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VMIC VME-2128

Image of VMIC VME-2128

Description

VMIC VME-2128 128-bit High Voltage Digital Output Board with Built-in-Test

Part Number

VME-2128

Price

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Manufacturer

VMIC

Lead Time

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Category

Digital I/O

Specifications

Altitude

Operation to 10,000 ft

Cooling

Forced air convection

Humidity Range

20 to 80 percent relative, noncondensing

MTBF

162,900 hours (217F)

Operating

0 to +55 °C

Storage

-20 to +85 °C

Features

Datasheet

pdf file

VMIC-VME-2128-datasheet1-1006010014.pdf

194 KiB

Extracted Text

✄ VMIVME-2128 128-bit High-Voltage Digital Output Board with Built-in-Test ✪✄✰✮✄✯❊❘�✄✬❙◗❚❊❘ • 128 bits of high-voltage outputs • High-current drivers (600 mA sink) • Automatic surge current shutdown protection • Thermal shutdown protection • High breakdown voltage (55 V) • Output clamp diodes for inductive flyback protection • Compatible with Intelligent I/O Controllers • Built-in-Test logic for fault isolation • VMEbus compatible (ANSI/IEEE STD 1014-1987 IEC 821 and 297) • A24:A16:D32/D16/D08 (EO): slave 39/3D:29/2D:6U form factor • Optional pull-up resistors for electronic switch outputs • Front panel with fail LED • Sockets are provided for warming resistors, which are supplied by the user FUNCTIONAL CHARACTERISTICS Compliance: This product complies with the VMEbus specification (ANSI/IEEE STD 1014-1987 IEC 821 and 297) with the following mnemonics: A24:A16:D32/D16/D08 (EO): Slave: 39/3D:29/2D:6U ID Register. The sixteen input bytes are placed above the form factor CSR. Twenty jumpers establish the base address of the board. Another jumper is used for standard or short I/O Output Connector Type: Two 96-pin female accesses. The following address map shows the relative connectors are used with this board. For mass locations of all the registers used by the board. terminations (IDC), an ERNI IDC DIN connector and 0.033-inch 30 AWG ribbon cable are recommended. The ERNI order numbers are: 96-pin connector 913 031 Ordering Options 96-conductor 0.033-inch cable 913 049 Oct. 26, 1999 800-002128-000 K AB C – D E F VMIVME-2128 –1 – For discrete wire use, Harting connectors are A = Pull-Up Resistors/Output Voltage/Absolute Maximum Voltage recommended. This connector consists of a contact 0 = No Pull-Up Resistors Installed (55 V Absolute Maximum) 1 = 270 Ω/5 V/6 V housing with female crimp-on contacts. Harting order 2 = 1,500 Ω/12 V/14 V numbers are: 3 = 6,800 Ω/24 V/30 V 4 = 27 kΩ/48 V/55 V 96-pin connector 09 03 096 3214 B = User Ground Connection Female crimp-on contacts 09 02 000 8484 0 = No P2 User Ground Connection 1 = 26 P2 User Ground Connections** Crimp tool (for stripped wire) 09 99 000 0075 C = SIP Sockets 0 = Reserved 1 = SIP Sockets at Pull-Up Resistor Locations The discrete wire connector needs a shell housing that Recommended Connector Components for Cabling to P3 and P4 has holding levers. We recommend the Harting housing. Style Description I/O Connectors Its order number is 09 03 096 0501. This housing will 96-pin Mating Connector (96-pin Mass Terminated)ERN No. 913 031 latch the discrete wire cable to the board connector and IDC 0.033-inch Ribbon Cable (96-pin Mass ERNI No. 913 049 provide a strain relief. Terminated) 96-pinMating Connector (96-pin Discrete)Harting No. 09 03 096 3214 I/O Organization: Sixteen output ports, eight bits wide Discrete Female Crimp Contacts (96-pin Discrete)Harting No. 09 02 000 8484 Wire for a total of 128 inputs, addressable to any address Connector Shell Housing (for 96-pin Harting No. 09 03 096 0501 Connectors) within the short supervisory and/or short nonprivileged Both PC Board Connector Part Number ERNI No. 913 216 or the standard supervisory and/or standard *The Harting crimp tool part number is 09 99 000 0075. nonprivileged I/O map. ** A1C option is recommended for new applications. For Ordering Information, Call: Addressing Scheme: Thirty-two bytes individually 1-800-322-3616 or 1-256-880-0444 • FAX (256) 882-0859 E-mail: info@vmic.com Web Address: www.vmic.com addressable on 8-, 16-, or 32-bit boundaries. A Board ID Copyright © Janaury 1990 by VMIC Register is located at the base address of the board. A Specifications subject to change without notice. Control and Status Register (CSR) is stacked above the VMIC • 12090 South Memorial Parkway • Huntsville, Alabama 35803-3308 1 ✄ VMIVME-2128 ✪✄✰✮✄✯❊❘�✄✬❙◗❚❊❘ Address Map: Built-in-Test: This board is designed with internal Built-in-Test logic that supports testing of all the Decoded Address Register Name on-board active components except the output drivers. Address bits or Description All Output Data Registers have read-back capability. A4 A3 A2 A1 Thus, the user can monitor the data written to this board 0 0 0 0 Board ID and determine if it is functioning properly. A front panel 0 0 0 1 Control and Status Register (CSR) Fail LED is provided to help in isolating a faulty board. 