MVME7616E Transition Module Installation and Use
Contents
1. 49 4 7 4 PMCI O 5 Row P2 Adapter 3 51 4 7 5 5 Row P2 adapter 14 52 4 MVME7616E Transition Module Installation and Use 6806800A43D List of Tables EN Table 1 1 SIMIPart NUmb es 15 Table 1 2 MVME761 Transition Module Connectors 18 Table 1 3 3 Row P2 Adapter Connectors 761 001 18 Table 1 4 5 Row P2 Adapter Connectors 61 011 18 Table 1 5 Transition Module Cables 19 Table 1 6 MVME761 0x1 Specifications 19 Table 3 1 P2 signal multiplexing sequence 31 Table 4 1 P2 Connector Pin Assignments 41 Table 4 2 COMI and COM2 Pin Assignments 43 Table 4 3 Serial Port Pin Assignments 43 Table 4 4 Serial Port 4 Pin Assignments 44 Table 4 5 Parallel I O Connector Pin Assignments 45 Table 4 6 10Base T 100Base TX Pin Assignments2. 27 3 2 ose serico reU e aen n 27 3 3 P2SignalMultiplexing PAMX 29 3 4 Serial Interface Module 32 3 5 COMI COM2 Asynchronous Serial Ports 34 3 6 Asynchronous Synchronous Serial Ports 36 4 Connector PIVASSIGHINGNES 41 4 1 m 41 A2 PSP eT 41 4 3 Asynchronous Serial Port Connectors 5 6 43 MVME7616E Transition Module Installation and Use 6806800A43D 3 Contents 4 4 Asynchronous Synchronous serial Port connectors 7 8 43 4 5 Parallel Port Connector J4 45 4 6 Ethernet Connector J9 Rex bep ek E E dens 46 4 7 P2 Adapter Connectors 46 471 3 Row P2 Adapter 2 oa Rene oe 46 4 7 2 3 RowP2 Adapter J3 48 4 7 3 5 Row adapter 1
3. i 1 2 3 1 2 3 DTE DCE MVME7616E Transition Module Installation and Use 6806800A43D 21 Hardware Preparation and Installation You must set the jumpers and install the SIMs prior to installing the MVME761 transition module inthe system chassis The SIMs plug into connector J1 for serial port 3 or J12 for serial port 4 on the MVME761 transition module 2 2 SIM Configuration Mounting Hole O Alignment Key P1 X Q O Mounting Hole 11637 9610 Procedure Install the SIMs on the MVME761 transition module per the following procedure 1 Align the SIM so that P1 on the SIM lines up with the appropriate SIM connector J1 for serial port or J12 for serial port 4 on the transition module Note the position of the alignment key on P1 See Figure 2 2 on page 22 2 Place the SIM onto the transition module SIM connector making sure that the mounting holes also line up with the standoffs on the transition module as shown in Figure 2 3 on page 23 3 Gently press the top ofthe SIM to seat iton the transition module SIM connector If the SIM does not seat with gentle pressure re check the alignment of the connectors 22 MVME7616E Transition Module Installation and Use 6806800A43D Hardware Preparation and Installation Do not force the SIM onto the transition module 4 Secure the SIM to the transition module standoffs with the two Phillips head screws prov
4. 29 Figure 3 4 Multiplex Signal Timing Chart 32 Figure 3 5 EIA 574 DTE Port Configuration 35 Figure 3 6 EIA232 DCE Configuration Port 37 Figure 3 7 EIA232 DCE Configuration Port 4 38 Figure 3 8 EIA232 DTE Configuration 39 Figure 3 9 EIA232 DTE Configuration Port 4 40 MVME7616E Transition Module Installation and Use 6806800A43D 7 List of Figures KJ ZT X W Q W 8 MVME7616E Transition Module Installation and Use 6806800A43D About this Manual EN Overview of Contents This manual is divided into the following chapters and appendices Chapter 1 General Information on page 13 Chapter 2 Hardware Preparation and Installation on page 21 Chapter 3 Functional Description on page 27 Chapter 4 Connector Pin Assignments on page 41 MVME7616E Transition Module Installation and Use provides general information hardware preparation installation instructions and support information for the MVME7616E 001 and MVME7616E 011 Transition Modules These transition modules are used as the interface between the variants of the MVME51005E and MVME55006E Single Board Computers A P2 adapter module and cable are supplied with the MVME7616E
5. 46 Table 4 7 8 bit SCSI Connector 3 Row P2 46 Table 4 8 VME Connector 3 Row P2 adapter 48 Table 4 9 16 bit SCSI Connector 5 Row P2 adapter 49 Table 4 10 PMC Connector 5 Row P2 adapter 51 Table 4 11 VME Connector 3 Row P2 adapter 52 MVME7616E Transition Module Installation and Use 6806800A43D 5 List of Tables eee 6 MVME7616E Transition Module Installation and Use 6806800A43D List of Figures _ Figure 1 1 RTM Front Panel and Components Side 14 Figure 1 2 Three Row P2 Adapter 16 Figure 1 3 Five Row P2 Adapter s presen terere ELE EUM adden ER dc 17 Figure 2 1 Serial Port Interface Jumper Setting 21 Figure 2 2 SIM 22 Figure 2 3 Installing the 5 2 2002020 23 Figure 2 4 Chassis Connections 25 Figure 3 1 Transition Module Block Diagram 28 Figure 3 2 3 Row DIN Backplane P2 Adapter Block Diagram 29 Figure 3 3 5 Row DIN Backplane P2 Adapter Block Diagram
6. lt m 1 1 1 1 1 1 1 1 1 ee a J 1 1 1 1 1 ____ L l c i og 5 lt e amp o c 5 E 15 amp 18 RE 5 N 5 o lt gt 9 o uj 9 g I N I L Figure 3 6 37 Header J2 2 3 Header J18 1 2 MVME7616E Transition Module Installation and Use 6806800A43D Functional Description FIA232 DCE Configuration Port 4 Figure 3 7 o o 2 4 A ee votes q N V V gt O is E 5 1 1 510 8 1 z I 1 1 I I P2 P2MX VME MODULE 285230 SCC 28536 CIO e Q e gt o 6 o rrr gt gt gt 5 o 6 o r MVME7616E Transition Module Installation and Use 6806800A43D 38 Functional Description FIA232 DTE Configuration Port 3 Figure 3 8 N 4 e t 8 8 o 8 HW Pe a 1 x s Q Q O E 9 Q 1 AN LN N 519
