage CONDition STATus QUEStionable VOLTage ENABle VX1410 IntelliFrame Instruction Manual 3 65 STATus Subsystem STATus QUEStionable VOLTage PTR STATus QUEStionable VOLTage PTR 3 66 Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the power supply positive transition filter You can only set or clear bits 3 and 4 of the transition filter Setting a bit enables the corresponding power supply condition to propagate to the event system Any failures will display on the front panel readout If you disable the bits any failure in the corresponding power supply will not be reported to the front panel readout or to the event system Bits 0 2 and bits 5 8 of the transition filter are always enabled Bit 15 always returns a 0 The factory default setting is 32743 The 5 V Standby and 5 V External are not monitored STATus QUEStionable VOLTage PTR Mask STATus QUEStionable VOLTage PTR Mask Query Response lt NRf gt Nondecimal Numeric lt NR1 gt O lt N lt HFFFF Voltage Positive Transition Filter Bits Definition D3 5 V Standby D4 5 V Externa Not Applicab
32. IntelliFrame Instruction Manual
33. Power Supply Voltages 3 139 Example 2 Monitor the Delta Temperature 3 139 Example 3 Summarize Status Information 3 140 Specifications sran Es HEISE S Oe SUE Oe OMS NOR SERT 4 1 Performance Verification Equipment 1 5 1 DC Voltage 5 1 DC Load Ripple and Noise 5 2 Adjustment Procedures Maintenance Replaceable Parts Appendicies Glossary Index Adjustment Procedures SRS CR RUE ERU 6 1 Service Strategy Peg VERMES ES BS TCU ee MEE SIS 7 1 PreparatiOn ERO EUER ALERT 7 1 Inspection and Cleaning 7 2 Removal and 7 4 Troubleshooting Procedures 7 16 Repackaging Instructions 7 17 Theory of Operation 66 we eee Oe e ES 7 18 Parts Ordering Information 8 1 VX1410 IntelliPrame Common Replaceable Parts 8 2 Using the Replaceable Parts 186 8 3 Appendix A Power Budget
34. Query DISP TEXT Response SYSTEM INIT None NOTE DISPlay WINDow TEXT DATA This command only applies to mainframes with Option 1M Please note that Option 2M does not include a front panel display VX1410 IntelliFrame Instruction Manual S STATus Subsystem This section describes each command and query in the STATus subsystem The STATus subsystem controls the parameters shown in Figure 3 7 STATus OPERation PRESet QUEStionable QUEue SCONdition SEVent VXIMonitor BLOWer FILTer TEMPerature VOLTage ACFail BERR SYSFail Figure 3 7 STATus Subsystem Hierarchy Use the STATus subsystem to monitor the status of the voltages temperatures fans and the VXI Monitor VX1410 IntelliFrame Instruction Manual 3 29 STATus Subsystem STATus OPERation Returns the contents of the Operation Event register A value of one in a bit indicates the corresponding condition bit changed from false to true Unused bits always return a value of zero The register is cleared by the CLS command There is no command associated with this query Syntax STATus OPERation EVENt Parameters Parameter Query Response Not applicable lt NR1 gt Operation Status Word Bits Definition DO CALibrating D1 Not Used D2 Not Used D3 Not Used D4 Not Used D5 Not Used D6 Not Used D7 Not Used D8 VXI Monitor D9 Mainframe Power Down D10 Not Used D11 Not Used D12 NotUsed D13 NotUsed D14 Not Used
35. SER ECHO OFF Query SYST COMM SER ECHO Response 0 All SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual 3 81 System Subsystem SYSTem COMMunicate SERial ERESponse SYSTem COMMunicate SERial ERESponse 3 82 Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries if error response messages automatically return to the RS 232 port When the mode is ON all error and event response messages will output directly to the RS 232 port the error and event response messages will not be placed in the Error Event queue When the mode is OFF all error and event messages will be reported to the Error Event queue and will not be output to the RS 232 port directly If the mode is ON all asynchronous error messages are placed in the Error Event queue The event registers will not be updated by any event message Asynchronous event messages include Self Test Failed and Configuration Memory Lost SYSTem COMMunicate SERial ERESponse Boolean SYSTem COMMuni cate SERial ERESponse Boolean Query Response lt NRf gt lt NR1 gt N 0 1 0 0 ON 1 OFF 0 Not Applicable 224 Parameter Value You attempted to set use an illegal parameter value None Command SYST COMM SER ERES OFF Query SYST COMM SER ERES Response 0 All SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual S
36. STATus QUEue ENABle VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem ERRor ENABle ALL Syntax Reset Value Errors and Events Dependencies Examples Related Commands Presets the Error Event queue enable to the value of 1999 1000 The STA Tus QUEue ENABle ALL command is an alias SYSTem ERRor ENAB1e ALL Not Applicable None None Command SYST ERR ENAB ALL STATus PRESet STATus QUEue ENABle STATus QUEue ENABle ALL VX1410 IntelliFrame Instruction Manual 3 95 System Subsystem SYSTem FACTory 3 96 Syntax Parameters Reset Value Errors and Events This command sets the VX1410 IntelliFrame settings except the communication settings to the factory default values Table 3 16 lists the impacted commands and their factory default settings Table 3 16 VX1410 IntelliFrame Factory Default Settings Command Settings DIS Play WINDow TEXT DATA SYSTEM OK STATus OPERation ENABle 0 STATus OPERation VXIMonitor ENABle 32167 STATus QUEStionable BLOWer ENABle 32767 STATus QUEStionable ENABle 0 STATus QUEStionable F ILTer TINTerval 4000 STATus QUEStionable TE MP erature E NABle 32767 STATus QUEStionable TE MP erature LIMit AMBient 55 DELTaN 10 STATus QUEStionable VOLTage ENABIe 32767 STATus QUEStionable VOLTage PTR 32143 STATus QUEue ENABle 1999 1000 SYSTem ERRor ENABle 1999 1000 SYSTem SYSReset 0 VXIMonitor R EP eat 0 VXIMonitorT
37. Table 3 1 Passive Monitor Connector Pinouts Pin Description 1 5 V for voltage monitoring 2 12VM 12 V for voltage monitoring 3 24 V for voltage monitoring 4 2 V for voltage monitoring 5 Remote On Standby Power S witch 6 5 5 V output for charging batteries running external TTL circuitry 1 maximum 7 12 V output for charging batteries running external TTL circuitry 1 maximum 8 5 VB Input for 5 V standby voltage for example from an external NC battery Maximum of 1 A total pins 8 and 21 combined 9 Logic Ground mn 0 SYSRESET Backplane SYSRESET signal input or output If you use this pin do not violate VXIbus electrical specifications keep the extender cable as short as possible 4 ll An analog output signal proportional to the maximum temperature rise of the 13 modules 100 mV C 12 1 square wave output signal proportional to the speed of Fan 1 RPM 15 Pulse Width where P ulse Width is the positive pulse width of the Tach1 fan output signal AT 13 A square wave output signal proportional to the speed of Fan 2 RPM 15 4Pulse Width where P ulse Width is the positive pulse width of the Tach2 fan output signal 14 12 V for voltage monitoring 15 24 V for voltage monitoring 16 5 2 VM 5 2 V for voltage monitoring 17 Gnd Logic Ground 18 Gnd Logic Ground 19 Logic Ground 20 Logic Ground 21 5 VB Input for 5 V standby
38. VIXM ENAB H0001 Query STAT OPER VXIM ENAB Response 1 STATus OPERation V XIMonitor STATus PRESet VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus OPERation VXIMonitor SYSFail Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Queries the time when the VXI SYSFAIL signal was asserted The time is relative to the mainframe power on time If there are multiple occurrences of the VXI SYSFAIL signal only the time of the first assertion is saved When no SYSFAIL is detected the query returns a value of 0 in all fields At power on the values of all fields are set to 0 There is no command associated with this query STATus OPERation VXIMonitor SYSFai l Parameter Query Response Not Applicable Hour Minute S econd Not Applicable None None Query STAT OPER VXIM SYSF Response 0 0 0 STATus OPERation VXIMonitor ENABle STATus OPERation V XIMonitor VX1410 IntelliFrame Instruction Manual 3 39 STATus Subsystem STATus PRESet 3 40 Syntax Reset Value Errors and Events Dependencies Examples Related Commands Presets the SCPI enable registers The Operation and Questionable Enable registers are preset to zero disabling all events All other enable registers are preset to one enabling all events The Error Event Queue is preset to the default value of 499 0 The SCPI Positive Transition Filters are preset
39. does not include the Optional Monitor you can measure the power supply voltages with a digital voltmeter Connect one lead of the voltmeter to the supply pins of the 25 pin connector on the rear panel of the mainframe Connect the reference lead of the voltmeter to one of the ground pins Compare each voltage reading to the values listed in Table 1 3 Table 1 3 Power Supply Voltages at the 25 Pin Connector Pin Acceptable Voltage Range 1 4 875 V to 5 25 V 2 12 6 V to 11 64 V 3 25 2 V to 23 28 V 4 2 1 V to 1 9 V 14 11 64 V to 12 6 V 15 23 28 V to 25 2 V 16 5 46 V to 5 044 V 9 17 19 20 22 24 Logic Ground If the voltages are within the specified ranges your mainframe is functional VX1410 IntelliFrame Instruction Manual 1 25 aa Operating Basics This chapter provides a brief overview of the VX1410 IntelliFrame including illustrations and descriptions of switches indicators and connectors Figure 2 1 shows the front view of the VX1410 IntelliFrame All of the mainframe slots are labeled on the top and bottom of the mainframe Slot 0 is reserved for the mainframe controller all other slots are available for any VXIbus modules IntelliGuides on the bottom of each slot automatically open when you install a module with a front panel in the mainframe to provide cooling for the installed modules The guides remain closed for empty slots to direct airflow only where it is need
40. have countersunk mounting holes otherwise use two pan head screws Mounting Method A Mounting Method B Figure 1 8 Installing the Slide Out Track Assemblies in the Rack Top View VX1410 IntelliFrame Instruction Manual Getting Started WARNING Installing the VX1410 IntelliFrame in the rack requires at least two N people Because of the size and weight of the mainframe installing the main frame alone can result in personal injury or equipment damage One person should be on the left side of the mainframe with one hand holding the left front handle and with the other hand underneath the mainframe The other person should do likewise on the right side of the mainframe 11 12 13 14 15 16 17 18 Fully extend the inner tracks of each slide out section out of the front of the rack until they lock Lift the mainframe and insert the left and right tracks that extend from the rear of the mainframe into the ends of the tracks that you just extended Make sure that the tracks mounted on the mainframe slip just inside the inner tracks that you extended earlier Slide the mainframe back until it stops Push to release the button latches located on the outside of each track and continue to slide the mainframe all the way back into the rack cabinet Tighten the four screws that you left loose at the rear of the rack when you performed step 8 and pull the mainframe part way out of the rack Tighten the 10
41. modules selection guidelines 1 19 monitor backup power supply 2 4 monitor backup power supply connector B 4 monitor board enhanced 7 20 removing 7 7 standard 7 20 removing 7 7 monitor display 2 2 monitor display assembly removing 7 13 Index 2 N nut rails 7 11 removing 7 11 0 On Standby switch 1 12 2 2 7 18 1 OPC 3 123 Operation Status register 3 131 Operation Status Word 3 30 P packaging 7 17 parity 3 85 performance verification procedures 5 1 5 2 DC ripple and noise 5 2 DC voltage regulation 5 1 plug amp play compliances 4 12 power connector 2 2 power cord selecting 1 6 power cords 1 4 power supply 1 1 7 7 7 18 fault isolation 7 17 removing 7 7 7 8 power supply interface board 7 18 PSC 3 124 Q query error 3 136 Questionable Status register 3 133 Questionable Status Word 3 41 R rackmount door 1 17 rackmount kits 1 2 1 3 1 12 Ready light 2 4 remote power 1 12 removal and replacement procedures 7 4 7 15 tools required 7 4 RS 232 baud rates 3 78 bits per character 3 79 connector 2 3 parity 3 85 port 3 78 settings factory default 3 77 status and events 3 135 stop bits 3 87 RST 3 125 VX1410 IntelliFrame Instruction Manual Index S safety ground 2 2 safety specifications 4 6 SCPI abbreviating commands 3 24 case sensitivity 3 24 combining c
42. not powered on The jumper located just above the power connector determines whether you source the standby voltage from the power connector or from the 25 pin connector refer to Enhanced Monitor Board Jumpers in Appendix B for information on the jumper positions VX1410 IntelliFrame Instruction Manual E Reference This chapter provides reference information on the mainframe and its connectors A description of the command set and information related to the Enhanced Monitor makes up the remainder of this chapter Passive Monitor Connector The 25 pin Sub D connector lets you monitor the power supply voltages fan speed and the maximum slot temperature rise within the mainframe The connector also provides remote on and off capability and access to the SYSRE SET signals Figure 3 1 shows the pinouts of the Passive Monitor Connector Table 3 1 describes each of the pins and its function Pin1 NOT RS232C i COMPATIBLE AN OY L M L 424VM o 5 2 5 GND 59 GND 59 GND 5 GND 59 5VB 59 GND 59 ACFAIL GND 5 RSV Pin 25 Figure 3 1 Passive Monitor Connector VX1410 IntelliFrame Instruction Manual 3 1 Reference
43. pressing both the PREV and NEXT keys on the front panel display when the front panel displays the filter cleaning warning message or the filter cleaning remaining time Option 1M only STATus QUEStionable FILTer TRESet Parameter Query Response Not Applicable Not Applicable Not Applicable Not Applicable None Command STAT QUES FILT TRES STATus QUEStionable FILTer TINTerval STATus QUEStionable FILTer TREMaining VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable TEMPerature Returns the contents of the Temperature Event register A value of one in a bit indicates the corresponding condition bit changed from false to true Unused bits always return a value of zero The register is cleared by the CLS command There is no command associated with this query Syntax STATus QUESt ionable TEMPerature EVENt Parameters Parameter Query Response Notapplicable NR1 Blower Status Word Bits Definition DO Slot 0 Delta Temperature D1 Slot 1 Delta Temperature D2 Slot 2 Delta Temperature D3 Slot 3 Delta Temperature D4 Slot 4 Delta Temperature D5 Slot 5 Delta Temperature D6 Slot 6 Delta Temperature 07 Slot 7 Delta Temperature D8 Slot 8 Delta Temperature 09 Slot 9 Delta Temperature D10 Slot 10 Delta Temperature D11 Slot 11 Delta Temperature D12 Slot 12 Delta Temperature D13 Ambient Temperature D14 Not Used D15 Not Used Reset Value Not Applicable Errors and Event
44. supply voltages fan speeds and the maximum slot temperature rise of the mainframe Refer to page 3 1 for information on the pinouts of the connector Fan Filter o 999895999695999595959595959 59659599969 090909090509090 90509090 90 90909090909090 ol9 9090909 0909009090909o0Po90909 000909090 o99090909 99090909959 59 op o9 99 09 o09 0 909 09 o 25 Pin PASSIVE MONITOR Connector Y Fan Speed S witch A m O O Fuse gt a AC Power 6 41 bs Figure 2 3 Rear View of the Standard VX1410 IntelliFrame A Enhanced Monitor WARNING Do not connect an RS 232 cable to the 25 pin connector The connector is not an RS 232 connector Connecting an RS 232 cable to the connector can result in damage to the equipment The Enhanced Monitor in addition to the DB25 pin connector and the fan switch includes a 9 pin RS 232 D connector to provide RS 232 communication Logical Address switches an auxiliary power connection a
45. the defective product to the service center designated by Tektronix with shipping charges prepaid Tektronix shall pay for the return of the product to Customer if the shipment is to a location within the country in which the Tektronix service center is located Customer shall be responsible for paying all shipping charges duties taxes and any other charges for products returned to any other locations This warranty shall not apply to any defect failure or damage caused by improper use or improper or inadequate maintenance and care Tektronix shall not be obligated to furnish service under this warranty a to repair damage resulting from attempts by personnel other than Tektronix representatives to install repair or service the product b to repair damage resulting from improper use or connection to incompatible equipment c to repair any damage or malfunction caused by the use of non Tektronix supplies or d to service a product that has been modified or integrated with other products when the effect of such modification or integration increases the time or difficulty of servicing the product THIS WARRANTY IS GIVEN BY TEKTRONIX IN LIEU OF ANY OTHER WARRANTIES EXPRESS OR IMPLIED TEKTRONIX AND ITS VENDORS DISCLAIM ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE TEKTRONIX RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE AND EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY TE
46. time interval the VXI Monitor monitors the VXI bus The VXI monitor monitors the bus for the specified number of seconds and reports any detected VXI Monitor event The factory default setting is 10 seconds Syntax VXIMonitor TINTerval time VXIMonitor TINTerval Parameters time Query Response lt NRf gt lt NR1 gt 1 lt N lt 2147483647 MIN 1 MAX 2147483647 Reset Value Not Applicable Errors and Events 222 Data Out of Range You attempted to set the interval to an illegal value 221 Settings Conflict You attempted to set the interval while the VXI Monitor was executing Dependencies None Examples Command VXIM TINT 100 Query VXIM TINT Response 100 Related Commands VXIMonitor REPeat VXIMonitor STATe 3 118 VX1410 IntelliFrame Instruction Manual SaaS Ls IEEE 488 2 Common Commands CLS Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands This section describes each of the IEEE 488 2 common commands implemented in the VX1410 IntelliFrame This command clears the SCPI and IEEE 488 2 event registers and the Error Event queue There is no query associated with this command SCPI and IEEE 488 2 enable registers are not cleared by this command CLS None Not Applicable None None Command CLS STATus PRESet VX1410 IntelliFrame Instruction Manual 3 119 IEEE 488 2 Common Commands ESE ESE 3 120
47. to 1 This command does not clear the SCPI event registers or the IEEE 488 2 enable and event registers STATus PRESet Not Applicable None None Command STAT PRES STATus OPERation ENABle STATus QUEue ENABle STATus QUEStionable ENABle CLS VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable Syntax Parameters Reset Value Errors and Events Dependencies Returns the contents of the Questionable Event register A value of one in a bit indicates the corresponding condition bit changed from false to true Unused bits always return a value of zero The register is cleared by the CLS command There is no command associated with this query STATus QUEStionable EVENt Parameter Query Response Not applicable NR1 Questionable Status Word Bits Definition DO VOLTage D1 NotUsed D2 NotUsed D3 NotUsed D4 TEMPerature D5 NotUsed D6 NotUsed D7 NotUsed D8 CALibration 09 BLOWer D10 FILTer NotUsed D12 NotUsed D13 NotUsed D14 Not Used D15 Not Used Not Applicable None Reading the register clears it VX1410 IntelliFrame Instruction Manual 3 41 STATus Subsystem Examples Related Commands 3 42 Query STAT QUES Response 0 STATus QUEStionable CONDition STATus QUEStionable ENABle VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable BLOWer Queries the contents of the Blower Event reg
48. 0 150 170 190 210 230 250 115 Input Line Voltage Volts AC 20AT Fuse 15AF Fuse 6 3AF Fuse Figure 1 1 Power Cord Identification Chart This section describes the procedures to install your mainframe It includes procedures for installing the mainframe with the rackmount or cable tray options This section does not include specific procedures for installing modules in the mainframe Refer to your module documentation for information regarding the module installation instructions The VX1410 IntelliFrame is designed to operate on a bench or in a rackmount environment For proper cooling allow at least two inches 5 1 cm of clearance on the rear and sides of the mainframe Determine how you will use your VX1410 IntelliFrame and follow the appropriate installation instructions If you ordered your mainframe with one of the cable tray options and one of the rackmount options install the cable trays before installing the rackmount WARNING Use care when lifting or moving the mainframe to avoid personal injury while performing the installation procedures The VX1410 IntelliFrame comes a with 0 75 inch cable access area on the bottom of the mainframe 1 inch with the feet installed for bench top operation You can order the mainframe with the optional cable trays and install the cable VX1410 IntelliFrame Instruction Manual 1 7 Getting Started trays following the procedures in this section Both options come with butch plates
49. 0 IntelliFrame has been operating since the last factory maintenance There is no command associated with this query SYSTem TIME LMAintenance Parameters Parameter None Query Response lt hour gt lt minute gt lt second gt Reset Value Applicable Errors and Events None Dependencies None Examples Query SYST TIME LMA Response 101 3 3 Related Commands SYSTem TIME ON 3 106 VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem TIME ON Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Returns the number of hours the VX1410 IntelliFrame has been operating since power on There is no command associated with this query SYSTem TIME ON Parameter Query Response Not Applicable hour minute second Not Applicable None None Query SYST TIME ON Response 1 2 55 SYSTem TIME LMAintenance VX1410 IntelliFrame Instruction Manual 3 107 System Subsystem SYSTem VERSion Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 108 Returns the SCPI version number to which the VX1410 IntelliFrame complies There is no command associated with this query SYSTem VERSion Parameter Not Applicable Query Response 1995 0 Not Applicable None None Query SYST VERS Response 1995 0 IDN VX1410 IntelliFram
50. 0 IntelliFrame the Top and Bottom Nut allow the user to securely install the modules in the mainframe by screwing the Rails top and bottom of the modules to the front of the mainframe Refer to Figure 7 8 to remove these nut rails 1 Loosen all module retaining screws it may be necessary to slide the modules partially out of the mainframe 2 Remove the 12 screws holding the top cover to the mainframe using a 3 32 inch Allen wrench 3 Slide the top cover of the mainframe back far enough to expose the hole just inside the top and bottom extrusions 4 Slide the nut rail out of hole on the side of mainframe Replace the nut rail by sliding it back in the side of the mainframe and pushing it into place 8 32 Screws 12 i CM fe 4 COC he P CECE Remove module lt e Cee OC 3 Chek retaining screws N EEE d SNS XN EEE OE N cct OX c Figure 7 8 Replacing the Top and Bottom Nut Rails VX1410 IntelliFrame Instruction Manual 7 11 Maintenance Procedure 6 Remove the To remove the Temperature Sense board remove the mainframe cover and then Temperature Sense Board complete the following steps 1 Disconnect the ribbon cable from the Temperature Sense board 2 Refer to Figure 7 9 and gently pry back on each retainer holding the Temperature Sense board in place 3 Lift the bo
51. 00 VX1410 8 16 VX1410 IntelliFrame Instruction Manual Replaceable Parts Option 1U Cable Tray Figure 8 6 8 17 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp Index TektronixPart Serial Serial No Mfr Number Number Effective Discontd Qty amp Description Code Mfr PartNumber OPTION 2U CABLE TRAY 7 0 020 2120 00 1 COMPONENT KIT CAB E TRAY 2U KIT VX1410 80009 020212000 KIT INCLUDES THE ITEMS 1 THROUGH 4 1 212 0158 00 4 SCREW MACHINE 8 32 X 0 375 PNH STL CDPL T 20 0 01 ORDER BY DESC 2 333 4162 00 1 PANEL CONN 2U 0 09 AL VX1410 80009 333416200 3 333 4159 00 1 PANEL CONN 0 09 AL VX1410 80009 333415900 4 407 4362 00 1 CABLE TRAY 0 09 ALUM PAINTED GRAPHITE GRAY 80009 407436200 VX1410 8 18 VX1410 IntelliFrame Instruction Manual Replaceable Parts Option 2U Cable Tray Figure 8 7 8 19 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp index TektronixPart Serial No Serial No Mfr Number Number Effective Discontd Qty amp Description Code Number OPTION 1M ENHANCED MONITOR 8 0 040 1480 XX 1 MOD KIT ENHANCED MONITOR OPTION 1M KIT VX1410 80009 040148000 1 386 6866 00 1 EXTRUSION ASSY EXTRUSION ASSEMBLY MONITOR 80009 386686600 VX1410 ASSY OF EXTRUSION LABEL POWER SWITCH NUT BAR CS 2 119 5086
52. 00 1 DISPLAY MODULE DISPLAY VACUUM FLOURESCENT1X20 47165 FC20X1RA AA AB ALPHANUMERIC 5 X 7 DOT MATRIX W CURSOR DC DCCONVERTER CHAR GEN LOGIC amp 3 671 3290 00 1 CIRCUIT BD ASSY FRONT PANEL DISPLAY 80009 671329000 4 211 0732 00 6 SCR ASSEM WSHR 6 32 X 0 75 PNH STL CD PL T 15 0 01 ORDER BY DESC 5 174 0034 00 1 ASSY SP ELEC 28 AWG 3 0 L RIBBON TK1547 ORDER BY DESC 6 337 4053 01 1 SHIELD EMI EMI SHIELD OUTPUT CONNECTORS ON 80009 337405301 ENHANCED MONITOR BOARD 0 010 SST VX1410 7 211 0501 00 2 SCREW MACHINE 6 32 X 0 125 PNH STL CD PL POZ 73893 ORDER BY DESC 346 0128 00 1 STRAP TIEDOWN E 0 098 W X 4 0 L ZYTEL TK1499 HW 047 8 407 4332 00 1 BRACKET 0 062 ALUM SHEET METAL MOUNTS ENHANCED 80009 407433200 MONITOR 410 9 671 3218 01 1 CIRCUIT BD ASSY OPTIONAL MONITOR 80009 671321800 10 211 0747 00 4 SCREW MACHINE 6 32 X 0 188 PNH STL CDPL T 15 0 01 ORDER BY DESC 11 159 0208 00 1 FUSE WIRE LEAD 2A 125V 5 SEC 71400 MCR 2 12 159 0193 00 1 FUSE WIRE LEAD 10A 60V FAST BLOW 71400 10 13 159 0246 00 2 FUSE WIRE LEAD 3 5A 125V FAST BLOW 71400 3 12 14 441 2064 01 1 CHASSIS CHASSIS MAINFRAME SHEET METAL ASSY 80009 441206401 EXTRUSION MOD OPTIONAL MONITOR VERSION VX1410 OPT 1M 15 174 3503 00 1 CA ASSY SP DISCRETE CABLE DISPLAY POWER LDI 2 26 TK2469 174 3503 00 AWG 3L 1X2 0 1CTR LATCHING RCPT X 1X2 0 1CTRRCPT PLZ W FRICTION LOC 16 366 1538 00 2 PUSH BUTTON IVORY GRAY 0 3 X 0 665 HROUNDE
53. 1U 1 75 inch Deep Cable Tray Option 2U 3 5 Inch Deep Installation is Similar VX1410 IntelliFrame Instruction Manual 1 9 Getting Started i 1 Remove 4 feet AG Install butch plate 4 optional x Install feet optional Install cable tray and tighten 4 screws Reinstall 4 screws 2 from feet Figure 1 3 Installing the Option 2U 4 25 inch Deep Cable Tray Option 1U 2 5 Inch Installation is Similar 1 10 VX1410 IntelliFrame Instruction Manual Getting Started lt 1 Remove 4 feet m 5 2 Remove 4 inside screws D 87 4 3 Loosen 4 outside screws P 7 Install butch plate 2 optional f Install feet optional Install cable tighten 4 screws e A Install 4 screws do not tighten 7 LE T 6 Turn 2 rails 90 4 tte uo ce Cr GG c amp CO Figure 1 4 Installing the Option 2U 6 0 Inch Deep Cable Tray Option 1U 4 25 Inch Deep Installation is Similar VX1410 IntelliFrame Instruction Manual 1 11 Getting Started Remote Power Configuration Rackmount Installation 1 12 Install the Rackmount Kit Hardware The VX1410 IntelliFrame allows you to power on and power off the mainframe from the rear panel as well as the front panel On Standby switch Alternately you can disable the front panel On Standby switc
