Measurement PCM-D24CTR3 User Manual

PCIe-DIO96H

User's Guide

Document Revision 2
September 2014
© Copyright 2014

High-Density, Logic-Level, Digital I/O

HM PCIe-DIO96H.docx

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Table of Contents

Preface

About this User's Guide ....................................................................................................................... 4

Conventions in this user's guide ......................................................................................................................... 4

Where to find more information ......................................................................................................................... 4

Chapter 1

Introducing the PCIe-DIO96H ............................................................................................................... 5

Overview: PCIe-DIO96H features...................................................................................................................... 5

Functional block diagram ................................................................................................................................... 6

Chapter 2

Installing the PCIe-DIO96H ................................................................................................................... 7

What comes with your shipment? ....................................................................................................................... 7

Hardware .......................................................................................................................................................................... 7

Software ............................................................................................................................................................................ 7

Documentation ................................ ................................................................ ................................................................ .. 7

Optional components ........................................................................................................................................................ 7

Unpacking the PCIe-DIO96H ............................................................................................................................. 7

Installing the software ........................................................................................................................................ 7

Installing the hardware ....................................................................................................................................... 8

Signal connections .............................................................................................................................................. 9

Connector pinout..............................................................................................................................................................10

Cabling.............................................................................................................................................................................11

Field wiring and signal termination .................................................................................................................................12

Chapter 3

Functional Details ............................................................................................................................... 13

CIO-ERB24 and SSR-RACK24 daisy chain configuration ................................................................ .............. 13

82C55 emulation (mode 0) ............................................................................................................................... 13

Replacing a fuse................................................................................................................................................ 14

Fuse specifications ...........................................................................................................................................................14

Chapter 4

Specifications ...................................................................................................................................... 15

Digital input/output........................................................................................................................................... 15

Power consumption .......................................................................................................................................... 15

Environmental .................................................................................................................................................. 15

Mechanical ....................................................................................................................................................... 15

Bus .................................................................................................................................................................... 16

Signal connector ............................................................................................................................................... 16

Declaration of Conformity .................................................................................................................. 18

3

Preface

About this User's Guide

This user's guide describes the Measurement Computing PCIe-DIO96H data acquisition device and lists device
specifications.

Conventions in this user's guide

For more information

Text presented in a box signifies additional information related to the subject matter.
Caution! Shaded caution statements present information to help you avoid injuring yourself and others,

damaging your hardware, or losing your data.

bold text Bold text is used for the names of objects on a screen, such as buttons, text boxes, and check boxes.

italic text Italic text is used for the names of manuals and help topic titles, and to emphasize a word or phrase.

Where to find more information

Additional information about PCIe-DIO96H hardware is available on our website at www.mccdaq.com. You
can also contact Measurement Computing Corporation with specific questions.

 Knowledgebase: kb.mccdaq.com
 Tech support form: www.mccdaq.com/support/support_form.aspx
 Email: techsupport@mccdaq.com
 Phone: 508-946-5100 and follow the instructions for reaching Tech Support

If you need to program at the register level in your application, refer to the Register Map for the PCIe-DIO96H.
This document is available on our website at www.mccdaq.com/registermaps/RegMapPCIe-DIO96H.pdf.

4

Chapter 1

Introducing the PCIe-DIO96H

Overview: PCIe-DIO96H features

This manual explains how to install and use the PCIe-DIO96H board. The PCIe-DIO96H is a high-density,
logic-level digital I/O board designed for PCI Express (PCIe) bus.

The PCIe-DIO96H is fully compatible with software written for the PCI-DIO96H and USB-DIO96H.
The PCIe-DIO96H provides 96 digital I/O lines in four independent port groups. Each digital port group is

divided into two 8-bit ports and two 4-bit ports. The PCIe-DIO96H emulates an 82C55 chip in Mode zero. You
can configure each port independently for either input or output.

The PCIe-DIO96H outputs are high-drive TTL that can source 15 mA and sink 64 mA. Additional buffering is
typically not required to drive external devices. The board has two individual slow blow fuses rated at 1 amp
that provide protection for the +5 V User Outputs. A spare fuse is provided.

Each digital port has an associated 10 k resistor network. The board is shipped with each port configured in the
pull-up state. You can change the port configuration with software. On power up and reset the configuration of
each port is read from EEPROM.

Digital I/O lines are accessed through a 100-pin high-density connector.
The PCIe-DIO96H board is completely plug-and-play, with no jumpers or switches to set. All board addresses

are set by the board's plug-and-play software. Board configuration is controlled by your system's BIOS.
Power is provided by the computer’s internal 5 V Molex connector.