7. Ethernet Connector J9 The 10Base T 100Base TX Ethernet interface is a RJ 45 connector 9 The connector shield is tied to chassis ground The pin assignments and signal mnemonics for this connector are listed in Table 4 6 Table 4 6 10Base T 100Base TX Pin Assignments RD Terminated Terminated Terminated P2 Adapter Connectors 3 Row P2 Adapter J2 The 8 bit SCSI connector on the 3 row DIN backplane P2 Adapter is a 50 pin connector J2 The pin assignments and signal mnemonics for this connector are listed in Table 4 7 Table 4 7 8 bit SCSI Connector 3 Row P2 adapter Pin Signal Signal Pin TERMPWR GND GND MVME7616E Transition Module Installation and Use 6806800A43D Connector Pin Assignments Table 4 7 8 bit SCSI Connector 3 Row P2 adapter continued 25 No Connect 50 MVME7616E Transition Module Installation and Use 6806800A43D 47 Connector Pin Assignments 4 7 2 3 Row P2 Adapter 3 The pin assignments and signal mnemonics for this connector are listed in Table 4 8 Table 4 8 VME Connector 3 Row P2 adapter 48 MVME7616E Transition Module Installation and Use 6806800A43D Connector Pin Assignments Table 4 8 VME Connector 3 Row P2 adapter continued 1 PRFAULT_L TXD2 4 7 3 5 Row P2 adapter J1 The 16 bit SCSI connecto
8. Chapter 2 Hardware Preparation and Installation w s 2 1 2 2 2 3 Overview This chapter provides unpacking instructions hardware preparation and installation instructions for the MVME761 transition module the P2 adapter and the Serial Interface Modules SIMs Unpacking the Hardware The MVME761 is packed in an antistatic wrapper to protect it from static discharge Artesyn strongly recommends that you use an antistatic wrist strap and a conductive foam pad when handling the equipment Electronic components can be extremely sensitive to electrostatic discharge ESD After removing the board from the protective wrapper place it component side up on a grounded staticfree surface Do not slide the board over any surface Unpack the equipment from the shipping carton Refer to the packing list and verify that all the items are present Save the packing material for storing and reshipping of the equipment Installing the Serial Interface Modules Configure the serial ports 3 and 4 for the required interface by installing the appropriate SIM See Table 1 1 on page 15 fora list of the serial port interface types Prior to installing the SIMs set the jumpers on header 2 for serial port 3 and header 3 for serial port 4 for either DCE or DTE Set the jumper to position 1 2ifthe SIM is fora DTE interface e 2 3iftheSIM is fora DCE Figure 2 1 Port Interface Jumper Setting
9. ia lt zu uhuy 4 S e a q n ul 2 uet B g 3 8 B git o a 5 8 4 a gt 2 5 D d N a Header J2 1 2 Header J18 2 3 39 MVME7616E Transition Module Installation and Use 6806800A43D Functional Description FIA232 DTE Configuration Port 4 Figure 3 9 1 Pi vee io RS 1 1 1 1 1 1 1 z 1 1 1 1 51 1 1 1 215 1 1 1 1 1 1 1 1 1 s pana E si sec et Ee zl 1 1 1 1 ________________________________________________ ______________________________________ 2 a q n i 1 1 1 1 1 1 1 1 1 1 2 1 a 1 o 1 z gt 1 9 1 8 1 1 R N N 1 1 Qe eee See ee eee See ea ee ee eee ee eee eae J N
10. 27 GND 59 28 RXD2 60 29 CTS2 61 30 RTS2 62 CTS3 DCD2 63 RTS3 DTR2 64 MVME7616E Transition Module Installation and Use 6806800A43D 53 Connector Pin Assignments EN 54 MVME7616E Transition Module Installation and Use 6806800A43D A mS Y SAI r Eu EMBEDDED TECHNOLOGIES Artesyn Embedded Technologies Artesyn and the Artesyn Embedded Technologies logo are trademarks and service marks of Artesyn Embedded Technologies Inc All other product or service names are the property of their respective owners 9 2015 Artesyn Embedded Technologies Inc
11. PMCIO17 Pin GND PMCIO18 N Oa wm GND PMCIO3 PMCIO19 GND GND PMCIO20 GND PMCIO21 GND 14 PMCIO6 PMCIO22 15 GND GND PMCIO23 GND PMCIO24 22 PMCIO10 GND PMCIO25 GND PMCIO26 54 23 GND GND 55 MVME7616E Transition Module Installation and Use 6806800A43D 51 Connector Pin Assignments Table 4 10 PMC I O Connector 5 Row P2 adapter continued Signal Signal j 27 GND GND 59 PMCIO13 PMCIO29 GND GND PMCIO14 PMCIO30 8 4 7 5 5 2 adapter The 4 connector on the 5 row P2 adapter is a VME 64 pin male connector used for output to the P2 connector on the MVME761 Table 4 11 VME Connector 3 Row P2 adapter Signal Pin DCD3 33 DTR3 34 TXD1 35 NEN GND 36 RXD1 37 GND 38 PRSTB_L RTS1 39 12VF GND 40 PRDO GND 41 CTS1 42 11 PRD2 GND 43 52 MVME7616E Transition Module Installation and Use 6806800A43D Connector Pin Assignments Table 4 11 VME Connector 3 Row P2 adapter continued Pin Signal Signal Pin PRD1 TXD4 44 PRD4 45 PRD3 RXD4 46 GND 47 RTS4 48 GND 49 TRXC4 50 PRACK_L CTS4 52 olol NIDJI ut BR 21 PRPE GND 53 22 PRBSY DCD4 54 23 PRINIT_L GND 55 24 PRSEL RTXC4 56 PRFAULT_L TXD2 58
