Choose a product:

03C203-00 - C203, PCI M-Module carrier board for 3 M-Modules, long slot version

03C204-00 - C204, PCI M-Module carrier board for one M-Module

04M000-00 - M0, M-Module (MA), prototype card

04M006-00 - M6, M-Module, one RS232 or RS422/485 or TTY interface; incl. 8 jumpers no. 5432-0002

04M006-EU - EU Manufacturer declaration for this product

04M008-00 - M8, M-Module, IEC bus controller

04M008-EU - EU Manufacturer declaration for this product

04M009-01 - M9, M-Module, Ethernet interface, 10Base-5; incl. AUI adapter no. 6100-0008

04M009-02 - M9, M-Module, Ethernet interface, 10Base-2; incl. BNC adapter no. 6100-0007 and 50-Ohm resistor no. 6100-0009

04M009-EU - EU Manufacturer declaration for this product

04M011-00 - M11, M-Module, 16-bits TTL I/O

04M011-EU - EU Manufacturer declaration for this product

04M013-00 - M13, M-Module, 4 independent counters

04M013-EU - EU Manufacturer declaration for this product

04M014-00 - M14, M-Module, SCSI-2 interface

04M014-EU - EU Manufacturer declaration for this product

04M015-00 - M15, M-Module, 2-channel frequency generator

04M015-EU - EU Manufacturer declaration for this product

04M016-00 - M16, M-Module, Quad Input Analog Data Acquisition

04M016-EU - EU Manufacturer declaration for this product

04M017-00 - M17, M-Module, 68302-based serial interface module; for intelligent serial interface configuration, to be completed by an additional interface adapter; incl. standard firmware EPROM

04M017-05 - M17-5, M-Module, 68302-based X.21bis interface for X.25; incl. interface adapter, X.25 license, and X.25 firmware EPROM

04M017-12 - M17, M-Module, 68302-based serial interface module; for intelligent serial interface configuration, to be completed by an additional interface adapter; incl. standard firmware EPROM, temperature range: -40..+85°C

04M017-EU - EU Manufacturer declaration for this product

04M019-01 - M19, M-Module, radio-controlled clock receiver interface, w/o receiver

04M019-EU - EU Manufacturer declaration for this product

04M020-01 - M20, M-Module, PC-Card interface

04M020-EU - EU Manufacturer declaration for this product

04M022-03 - M22, M-Module, 8 binary source inputs/outputs, 2A, with D-Sub connector

04M022-04 - M22, M-Module, 8 binary source inputs/outputs, 2A, with screw terminal

04M022-EU - EU Manufacturer declaration for this product

04M024-01 - M24, M-Module, 16 binary sink or source inputs, with D-Sub connector

04M024-02 - M24, M-Module, 8 binary sink or source inputs, with screw terminal

04M024-EU - EU Manufacturer declaration for this product

04M027-00 - M27, M-Module, 16 binary sink outputs

04M027-EU - EU Manufacturer declaration for this product

04M028-00 - M28, M-Module, 16 binary source outputs

04M028-EU - EU Manufacturer declaration for this product

04M029-01 - M29, M-Module, 8 binary source outputs, with D-Sub connector

04M029-02 - M29, M-Module, 8 binary source outputs, with screw terminal/LEDs

04M029-EU - EU Manufacturer declaration for this product

04M030-01 - M30, M-Module, 8 binary sink inputs, with D-Sub connector

04M030-02 - M30, M-Module, 8 binary sink inputs, with screw terminal/LEDs

04M030-EU - EU Manufacturer declaration for this product

04M031-00 - M31, M-Module, 16 binary sink inputs

04M031-07 - M31, M-Module, 16 binary sink inputs, temperature range: -40..+85°C, conformal coating

04M031-08 - M31, M-Module, 16 binary sink inputs, temperature range: -40..+85°C

04M031-EU - EU Manufacturer declaration for this product

04M032-00 - M32, M-Module, 16 binary source inputs

04M032-02 - M32, M-Module, 16 binary source inputs, temperature range: -40..+85°C, conformal coating

04M032-EU - EU Manufacturer declaration for this product

04M033-10 - M33, M-Module, 4 analog outputs, 12 bits, with DC/DC converter, operation temperature 0..+60°C

04M033-11 - M33, M-Module, 4 analog outputs, 12 bits, with DC/DC converter, operation temperature -40..+85°C

04M033-12 - M33, M-Module, 8 analog outputs, 12 bits, with DC/DC converter, operation temperature 0..+60°C

04M033-13 - M33, M-Module, 8 analog outputs, 12 bits, with DC/DC converter, operation temperature -40..+85°C

04M033-EU - EU Manufacturer declaration for this product

04M034-00 - M34, M-Module, analog inputs, 12 bits, without DC/DC converter; signal conditioning with separate adapter

04M034-20 - M34, M-Module, analog inputs, 12 bits, with DC/DC converter; signal conditioning with separate adapter

04M034-EU - EU Manufacturer declaration for this product

04M035-00 - M35, M-Module, analog inputs, 14 bits, without DC/DC converter; signal conditioning with separate adapter

04M035-20 - M35, M-Module, analog inputs, 14 bits, with DC/DC converter; signal conditioning with separate adapter

04M035-EU - EU Manufacturer declaration for this product

04M035N00 - M35N, M-Module, 16 analog voltage inputs - single-ended, 14 bits, with DC/DC converter; operation temperature 0..+60°C

04M035N01 - M35N, M-Module, 16 analog current inputs - single-ended, 14 bits, with DC/DC converter; operation temperature 0..+60°C

04M035N02 - M35N, M-Module, 8 analog voltage inputs - differential, 14 bits, with DC/DC converter; operation temperature 0..+60°C

04M035N03 - M35N, M-Module, 8 analog current inputs - differential, 14 bits, with DC/DC converter; operation temperature 0..+60°C

04M035N04 - M35N, M-Module, 16 analog voltage inputs - single-ended, 14 bits, with DC/DC converter; operation temperature -40..+85°C

04M035N05 - M35N, M-Module, 16 analog current inputs - single-ended, 14 bits, with DC/DC converter; operation temperature -40..+85°C

04M035N06 - M35N, M-Module, 8 analog voltage inputs - differential, 14 bits, with DC/DC converter; operation temperature -40..+85°C

04M035N07 - M35N, M-Module, 8 analog current inputs - differential, 14 bits, with DC/DC converter; operation temperature -40..+85°C

04M036-00 - M36, M-Module, analog inputs, 16 bits, without DC/DC converter; signal conditioning with separate adapter

04M036-20 - M36, M-Module, analog inputs, 16 bits, with DC/DC converter; signal conditioning with separate adapter

04M036-EU - EU Manufacturer declaration for this product

04M037-00 - M37, M-Module, 4 analog outputs, 16 bits, with DC/DC converter

04M037-01 - M37, M-Module, 4 analog outputs, 16 bits, w/o DC/DC converter

04M037-EU - EU Manufacturer declaration for this product

04M039-00 - M39, M-Module, Interbus-S interface, slave

04M039-EU - EU Manufacturer declaration for this product

04M040-00 - M40, M-Module (MA), 68302-based Profibus FMS interface

04M040-EU - EU Manufacturer declaration for this product

04M041-00 - M41, M-Module, 4 independent counters, TTL or RS422

04M041-01 - M41, M-Module, 4 independent counters, 24V input voltage

04M041-EU - EU Manufacturer declaration for this product

04M043-00 - M43, M-Module, 8 relay outputs

04M043-03 - M43, M-Module, 8 relay outputs, temperature range: -40..+85°C

04M043-EU - EU Manufacturer declaration for this product

04M044-00 - M44, M-Module, DC-motor controller

04M044-EU - EU Manufacturer declaration for this product

04M045-00 - M45, M-Module, 8x RS232 or TTL

04M045-01 - M45, M-Module, 4x RS232 or TTL

04M045-EU - EU Manufacturer declaration for this product

04M046-EU - EU Manufacturer declaration for this product

04M047-00 - M47, M-Module, Synchronous Serial Interface (SSI), 0..+60°C

04M047-01 - M47, M-Module, Synchronous Serial Interface (SSI), -40..+85°C

04M047-EU - EU Manufacturer declaration for this product

04M048-00 - M48, M-Module, LCD interface

04M048-EU - EU Manufacturer declaration for this product

04M049-01 - M49, M-Module, two 2-phase step-motor controllers, with power stage

04M049-EU - EU Manufacturer declaration for this product

04M050-00 - M50, M-Module, 1-channel synchro/resolver converter

04M050-02 - M50, M-Module, 1-channel synchro/resolver converter, temperature range -40..+85°C

04M050-EU - EU Manufacturer declaration for this product

04M051-00 - M51, M-Module, CAN bus interface with one SJA1000 controller

04M051-01 - M51, M-Module, CAN bus interface with four SJA1000 controllers

04M051-07 - M51, Quadruple CAN Bus Interface M-Module, -40°..+85°C

04M051-EU - EU Manufacturer declaration for this product

04M052-00 - M52, M-Module, Centronics interface

04M052-EU - EU Manufacturer declaration for this product

04M053-00 - M53, M-Module, SCSI-2 interface, local DMA and FIFO communication incl. SCSI-2-A adapter cable (2m)

