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ICS MODEL VXI-5534 VXI-5534 QUAD SERIAL INTERFACE MODULE MODEL VXI-5534 VXI Quad Serial Interface Module Instruction Manual 1-1 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
MODEL VXI-5534 VXI Quad Serial Interface Module Instruction Manual ICS ICS ELECTRONICS division of Systems West Inc. 473 Los Coches Street, Milpitas, CA 95035 Phone (408) 263-5500, Fax (408) 263-5896 Publication Number April 1996 Edition Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
LIMITED WARRANTY Within 12 months of delivery, ICS Electronics will repair or replace this product, at our option, if any part is found to be defective in materials or workmanship (labor is included). Return this product to ICS Electronics, or other designated repair station, freight prepaid, for prompt repair or replacement. Contact ICS for a return material authorization (RMA) number prior to returning the product for repair.
Contents 1 SPECIFICATIONS ....................................................................................................... 1-1 1.1 DESCRIPTION ................................................................................................... 1-1 1.1.1 VXI-5534 Multifunction Interface Module ............................................. 1-1 1.1.2 VXIbus Description ................................................................................. 1-2 1.1.2.1 1.1.2.2 1.1.2.3 1.1.2.4 1.1.2.5 1.
1.2.7 Configuration Commands ..................................................................... 1-10 1.2.8 Front Panel Indicator ............................................................................. 1-11 1.2.9 Physical .................................................................................................. 1-11 1.3 ACCESSORIES ................................................................................................ 1-11 1.3.1 Supplied Accessories ................................
3.5 PROGRAMMING GUIDELINES .................................................................... 3-10 3.5.1 3.5.2 3.5.3 3.5.4 3.5.5 3.5.6 3.5.7 3.6 Setting the Baud Rate ............................................................................ 3-10 Sending Data ......................................................................................... 3-11 Using the Trigger Buffers ...................................................................... 3-11 Receiving Data .................................
6 PARTS LIST AND LOCATION ................................................................................. 6-1 6.1 6.2 INTRODUCTION ............................................................................................... 6-1 REPLACEMENT PARTS................................................................................... 6-1 6.2.1 Standard Parts .......................................................................................... 6-1 6.2.2 Special Parts ....................................
TABLES 1-1 1-2 1-3 VXIBUS GLOSSARY .................................................................................................... 1-4 VXIBUS IEEE 488.2 COMMAND LIST ....................................................................... 1-7 CHANNEL CONFIGURATION COMMANDS .......................................................... 1-10 2-1 2-2 SERIAL INTERFACE PIN ASSIGNMENTS ............................................................... 2-5 RS-232/RS-423 JUMPERS ....................................
1 Specifications 1.1 DESCRIPTION 1.1.1 VXI-5534 Quad Serial Interface Module The VXI-5534 Quad Serial Interface Module provides four separate serial interfaces in a single wide VXI module. Each interface has its own logical address and can be independently programmed or addressed for data transfers. Each serial interface operates in a command mode or data mode. In the command mode, the serial interfaces accept configuration commands and status queries.
1.1.2 VXIbus Description 1.1.2.1 VXIbus Objectives The goal of the VXIbus Consortium is to create an open industry standard for modular instruments by defining interoperability between vendors, mechanical and environmental requirements, EMC compatibility, system initialization and software communication protocols. The physical portion of the VXIbus specification was adapted from the existing VME bus specification (IEEE-STD 1014). VXI is an acronym for “VME bus Extensions for Instrumentation.
1.1.2.3 VXIbus System Configurations VXIbus systems utilize a chassis with a backplane and a common power supply. Modules plug into the chassis from the front and communicate to each other over the backplane. The left most slot in each chassis is labeled slot 0 and it is reserved for the system or chassis controller. Modules in the other slots are servants to the system controller but can also be controllers and have their own servants.
TABLE 1-1 VXIBUS GLOSSARY Commander: A VXIbus device that has VME bus master capability and may have VXIbus servants under it in the system hierarchy. A Commander may act as a Servant to another Commander. A Commander must be message based. Servant: A VXIbus device (with or without VME bus master capability) that is under control of a Commander in the VXIbus system hierarchy. A Servant may also be a Commander to other Servants. A Servant may be either message or register based.
