MVME760 Transition Module User`s Manual
Contents
1. o is O O J8 J9 A1 A32 o Sp 1 5 C1 c32 C6 O C12 3 1 u2 U4 U6 CR1 CR2 e C2 C5 CB Ci 1 c31 fi FI c41 c48 q 60 E 2 60 je 2 C37 C40 C44 R11 C47 R15 C51 Sg 1 59 1 C17 U7 us US e 4 1 1 1 R12 R14 Ut o us SID nis C23 Cao R22 R23 o o o o e 2 B 5 z 5 ci c3 c7 Co 2 g z g I Lal 25 1 25 1 C39 1 F 26 J2 2 i 26 J7 2 C36 C43 C46 C50 VR3 VR6 C20 C19 C33 VR14 VR13 1 m C22 R18 C34 2 E z NEL pvr C25 n c13 e c28 5 amp 2 VR2 VR5 Ara VAS VRIO VRI2 za C29 c24 mel Roy LH A v bi c21 Di U GO fhvas C18 l R2 1 C45 C42. FRONT PANEL SIM08 DB25 Z85230 P2 P2MX EIA 530 DCE 3M Port 3 only PORTS 3 4 NC 1 e PIN1 2 TOR PIN 14 TXD i D TXD A 6 big 3 abet PIN2 lt 6 mxpa PINS RADE 5 e PINS RTS B RTS D RAT PINTS x m 7 e PING CTS B 25 cis at PINTS CTS et R 9 ed PING DTR_B ba 20 omm at PIN23 1 14 e PIN 20 DCD ja RL DSR B 18 PIN22 D D DSR A 11 e PING TXC B J9 J8 23 e PIN 12 wv 2 4 TXCA pints o RXC_B TRXC pat 2 D V axo at PINS rl I 8 e PIN 17 Ni bit PIN 11 21 R TXCO A RTXC jat me 22 e PIN 24 5V TMA AM D gt 0 24 e PIN25 LLA NC 10 e PIN 18 ALA Z8536 CIO NC 16 e PIN 21 13 PIN7 v DTR_ D 46 DCB B pop PIN10 15 e PINS 1557 9412 Figure 3 5 Ports 3 4 in EIA 530 DCE Configuration Serial Ports 3 and 4 FRONT PANEL SIM08 DB25 285230 P2 P2MX EIA 530 DTE 3M Port 3 only PORTS 3 4 NG 1 PIN1 TXD B TXD D 2 Ko at PIN14 c 3 s PIN2 E RXD B PIN 16 RXD t R n AXDA iu 5 e PING 12 BIS PIN 19 RTS D RISA 7 s PING CTS B 25 PIN 13 CTS lag R Tw 9 CISA s PINS
3. Number Pin Signal Mnemonic Signal Name and Description 1 GND SIGNAL GROUND 2 C COLLISION Input a signal to indicate that multiple stations are contending for access to the transmission medium 3 T TRANSMIT Output this line is intended to operate into terminated transmission lines 4 GND SIGNAL GROUND 5 R RECEIVE Input a data input sourced by the MAU 6 GND SIGNAL GROUND 7 Not used 8 GND SIGNAL GROUND 9 C COLLISION Input part of a differential pair 10 T TRANSMIT Output part of a differential pair 11 GND SIGNAL GROUND 12 R RECEIVE Input part of a differential pair 13 12VF 12 Vdc Power 1 1A Polyswitch 14 GND SIGNAL GROUND 15 Not used 3 14 IEEE P1284 Parallel I O Connector Each pin connection signal mnemonic and signal description for the 10BaseT comnector is listed in the following table The 10BaseT connector shield is tied to chassis ground Table 3 3 10BaseT Connector Pin Assignments Pin Signal Signal Name and Number Mnemonic Description 1 TD Transmit Data 2 TD Transmit Data 3 RD Read Data 4 Not used 5 Not used 6 RD Read Data 7 8 Not used IEEE P1284 Parallel I O Connector The parallel I O connector is a standard IEEE P1284 C 36 pin receptacle on the MVME760 front panel The functionality of each signal depends on the mode of operation of t
4. part of a differential pair C4 RD RECEIVE DATA A4 RD RECEIVE DATA C5 TD TRANSMIT DATA A5 TD TRANSMIT DATA C6 12V 12Vdc Power A6 PRDO Refer to the IEEE P1284 D2 00 Standard C7 PRD1 Refer to the IEEE P1284 D2 00 Standard A7 PRD2 Refer to the IEFE P1284 D2 00 Standard C8 PRD3 Refer to the IEEE P1284 D2 00 Standard A8 PRD4 Refer to the IEFE P1284 D2 00 Standard C9 PRD5 Refer to the IEFE P1284 D2 00 Standard A9 PRD6 Refer to the IEEE P1284 D2 00 Standard C10 PRD7 Refer to the IEFE P1284 D2 00 Standard 3 10 P2 Connector Table 3 1 Connector P2 Interconnect Signals MVME760 Continued Pin Number Signal 3 a 5 o 5 n i Signal Name and Description GND SIGNAL GROUND PRACK_ Refer to the IEEE P1284 D2 00 Standard PRBSY Refer to the IEEE P1284 D2 00 Standard PRSEL Refer to the IEEE P1284 D2 00 Standard PRFAULT_ Refer to the IEEE P1284 D2 00 Standard AUTOFD Refer to the IEEE P1284 D2 00 Standard 5Vdc Power V GND SIGNAL GROUND CTS1 CLEAR TO SEND serial port 1 CTS is a function supplied to the terminal by the modem and indicates that it is permissible to begin transmission of a message When using a modem CTS follows the off to on transition of RTS after a D P2 A10 C11 All C12 A12 C13 A13 C14 A14 C15 A15 C16 time delay RXD1 RECEIVE DATA serial port 1 data that is demodulated from the receive line is presented to the terminal by the modem
5. 19 RODE PIN 10 kag R Tw DCD_A DCD_ 15 s PINS DSR_B NG CR 16 DSRA PIN2 J9 J8 11 s PING TXC B PIN 12 1 R Lm 23 TXCA SV N b 4 e PIN15 3 i RXC B 17 PINO TRXC C R Lm RXC A 8 s PIN17 TXCO B 21 e PINTI 3lo D TXCO A 22 a PIN 24 RTXC TM_A m NC 24 e PIN25 LLA 45V D 10 e PIN 18 RLA 45V D 16 PIN21 Z8536 CIO 13 PIN7 20 DIR PIN 23 DTR_ gt 5 Uma DTR A 14 s PIN 20 1558 9412 Figure 3 6 Ports 3 4 in EIA 530 DTE Configuration Support Information P2 Connector P2 is a 64 pin DIN connector providing power and signaling The 64 pin ribbon cable P N is 30 W2514B02 Table 3 1 shows the interconnect signals Note Row B is not populated Power distribution and signaling are accomplished using rows A and C only Table 3 1 Connector P2 Interconnect Signals MVME760 Pin Number Signal P2 Mnemonic Signal Name and Description cl C COLLISION Input Ethernet a signal to indicate that multiple stations are contending for access to the transmission medium A1 C COLLISION Input Ethernet part of a differential pair G2 T TRANSMIT Output Ethernet this line is intended to operate into terminated transmission lines A2 T TRANSMIT Output Ethernet part of a differential pair C3 R RECEIVE Input Ethernet a data input sourced by the MAU A3 R RECEIVE Input Ethernet