04M053-EU - EU Manufacturer declaration for this product

04M054-00 - M54, M-Module, DC-motor controller with binary I/O

04M056-00 - M56, M-Module, 16-channel analog multiplexer

04M056-01 - M56, M-Module, 16-channel analog multiplexer, temperature range: -40..+85°C

04M056-02 - M56, M-Module, 16-channel analog multiplexer, with monostable relay, temperature range: -40..+85°C

04M056-EU - EU Manufacturer declaration for this product

04M057-00 - M57, M-Module, 68331-based Profibus DP interface

04M057-EU - EU Manufacturer declaration for this product

04M058-00 - M58, M-Module, 32-bits TTL I/O

04M058-02 - M58, M-Module, 32-bits TTL I/O, temperature range: -40..+85°C

04M058-EU - EU Manufacturer declaration for this product

04M059-01 - M59, M-Module, 16-bit data acquisition with 2 DSPs, 4 analog inputs, with quartz oscillator

04M059-02 - M59, M-Module, 16-bit data acquisition with 2 DSPs, 4 analog inputs, with quartz oscillator, -40..+85°C

04M059-EU - EU Manufacturer declaration for this product

04M060-00 - M60, M-Module (double size), system multimeter

04M060-02 - M60, M-Module (double size), system multimeter, -40..+85°C

04M060-EU - EU Manufacturer declaration for this product

04M061-01 - M61, M-Module, one 4/5-phase step-motor controller, with power stage

04M061-EU - EU Manufacturer declaration for this product

04M062-01 - M62, M-Module, 16 analog outputs, 0..10V, 12 bits, w/o DC/DC converter

04M062-02 - M62, M-Module, 16 analog outputs, 4..20mA, 12 bits, w/o DC/DC converter

04M062-05 - M62, M-Module, 16 analog outputs, 0..10V, 12 bits, with DC/DC converter, -40..+85°C

04M062-EU - EU Manufacturer declaration for this product

04M063-00 - M63, M-Module, 16-bit data acquisition with 2 DSPs, 32 binary inputs/outputs

04M063-EU - EU Manufacturer declaration for this product

04M065-00 - M65, M-Module, intelligent Full/Extended CAN interface, 2 channels, 0..+60°C

04M065-01 - M65, M-Module, intelligent Full/Extended CAN interface, 1 channel, 0..+60°C

04M065-02 - M65, M-Module, intelligent Full/Extended CAN interface, 2 channels, -40..+85°C

04M065-03 - M65, M-Module, intelligent Full/Extended CAN interface, 1 channel, -40..+85°C

04M065-EU - EU Manufacturer declaration for this product

04M066-00 - M66, M-Module, 32 binary inputs and/or outputs

04M066-02 - M66, M-Module, 32 binary inputs

04M066-03 - M66, M-Module, 32 binary inputs and/or outputs, -40..+85°C

04M066-EU - EU Manufacturer declaration for this product

04M067-00 - M67, M-Module, digital oscilloscope

04M067-EU - EU Manufacturer declaration for this product

04M068-00 - M68, M-Module, DSP quad analog output, temperature range: 0..+60°C

04M068-01 - M68, M-Module, DSP quad analog output, temperature range: -40..+85°C

04M068-EU - EU Manufacturer declaration for this product

04M069-00 - M69, M-Module, 4x RS232, isolated

04M069-EU - EU Manufacturer declaration for this product

04M070-00 - M70, M-Module, 4/8/16 PT100/1000 inputs or 15 thermocouple inputs, 16 bits resolution, temperature range: 0..+60°C

04M070-01 - M70, M-Module, 4/8/16 PT100/1000 inputs or 15 thermocouple inputs, 16 bits resolution, temperature range: -40..+85°C

04M072-00 - M72, M-Module, 4 x 32-bit motion counter

04M072-02 - M72, M-Module, quadruple 32-bit motion counter, temperature range: -40..+85°C

04M072-EU - EU Manufacturer declaration for this product

04M073-00 - M73, M-Module, 10Base-T Ethernet controller

04M074-00 - M74, M-Module, CAN bus interface with 2 SJA1000 extended CAN controllers, fault-tolerant interface TJA 1053

04M075-00 - M75, dual USART with FIFOs, RS422 isolated, 0..+60°C

04M076-00 - M76, M-Module, system multimeter, closed metal housing, 0..+60°C

04M076-01 - M76, M-Module, system multimeter, closed metal housing, -40..+85°C

04M076-02 - M76, M-Module, system multimeter, open metal housing with 24-pin carrier-board connector, 0..+60°C

04M076-03 - M76, M-Module, system multimeter, open metal housing with 24-pin carrier-board connector, -40..+85°C

04M076-EU - EU Manufacturer declaration for this product

04M077-00 - M77, M-Module, quad RS232/423..RS485/422, optically isolated UART, temperature range: 0..+60°C

04M077-01 - M77, M-Module, quad RS232/423..RS485/422, optically isolated UART, temperature range: -40..+85°C

04M078-00 - M78, M-Module, 4-channel digital oscilloscope, 40-MHz 12-bit A/D converter, incl. adapter for 1MHz filter signal conditioning, temperature range: 0..+60°C

04M079-00 - M79, M-Module, Profibus slave interface, temperature range: 0..+60°C

04M079-01 - M79, M-Module, Profibus slave interface, temperature range: -40..+85°C

04M079-EU - EU Manufacturer declaration for this product

04M081-00 - M81, M-Module, 16 binary sink outputs, fully isolated, -40..+85°C

04M081-EU - EU Manufacturer declaration for this product

04M082-00 - M82, M-Module, 16 binary sink inputs, fully isolated, -40..+85°C

04M082-EU - EU Manufacturer declaration for this product

04M097-00 - M97, M-Module, universal counter, closed metal housing, 0..+60°C

04M097-01 - M97, M-Module, universal counter, closed metal housing, -40..+85°C

04M097-02 - M97, M-Module, universal counter, open metal housing, 0..+60°C

04M097-03 - M97, M-Module, universal counter, open metal housing, -40..+85°C

04M099-00 - M99, M-Module (MA), test module for carrier boards

04M099-EU - EU Manufacturer declaration for this product

05M000-00 - M-Module cable, 2m, with 25-pin D-Sub plug/housing to pig tail

05M000-16 - M-Module cable, 2m, with 50-pin half-pitch D-Sub plug/housing to pig tail

05M000-18 - M-Module cable, 2 m, with 44-pin HD-Sub plug/housing to 50-pin D-Sub receptacle/housing

05M000-19 - M-Module cable, 1.5m with 50-pin half-pitch D-Sub plug/housing to 50-pin D-Sub plug/housing

05M000-24 - 5W5 D-Sub plug connector for high voltage

05M000-27 - 5W5 D-Sub plug connector, 3 high-voltage plug contacts, 2 coaxial 50-Ohm plug contacts

05M008-00 - M8 IEC-bus interface cable, 200cm, 25-pin D-SUB receptable IEC-bus to 25-pin plug/receptacle IEEE-488 GPIB

05M009-01 - M9 adapter cable, 150cm, 15-pin combined D-Sub plug to 15-pin D-Sub receptacle according to 10Base-5 standard

05M014-00 - M14 SCSI interface cable, 2m, 25-pin D-Sub plug to 50-pin Centronics connector

05M014-02 - M14 floppy disk cable, 0.55m, 2 x 50-pin receptacle connector to 50-pin Centronics connector

05M019-00 - External DCF-77 receiver for M19

05M045-00 - M-Module cable, 4 x 0.4m, with 44-pin HD-Sub plug/housing to four 9-pin D-Sub plug/housings

05M045-01 - M-Module cable, 8 x 2m, with 44-pin HD-Sub plug/housing to eight 9-pin D-Subreceptacles/housings

05M053-00 - M53 SCSI-2 cable, 2m, 50-pin HP D-Sub plug to 50-pin Centronics connector

05M075-00 - Interface cable for M75; 15-pin micro D-Sub (receptacle) to 15-pin D-Sub (plug); 2m

05M075-01 - Interface cable for M75, 15-pin micro D-Sub (receptacle) to 15-pin Micro D-Sub (receptacle); 10m

05M075-02 - Interface cable for M75, 15-pin micro D-Sub (receptacle) to 15-pin Micro D-Sub (receptacle); 15m

05M075-03 - Interface cable for M75, 15-pin micro D-Sub (receptacle) to 15-pin Micro D-Sub (receptacle); 20m

05M077-00 - Cable for M77, for individual configuration, 25-pin D-Sub plug to four 9-pin D-Sub plugs

05P002-00 - PC-MIP cable, 2m, with 26-pin half-pitch 26-pin D-Sub plug/housing to pig tail

05P013-01 - PC-MIP cable, 4m, two 36-pin half-pitch D-Sub plugs/housings

0710-0010 - 3.5" SCSI hard-disk drive, > 4.55GB, incl. mounting accessories

0711-0006 - SCSI adapter 68-pin to 50-pin, angled, active termination

0711-0007 - SCSI adapter 68-pin to 50-pin, angled, high byte termination

0711-0008 - SCSI adapter 68-pin to 50-pin, angled, LVD proof, no termination

0714-0001 - Filler panel 6U/4HP IEEE1101

08AD01-01 - Adapter for M34/M35/M36: 16 voltage inputs, single-ended

08AD01-02 - Adapter for M34/M35/M36: 16 current inputs, single-ended

08AD01-04 - Adapter for M34/M35/M36: 16 current inputs, single-ended, temperature range: -40..+85°C