54. 32 screws using 28 inch lbs of torque Be sure that the screws that you left loose at the front of the rack are loose enough to allow the slide out track assemblies to seek the normal positions Tighten the screws and push the mainframe all the way into the rack If the tracks do not slide smoothly readjust the level using the method described in steps 15 and 16 Tighten the 10 32 screws using 28 inch lbs of torque Install the proper power cord at the rear of the mainframe Install the Option 2R Refer to Figure 1 9 and perform the following steps to install the rackmount Rackmount Door door for Option 2R 1 Install the bottom halves of the two hinges to the left rackmount bracket as shown in Figure 1 9 Install the top halves of the hinges on the door Install the catch on the right rackmount bracket You can adjust the catch position forward or back to assure a flush fit between the door and the rackmount bracket Lift the rackmount door and mate the door with the hinges VX1410 IntelliFrame Instruction Manual 1 17 Getting Started Rackmount FlatH Bracket 29 a 2 Flat Head Screws Hinges gue 2 Pan Head Screws ec Catch p Q lt lt 0 E QI 9 eJ Rackmount Door Rackmount Bracket Figure 1 9 Installing the Rackmount Door Option 2R 1 18 VX1410 IntelliFrame In
55. 903 2617 TUALATIN OR 97062 PORTLAND OR 97223 VANCOUVER WA 98601 BEAVERTON OR 97077 WESTFIELD PA 16950 PORTLAND OR 97214 INDIANAP OLIS IN 46239 9632 BEAVERTON OR 97006 TOPTON PA 19562 1420 PORTLAND OR 97217 3920 MOUNTAIN VIEW CA 94039 SAN YSIDRO CA 92073 NUTLEY NY 07110 1303 ST PAUL MN 55144 0001 SAN DIEGO CA 92121 PETALUMA CA 94952 1152 SCOTTSDALE AZ 85260 ST LOUIS MO 63178 BEAVERTON OR 97077 0001 TINLEY PARK IL 60477 3048 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp Index Number 8 6 Tektronix Part Number 212 0193 00 200 4206 00 441 2064 00 426 2524 00 348 0001 00 212 0193 00 212 0158 00 040 1480 XX 040 1581 070 9019 063 2267 161 0218 00 161 0213 00 159 0256 00 159 0379 00 159 0381 00 Serial Effective Serial No Discont d Qty 12 Name amp Description CABINET AND CHASSIS ASSEMBLY SCREW EXT RLV 8 32 X 0 375 BUTTON HEAD HEX DRIVE STAINLESS STEEL BLACK OXIDE FINISH COVER 0 050 ALUMINUM PAINTED VX1410 CHASSIS VXI MAINFRAME SHEET METAL ASSY RIVET SPOTWELD RAIL FOOT ALUM SHEET METAL GRAPHITE GRAY VX1410 FOOT CABINET BLACK RUBBER SCREW EXT RLV 8 32 X 0 375 BUTTON HEAD HEX DRIVE STAINLESS STEEL BLACK OXIDE FINISH SCREW MACHINE 8 32 X 0 375 PNH STL CDPL T 20 STANDARD ACCESSORIES FIELD KIT ENHANCED MONITOR UPGRADE OPTION 1M FIELD KITEN
56. BLY COMPONENT KIT RACKMOUNT KIT 2R VX1410 80009 KIT CONTAINS ALL THE FOLLOWING ITEMS EXCLUDING ITEMS 3 5 amp 8 HANDLE ALUMINUM BLK 80009 SCREW MACHINE 8 32 X 0 5 FLH 100 DEG STL CDPL TORX OKBO1 HINGE LIFT OFF BLACK 80009 BRACKET RACKMOUNT 2R VX1410 80009 SCREW MACHINE 6 32 X 0 312 FLH100 STL CDPL T 10 0 01 SCREW MACHINE 10 32 X 0 625 FLH 100 DEG STL CD PL 0 01 TORX SCREW MACHINE 8 32 X 0 375 PNH STL CDPL T 20 0 01 DOOR ASSY LEXAN DOOR W LATCH HARDWARE 80009 ATTACHED VX1410 GUIDE SLIDE CHASSIS TRACK PAIR 06666 Mfr Part Number 020211800 950099100 ORDER BY DESC 214467800 407436300 211 0718 00 ORDER BY DESC ORDER BY DESC 200424300 CTS 124 VX1410 IntelliFrame Instruction Manual Replaceable Parts Figure 8 5 2R Rackmount and Door Assembly 8 15 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp Index TektronixPart Serial No Serial No Mfr Number Number Effective Discontd Qty amp Description Code Number OPTION 1U CABLE TRAY 6 0 020 2119 00 1 COMPONENT KIT CABLE TRAY 10 KIT 80009 020211900 KIT INCLUDES ITEMS 1 THROUGH 3 1 212 0158 00 2 SCREW MACHINE 8 32 X 0 375 PNH STL CDPL T 20 0 01 ORDER BY DESC 2 333 4158 00 1 PANEL CONN 0 09ALUM VX1410 80009 333415800 3 407 4361 00 1 CABLE TRAY 0 09 ALUMINUM PAINTED GRAPHITE GRAY 80009 4074361
57. CODE VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEue COUNt Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Returns the number of unread events in the Error Event queue The SYS Tem ERRor COUNt query is an alias The Error Event queue is cleared at power on or when you send the CLS command There is no command associated with this query STATus QUEue COUNt Parameter Query Response Not Applicable lt NR1 gt Not Applicable None None Query STAT QUE COUN Response 3 STATus QUEue ALL VX1410 IntelliFrame Instruction Manual 3 71 STATus Subsystem STATus QUEue ENABle STATus QUEue ENABle Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 72 Sets or queries the enable events to be placed in the Error Event queue The SYSTem ERRor ENABle and SYSTem ERRor ENABle commands are aliases Attempting to enable events that are not reported by the mainframe does not generate an error At power on or when you send the STATus PRESet command the contents of the register is set to 499 0 STATus QUEue ENABle Event List STATus QUEue ENABTe Event List Query Response NRf numeric range NRf numeric range lt NR f gt numeric range NR f numeric range range is lt NRf gt lt NRf gt Not Applicable
58. D TK1163 ORDER BY DESC 17 213 0882 00 6 SCREW TPG TR 6 32 X 0 437 PNH STL CDPL TYPE TT T 15 0 01 ORDER BY DESC 8 20 VX1410 IntelliFrame Instruction Manual Replaceable Parts Figure 8 8 Option 1M Enhanced Monitor 8 21 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp Index Number 8 0 1 8 22 Tektronix Part Number 040 1581 XX 337 4053 01 211 0501 00 346 0128 00 407 4332 00 671 3218 01 211 0747 00 159 0208 00 159 0193 00 159 0246 00 Qty Name amp Description OPTION 2M ENHANCED MONITOR 1 MOD KIT ENHANCED MONITOR OPTION 2M KIT VX1410 1 SHIELD EMI EMI SHIELD OUTPUT CONNECTORS ENHANCED MONITOR BOARD 0 010 SST VX1410 2 SCREW MACHINE 6 32 X 0 125 PNH STL CD PL POZ 1 STRAP TIEDOWN E 0 098 W X 4 0 L ZYTEL 1 BRACKET 0 062 ALUM SHEET METAL MOUNTS ENHANCED MONITOR ECB VXI410 1 CIRCUIT BD ASSY OPTIONAL MONITOR 4 SCREW MACHINE 6 32 X 0 188 PNH STL CDPL T 15 1 FUSE WIRE LEAD 2A 125V 5 SEC 1 FUSE WIRE LEAD 10A 60V FAST BLOW 2 FUSE WIRE LEAD 3 5A 125V FAST BLOW Mfr Code 80009 80009 73893 TK1499 80009 80009 0 01 11400 11400 11400 Mfr Part Number 0401581XX 337405301 ORDER BY DESC HW 047 407433200 671321800 ORDER BY DESC MCR 2 MCR 10 MCR 31 2 VX1410 IntelliFrame Instruction Manual Replaceabl
59. EE 488 2 event registers and the Error Event Queue ESE Sets or queries standard Event Status Enable register ESR Returns the contents of the Standard Event Status Register IDN Returns the identification message of the mainframe OPC Synchronizes command execution with the controller PSC Sets or queries the power on status clear flag RST Resets instrument settings to a default state SRE Sets or queries the Service Request Enable register STB Returns the contents of the Status Byte Register TST Initiates an internal self test and returns a failure code WAI Synchronizes command execution with the system controller VX1410 IntelliFrame Instruction Manual 3 19 E l sil Syntax This section provides an overview of the commands for the VX1410 Intelli Frame and includes the following topics A brief introduction to SCPI A description of the command syntax Instructions on how to enter commands The commands for the mainframe are compatible with IEEE 488 1 IEEE 488 2 and SCPI 1995 0 standards SCPI SCPI Standard Commands for Programmable Instruments is a standard created by an international consortium of the major manufacturers of test and measure ment equipment SCPI uses IEEE 488 2 syntax to provide common commands for the same functions of various programmable instruments The standard simplifies the task of programming a group of instruments th
60. ES BLOW ENAB 2H0000 Query STAT QUES BLOW ENAB Response 0 STATus QUEStionable BLOWer STATus QUEStionable BLOWer CONDition STATus PRESet VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable BLOWer SPEed Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Queries the current fan blower rotational speed in revolutions per min ute RPM Normal values are between 1200 and 3350 RPM There is no command associated with this query STATus QUEStionable BLOWer SPEed Blower Blower Query Response BLOWerl BLOWer2 lt NR1 gt Not Applicable 224 Illegal Parameter Value You attempted to use an invalid parameter value None Query STAT QUES BLOW SPE BLOWI Response 1200 STATus QUEStionable BLOWer STATus QUEStionable BLOWer CONDition STATus QUEStionable BLOWer ENABle VX1410 IntelliFrame Instruction Manual 3 47 STATus Subsystem STATus QUEStionable CONDition Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 48 Queries the contents of the Questionable Condition register Unused bits always return a value of zero Definition of the bits in this register can be found under the STATus QUEStionable command on page 3 41 Reading the register does not clear it There is no command associated with this query STATus QUEStionable CONDi tion P
61. EST NUMBer lt test gt TEST NUMBer lt test gt Query Response lt 1 gt Parameters Parameter lt NR f gt lt Non decimal number gt 1000 lt lt 1999 0 1000 x N lt 1999 Reset Value Not Applicable Errors and Events None Dependencies None Examples Command TEST NUMB 1000 Query TEST NUMB 1000 Response 0 Related Commands TEST RESults TEST RESults VERBose 3 112 VX1410 IntelliFrame Instruction Manual TEST Subsystem TEST RESults Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands VX1410 IntelliFrame Instruction Manual This query returns the results code for the last executed self test command The unique numeric identifier of the first individual test that failed is reported A value of zero is returned if there were no failures There is no associated command for this query Each internal self test has a unique numeric identifier in the range of 1000 to 1999 see Table 3 19 on page 3 109 TEST RESults CODE Parameter Query Response lt NR1 gt 0 1000 lt N lt 1999 Not Applicable Not Applicable None None Query TEST RES Response 0 TEST TEST RESults VERBose 3 113 TEST Subsystem TEST RESults VERBose This query returns a string describing the results of the last executed self test command The unique numeric identifier of the first individual test that
62. HANCED MONITOR UPGRADE OPTION 2M WITHOUT FRONT PANEL DISPLAY MANUAL TECH INSTRUCTION VX1410 SOFTWARE PKG VXI PLUG N PLAY SOFTWARE 1 3 5 HIGH DENSITY 1 44MBYTE DISK V1 0VX1410 1M 2M CABLE ASSY PWR 3 14 AWG 100 L SJ T BLK 60 DEG C 5 20 P X BME 3S 15A 125V CABLE ASSY PWR 3 16 AWG 2 5 METER SJ T GREY 105 DEG C MCA 3T X BME 35 13A 250V FUSE CARTRIDGE 15A 250V FAST FUSE CARTRIDGE 20A 250V 5 SEC MIN 200 0 25 X 1 25 US REC 326020 FUSE CARTRIDGE 5MM X 20MM 250V 6 3A HIGH BREAKING CAPACITY CERAMIC VDE Mfr Code 0 01 80009 80009 80009 2208 0 01 0 01 80009 80009 2548 80009 08445 08445 11400 80009 80009 Mfr Part Number 212 0193 00 200420600 441206400 426252400 ORDER BY DESC 212 0193 00 ORDER BY DESC 040 1480 XX 040 1581 XX 070 9019 XX 063 2267 XX ECM 161 0218 00 ECM 161 0213 00 ABC 15 159037900 159038100 VX1410 IntelliFrame Instruction Manual Replaceable Parts Figure 8 1 Cabinet and Chassis Assembly VX1410 IntelliFrame Instruction Manual 8 7 Replaceable Parts Replaceable Parts List Fig amp Index TektronixPart Serial Serial No Mfr Number Number Effective Discontd Qty amp Description Code Mfr PartNumber CIRCUIT BOARDS AND CHASSIS PARTS 2 1 260 2618 00 1 SWITCH PUSH SPST MOM GOLD OVER NICKEL CON 63426 YB15KKG01 04F TACTS 0 4V 2 386 6865 00 1 E
63. INTerval 3 50 STATus QUEStionable FILTer TREMaining 3 51 VX1410 IntelliFrame Instruction Manual STATus QUEStionable FILTer TRESet 3 52 STATus QUEStionable TEMPerature 3 53 3 54 STATus QUEStionable TEMPerature CMAXi mum 3 55 STATus QUEStionable TEMPerature CONDition 3 56 STATus QUEStionable TEMPerature ENABle 3 57 STATus QUEStionable TEMPerature LEVel 3 58 STATus QUEStionable TEMPerature LIMit 3 59 STATus QUEStionable TEMPerature MAXimum 3 60 STATus QUEStionable VOLTage 3 61 3 62 STATus QUEStionable VOLTage CONDition 3 63 STATus QUEStionable VOL Tage ENABle 3 64 STATus QUEStionable VOLTage LEVel 3 65 STATus QUEStionable VOLTage PTR 3 66 STATus QUEue 3 67 STATus QUEue ALL 3 68 STATus QUEue CODE 3 69 STATus QUEue CODE ALL 3 70 STATus QUEue COUN t 3 71 STATus QUEue ENABle 3 72 STATus QUEue ENABIe ALL 3 73 STATus SCONdition 3 74 STATus SEVent 3 75 3 76 STB 3 127 stop bits 3 87 switches fan speed 2 2 logical address 1 24 2 4 On Standby 1 12 B 1 remote B 1 SYSTem subsystem 3 77 3 108 SYSTem COMMunicate SERial BAUD 3 78 SYSTem COMMunicate SERial BITS 3 79 SYSTem COMMunicate SERial CONTrol RTS 3 80 SYSTem COMMunicate SERial ECHO 3 81 SYSTem COMMunicate SERial ERESponse 3 82 SYSTem COMMunicate SERial _LBUFfer 3 83 SYSTem COMMunicate SERial PACE 3 84 SYSTem COMMunicate SERial PARity 3 85 SYSTem COMMunicate SERial PRE
64. INTerval 10 ESE 0 PSC 0 SRE 0 SYSTem FACTory Parameter Not Applicable Query Response Not Applicable Not Applicable None VX1410 IntelliFrame Instruction Manual System Subsystem Dependencies None Examples Command SYST FACT Related Commands None VX1410 IntelliFrame Instruction Manual 3 97 System Subsystem SYSTem HELP SYNTax Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 98 Returns a string containing the syntax specification of the specified command There is no command associated with this query SYSTem HELP SYNTax lt Command Header gt Query Response lt string gt lt string gt Not Applicable 6699 The query returns a null string 47 if the Command Header is not a valid command header being recognized by the VX1410 IntelliFrame None Query SYST HELP SYNTax DISP TEXT Response DISPlay WINDow TEXT DATA lt string gt lt block gt None VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem IEMessage Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sends an interface event message from the VXI interface to the RS 232 interface or vice versa You can use a maximum of 32 data bytes in the message There is no query associated with this command When you send the command from the RS 232 interface the interface event messag
65. Instruction Manual Tektronix VX1410 IntelliFrame VXIbus Mainframe 070 9019 04 Warning The servicing instructions are for use by qualified personnel only To avoid personal injury do not perform any servicing unless you are qualified to do so Refer to the Safety Summary prior to performing service Copyright Tektronix Inc 1994 All rights reserved Tektronix products are covered by U S and foreign patents issued and pending Information in this publication supercedes that in all previously published material Specifications and price change privileges reserved Printed in the U S A Tektronix Inc P O Box 1000 Wilsonville OR 97070 1000 TEKTRONIX and TEK are registered trademarks of Tektronix Inc IntelliFrame is a trademark of Tektronix Inc WARRANTY Tektronix warrants that the products that it manufactures and sells will be free from defects in materials and workmanship for a period of three 3 years from the date of shipment If a product proves defective during this warranty period Tektronix at its option either will repair the defective product without charge for parts and labor or will provide a replacement in exchange for the defective product In order to obtain service under this warranty Customer must notify Tektronix of the defect before the expiration of the warranty period and make suitable arrangements for the performance of service Customer shall be responsible for packaging and shipping
66. KTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT SPECIAL INCIDENTAL OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR THE VENDOR HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES af Table of Contents Getting Started Operating Basics Reference General Safety Summary ix Service Safety xi Preface 55 WS tara S ERE E sm ER S eae xiii Product Description 1 1 Standard Accessories 1 4 Optional Accessories 1 5 Selecting the Correct Power Cord and Fuse 1 6 Installation eek ERI dance etn COE ee eint 1 7 Configuration Mere ede eR CH IUOS Veces Meade ands 1 19 Functional Ch k Satie Pere e Pr Mela Peer e RT 1 25 Standard Monitor 2 2 2 Enhanced Monitor 2 2 3 Passive Monitor Connector 3 1 Enhanced Monitor RS 232 Connector 3 4 Backplane Conn ctots E a eR E XV EINEN EE EN 3 5 Enhanced Monitor i isse VEO ERE EL e EE RU Re 3 9 Comniand Groups sses r o Rer ERE e ERAI ER 3 13 Display Commands
67. L Parameters Parameter Query Response Not Applicable NR1 0 10 22 Reset Value Not Applicable Errors and Events 203 Command Protected You attempted to execute a command that is protected by a password See the SYSTem PASS word command beginning on page 6 5 for more information Dependencies None Examples Command CAL Query CAL Response 0 Related Commands None 6 4 VX1410 IntelliFrame Instruction Manual Adjustment Procedures SYSTem PASSword CDlISable This command disables the protected command CALibration If the user sends the CALibration command after this command the VX1410 IntelliFrame will generate an error Syntax SYSTem PASSword CDISable Password Password Query Response Not Applicable Parameters lt string gt NX1410 Reset Value Not Applicable Errors and Events 221 Settings Conflict You attempted to send an invalid password Dependencies None Examples Command SYST PASS CDIS VX1410 Related Commands SYSTem PASSword CENable VX1410 IntelliFrame Instruction Manual 6 5 Adjustment Procedures SYSTem PASSword CENable This command enables the protected command CALibration The user has to send this command before the CALibration command otherwise the VX1410 Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 6 6 IntelliFrame will generate an error SYSTe
68. MODID12 Default D e F 1 MODID01 Figure B 3 Enhanced Monitor Board Jumpers You can also select the source of the 5 V Standby voltage If you source the 5 V Standby voltage from the 5 V external supply Monitor Backup Power Supply connector then the external supply will provide the backplane with the 5 V external voltage 1 A maximum If you source the 5 V Standby voltage from the 25 pin connector you must provide the 5 V to pins 8 and 21 of the 25 pin connector The default jumper setting is to provide the voltage from the external source 5 V external power supply The Enhanced Monitor can answer to the slot 1 or slot 12 MODID line for the VXI configuration manager The default position is slot 12 since it is most likely to be empty Slot 1 is available if you use an embedded controller VX1410 IntelliFrame Instruction Manual Appendix B Special Configuration Options Remote Power Supply Installation If you ordered your mainframe with Option 1D Delete Power Supply you can power the mainframe from a remote power source You need to assemble a cable or a circuit board to connect through the rear of the mainframe to the backplane NOTE When the VX1410 IntelliFrame is configured with Option 1D all product specifications no longer apply To be VXI compliant the power supply that provides power to the chassis must adhere to the specifications of the VXI standard and provide appropriate control signals
69. MP erature EVENt 5 STATus QUEStionable TEMPerature CONDition 6 STATus QUES tionable TEMPerature E NABle 7 8 D Summary of TEMP erature 9 Figure 3 14 Temperature Status Register The Blower Status register provides status information on the two fans in the mainframe see Figure 3 15 You can detect problems with either fan by monitoring the corresponding bit in the Blower Status register VX1410 IntelliFrame Instruction Manual Status and Events BLOWer 1 BLOWer 2 Not Used BLOWer Status Registers STATus QUEStionable BLOW er E VE Nt STATus QUEStionable BLOW er C ONDition STATus QUEStionable BLOW er ENABle D Summary of BLOWer Figure 3 15 Blower Status Register RS 232 and VXI Interface Status and Events The RS 232 and VXI interfaces have separate status and event systems There are two sets of status and event registers and two separate Error Event queues for the two interfaces You can send the commands listed below from the interface to set up only those status and event registers of that interface This allows the RS 232 interface to have different settings than the VXI interface STATus OPERation ENABle STATus OPERation V XIMonitor ENABle STATus QUEStionable BLOWer ENABle STATus QUEStionable ENABle STATus QUEStionable TEMPerature ENABle STATus QUEStionable VOLTage ENABle STATus QUEStionable VOLTage PTR STATus QUEue ENABle
70. Manual 8 3 Replaceable Parts Manufacturers Cross Index Mfr Code TK1163 TK1499 TK1547 TK2208 TK2469 TK2548 0B445 0 01 06666 1Y013 22589 3M099 47165 5921 51506 52152 61081 61935 63426 71400 80009 06383 8 4 Manufacturer POLY CAST INC AMLAN INC MOORE ELECTRONICS INC NORTHWEST RUBBER EXTRUDERS INC UNITREK CORPORATION XEROX BUSINESS SERVICES DIV OF XEROX CORPORATION ELECTRI CORD MFG CO INC STAUFFER SUPPLY GENERAL DEVICES CO INC DEANCO ACACIA DIVISION ELECTRO SPACE FABRICATORS INC PORTLAND SCREW CO NEC ELECTRONICS INC COMAIR ROTRON ACCURATE SCREW MACHINE COMPANY ASMCO MINNESOTA MINING AND MFG CO INDUSTRIAL TAPE DIV ELECTRONIC SOLUTIONS SCHURTER INC NKK SWITCHES OF AMERICA INC BUSSMANN DIV OF COOPER INDUSTRIES INC TEKTRONIX INC PANDUIT CORP Address 9898 SW TIGARD ST 97 THORNWOOD RD 19500 SW 90TH CT PO BOX 1030 16748 SW 77TH AVE 3000 LEWIS amp CLARK HWY SUITE 2 14181 SW MILLIKAN WAY 312 EAST MAIN ST 810 SE SHERMAN 14105 POST RD PO BOX 39100 3101 SW 153RD DRIVE 300 W HIGH ST PO BOX 67 6520 N BASIN ST 475 ELLIS STREET PO BOX 7241 2675 CUSTOMHOUSE CT 19 BALTIMORE STREET 3M CENTER 6790 FLANDERS DRIVE 1016 CLEGG COURT 14415 N SCOTTSDALE RD NO 600 114 OLD STATE RD PO BOX 14460 14150 SW KARL BRAUN DR PO BOX 500 17303 RIDGELAND AVE City State Zip Code TIGARD OR 97223 STAMFORD CT 06
71. Parameter Not Applicable Not Applicable None None Query SYST POW SOUR Response MAIN None VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem SYSReset SYSTem SYSReset Sets or queries whether the VXI SYSRESET signal can reset the mainframe When SYSRESET is enabled asserting the VXI SYSRESET signal will reset the Enhanced Monitor When disabled asserting the VXI SYSRESET signal only initializes the Enhanced Monitor VXI Interface all other Enhanced Monitor functions are not affected The factory default setting is disabled 0 NOTE If SYSRESET is enabled and the mainframe is powered down commu nication through the RS 232 port is not possible even if an external 5 V is supplied to the enhanced monitor card The display will not show the current status and the scroll buttons will be inoperative Consequently the enhanced monitor is inoperative Syntax SYSTem SYSReset Boolean SYSTem SYSReset Parameters Boolean Query Response lt NRf gt lt NR1 gt N 0 1 0 0 ON 1 OFF 0 Reset Value Not Applicable Errors and Events 224 Illegal Parameter Value You attempted to set the parameter to an illegal value Dependencies None Examples Command SYST SYSR ON Query SYST SYSR Response 1 Related Commands None VX1410 IntelliFrame Instruction Manual 3 105 System Subsystem SYSTem TIME LMAintenance Syntax Returns the number of hours VX141
72. SSY POWER SUPPLY INTERFACE 80009 671321601 12 119 4783 00 1 POWER SUPPLY 925W 5V 95A 5 2V 60A 2V 3 80009 119478300 0A OTHER VXI AMP CONN 13 367 0466 00 1 HANDLE WIREFORM 0 125 SST ELECTRO POLISH 1X2IN 80009 367321600 14 119 4801 00 2 FAN DC 48V TUBEAXIALPROGRAMMABLE W TACH OUT 5Y921 JQ48R7 15W 2 500 RPM 170 CFM 48DBA 6 75 X 5 9 X 2 0 15 380 1088 00 1 HOUSING 0 062 AL FAN VXI MAINFRAMESHEET METAL 80009 380108800 ASSY RIVET amp SPOTWELD MOUNT FANS amp HOLD AIR FILTERS 16 211 0691 00 6 SCR ASSEM WSHR 6 32 X 0 625 T 15 0KB01 ORDER BY DESC 17 378 2075 00 1 AIR FILTER WOVEN POLYPROPYLENE BLACK 0 125 THICK 80009 378207500 2 LAYER VINYL EDGING VX1410 18 212 0158 00 1 SCREW MACHINE 8 32 X 0 375 T 20 0KB01 ORDER BY DESC 19 212 0193 00 4 SCREW EXT RLV 8 32 X 0 375 BUTTON HEAD HEX 0 01 212 0193 00 DRIVE STAINLESS STEEL BLACK OXIDE FINISH 20 343 0549 00 1 STRAP TIEDOWN E 0 098 W X 4 0 LZYTEL 1499 HW 047 21 211 0846 00 4 SCREW SCREW SHLDR 6 32 X 0 156 HEX SOCKET 51506 67515 S 12 VT SHOULDER SCREW 0 156 DIA X 0 125 SHANK 8 10 VX1410 IntelliFrame Instruction Manual Replaceable Parts Figure 8 3 Power Supply and Fan Assembly 8 11 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp Index Number 8 12 TektronixPart Number
73. STATus OP ER ation CONDition STATus OP ERation ENABle Mainframe Power Down 9 C Ui Summary of VXI Monitor Not Used 15 Summary of IEEE 488 2 Status Structure Registers Standard Event Status Register Operation Complete 0 Not Used Query Error Error Event Status Byte Queue NotEmpty 0 Device Dependent Error Execution Error Command Error Not Used Power On Figure 3 11 SCPI and IEEE Status and Event Registers 3 132 VX1410 IntelliFrame Instruction Manual Status and Events VXI Monitor Status Registers BERR occurred 0 SY SFail occurred 1 ACFail occurred 2 AS Missing 3 4 STATus OP ERation V XIM onitor E VE Nt 5 STATus OP ERation VXIMonitor CONDition 6 STATus OP ERation VXIMonitor E NABle Summary of VX Monitor 9 10 11 12 13 14 Not Used 15 Figure 3 12 VXI Monitor Status Register The Questionable Status register contains information on the quality of the signals within the mainframe In the event problems occur within the mainframe for example one of the power supplies is not working properly you could program the mainframe to warn you of possible problems There are three status registers that provide summary information to the Questionable Status register the Voltage Status register the Tempe
74. Set 3 86 SYSTem COMMunicate SERial SBITs 3 87 SYSTem DATE LMAintenance 3 88 SYSTem ERRor 3 89 SYSTem ERRor ALL 3 90 SYSTem ERRor CODE 3 91 SYSTem ERRor CODE ALL 3 92 SYSTem ERRor COUNt 3 93 SYSTem ERRor ENABle 3 94 SYSTem ERRor ENABle ALL 3 95 SYSTem FACTory 3 96 3 97 SYSTem HELP SYNTax 3 98 SYSTem IEMessage 3 99 SYSTem NVRecall 3 100 SYSTem NVSave 3 101 SYSTem PASSword CDISable 6 5 Index 3 Index SYSTem PASSword CENable 6 6 TST 3 128 SYSTem PASSword CENable STATe 6 7 SYSTem POWer 3 102 SYSTem POWer CYCLe 3 103 U SYSTem POWer SOURCce 3 104 SYSTem SERial 6 8 upgrade kits 1 3 SYSTem SYSReset 3 105 SYSTem TIME LMAintenance 3 106 SYS Tem TIME ON 3 107 V SYS Tem VERSion 3 108 Voltage Status register 3 133 3 134 Voltage Status Word 3 61 T VXI compliance 4 12 VXI interface status and events 3 135 temperature sense board 7 20 VXI Monitor register 3 133 removing 7 12 VXIMonito TINTerval 3 118 Temperature Status register 3 134 VXIMonitor Event Word 3 34 TEST 3 111 VXIMonitor subsystem 3 115 3 118 TEST NUMBer 3 112 VXIMonitor REPeat 3 116 TEST RESults 3 113 VXIMonitor STATe 3 117 TEST RESults VERBose 3 114 theory of operation 7 18 7 20 tree hierarchy depicted 3 22 W troubleshooting procedures 7 16 7 17 equipment required 7 16 WAI 3 129 Index 4 VX1410