6. CTS follows the off to on transition of RTS after a time delay A22 C23 DSR2 DCD2 DATA SET READY serial port 2 a function supplied by the modem to the terminal to indicate that the modem is ready to transmit data DATA CARRIER DETECT serial port 2 sent by the modem to the terminal to indicate that a valid carrier is being received A23 C24 RD TXD2 RING INDICATOR serial port 2 Sent by the modem to the terminal indicating the ringing signal is present TRANSMIT DATA serial port 2 data to be transmitted is furnished on this line to the modem from the terminal A24 RTS2 REQUEST TO SEND serial port 2 RTS is supplied by the terminal to the modem when it is required to transmit a message With RTS off the modem carrier remains off When RTS is turned on the modem immediately turns on the carrier 3 12 P2 Connector Table 3 1 Connector P2 Interconnect Signals MVME760 Continued Pin Number Mnemonic Signal Name and Description DATA TERMINAL READY serial port 2 a signal from the terminal to the modem indicating that the terminal is ready to send or receive data SIGNAL GROUND RECEIVE DATA serial port 3 data that is demodulated from the receive line is presented to the terminal by the modem RECEIVE CLOCK serial port 3 this line can be configured to clock input data from a terminal to a modem TRANSMIT DATA serial port 3 data t
7. DTE DCE DTE 4 c m ojo m olo c F1 1 1A POLYSWITCH SERIAL PORT 3 P2 Figure 2 2 MVME760 Header Locations 1545 9410 2 3 Configuring Serial Ports 3 and 4 Configuring Serial Ports 3 and 4 Headers J9 and J8 are used to configure Serial Port 3 and Serial Port 4 respectively When the jumper is in position 1 2 the port is configured as a DTE When the jumper is in position 2 3 the port is configured as a DCE The jumper setting must match the corresponding SIM module controlling that port DTE or DCF When installing the SIM modules note the headers are keyed for proper orientation J9 J9 H N 2 3 DCE J8 EB m 2 3 DCE Serial Port 3 jumper settings Serial Port 4 jumper settings 15446 9410 2 4 Hardware Preparation and Installation Installation Instructions A Caution A Warning The basic procedure for installation of the MVME760 module is as follows 1 Turn all equipment power OFF and disconnect the power cable from the AC power source Connecting modules while the power is applied mav result in damage to components on the module Dangerous voltages capable of causing death are present in this equipment Use extreme caution when
8. handling testing and adjusting 2 Remove the chassis cover as instructed in the equipment user s manual 3 Remove the filler panel s from the appropriate card slot s at the rear of the chassis if the chassis has a rear card cage Other modules in the unit may have to be moved to allow space for the cables connected to the MVME760 module 4 Install SIM modules for Serial Ports 3 and 4 see Figure 2 2 for location of SIMs 5 Install MVME760 module in rear card cage 6 Attach the flat ribbon cable supplied with the MVME760 module from P2 on the host board to P2 on the Transition Module Be sure to orient cable pin 1 with connector pin 1 See Figure 2 3 7 After making sure you will not pinch cables with the cover reinstall the cover you previously removed 8 Connect the power cable to the AC power source and turn on the unit 2 5 Installation Instructions MVME760 J3 HOST J5 i J10 V U HK J11 J12 ENCLOSURE BOUNDARY KL 1548 9412 Figure 2 3 MVME760 Cable Connections 2 6 Support Information Introduction This chapter provides the interconnection signals parts lists parts location illustrations and schematic diagrams for the MVME760 Transition Module The block diagram for the MVME760 Transition Module is shown in Figure 3 1 3 1 Support Information 10BaseT AUI PARALLEL COM1 COM2 SERIAL 3 RJ45 D