08AD02-01 - Adapter for M34/M35/M36: 8 voltage inputs, differential

08AD02-02 - Adapter for M34/M35/M36: 8 current inputs, differential

08AD03-01 - Adapter M17: 3x RS232 interfaces

08AD04-01 - Adapter for M17: 3 RS422 interfaces

08AD07-00 - PC card holder/ejector for front panel installation, with dust protection

08AD07-02 - PC card holder/ejector, for installation in the system

08AD28-00 - Adapter for M17: three RS422/485 interfaces, asynchronous and synchronous operation, temperature range: 0..+60°C

08AD28-01 - Adapter for M17: three RS422/485 interfaces, asynchronous and synchronous operation, temperature range: -40..+85°C

08AD32-00 - Adapter for M34/35/36 and M67: evaluation card

13M006-01 - OS-9/68k V.3.0: driver software M6 (object code, floppy disks)

13M008-06 - MDIS4/2004 low-level driver sources for M8

13M008-70 - MDIS4/2004 Windows NT4/W2K driver for M8

13M009-01 - OS-9/68k V.3.0: Ethernet driver for OS-9 ISP and OS-9/NET for M9/M73 (object code, floppy disk)

13M009-60 - VxWorks V.5.3: Ethernet driver for M9/M73 (MEN, object code, floppy disk)

13M011-06 - MDIS4/2004 low-level driver sources for M11

13M011-70 - MDIS4/2004 Windows NT4/W2K driver for M11

13M013-00 - OS-9/68k: MDIS2 driver M13 (floppy disk)

13M014-01 - OS-9 V.3.0: driver software for M14 and A501 (object code)

13M015-06 - MDIS4/2004 low-level driver sources for M15

13M015-70 - MDIS4/2004 Windows NT4/W2K driver for M15

13M016-00 - OS-9 V.3.0: MDIS driver M16 (object code, floppy disk)

13M017-01 - OS-9/68k V.3.0: FASTSCC, driver software for M17; incl. HDLC support

13M017-70 - WindowsNT V.4.0: FASTUART driver for M17 (object code)

13M017-91 - Linux SyncPPP/UART driver for M17, source code

13M019-00 - OS-9 V.3.0: MDIS driver M19

13M020-01 - OS-9/68k V.3.0: driver software M20

13M022-06 - MDIS4/2004 low-level driver sources for M22/M24

13M022-70 - MDIS4/2004 Windows NT4/W2K driver for M22/M24

13M027-06 - MDIS4/2004 low-level driver sources for M27/M28/M81

13M027-70 - MDIS4/2004 Windows NT4/W2K driver for M27/M28/M81

13M029-06 - MDIS4/2004 low-level driver sources for M29

13M029-70 - MDIS4/2004 Windows NT4/W2K driver for M29

13M031-06 - MDIS4/2004 low-level driver sources for M31/M32/M82

13M031-70 - MDIS4/2004 Windows NT4/W2K driver for M31/M32/M82

13M033-06 - MDIS4/2004 low-level driver sources for M33

13M033-70 - MDIS4/2004 Windows NT4/W2K driver for M33

13M034-06 - MDIS4/2004 low-level driver sources for M34/M35

13M034-70 - MDIS4/2004 Windows NT4/W2K driver for M34/M35

13M036-06 - MDIS4/2004 low-level driver sources for M36

13M036-70 - MDIS4/2004 Windows NT4/W2K driver for M36

13M037-06 - MDIS4/2004 low-level driver sources for M37

13M037-70 - MDIS4/2004 Windows NT4/W2K driver for M37

13M039-00 - OS-9/68k V.3.0: MDIS driver M39 (floppy disk)

13M040-01 - OS-9/68k V.3.0: Profibus FMS driver software M40 (floppy disk)

13M041-00 - OS-9/68k V.3.0: MDIS3 driver M41

13M043-06 - MDIS4/2004 low-level driver sources for M43

13M043-70 - MDIS4/2004 Windows NT4/W2K driver for M43

13M044-00 - OS-9/68k V.3.0: MDIS driver M44 (floppy disk)

13M045-01 - OS-9/68k V.3.0: driver software M45

13M045-03 - Driver for M45/M69/CD1400, OS9(000) PowerPC

13M045-60 - Driver for M45/M69/CD1400, VxWorks, source code

13M045-70 - WindowsNT driver for M45, object code

13M047-06 - MDIS4/2004 low-level driver sources for M47

13M047-70 - MDIS4/2004 Windows NT4/W2K driver for M47

13M048-01 - OS-9/68k V.3.0: terminal emulation M48 (source code, floppy disk)

13M049-00 - OS-9/68k V.3.0: MDIS3 driver M49 (floppy disk)

13M050-01 - 2S80-series calculation software by Analog Devices, for M50 (DOS tool, manual)

13M050-06 - MDIS4/2004 low-level driver sources for M50

13M050-70 - MDIS4/2004 Windows NT4/W2K driver for M50

13M052-01 - OS-9/68k V.3.0: driver software M52

13M053-00 - OS-9/68k V.3.0: SCSI driver software M53 (floppy disk)

13M054-06 - MDIS4/2004 low-level driver sources for M54

13M054-70 - MDIS4/2004 Windows NT4/W2K driver for M54

13M056-06 - MDIS4/2004 low-level driver sources for M56

13M056-08 - M56 IVI driver for use with National Instruments LabWindows/CVI

13M056-70 - MDIS4/2004 Windows NT4/W2K driver for M56

13M057-06 - MDIS4/2004 low-level driver sources for M57/P6

13M057-70 - MDIS4/2004 Windows NT4/W2K driver for M57/P6

13M058-06 - MDIS4/2004 low-level driver sources for M58

13M058-70 - MDIS4/2004 Windows NT4/W2K driver for M58

13M059-01 - DSP firmware source/toolbox for M59

13M059-06 - MDIS4/2004 low-level driver sources/toolbox for M59

13M059-70 - MDIS4/2004 Windows NT4/W2K driver forM59

13M060-06 - MDIS4 low-level driver sources for M60

13M060-70 - MDIS4 Windows NT driver for M60

13M061-00 - OS-9/68k V.3.0: MDIS3 driver M61 (floppy disk)

13M062-06 - MDIS4/2004 low-level driver sources for M62

13M062-70 - MDIS4/2004 Windows NT4/W2K driver for M62

13M063-01 - DSP firmware source and toolbox for M63

13M063-06 - MDIS4/2004 low-level driver sources/toolbox for M63

13M063-70 - MDIS4/2004 Windows NT4/W2K driver for M63

13M065-06 - MDIS4/2004 low-level driver sources for M65/P5 (CANopen firmware)

13M065-07 - MDIS4/2004 low-level driver sources for M65/P5 (CAN layer 2 firmware)

13M065-70 - MDIS4/2004 Windows NT4/W2K driver for M65/P5 (CANopen firmware)

13M065-71 - MDIS4/2004 Windows NT4/W2K driver for M65/P5 (CAN layer 2 firmware)

13M067-06 - MDIS4/2004 low-level driver sources for M67

13M067-70 - MDIS4/2004 Windows NT4/W2K driver for M67

13M068-06 - MDIS4/2004 low-level driver sources for M68

13M068-08 - IVI driver (National Instruments LabWindows/CVI) for M68 (object code)

13M068-70 - MDIS4/2004 low-level driver sources for M68

13M069-00 - OS-9/68k V.3.0: driver software M69 (floppy disk)

13M069-01 - OS-9/68k V.3.0: driver software M69, SPF driver sources (floppy disk)

13M069-70 - WindowsNT V.4.0: driver software M69 (object code)

13M070-06 - MDIS4/2004 low-level driver sources for M70

13M070-70 - MDIS4/2004 Windows NT4/W2K driver for M70

13M072-06 - MDIS4/2004 low-level driver sources for M72

13M072-70 - MDIS4/2004 Windows NT4/W2K driver for M72

13M074-00 - OS-9/68k V.3.0: driver software M74 (floppy disk)

13M075-06 - MDIS4/2004 low-level driver sources for M75

13M075-70 - MDIS4/2004 Windows NT4/W2K driver for M75

13M076-06 - MDIS4/2004 low-level driver sources for M76

13M076-08 - IVI driver (National Instruments LabWindows/CVI) for M76 (object code)

13M076-70 - MDIS4/2004 Windows NT4/W2K driver for M76

13M077-01 - M77 SCF compatible driver for OS-9/68k (not OS-9/PPC)

13M077-60 - VxWorks driver for M77 (Tornado 2.0.x), source code

13M077-70 - Windows UART driver for M77

13M077-90 - Linux TTY driver for M77, source code

13M079-06 - MDIS4/2004 low-level driver sources for M79

13M079-70 - MDIS4/2004 Windows NT4/W2K driver for M79

13M097-06 - MDIS4/2004 low-level driver sources for M97

13M097-70 - MDIS4/2004 Windows NT4/W2K driver for M97

13M099-06 - MDIS4/2004 low-level driver sources for M99

13M099-70 - MDIS4/2004 Windows NT4/W2K driver for M99

13P001-60 - VxWorks: graphics driver for P1 (MEN, source code for 68k, x86, PPC)

13P001-70 - Windows NT: Graphics driver for P1 (SMI, object code)

13P001-71 - Windows 2000: Graphics driver for P1 (SMI, object code)