1.2 DETAIL SPECIFICATIONS The following specifications apply in general to all VXI-5534 modules. 1.2.1 Model Number Designation VXI-5534 -X General Model Number Option Code(s) -1 Special crystal frequency -3 Special paint -7 Special program -8 Hardware modification -M memory expansion to 40 Kbytes/channel VXI Quad Serial Module 1.2.
1.2.3 VXIbus Word Serial Commands The VXI-5534 supports the following word serial commands: Standard I4 Word Serial Commands Abort Normal operation Begin Normal operation Byte Available .
1.2.5 VXIbus IEEE 488.2 Common Commands The VXI-5534 supports the VXIbus IEEE 488.2 Common Commands listed in Table 1-2 to perform functions such as service request enable, event status register query and status byte query, etc. Common Commands always begin with an asterisk (*), and may include one or more parameters. Detailed descriptions of the commands can be found in IEEE Std 488.2-1987. TABLE 1-2 VXIBUS IEEE 488.
1.2.6 Serial Interfaces The VXI-5534 provides four serial interfaces for asynchronous communication with external devices. Each interface supports RS-232, RS-423 or RS-422/RS-485 serial links. The interfaces use 9-pin connectors. The RS-232 signals are pin compatible with the 9-pin COM port on any IBM AT compatible PC. 1.2.6.1 1.2.6.2 RS-232 Specifications Signals BA, BB, CA, CB, CC, CD, CF and CI Signal ground is AB.
1.2.6.4 Data Character Formats Data bits 5, 6, 7 or 8 bits/character Parity Odd, even or none Stop bits 1.2.6.5 1 or 2 Baud Rates Internal baud rates can be selected from 150 to 115,200 baud. Standard rates are: 150, 300, 600, 1200, 2.4 K, 4.8 K, 7.2K, 9.6 K, 19.2 K, 38.4 K, 57.6 K, 76.8K and 115.2K. Baud rate accuracy is ±0.02 %. Other internal baud rates are programmable up to 153.6 Kbaud by specifying the baud rate generator time constant.
1.2.7 Configuration Commands The VXI-5534 uses the commands listed in Table 1-3 to configure its serial interfaces. Configuration settings can be stored in the VXI-5534's nonvolatile memory for recall when the unit is powered on or reset. TABLE 1-3 Command CHANNEL CONFIGURATION COMMANDS Description BAUD n Sets baud rate to standard values. BAUD# n Sets baud rate time constant for non-standard baud rates.
1.2.8 Front Panel Indicator The VXI-5534 has a four character alpha numeric display on the front panel which displays status, logical device addresses and diagnostic messages. The display cycles through a series of status and information messages at power turn-on and during self test. During normal operation, the display shows the currently addressed serial channel. The display can be manually set to show diagnostic messages with the DISPLAY push-button.
2 Installation 2.1 UNPACKING AND INSPECTION If shipping carton or instrument is damaged, call carrier immediately and inspect the contents for damage (scratches, dents, etc.). Retain shipping carton and packing material for carrier’s inspection. If unit is damaged or fails to meet specifications, notify ICS Electronics Corporation or your local sales representative immediately. ICS will make arrangements for unit to be repaired or replaced without waiting for claim against carrier to be settled. 2.
Address Switch MSB Figure 2-1 LSB Address Switch Location 0 1 1 6 3 1 8 4 - 2 4 2 6 8 Note - White blocks show switch set to logical address 16 (10 HEX) Figure 2-2 Address Switch Layout 2-2 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
2.3 ADDRESS SWITCH SETTINGS The VXI-5534 has an internal address switch located on the rear of the module between P1 and P2 for setting the VXI-5534’s logical address. The address switch is accessible through an opening in the cover of the module when the module is removed from the VXI chassis. Figure 2-1 and Figure 2-2 shows the switch layout and rocker bit weights. A rocker in the ‘on’ or up position is set to logic ‘1’. A rocker in the ‘off’ or down position it is set to logic ‘0’.