75. The standard VX 1410 IntelliFrame does not include diagnostics The functional ity of the mainframe can be verified by following the performance verification procedures as described in Performance Verification beginning on page 5 1 The mainframe has two fuses for normal operation the line fuse and a 5 V fuse on the backplane The line fuse can be one of three different kinds depending on the operating voltage of the mainframe Table 7 1 summarizes the different fuses in the mainframe Table 7 1 Fuses Tektronix Replacement Rating Part Number 20 A Slow Blow 250 V 159 0379 XX Voltage 90 V to 132 V operation 103 V to 250 V operation 15 A FastBlow 250 V 159 0256 XX 207 V to 250 V operation 6 3 A Fast Blow 250 V 159 0381 XX 5 V Backplane 4A FastBlow 250 V 159 0320 XX The main focus of the troubleshooting procedures is to isolate problems to one of the major modules within the mainframe You may find it helpful to refer to the functional block diagram in Figure 7 12 on page 7 19 to isolate problems to one of the modules within the mainframe VX1410 IntelliFrame Instruction Manual Maintenance Power Supply Problems Use the following information to isolate power supply problems to the power supply or to other modules Isolate the problem to either the mainframe or to one of the installed VXIbus Modules Remove the modules from the mainframe and check that the problem still exists Try isolating the problem t
76. VXI compliant the power supply must adhere to the specifications of the VXI standard VX1410 IntelliFrame Instruction Manual Specifications Table 4 2 Secondary Power 2 Characteristic Description Maximum P ower Available Mainframe 925 W 0 C to 55 C Available Slots 0 12 872 W minimum DC Current Capacity Imp Voltage Imp Steady state current 24 V 12A 12 V 13A 80A 2V 30A 5 2V 60A 12V 13A 24V 12A 5 V STDBY 0 A 1 A maximum if user supplied Maximum Current Capacity Imp Voltage Imp dynamic current Specification only valid for Main 24V 6 5A frame serial numbers B020100 and higher 12 V 3A 5 12A 2V 5A 5 2 V 9A 12 V 3A 24V 6 5 A 5 V STDBY 0 A user supplied DC Voltage Regulation Voltage Tolerance AV 24 V 1 2 V 720 mV 12 V 600 mV 360 mV 250 mV 125 mV 2V 100 mV 100 mV 52V 260 mV 4156 mV 12V 600 mV 360 mV 24V 1 2 V 720 mV 4 2 VX1410 IntelliFrame Instruction Manual Specifications Table 4 2 Secondary Power 2 Cont Characteristic Description Maximum DC Load Ripple Noise Voltage Ripple Noise 24 V 150 MV pp 12 V 50 5V 50 2V 50 mV pp 52V 50 mV pp 12V 50 24V 150 mV pp Maximum DC Induced Ripple Noise Voltage Ripple Noise 241 150 MVpp 12 V 50 51 50 mV pp 2V 50 52V 50 MV pp 12V 50 24V 150 Protection Over voltage protection Under voltage protection Ov
77. XTRUSION ASSY UPPER EXTRUSION ASSY ASSY OF 80009 386686500 EXT LABEL POWER SWITCH amp NUT BAR 3 343 0775 00 2 CABLE CLAMP RIBBON 1 0 X 1 0 GRAY POLYVINYL W URE 52152 80610029243 348 THANE FOAM TAPEBACKING RETAINS 6 RIBBON CABLES UL94V 0 4 174 3424 00 1 ASSY SP RIBBON IDC 34 28 AWG SPLIT amp FOLDED 6 48 1 013 73423 1 25 2X10 RCPT O 1CTR amp 12 19 75 1 2X7 RCPT 0 1 CTR VXI 5 671 3219 00 1 CIRCUIT BD ASSY TEMP SENSE 80009 671321900 6 211 0720 00 17 SCRASSEM WSHR 6 32 X 0 500 PNH STL CDPL T 15 0 01 ORDER BY DESC 7 118 9142 00 1 BACKPLANE VXI 13 SLOT C SRE W ELECTRONIC 61081 1213 1 2 7059 AUTOMATIC BUS GRANTSENSING 8 213 0882 00 12 SCREW TPG TR 6 233 X 0 437 PNH STL CDPL TYPE TT T 15 0KB01 ORDER BY DESC 9 220 0199 01 2 NUT BAR VXI VME VXI NUT BAR M2 5 THREADS CUT TO 22589 120 15 580 LENG 15 60 LENGTH 10 386 6867 00 1 EXTRUSION ASSY LOWER EXTRUSION ASSY VX1410ASSY 80009 386686700 OF EXTRUSION LABEL amp NUT BAR 11 378 2074 00 13 BAFFLE VXISLOT 0 040 AL FFORMED SHEET METAL 80009 378207400 W PERFORATIONS 12 351 0962 00 13 GUIDE PLASTIC GUIDE ECB VXIMOLDEDCKT BD GUIDE 80009 351096200 VXI FORM FACTOR VXIA410 STANDARD ACCESSORIES 2 13 333 4169 00 6 PANEL FRONT DOUBLE WIDE 2 4 BLANK FRONT PANEL 80009 333416900 SHEET METAL W LEXAN OVERLAY VXI C SIZEFRAME 2 14 333 4170 00 1 PANEL FRONT SINGLE WIDE 1 2 BLANK FRONTPANEL 80009 333417000 SHEET METAL W LEXAN OVERLAY VXI C SIZE FRAME 8 8 VX1410 IntelliFrame Instr
78. an optional alphabetical character and by a maximum of six digits Not Applicable 221 Settings Conflict You attempted to execute a command that is protected by a password See the SYSTem PASSword command beginning on page 6 5 for more information 220 Parameter Error Invalid serial number None Command SYST SER B123456 Query SYST SER Response B123456 None VX1410 IntelliFrame Instruction Manual TE Maintenance This chapter provides procedures for inspecting and cleaning the VX1410 IntelliFrame removing and replacing internal mainframe components and isolating problems to module levels Service Strategy The service procedures in this manual provide removal and replacement procedures to repair the VX1410 IntelliFrame to a module level Instrument level repairs are accomplished by exchanging faulty modules with known good modules or parts No component level repair is provided in this manual Preparation The information in this section is designed for use by qualified service person nel Read the Safety Summary at the front of this manual and Service Strategy before attempting any procedures in this chapter Refer to the Operating Basics chapter for information on the location of controls indicators and connectors used with the mainframe CAUTION Many components within the mainframe are susceptible to static N discharge damage Service the mainframe only in a static free enviro
79. and the Error Event queue enable QUEStionable Returns the contents of the Questionable Register as a decimal number BLOWer Returns the contents of the Blower Event register CONDition Returns the contents of the Blower Condition register ENABle Sets or queries the contents of the Blower Enable register SPEed Returns the fan speed in revolutions per minute CONDition Returns the contents of the Questionable Condition register ENABle Sets or queries the contents of the Questionable Status Enable register FILTer TINTerval Sets or queries the filter cleaning interval time TREMaining Returns the remaining time for the next filter cleaning cycle TRESet Resets the remaining filter cleaning time to the filter cleaning interval TEMPerature Returns the contents of the Temperature Event register as a decimal number CMAX imum Returns the maximum measurable temperatures in the mainframe since power on CONDition Returns the contents of the Temperature Condition register ENABTe Sets or queries the contents of the Temperature Enable register LEVel Returns the current temperatures in the mainframe LIMit Sets or queries the maximum ambient and delta temperatures in each slot of the mainframe MAX imum Returns the maximum measurable temperatures in the mainframe since the last factory maintenance VX1410 IntelliFrame Instruction Manual Command Groups Table 3 8 Status C
80. and upon reading the last item from the queue SYSTem ERRor Parameter Query Response Not Applicable lt NR1 gt lt string gt Not Applicable 350 Queue Overflow The Error Event queue overflowed due to the execution errors of other com mands The SYST ERR query itself cannot generate an error Reading the event clears the entry from the queue Query SYST ERR Response 0 No error STATus PRESet STATus QUEue STATus QUEue ENABle CLS VX1410 IntelliFrame Instruction Manual 3 89 System Subsystem SYSTem ERRor ALL Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 90 Returns a comma separated list of all unread events from the Error Event queue This is an alias command with the STATus QUEue ALL command The Error Event queue is cleared at power up upon receipt of the CLS command There is no associated command for this query SYSTem ERRor ALL Parameter Not Applicable Query Response lt NR1 gt lt string gt Not Applicable None None Query SYST ERR ALL Response 221 Settings Conflict 224 Illegal Parameter Value STATus QUEue STATus QUEue ENABle STATus QUEue ALL CLS VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem ERRor CODE Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Returns the next event code from the Err
81. anual 3 129 Ss Status and Events 120 The VX1410 IntelliFrame complies with SCPI version 1995 0 You can use the SYSTem VERSion command to read the latest version or the IDN command to read a more detailed identification message The VX1410 IntelliFrame supports the Status Byte model shown in Figure 3 11 The figure shows core of the SCPI required status reporting capability The status registers fit into a 16 bit integer with the most significant bit always zero positive logic Unused or don t care bits in masks and registers always return zeros when queried The Operation Status register and the Questionable Status register outputs are logically ORed together as shown in Figure 3 11 The Operation Status register contains information on the normal operation of the VX1410 IntelliFrame In particular bit 8 contains summary information on the VXI Monitor status register see Figure 3 12 The V XI Monitor Status register monitors activity on bits 0 through 3 VX1410 IntelliFrame Instruction Manual 3 131 Status and Events QUEStionable Status Registers Summary of VOLTage 0 1 2 3 Summary of TEMPerature 4 STATus QUES tionable EVENt 5 STATus QUES tionable C ONDition 6 STATus QUES tionable ENABle 7 CALibration 8 Summary of BLOWer 9 FILTer 10 11 12 13 14 15 OPERation Status Registers CALibrating 0 STATus OP ER ation E VE Nt
82. arameter Query Response Not Applicable NR1 Not Applicable None None Query STAT QUES COND Response 0 STATus QUEStionable STATus QUEStionable ENABle VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable ENABle STATus QUEStionable ENABle Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the contents of the Questionable Enable register Setting unused enable bits does not generate an error the bits are ignored If the power on status clear flag is FALSE see PSC command on page 3 124 at power on the register value will be restored from nonvolatile RAM otherwise the register value at power on is set to 0000 Executing the STATus PRESet command sets the register value to 0000 STATus QUEStionable ENABle Mask STATus QUESt ionable ENABIe Mask Query Response lt NRf gt Nondecimal Numeric lt NR1 gt 0 lt N lt HFFFF Not Applicable 222 Data Out of Range The value of the data was outside of the legal value None Command STAT QUES ENAB H0001 Query STAT QUES ENAB Response 1 STATus QUEStionable STATus QUEStionable CONDition STATus PRESet VX1410 IntelliFrame Instruction Manual 3 49 STATus Subsystem STATus QUEStionable FILTer TINTerval STATus QUEStionable FILTer TINTerval Syntax Parameters Reset Value Errors and Events Dependencies Exampl
83. ard out of the holes at the top of the mainframe being careful not to damage any components on the circuit board NOTE If you replace the Temperature Sense board and you have Option 1M or 2M remember to calibrate the mainframe Refer to Chapter 5 Adjustment Procedures beginning on page 6 1 for information on calibrating the main frame Retainer Temperature Board Figure 7 9 Removing the Temperature Sense Board 7 12 VX1410 IntelliFrame Instruction Manual Maintenance Procedure 7 Remove remove the enhanced monitor display assembly for mainframes with Option Instrument Monitor 1M complete the following steps Display Assembly 1 Remove the top cover of the mainframe see Figure 7 8 on page 7 11 if necessary Refer to Figure 7 10 and disconnect the ribbon cable from the rear of the Display assembly Remove the 6 32 screws holding the Display assembly in place Gently remove the Display assembly from the mainframe When you reconnect the ribbon cable to the Display assembly observe the orientation of Pin 1 as shown in Figure 7 10 Figure 7 10 Removing the Monitor Display VX1410 IntelliFrame Instruction Manual 7 13 Maintenance Procedure 8 Remove the remove the backplane perform Procedures 1 2 and 3 Refer to Figure 7 11 Backplane then complete the following steps 1 Remove the top cover of the mainframe see Figure 7 8 on page 7 11 if necess
84. ary 2 Disconnect the ribbon cable on the right side of the backplane NOTE Before disconnecting the power switch cable note which connector the cable is connected to J22 normally or J23 Remember to reconnect the cable to the correct connector 3 Disconnect the power switch cable at J22 or from J23 at the top of the backplane 4 From the rear of the mainframe remove the five 6 32 screws on the top of the backplane seven 6 32 screws from the center and five 6 32 screws from the bottom 5 After removing all screws from the backplane remove the backplane from the mainframe by sliding it out of the right side Install the backplane by reversing the disassembly procedure 7 14 VX1410 IntelliFrame Instruction Manual Maintenance Power Switch Connector 2 D I BackP lane Figure 7 11 Removing the Backplane VX1410 IntelliFrame Instruction Manual 7 15 Maintenance Troubleshooting Procedures Equipment List Diagnostic Information Fuses Fault Isolation 7 16 The troubleshooting procedures are designed to isolate problems to a module level No component level procedures are provided The following test equipment is recommended for troubleshooting procedures m Digital Voltmeter Tektronix DM250 series digital voltmeter W Oscilloscope 20 MHz BW with 10x Probe with lt 1 inch ground lead Tektronix TDS400A or TDSSOOA series oscilloscope
85. at use SCPI Instead of having to learn different commands for every instrument the programmer may use the same commands for the same functions of each instrument The controller sends instructions to the instrument in the form of commands or queries Commands modify control settings or tell the instrument to perform a specific action Queries cause the instrument to send data or status information back to the controller A question mark at the end of a command header identifies it as a query Command Syntax Any instruction that you send to an instrument that complies with SCPI must have at least three basic elements Command header Parameter if required W Message terminator or separator VX1410 IntelliFrame Instruction Manual 3 21 Syntax Command Headers Parameter 3 22 The command header has a hierarchical structure that may be represented by a command tree Figure 3 3 An easy to remember word called a mnemonic designates each level of the hierarchy A colon separates the levels The top level of the tree is the root level A root node is a mnemonic at the root level A root node and one or more lower level nodes form a header path to the last node called the leaf node 5 5 lt Root node OPERation QUEStionable shin d Lower level nodes EVENt ENABle 1 lt Leaf nodes Figure 3 3 Tree Hierarchy The header path and leaf node together form the command header Figure 3 4 sho
86. attach a tag to the mainframe with the owner name and address the serial number and a brief description of the problem s encountered or the service required Always return all accessories so that the entire system can be tested VX1410 IntelliFrame Instruction Manual 7 17 Maintenance Theory of Operation 7 18 Standard Mainframe When repacking the mainframe for shipment use the original packaging If the packaging is unavailable or unfit for use contact your local Tektronix representa tive to obtain new packaging This section provides a brief overview of the theory of operation for the VX1410 IntelliFrame Figure 7 12 shows the functional block diagram of the mainframe and the major components The standard mainframe contains the following major components W Power supply m Backplane m Standard Monitor board m Temperature Sense board Power Supply The power supply provides all voltages and currents to the mainframe The power supply connects to the backplane at J1 and J2 through the Power Supply Interface board The power supply and the Power Supply Interface board can be replaced as a single unit Backplane The backplane A4 provides all the connections to module slots 0 through 12 in the mainframe It also has connections to all other circuit boards and modules in the mainframe The front panel On Standby DC switch connects to one of two connectors at the top of the backplane When the switch is connected to J22
87. ay Button ECB Front Panel Display Board Scroll Switches Figure 7 12 Mainframe Block Diagram VX1410 IntelliFrame Instruction Manual 7 19 Maintenance Mainframe with Option 1M or 2M 7 20 Standard Monitor Board The Standard Monitor board A3 collects the monitor ing information from the power supply fans and Temperature Sense board and passes the information to the 25 pin D connector The monitor board connects directly to the backplane at 0J3 OP1 and OP2 The two fans connect to the Monitor board at J7 Fan2 and J8 Fan1 The Fan Speed switch S1 selects either variable fan speed VAR or full speed FULL Table 3 1 on page 3 2 shows the pinouts of the 25 pin D connector Temperature Sense Board The Temperature Sense board A2 monitors the temperatures for each slot within the mainframe The Temperature Sense Board connects to the backplane through the ribbon cable at J16 If your mainframe includes Option 1M the Enhanced Monitor board replaces the Standard Monitor board Option 1M also includes a front panel display board Enhanced Monitor Board The Enhanced Monitor board A5 has similar circuitry and connectors as the Standard Monitor board The Enhanced Monitor board includes a nine pin RS 232 port to connect to an external host Address switches near the bottom rear of the board allow you to select the VXIbus address A green READY indicator and amber ACCESSED indicator located at the bottom of the boar
88. buttons on the side of the display allow you to scroll through the display selections z Power Switch gt On Tektronix VX1410 IntelliFrame z 5 s ia e M e ve ia e 1 Y M O I O Ur md HT Li mul LT Figure 2 2 Partial Front View of the VX1410 IntelliFrame with Option 1M are Figure 2 3 shows the rear view of the standard VX1410 IntelliFrame The AC power connector is located on the bottom left side on the rear of the mainframe The AC fuse holder is located just above the power connector The chassis ground screw if installed can be used to connect multiple mainframes to a common ground point The fan filter is located on the back of the mainframe The filter slides easily into the mainframe there is no need to remove any covers to replace or clean the fan filter The Fan Speed switch controls the speed of the system cooling fan When the switch is set to the VAR variable position the mainframe automatically controls the speed of the fan depending on the air temperature and amount of cooling required by the modules When the switch is in the FULL position the fans operate at full speed VX1410 IntelliFrame Instruction Manual Operating Basics A DB 25 pin connector provides the ability to monitor the power
89. cases you can leave the switches in the factory default position of FF This allows the mainframe to dynamically configure the address However make sure that no other module uses the same slot address as the enhanced monitor board determined by the position of the MODID jumper and that the logical address of the module is not set to FF See Enhanced Monitor Board Jumpers on page 4 for information on configuring the jumpers on the Enhanced Monitor board MONITOR BACKUP POWER SUPPLY LOGICAL ADDRESS MSD LOGICAL ADDRESS READY T ACCESSED STATUZ Figure 1 14 Logical Address Switches VX1410 IntelliFrame Instruction Manual Getting Started Functional Check Use the information in this section to determine that the VX1410 IntelliFrame operates properly The functional check consists of checking the power supply voltages at the 25 pin connector at the rear of the mainframe with a digital voltmeter If your mainframe comes with the Optional Monitor Option 1M verify that the display shows no errors at power on You can then verify the power supply voltages with the front panel digital display and compare the displayed values against those in Table 1 3 If your mainframe
90. cations 4 7 error messages 3 136 3 138 errors command 3 136 device specific 3 136 execution 3 136 query 3 136 ESE 3 120 ESR 3 121 event messages 3 136 3 138 Event Status Word 3 75 examples 3 139 3 140 monitor delta temperatures 3 139 monitor power supply voltages 3 139 summarize status information 3 140 execution error 3 136 exterior cleaning 7 2 F factory default settings 3 96 fan assembly removing 7 4 7 6 fan filter 2 2 7 3 fan filter cleaning 7 3 fan speed switch 2 2 fans removing 7 4 7 6 fault isolation procedures 7 16 7 18 cooling 7 17 7 18 power supply 7 17 filter resetting the cleaning interval 3 52 7 3 functional check procedure 1 25 1 26 fuses line 7 16 Index 1 Index G ground chassis 1 21 safety 1 21 H header path 3 22 IDN 3 122 IEEE 488 2 Common Commands 3 119 3 130 incoming inspection 1 25 installation 1 7 1 18 cable trays 1 7 1 11 Option 10 1 9 1 26 Option 2U 1 10 1 26 rackmount 1 12 1 17 remote power supply B 5 site considerations 1 7 interior cleaning 7 2 J jumpers 5 V Standby B 4 MODID B 4 L leaf node 3 22 logical address switches 1 24 2 4 mainframe fuses 7 16 maintenance 7 1 7 20 mechanical specifications 4 9 mnemonic 3 22 3 24 MODID jumpers B 4 module selection guidelines 1 19
91. ct unless another person capable of rendering first aid and resuscitation is present To avoid electric shock disconnect the main power by means of the power cord or if provided the power switch Dangerous voltages or currents may exist in this product Disconnect power remove battery if applicable and disconnect test leads before removing protective panels soldering or replacing components To avoid electric shock do not touch exposed connections VX1410 IntelliFrame Instruction Manual xi Preface The VX1410 IntelliFrame Instruction Manual provides information on using the mainframe The manual includes the following chapters Getting Started provides a brief description of the VX1410 IntelliFrame a list of accessories that accompany the mainframe installation and configura tion procedures and a functional check procedure Operating Basics provides a functional overview of the mainframe and includes illustrations of the main components Reference provides reference information on the various connectors on the mainframe It also provides details on the command set and programming information for the Enhanced Monitor option Specifications lists all of the warranted characteristics nominal traits and typical characteristics of the mainframe Adjustment Procedures provide service related command information for use with the Enhanced Monitor option Performance Verification includes the performance verification proce
92. d D9 Not Used D10 Not Used NotUsed D12 NotUsed D13 NotUsed D14 NotUsed D15 NotUsed Not Applicable None Reading the register clears it VX1410 IntelliFrame Instruction Manual STATus Subsystem Examples Query STAT OPER VXIM Response 0 Related Commands STATus OPERation VXIMonitor ENABle VX1410 IntelliFrame Instruction Manual 3 35 STATus Subsystem STATus OPERation VXIMonitor ACFail Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 36 Queries the time when the VXI ACFAIL signal was asserted The time is relative to the mainframe power on time If there are multiple occurrences of the ACFAIL signal only the time of the first assertion is saved When no ACFAIL is detected the query returns a value of 0 in all fields At power on the values of all fields are set to 0 There is no command associated with this query STATus OPERation VXIMonitor ACFail Parameter Query Response Not Applicable Hour Minute S econd Not Applicable None None Query STAT OPER VXIM ACF Response 0 0 0 STATus OPERation VXIMonitor ENABle STATus OPERation VXIMonitor VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus OPERation VXIMonitor BERR Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Queries the VXI Bus Error address space If multiple bu
93. d indicate the operating status of the mainframe The Enhanced Monitor board also has circuitry to allow you to communicate with the mainframe with SCPI commands These commands are detailed in the Reference section of this manual An Auxiliary Power input connector is available to connect 5 volts from an outside source to power the communication circuitry in the event of power failure of the mainframe Monitor Display Board The Monitor Display board A6 has a 20 character alphanumeric display that displays the system messages on the front panel Scroll keys allow you to scroll through the messages one at a time The display board connects to the backplane through the ribbon cable at J18 NOTE Mainframes with Option 2M If your mainframe includes Option 2M there will be no front panel display Otherwise it is functionally identical to Option 1M described above VX1410 IntelliFrame Instruction Manual a amp Replaceable Parts This section contains a list of the replaceable modules for the VX1410 Intelli Frame Instrument Use this list to identify and order replacement parts Parts Ordering Information Part Number Revision Level Replacement parts are available through your local Tektronix field office or representative Changes to Tektronix products are sometimes made to accommodate improved components as they become available and to give you the benefit of the latest improvements Therefo
94. dures used to verify the advertised specifications of the mainframe Maintenance is intended for qualified service personnel who need to service the mainframe Module level removal and replacement procedures and troubleshooting procedures are included in this chapter Replaceable Parts includes a list of replaceable mechanical and electrical parts for the mainframe to be used with the maintenance chapter It also includes the exploded view diagrams of the mainframe and options Appendices include a power budget worksheet a description of special configuration options and SCPI Command conformance information Glossary Index VX1410 IntelliFrame Instruction Manual xiii Getting Started Product Description Power Supply This chapter provides an overview of the VX1410 IntelliFrame It includes installation and configuration information on user installable options The VX1410 IntelliFrame is an intelligent 13 slot C size VXIbus Mainframe It fully complies with the V XIbus Specification 1 4 requirements and is VXI Plug amp Play compatible for WIN frameworks The mainframe has the following features m High output power supply m Intelligent cooling for installed modules m High quality auto configurable backplane m Optional adjustable rackmounts and cable trays m Optional enhanced monitor These features are explained in more detail in the following paragraphs The VX1410 IntelliFrame provides all VXIbus voltages at le
95. e measured at the 25 pin connector VX1410 IntelliFrame Instruction Manual 5 1 Performance Verification DC Load Ripple and Noise Use an oscilloscope to check the DC Load Ripple and Noise on the pins of the 25 pin connector and compare the results against the limits listed in Table 5 1 1 Set up the oscilloscope as follows Bandwidth Limit Input Coupling Volts Division Time Base Trigger Mode Acquisition Mode 20 MHz AC 10 mV div 1 s div Auto Peak Detect 2 Connect a ground lead less than one inch to the 1X oscilloscope probe P6101B 3 Connect the probe to Pin 1 of the 25 pin connector and connect the ground lead to one of the ground pins listed in Table 5 1 4 Check that peak to peak voltage displayed on the oscilloscope is less than the limits listed in Table 5 1 5 Check the remaining voltages in Table 5 1 Table 5 1 DC Load Ripple and Noise Check Pin Supply Limits Vp p 1 50 mV 2 12V 50 mV 3 24V 150 mV 4 2V 50 mV 14 12 V 50 mV 15 24V 150 mV 16 5 2V 50 mV 9 17 18 19 20 22 24 Ground VX1410 IntelliFrame Instruction Manual WARNING The following servicing instructions are for use only by qualified personnel To avoid injury do not perform any servicing other than that stated in the operating instructions unless you are qualified to do so Refer to all Safety Summaries before performing any service ALLL LLLLLLEULRELERERERERELRERERRRERRESR EE I