13P004-70 - WindowsNT: SCSI driver for P4

13P010-01 - SCF driver for P10/P11 M-Module, OS-9(PPC), PowerPC object code

13P010-60 - VxWorks driver for P10/P11

13P010-70 - WindowsNT: UART driver for P10/P11/AD45

13P013-06 - MDIS4/2004 low-level driver sources for P13

13P013-70 - MDIS4/2004 Windows NT4/W2K driver for P13

13P017-01 - OS-9: C library for P17 for simple portations of various graphics packages based on a frame buffer interface

13P017-71 - Windows 2000: Graphics driver for P17 (SMI, object code)

13P017-72 - Windows XP2000: Graphics driver for P17 (SMI, object code)

13Z005-06 - MDIS4 low-level driver sources for SJA1000, CAN Layer 2

15P001-01 - P1, PC-MIP Type II (front I/O), SM710 graphics controller, LCD (1280x1024) and CRT (135MHz), 4MB DRAM

15P001-EU - EU Manufacturer declaration for this product

15P004-00 - P4, PC-MIP Type I (no front I/O), Ultra2 SCSI controller, 53C895, 40MB/s single-ended ultra wide

15P004-EU - EU Manufacturer declaration for this product

15P005-00 - P5, PC-MIP Type II (front I/O), intelligent CAN interface, 0..+60°C

15P005-01 - P5, PC-MIP Type II (front I/O), intelligent CAN interface, -40..+85°C

15P005-EU - EU Manufacturer declaration for this product

15P006-00 - P6, PC-MIP Type II (front I/O), Profibus DP master interface, 0..+60°C

15P006-EU - EU Manufacturer declaration for this product

15P009-00 - P9, PC-MIP Type II (front I/O), 82544GC Gigabit Ethernet controller, 10/100/1000Mbits/s, 10/100/1000Base-T, 4 LEDs, RJ45, 0..+60°C

15P009-EU - EU Manufacturer declaration for this product

15P010-00 - P10, PC-MIP Type II (front I/O), quad RS232 UART, 16450 compatible with 128-byte FIFO

15P010-EU - EU Manufacturer declaration for this product

15P011-00 - P11, PC-MIP Type II (front I/O), quad RS422/485 UART, 16450-compatible, with 128-byte FIFO

15P011-EU - EU Manufacturer declaration for this product

15P012-00 - P12, PC-MIP Type II (front I/O), 21143 Ethernet controller, 10/100Mbit/s, 100Base-T, RJ45

15P012-02 - P12, PC-MIP Type II (front I/O), 21143 Ethernet controller, 10/100Mbit/s, 100Base-T, RJ45, -40..+85°C

15P012-EU - EU Manufacturer declaration for this product

15P013-00 - P13, PC-MIP Type I (no front I/O), 48-bit TTL I/O

15P013-02 - P13, PC-MIP Type I (no front I/O), 48-bit TTL I/O, -40..+85°C

15P013-03 - P13, PC-MIP Type II (front I/O), 48-bit TTL I/O

15P013-04 - P13, PC-MIP Type II (front I/O), 48-bit TTL I/O, -40..+85°C

15P013-EU - EU Manufacturer declaration for this product

15P014-00 - P14, PC-MIP Type II (front I/O), IEEE1394 FireWire, OHCI PHY/Link Layer Controller TI TSB43AA22, 400Mbits/s

15P015-00 - P15, PC-MIP Type I (no front I/O), no rear I/O, non-volatile FRAM 512KB, -40..+85°C

15P015-01 - P15, PC-MIP Type I (no front I/O), no rear I/O, non-volatile FRAM 256KB, -40..+85°C

15P016-00 - P16, PC-MIP Type II (with front I/O), dual fast 100Base-T Ethernet, 0..+60°C

15P016-01 - P16, PC-MIP Type II (with front I/O), dual fast 100Base-T Ethernet, -40..+85°C

15P016-02 - P16, PC-MIP Type II (with front I/O), dual fast 100Base-T Ethernet, 0..+60°C, 2 LEDs at front

15P016-EU - EU Manufacturer declaration for this product

20C203-00 - C203/C204 user manual

20M000-00 - M-Module draft specification, Rev. 3.0

20M006-00 - M6 user manual

20M008-00 - M8 user manual

20M009-00 - M9 user manual

20M011-00 - M11 user manual

20M013-00 - M13 user manual

20M014-00 - M14 user manual

20M015-00 - M15 user manual

20M016-00 - M16 user manual

20M017-00 - M17 user manual

20M019-00 - M19 user manual

20M020-00 - M20 user manual

20M022-00 - M22 user manual

20M024-00 - M24 user manual

20M027-00 - M27 user manual

20M028-00 - M28 user manual

20M029-00 - M29 user manual

20M030-00 - M30 user manual

20M031-00 - M31 user manual

20M032-00 - M32 user manual

20M033-00 - M33 user manual

20M034-00 - M34/M35 user manual

20M036-00 - M36 user manual

20M037-00 - M37 user manual

20M040-00 - M40 user manual

20M041-00 - M41 user manual

20M043-00 - M43 user manual

20M044-00 - M44 user manual

20M045-00 - M45 user manual

20M046-00 - M46 user manual

20M047-00 - M47 user manual

20M048-00 - M48 user manual

20M049-00 - M49 user manual

20M050-00 - M50 user manual

20M051-00 - M51 user manual

20M052-00 - M52 user manual

20M053-00 - M53 user manual

20M056-00 - M56 user manual

20M057-00 - M57 user manual

20M058-00 - M58 user manual

20M059-00 - M59 hardware, firmware and Toolbox user manual

20M061-00 - M61 user manual

20M062-00 - M62 user manual

20M063-00 - M63 hardware, firmware and Toolbox user manual

20M065-00 - M65 user manual

20M066-00 - M66 user manual

20M067-00 - M67 user manual

20M068-00 - M68 user manual

20M069-00 - M69 user manual

20M070-00 - M70 user manual

20M072-00 - M72 user manual

20M073-00 - M73 user manual

20M074-00 - M74 user manual

20M075-00 - M75 user manual

20M076-00 - M76 user manual

20M077-00 - M77 user manual

20M078-00 - M78 user manual

20M079-00 - M79 user manual

20M081-00 - M81 user manual

20M082-00 - M82 user manual

20M097-00 - M97 user manual

20M099-00 - M99 user manual

20P000-00 - PC-MIP draft specification Rev. 0.92b

20P001-00 - P1 user manual

20P004-00 - P4 user manual

20P005-00 - P5 user manual

20P006-00 - P6 user manual

20P009-00 - P9 user manual

20P010-00 - P10 user manual

20P011-00 - P11 user manual

20P012-00 - P12 user manual

20P013-00 - P13 user manual

20P014-00 - P14 user manual

20P015-00 - P15 user manual

20P016-00 - P16 user manual

20P017-00 - P17 user manual

21APPN001 - Application Note: MDIS4 under LabWindows/CVI

21APPN008 - Application Note: Using P10/P11/AD45 under Linux

C203 - The C203 is an M-Module carrier board for universal peripheral I/O applications on a desktop PC with PCI interface. The M-Modules plugged on the C203 are screwed tightly on the carrier board. The long-card C203 can carry three M-Modules.

C204 - The C204 is an M-Module carrier board for universal peripheral I/O applications on a desktop PC with PCI interface. The M-Module plugged on the C204 is screwed tightly on the carrier board. The short-card C204 can carry one M-Module.

D3a - The D3 is a single-board computer for embedded applications based on the Kahlua II PowerPC. It can be used in a CompactPCI system slot or as a stand-alone card. The D3 comes with the MPC8245 PowerPC with 300MHz clock frequency and a local 32-bit/33-MHz PCI data bus. It is a complete state-of-the-art SBC offering DRAM, Flash and CompactFlash memory, dual Fast Ethernet, 4 COMs, USB, IDE and keyboard/mouse interfaces as well as an optional onboard hard disk. In addition, the D3a CPU board can be equipped with PC-MIP mezzanine cards. PC-MIP is the format of choice for all types of workstation I/O such as graphics, SCSI, Ethernet and additional serial lines. The modular combination of I/O functionality on a single-board computer allows to build up tailored control systems which appear as customized solutions based on standard components. Depending on the kind of I/O requirements, further standard versions of D3 are availabe for other mezzanine standards.

M0 - The M0 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. M-Modules are an ANSI mezzanine standard for all kinds of real-world I/O functions. M-Modules are used on a large variety of computing platforms such as CPCI, PXI, VME, VXI, desktop PCI or on any other type of carrier card. The M-Module concept is deliberately designed to allow specialized modules to be developed simply, quickly, and cheaply. These specialized development efforts can be undertaken by different vendors or by the customers themselves. The M0 is a bare board with just the appropriate connectors for development of M-Module prototypes and small series.

M11 - The M11 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The 16 I/O lines of the M11 (Ports A and B) can be used separately as two ports with 8 bits each or together as a 16-bit port. Control of the I/O lines is via the four handshake lines. Depending on the operation mode, the four handshake lines generate an interlocked handshake, a pulsed handshake, interrupt inputs or simple inputs.

M13 - The M13 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The incremental encoder interface used on the M13 can determine the direction and measurement of optical sensors delivering two-phase shifted output signals. Schmitt triggers guarantee error-free operation of the M13 with TTL signals.