9. implementation Refer to related documentation Parts Lists and Locations The following parts lists and parts location drawings reflect the latest issue of hardware at the time of printing Parts lists are illustrated in Table 3 8 Parts locations are illustrated in Figure 3 7 Model Parts List MVME760 Table 3 8 Parts Location Drawing Figure 3 7 Table 3 8 MVME760 Module Parts List Reference Motorola Designation Part Number Description 84 W8000F01A Printed wiring board MVME760 CR1 CR2 48NW963A04 Rectifier Schottky C1 12 16 17 23 21NW9711A02 Capacitor fixed ceramic 100KpF 30 35 40 42 43 45 46 49 50 C13 18 21NW9711A20 Capacitor fixed ceramic 220pF C14 19 32 34 21NW9711A21 Capacitor fixed ceramic 47pF C15 20 22 24 21NW9711A29 Capacitor fixed ceramic 470pF 26 29 C27 28 21NW9711A12 Capacitor fixed ceramic 680pF C31 48 23NW9712A04 Capacitor fixed 10 uF 25 Vdc 3 20 Parts Lists and Locations Table 3 8 MVME760 Module Parts List Continued Reference Motorola Designation Part Number Description C41 23NW9712A06 Capacitor fixed 33 uF 15 Vdc C44 47 51 21NW9711A11 Capacitor fixed ceramic 22pF F1 06NW9650A01 Polyswitch 1 1A J1 3 28NW9802H73 Connector 9 pin plug J2 7 28NW9802G11 Connector 26 pin J4 6 28 W6249B01 Connector receptacle SMT2X30 J5 28NW9802K30 Connector 26 pin miniature J8
10. J9 29NW9805C07 Pin square auto insert J10 28NW9802K76 Connector 36 pin receptacle J11 28NW9802 64 Connector 15 pin socket JA2 28NW9802K05 Modular jack 8 pin shielded P2 28NW9802E05 Connector 64 pin plug PWB R1 2 51NW9635A28 Resistor network 16 pin 8 100 ohm 2 R3 065W 965A14 Resistor SMD 1K ohm 5 1 8 W R4 11 12 14 065W965A24 Resistor SMD 22 ohm 5 1 8 W 15 R5 8 5INW9635A13 Resistor network 16 pin 8 22 ohm 290 R9 10 13 51NW9635A14 Resistor network 16 pin 15 10K ohm 2 R16 51NW9635A35 Resistor network 16 pin 15 4 7K ohm R17 51NW9635A06 Resistor network 16 pin 8 33 ohm 2 R18 19 065W 965B62 Resistor SMD 33 ohm 1 8W 5 R20 21 06S5W 965 A02 Resistor SMD 100 ohm 1 8 W 5 U1 4 51NW9615Z19 L C MC145406DW 16 pin U5 6 51 W5888B88 LC PAL U7 8 10 51NW9637D11 LC SN74BCT244DB 20 pin U9 51NW9615P91 I C N74F04D 14 pin U11 51NW9615P82 I C N74F7AD 14 pin U12 51NW9615Y31 LC N74F163AD 16 pin U13 16 51NW9637E49 LC MC74F251D 16 pin 3 21 Support Information Table 3 8 MVME760 Module Parts List Continued Reference Motorola Designation Part Number Description U14 15 51NW9637C20 1 C MC74F257AD 16 pin 64 W4478C01A Front Panel MVME760 001 30 W2514B02 17 length 64 pin ribbon cable 3 22 Parts Lists and Locations
11. Signals 3 15 parts lists 3 20 Parts Lists and Locations 3 20 Ports 3 8 Ports 3 4 in ELA232 DCE Configura tion 3 6 Ports 3 4 in EIA232 DTE Configura tion 3 7 Ports 3 4 in ELA 530 DCE Configura tion 3 8 Ports 3 4 in EIA 530 DTE Configura tion 3 9 Power Requirements 1 2 R RF emissions 1 3 XMOZ Index S Schematic Drawings 3 22 3 24 Serial I O Data Rate 3 20 Serial Interface Modules 1 3 Serial Port 4 Connector 3 19 Serial Ports 3 and 4 3 5 Specifications 1 2 Storage temperature 1 2 U Unpacking Instruction 2 1
12. Technical Data and Computer Software clause at DFARS 252 227 7013 Motorola Inc Computer Group 2900 South Diablo Way Tempe Arizona 85282 Preface The MVME760 User s Manual provides general information hardware preparation installation instructions and support information for the MVME760 Transition Module The MVME760 module is used as the interface between host VMEmodules and various peripheral devices A ribbon cable is used to connect the MVME760 Transition Module to the host VMEmodule This manual is intended for anvone who wants to design OEM svstems supplv additional capabilitv to an existing compatible svstem or for use in a lab environment for experimental purposes A basic knowledge of computers and digital logic is assumed To use this manual vou should be familiar with the publications listed in the following section Related Documentation Related Documentation The Motorola publications listed below are referenced in this document If not shipped with this product manuals mav be purchased bv contacting vour local Motorola sales office Motorola Document Title Publication Number MVME1603 MVME1604 Single Board Computer Installation and Use V1600 1A IH MVME1603 MVME1604 Single Board Computer Programmer s V1600 1A PG Reference Guide MVME1603 MVME1604 Support Information V1600 1A SC PM603 PM604 Processor Memory Mezzanine Module User s Manual PM603A UM PPCBug Debugging Package U
13. installed and used in a cabinet with adequate EMI protection Contents CHAPTER1 General Information ARO UCI a AA PN ME 1 1 Features of the MVME760 Module tont iecit dnd l 1 Specifica HoN S nrnna n a a a a iuesaeums 1 2 Cooling Requirements uuueoidat esed anda APA 1 2 FEE OM l ALE ocaecat biet puit ee Dude E ludens pei toti Gud 1 3 General Description ss a ie den Reus Lai tan tud HR 1 3 CHAPTER 2 Hardware Preparation and Installation AKUN e soient ud aur d dd tpe t DSN SS 2 1 Unpacking Insteetlon sti pietate tantis tk Apc Ud adea ait d luas 2 1 MVME760 Module Preparatioti iss asaan er 2 1 Configuring Serial Ports 3 and AA hebreo an onsite tie 2 4 Installation PSU CHOTISQ det qut ite aia skais 2 5 CHAPTER 3 Support Information Introductionis xii eve hte eee eec eic ee e TRE RR eite 3 1 COMI and COM2 Serial Ports 3 3 Se al Pors 3 and 4 5 enata RERO 3 5 P2 Contiectot i etude tet i iie det atb istab 3 10 Ethernet AUI and 10BaseT Connectors eee 3 14 IEEE P1284 Parallel I O Connector eee 3 15 COM1 and COM2 Connectors 3 16 Serial Port 3 Connectors s 3 17 Serial Port 4 Connector 3 19 Serial I O Data Rate ea deste et o edit is 3 20 Ethernet Data Rate et enit ette ette ede es b e ls 3 20 Parts Lists and Locations sese tnnnen 3 20 Schematic Dra Wings AA APA 3 24 vii vili Figure 2 1 Figure 2 2 Figure 2 3 Figure 3 1 Figure 3 2 Figure 3 3 Figur