12. The MVME7616E will hereafter be referred to as the MVME761 As of the printing date of this manual these I O module models are available Model Number Description MVME7616E 001 3 Row Rear Transition Module and P2 Adaptor MVME7616E 011 5 Row Rear Transition Module and P2 Adaptor MVME761P26E 001 3 Row P2 Adapter Module Only MVME761P2 6E01 1 5 Row P2 Adapter Module Only Related Product MVME51005E MVME Series MVME51005E Single Board Computer MVME51105E MVME55006E MVME Series MVME55006E Single Board Computer IPMC7616E 001 Multifunction rear PMC module Ultra Wide SCSI one parallel port IPMC7616E 002 three asynchronous and one synchronous asynchronous serial port SIM232DCE5E EIA232 DCE serial interface module SIM232DTE5E EIA232 DTE serial interface module MVME7616E Transition Module Installation and Use 6806800A43D 9 About this Manual Abbreviations 10 This document uses the following abbreviations Abbreviation Description CFM Cubic Feet per Minute DCE Data Communications Equipment DIN Deutsches Insitut fiir Normung eV DTE Data Terminal Equipment EMI Electro Magnetic Interference Electro Static Discharge Federal Communications Commission GND Ground IC Integrated Circuit IEEE Institute of Electrical and Electronics Engineers PMC PCI Mezzanine Card R Radio Frequency RTM Rear Transition Module SCSI Small Computer System Interface SIM Serial In
13. 1 e gt 75 o qoc NN 7757 o MVME7616E Transition Module Installation and Use 6806800A43D 40 Chapter 4 Connector Pin Assignments NEN 4 1 4 2 Overview This chapter provides the pin assignments for the P2 connector and front panel port connectors on the MVME761 transition module as well as for the SCSI and PMCI O connectors on the P2 adapters P2 Connector Signaling and power from the host VMEmodules are received through connector P2 a 64 pin DIN connector Because the P2 adapter reroutes some of the signals connector P2 on the MVME761 transition module is not pin for pin compatible with connector P2 on the host VMEmodules Thepin assignments and signal mnemonics for the MVME761 transition module P2 connector are listed in the following table Table 4 1 P2 Connector Pin Assignments Row A Pins Row C Pins Signal Pin Signal 1 R for RJ 45 9 C R for 45 9 2 T 3 R PRSTB PRDO 6 PRD2 7 PRD4 8 PRD6 9 GND PRBSY 11 12 PRSEL 12 INPRIME 13 PRFAULT 13 GND MVME7616E Transition Module Installation and Use 6806800A43D 41 Connector Pin Assignments Table 4 1 P2 Connector Pin Assignments continued Row A Pins Row C Pins Pin Signal Pin Signal i 14 AUTOFD 14 GND 15 SELIN 15 GND 16 16 RXD3 17 17 TRXC3 18 18 TXD1_232 19 RXD1_232
14. CTS1 21 GND 22 GND 23 GND 24 GND 25 2 GND 5 26 No Connect 26 12VF 27 MSYNC 27 GND 8 28 MCLK 2 GND 29 TXD2_232 29 GND 30 RXD2_232 30 GND 31 RTS2_232 31 CTS2_232 MDO 32 MDI 42 MVME7616E Transition Module Installation and Use 6806800A43D 4 3 4 4 Connector Pin Assignments Asynchronous Serial Port Connectors 5 6 The interface for the asynchronous serial ports COM1 and 2 is provided with two standard DB9 connectors 5 and 6 The connector shields for these ports are tied to chassis ground The pin assignments and signal mnemonics for these connectors are listed in Table 4 2 Table 4 2 COM1 and COM2 Pin Assignments TXD DTR GND DSR Asynchronous Synchronous serial Port connectors 7 8 The interface for the asynchronous synchronous serial ports 3 and 4 is provided by two HD 26 connectors 7 and 8 The connector shields for these ports are tied to chassis ground The pin assignments and signal mnemonics for serial ports 3 and 4 are listed in the following tables Table 4 3 Serial Port 3 Pin Assignments 1 No Connect 14 SP3_P14 2 TXD3 15 TXCI3 MVME7616E Transition Module Installation and Use 6806800A43D 43 Connector Pin Assignments 44 Table 4 3 Serial Port 3 Pin Assignments continued Pin Signal Pin 19 Signal SP3_P16 RXCI3 LLB3 SP3 P19 20 DTR3 21 RLB3 2 RI
15. EIA 530 balanced drives which use 10 ohm series resistors MVME7616E Transition Module Installation and Use 6806800A43D Functional Description EIA 232 D SIMs employ MC145406 ICs as line transmitters to convert the TTL output signals from the host VMEmodule to EIA 232 D voltage levels As line receivers the MC145406 ICs convert the EIA 232 D input signals to TTL voltage levels which are sent to the VME module The MC145406 transceiver IC requires a series diode on the 12V supply and a clamp diode to logic ground on the 12V supply The diodes are located on the transition module rather than on the SIM due to space limitations For all port interfaces the SIMs support the transmitter signal element timing as either input or output signals MVME7616E Transition Module Installation and Use 6806800A43D 33 Functional Description eee 3 5 and 2 Asynchronous Serial Ports The asynchronous serial port COM1 and COM2 configuration is shown in the next figures 34 MVME7616E Transition Module Installation and Use 6806800A43D Functional Description Figure 3 5 EIA 574 DTE Port Configuration Sa SS SS cci Pe ge q 1 1 TXD SOUT1 RTS RTS1 1 1 1 1 DTR DTRI 1 1 1 1 RXD I SIN1 1 1 1 c