5

PCIe-DIO96H User's Guide Introducing the PCIe-DIO96H

GND

12

EEPROM

Switch

5V (VDD)

Boot

EEPROM

Interface

Decode/Status

Logic, Control,

100-pin I/O Connector

10 k

Pull Resistor

Network

W

FIRSTPORTA
FIRSTPORTB

Control

High Drive FIRSTPORT

FIRSTPORTCL
FIRSTPORTCH

In

Out

SECONDPORTA
SECONDPORT B

Control

High Drive SECONDPORT

SECONDPORT CL
SECONDPORT CH

In

Out

THIRDPORTA
THIRDPORTB

Control

High Drive THIRDPORT

THIRDPORTCL

THIRDPORTCH

In

Out

FOURTHPORTA
FOURTHPORTB

Control

High Drive FOURTHPORT

FOURTHPORTCL
FOURTHPORTCH

In

Out

5V Power

Molex

Connector

Fuse

Protection

Spare

Fuse

24

24

24

24

+5V

+5V

Bus

Control

8

8

8

8

8

8

8

8

8

96

BP4

BP3

BP2

BP1

BP(1:4)

PCI-to-Local

Bus

BADR2

+

BADR3

Bus

Timing

LAD(0:7)

8

PCI Express Edge Connector

x1 LinkPCIe-to-PCI

Bridge

PCI Bus

3.3V3.3V1.5V

Regulator

3.3V, 32-bit, 33 MHz

Fuse

Protection

To +5V components
(Note: Outputs to CPLD
are 3.3V with 5V inputs)

+5V (VDD)

Local

Address

&

Data Bus

5V Detect

Software Sensing

Note: Port CL and CH
are tied together on
the pull resistors.

3.3V Board Power

Complex,

Programmable

Logic Device

(CPLD)

8

Functional block diagram

PCIe-DIO96H functions are illustrated in the block diagram shown here.

Figure 1. PCIe-DIO96H functional block diagram

6

Installing the PCIe-DIO96H

What comes with your shipment?

The following items are shipped with the PCIe-DIO96H:

Hardware

 PCIe-DIO96H

Software

 MCC DAQ CD

Documentation

 MCC DAQ Quick Start

This booklet provides an overview of the MCC DAQ software you received with the device, and includes
information about installing the software. Please read this booklet completely before installing any software
or hardware.

Optional components

 C100FF-x cable
 Signal termination and conditioning accessories

Measurement Computing provides signal termination products for use with the PCIe-DIO96H. Refer to the
section "Field wiring and signal termination" on page 12 for compatible accessory products.

Chapter 2

Unpacking the PCIe-DIO96H

As with any electronic device, you should take care while handling to avoid damage from static
electricity. Before removing the PCIe-DIO96H from its packaging, ground yourself using a wrist strap or by
simply touching the computer chassis or other grounded object to eliminate any stored static charge.

If any components are missing or damaged, contact us immediately using one of the following methods:

 Knowledgebase: kb.mccdaq.com
 Tech support form: www.mccdaq.com/support/support_form.aspx
 Email: techsupport@mccdaq.com
 Phone: 508-946-5100 and follow the instructions for reaching Tech Support

For international customers, contact your local distributor. Refer to the International Distributors section on our
website at www.mccdaq.com/International.

Installing the software

Refer to the MCC DAQ Quick Start for instructions on installing the software on the MCC DAQ CD. This
booklet is available in PDF at www.mccdaq.com/PDFmanuals/DAQ-Software-Quick-Start.pdf.

7

PCIe-DIO96H User's Guide Installing the PCIe-DIO96H

No Connect

PC Ground

PC Ground

PC +5V

Installing the hardware

The PCIe-DIO96H is completely plug-and-play. There are no switches or jumpers to set on the board.
Configuration is controlled by your system's BIOS. Perform the steps to install your board..

Install the MCC DAQ software before you install your board

The driver needed to run your board is installed with the MCC DAQ software. Therefore, you need to install the
MCC DAQ software before you install your board. Refer to the Quick Start Guide for instructions on installing
the software.

1. Power off and unplug the computer, and remove the cover to expose the expansion slots.

2. Touch any metal part of the computer to discharge static electricity that may be present. Static electricity

can damage the board.

3. Insert the PCIe-DIO96H into an unused x1 PCIe expansion slot.

The PCIe-DIO96H is designed to install into an x1 slot. However, you can also install the board into an
unused x4, x8, or x16 PCIe slot.

Caution! Ensure that you install the board into a PCI Express slot. Installing the PCIe-DIO96H into a

non-PCIe slot can damage both the board and the computer’s motherboard.

4. Connect the board’s external power connector to one of the computer’s four-pin Molex power connectors.

The board’s Molex power connections are shown here.

Caution! Using an external power supply is not recommended. If external power is used, ensure that the

power supply ground or common is at the same ground potential as the computer power supply.

5. Close your computer and turn it on.

A dialog box opens as the system loads, indicating that new hardware has been detected. The information
file for this board should have already been loaded onto your PC when you installed the Measurement
Computing Data Acquisition Software CD supplied with your board, and should be detected automatically
by Windows. If you have not installed this software, cancel the dialog and install it now.

6. Run InstaCal to test your installation and to configure the pull direction of the digital port resistors.

Refer to the Quick Start Guide that came with your board for information on how to initially set up
InstaCal.