14. that it is permissible to begin transmission of a message When using a modem CTS follows the off to on transition of RTS after a time delay 9 RI RING INDICATOR Sent by the modem to the terminal indicating the ringing signal is present Serial Port 3 Connectors Two connectors are provided for Serial Port 3 A 26 pin mini delta ribbon connector located on the front panel of the MVME760 transition module and a 26 pin ribbon cable 3M type header located on the board itself The pin assignments for these two connectors are shown in Table 3 6 The mini delta ribbon connector shield is tied to chassis ground 3 17 Support Information Table 3 6 Pin Assignments for Serial Port 3 Connectors Front panel 3m Iype Connector Ribbon Connector Mated DB25 Mated DB26 Pin Signal Name Pin Signal Name Pin Pin T fNoConnectt TI No Cone 1I 1 2 TXD3 3 TXD3 2 2 3 RXD3 5 RXD3 3 3 4 RIS3 7 RTS3 4 4 5 CTS3 9 CTS3 5 5 6 DSR3 11 DSR3 6 6 7 GND 13 GND 7 7 8 DCD3 15 DCD3 8 8 9 SP3_P9 17 SP3_P9 9 9 10 SP3_P10 19 SP3_P10 10 10 11 SP3_P11 21 SP3_P11 11 11 12 SP3_P12 23 SP3_P12 12 12 13 SP3_P13 25 SP3_P13 13 13 14 SP3_P14 2 SP3_P14 14 14 15 TXCI3 4 TXCI3 15 15 16 SP3 P16 6 SP3 P16 16 16 17 RXCI3 8 RXCI3 17 17 18 LLB3 10 LLB3 18 18 19 SP3 P19 12 SP3 P19 19 19 20 DTR3 14 DTR3 20 20 21 RLB3 16 RLB3 21 21 22 RI3 18 RI3 22 22 23 SP3 P23 20 SP3 P23 2
15. 3 23 24 TXCO3 22 TXCO3 24 24 25 TM3 24 TM3 25 25 26 No Connect 26 No Connect 26 NOTE signal names indicate functionality when EIA 232 SIM module is installed 3 18 Serial Port 4 Connector Serial Port 4 Connector A 26 pin ribbon cable 3M type header provides the interface to Serial Port 4 Ribbon cable with mating connector can be used to interface to this header The pin assignments for this connector are shown in the following table This connector is not shielded Table 3 7 Serial Port 4 Interconnections Ribbon Connector Pin Signal Name Mated DB25 Mated DB26 Pin Pin T INComet TTT H 3 TXD4 2 2 5 RXD4 3 3 7 RTS4 4 4 II CO4 15 55 11 DSR4 6 6 13 GND 7 7 15 DCD4 8 8 17 SP4_P9 9 9 19 SP4_P10 10 10 21 11401 Jl 23 SP4_P12 12 12 25 SP4_P13 13 13 2 SP4_P14 14 14 4 TXCIA 15 15 6 SPA P16 16 16 8 RXCIA 17 17 10 LLB4 18 18 T2 SPA P19 19 19 14 DTR4 20 20 16 RLB4 21 21 18 RI4 22 22 20 14 Pa AB 23 22 TXCO4 24 24 24 TM4 25 25 26 No Connect 26 NOTE Signal names indicate functionality when EIA 232 SIM module is installed 3 19 Support Information Serial I O Data Rate The serial data rate supported depends on the host board implementation Refer to related documentation Ethernet Data Rate The Ethernet data rate supported depends on the host board
16. 9 VR1 VR4 VR7 VR9 VR11 R3 C26 R4 14 C38 C42 e C15 C27 C32 C35 7 2 fe 1 5 1 5 13 1 17 1 8 1 O Ji J3 J 2 Jo 2 Ji 2 1 9127 Ob B LL H e H n o 6lA 25 15 36 20 15 9 1 LI ILI dl Il I 5 TI D I CU I 1 lt r s N ws 3 M 00000000 poi g 2o 00000 7 A NN t ma 28 Q Q V oj g 8 O b coooo00 J 3 amp EN U E COM2 SERIAL 3 PARALLEL ETHERNET 10BASET 1551 9410 Figure 3 7 MVME760 Parts Location Drawing 3 23 Support Information Schematic Drawings Schematic drawings for the MVME760 Transition Module are shown on the following pages 3 24 Index When using this index keep in mind that a page number indicates only where referenced material begins It may extend to the page or pages following the page referenced Numerics 10BaseT Comnector Pin Assignments 3 15 A AUI Connector Pin Assignments 3 14 B block diagram 3 1 C Cable Connections 2 6 COM1 and COM2 Connectors 3 16 COM1 and COM2 Serial Ports 3 3 Configuring Serial Ports 3 and 4 2 4 Connector P2 Interconnect Signals 3 10 Cooling Reguirements 1 2 E EIA 232D interconnect signals 3 16 Ethernet AUI amp 10BaseT Connectors 3 14 Ethernet Data Rate 3 20 F FCC Compliance 1 3 G General Description 1 3 I O Ports 1 2 IEEE P1284 Parallel I O Connector 3 15 Installation Instructions 2 5 J J9 and J8 2 4 M Module Preparation 2 1 O Operating temperature 1 2 P P2 Connector 3 10 Parallel I O Connector