16. without obligation of Artesyn to notify any person of such revision or changes Electronic versions of this material may be read online downloaded for personal use or referenced in another document as a URL to an Artesyn website The text itself may not be published commercially in print or electronic form edited translated or otherwise altered without the permission of Artesyn It is possible that this publication may contain reference to or information about Artesyn products machines and programs programming or services that are not available in your country Such references or information must not be construed to mean that Artesyn intends to announce such Artesyn products programming or services in your country Limited and Restricted Rights Legend If the documentation contained herein is supplied directly or indirectly to the U S Government the following notice shall apply unless otherwise agreed to in writing by Artesyn Use duplication or disclosure by the Government is subject to restrictions as set forth in subparagraph b 3 of the Rights in Technical Data clause at DFARS 252 227 7013 Nov 1995 and of the Rights in Noncommercial Computer Software and Documentation clause at DFARS 252 227 7014 Jun 1995 Contact Address Artesyn Embedded Technologies Artesyn Embedded Technologies Marketing Communications Lilienthalstr 17 19 2900 S Diablo Way Suite 190 85579 Neubiberg Munich Tempe Arizona 85282 Germany Con
17. 00 9703 3 3 P2 Signal Multiplexing P2MX Because of a limited number of pins on the P2 connector both the VME processor board and the MVME761 transition module multiplex and demultiplex some of the P2 signals This function called 2 is transparent to the software and the user MVME7616E Transition Module Installation and Use 6806800A43D 29 Functional Description eee Four pins are used for the signal multiplexing e MXSYNC e MXDO e MXDI 30 MVME7616E Transition Module Installation and Use 6806800A43D Functional Description Sixteen time slots are defined and allocated The signal multiplexing sequences are listed in the following table Table 3 1 P2 signal multiplexing sequence MXDO from the MVME510x MVME550x MXDI from the MVME7616E Signal Name Time Slot Signal Name RTS3 0 CTS3 DTR3 1 DSR3 MID1 LLB3 MODSEL DCD3 RLB3 TM3 MIDO RTS4 RI3 CTS4 DSR4 MID3 RLB4 DCD4 IDREQ TM4 MID2 DTR1 RIA DTR2 10 RIT Reserved 11 DSR1 Reserved 12 13 Reserved 13 RI2 14 Reserved 14 DSR2 15 Reserved 15 DCD2 MXCLKisthe 10MHz bit clock for the time multiplexed data lines MXDO and MXDI e MXSYNC is asserted for one bit time at Time Slot 15 by the MVME5100 and MVME5500 5 is used by the MVME761 transition module to synchronize with the VME modules MXDOisthetime multiplexed output line from the main board and MXDI is th
18. 000000000000000000000 C XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Description Indicates a hazardous situation which if not avoided could result in death or serious injury Indicates a hazardous situation which if not avoided may result in minor or moderate injury XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX Indicates a property damage message 09090000000000000000000000000000000000000000000000 i 3O000000000000000000000000000000000000000000000000 No danger encountered Pay attention to important information Summary of Changes This manual has been revised and replaces all prior editions 12 Part Number Publication Date Description 6806800A43A June 2006 First edition 6806800A43B August 2008 Updated to Emerson style 6806800A43C July 2009 Updated Table 1 6 6806800A43D April 2015 Re branded to Artesyn template MVME7616E Transition Module Installation and Use 6806800A43D Chapter 1 General Information 1 1 1 2 1 3 Overview This manual provides general information hardware preparation installation instructions and a functional description for the MVME761 001 and MVME761 011 Transition Modules The MVME761 0x1 Transition Module provides the interface between the MVM
19. 3 2 10 SP3 10 23 SP3 P23 11 SP3 P11 24 TXCO3 12 25 SP3 12 TM3 13 SP3 P13 26 No Connect Table 4 4 Serial Port 4 Pin Assignments Pin Signal Pin Signal No Connect TXD4 RXD4 N 9 a SP4_P14 SP4_P16 4 LLB4 SP4_P19 NLD oy N N SP4_P10 DTR4 SP4_P23 SP4_P11 TXCO4 SP4_P12 TM4 SP4_P13 No Connect MVME7616E Transition Module Installation and Use 6806800A43D Connector Pin Assignments 4 5 Parallel I O Port Connector 4 The interface for the parallel port is a standard IEEE P1284 C 36 pin connector J4 The functionality of each signal depends on the mode of operation of this bidirectional Parallel Peripheral Interface Refer to the IEEE P1284 D2 00 Standard for a complete description of each signal function The connector shield is tied to chassis ground The pin assignments and signal mnemonics for this connector are listed in Table 4 5 Table 4 5 Parallel I O Connector Pin Assignments Signal Pin PRBSY GND 19 PRSEL GND 20 PRACK_ GND 21 PRFAULT_ GND 22 GND 23 GND 24 GND 25 GND 26 GND 27 GND 28 GND 29 GND 30 GND 31 INPRIME GND 32 PRSTB GND 33 16 SELIN_ GND 34 17 AUTOFD_ GND 35 18 Pull up No Connect 36 MVME7616E Transition Module Installation and Use 6806800A43D 45 Connector Pin Assignments 4 6 4 7 4 7 1 46