M14 - The M14 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M14 M-Module permits connection of peripheral devices by means of a SCSI interface. The FAS216U, the core of the M-Module, has a buffer controller interface for I/O functions and fast DMA accesses in different forms. A "pseudo" DMA interface is destined to use the M14 on a carrier board even without a DMA controller. The FAS216U contains single-ended drivers and receivers. It has a buffered command structure and is able to release common SCSI sequences without microprocessor intervention. The M14 is an ideal solution to enhance SBCs by SCSI functionality in a cost-effective way.

M15 - The M15 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M15 M-Module has two identical signal generators. You can program the frequency, pulse width and output amplitude of each of the two isolated output signals. The M15 finds typical applications in automatic testing systems, simulators etc.

M16 - The M16 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M16 is an analog data acquisition M-Module with four differential inputs and a resolution of 12 bits. The analog part is optically isolated from the system. All four channels can be sampled simultaneously with a sampling frequency of up to 28kHz. Complete signal conditioning is accommodated directly on the M16 and is controlled through software (AC/DC, voltage range). The input circuit, filtering and gain parameters can be set for all channels. Switched capacitor filters form an adjustable anti-aliasing filter. This way the filter frequency can be adapted perfectly and dynamically to the sampling frequency. The use of SC filters guarantees a maximum signal bandwidth at a given sampling frequency.

M17 - The M17 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M17 is based on the MC68302 multiprotocol processor. It is particularly suited for communication applications. The three intelligent serial channels are supported by a RISC and a DMA controller. Each MC68302 channel can be used for HDLC/SDLC, UART or BISYNC operation. Even X.25 protocols can be handled with low load on the host. The M17 is similar to the M46, but it offers more flexibility by using additional PCBs for configuration of the line interface. We provide interface adapters for triple RS232, RS422 or RS485 or one X.21bis channel.

M19 - The M19 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M19 M-Module is a simple radio-controlled clock interface. Using an active antenna, it receives the DCF77 longwave transmitter at Mainflingen near Frankfurt/Main. The M-Module will operate properly within a distance of approx. 1,500km from Frankfurt. The time signal mainly consists of a 77.5kHz carrier frequency with modulated second marks. The bit stream continuously being received contains the BCD codes of time, date and day-of-week and three parity bits.

M20 - The M20 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. With the M20 M-Module memory cards can be used as multi-purpose storage devices. The card slot unit is located on a separate PCB. The boards are connected by a small flat-cable. This allows installation of the card slot anywhere in a rack just like a floppy disk drive. A memory card is the perfect solution for applications in rough industrial environments. The M20 module supports memory cards (PCMCIA type I) of SRAM and Flash type. ATA is not supported.

M22 - The M22 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M22 uses intelligent power switches to control a load of 2A per channel. The output state is detected and can be read back. This way, a deactivated output can also be used as an input. When an error occurs, an interrupt can be triggered for each channel. This interrupt is maskable. Overload and overtemperature detection for each channel combined with ESD protection make the M22 nearly indestructible - an ideal choice for sophisticated applications requiring critical process output.

M24 - The M24 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M24 has voltage-sensitive inputs. Either 16 channels are available using a 25-pin D-Sub connector, or 8 channels using a screw terminal with LED display. The nominal switching threshold is half the supply voltage. Suppressor diodes protect all inputs against overvoltage. Interrupt generation can be programmed for each individual channel on each transition. The M24 is a high-end M-Module for process input. It is designed for use in critical applications.

M27 - The M27 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M27 with its open-collector outputs can be used in process I/O applications (cf. M28 with open-emitter outputs). If there are currents of above 500mA an intelligent power switch guarantees that the respective transistor is switched off. The M-Module is equipped with suppressor diodes for protection against overvoltage caused by inductive loads. The output registers can be read back.

M28 - The M28 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M28 with its open-emitter outputs can be used in process I/O applications (cf. M27 with open-collector outputs). If there are currents of above 500mA an intelligent power switch guarantees that the respective transistor is switched off. The M-Module is equipped with suppressor diodes for protection against overvoltage caused by inductive loads. The output registers can be read back.

M29 - The M29 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M29 is a low-cost output M-Module for process I/O. The integrated output driver provides overcurrent protection and thermal shutdown. Maximum power dissipation is limited to 1.3W at 70°C. This results in derating of the outputs to 50mA if all eight channels are permanently active for a long time. The output registers can be read back.

M30 - The M30 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M30 is an optoisolated low-cost input M-Module for process I/O. The input voltage on the M30 is limited by a resistor and Zener diode to prevent distortion.

M31 - The M31 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M31 is a 16-bit binary input M-Module with latching and comparator capabilities for industrial applications. The inputs are optically isolated with a high isolation voltage of 500V DC. A current limit for each input guarantees a wide input voltage range of 0 to 155V. Each input signal edge generates a maskable interrupt for each channel. The signals of mechanical switches are debounced by a digital circuit. The precision debouncing time of 300ns to 100ms is software programmed in a PLD. The M31 has its input load on ground which means that switching an input to an external supply activates the respective optocoupler.

M32 - The M32 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M32 is a 16-bit binary input M-Module with latching and comparator capabilities for industrial applications. The inputs are optically isolated with a high isolation voltage of 500V DC. A current limit for each input guarantees a wide input voltage range of 0 to 155V. Each input signal edge generates a maskable interrupt for each channel. The signals of mechanical switches are debounced by a digital circuit. The precision debouncing time of 300ns to 100ms is software programmed in a PLD. The M32 has its input load on supply voltage which means that switching an input to ground activates the respective optocoupler.

M33 - The M33 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M33 is a highly flexible M-Module for analog output signals. The isolated supply voltages can be generated by an on-board DC/DC converter. The output voltage range can be set to 0..10V, -5..+5V or -10..+10V for each channel by software. In addition, the current outputs can be used with 0..20mA or 4..20mA. The output load is driven to ground. Attention: An external supply is needed with 8 current outputs!

M34 - The M34 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M34 is a 12-bit analog input M-Module. The isolated supply voltages can be generated by an on-board DC/DC converter. A fast A/D converter and auto-incrementation of the multiplexer channel make the M-Module ideal for fast sampling. The complete acquisition time of an M34 is less than 8.5µs. Input signal conditioning is done adding a small PCB.

M35 - The M35 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M35 is a 14-bit analog input M-Module. The isolated supply voltages can be generated by an on-board DC/DC converter. A fast A/D converter and auto-incrementation of the multiplexer channel make the M-Module ideal for fast sampling. The complete acquisition time of an M35 is 10µs. Input signal conditioning is done adding a small PCB.

M35N - The M35N is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M35N is a 14-bit analog M-Module for a wide range of standard input requirements such as 16 channels single-ended voltage or current and 8 channels differential voltage or current. The isolated supply voltages are generated by an onboard DC/DC converter, which is also usable in the extended temperature range of -40 to +85°C. A fast A/D converter and auto-incrementation of the multiplexer channel make the M-Module ideal for fast sampling. The complete acquisition time of an M35N is 7.8µs and the precision is better than 0.05%. The M35N features totally automatic adjustment of each channel and each input range.

M36 - The M36 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M36 is a 16-bit analog input M-Module. The isolated supply voltages can be generated by an on-board DC/DC converter. Sampling on the M-Module is completely automatic. The measured values are available in a dual-ported RAM. The sequence and mode of channels to be measured can also be defined in the dual-ported RAM. Acquisition time is less than 10µs. Input signal conditioning is done using a small adapter.

M37 - The M37 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M37 is a very fast M-Module for analog output signals. The isolated supply voltages (±15V) can be generated on the board by a low-noise DC/DC converter. The output voltage range for each channel is -10 to +10V. The current outputs are separately available and can be used as 0 to 20mA outputs. The output load is driven to ground. N.B.: An external supply is needed with 4 current outputs!

M39 - The M39 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M39 is an InterBus-S slave controller for industrial fieldbus applications. The M-Module can be supplied by an external 24V supply. This guarantees that the bus is not disrupted when the system is switched off. Remote IN and Remote OUT bus connections are isolated from each other and from the system. The 24V supply to the M39 is also isolated. The M-Module allows to integrate intelligent nodes in an InterBus-S system. For example, a stored-program control can be coupled with a real-time system.

M40 - The M40 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M40 is a Profibus interface for high-end fieldbus applications. The internal RISC CPU of the MC68302 is programmed to run the low-level software independent of the internal communication channels. The CPU is used up to layer 7. The complete Profibus software runs locally on the M-Module without interaction of the main CPU. Data communication between the MC68302 and the host CPU is done via shared DRAM of the M40. Firmware must be downloaded after power-up. The RS485 interface is supplied by an on-board DC/DC converter.

M41 - The M41 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M41 uses four 24-bit multimode counters. These counters can be used in several different modes including quadrature encoding of sensor signals, but also frequency counting, gated pulse counting etc. The counter can be loaded with a preset and a compare value. Interrupt generation is possible. The inputs can be used as TTL or RS422 inputs. For user-defined functions there are also four TTL open-collector outputs. A DC/DC converter supplies the isolated part of the M-Module.

M43 - The M43 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M43 is a relay output M-Module for free potential switching of eight signals. It is designed for industrial process I/O applications. The relays implemented guarantee highest reliability and long life.