2.3.3 Checking the VXI-5534's Logical Device Address To check the address setting of the module, press the DISPLAY MODE button with a small thin object (a tooth pick will do) until Addr is displayed, then release the button. The display will indicate the selected address in the form A=xx, where xx is the VXIbus address in hexadecimal notation. 2.3.
2.4 SERIAL INTERFACE The VXI-5534 has four 9 pin DE-9P connectors with lock studs that independently provide either RS-232, RS-423 or RS-422/RS-485 signals. Table 2-1 shows the serial signal assignments and the signal direction relative to the VXI-5534.
Figure 2-4 VXI-5534 Jumper Locations (Factory Settings) 2-6 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
2.4.2 RS-423 Signal Connections and Setup RS-423 signal levels are set by moving a pair of jumpers per serial channel to a lower voltage position and operating the channel in the RS-232 mode. The jumpers are independent so the signal selection may be made on a channel-by-channel basis. Figure 2-4 shows the location of jumpers W1 through W8. The black squares show the factory setting for RS-232 ±12 volt operation.
2.4.3 RS-422 and RS-485 Signal Connections and Terminations When RS-422/RS-485 signals are selected, the signals change from single-ended, bipolar signals to two-line differential signals. The number of signals on the serial interface is reduced from 8 to 4. In full-duplex applications, the minimum connection is four wires (2 for transmit and 2 for receive) between the VXI-5534 port and the other RS-422 or RS-485 device.
3 Operation and Programming 3.1 INTRODUCTION This section describes how to program and use the VXI-5534. This includes directions for using the Front Panel Display for diagnostics, for configuring the serial channels and for sending and receiving serial data. 3.2 FRONT PANEL DISPLAY The VXI-5534 has a four character alphanumeric display on the top of its front panel that has four different display modes. The modes are selected by the Display Mode Button located below the display. 3.2.
TABLE 3-1 Display Mode VXI-5534 DISPLAY MODES Description Norm The Norm or normal mode selects the power on messages listed in Table 3-2A. Extd The Extd or extended mode selects the messages in Table 3-2B for display. These messages are useful for system testing and debugging. Addr The Addr or address mode is a temporary mode that displays the units current VXIbus address setting in hexadecimal form for 5 seconds. The unit then returns to is prior mode.
3.2.2 Display Mode Button The Display Mode Button is a recessed bush button located below the display as shown in figure 3-1. The button selects the VXI-5534 diagnostic and display modes. Table 3-1 on the facing page describes the diagnostic and display modes. Tables 3-2A and 3-2B list the Normal Mode and Extended Mode Messages. To change the display mode, gently hold the button closed. Use a toothpick or sone other small thin rod.
TABLE 3-2A VXI-5534 NORMAL MODE MESSAGES Display Meaning 5534 BgNn E2Sv FAIL ICS Init NMI0 NMI1 NMI2 Rdy SysF Power on ID message Begin normal operation for channel n Data written to the E2PROM Self Test failed Power on ID message Initialized, waiting for begin normal operation command No slave access Slave 1 access error Slave 2 access error Normal ready message, begin normal operation received SysFail Asserted NOrs Pass Tst1 Tst2 No response from slave in Sv1T or Sv2T tests.
3.3 GENERAL OPERATING INSTRUCTIONS New users and programmers not experienced with the VXI-5534 should read Section 3 of this manual. The few minutes it takes will save you may hours of needless work and speed up the integration of the VXI-5534 into your system 3.3.1 Pre-Operation Setup Before using the VXI-5534, prepare the serial connections. If RS-232 or RS-423 signals are being used, their pinouts are the same as a PC's 9-pin COM port.
3.3.3 Configuring the Serial Interface If this is the initial use of the VXI-5534, its interfaces should be configured at this time. Table 3-3 lists the VXI-5534's Configuration Commands, the command definitions and the factory default settings. Reset the unit or use the Word Serial CmdMode command (0100 hex) to put the channel into the command mode. The suggested approach is to use the CONFIG? query to read the current configuration and then to make the necessary changes to adapt the channel to your use.