20. E5100 or MVME5500 Single Board Computer VMEmodules and various peripheral devices This module provides industry standard connectors to simplify customer cable requirements for the serial port printer and Ethernet signals Features The features of the MVME761 0x1 Transition Module include e Industry standard connectors for these interfaces Two 574 asynchronous serial ports DTE Twoasynchronous synchronous serial ports configured for 232 0 DCE or DTE parallel port IEEE Standard 1284 1 compliant T0Base T 100Base TX Ethernet e Two 60 pin Serial Interface Module SIM connectors for configuring the asynchronous synchronous serial ports e Single width board Electro Magnetic Interference EMI and Electro Static Discharge ESD protection General Description The MVME761 0x1 Transition Module provides the interface between the standard Ethernet parallel port and the serial port connectors on a variety of single board computers All port I O controllers reside on the host VMEmodules The MVME761 transition module Ethernet and parallel port circuitry is passive The serial port circuitry provides multiplexing and buffering functions referto P2 Signal Multiplexing P2MX on page 29 The multiplexing function is transparent to the user MVME7616E Transition Module Installation and Use 6806800A43D 13 General Information Both MVME761 0x1 models use the same transition module The MVME761 001 comes w
21. MVME7616E Transition Module Installation and Use P N 6806800A43D April 2015 R Copyright 2015 Artesyn Embedded Technologies Inc All rights reserved Trademarks Artesyn Embedded Technologies Artesyn and the Artesyn Embedded Technologies logo are trademarks and service marks of Artesyn Embedded Technologies Inc 2015 Artesyn Embedded Technologies Inc All other product or service names are the property of their respective owners Intel is a trademark or registered trademark of Intel Corporation or its subsidiaries in the United States and other countries Java and all other Java based marks are trademarks or registered trademarks of Oracle America Inc in the U S and other countries Microsoft Windows and Windows Me are registered trademarks of Microsoft Corporation and Windows is a trademark of Microsoft Corporation PICMG CompactPCI AdvancedTCA and the PICMG CompactPCI and AdvancedTCA logos are registered trademarks of PCI Industrial Computer Manufacturers Group UNIX is a registered trademark of The Open Group in the United States and other countries Notice While reasonable efforts have been made to assure the accuracy of this document Artesyn assumes no liability resulting from any omissions in this document or from the use of the information obtained therein Artesyn reserves the right to revise this document and to make changes from time to time in the content hereof
22. P2 adapter or header 5 on the 5 row P2 adapter if you are supporting SCSI devices 6 Attach the P2 adapter for either the 3 row or 5 row version to the backplane connector that is directly in line with the P2 connector on the host VMEmodule 7 Orient pin 1 of the P2 adapter s connector with pin 1 of the backplane connector 8 Attach the 64 conductor cable furnished with the MVME761 0x1 to the P2 adapter 3 the 3 row version 4 on the 5 row version Be sure to orient cable pin 1 with connector pin 1 9 Attach the 64 conductor cable to connector P2 on the transition module Be sure to orient cable pin 1 with connector pin 1 10 Insertthe transition module into the chassis slot and tighten the attaching screws Make sure there is good contact with the transverse mounting rails in order to minimize RF emissions 11 Install the chassis cover making sure that cables are not pinched by the cover 12 Connect the power cable to the AC power source 26 MVME7616E Transition Module Installation and Use 6806800A43D Chapter 3 Functional Description w 3 1 Overview This chapter provides information on MVME761 transition module and SIM circuitry P2 signal multiplexing and the configuration of the serial ports 3 2 Circuitry The MVME761 transition module and the Serial Interface Modules SIMs convert the TTL level signals to and from the MVME5100 and MVME5500 modules to the reception and transmission levels specified
23. Ts count CTS1 1 1 1 1 DSR DSR1 1 1 1 DCD DCD1 1 1 1 1 1 1 1 1 GND 1 1 I PC87308 P2 P2MX 1 1 1 1 1 1 TXD SOUT2 1 1 E 1 RTS RTS2 b 1 1 1 1 DTR DTR2 1 1 1 1 RXD 1 SIN2 1 1 1 1 1 1 lt 1 1 1 1 1 DSR 1 DSR2 l l l 1 1 1 1 1 DCD2 ec 1 1 1 1 1 RI2 BI l l 1 1 GND 1 1 1 VME Module MVME761 Transition Module So MVME7616E Transition Module Installation and Use 68068004430 35 Functional Description eee 3 6 Asynchronous Synchronous Serial Ports The asynchronous synchronous serial port Port 3 and Port 4 interface configuration diagrams are on the following pages 36 MVME7616E Transition Module Installation and Use 6806800A43D Functional Description E 1 1 1 eee Sees 1 1 1 1 1 1 1 Y V Y i 1 19 1 1 16 1 1 EOS l l 1 lt 2 1