0 0 1 0 Not Used This LED is illuminated at power up and can be 0 0 1 1 Not Used extinguished under program control upon the successful 0 1 0 0 Not Used completion of user-defined diagnostic software. 0 1 0 1 Not Used 0 1 1 0 Not Used PHYSICAL/ENVIRONMENTAL 0 1 1 1 Not Used Temperature Range: 0 to +55 °C, operating, 1 0 0 0 Output Data Word (16 bits) 0 -20 to +85 °C, storage 1 0 0 1 Output Data Word (16 bits) 1 1 0 1 0 Output Data Word (16 bits) 2 Humidity Range: 20 to 80 percent relative, 1 0 1 1 Output Data Word (16 bits) 3 noncondensing 1 1 0 0 Output Data Word (16 bits) 4 1 1 0 1 Output Data Word (16 bits) 5 Altitude: Operation to 10,000 ft 1 1 1 0 Output Data Word (16 bits) 6 Cooling: Forced air convection 1 1 1 1 Output Data Word (16 bits) 7 Dimensions: Double Eurocard (6U), 160 x 233.35 mm Output Drivers: The output drivers provide the user with thermal and inrush current shutdown protection. Power Requirements: 3.0 A (typical) at 5 V The inrush current protection will allow up to 990 mA of surge current before shutting down the driver. This The user must supply power to the output drivers. This current is determined by the type and number of bulbs power requirement is determined by the user load. used. For example, two 40 mA 28 V filament bulbs may Connections can be made at either the front panel (P3 or have as much as 960 mA ((40 mA x 2) x 12 = 960 mA) P4) or at P2. To facilitate connections made at P2, VMIC of cold filament inrush current. If the inrush current of offers the VMIACC-0132 P2 Power Accessory which is recommended, but not required. the external circuitry will exceed the 990 mA limit, then warming resistors should be used. These resistors should MTBF: 162,900 hours (217F) draw approximately 10 percent of the rated (warm) current of the bulb or bulbs in use. For the example Warning: The user-supplied voltage should not be above, this current would be 8 mA ((40 mA x 2) x .1 = applied to the board unless +5 VDC is present on the 8 mA). SIP sockets are provided on the board for these board. warming resistors. These resistors must be the bussed type with pin 1 being common. The sockets have pin 1 APPLICATIONS — grounded. Relay drivers Electronic Switch Option: Optional pull-up resistors Lamp drivers are available which place the output drivers in an Solenoid drivers electronic switch configuration. These switch outputs are Hammer drivers operated from user-supplied power via the P2 Stepper motor drivers connector.* SCR drivers Data Polarity: A logic one written to an output bit will LED drivers turn ON the drive transistor. This yields an output of High-current, high-voltage drivers logic zero. Thus, a logic one asserts the output. This data polarity is called positive true. TRADEMARKS The VMIC logo is a registered trademark of VMIC. Other registered trademarks are the property of their * For new applications, it is recommended the P2 user ground respective owners. connection be ordered. The VMIACC-0132 provides no. 10 terminals for connecting V and user GND. EXT 2 For Ordering Information, Call: 1-800-322-3616 or 1-256-880-0444 • FAX (256) 882-0859 ✄ VMIVME-2128 ✪✄✰✮✄✯❊❘�✄✬❙◗❚❊❘ V VIA P2 EXT OPTIONAL PULL-UP RESISTORS 32 32 DATA OUTPUT I/O REG DRIVERS 32 96-pin OUTPUT P3 CONN. 32 32 STEERING DATA BUS DATA OUTPUT LOGIC V I/O REG DRIVERS 32 M E b REG u CTRL BUS DECODE 32 32 DATA OUTPUT s I/O REG DRIVERS ADDRESS 32 96-pin LINES OUTPUT SEL P4 AND BOARD CONN. CTRL SELECT LINES LINES 32 32 DATA OUTPUT I/O REG DRIVERS ADDRESS JUMPERS Test Mode P4 BOARD ID AND CSR Test Mode P3 WARNING Fail RESISTORS LED SIP SOCKETS Figure 1. VMIVME-2128 Functional Block Diagram APPLICATION AND CONFIGURATION GUIDES — The following Application and Configuration Guides are available from VMIC to assist the user in the selection, specification, and implementation of systems based on VMIC’s products. Title Document No. Digital Input Board Application Guide 825-000000-000 Change-of-State Application Guide 825-000000-002 Digital I/O (with Built-in-Test) Product