3.4 VXI-5534 CONFIGURATION COMMANDS The VXI-5534 accepts SCPI like commands to configure its serial interfaces and its operation. The commands are sent to the VXI-5534's serial channel as Word Serial Messages when the channel is in the Command Mode. The channel goes into the Command Mode at power turn-on, when reset or by the Word Serial CmdMode command (see Table 3-6). 3.4.1 Command Formats The VXI-5534 commands are single word commands and do not have SCPI's tree and branch structure.
TABLE 3-3 VXI-5534 CONFIGURATION COMMAND LIST Command Default Description BAUD 9600 Sets baud rate. Allowed values are: 150,300,600, 1200, 2400, 4800, 7200, 9600, 14400, 19200, 28800, 38400, 57600, 76800 and 115200. BAUD# - Sets baud rate to a user defined rate up to 153.6 Kbaud. The numeric value is computed per the following equation: Clock frequency -2 2 x Baud Rate x Divider Ratio where: clock frequency is 14.
TABLE 3-3 Command VXI-5534 CONFIGURATION COMMAND LIST Default Description PARITY NONE Enables parity generation and checking. Allowed entries are: EVEN, ODD, NONE PDEFAULT CMD Sets the power-on default to CMD or DATA mode. Follow the PDEFAULT command with a SAVE command. Allowed entries are CMD or DATA SAVE - Saves the current configuration in EEPROM. Same function as the 488.2 *SAV 0 command. SBITS 1 Sets number of stop bits per character.
3.5 PROGRAMMING GUIDELINES 3.5.1 Setting the Baud Rate The majority of baud rates can be entered with BAUD command as shown in Table 3-3. Nonstandard baud rates up to 153.6 Kbaud can be entered with the BAUD# command by entering a time constant. The time constant is for Zilog Z8530 SCC chip and is computed as shown in Table 3-3. The Divider is 16 for RS-232 signals but it can be changed to 1 when Type is set to 485. Note that not all baud rates come out as integers.
3.5.2 Sending Data The easiest way to transmit data is to simply address the desired serial channel and send it the data. Use the Word Serial DataMode command (0000 hex) to put the serial channel into the data mode. Next send it the desired output string as a Word Serial Message. The VXI-5534 will place the output string in its transmit buffer and then output it at the set baud rate. If the transmit message exceeds the transmit buffer size, the message will have to be sent in blocks.
3.5.4 Receiving Data The serial interface always inputs data in the Data Mode as long as the control lines are in their high state and there is room in the receive buffer. Do a Word Serial read to read out the received data. This works for simple applications where the data is known to be received prior to reading the data. A more advanced method is to let the VXI-5534 collect the data and then read the data when the VXI5534 indicates that it has a complete message or the required number of characters.
3.5.5 Reading the VXI-5534's Status Byte There are several ways the user can test the VXI-5534 to see if there is data in the receive buffer. The simplest way is to use the Word Serial ReadSTB command to read the channel's Status Byte. This can be done while the channel is in the Data Mode and does not interfere with receiving data.
3.5.7 Controlling the VXI-5534 with Multi-Tasking Operating Systems Outputting data to the VXI-5534 from a task in a Multi-Tasking environment does not require any special considerations. However, when inputting data from asynchronous sources, the user needs to insure that input tasks are not blocked by other tasks of equal priority. In addition, input tasks should verify that a message or data is in the VXI-5534's receive buffer before issuing a Word Serial message read.
3.6 488.2 COMPLIANCE 3.6.1 488.2 Common Commands Operation Complete Query Error not used Execution Error Command not Executed Command Error not used Power On The VXI-5534 responds to all of the required IEEE-488.2 common commands. The 488.2 commands may be sent to the serial channels as Word Serial messages while the serial channels are in the command mode. Table 3-5 lists the 488.2 Common Commands and their affect on the VXI5534.
3.6.2 488.2 Status Reporting Structure Each serial channel has its own IEEE-488.2 Status Reporting Structure as shown in Figure 3-3. The VXI-5534's Status Reporting Structure conforms to the IEEE-488.2 Standard and includes five additional information bits in the Status Byte Register for reporting the status of the Receive and Transmit Registers.