24. amaged if you use it with an MVME761 0x1 Transition Module Connecting modules while power is applied may result in damage to components on the module Dangerous voltages capable of causing death are present in this equipment use extreme caution when handling testing and adjusting 24 MVME7616E Transition Module Installation and Use 6806800A43D Hardware Preparation and Installation Figure 2 4 Chassis Connections VME BACKPLANE MVME761 Transition Module Host Board E L PA n 30 W2799B02A 64 CONDUCTOR P2 ADAPTER ts P2 P2 H J3 ON THE 3 ROW P2 ADAPTER H J4 ON THE 5 ROW P2 ADAPTER di ENCLOSURE BOUNDARY 11654 00 9610 Procedure Follow these steps to configure install and cable the transition module 1 Turn all equipment power OFF and disconnect the power cable from the AC power source 2 Remove the chassis cover per the instructions in the equipment user s manual 3 If the chassis has a rear card cage remove the filler panel s from the appropriate card slot s at the rear of the chassis MVME7616E Transition Module Installation and Use 6806800A43D 25 Hardware Preparation and Installation 4 If necessary move some of the other modules to allow space for the cables connected to the P2 adapter and the transition module 5 Install the jumper on header 1 on the 3 row
25. by the appropriate port interface standard The MVME761 transition module contains a small amount of house keeping circuitry Bulk capacitors are on the power sources 5Vdc 12Vdc and 12Vdc Pull up resistors put the inputs to the host board in a known high even when no SIM is installed MVME7616E Transition Module Installation and Use 6806800A43D 27 Functional Description The block diagram for the MVME761 transition module is shown in Figure 3 1 The block diagram for the 3 row DIN backplane P2 adapter is shown in Figure 3 2 The block diagram for the 5 row DIN backplane P2 adapter is shown in Figure 3 3 Figure 3 1 X Transition Module Block Diagram 10Base T Parallel COM1 Serial 3 Serial 4 100Base TX Serial Interface Serial Interface Module SIM Module SIM A Buffers EIA 232 D P2 Multiplex Function v 64 Pin DIN Connector 11638 00 9611 28 MVME7616E Transition Module Installation and Use 6806800A43D Functional Description Figure 3 2 3 Row DIN Backplane P2 Adapter Block Diagram 8 bit Single ended SCSI 64 pin Connector to MVME761 Transition Module SCSI Terminators 3 Row Backplane Connector 11639 00 9611 Figure 3 3 5 Row DIN Backplane P2 Adapter Block Diagram 16 bit Single ended SCSI 64 pin Connector to MVME761 Transition Module A SCSI Terminators PMC 5 Row Backplane Connector 11752
26. e MVME761 transition module MVME7616E Transition Module Installation and Use 6806800A43D 15 General Information 1 6 Three row P2 Adapter MVME761 001 The P2 adapter for the MVME761 001 mounts onto a 3 row 96 pin P2 backplane connector The 50 pin male connector J2 carries the 8 bit SCSI signals from the host VMEmodules To run SCSI devices you may install an additional transition module that is equipped with a SCSI port such as the MVME7 12B Figure 1 2 Three Row P2 Adapter 00000000000000000000 1 5 c2 1933 9610 This 2 adapter and the cable for connecting to the MVME761 transition module can be ordered separately as model MVME761P2 001 16 MVME7616E Transition Module Installation and Use 6806800A43D General Information 1 7 1 8 Five Row P2 Adapter MVME761 011 The P2 adapter for the MVME761 011 mounts onto a 5 row 160 pin P2 backplane connector The 68 pin female connector 1 carries 16 bit SCSI signals from the host VMEmodules It also has a 64 pin male connector 3 for PMC I O Figure 1 3 Five Row P2 Adapter 00000000000000000000000000000000 This P2 adapter and the cable for co
27. e time multiplexed line from the MVME761 transition module A 16 to 1 multiplexing scheme is used with a 10MHz bit rate MVME7616E Transition Module Installation and Use 6806800A43D 31 Functional Description Figure 3 4 MXCLK MXSYNC MXDO MXDI 3 4 32 MXSYNC is clocked out using the falling edge of MXCLK and MDXO is clocked out with the rising edge of the MXCLK MXDI is sampled the rising edge of MXCLK the transition module synchronizes MXDI with MXCLK s rising edge The timing relationships among MXCLK MXSYNC MXDO and MXDI are illustrated in the next figure Multiplex Signal Timing Chart Time Slot 15 Time Slot 0 Time Slot 1 Time Slot 2 Time Slot 3 Reserved gt D lt D DCD2 lt DSR3 lt DCD3 TM3 11640 00 9611 Serial Interface Module Circuitry Each Serial Interface Module has a 60 pin connector that provides all signal and power connections to the MVME761 transition module TTL evel signals All TTL level signals with the exception of data and clocks are active low The pullup resistors on the MVME761 transition module drive all TTL inputs to the SIM to a known logic level SIMs The SIMs have surge suppression circuitry for all port signals going to the external connector This consists of a series resistor and a dual 15V clamp diode to chassis ground All series resistors 100 ohms except on the