17. B15 HD36 DB9 DB9 HD26 26 PIN 3M SERIAL 3 SERIAL 4 26 PIN 3M BUFFERS BUFFERS EIA 232 EIA 232 P2MX FUNCTION CONNECTOR TO SERIAL MODULE CONNECTOR TO SERIAL MODULE 64 PIN DIN CONNECTOR Figure 3 1 MVME760 Transition Module Block Diagram 1549 9410 3 2 COMI and COM Serial Ports COM1 and COM Serial Ports COMI and COM are the two asynchronous serial ports These two ports are configured as shown in Figure 3 2 3 3 Support Information TXD1 RTS1_ DTR1_ RXD1 CTS1_ DSR1_ DCD1_ RIL TXD2 RTS2_ DTR2_ RXD2 CTS2_ DSR2_ DCD2_ RI2_ BASE BOARD C19 A20 C20 XU A17 N C17 o A18 C18 A19 AAAAA p2 V C24 A24 YYY C25 A21 C22 o o N A N C A22 C23 ARANA A23 MVME760 Figure 3 2 COM1 and COM2 Configurations COM1 COM2 1550 9410 3 4 Serial Ports 3 and 4 Serial Ports 3 and 4 Serial Ports 3 and 4 can be individually configured as EIA 232 D DCE EIA 232 D DTE EIA 530 DCE or EIA 530 DTE by installing the appropriate Serial Interface Module Figure 3 3 and Figure 3 4 show the configuration diagrams for Serial Ports 3 and 4 with the EIA 232 DCE and EIA 232 DTE Serial Interface Modules Figure 3 5 and 3 6 show the config
18. DCD1 DATA CARRIER DETECT serial port 1 sent by the modem to the terminal to indicate that a valid carrier is being received DSRI DATA SET READY serial port 1 a function supplied by the modem to the terminal to indicate that the modem is ready to transmit data IXD1 TRANSMIT DATA serial port 1 data to be transmitted is furnished on this line to the modem from the terminal A19 RI RING INDICATOR serial port 1 Sent by the modem to the terminal indicating the ringing signal is present 3 11 Support Information Table 3 1 Connector P2 Interconnect Signals MVME760 Continued Pin Number P2 C20 Signal Mnemonic DTRI Signal Name and Description DATA TERMINAL READX serial port 1 a signal from the terminal to the modem indicating that the terminal is readv to send or receive data A20 A21 RTS1 RXD2 REQUEST TO SEND serial port 1 RIS is supplied by the terminal to the modem when it is required to transmit a message With RTS off the modem carrier remains off When RTS is turned on the modem immediately turns on the carrier RECEIVE DATA serial port 2 data that is demodulated from the receive line is presented to the terminal by the modem C21 C22 GND CTS2 SIGNAL GROUND CLEAR TO SEND serial port 2 CTS is a function supplied to the terminal by the modem and indicates that it is permissible to begin transmission of a message When using a modem
19. MVME760 Transition Module User s Manual VME760A UM1 Notice While reasonable efforts have been made to assure the accuracy of this document Motorola Inc assumes no liability resulting from any omissions in this document or from the use of the information obtained therein Motorola reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of Motorola to notify any person of such revision or changes No part of this material may be reproduced or copied in any tangible medium or stored in a retrieval system or transmitted in any form or by any means radio electronic mechanical photocopying recording or facsimile or otherwise without the prior written permission of Motorola Inc It is possible that this publication may contain reference to or information about Motorola products machines and programs programming or services that are not announced in your country Such references or information must not be construed to mean that Motorola intends to announce such Motorola products programming or services in your country 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 Motorola Inc Use duplication or disclosure by the Government is subject to restrictions as set forth in subparagraph c 1 ii of the Rights in
20. e 3 4 Figure 3 5 Figure 3 6 Figure 3 7 List of Figures MVME760 Connector LocatioDs eo ennt tret aaa 2 2 MVME760 Header Locatioris uoces opt ub e 2 3 MVME760 Cable Connections i oar ecu series urere 2 6 MVME760 Transition Module Block Diagram 3 2 COM1 and COM Configurations escribe Greer terria 3 4 Ports 3 4 in EIA 232 DCE Configuration sss 3 6 Ports 3 4 in EIA 232 DTE Configuration ees 3 7 Ports 3 4 in EIA 530 DCE Configuration sss 3 8 Ports 3 4 in EIA 530 DTE Configuration sss 3 9 MVME760 Parts Location Drawing mamana amahan 3 23 ix List of Tables Table 1 1 MVME760 Specifications icit Naa a 1 2 Table 1 2 Module Type Identification oca cine arae bra 1 4 Table 3 1 Connector P2 Interconnect Signals MVMET760 3 10 Table 3 2 AUI Connector Pin Assignments MVME760 3 14 Table 3 3 10BaseT Connector Pin Assignments sees 3 15 Table 3 4 Parallel I O Connector Signals MVME760 men 3 15 Table 3 5 COMI and COM2 Interconnect Signals MVME760 3 16 Table 3 6 Pin Assignments for Serial Port 3 Connectors 3 18 Table 3 7 Serial Port 4 Interconnections i ii sisien i bin eet 3 19 Table 3 8 MVME760 Module Parts List 2 erret nett 3 20 xi xii General Information Introduction This