TABLE 3-5 IEEE 488.2 COMMAND LIST Command Factory Setting 488.2 Function *CLS - Clears all Event Registers and updates Status Byte register. The MAV bit is only cleared if the *CLS is the first message in the command line. *ESE 0 Sets the bits in the Event Status Enable Register to the value. The value is an integer between 0 and 255 whose binary equivalent is the state of the '1' and '0' bits in the register.
3.7 VXI WORD SERIAL COMMANDS VXIbus systems use Word Serial Commands for handshaking data, controlling and querying VXI devices. Word Serial Commands are single word commands that contain 16 bits of information. They differ from Word Serial Messages which are multiple character messages that transfer 8-bit data characters or ASCII character strings to or from the VXI device. The VXI-5534 always recognizes Word Serial commands regardless of the serial channel's transmission mode.
021B HEX would set buffer 1 to be triggered on TTLTriger line #3 TABLE 3-6 VXI-5534 WORD SERIAL COMMAND LIST Command Hex Code Function Abort Normal Operation C8FF Cease normal operation and return to default configuration. ArmTrigger 02xx Selects a buffer to be transmitted when triggered and the TTLTrigger line. Command format is: 0000 0010 bbbb ettt where: b = buffer number, e = enable and t = trigger line Assign Handler Line A9xx Assigns a IRQ line to an Interrupt Handler in the device.
Read Handler Line # 8Cxx Determines which IRQ line a handler is connected to. Read Handlers # C7FF Determines the number of Interrupt Handlers in a servant. TABLE 3-6 VXI-5534 WORD SERIAL COMMAND LIST Command Hex Code Function Read Interrupt Line 8Dxx Determines which IRQ line a particular Interrupter in a servant is connected to. Read Interrupters CAFF Determines number of Interrupters in a device. Read MODID # CCFF Determines state of MODID lines from the Slot 0 Controller.
4 Theory of Operation 4.1 BLOCK DIAGRAM DESCRIPTION The Block Diagram for the VXI-5534 Quad Serial Interface Module is shown in Figure 4-1. The VXIbus is at the top of the figure. The upper section contains the VXIbus interface logic and registers. The lower section contain the two slave processors which are responsible for the four serial channels. Both slave processors are identical and have the same capabilities. 4.2 MASTER PROCESSOR The VXI interface is controlled by the VXI Master Processor.
VXI BUS INTERFACE RAM & HANDSHAKE LOGIC & INTERRUPTER VXI MASTER µP EPROM EEPROM RAM ADDRESS SW & DISPLAY MASTER BUS EPROM BUS ARBITRATION LOGIC EPROM BUS ARBITRATION LOGIC RAM SLAVE 1 BUS RAM SLAVE 2 BUS S/P SLAVE 1 µP S/P SLAVE 2 µP CHANNEL 1 CHANNEL 2 CHANNEL 3 CHANNEL 4 SERIAL INTERFACE SERIAL INTERFACE SERIAL INTERFACE SERIAL INTERFACE RS-232 RS-422 RS-485 RS-232 RS-422 RS-485 RS-232 RS-422 RS-485 RS-232 RS-422 RS-485 Figure 4-1 VXI-5534 Block Diagram 4-2 Artisan Technology Gr
4.3 SLAVE PROCESSORS Each slave processor has its own EPROM and RAM. The EPROM provides program storage and the RAM stores the received and transmit data for two serial channels. Each slave processor contains its own self test routines, input command parser, and data input/output routines. Slave Processor #1 controls serial channels 1 and 2. Slave processor #2 controls serial channels 3 and 4. For standard VXI-5534 modules, the slave processors have 32 Kbytes of RAM memory.
5 Maintenance 5.1 INTRODUCTION This section describes the maintenance, troubleshooting and repair procedures for the VXI-5534 Interface card. The VXI-5534 does not require periodic calibration and has no internal adjustments. 5.2 TROUBLESHOOTING PROCEDURES 5.2.1 Self Test Failures The VXI-5534 has a built in self test routine which is designed to detect basic circuit faults. The self test routine checks the PROM, RAM, E2PROM and to some extent, the interface chips.