28. ided Do not over tighten the screws Figure 2 3 Installing the SIM 1911 9609 MVME7616E Transition Module Installation and Use 6806800A43D 23 Hardware Preparation and Installation 2 4 Installing the Transition Module and P2 Adapter Install the MVME761 transition module and P2 adapter in the system chassis The P2 adapter is required because the P2 connector on the transition module is not compatible with the P2 connector on the chassis backplane UseEsp Artesyn strongly recommends that you use an antistatic wrist strap and a conductive foam pad protection when installing or upgrading a system Electronic components such as disk drives computer boards and memory modules can be extremely sensitive to electrostatic discharge ESD After removing the component from its protective wrapper or from the system place the component flat on a grounded static free surface and in the case of a board component side up Do not slide the component over any surface If an ESD station is not available you can avoid damage resulting from ESD by wearing an antistatic wrist strap available at electronics stores that is attached to an active electrical ground Note that a system chassis may not be grounded if itis unplugged Install the MVME761 0x1 in the system chassis according to the procedures in this chapter An MVME5100 MVME5500 module that is designed for use with an MVME712M Transition Module will be d
29. ith a P2 adapter that connects to a 3 row DIN chassis backplane The MVME761 011 comes witha P2 adapter that connects to a 5 row DIN chassis backplane Figure 1 1 shows the MVME761 transition module component layout and the front panel See Table 1 2 for a list of the front panel port connectors Figure 1 1 RTM Front Panel and Components Side 14 MVME7616E Transition Module Installation and Use 6806800A43D General Information 1 4 1 5 Serial Port Interface Modules You may configure the asynchronous synchronous serial ports ports 3 and 4 to the appropriate interface by installing a Serial Interface Module SIM A SIM is a small plug in printed circuit board that converts the TTL level synchronous or asynchronous port signals to industry standard voltage levels used by the ports The SIM contains the receiver and transmitter circuits for converting the input and output signals of the host VMEmodule to the appropriate serial data communication protocol The SIMs for the MVME761 are listed in the following table Table 1 1 SIM Part Numbers Interface Model Number Part Number EIA 232 D DCE SIM232DCE5E 01 W3876B11A EIA 232 D DTE SIM232DTE5E 01 W3877B11A Additional SIMs may be released Please see your Artesyn representative for a complete list of SIMS that are available for the MVME761 0x1 P2 Adapter Boards The P2 adapters route the asynchronous and synchronous port printer port and Ethernet signals to th
30. male IDC connector for internal SCSI devices 18 MVME7616E Transition Module Installation and Use 6806800A43D General Information Table 1 5 Transition Module Cables Part Number Description Included with the 64 line flat ribbon cable with 96 pin DIN connectors that connects P2 MVME761 0x1 on the 76 transition module to 3 on the 3 row P2 Adapter or JA on the 5 row P2 adapter 13 inches long 30 W2799B02A User supplied EIA 232 D DTE or DCE cable pins used depend on the processor VMEmodule User supplied Centronics type parallel printer cable male to male User supplied 20 conductor cable usually supplied with the modem User supplied 6 conductor cable usually supplied with the modem CBL761HD26DB25 Straight through adapter cable with male HD 26 connector and female DB 25 connector 3 feet long 30 NW9302B27 If you supply your own 64 line cable to connect the P2 adapter to the MVME761 transition module the cable should not be longer than 1 5 feet A longer cable is likely to cause problems especially for the Ethernet and parallel port signals 1 9 Specifications The MVME761 transition module specifications are shown in the next table Table 1 6 MVME761 0x1 Specifications Characteristics Specifications Power Requirements 12 Vdc 100 mA typical 200 mA maximum 12 Vdc 100 mA for some of the SIMs Operating temperature 0 to 55 C at chassis point of entry of forced air a
31. nnecting to the MVME761 transition module can be ordered separately as model MVME761P2 011 Connectors and Cables The connectors on the MVME761 transition module and the P2 adapters are listed in the following tables The port connectors are located on the front panel which is shown in Figure 1 1 See Table 1 5 on page 19 fora list of the cables See Chapter 4 Connector Pin Assignments The cable used for connecting the MVME761 transition module to the P2 adapter is provided with the MVME761 0x1 MVME7616E Transition Module Installation and Use 6806800A43D 17 General Information 1 You will need to purchase or fabricate the port cables Table 1 2 MVME761 Transition Module Connectors Number Description COM and 5 9 pin male DIN asynchronous serial port connector COM2 6 Serial port 3 7 26 pin female HD 26 synchronous serial port Serial port 4 8 connector Parallel port 4 36 pin female parallel port connector 10Base T 9 8 pin female 45 Ethernet port connector J1 J12 60 pin female connector VME P2 64 pin male connector to J2 on the P2 adapter 64 pin male connector for output to P2 on the MVME761 transition module SCSI J2 50 pin male IDC connector for internal SCSI devices Type Number Description 160 pin female DIN 41612 connector to the chassis backplane 64 pin male connector for output to P2 on the MVME761 transition module 64 male connector PMC I O 68 pin fe