21. eparation is necessary if Serial ports 3 and 4 are not used However to ensure full functionality of Serial Port 3 and Serial Port 4 the MVME760 Transition Module must be properly configured Configuration is accomplished through jumper settings and SIM module population options The MVME760 connectors and header locations are illustrated in Figure 2 1 and Figure 2 2 Note that Serial Port 3 is available at J7 as well as at J5 on the front panel Serial Port 4 is available only via the J2 header 2 1 MVME760 Module Preparation BASE BOARD TRANSITION MODULE xD Ma ay y COM1 ld FI COM2 SERIAL PORT 3 64 PIN 50 MIL HF CABLE HH PARALLEL PORT AUI P2 10BASET 1544 9410 Figure 2 1 MVME760 Connector Locations 2 2 Hardware Preparation and MVME 760 001 LNOO O ZWOD 0000 90000 B Ol Ivld3S 131WYdYd 220 800 09 T 13NY3H13 0000000 13SVv80L MOTOROLA 9 Installation SERIAL PORT 4 J10 J2 J7 SIM MODULE PORT 4 SIM MODULE PORT 3 DCE
22. his bi directional Parallel Peripheral Interface Refer to the IEEE P1284 D2 00 Standard for a complete description of each signal function The pin assignments for this connector are shown in the following table The parallel port connector shield is tied to chassis ground Table 3 4 Parallel I O Connector Signals MVME760 Pin Signal Number Mnemonic Signal Name and Description 1 PRBSY See IEEE P1284 D2 00 Standard for signal names and functionality 2 PRSEL See IEEE P1284 D2 00 Standard 3 PRACK_ See IEEE P1284 D2 00 Standard 4 PRFAULT_ See IEEE P1284 D2 00 Standard 5 PRPE See IEEE P1284 D2 00 Standard 3 15 Support Information Table 3 4 Parallel I O Connector Signals MVME760 Continued Pin Signal Number Mnemonic Signal Name and Description 6 PRDO See IEEE P1284 D2 00 Standard 7 PRD1 See IEEE P1284 D2 00 Standard 8 PRD2 See IEEE P1284 D2 00 Standard 9 PRD3 See IEEE P1284 D2 00 Standard 10 PRD4 See IEEE P1284 D2 00 Standard 11 PRD5 See IEEE P1284 D2 00 Standard 12 PRD6 See IEEE P1284 D2 00 Standard 13 PRD7 See IEEE P1284 D2 00 Standard 14 INPRIME_ See IEEE P1284 D2 00 Standard 15 PRSTB_ See IEEE P1284 D2 00 Standard 16 SELIN_ See IEEE P1284 D2 00 Standard 17 AUTOFD_ See IEEE P1284 D2 00 Standard 18 5V 5Vdc Power 19 25 GND SIGNAL GROUND COM1 and COM2 Connectors Two standard DB9 connectors located on the front panel of the MVME760 transition module pro
23. la is aware You as the user of the product should follow these warnings and all other safety precautions necessary for the safe operation of the equipment in your operating environment Ground the Instrument To minimize shock hazard the equipment chassis and enclosure must be connected to an electrical ground The equipment is supplied with a three conductor ac power cable The power cable must either be plugged into an approved three contact electrical outlet or used with a three contact to two contact adapter with the grounding wire green firmly connected to an electrical ground safety ground at the power outlet The power jack and mating plug of the power cable meet International Electrotechnical Commission IEC safety standards Do Not Operate in an Explosive Atmosphere Do not operate the equipment in the presence of flammable gases or fumes Operation of any electrical equipment in such an environment constitutes a definite safety hazard Keep Away From Live Circuits Operating personnel must not remove equipment covers Only Factory Authorized Service Personnel or other qualified maintenance personnel may remove equipment covers for internal subassembly or component replacement or any internal adjustment Do not replace components with power cable connected Under certain conditions dangerous voltages may exist even with the power cable removed To avoid injuries always disconnect power and discharge circuits before touching
24. manual provides general information hardware preparation installation instructions and support information for the MVME760 Transition Module The MVME760 module is used as the interface between host VMEmodules and various peripheral devices A 64 pin ribbon cable P N 30 W2514B02 17 length connects the MVME760 Transition Module to the host VMEmodule Features of the MVME760 Module The features of the MVME760 module include industrv standard connectors that interface to a a a Two EIA 232 asynchronous serial ports Two synchronous serial ports One parallel port IEEE Standard 1284 I compliant Ethernet interface both AUI and 10BaseT Two 60 pin connectors are provided to support existing MCG Serial Interface Modules Currently there are four types of SIMs available E A 232 DCE EIA 232 DTE EIA 530 DCE and EIA 530 DTE The selection of these modules determines the functionality of the two synchronous serial ports 1 1 Specifications Specifications The MVME760 module specifications are shown in Table 1 1 Cooling Table 1 1 MVME760 Specifications Characteristics Power Requirements Specifications 5V de 1A maximum 500 mA typical 12Vdc 100mA w o LAN transceiver 12V de 100mA I O Port Connectors Serial Parallel Ethernet Two EIA 232 async serial ports Two synchronous serial ports One IEEE Std 1284 I compliant parallel port One AUI and One 10BaseT Ope