Table 5-1 Error Messages TROUBLESHOOTING GUIDE - error messages Definitions Action ER01 VXI EPROM check sum error Replace the VXI processor EPROM, U62. ER02 VXI RAM error Replace the VXI processor RAM, U61. ER03 VXI E2PROM check sum error Enable E2PROM initialization by setting Address switch bit 1 On. Reset the system twice or power the unit up. If the error persists past two times, replace E2PROM U63 and repeat the above procedure. Turn bit 1 of the Address Switch off when done.
Table 5-1 Error Messages TROUBLESHOOTING GUIDE - error messages cont'd Definitions Action ER26 VXI → Ser 4 RAM buffer error Try replacing the Slave #2 processor RAM, U34. If the problem persists the bus arbitration logic may be at fault. Return unit to factory for service. ER28 Serial 3 interface error Try replacing UART, U28 or interface chips U7 and U17. ER29 Serial 4 interface error Try replacing UART, U28 or interface chips U10 and U20.
TABLE 5-2 Problem TROUBLESHOOTING GUIDE - User Problems cont'd Possible Cause Action For half-duplex systems, try reversing the wires. Baud rate and character format Check VXI-5534 settings vs RS-485 device. Use CONFIG? to query the VXI-5534. Device needs addressing RS-485 devices that work in multi-drop systems need address sequences at the start of each message. Check device manual and add the address sequence to the outgoing messages as required. RS-485 bad leading character.
5.3 RETURNING FOR FACTORY SERVICE When returning a VXI-5534 board assembly or other products to ICS for repair, it is necessary to go through the following steps: 1. Contact the ICS customer service department and ask for a return material authorization (RMA) number. An ICS applications engineer will want to discuss the problem at this time to verify that the unit needs to be returned, or assist in correcting the problem.
6 Parts List and Location 6.1 INTRODUCTION This section contains all information necessary to locate, identify, and order parts. The listing of parts and information for an exact replacement part are shown in the attached parts list. All component locations are identified by reference designators in the parts list and in the attached circuit board assembly drawings. Figure 6-1 shows the component locations on the circuit board. 6.2 REPLACEMENT PARTS 6.2.
TABLE 6-1 LIST OF MANUFACTURERS BY ABBREVIATION Code Company Name Location Code Company Name ABC ACT ACW AD ADI ADV AEP AIW AMA AMD AMP AMR AMZ AND APH APL APT APX ARC ARI ARO ARR ARX ASC ASS AST ATM AUG AVD AVT AVX Allen Bradley Advanced Components Tech Alpha - CW Analog Devices ADI Electronics, Inc. Advanced Interconnections Alco Electronics Products, Inc American Insulated Wire Amatom Advanced Micro Devices AMP, Inc. American Relays, Inc. American Zettler, Inc. Alpha Numeric Displays Amphenol Corp.
TABLE 6-1 LIST OF MANUFACTURERS BY ABBREVIATION (CONT.) Code Company Name Location Code HIT HOL HP HRS HUR HYU Hitachi Holmberg Electronics Corp. Hewlett-Packard Hirose Electric, Inc. Hurricane Electronics Hyundai Electronics America Toyko, Japan Inman, SC Palo Alto, CA Chatsworth, CA Hurricane, UT San Jose, CA ICO ICS IDE IDI IDT IEE IER IMC INE INL INT IRC ISC ISL ITT Ico-Rally Corp. ICS Electronics Corporation IDEC Corporation Industrial Devices, Inc.
TABLE 6-1 LIST OF MANUFACTURERS BY ABBREVIATION (CONT.) Code Company Name Location Code Company Name Location RUS RXD SAE SAM SAN SAR SCH SCN SEC SEI SEK SEQ SGC SGL SGS SHA SHK SHO SHP SHR SIE SIG SIL SLN SMC SMK SMN SMO SMT SOC SOL SOU SPC SPR STR SWC SYN SYO Russell Industries, Inc. RXD, Incorporated Stanford Applied Engineering Samsung Semi Conductor, Inc. Sangamo Western, Inc. Saronix Schadow, Inc. Scanbe Secma, Inc. Seiko Instruments Seiko Circuits Seeq Technology, Inc.