96. e Instruction Manual TEST Subsystem This section describes each command and query in the TEST subsystem These commands are used to execute internal self tests The TEST subsystem controls the parameters shown in Figure 3 9 TEST ALL NUMBer X RESults Figure 3 9 TEST Subsystem Hierarchy Table 3 19 lists all of the internal self tests of the VX1410 IntelliFrame Table 3 19 VX1410 IntelliFrame Self Test Test Number Test Name Seconds Power On Test TEST 1000 1120 Front Panel Display Control Test3 6 No A description of each self test is listed below Invoked by TEST NUMBer Yes Yes Yes Yes Yes m Fan Speed Control test This test varies the fan speed control and verifies that the fan speed changes accordingly ADC and DAC Control test This test verifies the internal ADC and DAC circuitry m Front Panel Display Control Test 1 This test performs the following sequences a Turns on all display pixels b Turns off all display pixels c Writes the character 8 to each display position d Turns on all display pixels VX1410 IntelliFrame Instruction Manual 3 109 TEST Subsystem e Turns off all display pixels f Writes the character 8 to each display position g Turns off all display pixels m Front Panel Display Control Test 2 This test writes the following ASCII characters to the display 0x20 to Ox7E These characters are followed by A and
97. e Parts Figure 8 9 Option 2M Enhanced Monitor 8 23 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp Index TektronixPart Serial No Serial No Mfr Number Number Effective Discontd Qty amp Description Code Mfr PartNumber OPTION 1D DELETE POWER SUPPLY 441 4402 00 1 BRACKET BRACKET PSIF DUMMY P S VX1410 80009 441440200 NOT ILLUSTRATED 211 0846 00 4 SCREW SCREW SHLDR 6 32 X 0 156 HEX SOCKET 51506 67515 S 12 VT SHOULDER SCREW 0 156 DIA X 0 125 SHANK NOT ILLUSTRATED 8 24 VX1410 IntelliFrame Instruction Manual DR Pg Appendix A Power Budget Worksheet Use the Power Budget Worksheet to determine the operating parameters of the VX1410 IntelliFrame and any installed modules Enter the steady state current and the dynamic current Imp for each module the dynamic current is only valid for mainframes with serial number B020100 or higher Add the individual currents to determine the total current needed for each power rail Calculate the total power for the mainframe NOTE The Power Budget Worksheet does not apply to mainframes with Option 1D Delete Power Supply VX1410 IntelliFrame Instruction Manual A 1 Tenuen uononansu 1 45V H2 V Total Current of All Modules Imp Ip
98. e Power Supply all product specifications in this table do not apply To be VXI compliant the power supply must adhere to the specifications of the VXI standard VX1410 IntelliFrame Instruction Manual 4 7 Specifications 4 8 Table 4 6 Electromagnetic Compatibility Characteristic Description Emissions Emissions shall be within the limits specified by the following requirements Enclosure EN 55011 Class A limits for radiated emissions AC Mains EN 60555 2 AC power harmonic emissions Immunity Enclosure Radio Frequency Electromagnetic Field Immunity Enclosure Electrostatic Discharge ESD EN 55011 Class A limits for conducted emissions No mainframe failures when the mainframe is subjected to a 3 V m electromagnetic field over the frequency range of 27 MHz to 500 MHz Up to 8 kV with no change to control settings or impairment of normal operation and up to 15 kV with no loss of stored data or damage that prevents recovery of normal operation by the user Immunity Fast Transients Com mon Mode FCC No loss of stored data change to control settings degradation of performance or temporary loss of function will occur when the mainframe is subjected to the following transients Port Peak Voltage Tr Th Frequency Signal amp Control O 5kV 5 50 5 5 kHz DC Power 0 5 5 50ns 5kHz AC Power 10 5 50ns 5 kHz The mainframe complies with the radiated and conducted emis
99. e Temperature Condition register A value of one in a bit indicates the corresponding temperature condition is outside of the limits Unused bits always return a value of zero Definition of the bits in this register can be found under the STATus QUEStionable TEMPerature command on page 3 53 If the fan speed is already set to the maximum speed and the delta temperature is above the limit for 30 seconds a failure will be reported Reading the register does not clear it There is no command associated with this query STATus QUEStionable TEMPerature CONDi tion Parameter Query Response Not Applicable lt NR1 gt Not Applicable None None Query STAT QUES TEMP COND Response 0 STATus QUEStionable TEM Perature STATus QUEStionable TEMPerature ENABle VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable TEMPerature ENABle STATus QUEStionable TEMPerature ENABle Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the contents of the Temperature Enable register Setting unused enable bits does not generate an error the bits are ignored If the power on status clear flag is FALSE see PSC command on page 3 124 at power on the register value will be restored from nonvolatile RAM otherwise the register value at power on is set to H7FFF Executing the STATus PRESet command sets the register value to H7FFF STAT
100. e cable tie loop and pull the monitor board until it comes loose from the backplane Then slide the board out of the right side of the mainframe 9 Monitor Board 272 7 vue gt 2 0 Ap mim Cable Tie Loop 9 Figure 7 5 Removing the Monitor Board NOTE If you replace the enhanced monitor board Option 1M or 2M remember to calibrate the mainframe Refer to Chapter 5 Adjustment Procedures beginning on page 6 1 for information on calibrating the mainframe Procedure 3 Remove remove the power supply from the mainframe refer to Figure 7 3 and Power Supply perform steps 1 through 4 of Procedure 1 to remove the fan assembly and Procedure 2 to remove the monitor board then continue with the following steps 1 Using the handle on the power supply firmly pull out the power supply from the rear of the mainframe VX1410 IntelliFrame Instruction Manual 7 7 Maintenance 2 Set the power supply assembly on a clean working surface NOTE Step 3 is necessary only if you intend to replace the Power Supply Interface board This step is normally not necessary because the Power Supply and the Power Supply Interface board can be replaced as a single unit 3 Refer to Figure 7 6 and remove the Power Supply Interface board from the power supply module as shown lt 8 32 Screws 4 lt Power Supply Interface Board Figure 7 6 Removing the P
101. e clear flag If the lt Value gt parameter is zero the power on state clear flag is set to FALSE otherwise the flag is set to TRUE If the power on state clear flag is FALSE at power on the Service Request Enable Register the Standard Event Status Enable Register and the SCPI Enable Register settings will be restores to their previous settings Otherwise the settings will be cleared The factory default setting is 0 Syntax PSC Value PSC Parameters Value Query Response NRf Non Decimal Numeric lt NR1 gt Nz0 1 0 0 32767 lt lt 32767 Reset Value Not Applicable Errors and Events 224 Illegal Parameter Value You attempted to set the parameter to an illegal value Dependencies None Examples Command PSC 0 Query PSC Response 0 Related Commands STATus 3 124 VX1410 IntelliFrame Instruction Manual IEEE 488 2 Common Commands RST This command resets instrument settings to a default state There is no query associated with this command This command has no effect other than stopping the VXI Monitor The VXI Monitor stops execution while other monitors remain active Syntax RST Parameters Reset Value Not Applicable Errors and Events None Dependencies None Examples Command RST Related Commands STATus PRESet CLS VX1410 IntelliFrame Instruction Manual 3 125 IEEE 488 2 Common Commands SRE SRE Sets or queri
102. e distance see Figure 1 6 matches the front rail to rear rail spacing that you just measured in step 2 NOTE If necessary refer to the rackmount kit instructions for detailed installa tion information 4 Attach the rear bracket to the right slide out track using two 10 32 screws and a bar nut as shown in Figure 1 6 Leave the screws loose so that you can adjust the overall length of the slide out track assembly when installing the mainframe in the rack 5 Repeat steps 3 and 4 to assemble the left slide out track assembly 2 ES Outer Track Button latch is closest to top of Front Flange track Mounts to front rail of rack Front of Inner Track Instrument Left Slide Out Track Assembly Figure 1 6 Assembling the Slide Out Track Assemblies VX1410 IntelliFrame Instruction Manual Getting Started 6 Select the mounting position in the rack select two 0 5 inch spaced holes in the front rail and verify that the 1 5 inch and 14 00 inch clearances exist relative to the mounting holes as shown in Figure 1 7 NOTE The 14 inch vertical clearance is only valid for the mainframe without the rubber feet and cable trays Refer to Figures 4 2 4 3 and 4 4 on pages 4 10 4 11 and 4 12 for information on vertical clearances of the mainframe with cable tray options 304 8 mm 12 0 in 355 6 mm 14 0 in 2 gt Pu P 2 2 0 e 22
103. e four slots one command per slot STAT QUES TEMP LIM DELTAO 10 STAT QUES TEMP LIM DELTA1 10 STAT QUES TEMP LIM DELTA2 5 STAT QUES TEMP LIM DELTA3 5 2 Send the STATus QUEStionable TEMPerature ENABle command to enable the bits in the Temperature Enable register This command allows you to measure temperatures for the individual slots STAT QUES HOF VX1410 IntelliFrame Instruction Manual 3 139 Examples 3 Send the STATus QUEStionable ENABle command to enables bit 4 in the Questionable Enable register If any problems occur with any of the slots the corresponding bit will be set STAT QUES ENAB 16 Example 3 Summarize Status Information The following example shows how to return a summary of the status information using the STAT SEVent command Send the STAT SEVent query and note the returned information For example assume that the query returns a decimal value of 123 Decoding the information indicates that both fans failed and that the temperatures for slots 0 through 3 exceeded the specified limits 3 140 VX1410 IntelliFrame Instruction Manual SS r Specifications This chapter contains the complete specifications for the VX1410 IntelliFrame Within each section the specifications are arranged in functional groups such as AC Power Source Secondary Power Cooling Safety Environmental Back plane and Mechanical All specifications are warranted unless they are designa
104. e is placed in the VXI Error Event queue as part of an event message When you send the command from the V XI interface the interface event message is placed in the RS 232 Error Event queue as part of an event message The message in the Error Event queue looks similar to the following message 100 System Message Your Message Here Event number 100 has to be enabled by the SYSTem ERRor QUEue ENABle command to place an event into the event queue SYSTem IEMessage Message Parameter Query Response string Not Applicable Not Applicable 223 Too Much Data You attempted to send too much data in the string None Command SYST IEM System Init None VX1410 IntelliFrame Instruction Manual 3 99 System Subsystem SYSTem NVRecall 3 100 Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Recalls device settings from nonvolatile RAM Table 3 17 lists the device settings that will be restored from nonvolatile RAM Table 3 17 NVRecall Device Settings Device Settings STATus OPERation ENABIe STATus QUEStionable VO LTage P TR STATus OPERation VXIMonitor ENABle SYSTem SYSReset STATus QUEStionable BLOWer ENABle VXIMonitor TINTerval STATus QUEStionable E NABle VXIMonitor REP eat STATus QUEStionable F ILTer TINTerval ESE STATus QUEStionable TEMPerature ENABle PSC STATus QUEStionable TE MP erature LIMit SRE SYSTem NVRecall Para
105. e maximum temperature rise m VXIbus system monitoring activities Option 1M also includes a front panel display to indicate the system status as determined by the monitoring system Use the NEXT and PREV buttons on the side of the display to scroll through the individual messages Table 3 6 lists some of the messages that you may see on the display You can also display user defined messages with the DISPlay command see Display Subsystem beginning on page 3 27 Table 3 6 Front Panel Display Messages Category Message Failure Messages FAIL 424VQ XX XX FAIL 12V XX XX FAIL 5V X XX FAIL 5V STBY XX XX FAIL 5V EXTQ XX XX FAIL 2V X XX FAIL 5 2V X XX FAIL 12V XX XX FAIL 24V XX XX FAIL S0 ATQ XX C FAIL S1 ATQ XX C FAIL S2 ATQ XX C FAIL S3 ATQ XX C FAIL S4 ATQ XX C FAIL S5 ATQ XX C VX1410 IntelliFrame Instruction Manual 3 9 Reference Table 3 6 Front Panel Display Messages Cont Category Message FAIL S6 ATQ XX C FAIL S 7 ATQ XX C FAIL S8 ATQ XX C FAIL S9 ATQ XX C FAIL S10 ATQ XX C FAIL S11 ATQ XX C FAIL S12 ATQ XX C FAIL Ambient TQ XX C FAIL Fanl XXXXRPM FAIL Fan2 XXXXRPM Warning Messages WARN Clean Filter Power Supply Status Messages 24 Volts XX XXV 12 Volts XX XXV 5 Volts X XXV 45V Stby X XXV 35V External X XXV 2 Volts X XXV 5 2 Volts X XXV 12 Volts XX XXV 24 Volts XX XXV Temperature Status Messages Ambient T XX C AT S0 S1 XX XX C AT 52 53
106. e pinouts for the Slot 0 P2 connector VX1410 IntelliFrame Instruction Manual Reference 3 6 Table 3 3 P1 Connector Pinouts Pin Row A Row B Row C 1 D00 BBSY D08 2 D01 BCLR D09 3 D02 ACFAIL D10 4 D03 BGOIN D11 5 D04 BGOOUT D12 6 D05 BG1IN D13 7 D06 BG10UT D14 8 D07 BG2IN D15 9 GND BG20UT GND 10 SYSCLK BG3IN SYSFAIL ll GND BG30UT BERR 12 DS1 BRO SYSRESET 13 DS0 1 LWORD 14 WRITE BR2 AM5 15 GND BR 3 A23 16 DTACK AMO A22 17 GND AM1 A21 18 AS AM2 A20 19 GND AM3 A19 20 IACK GND A18 21 IACKIN SERCLK A17 22 IACKOUT SERDAT A16 23 AM4 GND Al5 24 A07 IRQ7 14 25 06 IRQ6 A13 26 A05 IRQ5 A12 2 A04 IRQ4 All 28 A03 IRQ3 A10 29 A02 IRQ2 A09 30 A01 IRQ1 A08 31 12V 5 V STDBY 12 V 32 VX1410 IntelliFrame Instruction Manual Reference Table 3 4 P2 Connector Pinouts for Slots 1 12 Pin Row A Row B Row C 1 ECLTRGO CLK10 2 2V GND CLK10 3 ECLTRG1 RSVI GND 4 GND A24 52V 5 LBUSA00 A25 LBUSC00 6 LBUSAO01 A26 05 01 7 5 2V A27 GND 8 LBUSA02 A28 LBUSC02 9 LBUSA03 A29 LBUSC03 10 GND A30 GND ll LBUSA04 A31 LBUSC04 12 LBUSA05 GND LBUSCO5 13 5 2V 2V 14 LBUSA06 D16 LBUSC06 15 LBUSA07 17 LBUSCO7 16 GND D18 GND 17 LBUSA08 D19 LBUSC08 18 LBUSA09 D20 LBUSC09 19 5 2V D21 5 2V 20 LBUSA10 D22 LBUSC10 21 LBUSA1I D23 LBUSCII 22 GND GND GND 23 TTLTRGO
107. e the Readme file on disk for installation information Enhanced monitor upgrade kit Tektronix part number 040 1480 Table 1 2 Power Cord Identification Plug Configuration Normal Usage Option Number North American Standard 115V 15A Plug NEMA 5 20P North America Standard 250V 13A Plug NEMA 5 15P Europe 230V VX1410 IntelliFrame Instruction Manual Getting Started Table 1 2 Power Cord Identification Cont Plug Configuration Normal Usage Option Number United Kingdom 230V North America 230V Switzerland 230V Optional Accessories The VX1410 IntelliFrame has the following optional accessories m RS 232C Cable DB9 female X DB9 female serial null modem Tektronix part number 012 1379 XX m AC to DC low voltage converter supply to externally supply power to the Enhanced Monitor Options 1M and 2M Tektronix part number 119 5061 XX m US Power cord for the external supply Tektronix part number 161 0066 00 W Option Al Power cord for the external supply Tektronix part number 161 0066 09 m Option 2 Power cord for the external supply Tektronix part number 161 0066 10 VX1410 IntelliFrame Instruction Manual 1 5 Getting Started m Option Power cord for the external supply Tektronix part number 161 0066 11 m Option A4 Power cord for the external supply Tektronix part number 161 0066 12 m Option A5 Power cord for the external supply Tektronix part nu
108. eceived 430 Query DEADLOCKED The input and output buffers are full and the device can not continue 440 Query UNTERMINATED after indefinite response A query was received in the same program message after executing a query waiting for an indefinite response 100 System Message 3 138 VX1410 IntelliFrame Instruction Manual Er 91 Examples This section describes a few brief examples on using some of the commands described in this manual These examples are intended to show how the commands from the Command section work together to complete a task Example 1 Monitor Power Supply Voltages This example shows how to monitor the mainframe power supply voltages 1 Send the STATus QUEStionable VOLTage ENABle command to enable the bits in the Voltage Enable register This command lets you monitor all voltage limits STAT QUES VOLT ENAB 32767 2 Send the STATus QUEStionable ENABle command to enable the bit 0 in the Questionable Enable register If any problems occur with any of the power supplies bit O of the register will be set STAT QUES ENAB 1 Example 2 Monitor the Delta Temperature This example shows how to monitor the delta temperature in slots 0 1 2 and 3 The maximum allowable delta temperature for slots 0 and 1 is 10 C the maximum allowable delta temperature for slots 2 and 3 is 5 C 1 Send the STATus QUEStionable TEMPerature LIMit command to set the temperature limits for th
109. ed Power Switch z Tektronix 1410 IntelliFrame mnnn gae cd es E el mH es D Les es es P es Des es P es B ees E mE Figure 2 1 Front View of the Standard VX1410 IntelliFrame VX1410 IntelliFrame Instruction Manual 2 1 Operating Basics Standard Monitor The On Standby switch on the top left corner of the front panel applies DC voltages to the mainframe The switch is a momentary contact switch The switch is lighted when DC voltages are applied to the mainframe You can also remotely power on or power down the mainframe You can configure your mainframe to bypass the On Standby switch refer to Remote Power Switch Configuration in Appendix B of this manual for informa tion on configuring the power switch The On Standby switch remains lighted while power is applied however the switch itself no longer controls the mainframe If you ordered your VX1410 IntelliFrame with the Enhanced Monitor Op tion 1M the mainframe includes a 20 character alphanumeric display indicating the status of the system see Figure 2 2 The NEXT and PREV push
110. eive values Avoid using XON pacing when transferring binary data SYSTem COMMunicate SERial RECeive PACE Flow Control SYSTem COMMuni cate SERial RECeive Flow Control Query Response NONE NONE XON XON Not Applicable 224 Illegal Parameter Value You attempted to set the flow control to an illegal value None Command SYST COMM SER PACE XON Query Response SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem COMMunicate SERial PARity SYSTem COMMunicate SERial PARity Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the type of parity used by the RS 232 port This command sets both the transmit and receive values SYSTem COMMunicate SERial RECeive PARity TYPE Type SYSTem COMMunicate SERial RECeive PARity TYPE Type Query Response EVEN EVEN NONE NONE ODD ODD Not Applicable 224 Illegal Parameter Value You attempted to set the parity to an illegal value None Command SYST COMM SER PAR EVEN Query SYST COMM SER PAR Response EVEN All SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual 3 85 System Subsystem SYSTem COMMunicate SERial PRESet 3 86 Syntax Parameters Reset Value Errors and Events Dependencies Examples R
111. elated Commands Preset logical groups of RS 232 port control parameters The default mode sets all RS 232 settings to a known state The RAW and TERMinal modes change only a subset of the parameters Use RAW when connected to a computer and use TERMinal when connected to a computer display terminal The command T followed by a new line character J configures the RS 232 port for terminal operation when it is currently in the RAW mode There are no associated queries with these commands Table 3 15 lists the preset values for each PRESet command Table 3 15 Effects of PRESet on Serial Port Parameters SERial Port Parameter ALL RAW TERMinal BAUD 9600 5 8 NC NC CONTrol RTS ON NC1 ECHO OFF OFF ON ERESponse OFF OFF ON LBUF fer OFF OFF ON PACE NONE NONE XON PARity NONE NC1 5 5 1 NC1 NC 1 The entry NC in a field means the value is not changed SYSTem COMMunicate SERial PRESet ALL SYSTem COMMuni cate SERial PRESet RAW SYSTem COMMunicate SERial PRESet TERMINAL None Not Applicable None See Table 3 15 Command SYST COMM SER PRES TERM SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem COMMunicate SERial SBITs SYSTem COMMunicate SERial SBITs Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the number of stop b
112. ent register This line is an open collector output The signal can be stand alone or multiple mainframes can be tied together If you tie multiple mainframes together each mainframe must be polled to determine the source of the service request VX1410 IntelliFrame Instruction Manual 3 3 3 4 Reference Enhanced Monitor RS 232 Connector The Enhanced Monitor includes a 9 pin RS 232 connector that allows connec tion to a RS 232 host Figure 3 2 shows the pinouts of the 9 pin RS 232 connector Table 3 2 describes the pin assignments 05909059009 059000009 PASSIVE MONITOR D NI Pin 9 Figure 3 2 RS 232 Connector Pinout VX1410 IntelliFrame Instruction Manual Reference Table 3 2 RS 232 Pin Connector Pin Shield 1 Description Protective Ground No Connection Receive Data RxD Transmit Data TxD Data Terminal Ready DTR Signal Ground GND No Connection wo TY A wy Request to Send RTS Clear to Send CTS No Connection Backplane Connectors Table 3 3 shows the connector pinouts for all slots in the VX1410 Intelli Frame Table 3 4 shows the P2 connector pinouts for slots 1 to 12 and Table 3 5 shows th
113. entity information Interrupter A device capable of asserting VMEbus interrupts and performing the interrupt acknowledge sequence IRQ The Interrupt ReQuest signal which is the VMEbus interrupt line that is asserted by an Interrupter to signify to the controller that a device on the bus requires service by the controller Local Bus A daisy chained bus that connects adjacent V XIbus slots VX1410 IntelliFrame Instruction Manual Glossary Local Controller The instrument module that performs system control and external interface functions for the instrument modules in a VXIbus mainframe or several mainframes See Resource Manager Local Processor The processor on an instrument module Logical Address The smallest functional unit recognized by a VXIbus system It is often used to identify a particular module Mainframe Card Cage For example the Tektronix VX1410 Mainframe an operable housing that includes 13 C size VXIbus instrument module slots Memory Device A storage element such as bubble memory RAM and ROM that has configuration registers and memory attributes such as type and access time Message A series of data bytes that are treated as a single communication with a well defined terminator and message body Message Based Device A VXlIbus device that supports VXI configuration and communication registers Such devices support the word serial protocol and possibly other message based protocols MODID L
114. eplacement modules in the same way as other replacement parts VX1410 IntelliFrame Common Replaceable Parts 8 2 Table 8 1 provides a quick reference list of parts that you are most likely to replace The table only provides a summary of information on the parts For more detailed information refer to the individual parts lists in this chapter Table 8 1 VX1410 IntelliFrame Common Replaceable Parts Tektronix Part Name Description Number Power Supply Power supply and power supply interface board 020 2116 XX Module Air Filter Air filter Woven Polypropylene black 0 125 thick 2 378 2075 XX layer vinyl edging Fuse Fuse cartridge 15A 250V Fast 159 0256 00 Fuse Fuse cartridge 20A 250V 5 Sec Min 9 159 0379 00 200 0 25 X 1 25 05 REC 326020 Fuse Fuse cartrilge 5MM X 20MM 250V 6 3A High Breaking 159 0381 00 capacity ceramic VDE Fuse Backplane Fuse cartridge 5 X 20MM 4 0A 250V 30 MIN MAX 159 0320 00 Bottom Card Baffle VXI Slot 0 040 AL Formed Sheet Metal with 378 2074 Guide with Shut Perforations ters Card Guide Guide Plastic Guide ECB VXI Molded Ckt Bd Guide VXI 351 0962 XX Form Factor VX1410 Fan Fan DC 48V TUBEAXIAL P rogrammable with Tach Out 119 4801 XX 15W 2500 RPM 170 CFM 48DBA 6 75 X 5 9 X 2 0 VX1410 IntelliFrame Instruction Manual Replaceable Parts Using the Replaceable Parts List This section contains a list of the mechanical and or electrical components tha
115. er temperature protection Short circuit protection Voltage Readout Readoutof 24 V 12 V 5 V 2 V 5 2 V 5 V External and 5 V Standby if present through VXIbus or RS 232 with Option 1M Voltage Readout Accuracy typical 3 1 If the VX1410 IntelliFrame is configured with Option 1D Delete Power Supply all product specifications in this table do not apply To be VXI compliant the power supply must adhere to the specifications of the VXI standard 2 If the VX1410 IntelliFrame is configured with Option 1D Delete Power Supply to maintain safe operation the power supply that provides power to the chassis should not exceed the lyp current ratings found under DC Current Capacity Iyp on page 4 2 The short circuit capacity of each voltage should not exceed 120 of the Imp rating The total power dissipation of the chassis with modules installed should not exceed 925 Watts VX1410 IntelliFrame Instruction Manual 4 3 Table 4 3 Cooling Characteristic Slot Thermal Capacity Description gt 130 W per slot with a 10 C rise Figure 4 1 on page 4 5 shows the cooling curve of the mainframe Cooling S ystem Forced air circulation positive pressurization with one removable filter Two internal DC fans provide cooling for the power supply and the 13 VXIbus module slots Fan Speed Control Slot Activation Slot Airflow Direction A rear panel switch chooses between full speed and variable speed
116. es Related Commands 3 50 Sets or queries the filter cleaning interval in hours The factory default setting is 4000 hours STATus QUEStionable FILTer TINTerval Time STATus QUEStionable FILTer TINTerval Time lt NRf gt 1 lt lt 65535 MIN MAX Query Response 65535 Not Applicable 222 Data Out of Range You attempted to set the filter cleaning time interval to an illegal value None Command STAT QUES FILT TINT 300 Query STAT QUES FILT TINT Response 300 STATus QUEStionable FILTer TREMaining STATus QUEStionable FILTer TRESet VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable FILTer TREMaining Returns the time for the next the filter cleaning cycle Syntax STATus QUEStionable FILTer TREMaining Parameters Parameter Query Response Not Applicable lt NR1 gt Reset Value Applicable Errors and Events Not Applicable Dependencies None Examples Query STAT QUES FILT TREM Response 300 Related Commands STATus QUEStionable FIL Ter TINTerval STATus QUEStionable FILTer TRESet VX1410 IntelliFrame Instruction Manual 3 51 STATus Subsystem STATus QUEStionable FiLTer TRESet Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 52 Resets the filter cleaning remaining time to the cleaning interval time You can also reset the filter cleaning time by