25. n standard Ethernet Parallel Port and the Serial Port connectors and the Host board P2 connector The Ethernet and Parallel Ports contain passive circuitrv only The I O controllers themselves reside in the host board The Serial Ports contain active circuitrv to provide multiplexing and buffering functions reference Figure 3 1 MVME760 Transition Module Block Diagram The multiplexing function is transparent to the user Two 60 pin headers are provided to support existing MCG Serial Interface Modules Currentiv there are four tvpes of Serial Interface modules available as shown in Table 1 2 l 3 General Description Table 1 2 Module Type Identification Model Number Module Type Part Number SIM705 001 EI A 232 DCE 01 W3876Bxx SIM705 002 EIA 232 DTE 01 W3877Bxx SIM705 003 EI A 530 DCE 01 W3878Bxx SIM705 004 EIA 530 DTE 01 W3879Bxx 1 4 Hardware Preparation and Installation Introduction This chapter provides unpacking instructions hardware preparation and installation instructions for the MVME760 module Unpacking Instruction Note Ifthe carton is damaged upon receipt request that the carrier s agent be present during unpacking and inspection of the equipment Unpack the equipment from the shipping carton Refer to the packing list and verify that all items are present Save the packing material for storing and reshipping of the equipment MVME760 Module Preparation No pr
26. o be transmitted is furnished on this line to the modem from the terminal TRANSMIT CLOCK serial port 3 this line can be configured to clock output data to the modem from the terminal RECEIVE DATA serial port 4 data that is demodulated from the receive line is presented to the terminal by the modem RECEIVE CLOCK serial port 4 this line can be configured to clock input data from a terminal to a modem TRANSMIT DATA serial port 4 data to be transmitted is furnished on this line to the modem from the terminal TRANSMIT CLOCK serial port 4 this line can be configured to clock output data to the modem from the terminal 12V dc Power Serial MULTIPLEXER DATA IN signal driven to the main board Serial MULTIPLEXER DATA OUT received from main board MULTIPLEXER SYNC Serial Multiplexer sync signal SIGNAL GROUND MULTIPLEXER CLOCK Serial Multiplexer clock signal 3 13 Support Information Ethernet AUI and 10BaseT Connectors The MVME760 provides both AUI and 10BaseT interface via the front panel of the MVME760 transition module The AUI interface and the 10BaseT interface are provided through a standard 2 row DB15 connector and an RJ45 connector respectively Each pin connection signal mnemonic and signal description for the AUI connector is listed in Table 3 2 The AUI connector shield is tied to chassis ground Table 3 2 AUI Connector Pin Assignments MVME760
27. rating temperature 0 degrees to 55 degrees C at point of entry of forced air approximately 5 CFM Storage temperature 40 degrees to 85 degrees C Relative Humidity 5 to 90 non condensing Physical Height 9 187 inches 233 35 mm characteristics Depth 3 200 inches 80 00 mm excluding front Thickness 0 063 inches 1 60 mm panel Requirements The MVME760 module has minimal active circuitry In general convection cooling will suffice However care must be taken such that other system components or other external sources of heat do not cause the actual operating temperature to exceed the specified operating temperature 1 2 General Information FCC Compliance The MVME760 module was tested in an FCC compliant chassis and meets the requirements for Class A equipment FCC compliance was achieved under the following conditions 1 Shielded cables on all external I O ports 2 Cable shields connected to earth ground via metal shell connectors bonded to a conductive module front panel 3 Conductive chassis rails connected to earth ground This provides the path for connecting shields to earth ground 4 Front panel screws properlv tightened For minimum RF emissions it is essential that the conditions above be implemented failure to do so could compromise the FCC compliance of the equipment containing the modules General Description The MVME760 Transition Module provides the interface betwee