6.3 PARTS LISTS The parts list tables contains both the ICS Electronics Corporation stock numbers and the manufacturers’ true part numbers where applicable. True manufacturers’ part numbers are not shown for industry standard parts nor for items unique to the VXI-5534 Interface Card. Table 6-2 lists the recommended spare parts for 1 to 9 units. To spare at the assembly level, order items 1 and 2 in tAble 6-2. To spare at the component level, order items 3 through 37 as the VXI5534 Spare Parts List.
TABLE 6-2 LN# PART# VXI-5534 RECOMMENDED SPARE PARTS QTY DESCRIPTION 28 29 790189-16 748245 1 2 IC MPU Z180 IC Octal Bus Xcvr 30 749014 1 31 32 33 34 35 748074 748138 748154 792130 776264 36 37 REF-DES MFGR MFGR PART # Z8S18016VSC 74HCT245N IC EE GAL 6001-30 U33;38;67 ZIL U12;34;35;40;41 SIG U43;44-46;51;52 U42 LAT 1 1 1 2 1 IC Dual F/F IC 3-8 Dcdr IC 4-16 Dcdr IC RAM 1K x 8 dual port IC RAM 8K x 8 U49;55;58-60;70 U50 U53 U62;63 U64 NSC SIG SIG AMD FUJ MM74HCT74N 74HCT138N 74HCT154N AM
TABLE 6-4 VXI-5534 PCB ASSEMBLY PARTS LIST (114564) LN# PART# MFGR PART # QTY DESCRIPTION REF-DES MFGR A1 C1-68;C70-96 C69 C97-103 AVX CNT SPR MD015E103AZAA CW15C222K 199D686X0010DB1 APH CJO 777DEE9PA D204180-2 PAN 100-096-053 KOA KOA KOA KOA BOR BOR BOR CF1/4-5-33K CF1/4-5-680 CF1/4-5-10K CF1/4-5-820 4306R-101-333 4306R-101-103 43010R-101-103 C&K CTS GP11-MCKE CTS206-8 TI SN 75175N TI TI TI LT1032CN SN75174N SN74HCT574N SIG 74HCT245N CAT AMD LAT 71C256L-85 AM27C256-120 GAL20V8-150P
Figure 6-1 VXI-5534 Component Layout 6-8 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
TABLE 6-4 VXI-5534 PCB ASSEMBLY PARTS LIST (114564) CONT'D LN# PART# QTY DESCRIPTION REF-DES MFGR MFGR PART # 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 792130 776264 792816-15 749011-415 772210 745038 748241 748688 748125 742139 745245 745641 903021 903014 903009 2 1 1 7 3 1 1 1 4 1 2 2 2 4 14 IC RAM 1K x 8 dual port IC RAM 8K x 8 IC EEPROM 2K x 8 IC GAL 16V8 IC PAL 22V10 IC Quad Nand IC Octal Bus Rcvr IC 8-bit Comp IC Quad 3-state Buffer IC Dual 2-4 line Dcdr IC Octal 3-state Xcvr IC Octal Xc
7 Drawings, Diagrams, Wire Lists This section includes the following figures and table: Page Figure 7-1 VXI-5534 Logic Diagrams 7-2 7-1 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
Artisan Technology Group is your source for quality new and certified-used/pre-owned equipment • FAST SHIPPING AND DELIVERY • TENS OF THOUSANDS OF IN-STOCK ITEMS • EQUIPMENT DEMOS • HUNDREDS OF MANUFACTURERS SUPPORTED • LEASING/MONTHLY RENTALS • ITAR CERTIFIED SECURE ASSET SOLUTIONS SERVICE CENTER REPAIRS Experienced engineers and technicians on staff at our full-service, in-house repair center WE BUY USED EQUIPMENT Sell your excess, underutilized, and idle used equipment We also offer credit for buy-back