32. pproximately 5 CFM Storage temperature 40 to 859 C Relative Humidity 5 to 90 non condensing MVME7616E Transition Module Installation and Use 6806800A43D 19 General Information 1 10 1 11 20 Table 1 6 MVME761 0x1 Specifications continued Characteristics Specifications Board Size Height 9 187 inches 233 35 mm excluding front panel Height 3 200 inches 80 00 mm Thickness 0 063 inches 1 60 mm MVME761P26E 001 1 85 deep 3 75 high MVME761026E 011 2 725 deep 3 75 high 1 12 extends 1 4 further from the edge of the board Cooling Requirements MVME761 0x1 is tested to operate under forced air cooling with an incoming air temperature range of 0 degrees C to 55 degrees C Adequate cooling can be achieved with air flowing over the module at 5 cubic feet per minute The exact amount of airflow required for cooling depends on the ambient air temperature and the type number and location of modules and other heat sources FCC Compliance The MVME761 0x1 was tested in an FCGcompliant chassis and meets the requirements for Class A equipment For minimum RF emissions it is essential that you implementthe following conditions e Install shielded cables on all external ports e Connect conductive chassis rails to earth ground to provide a path for connecting shields to earth ground e Tighten all front panel screws MVME7616E Transition Module Installation and Use 6806800A43D
33. r on the 5 row DIN backplane P2 Adapter is a 68 pin connector 1 The pin assignments and signal mnemonics for this connector are listed in Table 4 9 Table 4 9 16 bit SCSI Connector 5 Row P2 adapter Pin Signal Signal Pin 1 GND SDB12 35 2 GND SDB13 36 GND 50814 37 GND SDB15 38 5 GND DBP1 39 6 GND SDBO 40 7 GND 5081 41 8 GND SDB2 42 5 GND SDB3 43 GND 5084 44 11 GND 5085 45 12 GND SDB6 46 MVME7616E Transition Module Installation and Use 6806800A43D 49 Connector Pin Assignments Table 4 9 16 bit SCSI Connector 5 Row P2 adapter continued Pin Signal Signal Pin GND SDB7 47 GND DBPO 48 GND GND 49 16 GND GND 50 17 TERMPWR TERMPWR 51 18 TERMPWR TERMPWR 52 19 No Connect No Connect 53 GND GND 54 GND ATN 55 22 GND GND 56 23 GND BSY 57 24 GND ACK 58 25 GND RST 59 GND MSG 60 GND SEL 61 28 GND D C 62 29 GND REQ 63 30 GND ofi 64 31 GND SDB8 65 GND SDB9 66 GND SDB10 67 34 GND SDB11 68 50 MVME7616E Transition Module Installation and Use 6806800A43D Connector Pin Assignments 47 4 5 Row P2 Adapter 3 The connector on the 5 row DIN backplane P2 Adapter is 64 pin connector 3 The pin assignments and signal mnemonics for this connector are listed in Table 4 10 Table 4 10 PMC I O Connector 5 Row P2 adapter Pin 1 NJ w 2 Signal GND Signal GND PMCIOO PMCIO16 GND
34. tents 4 About this Manual UE ER 9 1 General Information s s uuu uuu u uu PUE TE DLP 13 13 1 2 Features MS 13 7 3 General Description eec errire n wind ree E WAR ce 13 1 4 Serial Port Interface 5 15 1 5 P2AAdapter Boards 422042 e cometer ___ ewe dk aka 15 1 6 Three row P2 Adapter MVME761 001 16 1 7 Five Row P2 Adapter MVME761 011 17 1 8 Connectors and Cables 17 1 9 Specifications ces a RA RR ERN EG 19 1 10 Cooling Requirements 20 1 11 FCC Compliance e hr ht hy E d Re 20 2 Hardware Preparation and Installation 21 2 reser RU E CE 21 2 2 Unpacking the Hardware sees eere ee ey ea 21 2 3 Installing the Serial Interface Modules 21 2 4 Installing the Transition Module and P2 24 3 Functional cd bi ca hee 27 EAEE DUgIU
35. terface Module VME Versamodule Eurocard MVME7616E Transition Module Installation and Use 6806800A43D About this Manual Conventions The following table describes the conventions used throughout this manual Notation 0x00000000 Description Typical notation for hexadecimal numbers digits are 0 through F for example used for addresses and offsets 0b0000 Same for binary numbers digits are 0 and 1 bold Screen Courier Bold Used to emphasize a word Used for on screen output and code related elements or commands in body text Used to characterize user input and to separate it from system output Reference File gt Exit lt text gt text Used for references and for table and figure descriptions Notation for selecting a submenu Notation for variables and keys Notation for software buttons to click on the screen and parameter description Repeated item for example node 1 node 2 node 12 Omission of information from example command that is not necessary at the time being Ranges for example 0 4 means one of the integers 0 1 2 3 and 4 used in registers Logical OR MVME7616E Transition Module Installation and Use 6806800A43D 11 About this Manual Notation XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXNXXXXXXXXXXXXXXXXXXXXX 3OO0O000O000000000000000000000
Download Pdf Manuals
Related Search