28. ser s Manual Parts 1 and 2 PPCBUGA1 UM PPCBUGA2 UM PPC1Bug Diagnostics Manual PPC1DIAA UM SIM705 Serial Interface Module Installation Guide SIM705A IH Note Although not shown in the above list each Motorola Computer Group manual publication number is suffixed with characters which represent the revision level of the document such as D2 the second revision of a manual a supplement bears the same number as the manual but has a suffix such as A1 the first supplement to the manual Motorola and the Motorola symbol are registered trademarks of Motorola Inc AIXTM is a trademarks of IBM PowerPC is a trademark of IBM and is used by Motorola with permission All other products mentioned in this document are trademarks or registered trademarks of their respective holders Copyright Motorola 1995 All Rights Reserved Printed in the United States of America January 1995 Safety Summary Safety Depends On You The following general safety precautions must be observed during all phases of operation service and repair of this equipment Failure to comply with these precautions or with specific warnings elsewhere in this manual violates safety standards of design manufacture and intended use of the equipment Motorola Inc assumes no liability for the customer s failure to comply with these requirements The safety precautions listed below represent warnings of certain dangers of which Motoro
29. them Do Not Service or Adjust Alone Do not attempt internal service or adjustment unless another person capable of rendering first aid and resuscitation is present Use Caution When Exposing or Handling the CRT Breakage of the Cathode Ray Tube CRT causes a high velocity scattering of glass fragments implosion To prevent CRT implosion avoid rough handling or jarring of the equipment Handling of the CRT should be done only by qualified maintenance personnel using approved safety mask and gloves Do Not Substitute Parts or Modify Equipment Because of the danger of introducing additional hazards do not install substitute parts or perform any unauthorized modification of the equipment Contact your local Motorola representative for service and repair to ensure that safety features are maintained Dangerous Procedure Warnings Warnings such as the example below precede potentially dangerous procedures throughout this manual Instructions contained in the warnings must be followed You should also employ all other safety precautions which you deem necessary for the operation of the equipment in your operating environment Dangerous voltages capable of causing death are present in this equipment Use extreme caution when handling testing WARNING and adjusting This equipment generates uses and can radiate electro A magnetic energy It may cause or be susceptible to electro WARNING magnetic interference EMI if not
30. uration diagrams for Serial Ports 3 and 4 with the EIA 530 DCE and EIA 530 DTE Serial Interface Modules 3 5 Support Information TXD RTS_ RXD CTS_ DCD_ Z8536 ClO DB25 285230 SCC P2 P2MX 3M Port 3 only MAA VLE A eae gels d F F l Do 5 3 RXD l je 9 5 CTS I I KI 3 2 TXD l l l lt 7 4 RTS l l l i lt 1 l 14 20 DTR I I 3 1 Do 4 15 TXC 2 9 T kd I ee 8 17 RXGI J9 J8 d 22 24 TXCO MW l l UV Do 15 8 DCD l Do 24 25 TM Do 18 22 RI l gt 0 l 11 6 DSR l I I I 16 21 RLB l l l l 10 18 LLB l l l l 13 7 GND I Lt EIA232 DCE SIM V i deed je tipi a ee J 1554 9411 Figure 3 3 Ports 3 4 in EIA 232 DCE Configuration Serial Ports 3 and 4 285230 SCC P2 P2MX par Sion TXD 2 TXD RTS je 4 RTS RXD kag 3 RXD CTS_ a 5 CTS DCD_ lag 8 DCD O 24 TXCO TRXC kag i 15 TXCI JO J8 RTXC 4 17 RXCI Z8536 CIO DTR_ P 20 DTR LLB P 18 LLB RLB_ 21 RLB DSR Jag Gafi DAR RI a 22 RI TM lag 25 TM 7 GND 1555 9411 Figure 3 4 Ports 3 4 in EIA 232 DTE Configuration Support Information
31. vide the interface to the COM1 and COM2 serial ports The pin assignments for these connectors are shown in Table 3 5 The COM1 and COM2 connector shields are tied to chassis ground Table 3 5 COM1 and COM2 Interconnect Signals MVME760 Pin Signal Number Mnemonic Signal Name and Description 1 DCD DATA CARRIER DETECT Sent by the modem to the terminal to indicate that a valid carrier is being received Not used by port 1 J1 3 16 Serial Port 3 Connectors Table 3 5 COM1 and COM2 Interconnect Signals MVME760 Continued Pin Signal Number Mnemonic Signal Name and Description RECEIVE DATA data that is demodulated from the receive line is presented to the terminal by the modem TRANSMIT DATA data to be transmitted is furnished on this line to the modem from the terminal DATA TERMINAL READY A signal from the terminal to the modem indicating that the terminal is ready to send or receive data SIGNAL GROUND DATA SET READY DSR is a function supplied by the modem to the terminal to indicate that the modem is ready to transmit data This signal can be held high or low through header J8 J9 J13 J14 REQUEST TO SEND RTS is supplied by the terminal to the modem when it is required to transmit a message With RTS off the modem carrier remains off When RTS is turned on the modem immediately turns on the carrier CLEAR TO SEND CTS is a function supplied to the terminal by the modem and indicates
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