Line Description 825-000000-003 Synchro/Resolver (Built-in-Test) Subsystem Configuration Guide 825-000000-004 Analog I/O Products (with Built-in-Test) Configuration Guide 825-000000-005 Connector and I/O Cable Application Guide 825-000000-006 Data Acquisition Noise Reduction Application Guide 825-000000-026 Installation Guide for the P2 Power Adapter 522-800132-000 VMIC • 12090 South Memorial Parkway • Huntsville, Alabama 35803-3308 3 ✄ VMIVME-2128 ✪✄✰✮✄✯❊❘�✄✬❙◗❚❊❘ OUTPUT DESCRIPTION (UDN2549B DRIVERS) P2 V C EXT XX +5 V USER’S +VOLTAGE A V (NOTE 1) CC USER LOAD P3 OR P4 EMF OPTIONAL KICKBACK PULL-UP PROTECTION RESISTOR DIODE INPUT N A and C XX XX OPTIONAL ENABLE WARMING THERMAL RESISTOR UNIT USER’S GND TO THE THREE B OTHER XX INTERNAL << 1 CIRCUITS CASE GND u P2 P2 USER GROUND OPTION A XX SBx USER’S GND 3 A FUSE A u (NOTE 1) Note 1: The VMIACC-0132 is available to provide V and user GND connections via the P2 backplane connector. EXT INDUCTIVE LOAD DRIVER — Bifilar (unipolar) INCANDESCENT LAMP DRIVER — High stepper motors can be driven directly. The internal kickback incandescent lamp turn-on/inrush current can destroy diodes prevent damage to the output transistors by semiconductor lamp drivers and contributes to poor lamp suppressing the high-voltage spikes which occur when reliability. However, lamps with steady state current ratings turning OFF an inductive load. up to 600 mA can be driven with the UDN2549B without the need for warming or current limiting resistors. FAULT CONDITIONS — In the event of a shorted load, shorted winding, or stalled motor, the load current will When an incandescent lamp is initially turned ON, the attempt to increase. As described above, the drive current to cold lamp filament is at minimum resistance and would the output stage is diverted (limiting the load current to about normally allow a 10x to 12x inrush current. With the 1 A), causing the output stage to go linear. As the junction UDN2549B, the high inrush current is sensed by an internal temperature of the output stage increases, the thermal limit sense resistor. The load current is limited to approximately circuit will become operational, further decreasing the drive 1 A by the shunting transistor sensing the output current current. The load current (junction temperature) is then a through the sense resistor. During this short transition period, function of ambient temperature, state of remaining drivers, the output driver is driven in a linear fashion. As the lamp supply voltage, and load resistance. If the fault condition is warms up, the filament resistance increases to its maximum corrected, the output driver will return to its normal saturated value. The output driver then goes into saturation and applies condition. Short circuit protection is provided for each the full supply voltage to the lamp. However, inrush currents output for supply voltages up to 25 V. of 1 A or more will force the driver into foldback current limiting. To avoid this problem, a warming or current limiting resistors should be used in the lamp circuitry. 4 For Ordering Information, Call: 1-800-322-3616 or 1-256-880-0444 • FAX (256) 882-0859 ✄ VMIVME-2128 ✪✄✰✮✄✯❊❘�✄✬❙◗❚❊❘ VMIVME-2128 Electrical Specifications Per Output Channel 1. Electronic Switch Option (Open Collector with Pull-Up Resistor) Absolute Output Max Output Voltage RP Min IOH Max IOH IOL Max Voltage 5 V 270 Ω 22.6 mA 8.5 mA at Vout = 2.5 V 600 mA 6 V 12 V 1.5 kΩ 9.7 mA 3.9 mA at Vout = 6 V 600 mA 14 V 24 V 6.8 kΩ 4.6 mA 1.8 mA at Vout = 12 V 600 mA 30 V 48 V 27 kΩ 2.3 mA 0.9 mA at Vout = 24 V 600 mA 55 V 2. Open-Collector Option (No Pull-Up Resistors Installed) IOL VOL Typ VOL Max 300 mA 0.20 V 0.7 V 500 mA 0.55 V 1.5 V VMIC • 12090 South Memorial Parkway • Huntsville, Alabama 35803-3308 5

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Industrial Trading' parent company, GID Industrial, specializes in procuring industrial parts. We know where to find the rare and obsolete equipment that our customers need in order to get back to business. There are other companies who claim to do what we do, but we're confident that our commitment to quality and value is unparalleled in our field.

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The warranty we offer will be based on what we negotiate with our suppliers. Sometimes, a part will be sold as-is and without a warranty. Our specialty, single board computers, tend to receive a one-year warranty.

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