117. es the enable mask for the Service Request Status Byte Register Setting unused enable bits does not generate an error they are ignored The STATus PRESet command does not change this enable mask The VX1410 IntelliFrame accepts Non Decimal Numeric masks even though this is not required by IEEE 488 2 The factory default setting is 0 Syntax mask SRE Parameters Mask Query Response lt NRf gt Non Decimal Numeric lt NR1 gt 0 lt lt Standard Status Byte Definition Query Response DO NotUsed D1 NotUsed D2 Error E vent Queue D3 Questionable E vent R egister D4 MAV D5 ESB Standard Event Status Reg D6 Not Defined D7 Operation Event Register Reset Value Not Applicable Errors and Events None Dependencies None Examples Command SRE H60 Query SRE Response 96 Related Commands STB 3 126 VX1410 IntelliFrame Instruction Manual IEEE 488 2 Common Commands STB This query returns the contents of the Status Byte Register There is no command associated with this query Syntax STB Parameters Parameter Query Response Not Applicable NR1 Standard Status Byte Definition Definition DO NotUsed D1 Not Used D2 Error E vent Queue D3 Questionable E vent R egister D4 MAV D5 ESB Standard Event Status Reg D6 RQS MSS D7 Operation Event Register Reset Value Not Applicable Errors and Events None Dependencies None Examples Que
118. f Contents Figure 3 9 TEST Subsystem Hierarchy 3 109 Figure 3 10 VXIMonitor Subsystem Hierarchy 3 115 Figure 3 11 SCPI and IEEE Status and Event Registers 3 132 Figure 3 12 VXI Monitor Status Register 3 133 Figure 3 13 Voltage Status Register 3 134 Figure 3 14 Temperature Status Register 3 134 Figure 3 15 Blower Status 3 135 Figure 4 1 Mainframe Cooling 4 5 Figure 4 2 Front View and Side View of Standard VX1410 IntelliFrame 4 10 Figure 4 3 Front View and Side View of VX1410 IntelliFrame with Option 10 and Rackmount Option 4 11 Figure 4 4 Front View and Side View of VX1410 IntelliFrame with Option 20 and Rackmount Option 4 12 Figure 7 1 Removing the Fan Filter 7 3 Figure 7 2 Location of Fan Assembly Screws on the Rear of the Mainframe se sese MASA e EA e Satay 7 5 Figure 7 3 Removing the Fan Assembly 7 6 Figure 7 4 Removing the Fans 7 6 Figure 7 5 Removing the Monitor Board 7 1 Figure 7 6 Removing the Power Supply Interface Board 7 8 Figure 7 7 Removing the Top and Bottom Card Guides 7 10 Figure 7 8 Replacin
119. failed is reported A value of zero is returned if there were no failures There is no associated command for this query Syntax TEST RESu ts VERBose Parameters Parameter Query Response Not Applicable lt string gt error number lt NR1 gt 0 1000 N 1999 verbose message error specific Reset Value Not Applicable Errors and Events None Dependencies None Examples Query TEST RES VERB Response 1001 Test ADC and DAC failed Related Commands TEST TEST RESults 3 114 VX1410 IntelliFrame Instruction Manual E d samfil VXIMonitor Subsystem This section describes the commands and queries in the VXI Monitor subsystem Use the TINTerval command and query to specify or read the time interval that the VXI Monitor monitors the VXI bus Use the REPeat command to enable or disable the repeat mode and use the query to return the status of the repeat mode The VXIMonitor subsystem controls the parameters shown in Figure 3 10 VXIMonitor REPeat STATe TINTerval Figure 3 10 VXIMonitor Subsystem Hierarchy The VXIMonitor monitors the following VXI bus signals BERR SYSFAIL ACFAIL and AS Use the VXIMonitor commands to set or query the time interval that the VXI Monitor monitors the bus and how often to monitor the bus VX1410 IntelliFrame Instruction Manual 3 115 VXIMonitor Subsystem VXIMonitor REPeat VXIMonitor REPeat 3 116 Syntax Parameters Reset Value Errors and Even
120. format command parameter 00 8010101 300753 NR1 NR2 NRf discrete String Integers response parameter Decimal numbers response parameter Integer decimal or floating point number as well as MAX and MIN for setting the largest or smallest value the instrument allows command parameter A list of specific values command or response parameter Alphanumeric characters within quotation marks command or response parameter 0 1 15 1 2 3 141516 6 5 1 3E 1 MAX 2 6 P24 P5EXT N2 No error Parameter values that appear in this manual are often enclosed in curly braces separated by a vertical line This vertical line means the same thing as the word or For example values for the parameter Boolean are 0 1 OFF ON This is the same thing as saying 0 or 1 or OFF or ON Any single value is a valid parameter VX1410 IntelliFrame Instruction Manual 3 23 Syntax Message Terminator and Message Separator Entering Commands Command Characters Abbreviating Commands 3 24 In accordance with IEEE 488 2 and the V XIbus specification the VX1410 IntelliFrame accepts any of the following message terminators m LF END Linefeed code hexadecimal 0A with the END bit in the Byte Available command asserted m IF Linefeed code lt dab gt END Last data byte with the END bit in the Byte Available command asserted A semicolon separates one command f
121. g the Top and Bottom Nut Rails 7 11 Figure 7 9 Removing the Temperature Sense Board 7 12 Figure 7 10 Removing the Monitor Display 7 13 Figure 7 11 Removing the Backplane 7 15 Figure 7 12 Mainframe Block Diagram 7 19 Figure 8 1 Cabinet and Chassis Assembly 8 7 Figure 8 2 Circuit Boards and Chassis Parts 8 9 Figure 8 3 Power Supply and Fan Assembly 8 11 Figure 8 4 IR Rackmount Assembly 8 13 Figure 8 5 2R Rackmount and Door Assembly 8 15 Figure 8 6 Option 10 Cable Tray 8 17 Figure 8 7 Option 2U Cable Tray 8 19 Figure 8 8 Option 1M Enhanced 8 21 Figure 8 9 Option 2M Enhanced Monitor without front panel display 8 23 VX1410 IntelliFrame Instruction Manual Table of Contents Figure B 1 Power Switch Connectors Figure B 2 85 105 and 135 155 Jumper Location on the Standard Monitor Board Figure 3 Enhanced Monitor Board Jumpers Figure B 4 J20 and J21 Backplane Interface Connector Figure 5 Power Supply Interface Connector VX1410 IntelliFrame Instruction Manual B 7 Table of Contents List of Tables vi Table 1 1 Table 1 2 Table 1 3
122. ge 3 43 Reading this register does not clear it There is no command associated with this query STATus QUEStionable BLOWer CONDi tion Parameter Query Response Notapplicable lt NR1 gt Not Applicable None None Query STAT QUES BLOW COND Response 0 STATus QUEStionable BLOWer STATus QUEStionable BLOWer ENABle VX1410 IntelliFrame Instruction Manual 3 45 STATus Subsystem STATus QUEStionable BLOWer ENABle STATus QUEStionable BLOWer ENABle Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 46 Sets or queries the contents of the Blower Enable register Setting unused enable bits does not generate an error the bits are ignored Enabling bits in the register allows information from the Blower Event register to be passed on to the Questionable Event register If the power on status clear flag is FALSE see PSC command on page 3 124 at power on the register value will be restored from nonvolatile RAM otherwise the register value at power on is set to H7FFF Executing the STATus PRESet command sets the register value to H7FFF STATus QUEStionable BLOWer ENABle Mask STATus QUESt ionable BLOWer Mask Query Response Nondecimal Numeric NR1 0 lt N lt HFFFF Not Applicable 222 Data Out of Range You attempted to set the enable register to an illegal value None Command STAT QU
123. ginning of a program message starts from the root you have the option of beginning the initial command header with a colon VX1410 IntelliFrame Instruction Manual Syntax Combining Commands You can combine concatenate commands and queries using a semicolon The mainframe executes concatenated commands in the order it receives them When you concatenate queries the mainframe combines the responses into a single response message For example querying both the standard event status register and the error event queue in the same program message STATus OPERation SYSTem ERRor returns the response message 0 0 No errors If the command that follows the semicolon has a different header path from the root level you must use a colon to force a return to the root level SYSTem VERSion TEST RESult If the command that follows the semicolon has the same header path you may omit the colon and the path and state only the new leaf node This makes it possible for example to shorten the concatenated query SYSTem TIME LMAintenance SYSTem TIME ON into SYSTem TIME LMAintenance ON The 488 2 common commands that begin with an asterisk may be used anywhere in a command sequence with no effect on the command header path SYSTem VERS ion ESR returns 1995 0 16 You can combine commands and queries into the same message Note for example the following combination which sets the temperature limit and q
124. h If you decide to bypass the front panel On Standby switch you should configure the mainframe before installing the rackmount hardware Refer to Appendix B Special Configuration Options and then return to this section to continue the installation procedures If your mainframe has the Enhanced Monitor you can power on the mainframe through VXI and RS 232 commands If you apply external power to the Enhanced Monitor you can you can also power off the mainframe using RS 232 commands The procedures for installing the rackmount kits are nearly identical for the Option 1R and 2R kits You can install the Option 1R kit to either recess the mainframe from the front of the mainframe rack or to extend it out of the mainframe rack However you can only install the Option 2R kit so that the mainframe recesses into the rack The steps for installing the rackmount kits consist of installing the rackmount hardware to the mainframe and then installing the mainframe in the rack You will need the following tools to install the rackmount options m T 15 Torx Driver m 20 Torx Driver m 2 Phillips Screw Driver Refer to Figure 1 5 and perform the following steps to install the rackmount kit hardware 1 Remove the rubber feet from the mainframe 2 Determine whether you want to install the VX1410 IntelliFrame so that it extends out of the rack or is recessed within the rack If you want to extend the VX1410 IntelliFrame from the front of the
125. ht VX1410 IntelliFrame Instruction Manual 3 50 in 8 89 cm 16 6 in 42 16 cm 18 4 in 46 74 cm 4 9 Specifications Table 4 9 Mechanical Cont Characteristic Description Standard Mainframe 48 165 21 8 kg with no modules installed Rackmount Option 1R 18 Ibs 8 2 kg Rackmount Option 2R 20 165 9 1 kg Cable Tray Option 1U 4 Ibs 1 8 kg Cable Tray Option 2U 6 Ibs 2 7 kg Shipping Weight Standard Mainframe 100 Ibs 45 4 kg maximum with no modules installed Cable Tray Option 1U 8 Ibs 3 6 kg Cable Tray Option 2U 8 Ibs 3 6 kg Module Size 13 VXI slots The mainframe also accepts A size or B size modules using the 734 851 module Finish Tektronix smoke tan and graphite grey paint on an aluminum chassis 42 55 cm 60 96 cm 5 16 7 in 24 in A A nmm aes arc ge 9 Be E Reo oo 36 58 cm 14 4 in 33 6 cm 13 25 in Y 1 Y A A Figure 4 2 Front View and Side View of Standard VX1410 IntelliFrame 4 10 VX1410 IntelliFrame Instruction Manual Specifications I 48 0 cm 18 9 in 38 0 cm 15 00 in 40 0 cm 15 75 in 44 5 cm o aine EJ
126. ications Rev 1 4 VXI Plug amp Play compliant with the following DOS Framework 3 0 WIN Framework 3 0 GWIN Framework 3 0 Option 1M Enhanced Monitor 4 12 VXI Plug amp Play compliant with WIN Framework 3 0 VX1410 IntelliFrame Instruction Manual Performance Verification Use the steps in this chapter to verify that the VX1410 IntelliFrame operates properly The checks consist of checking the power supply voltages at the 25 pin Rear Panel Passive Monitor connector at the rear of the mainframe Equipment Required You will need the following equipment to complete the performance verification checks in this chapter m Digital Voltmeter Tektronix DM250 series digital voltmeter W Oscilloscope 20 MHz BW with 1X Probe with lt one inch ground lead Tektronix TDS400A or TDS500A series oscilloscope with a P6101B probe DC Voltage Regulation The DC voltage regulation can be verified by following the steps listed under Functional Check beginning on page 1 25 If your mainframe has the enhanced monitor Option 1M perform the additional following steps 1 Scroll through the various status messages on the front panel display and check that the display does not flash and that no failures appear 2 Compare the seven voltages that you measured under Functional Check on page 1 25 against the readouts of the voltages on the display 3 Verify that the voltage readings on the display are within 3 of the voltag
127. indicate that the VX1410 IntelliFrame detected a problem with the message exchange protocol Query errors set the query error bit in the Event Status register These errors may result when you attempt to read data from the output queue when no input is present or pending The errors may also occur when the data in the output queue is lost VX1410 IntelliFrame Instruction Manual Status and Events Table 3 20 VX1410 IntelliFrame Error and Event Codes Code 0 Message No error The error queue is empty Every error or eventhas been read or was purposely cleared 100 Command error 101 102 103 104 Invalid character Syntax error Invalid separator The parser detected an illegal separator character Data type error The parser recognized a data element different than the one allowed 108 109 110 112 Parameter not allowed More parameters than expected were received for the header Missing parameter Not enough parameters were received Command header error An error was detected in the header Program mnemonic too long The header has more than 12 characters 113 Unidentified header The header is undefined for the VX1410 IntelliF rame 120 141 144 Numeric data error Invalid character data The character data element contains an invalid character or the data was invalid for the header Character data too long The character element was more than 12 characters long
128. ines Module system identity lines Physical Address The address assigned to a backplane slot during an access Power Monitor A device that monitors backplane power and reports fault conditions P1 The top most backplane connector for a given module slot in a vertical mainframe such as the Tektronix VX1410 The left most backplane connector for a given slot in a horizontal mainframe P2 The bottom backplane connector for a given module slot in a vertical C size mainframe such as the VX1410 or the middle backplane connector for a given module slot in a vertical D size mainframe P3 The bottom backplane connector for a given module slot in a vertical D size mainframe VX1410 IntelliFrame Instruction Manual Glossary 5 Glossary Glossary 6 Query A form of command that allows for inquiry to obtain status or data READY Indicator A green LED indicator that lights when the power on diagnostic routines have been completed successfully An internal failure or failure of 5 V power will extinguish this indicator Register Based Device VX Ibus device that supports V XI register maps but not high level VXIbus communication protocols includes devices that are register based servant elements Requester A functional module that resides on the same module as a Master or Interrupt Handler and requests use of the DTB whenever its Master or Interrupt Handler requires it Resource Manager A VX Ibus device that provides configura
129. ion Manual Glossary C Size Card VXIbus instrument module that is 340 0 x 233 4 mm x 30 48 mm 13 4 x 9 2 in x 1 2 in Custom Device A special purpose V XIbus device that has configuration registers so as to be identified by the system and to allow for definition of future device types to support further levels of compatibility Data Transfer Bus One of four buses on the VMEbus backplane The Data Transfer Bus allows Bus Masters to direct the transfer of binary data between Masters and Slaves Delta Temperature The difference between the exhaust temperature of a given slot within the VX1410 IntelliFrame and the input air temperature Device Specific Protocol A protocol for communication with a device that is not defined in the VXIbus specification D Size Card VXIbus instrument module that is 340 0 x 366 7 mm x 30 48 mm 13 4 x 14 4 in x 1 2 in DTB See Data Transfer Bus DTB Arbiter A functional module that accepts bus requests from Requester modules and grants control of the DTB to one Requester at a time DUT Device Under Test ECLTRG Six single ended ECL trigger lines two on P2 and four on P3 that function as inter module timing resources and that are bussed across the V XIbus subsystem backplane Any module including the Slot 0 module may drive and receive information from these lines These lines have an impedance of 50 the asserted state is logical High Embedded Address An address in a commu
130. iption Command Groups Table 3 9 System Commands Cont Description Sets or queries the baud rate of the RS 232 port Sets or queries the number of bits per character in the RS 232 port Sets or queries the operation of the RTS and CTS lines Sets or queries whether incoming characters are echoed back to the RS 232 port Sets or queries whether error messages are automatically returned to the RS 232 port Sets or queries the state of the character buffer Sets or queries whether software flow control XON XOFF is enabled Sets or queries the type of parity for the RS 232 port Configures RS 232 port parameters to default values Configures the RS 232 port parameters for use with a computer Configures the RS 232 port parameters for use with a terminal Sets or queries the number of stop bits sent with each character Returns the last factory maintenance date Returns the next entry from the Error E vent queue Returns a comma separated list of all events stored in the Error Event queue Returns the next event code stored in the Error Event queue Returns a comma separated list of all event codes stored in Error Event queue Returns the number of unread events in the Error Event queue Header BAUD BITS CONTrol RTS ECHO ERESponse LBUFfer PACE PARi ty PRESet ALL RAW TERMi nal SBITs DATE LMAintenance ERRo
131. ister A value of one in a bit indicates the corresponding condition bit changed from false to true and that there may be a problem with one of the fans Unused bits always return a value of zero The register is cleared by the CLS command There is no command associated with this query Syntax STATus QUESt ionable BLOWer EVENt Parameters Parameter Query Response Not applicable lt NR1 gt Blower Status Word Bits Definition DO Blower 1 D1 Blower 2 D2 NotUsed D3 NotUsed D4 NotUsed D5 NotUsed D6 NotUsed D7 NotUsed D8 NotUsed D9 Not Used D10 Not Used D11 Not Used D12 Not Used D13 Not Used D14 NotUsed D15 Not Used Reset Value Not Applicable Errors and Events None VX1410 IntelliFrame Instruction Manual 3 43 STATus Subsystem Dependencies Reading the register clears it Examples Query STAT QUES BLOW Response 0 Related Commands STATus QUEStionable BLOWer CONDition STATus QUEStionable BLOWer ENABle 3 44 VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable BLOWer CONDition Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Returns the contents of the Blower Condition register A value of one in a bit indicates possible problems with one of the fans Unused always return a value of zero Definition of the bits in this register can be found under the STA Tus QUEStionable BLOWer command on pa
132. its sent with each character over the RS 232 port This command sets both the transmit and receive values SYSTem COMMunicate SERial RECeive SBITs Stop Bits SYSTem COMMuni cate SERial RECeive SBITs Stop Bits Query Response NRf NR1 1 1 2 2 MINimum 1 MAXimum 2 Not Applicable 222 Data Out of Range You attempted to set terminator to an illegal value None Command SYST COMM SER SBIT 2 Query SYST COMM SER SBIT Response 2 All SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual 3 87 System Subsystem SYSTem DATE LMAintenance Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 88 Queries for the last factory maintenance date There is no command associated with this query SYSTem DATE LMAintenance Parameter Query Response None lt year gt lt month gt lt day gt Not Applicable None None Query SYST DATE LMA Response 1995 3 10 SYSTem TIME LMAintenance VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem ERRor Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands This query returns the next entry from the Error Event queue This is an alias command with the STATus QUEue NEXT command There is no associated command for this query The Error Event queue is cleared at power up upon receipt of CLS
133. l C 3 Appendix C SCPI Conformance Information Table 1 SCPI Conformance Information Cont Not Defined In SCPI Command 1995 0 OPC PSC RST SRE STB TST WAI 4 VX1410 IntelliFrame Instruction Manual _ E Glossary The terms in this glossary are defined as used in the VXIbus System Although some of these terms may have different meanings in other systems it is important to use these definitions in VXIbus applications Terms which apply only to a particular instrument module are noted Not all terms appear in every manual Accessed Indicator An amber LED indicator that lights when the module identity is selected by the Resource Manager module and flashes during any I O operation for the module ACFAIL A VMEbus backplane line that is asserted under these conditions 1 by the mainframe Power Supply when a power failure has occurred either ac line source or power supply malfunction or 2 by the front panel ON STANDBY switch when switched to STANDBY A Size Card A VXIbus instrument module that is 100 0 x 160 mm x 20 32 mm 3 9 x 6 3 in x 0 8 in the same size as a VMEbus single height short module Asynchronous Communication Communications that occur outside the normal command response cycle Such communications have higher priority than synchronous communica tion Backplane The printed circui
134. le 222 Data Out of Range You attempted to set the transition filter to an illegal value None Command STAT QUES VOLT PTR H7FF7 Query STAT QUES VOLT PTR Response 32759 STATus QUEStionable VOLTage CONDition VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEue Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Returns the next event code and message in the Error Event queue The Error Event queue is cleared at power on or when you send the CLS command This is derived from the standard SCPI command The SYSTem ER Ror query is an alias There is no command associated with this query STATus QUEue NEXT Parameter Query Response Not Applicable lt NR1 gt lt string gt Not Applicable None None Query STAT QUE Response 221 Settings Conflict STATus QUEue ENABle SYSTem ERRor VX1410 IntelliFrame Instruction Manual 3 67 STATus Subsystem STATus QUEue ALL Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 68 Returns a comma separated list of all unread events from the Error Event queue The Error Event queue is cleared at power on or when you send the CLS command The SYSTem ERRor ALL query is an alias There is no command associated with this query STATus QUEue ALL Parameter Query Response Not Applicable NR 1 lt stri
135. le the password and to calibrate the VX1410 IntelliFrame SYST PASS VX1410 CAL 12 Check that the CAL query returns a value of zero to indicate no error has been detected during the calibration 13 Note the serial number on the rear panel of the mainframe 14 Send the following command to set up the serial number in the enhanced monitor SYST SER Bxxxxxx The value of Bxxxxxx is the serial number as noted from the rear of the mainframe 15 Use the front panel Next and Prev buttons to scroll through the delta temperature of the slots All delta temperatures should read 0 C 1 C 16 Power down the mainframe VX1410 IntelliFrame Instruction Manual Adjustment Procedures 17 This completes the calibration procedure The rest of this section describes the CALibration and SYSTem PASS word commands in detail VX1410 IntelliFrame Instruction Manual 6 3 Adjustment Procedures CALibration CALibration This a service related command The command calibrates the exhaust tempera ture of each slot While the mainframe executes the command the command sets the CALibrating bit in the Operation Status Condition register The query performs the same function as the command but it also returns a pass or fail response A return value of 0 means that the calibration has passed and a return value between 10 and 22 indicates a calibration failure in slots 0 through 12 Syntax CALibration ALL CALibration AL
136. located on the left rear of the mainframe see Figure 1 11 on page 1 21 for the location of the grounding screws i WARNING To avoid shock hazards when the mainframe is configured with VX1410 IntelliFrame Instruction Manual B 5 Appendix B Special Configuration Options 121 Or 2 V Sense 45V 35 V Sense Mo LT sav sens 5 V Sense RTN 2V Sense RTN O RTN O 12 V O 12 V 20 2V 5 2V SYSRESET ACFAIL No On Standby AL No Connection No Connection O RTN O 24 V 24V LO Figure B 4 J20 and J21 Backplane Interface Connector An alternate connection scheme would be to build a connector to connect to the P1 and P2 Power Supply Interface connectors Figure B 5 shows an example of the connector You can assemble a mating connector using parts from the AMPOWER Wave Crimp System AMP catalog number 82271 with four cable receptacles with eight signal lines You will need to assemble the cable recep tacle using a housing catalog number 765224 1 a strain relief catalog number 765238 1 ground contacts catalog part number 765209 1 and power contacts catalog part number 765209 2 B 6 VX1410 IntelliFrame Instruction Manual Appendix B Special Configuration Options RTN 5 V RRR No Connection Era N
137. lso have a commander VX1410 IntelliFrame Instruction Manual Glossary 7 Glossary Glossary 8 Test Monitor An executive routine that is responsible for executing the self tests storing any errors in the ID ROM and reporting such errors to the Resource Manager Test Program A program executed on the system controller that controls the execution of tests within the test system Test System A collection of hardware and software modules that operate in concert to test a target DUT TTLTRG Open collector TTL lines used for inter module timing and communication VXIbus Subsystem One mainframe with modules installed The installed modules include one module that performs slot 0 functions and a given complement of instrument modules The subsystem may also include a Resource Manager Word Serial Protocol A VXIbus word oriented bi directional serial protocol for communications between message based devices that is devices that include communication registers in addition to configuration registers Word Serial Communications Inter device communications using the Word Serial Protocol WSP See Word Serial Protocol 10 MHz Clock A 10 MHz 100 ppm timing reference Also see CLK10 100 MHz Clock A 100 MHz 100 ppm clock synchronized with CLK10 Also see CLK100 488 To V XIbus Interface A message based device that provides for communication between the IEEE 488 bus and VXIbus instrument modules VX1410 IntelliFrame I