M44 - The M44 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M44 is a motor controller that is suited for all types of motors that have a ±10V DC control input and that can provide a position feedback information using an incremental encoder (e.g. servo motors). The motor controller component on the M44 is able to move a motor to a specific position at a specific speed. The PID values for the controller can be defined by software and thus be adapted to the motor used. In addition there is a binary input and a relay output.

M45 - The M45 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M45 is based on two CL-CD1400 devices, each with 4 full-duplex serial channels. With optional special character processing capabilities, it is especially suited for high-end applications. This guarantees high data throughput. Twelve bytes of FIFO for each transmitter and each receiver reduce the interrupt load for the host CPU and prevent loss of receive data.

M46 - The M46 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M46 features an MC68302 multiprotocol processor. The M-Module is especially suited for communication in flexible data processing applications, for all common industrial interfaces, for modem-like applications and data collection systems as well as bridges and gateways in networks. The three intelligent serial channels are supported by a RISC and a DMA controller. 9 control lines per channel incl. clocks allow control of external devices such as modems or testing equipment. Interprocessor communication is done with two independent 2-KB FIFOs. The M46 does not need any plug-on PCBs and has more handshake lines than M17.

M47 - The M47 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M47 is a Serial Synchronous Interface M-Module for connection of up to four sensors to optically isolated SSI outputs. Serial synchronous interfaces are commonly used for many kinds of sensors such as rotary encoders. Connection to the sensors is made by two signals - a transmit clock and a receive data signal. All communication and signal decoding is done in an FPGA. Gray and binary decoding, the baud rate and word length are programmable for every single channel. The current value can be read from the DPR at any time. In addition, the M47 features line-break detection.

M48 - The M48 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M48 M-Module outputs alphanumeric characters on LCD displays with on-board Hitachi HD61830 and HD61202 controller chips. The M48 adapts the displays to the system bus of the corresponding carrier board. Typical applications are additional monitors for measuring values, operating states etc.

M49 - The M49 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M49 is a step motor controller with power amplifier for two 2-phase motors. Each motor is controlled by its own powerful RISC-like microcontroller. The motor(s) are driven directly by two on-board power stages with up to 50V/3A for each phase. For both motors a binary input can be used to detect the home position of the motor. When the values for acceleration, speed and nominal position are defined, the M49 moves the motors on its own. Due to the trigger line, motions on several axes (X, Y, Z motions etc.) can be synchronized.

M50 - The M50 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M50 is a 1-channel, continuous-tracking synchro- or resolver-to-digital converter with a configurable 10 to 16-bit resolution and a tracking rate of up to 1040rps. The M-Module has a reference signal generator with a frequency range of 50Hz to 20kHz. Reference output voltages can be in a range of 2Vrms to 21Vrms. An analog velocity output can be used to monitor the rotational speed. The M-Module is suited for nearly all synchro/resolver sensors: the user can easily adapt the M50 by plugging passive components. The M50 is optically isolated and supplied by an on-board DC/DC converter. Optical isolation of the digitized values significantly improves accuracy compared to common transformers.

M51 - The M51 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M51 is a CAN bus interface M-Module based on the SJA1000. It is available with one or four CAN bus controllers. The M-Module is equally suitable in fieldbus applications and for test and diagnosis equipment for the CAN bus or CAN bus devices. All channels are optically isolated from the system and from each other. The four-channel version has been designed for example for use of SLIO CAN devices (serial linked I/O) to increase the I/O capabilities of your system in a very cost-effective way. The M51 also supports network configurations that require high speed with short distances and low speed over long distances.

M52 - The M52 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M52 is a Centronics interface M-Module for bidirectional operation. The M-Module is based on a CL-CD1400 device. The CD1400 intelligence together with 30 bytes of FIFO for transmitter or receiver operation result in high data throughput and reduce the load on the host CPU. The M52 is used to connect printers, scanners, etc., and can also be applied to make a direct connection to a PC.

M53 - The M53 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M53 M-Module permits connection of SCSI peripheral devices by means of a 50-pin HD-Sub SCSI connector. Its core is the 53CF96, which has a buffer controller interface for I/O functions. The SCSI controller transmits its data via DMA to a 32-bit FIFO. The host can read or write data from/to the FIFO via the M-Module in 16-bit or 32-bit blocks. For this purpose, the M-Module also supports burst access.

M54 - The M54 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M54 is a motor controller that is suited for all types of motors that have a ±10V DC control input and that can provide a position feedback information using an incremental encoder (e.g. servo motors). The motor controller component on the M54 is able to move a motor to a specific position at a specific speed. The PID values for the controller can be defined by software and thus be adapted to the motor used. In addition there are eight binary inputs and two binary outputs, which are isolated from each other, from the analog output and from the system.

M56 - The M56 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M56 M-Module has 16 relay channels with throw-over contacts. It is a switching matrix for measuring signals with different voltage levels and different ground references. The powerless-switching relays offer great advantages compared to mono-stable relays: since there are no thermoelectric potentials, the M56 can "process" very small voltage and current.

M57 - The M57 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M57 is a Profibus DP (Distributed Peripherals) interface. The M-Module is based on the ASPC 2 controller and the 16-MHz Motorola MC68331 CPU. It is an ideal interface solution for intelligent remote I/O applications via a very popular fieldbus standard. The ASPC 2 is an advanced Profibus controller allowing 127 stations with 254 SAPs (Service Access Points) each. It allows data transfer rates of up to 12 Mbaud on the M57. The MC68331 is a 68020-based CPU which handles communication with the host CPU via the on-board 1MB of shared DRAM. The advantage of this Profibus application using the MC68331 is that the complete Profibus protocol stack runs locally on the M-Module with very reduced interaction of the host CPU. The Profibus firmware consists of the true Softing protocol stack. The corresponding driver software comes from MEN and complies with the standard Softing PROFIBUS DP Configurator tool. It supports configuration of the M57 for each application in a very convenient way. The driver is based on MDIS (MEN Driver Interface System) which makes the M57 ready for use under Windows, Linux and RTOS environments. The optically isolated RS485 Profibus interface is supplied by an on-board DC/DC converter.

M58 - The M58 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M58 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M58 TTL I/O M-Module is used for fast and trouble-free transmission of binary signals. It is organized in four 8-bit groups, where each group can be programmed as an input or output. Every group has line termination resistors, which can also be activated by software. A trigger line allows simultaneous acquisition of the inputs of several groups - also on several modules - at a specific point of time. All port lines are ESD-protected, but not optically isolated.

M59 - The M59 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M59 M-Module is a DSP-based 4-channel data acquisition M-Module with 16 bits resolution. The measuring ranges are software-configurable up to a maximum of ±10V. Both AC or DC coupling of the differential inputs is possible. Internal RAM of the DSPs is used as program memory and data buffer. The M59 was developed for filtering, concentrating and buffering of analog measuring data. Its external trigger options make the M59 an ideal device for multichannel data logging, vibration and switching analysis or automatic measuring equipment. In addition to the standard firmware included, the user can realize his own applications using the development kit by Analog Devices.

M6 - The M6 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M6 is a standard interface for serial I/O. It is based on the Z85C30 controller, which has two independent channels. Channel B can be configured as a TTY, RS232, RS422 or RS485 interface. TTY provides noise-immune, slow data transfer. With RS232, data transfer rates between 110 and 38400 baud can be implemented. With RS422/485, the data transfer rates reach 1Mbits/s even over longer distances. Channel A is not used.

M60 - The M60 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M60 double-size M-Module is a digital system multimeter for measuring DC and AC voltages and currents, and resistance by means of 2-wire and/or 4-wire technique. The M-Module is designed for automated measuring systems, servicing devices etc. The measuring ranges are compatible with VXIbus devices by Hewlett Packard.

M61 - The M61 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M61 is a step motor controller with power amplifier for one 4- or 5-phase motor. The motor is controlled by a powerful RISC-like microcontroller and is driven directly by five on-board power stages with up to 50V/3A for each phase. A binary input can be used to detect the home position of the motor. When the values for acceleration, speed and nominal position are defined, the M61 moves the motor on its own. Due to the trigger line, motions on several axes (X, Y, Z motions etc.) can be synchronized.

M62 - The M62 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M62 is an analog output device with as many as 16 channels on one single M-Module. The isolated supply voltages (±15V) can be generated by an on-board DC/DC converter. The output voltage range is fixed to 0 to 10V or -10 to +10V. Alternatively, current outputs are available within a range of 4 to 20mA. The output load is driven to ground. N.B.: An external supply is needed with current outputs!

M63 - The M63 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M63 is a DSP-based digital M-Module. It provides a total of 32 I/O lines, 16 of which are input lines and 16 are input or output lines. This makes two optically isolated groups: one 16-bit input group and one 16-bit I/O group. The internal RAM of the DSPs is used as a program memory and data buffer. The M63 forms a functional extension to the analog input/output M-Modules M59 and M68. Its external trigger line allows acquisition and output of binary signals together with analog signals. In addition to the standard firmware included, the user can implement his own applications using the development kit by Analog Devices.

M65 - The M65 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M65 is a dual-intelligence full-CAN interface M-Module. The two channels are completely identical and independent. Each channel is built up with an MC68331 32-bit microcontroller, an i82527 CAN communications controller and local shared SRAM. The physical layer is ISO high-speed with up to 1Mbit/s. The physical interfaces are isolated from the system and from each other. The host can load and update the firmware in RAM. Communication is also done via shared SRAM and supported by window and pointer access mechanism. Interrupts are available in both directions from the M-Module to the host and from the host to the M-Module. CANopen firmware consists of the Vector Informatik protocol stack, which runs locally and thus reduces the load on the host. The corresponding driver software comes from MEN. It is based on MDIS (MEN Driver Interface System), which makes the M65 ready for use under WindowsNT, Linux and RTOS environments. MEN also provides comprehensive Intelligent CAN Layer 2 software, based on MDIS.

M66 - The M66 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M66 provides 32 binary process signals on one single M-Module, which is the largest number of binary channels ever seen on a mezzanine board. This allows a total of 128 signals with four M-Modules on a double Eurocard (i.e. in one slot of a VME or CPCI system)! With its extremely high output current of 1.9A per channel, optical isolation and its over-current and over-temperature protection mechanisms, the M66 is the M-Module of choice for advanced industrial and automotive applications.

M67 - The M67 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M67 is a board for acquisition of analog signals with a bandwidth of up to 10MHz at a maximum resolution of 12 bits and a sampling frequency of up to 40MHz. Variable trigger functions allow application of the M67 as a "digital storage oscilloscope" for measurement and analysis applications. The sampling data is stored in an onboard memory buffer. After the sampling procedure this buffer can be processed by an external host. Individual signal conditioning is made by the customer using a blank prototype PCB that is plugged directly on M67 and must be ordered separately. MEN can produce individual adapters on request.

M68 - The M68 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M68 is a DSP-based, four-channel, analog signal output M-Module with 16-bit resolution. The minimum and maximum values for each output are individually configurable through software. Internal RAM of the DSPs is used as program memory and data buffer. The data buffers can be filled via DMA. The M68 is particularly well suited for applications that involve voice output or function generation. Its external trigger options make the M68 an ideal subsystem for complex simulators, automatic testing systems and similar applications. In addition to the M68's standard firmware, custom functionality can be implemented by using the DSP developer's kit from Analog Devices.

M69 - The M69 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M69 is based on the CL-CD1400 device with 4 full-duplex serial channels. With optional special character processing capabilities, it is especially suited for high-end applications. This guarantees high data throughput. Twelve bytes of FIFO for each transmitter and each receiver reduce the interrupt load for the host CPU and prevent loss of receive data. All interfaces are optically isolated from the system and from each other.

M70 - The M70 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M70 is a DSP-based M-Module for acquisition of temperature values using PT100/PT1000 resistance temperature detectors or thermocouples. The M70 automatically recognizes the connected sensor type and connection type from the pin assignment of the connectors applied. For PT100/PT1000 the M-Module has 4, 8 or 16 channels, depending on the input mode (2-wire, 3-wire or 4-wire connection). 15 channels are available for thermocouples, while one channel is used for cold junction compensation. You must connect a PT100 sensor to this channel.

M72 - The M72 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M72 M-Module is a timer, counter and comparator with four 32-bit counter units. The four counters work independently in several modes, e.g. counting decoder signals or measuring frequencies. Each counter can be loaded with a preset value and can generate several events. Events can set or reset output signals, which are optically isolated. The M72 can also be used to generate timed signals. In addition it features line-break detection. The sensor signals are optically isolated and can be used as TTL, RS422 or 24V inputs.

M73 - The M73 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M73 complies with the IEEE-802.3 standard. Data rates of 10Mbits/s can be achieved at a network length of 2,500 meters with up to 100 stations. The Ethernet is intended primarily for use in such areas as office automation, distributed data processing, terminal access, and other situations requiring economical connection to a local communication medium. The M73 provides Twisted Pair connection (10Base-T) using a standard RJ45 connector.

M74 - The M74 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M74 is a CAN bus interface M-Module based on the SJA1000. It accommodates two CAN bus controllers. The M-Module can be used for traditional fieldbus applications or for CAN bus test and diagnosis equipment for the CAN bus or CAN bus devices. All channels are optically isolated from the system and from each other. The M74 supports network configurations that require low speed over long distances.

M75 - The M75 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M75 is a fast dual serial interface with a data transfer rate of up to 2Mbits/s per channel, using RS422 line transceivers in full-duplex mode or RS485 line transceivers in half-duplex mode. The two channels are optically isolated from each other and from the system. The Serial Communication Controller (85C30 compliant) of the M75 is implemented in an FPGA. It supports both asynchronous and synchronous transmission, also allowing the HDLC/SDLC protocol. To achieve higher data rates without burdening the system with interrupts, the M75 has four asynchronous external data FIFOs. The FIFOs have a depth of 2kB in each direction and support simultaneous reading and writing. The M75 supports RS422/485 line levels at the front and alternatively TTL signals via the carrier board connector (e.g. VME P2, CPCI J4/J5). Using MEN's SA-adapters (serial interface adapters) multiple combinations of signal levels -- TTL, RS232 etc. -- may be implemented via the backplane.

M76 - The M76 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M76 M-Module is a digital system multimeter M-Module for acquisition of DC and AC voltage, DC and AC current and resistance through 2- or 4-wire measurement. It is an advanced, more compact version of the M60 M-Module with higher accuracy but without the extreme voltage isolation of the M60. The M76 is based on a 24-bit Sigma-Delta A/D converter with on-chip notch filter. This technology allows sampling frequencies (or filter frequencies) between 10Hz and 1kHz providing varying resolutions. Features such as autoranging, limit testing etc. can be implemented by means of software.

M77 - The M77 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M77 is a quad serial interface M-Module which supports four high-performance UARTs with RS232/423 or RS422/485 level at the front-panel D-Sub connector or at the rear I/O connector of the M-Module. The 16C954 UARTs are fully software compatible with 16C550 UARTs. The interface mode of the M77 can be changed by means of software. The termination resistor for RS422/485 must be set up through an external connection in the cable. All interface lines are optically isolated from the system and from each other, which is essential for advanced automotive and industrial applications. The M77 is equipped with an M-Module-ID EEPROM.

M78 - The M78 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M78 is an M-Module for acquisition of up to four analog and eight digital signals with a wide bandwidth at a maximum resolution of 12 bits and a sampling rate of up to 50MS/s. A local 16MB RAM buffers the converted values. The buffer contents can be transferred to the host. The M-Module has onboard input signal conditioning. This is implemented adding a small PCB, which guarantees maximum flexibility for manifold applications. Variable trigger functions permit application of the M78 as a genuine digital storage oscilloscope and implementation of modular multichannel systems. Typical applications include simulators, analysis systems, high-speed data loggers or automotive diagnostic systems. The M78 is software compatible with the 1-channel 12-bit/40-MHz oscilloscope M67.

M79 - The M79 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M79 M-Module is a Profibus DP (Distributed Peripherals) slave interface based on the Infineon C165 CPU. It is thus an ideal interface solution for intelligent remote I/O applications via a very popular fieldbus standard. The C165 CPU handles communication with the host CPU via the onboard shared DRAM. The advantage of this Profibus implementation is that the complete Profibus protocol stack runs locally on the M-Module with very reduced interaction of the host CPU. The RS485 Profibus interface (9-pin D-Sub) allows selectable transmission rates from 9.6 kbits/s up to 12Mbits/s. The optically isolated interface is supplied by an onboard DC/DC converter. The output is short-circuit protected. The M79 comes with 512KB of local Flash, 1MB of local SRAM and 16KB dual-ported RAM. Profibus slave functionality comprises initialization and termination of slaves, additional status information on output and input data as well as security services such as DP applications checked by a user watchdog or a protocol stack monitored by the application. The Profibus firmware consists of the true Softing protocol stack. The corresponding driver software comes from MEN and complies with standard Softing tools. It supports configuration of the M79 for each application in a very convenient way. The driver is based on MDIS (MEN Driver Interface System) which makes the M79 ready for use under Windows, Linux and RTOS environments.

M8 - The M8 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M8 is a standard interface to peripheral devices with IEC625 or IEEE488 interfaces. Due to the NAT9914 GPIB controller up to 15 connected peripheral devices can be polled in parallel or serial mode. The M-Module provides controller, talker and listener functions, it has automatic handshake and interrupt control. The M8 is an ideal choice for automated measuring systems. A special cable is available to convert the 25-pin IEC-bus connector of the M8 to a 24-pin connector/receptacle according to IEEE488.

M81 - The M81 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M81 is a 16-channel fully isolated, fully protected binary output M-Module for industrial applications. The outputs can switch DC as well as AC voltages and can also be used for analog signals. The M81 works with parallel transmission and supports very fast, spike-free switching. The M81 switches relays, lamps or other loads. Typical I/O applications include automated test equipment, simulators and PLC-like applications. The M81 is software-compatible with M27.

M82 - The M82 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M82 is a 16-channel fully isolated input M-Module with latching and comparator capabilities for industrial applications. A current limit for each input guarantees an input voltage range of 0 to 40V. Each input signal edge generates a maskable interrupt for each channel. The voltage-sensitive inputs have a hysteresis function. The M82 has its input load on ground which means that switching an input to an external supply activates the respective optorelays. Typical I/O applications include automated test equipment, simulators and PLC-like applications with different voltage requirements. The M82 is software-compatible with the M31.