138. m SYSTem COMMunicate SERial CONTrol RTS SYSTem COMMunicate SERial CONTrol RTS Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 80 Sets or queries the operation of the RTS CTS lines A value of OFF sets the outgoing RTS line low and ignores the incoming CTS line A value of ON sets the outgoing RTS line high and ignores the incoming CTS line A value of IBFull or RFR specifies that the two lines are used for hardware flow control SYSTem COMMunicate SERial CONTrol RTS Flow Control SYSTem COMMunicate SERial CONTrol RTS lt Flow Control gt Query Response IBFull RFR Not Applicable 224 Parameter Value You attempted to use an illegal parameter value None Command SYST COMM SER CONT RTS IBF Query SYST COMM SER CONT RTS Response IBF All SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem COMMunicate SERial ECHO SYSTem COMMunicate SERial ECHO Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries whether the incoming characters are echoed back to the RS 232 port SYSTem COMMunicate SERial ECHO lt Boolean gt SYSTem COMMunicate SERial ECHO lt Boolean gt Query Response lt NRf gt lt NR1 gt N 0 1 0 0 ON 1 OFF 0 Not Applicable None None Command SYST COMM
139. m PASSword CENable Password lt Password gt lt string gt NX1410 Query Response Not Applicable Not Applicable 221 Settings Conflict You attempted to send an invalid password None Command SYST PASS CEN VX1410 SYSTem PASSword CDISable VX1410 IntelliFrame Instruction Manual Adjustment Procedures SYSTem PASSword CENable STATe Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands This query returns whether the password protected commands are enabled dis abled Enabled commands return a value of 1 disabled return a value of 0 SYSTem PASSword CENable STATe Parameter Query Response Not Applicable Not Applicable None None Query SYST PASS STAT Response 1 SYSTem PASSword CDISable VX1410 IntelliFrame Instruction Manual 6 7 Adjustment Procedures SYSTem SERial SYSTem SERial Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 6 8 This command stores the serial number of the instrument in nonvolatile RAM The query returns the serial number previously stored The command converts all lower case characters in the serial number to upper case SYSTem SERial lt Serial Number gt SYSTem SERial Parameter Query Response string lt string gt The serial number must start with an alphabet ical character followed by
140. matched delay of under 8 ns CLK100 A 100 MHz 100 ppm individually buffered to each module slot differential ECL system clock that is sourced from Slot 0 and distributed to Slots 1 12 on P3 It is distributed to each module slot in synchronous with CLK10 as a single source single destination signal with a maximum system timing skew of 2 ns and a maximum total delay of 8 ns Commander In the VXIbus interface a device that controls another device a servant commander may be a servant of another commander Command A directive to a device There are three types of commands In Word Serial Protocol a 16 bit imperative to a servant from its com mander In Shared Memory Protocol a 16 bit imperative from a client to a server or vice versa In a Message an ASCII coded multi byte directive to any receiving device Communication Registers In word serial protocol a set of device registers that are accessible to the commander of the device Such registers are used for inter device commu nications and are required on all V XIbus message based devices Configuration Registers A set of registers that allow the system to identify a module device type model manufacturer address space and memory requirements In order to support automatic system and memory configuration the VXIbus standard specifies that all V XIbus devices have a set of such registers all accessible from P1 on the VMEbus VX1410 IntelliFrame Instruct
141. mber 161 0154 00 m Single wide EMI panel fillers Tektronix part number 333 4092 00 m Double wide EMI panel fillers Tektronix part number 333 4092 01 m EMI intermodule shields Tektronix part number 337 4041 X X m Backplane EMI DIN shields Tektronix part number 337 4057 XX Selecting the Correct Power Cord and Fuse The VX1410 IntelliFrame comes standard with two power cords and three fuses Before installing the mainframe you must determine the correct fuse and power cord for your application Use the following information to determine the appropriate power cord and line fuse for the VX1410 IntelliFrame This information is important to avoid overloading the power distribution system and to comply with the National Electrical Code For card cage loads in the nonshaded region of Figure 1 1 use the power cord with the 15 A plug Tektronix part number 161 0213 XX or the power cord with the 20 A plug Tektronix part number 161 0218 XX For high card cage loads combined with low input line voltages shaded region use only the power cord with the 20 A plug 1 6 VX1410 IntelliFrame Instruction Manual Getting Started Installation Site Considerations A Cable Tray Installation Select the proper fuse based on the ranges shown in Figure 1 1 Power Cord with 20A plug NEMA 5 20P ONLY Power Cord with 15A plug NEMA 5 15P Power Cord with 20A plug NEMA 5 20P Card Cage Power Consumption Watts 0 90 10 13
142. meter Query Response Not Applicable Not Applicable Not Applicable None None Command SYST NVR SYSTem NVSave VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem NVSave Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Saves device settings to nonvolatile RAM The settings will be restored at power on Table 3 17 lists the device settings that will be saved to nonvolatile RAM Table 3 18 NVSave Device Settings Device Settings DIS Play WINDow TEXT DATA SYSTem COMM unicate S ERial ECHO STATus 0PERation ENABle SYSTem COMMunicate SE ERial ERES ponse STATus OPERation VXIMonitor ENABle SYSTem COMMunicate S ERial LBUFfer STATus QUEStionable BLOWer ENABle SYSTem COMMunicate S ERial PACE STATus QUEStionable E NABle SYSTem COMMunicate SE Rial PAR ity STATus QUEStionable F ILTer TINTerval SYSTem COMMunicate S E Rial S BITs STATus QUEStionable TEMPerature ENABle SYSTem SYSReset STATus QUEStionable TE MP erature LIM it VX IMonitor TINTerval STATus QUEStionable VOLTage ENABle VXIMonitor R EP eat STATus QUEStionable VOLTage PTR ESE SYSTem COMMunicate S ERial BAUD PSC SYSTem COMMunicate SERial BITS SRE SYSTem COMMunicate S ER ial CONTrol RTS SYSTem NVSave Parameter Query Response Not Applicable Not Applicable Not Applicable None None Command SYST NVS SYSTem NVRecall VX1410 IntelliFrame Instruc
143. mmands 3 64 Sets or queries the contents of the Voltage Enable register Setting unused enable bits does not generate an error the bits are ignored If the power on status clear flag is FALSE see PSC command on page 3 124 at power on the register value will be restored from nonvolatile RAM otherwise the register value at power on is set to H7FFF Executing the STATus PRESet command sets the register value to H7FFF STATus QUEStionable VOLTage ENABle Mask STATus QUEStionable VOLTage ENABI e Mask Query Response lt NRf gt Nondecimal Numeric NR1 0 lt lt HFFFF Not Applicable 222 Data Out of Range You attempted to set the enable register to an illegal value None Command STAT QUES VOLT ENAB H3FFF Query STAT QUES VOLT ENAB Response 16383 STATus QUEStionable VOLTage STATus QUEStionable VOLTage CONDition STATus PRESet VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable VOLTage LE Vel Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Queries the current power supply output voltage There is no command associated with this query STATus QUEStionable VOLTage LEVel Power Supply Power Supply P24 12 5 P5STBY P5EXT N2 N5PT2 N12 N24 Query Response NR2 Code Power Supply P24 24 V P12 12 V P5 P5STBY 5 V Standby P5EXT 5 V
144. momentary switch through the connec tions of the 25 pin rear panel connector If you connect a remote switch to pins 5 and 18 return side of the 25 pin connector the remote switch and the front panel On Standby switch control the power on functions of the mainframe You can also disable the front panel switch and control the power on functions from the remote switch only The backplane has two connectors that control the power on functions If the front panel switch is connected to the backplane at J22 the switch controls the power on functions If the switch is connected to J23 the front panel switch is disabled however the light still illuminates when the mainframe is powered on To configure the mainframe to disable the front panel On Standby switch perform the following steps 1 Disconnect the power cord from the mainframe 2 Remove the cover from the mainframe 3 Referto Figure B 1 and locate the two connectors at the top of the back plane 4 Disconnect the On Standby switch cable at J22 and connect it to J23 VX1410 IntelliFrame Instruction Manual B 1 Appendix B Special Configuration Options 5 Replace the mainframe cover 6 Connect the momentary switch to pins 5 and 18 return side of the 25 pin rear panel connector Power Switch Connector lt Backplane 0 Figure B 1 Power Switch Connectors B 2 VX1410 IntelliFrame Instruction Manual Appendix B Special Configuration Optio
145. ncy contact your local Tektronix representative Cleaning procedures consist of exterior and interior cleaning of the mainframe and cleaning the fan filter Periodic cleaning reduces instrument breakdown and increases reliability Clean the mainframe as needed based on the operating environment Refer to your module user documentation for information on cleaning the individual VXIbus modules Use a dry low velocity stream of air to clean the interior of the mainframe Use a soft bristle brush for cleaning around components If you must use a liquid for minor interior cleaning use a 75 isopropyl alcohol solution and rinse with deionized water Clean the exterior surfaces of the mainframe with a dry lint free cloth or a soft bristle brush If any dirt remains use a cloth or swab dipped in a 75 isopropyl alcohol solution Use a swab to clean narrow spaces around controls and connectors Do not use abrasive compounds on any part of the mainframe VX1410 IntelliFrame Instruction Manual Maintenance CAUTION Avoid getting moisture inside the mainframe during exterior cleaning use just enough moisture to dampen the cloth or swab Do not wash the front panel On Standby switch Cover the switch while washing the mainframe Use only deionized water when cleaning Use a 75 isopropyl alcohol solution as a cleanser and rinse with deionized water Do not use chemical cleaning agents they may damage the mainframe Avoid chemicals tha
146. nd status lights see Figure 2 4 For information on the pinouts of the RS 232 connector refer to page 3 5 VX1410 IntelliFrame Instruction Manual Operating Basics 2 4 RS 232C Connector MONITOR BACKUP POWER SUPPLY LOGICAL ADDRESS Switches READY Light ulnis ACCESSED Light Figure 2 4 Rear View of the VX1410 IntelliFrame with Options 1M or 2M The Logical Address switches are available with the Enhanced Monitor these switches select the logical addresses for the Enhanced Monitor option The top switch sets the most significant digit and the bottom switch sets the least signif icant digit The green READY indicator lights after the power on diagnostics are complete and there are no failures During normal operation the light flashes if there is a pending error message Once all error messages have been retrieved the READY indicator stops flashing and remains on The amber ACCESSED indicator lights when the MODID line is accessed by the slot 0 device Refer to Enhanced Monitor Board Jumpers in Appendix B for information on the jumper MODID jumper positions An auxiliary power connector MONITOR BACKUP POWER SUPPLY allows you to apply 5 volts to the Enhanced Monitor board to provide RS 232 communication with a host computer while the mainframe is
147. ng gt Not Applicable None None Query STAT QUE ALL Response 221 Settings Conflict 224 Illegal Parameter Val STATus QUEue STATus QUEue ENABle VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEue CODE Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Returns the next event code from the Error Event queue The SYSTem ER Ror CODE query is an alias The Error Event queue is cleared at power on or when you send the CLS command There is no command associated with this query STATus QUEue CODE NEXT Parameter Query Response Not Applicable lt NR1 gt Not Applicable None None Query STAT QUE CODE Response 221 STATus QUEue STATus QUEue ENABle VX1410 IntelliFrame Instruction Manual 3 69 STATus Subsystem STATus QUEue CODE ALL Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 70 Returns a comma separated list of all unread events from the Error Event queue The SYSTem ERRor CODE ALL query is an alias The Error Event queue is cleared at power on or when you send the CLS command There is no command associated with this query STATus QUEue CODE ALL Parameter Query Response Not Applicable NR1 Not Applicable None None Query STAT QUE CODE ALL Response 221 224 STATus QUEue STATus QUEue
148. nications protocol in which the destination of the message is included in the message ESTST Extended STart STop protocol used to synchronize V XIbus modules VX1410 IntelliFrame Instruction Manual Glossary 3 Glossary Glossary 4 Extended Self Test Any self test or diagnostic power on routine that executes after the initial kernel self test program External System Controller The host computer or other external controller that exerts overall control over VXIbus operations IACK Daisy Chain Driver The circuit that drives the VMEbus Interrupt Acknowledge daisy chain line that runs continuously through all installed modules or through jumpers across the backplane ID ROM An NVRAM storage area that provides for non volatile storage of diagnostic data Instrument Module A plug in printed circuit board with associated components and shields that may be installed in a VXIbus mainframe An instrument module may contain more than one device Also one device may require more than one instrument module IntelliGuides The card guides used in the VX1410 IntelliFrame The card guides on the bottom of the mainframe shut off airflow when no modules are installed in the respective slots Interface Device A VXIbus device that provides one or more interfaces to external equipment Interrupt Handler A functional module that detects interrupt requests generated by Interrupters and responds to those requests by requesting status and id
149. nment Observe standard handling precautions for static sensitive devices while servicing the mainframe Always wear a grounded wrist strap or equivalent while servicing the mainframe Observe the following precautions to avoid damaging the mainframe m Do not handle static sensitive components on boards m Transport and store static sensitive boards in their original containers or on conductive foam Label any package that contains static sensitive assemblies m Wear a wrist strap attached to the mainframe while handling the boards to discharge the static voltage from your body m Do not allow anything capable of holding or generating a static charge on the work surface m Do not slide a board over any surface VX1410 IntelliFrame Instruction Manual 7 1 Maintenance Avoid handling boards in areas that have a floor or work surface cover that is capable of generating a static charge NOTE Always power off the mainframe and disconnect the power cord before cleaning or servicing the mainframe Inspection and Cleaning Interior Cleaning Exterior Cleaning 7 2 The mainframe is inspected mechanically and electrically before shipment It should be free of marks or scratches and should meet or exceed all electrical specifications To confirm this inspect the mainframe for physical damage incurred during transit Retain the mainframe packaging in case shipment for repair is necessary If there is damage or deficie
150. ns 8 10 and 13 15 Jumper on the Standard Monitor Board Jumper J11 on the Standard Monitor board allows you to further define the temperature sensitivity of the Temperature Sense board The jumper determines the maximum temperature rise in the mainframe Figure B 2 shows the jumper location on the Standard Monitor board The jumper is shipped in the 8 10 position You can move the jumper to the 13 15 position if there is a high temperature rise expected in the modules or when the ambient room temperature will not exceed the mainframe maximum temperature Moving the jumper to the 13 15 position reduces the fan speed and noise J umper 11 Location Monitor Board Figure 2 8 10 and 13 15 Jumper Location on the Standard Monitor Board VX1410 IntelliFrame Instruction Manual B 3 Appendix B Special Configuration Options Enhanced Monitor Board Jumpers The Enhanced Monitor Board has two jumpers accessible from the rear of the mainframe Figure B 3 shows the factory default settings of these jumpers loooo i olo 35V Standby sourced from Monitor Backup Power Supply Default 35V Standby sourced from P9 pins 8 amp 21
151. nstruction Manual Index A Accessed light 2 4 accessories optional 1 5 standard 1 4 adjustments 6 1 6 8 auxiliary power connector 2 4 backplane 1 2 7 14 7 16 7 18 jumpers 1 2 removing 7 14 7 16 specifications 4 9 baud rates 3 78 Blower Status register 3 134 3 135 Blower Status Word 3 43 3 53 brackets 3 24 C cable trays 1 2 1 3 1 7 1 11 CALibration 6 4 card guides 7 9 7 10 7 17 removing 7 9 7 10 chassis ground 2 2 cleaning exterior 7 2 fan filter 7 3 interior 7 2 cleaning procedures 7 2 7 3 CLS 3 119 command syntax 3 21 command error 3 136 command headers 3 22 commands entering 3 24 communication settings factory default 3 77 compliances plug amp play 4 12 VXI 4 12 configuration 1 19 EMI 1 22 connectors backplane 3 5 3 8 monitor backup power supply B 4 P1 3 6 P2 3 7 3 8 passive monitor 3 1 RS 232 3 4 cooling 1 2 4 4 fault isolation 7 17 7 18 cooling curve 4 5 VX1410 IntelliFrame Instruction Manual D device specific error 3 136 diagnostics 7 16 disassembly procedures 7 4 7 15 tools required 7 4 display assembly removing 7 13 Display board 7 20 DISPlay Subsystem 3 27 3 28 DISPlay WINDow TEXT DATA 3 28 E EMI configuration 1 22 enhanced monitor 1 3 1 12 3 9 enhanced monitor board 7 20 B 4 removing 7 7 environmental specifi
152. nt Not Defined In SCPI Command 1995 0 LEVel LIMit E 4 P MAXimum ae VOLTage EVENt CONDition ENABTe LEVel PTR QUEue NEXT ALL ae CODE NEXT ae ALL EM E COUNt ae ENABTe ALL y SCONdi tion ae SEVent SYSTem COMMunicate SERial RECeive BAUD RECeive BITS CONTrol RTS 7 ERESponse LBUFfer ae RECeive PACE RECeive PARity TYPE 7 PRESet ALL RAW TERMinal RECeive 5 1 5 al DATE LMAintenance ERRor ALL ps C 2 VX1410 IntelliFrame Instruction Manual Appendix C SCPI Conformance Information Table C 1 SCPI Conformance Information Cont Not Defined In SCPI Command 1995 0 CODE NEXT ALL COUNt ae 2 ALL HELP SYNTax 55 NVRecall NVSave lh PASSword CDISable CENable STATe POWer CYCLe 2 51 SOURCE ae SYSReset hc 4 LMAintenance ON ae VERSion TEST ALL 2 ae NUMber RESults CODE VERBose VXIMonitor REPeat ae STATE 2 ae TINTerval 2 ae IEEE 488 2 Common Commands CLS 2 ESR P IDN VX1410 IntelliFrame Instruction Manua
153. o Connection 2 V Sense RTN e lt 5 2 V Sense 45 V Sense 172 7 5 2 V Sense RTN XN AL IE 5 V Sense RTN 2V Sense 5 V 24 24 2 A 12V 12 V RTN 2 ACFAIL ore On Standby RTN 5 RTN No Connection 71 22 SYSRESET No Connection Ee RTN RTN 5 2 V Ww Figure B 5 Power Supply Interface Connector VX1410 IntelliFrame Instruction Manual B 7 a a Appendix C SCPI Conformance Information All commands the VX1410 IntelliFrame conform to SCPI Version 1995 0 Table C 1 lists all commands supported by the VX1410 IntelliFrame The columns at right show whether a command is defined in the SCPI 1995 0 Standard or not Table C 1 SCPI Conformance Information Not Defined In SCPI Command 1995 0 CALibration ALL DISPlay WINDow TEXT DATA 2 5 5 OPERation EVENt CONDition ENAB1e VXIMonitor EVENt 11 BERR ENABTe SYSFail PRESet QUEStionable EVENt BLOWer EVENt CONDi tion ENABTe ae SPEed ae CONDi tion ENABTe FILTer TINTerval TREMaining TRESet TEMPerature EVENt 2 CMAX imum EE CONDi tion ENABTe VX1410 IntelliFrame Instruction Manual Appendix C SCPI Conformance Information Table 1 SCPI Conformance Information Co
154. o a module by either replacing the module with an known good module or moving the module to a different slot Check the fuses in the mainframe and on the backplane Perform the procedures as described in Performance Verification beginning on page 5 1 to verify the power supply voltages are present and within the specified limits If the voltages are not present on the 25 pin connector at the rear of the mainframe try replacing either the power supply or the instru ment monitor board If any of the voltages are not within the specified limits replace the power supply Inadequate Cooling Cooling problems can be due to one or more of the following problems m Verify that the air filter is clean If not remove the air filter and clean it m One or both fans may not be operating properly Check that both fans rotate m Verify that each fan is properly connected to the monitor board see Figure 7 3 on page 7 6 W Check that both fans are working at their proper speeds m Verify that all of the IntelliGuides of empty slots within the mainframe are closed when no modules are installed If necessary replace the faulty assembly m Verify that the ribbon cable from the Temperature Sense board to the backplane is properly connected m Verify that all VXIbus modules have front panel that activate the Intelli Repackaging Instructions Guides shutters If you need to send the VX1410 IntelliFrame to a Tektronix field center for repair
155. ommands 3 25 command groups 3 13 3 20 command headers 3 22 command parameters 3 22 defined 3 21 message terminators and separators 3 24 white space characters 3 24 scroll keys 2 2 secondary power 4 2 self tests 3 109 service requests 3 127 service strategy 7 1 shutters See card guides slot fillers 1 20 specifications 4 1 4 12 AC power source 4 1 backplane 4 9 cooling 4 4 cooling curve 4 5 enhanced monitor 4 9 environmental 4 7 mechanical 4 9 safety 4 6 secondary power 4 2 SRE 3 126 standard monitor board 7 20 B 3 removing 7 7 5 V Standby jumpers B 4 static precautions 7 1 status and events 3 131 3 138 status byte 3 120 3 121 3 126 3 127 STATus subsystem 3 29 3 76 STATus OPERation 3 30 3 31 STATus OPERation CONDition 3 32 STATus OPERAtion ENABle 3 33 STATus OPERAtion VXIMonitor 3 34 3 35 STATus OPERAtion VXIMonitor ACFail 3 36 STATus OPERAtion VXIMonitor BERR AD DRess 3 37 STATus OPERAtion VXIMonitor ENABle 3 38 STATus OPERAtion VXIMonitor SYSFail TIME 3 39 STATus PRESet 3 40 STATus QUEStionable 3 41 3 42 STATus QUEStionable BLOWer 3 43 3 44 STATus QUEStionable BLOWer CONDition 3 45 STATus QUEStionable BLOWer ENABle 3 46 STATus QUEStionable BLOWer SPEed 3 47 STATus QUEStionable CONDition 3 48 STATus QUEStionable ENABle 3 49 STATus QUEStionable FILTer T
156. ommands Cont Header VOLTage Description Returns the contents of the Voltage Event register as a decimal number CONDi tion Returns the contents of the Voltage Condition register ENABTe LEVe1 PTR Sets or queries the contents of the Voltage Enable register Returns the current power supply output voltages Sets or queries the power supply positive transition filter QUEue NEXT ALL CODE ALL COUNt ENABTe ALL Returns the next event code and message from the Error Event queue Returns a comma separated list of all unread events from the Error E vent queue Returns the next event code from the Error E vent queue Returns a comma separated list of all unread event codes from the Error E vent queue Returns the number of unread events from the Error Event queue Sets or queries enable events to be placed in the Error Event queue Presets the Error E vent queue enable to 1999 1000 SCONdition SEVent System Commands Returns a summary condition of all monitors Returns summary information of all events in the mainframe Commands in the SYSTem subsystem program utility functions and return version information about the VX1410 IntelliFrame Detailed information on the SYSTem subsystem begins on page 3 77 Table 3 9 System Commands Header SYSTem COMMunicate SERial VX1410 IntelliFrame Instruction Manual Descr
157. ommands in the DISPlay subsystem display user defined messages on the front panel of mainframes with Option 1M only Note that Option 2M does not include a front panel display Detailed information on the DISPlay command and query begins on Page 3 27 Table 3 7 Display Commands Header Description DISPlay WINDow TEXT DATA Sets or queries user defined messages to display on the front panel readout Commands in the STATus subsystem along with several IEEE 488 2 Common Commands control the status and event reporting system Detailed information on the STATus subsystem begins on page 3 29 Table 3 8 Status Commands Header Description STATus OPERation Returns the contents of the Operation Event register as a decimal number CONDi tion Returns the contents of the Operation Condition register ENABle Sets or queries the contents of the Operation Event Enable register VXIMoni tor Returns the contents of the VXI Monitor E vent register VX1410 IntelliFrame Instruction Manual 3 13 Command Groups Table 3 8 Status Commands Cont Header Description ACFail Returns the time when the ACFAIL signal was asserted BERR Queries the VXI Bus Error address space 1 Sets or queries the contents of the VXI Monitor Enable register SYSFail Returns the time when the VXI SYSFAIL signal was asserted PRESet Presets the SCPI enable registers transition filters
158. or Event queue This is an alias command with the STATus QUEue CODE command The Error Event queue is cleared at power up upon receipt of the CLS command There is no associated command for this query SYSTem ERRor CODE NEXT Parameter Query Response Not Applicable lt NR1 gt Not Applicable None None Query SYST ERR CODE Response 221 STATus QUEue STATus QUEue ENABle STATus QUEue CODE VX1410 IntelliFrame Instruction Manual 3 91 System Subsystem SYSTem ERRor CODE ALL Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 92 Returns a comma separated list of all unread event codes from the Error Event queue This is an alias command with the STATus QUEue CODE ALL command The Error Event queue is cleared at power up upon receipt of the CLS command There is no associated command for this query SYSTem ERRor CODE ALL Parameter Query Response Not Applicable NR1 Not Applicable None None Query SYST ERR CODE ALL Response 221 224 STATus QUEue ALL STATus QUEue CODE ALL VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem ERRor COUNt Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Returns the number of unread events in the Error Event queue This is an alias command with the STATus QUEue COUNt command The Error Event
159. ower Supply Interface Board 7 8 VX1410 IntelliFrame Instruction Manual Maintenance Procedure 4 Removing card guides at the top and bottom of the mainframe are very similar The the Card Guides main difference is that the bottom guides IntelliGuides include the spring loaded shutters to redirect air into the mainframe The procedure for removing both guides is identical Refer to Figure 7 7 while performing the following steps 1 Usea small flat blade screw driver to pry up the tab of the card guide at the front of the mainframe being careful not to damage the card guide or the mainframe 2 Gently pull the card guide forward until it pops out of place 3 Remove the card guide NOTE The bottom card guides IntelliGuides are replaced as a unit The IntelliGuides are not intended to be disassembled To replace a card guide slide the card guide towards the rear of the mainframe and allow the front of the card guide to snap into place VX1410 IntelliFrame Instruction Manual 7 9 Maintenance GLP piri ys NON NST Ma NJ S Slide the card guides toward the rear of the mainframe and allow the front of the card guide to snap into place Gently pull the card guide VX1410 IntelliFrame Instruction Manual Figure 7 7 Removing the Top and Bottom Card Guides 7 10 Maintenance Procedure 5 Replacing nut rails at the top and the bottom of the front of the VX141