M9 - The M9 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M9 complies with the IEEE-802.3 standard. Data rates of 10Mbits/s can be achieved at a network length of 2,500 meters with up to 100 stations. The Ethernet is intended primarily for use in such areas as office automation, distributed data processing, terminal access, and other situations requiring economical connection to a local communication medium. The M9 has a combined D-Sub/BNC connector. 2 adaption connectors convert to 10Base-5 or 10Base-2. 10Base-T can only be supported via a 10Base-5-to-10Base-T adapter (commercially available).

M97 - The M97 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M97 is a universal counter that is perfectly suited for automated testing systems. Its extremely accurate time base together with the 100-MHz counter technology guarantee the highest precision. The switching points and hysteresis of the input signals can be programmed in a broad range. Optical isolation permits usage of the M-Module even in critical applications.

M99 - The M99 is based on the M-Module ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate M-Module carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The M99 can be used for functional testing of M-Module carrier boards for two- and three-row M-Modules according to the M-Module specification. Its functionality relies on the parallel interface and timer component 68230. An on-board SRAM permits testing of data transfer and DMA. In addition interrupt handling, M-Module identification and trigger lines can be tested. 16 LEDs at the front of the module ease testing, with 8 LEDs being user-configurable.

P10 - The P10 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P10 is a high-performance quadruple UART with RS232 interface. Each 16C950 UART channel has 128-deep transmit and receive FIFOs, with readable levels and user-defined thresholds. All UARTs are capable of delivering up to 15Mbps asynchronous data throughput simultaneously, and are software-compatible with commonly used 16C450, 550, 650 and 750 UARTs. The UARTs support Big Endian byte-lane conversion, 5, 6, 7, 8 and 9 bit data framing and Infra-red (IrDA) receiver and transmitter as well as several other sophisticated functions for high-end serial communication requirements. The P10 is supplied with RS232 line physics at the front and alternatively with TTL-level signals via the carrier board connector. This permits you to connect "SA adapters" with different line drivers (TTY, RS485 etc.) in a CPCI system via rear I/O.

P11 - The P11 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P11 is a high-performance quadruple UART with RS422/485 interface. Each 16C950 UART channel has 128-deep transmit and receive FIFOs, with readable levels and user-defined thresholds. All UARTs are capable of delivering up to 15Mbps asynchronous data throughput simultaneously, and are software-compatible with commonly used 16C450, 550, 650 and 750 UARTs. The UARTs support Big Endian byte-lane conversion, 5, 6, 7, 8 and 9 bit data framing and Infra-red (IrDA) receiver and transmitter. The P11 is supplied with a RS422/485 line interface at the front and via the carrier board connector. It supports 4-wire full duplex transmission.

P12 - The P12 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P12 adds standard Ethernet functionality with a high 1.5kVrms isolation to all types of industrial applications from small embedded-system up to high-end workstation configurations. The P12 features the fast 21143 Ethernet controller, supporting 10/100Base-T via an RJ45 connector at the front panel. The PC-MIP offers full duplex support and the MAC address in an onboard serial EEPROM

P13 - The P13 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P13 TTL I/O PC-MIP is used for fast and trouble-free transmission of binary signals. It is organized in six 8-bit groups, where each group can be programmed as an input or output. Every group has line termination resistors, which can also be activated by software. A trigger line allows simultaneous acquisition of the inputs of several groups at a specific point of time. All port lines are ESD-protected but not optically isolated.

P14 - The P14 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P14 PC-MIP is a 400-Mbps controller for the IEEE 1394 High Performance Serial Bus, also known as FireWire (TM Apple) and i.LINK (TM Sony). The IEEE 1394 defines a high-speed next-generation network topology and protocol. Guaranteed bandwidth is provided for mission critical applications and make the P14 a fast, reliable and universal interconnection between computers and I/O devices. The P14 is provided with an integrated LLC/PHY chip, being fully compatible to OHCI-based software (implicit part of the MS Windows operating systems as of Windows 98SE and Windows 2000). The data transfer rate is specified at 400Mbits/s (200/100Mbits/s). When sourced by the 6-pin 1394 connector with integrated power distribution, peripheral devices attached to the P14 need no separate power supply. Live connect/disconnect, digital video and audio processing or high-speed data storage systems are typical applications for the P14.

P15 - The P15 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P15 can be used to store non-volatile data. The memory is implemented in FRAM technology (Ferroelectric Random Access Memory). FRAMs are proprietary high-performance semiconductors that retain information even when power is lost. For this technology no batteries are required - and maintenance problems are solved. Access times are the same as for standard static SRAM, so there is no delay at write access as for EEPROM or Flash. The number of write cycles is also nearly unlimited (10 billion read/writes).

P16 - The P16 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P16 provides dual Ethernet functionality with a 1000V isolation for telecom applications (e. g. routers) as well as for industrial applications (e. g. second Ethernet as fieldbus). The P16 features two Intel 82559 Ethernet controllers, supporting 10/100Base-T via two RJ45 connectors at the front panel. The PC-MIP offers full-duplex support. The MAC address is stored in an onboard serial EEPROM.

P17 - The P17 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P17 is a double-wide PC-MIP module featuring an SM731 display controller which supports a 235-MHz, 24-bit RAMDAC at a maximum of 1600 x 1200 pixels resolution. It delivers enhanced multi-display capabilities. The onboard graphics controller can drive two independent digital displays (dual digital), alternatively with identical or with different screen displays. Simultaneously, it can drive LCD, CRT and TV displays (DualMon). The controller also incorporates two 112-MHz Max pix clock LVDS channels that can drive two separate panels or a single high-resolution panel (UXGA). The P17 provides a Digital Video Interface (DVI-I) for LCD and CRT via a DVI-I front-panel connector. It also provides an S-Video input and output and Composite Video output via a D-Sub front-panel connector. Both LVDS channels are supported via the J3 rear I/O connector and another onboard plug connector. These connections can be used to control a panel.

P4 - The P4 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P4 adds an ultra fast standard SCSI interface to all types of industrial applications from small embedded-system up to high-end workstation configurations. The P4 features the Symbios SYM53C895 SCSI controller which supports Ultra2 SCSI up to 40MB/s with single-ended (Fast SCSI, Ultra SCSI modes) and LVD (Ultra2 SCSI mode) signaling environments. The P4 also gurarantees backward compatibility to Fast (Wide) SCSI and Ultra (Wide) SCSI modes. In addition, the P4 supports big/little endian, optional ROM and a serial identification ROM.

P5 - The P5 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P5 PC-MIP is based on the i82527 CAN controller and an MC68331 microcontroller. It is an ideal solution for intelligent remote I/O applications using a very popular fieldbus standard. The physical layer is an isolated ISO high-speed interface with up to 1Mbit/s data transfer rate. The host can load and update the local firmware in RAM. Communication is also done via shared SRAM and is supported by window and pointer access mechanism. Interrupts are available in both directions from the PC-MIP to the host and from the host to the PC-MIP. CANopen firmware consists of the Vector Informatik protocol stack, which runs locally and thus reduces the load on the host. The corresponding driver software comes from MEN. It is based on MDIS (MEN Driver Interface System), which makes the P5 ready for use under Windows, Linux and RTOS environments. MEN also provides comprehensive Intelligent CAN Layer 2 software, based on MDIS.

P6 - The P6 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. The P6 PC-MIP is based on the ASPC 2 controller and the 16-MHz MC68331 CPU. It is an ideal interface solution for intelligent remote I/O applications via a very popular fieldbus standard. The ASPC 2 is an advanced Profibus controller allowing 127 stations with 254 SAPs (Service Access Points) each. It allows data transfer rates of up to 12 Mbaud on the P6. The MC68331 is a reliable, cost-effective 68020-based CPU which handles communication with the host CPU via the on-board 1MB of shared SRAM. The advantage of this Profibus application using the MC68331 is that the complete Profibus protocol stack runs locally on the PC-MIP with very reduced interaction of the host CPU. The Profibus firmware consists of the true Softing protocol stack. The corresponding driver software comes from MEN and complies with the standard Softing PROFIBUS DP Configurator tool. It supports configuration of the P6 for each application in a very convenient way. The driver is based on MDIS (MEN Driver Interface System) which makes the P6 ready for use under Windows, Linux and RTOS environments. The electrically isolated RS485 Profibus interface is supplied by an on-board DC/DC converter.

P9 - The P9 is based on the PC-MIP ANSI mezzanine standard. It can be used as an I/O extension in any type of bus system, i.e. CPCI, PXI, VME or on any type of stand-alone SBC. Appropriate PC-MIP carrier cards in 3U, 6U and other formats are available from MEN or other manufacturers. With a high transfer rate of 1000Mbits/s, the P9 Ethernet PC-MIP is suited for high-end applications in networking technology. The P9 provides a 1000Base-T connection (alternatively 10/100Base-T) via a standardized RJ45 connector. The P9 comes with a direct 32-bit, 33/66-MHz interface to the PCI bus. It provides a standard IEEE 802.3 Ethernet interface for 1000Base-T applications through a fully integrated physical-layer circuitry. The communication is made with four pairs of Category 5 copper cable, being able to request data up to a theoretical 100 meters as explained in IEEE 802.3ab. Because of the high modularity of PC-MIP mezzanine cards the P9 is not only suited to equip a workstation with a powerful network interface, but it also allows you to set up multichannel repeaters, switches and routers.

IndustrialPartner.com
301 S Sherman Street
Richardson, Texas 75081
United States
1-972-234-4343
info@industrialpartner.com
©2006 IndustrialPartner.com