160. pect there is damage to this product have it inspected by qualified Suspected Failures service personnel Safety Terms and Symbols Terms in This Manual These terms may appear in this manual in injury or loss of life WARNING Warning statements identify conditions or practices that could result CAUTION Caution statements identify conditions or practices that could result in damage to this product or other property Terms on the Product These terms may appear on the product DANGER indicates an injury hazard immediately accessible as you read the marking WARNING indicates an injury hazard not immediately accessible as you read the marking CAUTION indicates a hazard to property including the product Symbols on the Product The following symbols may appear on the product 4 AN T DANGER Protective Ground ATTENTION Double High Voltage Earth Terminal Refer to Insulated Manual Certifications and Compliances Compliances Consult the product specifications for IEC Installation Category Pollution Degree and Safety Class X VX1410 IntelliFrame Instruction Manual P eT Service Safety Summary Do Not Service Alone Disconnect Power Use Care When Servicing With Power On Only qualified personnel should perform service procedures Read this Service Safety Summary and the General Safety Summary before performing any service procedures Do not perform internal service or adjustments of this produ
161. queue is cleared at power up upon receipt of the CLS command There is no associated command for this query SYSTem ERRor COUNt Parameter Query Response Not Applicable lt NR1 gt Not Applicable None None Query SYST ERR COUNt Response 3 STATus QUEue ALL STATus QUEue COUNt VX1410 IntelliFrame Instruction Manual 3 93 System Subsystem SYSTem ERRor ENABle SYSTem ERRor ENABle 3 94 Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the enable events to be placed in the Error Event queue The STATus QUEue ENABle and STATus QUEue ENABle commands are aliases Attempting to enable events that are not reported by the mainframe does not generate an error At power on when the power on status clear flag is true or when you send the STATus PRESet command the contents of the register is set to 499 0 SYSTem ERRor ENABle Event List SYSTem ERRor ENABTe Event List Query Response NRf numeric range NRf numeric range lt NR f gt numeric range NR f numeric range range is lt NRf gt lt NRf gt Not Applicable 222 Data Out of Range You attempted to set the enable list to an illegal value STATus PRESet Command SYST ERR ENAB 499 0 Query SYST ERR ENAB Response 499 0 STATus QUEue STATus PRESet SYSTem ERRor STATus QUEue ENABle
162. r ALL CODE ALL COUNt ENABTle ALL FACTory Sets or queries enable events to be placed in the Error Event queue Presets the Error E vent queue enable to 1999 1000 Sets the VX1410 IntelliF rame settings to the factory default values VX1410 IntelliFrame Instruction Manual Command Groups Table 3 9 System Commands Cont Header Description HELP SYNTax Returns the syntax of the specified command IEMessage Sends interface event messages between the VXI interface and the RS 232 port NVRecall Recalls device settings from nonvolatile RAM NVSave Saves device settings to nonvolatile RAM PASSword CDISable Disables the CALibrate command CENable Enables the CALibrate command 5 1 Queries if password protected commands are enabled POWer Powers the mainframe on or off The query returns whether the power is on or off CYCLe Queries the number of times the mainframe power has been cycled SOURce Queries the power source ofthe enhanced monitor SYSReset Sets or queries whether the VXI SYSRESET signal can resetthe enhanced monitor TIME LMAintenance Returns the number of hours the mainframe has been operating since the last factory maintenance 0N Returns the number of hours the mainframe has been operating since power on VERS ion Retums the SCPI version supported by the VX1410 IntelliF rame These commands are intend to be used onl
163. rack position the rackmount bracket as shown on the right side of Figure 1 5 If you want to recess the VX1410 IntelliFrame in the rack position the rackmount bracket as shown on the left side of Figure 1 5 3 Determine how far you want to recess or extend the VX1410 IntelliFrame and install the rackmount adapter as shown using two 8 32 screws included with the kit Similarly install the other bracket on the other side of the mainframe VX1410 IntelliFrame Instruction Manual Getting Started NOTE To comply with VXI Plug amp Play mounting specifications position the rackmount adapter at the mounting holes with the adjacent identifier keys See Figure 1 5 This results in 3 960 inches 10 06 cm from the module panel mounting surface to the rack frame mounting surface VXI Plug amp Play Position Key beh choke he Qf SG he t c CC ctt et Chee Ce Ce ke C eet e el oh hee hhh CE EG 664 ue lt lt SCC t lt lt cett ett Nc EAE te EEE CEE 2 Screws Handle Bracket C C t EE lt lt EE 4444 cet GC ctc bet OG o ELT CG GG C C c Ce 466 Ce C CC Cte GG AG COG CE GUC GOGOL CCC 6 Cet eC Ee ete Ce Ee SOC Cete CL tC ctt Cc cct OOO OO GC COU OLE GC Cr Ce C C Cet t 4 Oo Gilet OG OG OE Ct CE CK
164. rature Status register and the Blower Status register The Voltage Status register provides status information on the individual power supply voltages see Figure 3 13 You can detect problems with any one of the power supply voltages by monitoring the corresponding bit in the Voltage Status register If a problem occurs the corresponding bit will be set in the register VX1410 IntelliFrame Instruction Manual 3 133 Status and Events 3 134 VOLTage Status Registers 241 0 12 V 1 45V 2 5 V Standby 3 5 V External 4 STATus QUES tionable VOLTage EVENt 2V 5 STATus QUES tionable VOLTage C ONDition 52V 6 STATus QU EStionable VOLTage E NABle 12V 1 4V 8 Summary of VOLTage 9 10 1l 1 T 13 NotUsed 4 15 DELTAO DELTA1 DELTA2 DELTA3 DELTA4 DELTAS DELTA6 DELTA7 DELTA8 DELTA9 DELTA10 DELTA11 DELTA12 AMBIENT Not Used Figure 3 13 Voltage Status Register The Temperature Status register provides status information on the delta temperature for each slot in the mainframe see Figure 3 14 You can detect temperature problems with any one of the mainframe slots by monitoring the corresponding bit in the Temperature Status register If a problem occurs the corresponding bit will be set in the register TEMPerature Status Registers 2 3 4 STATus QUEStionable TE
165. re when ordering parts it is important to include the following information in your order W Part number see Part Number Revision Level below m Instrument type or model number m Instrument serial number Instrument modification number if applicable If you order a part that has been replaced with a different or improved part your local Tektronix field office or representative will contact you concerning any change in part number Change information if any is located at the rear of this manual Tektronix part numbers contain two digits that show the revision level of the part For most parts in this manual you will find the letters XX in place of the revision level number Part Number Revision Level Revision Level May Show as XX A A 670 7918 03 670 7918 XX When you order parts Tektronix will provide you with the most current part for your product type serial number and modification if applicable At the time of your order Tektronix will determine the part number revision level needed for your product based on the information you provide VX1410 IntelliFrame Instruction Manual 8 1 Replaceable Parts Module Servicing Modules can be serviced by selecting one of the following three options Contact your local Tektronix service center or representative for repair assistance Module Repair and Return You may ship your module to us for repair after which we will return it to you New Modules You may purchase r
166. rom another when the commands appear on the same line See Entering Commands The standards that govern the command set for the VX1410 IntelliFrame allows for a certain amount of flexibility when you enter command For example you can abbreviate many commands or combine commands into one message that you send to the mainframe This flexibility called friendly listening saves programming time and makes the command set easier to remember and use The mainframe is not sensitive to the case of command characters You can enter commands in either upper or lower case You can precede any command with white space characters White space characters include a space or any combination of the ASCII control characters hexadecimal 00 through 1F except for the character 0A new line You must however use at least one space between the parameter and the command header Most commands have a long form and a short form The listing for each command in this section shows the abbreviations in upper case For example you can enter the query SYSTem ERRor simply as SYST ERR or syst err The brackets around a mnemonic indicate that the mainframe assumes this level of the command header by default It is not necessary therefore for this mnemonic to appear as part of the header when you send the command For example you can abbreviate the command STATus OPERational EVENt to STAT OPER Because the mainframe assumes that a command at the be
167. rors and Events Dependencies Examples Related Commands 3 78 Sets or queries the baud rate of the RS 232 port This command sets the transmit and receive baud rates SYSTem COMMunicate SERial RECeive BAUD Baud Rate SYSTem COMMuni cate SERial RECeive BAUD Baud Rate Query Response lt NRf gt lt NR1 gt 300 300 600 600 1200 1200 2400 2400 4800 4800 9600 9600 19200 19200 MINimum 300 MAXimum 19200 Not Applicable 222 Data Out of Range You attempted to set the baud rate to an illegal value None Command SYST COMM SER BAUD 4800 Query SYST COMM SER BAUD Response 4800 All SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem COMMunicate SERial BITS SYSTem COMMunicate SERial BITS Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Sets or queries the number of bits per character in the RS 232 port SYSTem COMMunicate SERial RECeive BITS Bits SYSTem COMMunicate SERial RECeive BITS Bits Query Response NRf NR1 1 1 8 8 MINimum 7 MAXimum 8 Not Applicable 222 Data Out of Range You attempted to set the bits per character value to an illegal value None Command SYST COMM SER BITS 8 Query SYST COMM SER BITS Response 8 All SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual 3 79 System Subsyste
168. ry STB Response 96 Related Commands SRE VX1410 IntelliFrame Instruction Manual 3 127 IEEE 488 2 Common Commands TST This query initiates an internal self test and returns a failure code If more than one failure occurred only the the unique numeric identifier of the first self test that failed is reported A value of zero is returned if there were no failures Each internal self test has a unique identifier in the range of 1000 to 1999 TST and TEST are identical queries There is no command associated with this query You can obtain additional test results with the TEST RESult VER Bose command Syntax TST Parameters failure code Query Response Not Applicable NR1 0 1000 lt N lt 1999 Reset Value Not Applicable Errors and Events None Dependencies None Examples Query TST Related Commands 3 128 Response 0 TEST TEST RESults VERBose VX1410 IntelliFrame Instruction Manual IEEE 488 2 Common Commands WAI Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands This command is used to synchronize command execution with the controller There is no query associated with this command WAI prevents the instrument from executing further commands until the previous command has completed execution WAI None Not Applicable None None Command WAI OPC VX1410 IntelliFrame Instruction M
169. s 3 96 NVRecall Device Settings 3 100 NVSave Device Settings 3 101 VX1410 IntelliFrame Self Test 3 109 VX1410 IntelliFrame Error and Event Codes 3 137 Power Source 4 1 Secondary Powerl 2 42 Cooling ee ES 4 4 Satetyl 2 eee tob di des 4 6 Environmental 4 7 Electromagnetic Compatibility EMC 1 4 8 2 Backplane 252122222 2 poe Beene 4 9 Display System Option IM 4 9 Mechanical 2 222 Aen aes SEN E en 4 9 VXI and Plug amp Play 4 12 VX1410 IntelliFrame Instruction Manual Table of Contents Table 5 1 DC Load Ripple and Noise Check 5 2 Table 6 1 PC RS 232 Settings for the Calibration Procedure 6 2 Table 7 1 22 22 2222 ee eee 7 16 Table 8 1 1410 IntelliFrame Common Replaceable Parts 8 2 Table C 1 SCPI Conformance Information C 1 VX1410 IntelliFrame Instruction Manual vii ae General Safety Summary Injury Precautions Use Proper Power Cord Avoid Electric Overload Ground the Product Do Not Operate Without Covers Use Proper F
170. s Related Commands 3 60 Queries the maximum measurable temperatures in the mainframe since the last factory maintenance was performed the returned value is in C There is no command associated with this query STATus QUEStionable TEMPerature MAXimum Location Location AMBient OUTO OUT12 DELTa0 DELTa12 Query Response lt NR1 gt AMBient ambient input temperature OUTO OUT12 output temperature of each slot DELTaQ DELTa12 output temperature minus input temperature of each slot Not Applicable 224 Illegal Parameter Value You attempted to use an illegal parameter value None Query STAT QUES TEMP MAX AMB Response 32 STATus QUEStionable TEMPerature LE Vel STATus QUEStonable TEMPerature CMAXimum VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable VOLTage Syntax Parameters Reset Value Errors and Events Returns the contents of the Voltage Event register A value of one in a bit indicates the corresponding power supply failure event has been asserted Unused bits always return a value of zero The register is cleared by the CLS command There is no command associated with this query STATus QUEStionable VOLTage EVENt Parameter Query Response Notapplicable NR1 Voltage Status Word Bits Definition DO 24 V D1 12 V D2 D3 5 V Standby D4 5 V Externa D5 2V D6 52V D7 12V
171. s None Dependencies Reading the register clears it VX1410 IntelliFrame Instruction Manual 3 53 STATus Subsystem Examples Query STAT QUES TEMP Response 0 Related Commands STATus QUEStionable TEMPerature CONDition STATus QUEStionable TEMPerature ENABle 3 54 VX1410 IntelliFrame Instruction Manual STATus Subsystem STATus QUEStionable TEMPerature CMAXimum Queries the current maximum temperatures in the mainframe since power on The returned value is in C There is no command associated with this query Syntax STATus QUEStionable TEMPerature CMAXimum Location Parameters Location Query Response AMBient OUTO OUT12 ELTaO lt 1 gt DELTa12 AMBient ambient input temperature OUTO OUT12 output temperature of each slot DELTaO DELTa12 output temperature minus input temperature of each slot Reset Value Not Applicable Errors and Events 224 Illegal Parameter Value You attempted to use an illegal parameter value Dependencies None Examples Query STAT QUES TEMP DELTA12 Response 10 Related Commands STATus QUEStionable TEMPerature LE Vel STATus QUEStionable TEMPerature MA Ximum VX1410 IntelliFrame Instruction Manual 3 55 STATus Subsystem STATus QUEStionable TEMPerature CONDition Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 56 Queries the contents of th
172. s errors occurred only the first BERR address space will be saved If there are no errors the query returns NONE At power on the value is set to NONE There is no command associated with this query STATus OPERation VXIMoni tor Parameter Query Response Not Applicable 16 A24 A32 NONE Not Applicable None None Query STAT OPER VXIM BERR Response NONE STATus OPERation VXIMonitor ENABle STATus OPERation V XIMonitor VX1410 IntelliFrame Instruction Manual 3 37 STATus Subsystem STATus OPERation VXIMonitor ENABle STATus OPERation VXIMonitor ENABle Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 38 Sets or queries the contents of the VXI Monitor Enable register Setting unused enable bits does not generate an error the bits are ignored If the power on status clear flag is FALSE see PSC command on page 3 124 at power on the register value will be restored from nonvolatile RAM otherwise the register value at power on is set to H7FFF Executing the STATus PRESet command sets the register value to H7FFF STATus OPERation VXIMonitor ENABle Mask STATus OPERation VXIMoni tor ENAB e Mask Query Response lt NRf gt Nondecimal Numeric NR1 0 lt lt HFFFF Not Applicable 222 Data Out of Range You attempted to set the enable register to an illegal value None Command STAT OPER
173. s of timed and matched delay lines connect slot 0 and each of slots 1 through 12 in a mainframe The delay between slots is less than 5 ns and the lines are well matched for timing skew STARY Two 2 bi directional 50 Q differential ECL lines that provide for inter module asynchronous communication These pairs of timed and matched delay lines connect slot 0 and each of slots 1 through 12 in a mainframe The delay between slots is less than 5 ns and the lines are well matched for timing skew STST S Tart S Top protocol used to synchronize modules SYNC100 A Slot 0 signal that is used to synchronize multiple devices with respect to a given rising edge of CLK100 These signals are individually buffered and matched to less than 2 ns of skew Synchronous Communications A communications system that follows the command response cycle model In this model a device issues a command to another device the second device executes the command then returns a response Synchronous commands are executed in the order received SYSFAIL A signal line on the VMEbus that is used to indicate a failure by a device The device that fails asserts this line System Clock Driver A functional module that provides a 16 MHz timing signal on the Utility Bus System Hierarchy The tree structure of the commander servant relationships of all devices in the system at a given time In the VXIbus structure each servant has a commander A commander may a
174. sions requirements of FCC 47 CFR Part 15 Subpart B Class A equipment 1 If the VX1410 IntelliFrame is configured with Option 1D Delete Power Supply all product specifications in this table do not apply To be VXI compliant the power supply must adhere to the specifications of the VXI standard VX1410 IntelliFrame Instruction Manual Specifications Table 4 7 Backplane Characteristic Bus Grant Interrupt Acknowledge VXIbus CLK10 Distribution Description Solid state auto configuring jumperless Full differential Table 4 8 Display System Option 1M Characteristic Display Type Display Resolution Table 4 9 Mechanical Characteristic Overall Dimensions Standard Mainframe Height with feet Width Depth Description 3 74 in x 0 20 in 95 mm x 5 mm Fluorescent Indicator Module One line by 20 alphanumeric characters implemented in a 5 x 7 dot matrix with cursor underline Description 14 4 in 36 58 cm 16 7 in 42 55 cm 24 in 60 96 cm Mainframe with Rackmount Height Width Depth Cable Tray Option 1U 14 0 in 35 56 cm 18 9 in 48 01 cm 26 4 in 67 06 cm to 31 4 in 79 76 cm in 0 5 in 1 27 cm increments user selectable See Figure 4 3 for overall mainframe dimensions Height Width Depth 1 75 in 4 45 cm 16 6 in 42 16 cm 18 4 in 46 74 cm Cable Tray Option 2U See Figure 4 4 for overall mainframe dimensions Height Width Depth Weig
175. sipation of the chassis with modules installed should not exceed 925 Watts 4 6 VX1410 IntelliFrame Instruction Manual Specifications Table 4 5 Environmental Characteristic Classification Atmospherics Temperature Operating Nonoperating Description The VX1410 IntelliF rame is suitable for operation in the Tektronix and MIL T 28800E Type Ill Class 5 Style E or F environments as specified in this table Meets the limits stated in MIL T 28800E for Type IIl Class 5 0 C to 55 C derated 1 C 1000 ft 305 m above 5000 ft 1524 m 40 C to 75 C Relative Humidity Operating Nonoperating Altitude Operating Up to 95 at up to 30 C and up to 45 atup to 55 C Up to 95 at up to 55 C 15 000 ft 4570 m Operating temperature derated 1 C 1000 ft 305 m above 5000 ft 1524 m Nonoperating Dynamics Random Vibration 40 000 ft 12 190 m Three axis 30 minutes total 10 minutes per axis Operating 0 27 gnus total from 5 Hz to 500 Hz Nonoperating Mechanical Shock Operating User Bench Handling Operating 2 28 Gams total from 5 Hz to 500 Hz Half sine 30 g 11 ms duration three drops each side 18 shocks total Meets functional shock requirements of MIL T 28800E Type lll Class 5 Each edge lifted four inches and allowed to free fall onto a solid wooden bench surface Rear face exempted 1 If the VX1410 IntelliFrame is configured with Option 1D Delet
176. struction Manual Getting Started Configuration After installing the mainframe you are ready to configure it for your applications If you have not already done so install your VXIbus modules in the mainframe following the installation guidelines for your VXIbus module NOTE If some VXI modules do not install fully into the mainframe it may be necessary to remove the shutter and spring from the card guide For some double wide modules it may be convenient to remove only one of the shutters instead of disassembling the shutter To remove the card guides refer a qualified service person to Procedure 4 Removing the Card Guides beginning on page 7 9 in the Maintenance chapter Module Selection and The VX1410 IntelliFrame is UL listed to UL 3111 1 and CAN CSA C22 2 Design Guidelines No 1010 1 and is IEC 1010 1 compliant You should use VXIbus modules with the mainframe that are listed or designed to limit electric shock and fire m Investigate the possibility of fire hazards due to the availability of power from the mainframe exceeding 150 W per slot Use similar considerations for VXIbus Modules that externally receive power greater than 150 W per slot Printed wiring boards should be flame rated UL 94V 1 or better m prevent possible electrical shock limit the voltage to the mainframe interface or chassis to less than 60 VDC 30 Vrms or 42 4 W Ensure that temperature measuring inputs provide a means of limi
177. t are replaceable for the VX 1410 IntelliFrame Instrument Use this list to identify and order replacement parts The following table describes each column in the parts list Parts List Column Descriptions Column Description Figure amp Index Number Items in this section are referenced by figure and index numbers to the exploded view illustrations that follow Tektronix Part Number Use this part number when ordering replacement parts from Tektronix Serial Number Column three indicates the serial number at which the part was first effective Column four indicates the serial number at which the part was discontinued No entries indicates the partis good for all serial numbers Qty This indicates the quantity of parts used Name amp Description An item name is separated from the description by a colon Because of space limitations an item name may sometimes appear as incomplete Use the U S Federal Catalog handbook H6 1 for further item name identification 7 Mfr Code This indicates the code of the actual manufacturer of the part 8 Mfr Part Number This indicates the actual manufacturer s or vendor s part number Abbreviations Abbreviations conform to American National Standard ANSI Y 1 1 1972 Mfr Code to Manufacturer The table titled Manufacturers Cross Index shows codes names and addresses Cross Index of manufacturers or vendors of components listed in the parts list VX1410 IntelliFrame Instruction
178. t board that is mounted in a VXIbus mainframe to provide the interface between V XIbus modules and between those modules and the external system B Size Card VXIbus instrument module that is 233 4 x 160 mm x 20 32 mm 9 2 x 6 3 in x 0 8 in the same size as a VMEbus double height short module Bus Arbitration In the VMEbus interface a system for resolving contention for service among VMEbus Master devices on the VMEbus Bus Timer A functional module that measures the duration of each data transfer on the Data Transfer Bus DTB and terminates the DTB cycle if the duration is excessive Without the termination capability of this module a Bus Master attempt to transfer data to or from a non existent Slave location could result in an infinitely long wait for the Slave response VX1410 IntelliFrame Instruction Manual Glossary 1 Glossary Glossary 2 Butch Plate A connector plate that optionally connects to the rear of the cable tray options The plate can be modified to accept cable connectors thus reducing the number of cables under the VX1410 IntelliFrame Client In shared memory protocol SMP that half of an SMP channel that does not control the shared memory buffers CLK10 10 MHz 100 ppm individually buffered to each module slot differential ECL system clock that is sourced from Slot 0 and distributed to Slots 1 12 on P2 It is distributed to each module slot as a single source single destination signal with a
179. t contain benzene toluene xylene acetone or similar solvents Cleaning the Fan Filler fan filter easily removes from the rear of the mainframe The filter slides out of the rear of the mainframe as shown in Figure 7 1 57 SE MS 235 2 53 29 DUX 9 9 5 Figure 7 1 Removing the Fan Filter Clean the fan filter by vacuuming or blowing air through the filter Rinse the filter in cool water and dry it before replacing it in the mainframe If your mainframe has the enhanced monitor Option 1M or 2M you can reset the filter cleaning interval with the VXIplug amp plug soft front panel by sending the STATus QUEStionable FILTer TRESet command If you mainframe has the front panel display Option 1M only you can also reset the filter cleaning interval by scrolling to the air filter cleaning time and simultaneously pressing both the NEXT and PREV buttons VX1410 IntelliFrame Instruction Manual 7 3 Maintenance Removal and Replacement AN Tools Required Procedure 1 Remove Fan 7 4 Assembly The following procedures describe how to remove and replace module level components of the VX 1410 IntelliFrame Refer to the exploded view illustra tions in Replaceable Parts for an overview of the assembly and disassembly of the mainframe WARNING To avoid electric shock always power off the mainframe and disconnect the power cord before cleaning or ser
180. ted typical Warranted characteristics are directly checked by procedures contained in the Performance Verification chapter beginning on page 5 1 these characteristics are listed in boldface under the Characteristics column If the characteristic is noted as typical the characteristic is not warranted Typical characteristics describe typical or average performance and provide useful reference information Table 4 1 AC Power Source Characteristic Source Voltage Source Frequency Power Consumption Description 90 Vnus to 250 Vrms continuous range 45 Hz to 440 Hz continuous range 115 V operation 45 Hz to 66 Hz 230 V operation 1350 W line power maximum Fuse Rating 90 V 132 V Operation 103 V 250 V Operation 207 V 250 V Operation 0 25 in x 1 25 in Slow Blow 20 A 250 V 0 25 in x 1 25 in FastBlow 15 A 250 V 5 mm x 20 mm FastBlow 6 3 A 250 V Inrush Surge Current 70 A maximum Input Current Power Factor Correction Power Disconnect 15 A maximum at 90 Vg us 6 3 A maximum at 207 Yes Front Panel On Standby Rear panel connection allows for remote operation Power cord provides main power disconnect The On Standby switch can be disabled for remote operation With Option 1M the mainframe can be powered on or off under program control 1 If the VX1410 IntelliFrame is configured with Option 1D Delete Power Supply all product specifications in this table do not apply To be
181. the unused bits are ignored If the power on status clear flag is FALSE see PSC command on page 3 124 at power on the register value will be restored from nonvolatile RAM otherwise the register value at power on is set to 0000 Executing the STATus PRESet command sets the register value to 0000 STATus OPERation ENABle Mask STATus OPERat ion ENABTe Mask Query Response lt NRf gt Nondecimal Numeric lt NR1 gt 0 lt N lt HFFFF Not Applicable 222 Data Out of Range You attempted to set the mask to an illegal value None Command STAT OPER ENAB H0100 Query STAT OPER ENAB Response 256 STATus OPERation STATus OPERation CONDItion STATus PRESet VX1410 IntelliFrame Instruction Manual 3 33 STATus Subsystem STATus OPERation VXIMonitor 3 34 Syntax Parameters Reset Value Errors and Events Dependencies Queries the contents of the VXI Monitor Event Register A value of one in a bit indicates the corresponding condition bit changed from false to true Unused bits always return a value of zero The register is cleared by the CLS command There is no command associated with this query STATus OPERation VXIMonitor EVENt Parameter Query Response Notapplicable NR1 VXI Monitor Event Word Bits Definition DO BERR Occurred D1 SYSFAIL Occurred D2 ACFAIL Occurred D3 AS Missing D4 NotUsed D5 NotUsed D6 NotUsed D7 NotUsed D8 NotUse
182. ting unintended voltages that may reach the mainframe interface or chassis to less than 60 VDC 30 Vrms or 42 4 VX1410 IntelliFrame Instruction Manual 1 19 Getting Started Install Empty Slot Panel If you have any unused empty slots in your mainframe you may install the Fillers empty slot Panel Fillers Install either the single wide or double wide fillers that came with your mainframe Use only Tektronix front panels otherwise the shutters may activate effectively robbing airflow from installed modules Installing the fillers provides improved cooling for installed modules improved EMI shielding and more accurate air temperature sensing to control the fan speeds Refer to Figure 1 10 for information on installing the slot fillers Re 2 LE S e Double Panel Fillers Aue PE Figure 1 10 Installing the Empty Slot Panel Fillers Single Panel Fillers 1 20 VX1410 IntelliFrame Instruction Manual Getting Started Safety and Chassis The left rear of the VX1410 IntelliFrame has a connection point for the chassis Grounds ground see Figure 1 11 The safety ground screw must always be in place to ensure the proper bonding of the power supply to the mainframe You can use the chassis ground connection to connect the grounds of one or more instruments to the mainframe This ensures a common ground connection between instruments
183. tion Manual STATus Subsystem STATus QUEStionable TEMPerature LIMit STATus QUEStionable TEMPerature LIMit Sets or queries the maximum allowable ambient and delta temperatures in each slot The factory default settings are 55 C for ambient and 10 C for each delta temperature Syntax QUEStionable TEMPerature LIMit lt Location gt lt Limit gt STATus QUEStionable TEMPerature LIMit Location Location AMBient DELTaO DELTa12 Query Response lt NR1 gt AMBient ambient input temperature DELTaQ DELTa12 output temperature minus input temperature of each slot lt Limit gt lt NRf gt If Location is AMBient 1 lt Limit lt 55 MIN MAX If Location is DELTan 5 lt Limit lt 30 MIN MAX Reset Value Not Applicable Errors and Events 224 Illegal Parameter Value You attempted to set the location to an illegal value 222 Data Out of Range You attempted to set the temperature limit to an illegal value Dependencies None Examples Query STAT QUES TEMP LIM AMB Response 55 Related Commands STATus QUEStionable TEMPerature STATus QUEStionable TEMPerature CONDition STATus QUEStionable TEMPerature ENABle STATus QUEStionable TEMPerature LE Vel VX1410 IntelliFrame Instruction Manual 3 59 STATus Subsystem STATus QUEStionable TEMPerature MAXimum Syntax Parameters Reset Value Errors and Events Dependencies Example
184. tion Manual 3 101 System Subsystem SYSTem POWer SYSTem POWer Powers the mainframe on or off Use the query to determine if the mainframe is powered on or off Syntax SYSTem POWer STATe Boolean SYSTem POWer STATe Parameters Boolean Query Response lt NRf gt lt NR1 gt N 0 1 0 0 ON 1 OFF 0 Reset Value Not Applicable Errors and Events 224 Illegal Parameter Value You attempted to set the parameter to an illegal value Dependencies None Examples Command SYST POW ON Query SYST POW Response 1 Related Commands None 3 102 VX1410 IntelliFrame Instruction Manual System Subsystem SYSTem POWer CYCLe Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Returns the number of times the mainframe power has been cycled since the mainframe was manufactured SYSTem POWer CYCLe Parameter Query Response Not Applicable NR1 Not Applicable None None Query SYST POW CYCL Response 50 None VX1410 IntelliFrame Instruction Manual 3 103 System Subsystem SYSTem POWer SOURce Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 104 Queries whether the power source of the Enhanced Monitor is from the mainframe power supply or from an external power supply SYSTem POWer SOURce Query Response MAIN EXTERNAL
185. tion management services such as address map configuration determining system hierarchy allocating shared system resources performing system self test diagnostics and initializing system commanders Self Calibration A routine that verifies the basic calibration of the instrument module circuits and adjusts this calibration to compensate for short and long term variables Self Test A set of routines that determine if the instrument module circuits will perform according to a given set of standards A self test routine is per formed upon power on Servant A VXIbus message based device that is controlled by a commander Server A shared memory device that controls the shared memory buffers used in a given Shared Memory Protocol channel Shared Memory Protocol A communications protocol that uses a block of memory that is accessible to both client and server The memory block operates as a message buffer for communications Slot 0 Controller See Slot 0 Module Also see Resource Manager VX1410 IntelliFrame Instruction Manual Glossary Slot 0 Module VXIbus device that provides the minimum V XIbus slot 0 services to slots 1 through 12 CLK10 and the module identity lines but that may provide other services such as CLK100 SYNC100 STARBUS and trigger control SMP See Shared Memory Protocol STARX Two 2 bi directional 50 Q differential ECL lines that provide for inter module asynchronous communication These pair
186. to mount cable connectors at the rear of the cable trays Both cable tray options can be installed three different ways as shown in the following illustrations In each example place the mainframe upside down or on one of the sides on a clean working surface and follow the instructions in the illustrations To install the cable trays you need a T 15 and a T 20 Torx Driver Figure 1 2 on page 1 9 shows how to install Option 1U to provide a cable tray depth of 1 75 inches Similarly you can install Option 2U to provide a cable tray depth of 3 5 inches Figure 1 3 on page 1 10 shows how to install Option 2U to provide a cable tray depth of 4 25 Similarly you can install Option 1U to provide a cable tray depth of 2 5 inches Figure 1 4 on page 1 11 shows how to install Option 2U to provide a cable tray depth of 6 0 inches Similarly you can install Option 1U to provide a cable tray depth of 4 25 inches You can modify the butch plate to accept cable connectors at the rear of the mainframe Specific instructions for modifying the butch plate are not given since the locations types and size of connectors vary with each application 1 8 VX1410 IntelliFrame Instruction Manual Getting Started 9 1 Remove 4 feet 2 Loosen 4 outside screws 3 Remove 2 rails 6 Install butch plate a optional Install cable tray and tighten 4 screws G Cc Figure 1 2 Installing the Option
187. to the specifications of the VXI standard VX1410 IntelliFrame Instruction Manual Specifications 1 25 1 00 0 75 A Pressure across module mm H50 0 50 0 25 0 00 0 2 4 6 8 10 12 14 16 Note Proposed VXI 8 Cooling Methods Airflow through module 1 5 Figure 4 1 Mainframe Cooling Curve VX1410 IntelliFrame Instruction Manual 4 5 Specifications Table 4 4 Safety 2 Characteristic Safety Certification Description The VX1410 IntelliF rame complies with the requirements of UL3111 1 IEC 1010 1 and CAN CSA 22 2 No 1010 1 EN 61010 1 Safety requirements for electrical equipment for measurement control and laboratory use Does notinclude mainframes shipped as Option 1D Delete Power Supply Characteristics Installation Category II Pollution Degree 2 Safety Class 1 If the VX1410 IntelliFrame is configured with Option 1D Delete Power Supply all product specifications in this table do not apply To be VXI compliant the power supply must adhere to the specifications of the VXI standard 2 If the VX1410 IntelliFrame is configured with Option 1D Delete Power Supply to maintain safe operation the power supply that provides power to the chassis should not exceed the lyp current ratings found under DC Current Capacity in Table 4 2 on page 4 2 The short circuit capacity of each voltage should not exceed 120 of the lyp rating The total power dis
188. ts Dependencies Examples Related Commands Sets or queries the repeat mode of the VXI Monitor When the repeat mode is on the VXI Monitor continuously monitors the V XI bus When the repeat mode is off the VXI Monitor monitors the VXI bus for the specified time interval The factory default setting is OFF 0 VXIMonitor REPeat Boolean VXIMoni tor REPeat Boolean lt NR1 gt N 520 0 ON OFF Not Applicable 221 Settings Conflict Query Response lt NR1 gt 1 0 1 0 You attempted to set the interval while the VXI Monitor was executing None Command VXIM REP ON Query Response VXIMonitor TINTerval VX1410 IntelliFrame Instruction Manual VXIMonitor Subsystem VXIMonitor STATe VXIMonitor STATe Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands Starts or stops the VXI Monitor The query returns whether the VXI Monitor is running VXIMonitor STATe Boolean VXIMonitor STATe Boolean Query Response lt NR1 gt lt NR1 gt N40 1 0 0 ON 1 OFF 0 0 213 Init Ignored You sent INITiate while the VXI Monitor was already monitoring the VXI bus None Command VXIM STAT 1 Query VXIM STAT Response 1 VXIMonitor TINTerval VXIMonitor REPeat VX1410 IntelliFrame Instruction Manual 3 117 VXIMonitor Subsystem VXIMonitor TINTerval VXIMonitor TINTerval Sets or queries the
189. ture rises fan speeds and other VXIbus system activity via the VXIbus or a rear RS 232 interface The Option 1M also includes a 20 character alphanumeric display on the front panel with scroll keys for manual viewing for mainframe status Options and Upgrade Kits Table 1 1 lists the VX1410 IntelliFrame options and upgrade kits that you can purchase and install separately Contact your local Tektronix representative for information on the upgrade kits Table 1 1 VX1410 IntelliFrame Options and Upgrade Kits Description Option Part Number Rackmount Kit with Rack Slides 1R 020 2117 XX Rackmount Kit with Rack Slides and Lexan Door 2R 020 2118 XX Rackmount Kit without Rack Slides and Lexan Door 020 2136 XX Cable Tray Kit 10 020 2119 Cable Tray Kit 2U 020 2120 XX Enhanced Monitor Kit 1M 040 1480 XX Enhanced Monitor Kit without front panel display 2M 040 1581 XX Delete Power Supply 1D VX1410 IntelliFrame Instruction Manual 1 3 Getting Started Standard Accessories 1 4 1410 IntelliFrame comes with the following standard accessories VX1410 IntelliFrame Instruction Manual One single slot panel filler Tektronix part number 333 4170 00 Six double slot panel fillers Tektronix part number 333 4169 00 Two Power cords voltage range and plug type varies according to country see Table 1 2 Line fuse 15 A 250 V Line fuse 20 A 250 V Line fuse 6 3 A 250 V VXI Plug amp Play Floppy disk Se
190. uction Manual Replaceable Parts Figure 8 2 Circuit Boards and Chassis Parts 8 9 VX1410 IntelliFrame Instruction Manual Replaceable Parts Replaceable Parts List Fig amp Index TektronixPart Serial Serial No Mfr Number Number Effective Discontd Qty amp Description Code Mfr PartNumber POWER SUPPLY AND FAN ASSEMBLY 3 1 211 0501 00 2 SCREW MACHINE 6 32 X 0 125 PNH STL CD PL POZ 73803 ORDER BY DESC 2 337 4053 00 1 SHIELD EMI MONITOR ECB SST SHIELD MONITOR ECB amp 80009 337405300 PANEL 3 346 0128 00 1 STRAP TIEDOWN E 0 1 W X 8 0 LNYLON 06383 2 4 407 4331 00 1 BRACKET 0 062 ALUM SHEET MOUNTS MONITOR ECB 80009 407433100 410 5 214 3903 01 2 SCREW J ACK 4 40 X 0 312 EXT THD 4 40 INT THD 0 188 OKBOl 214 3903 01 HEX STEEL CADPLATE 6 671 3217 00 1 CIRCUIT BD ASSY STANDARD MONITOR 80009 671321700 7 211 0747 00 4 SCREW MACH 6 32 X 0 188 PNH STL CDPL T 15 0KB01 ORDER BY DESC 8 020 2116 01 1 COMPONENT KIT POWER SUPPLY POWER SUPPLY 80009 020211601 INTERFACE BOARD KIT 9 200 4207 00 1 COVER 0 050 AL COVER ECB PWR SPLY I F SHEET METAL 80009 200420700 MOUNT PWRSPLY I F ECB TO PWR SPLY VX1410 10 212 0158 00 7 SCREW MACHINE 8 32 X 0 375 PNH STL CDPL T 20 0KB01 ORDER BY DESC 11 671 3216 00 B010100 B019999 1 CIRCUIT BD ASSY POWER SUPPLY INTERFACE 80009 671321600 11 671 3216 01 B020100 1 CIRCUIT BD A
191. ueries to verify the setting status questionable temperature limit AMBient 25 limit AMBient VX1410 IntelliFrame Instruction Manual 3 25 aa Sm DISPlay Subsystem This section describes the commands in the DISPlay Subsystem which only applies to mainframes with Option 1M Please note that Option 2M does not include a display Use the DISPlay subsystem to display user defined messages on the front panel Figure 3 6 lists the DISPlay subsystem parameters DISPlay WINDow TEXT DATA Figure 3 6 DISPlay Subsystem Hierarchy VX1410 IntelliFrame Instruction Manual 3 27 DISPlay Subsystem DISPlay WINDow TEXT DATA DISPlay WINDow TEXT DATA Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 28 Sets or queries the user defined message to be displayed on the front panel readout of the mainframe You can display up to 20 characters in the message The string SYSTEM OK is the default factory message This message only displays when there are no monitor failures DISPlay WINDow TEXT DATA lt String gt lt Block gt DISPlay WINDow TEXT DATA Parameter Query Response String String Block Not Applicable 223 Much Data You attempted to send too much data to the display 220 Parameter Error You attempted to send nonprinting data in the block parameter None Command DISP TEXT SYSTEM INIT
192. us QUEStionable TEMPerature ENABle Mask QUEStionable TEMPerature lt Mask gt Query Response lt NRf gt Nondecimal Numeric lt NR1 gt 0 lt N lt HFFFF Not Applicable 222 Data Out of Range You attempted to set the enable register to an illegal value None Command STAT QUES TEMP ENAB H7FFF Query STAT QUES TEMP ENAB Response 32767 STATus QUEStionable TEM Perature STATus QUEStionable TEMPerature CONDition STATus PRESet VX1410 IntelliFrame Instruction Manual 3 57 STATus Subsystem STATus QUEStionable TEMPerature LEVel Returns the current temperatures in the mainframe the returned value is in C There is no command associated with this query Syntax STATus QUEStionable TEMPerature LEVel Location Parameters Location Query Response AMBient OUTO OUT12 ELTaO lt NR1 gt DELTa12 AMBient ambient input temperature OUTO OUT12 output temperature of each slot DELTaO DELTa12 output temperature minus input temperature of each slot Reset Value Not Applicable Errors and Events 224 Illegal Parameter Value You attempted to use an illegal parameter value Dependencies None Examples Query STAT QUES TEMP LEV OUTO Response 24 Related Commands STATus QUEStionable TEMPerature STATus QUEStionable TEMPerature CONDition STATus QUEStionable TEMPerature EN ABle 3 58 VX1410 IntelliFrame Instruc
193. use Do Not Operate in Wet Damp Conditions Do Not Operate in Explosive Atmosphere Review the following safety precautions to avoid injury and prevent damage to this product or any products connected to it Only qualified personnel should perform service procedures To avoid fire hazard use only the power cord specified for this product To avoid electric shock or fire hazard do not apply a voltage to a terminal that is outside the range specified for that terminal This product is grounded through the grounding conductor of the power cord To avoid electric shock the grounding conductor must be connected to earth ground Before making connections to the input or output terminals of the product ensure that the product is properly grounded To avoid electric shock or fire hazard do not operate this product with covers or panels removed To avoid fire hazard use only the fuse type and rating specified for this product To avoid electric shock do not operate this product in wet or damp conditions To avoid injury or fire hazard do not operate this product in an explosive atmosphere Product Damage Precautions Use Proper Power Source Provide Proper Ventilation Do not operate this product from a power source that applies more than the voltage specified To prevent product overheating provide proper ventilation VX1410 IntelliFrame Instruction Manual ix General Safety Summary Do Not Operate With If you sus
194. vels necessary for the most demanding ATE applications The power supply has a volt ampere capacity of 1660 VA but only 872 watts is usable by VXI instrument modules at any one time see Appendix A Power Budget Worksheet The mainframe accommodates exclusively digital applications exclusively analog applications or combinations of both The power supply plugs directly into the rear of the mainframe and has no cables to disconnect Because of this the power supply can easily be replaced in less than three minutes keeping downtime to a minimum The power supply automatically sets the ranges for the appropriate input voltage and frequency no mechanical switch is required to select the correct line voltage You can order the VX1410 IntelliFrame without a power supply Option 1D This option allows you to power the mainframe from an external power supply NOTE If you order your mainframe with Option ID all safety electrical and environmental specifications no longer apply for the mainframe VX1410 IntelliFrame Instruction Manual 1 1 Getting Started Intelligent Cooling Backplane Optional Rackmounts and Cable Trays The VX1410 IntelliFrame provides optimal cooling for all installed modules The mainframe uses an intelligent adaptive cooling scheme to efficiently remove heat while maintaining quiet operation The mainframe monitors the temperature rise above each slot and automatically adjusts the fan speed to keep the
195. vicing the mainframe The following tools are required to disassemble the VX1410 IntelliFrame to the module level Small flat blade screwdriver Diagonal cutters for removing cable ties Torx screw driver with a T 15 and T 20 tip A 3 32 inch Allen wrench hex wrench To remove the fan assembly refer to Figure 7 3 and Figure 7 4 while perform ing the following steps 1 From the back of the mainframe remove the four 8 32 screws using a 3 32 inch Allen wrench refer to Figure 7 2 for the screw locations Remove the Safety Ground screw and the Chassis Ground screw using a T 20 tip if installed Gently pivot the fan assembly outward from the mainframe far enough to access the fan cables on the right side of the mainframe Unplug the fan cables and set the fan assembly aside on a clean working surface Remove the fan filter from the fan assembly if you need to replace one of the fans To remove the two fans remove the three 6 32 screws with a T 15 driver holding each fan to the inside of the fan assembly as shown in Figure 7 4 Remove the cable tie holding the fan cables to the fan VX1410 IntelliFrame Instruction Manual Maintenance NOTE When reconnecting the fan cables to the mainframe verify that you connect the fan cables to their respective connectors Match the labels on the fan cables to their respective connector on the rear of the mainframe
196. vironment 3 Remove all modules from the VX1410 IntelliFrame 4 Install the empty slot panel fillers to close off the 13 slots of the mainframe if necessary refer to Install Empty Slot Panel Fillers on page 1 20 for instructions on installing the slot fillers 5 Power on the VX1410 IntelliFrame and let it run for five minutes 6 While you are waiting for the mainframe to warm up execute the Microsoft Terminal program The Microsoft Terminal program is located in the Accessories folder for the default setup of Microsoft Windows VX1410 IntelliFrame Instruction Manual 6 1 Adjustment Procedures 6 2 7 Connect an RS 232 cable between the COM port on the PC and the RS 232 connector at the rear of the VX1410 IntelliFrame Refer to Table 3 14 on page 3 77 for a list of the factory default RS 232 settings 8 Select the Communications command from the Settings menu of the Terminal program and select the appropriate COM port for example COMI or 2 from the dialog box 9 Refer to Table 6 set up the PC RS 232 port configurations The RS 232 settings must match those of the mainframe Table 6 1 PC RS 232 Settings for the Calibration Procedure RS 232 Parameter Setting Baud Rate 9600 Data Bits 8 Stop Bits 1 Parity None Flow Control Xon Xoff 10 Make sure that the mainframe has had at least five minutes to warm up before continuing this procedure 11 Send the following commands to enab
197. voltage for example from an external battery Maximum of 1 A total pins 8 and 21 combined 22 Gnd Logic G round 23 ACFAIL Backplane ACFAIL signal output If you use this pin do not violate the VXIbus electrical specifications keep the extender cable as short as possible 3 2 VX1410 IntelliFrame Instruction Manual Reference Table 3 1 Passive Monitor Connector Pinouts Cont Pin Description 24 Logic Ground 25 Reserved for Standard Monitor Request Service signal Enhanced Monitor Options 1M and 2 5 To monitor only use a probe with greater than 1 MQ impedance By momentarily grounding this line the mainframe will toggle from on to off or vice versa The state changes on the falling edge of the signal Hold the signal low for at least 500 ms before releasing Attach only a momentary switch or an open collector device to drive this line The line is pulled up to 1 V internally 3 For Option 1M and 2M If you use pins 8 and 21 5 VB to supply 5 V Standby to the backplane make sure that the rear panel jumper is in the correct position refer to Enhanced Monitor Board Jumpers in Appendix B Refer to VMEbus Specification Manual for details on using the ACFAIL and SYSRESET signals 5 For Options 1M and 2M the RSV signal is equivalent to the IEEE 488 1 SRQ signal The signal is asserted 0 when an enable event is generated the signal is unasserted 1 when the event is cleared by reading the ev
198. ws the command header for the leaf node indicated in Figure 3 3 5 QUEStionable ENABle Root Node J A W Y Header P ath Leaf Node J Y Command Header Figure 3 4 Command Header You must include values for commands that have parameters In this manual the symbols enclose the parameter type when stating the syntax of the com mand For example the syntax of the command in Figure 3 5 includes the lt NRf gt parameter type STATus OPERation ENABle lt NRf gt Parameter Type Space Figure 3 5 Command Header with Parameter VX1410 IntelliFrame Instruction Manual Syntax NOTE Do not include the lt gt or symbols when entering the actual value for a parameter Separate multiple parameters after a command header with a comma For example STATus QUEStionable TEMPerature LIMit DELTal 30 Table 3 13 defines the command and response parameter types for the VX1410 IntelliFrame Table 3 13 Parameter Types for Syntax Descriptions Parameter Type Boolean Block Description Boolean number or value command parameter response returns a 1 or 0 A specified length of block formatted data command parameter Example ONor1 OFF or 0 2 12XXXXXXXXXXXX where 2 indicates that the following 2 digits 12 specify the length of the following block data Nondecimal numeric Integers in hex H octal 0 or binary 8
199. y by qualified service personnel while servicing the instrument VX1410 IntelliFrame Instruction Manual Command Groups Test Commands Commands in the TEST subsystem execute the internal self tests of the VX1410 IntelliFrame Detailed information on the TEST subsystem begins on page 3 109 Table 3 10 Test Commands Header Description TEST ALL Executes all internal self tests once The query returns the test results NUMBer Executes a test the query returns the test result RESuTts Returns the failure code for the last self test command that was executed VERBose Returns a failure code as a string describing the last executed self test command and the test results VXI Monitor Commands Commands in the VXIMonitor subsystem control parameters that relate to the VXIbus Detailed information on the VXIMonitor subsystem begins on page 3 115 Table 3 11 VXI Monitor Commands Header Description VXIMonitor REPeat Sets repeat mode of the VXI monitor STATe Starts or stops the VXI monitor TINTerval Sets the time interval that the VXI monitor the VXIbus 3 18 VX1410 IntelliFrame Instruction Manual Command Groups IEEE 488 2 Commands The VX1410 IntelliFrame supports the following IEEE 488 2 common commands Detailed information on the command begins on page 3 119 Table 3 12 IEEE 488 2 Common Commands Header Description CLS Clears the SCPI and IE
200. ystem Subsystem SYSTem COMMunicate SERial LBUFfer SYSTem COMMunicate SERial LBUFfer Sets or queries whether the RS 232 line buffer is enabled If the buffer is enabled all input characters are buffered until a newline character J or is received Then all characters are available for processing You can use special characters to modify the input before the newline character is received For example for a backspace character use H for a line delete character use U If you enable the line buffer mode the output character will be converted to OxOA OxOD and the input character will be converted to An Syntax SYSTem COMMunicate SERial LBUFfer Boolean SYSTem COMMuni cate SERial LBUFfer Parameters Boolean Query Response lt NRf gt lt NR1 gt Nz0 1 0 0 ON 1 OFF 0 Reset Value Not Applicable Errors and Events None Dependencies None Examples Command SYST COMM SER LBUF OFF Query SYST COMM SER LBUF Response 0 Related Commands All SYSTem COMMunicate SERial commands VX1410 IntelliFrame Instruction Manual 3 83 System Subsystem SYSTem COMMunicate SERial PACE SYSTem COMMunicate SERial PACE Syntax Parameters Reset Value Errors and Events Dependencies Examples Related Commands 3 84 Sets or queries whether software flow control pacing is enabled for the RS 232 port This command sets both the transmit and rec
Download Pdf Manuals
Related Search
STATus:QUEStionable:TEMPerature?