8

PCIe-DIO96H User's Guide Installing the PCIe-DIO96H

Connector type

100-pin, high-density keyed connector

Compatible cable

C100FF-x (Figure 2)

Compatible accessory products with
the C100FF-x cable

CIO-MINI50*
CIO-SPADE50*
CIO-TERM100
SCB-50
* two devices are required

CIO-ERB24
CIO-SERB24/FD
CIO-ERB48
CIO-SERB48
SSR-RACK24
SSR-RACK48

Signal connections

The table below lists the board I/O connector, applicable cables and compatible accessory boards.

Board connectors, cables, accessory equipment

The PCIe-DIO96H has a 100-pin, high-density Robinson-Nugent male connector. You can use the C100FF-x
cable to split the 100 I/O lines into two 50-pin cables (see Figure 2 on page 11).

Board connector pins 1 to 50 are mapped directly to pins 1 to 50 on the C100FF-x cable's first 50-pin connector.
Pins 51 to 100 are mapped directly to pins 1 to 50 on the second 50-pin connector (pin 51 is mapped to pin 1,
and pin 100 is mapped to pin 50.) A sample C100FF-x cable configuration is shown in Figure 3 on page 11.

Information on signal connections

General information regarding signal connection and configuration is available in the Guide to DAQ Signal
Connections. This document is available on our website at www.mccdaq.com/signals/signals.pdf.

Caution! When connecting a cable to the board's I/O connector, make sure that the arrow indicating pin 1

on the board connector lines up with the arrow indicating pin 1 on the cable connector. Incorrectly
connected cables can damage the board and the I/O controller.

9

PCIe-DIO96H User's Guide Installing the PCIe-DIO96H

Signal name

Pin Pin

Signal name

+5V User Output*

99

 

49

+5V User Output*

THIRDPORTC Bit 0

98

 

48

FIRSTPORTC Bit 0

THIRDPORTC Bit 1

97

 

47

FIRSTPORTC Bit 1

THIRDPORTC Bit 2

96

 

46

FIRSTPORTC Bit 2

THIRDPORTC Bit 3

95

 

45

FIRSTPORTC Bit 3

THIRDPORTC Bit 4

94

 

44

FIRSTPORTC Bit 4

THIRDPORTC Bit 5

93

 

43

FIRSTPORTC Bit 5

THIRDPORTC Bit 6

92

 

42

FIRSTPORTC Bit 6

THIRDPORTC Bit 7

91

 

41

FIRSTPORTC Bit 7

THIRDPORTB Bit 0

90

 

40

FIRSTPORTB Bit 0

THIRDPORTB Bit 1

89

 

39

FIRSTPORTB Bit 1

THIRDPORTB Bit 2

88

 

38

FIRSTPORTB Bit 2

THIRDPORTB Bit 3

87

 

37

FIRSTPORTB Bit 3

THIRDPORTB Bit 4

86

 

36

FIRSTPORTB Bit 4

THIRDPORTB Bit 5

85

 

35

FIRSTPORTB Bit 5

THIRDPORTB Bit 6

84

 

34

FIRSTPORTB Bit 6

THIRDPORTB Bit 7

83

 

33

FIRSTPORTB Bit 7

THIRDPORTA Bit 0

82

 

32

FIRSTPORTA Bit 0

THIRDPORTA Bit 1

81

 

31

FIRSTPORTA Bit 1

THIRDPORTA Bit 2

80

 

30

FIRSTPORTA Bit 2

THIRDPORTA Bit 3

79

 

29

FIRSTPORTA Bit 3

THIRDPORTA Bit 4

78

 

28

FIRSTPORTA Bit 4

THIRDPORTA Bit 5

77

 

27

FIRSTPORTA Bit 5

THIRDPORTA Bit 6

76

 

26

FIRSTPORTA Bit 6

THIRDPORTA Bit 7

75

 

25

FIRSTPORTA Bit 7

FOURTHPORTC Bit 0

74

 

24

SECONDPORTC Bit 0

FOURTHPORTC Bit 1

73

 

23

SECONDPORTC Bit 1

FOURTHPORTC Bit 2

72

 

22

SECONDPORTC Bit 2

FOURTHPORTC Bit 3

71

 

21

SECONDPORTC Bit 3

FOURTHPORTC Bit 4

70

 

20

SECONDPORTC Bit 4

FOURTHPORTC Bit 5

69

 

19

SECONDPORTC Bit 5

FOURTHPORTC Bit 6

68

 

18

SECONDPORTC Bit 6

FOURTHPORTC Bit 7

67

 

17

SECONDPORTC Bit 7

FOURTHPORTB Bit 0

66

 

16

SECONDPORTB Bit 0

FOURTHPORTB Bit 1

65

 

15

SECONDPORTB Bit 1

FOURTHPORTB Bit 2

64

 

14

SECONDPORTB Bit 2

FOURTHPORTB Bit 3

63

 

13

SECONDPORTB Bit 3

FOURTHPORTB Bit 4

62

 

12

SECONDPORTB Bit 4

FOURTHPORTB Bit 5

61

 

11

SECONDPORTB Bit 5

FOURTHPORTB Bit 6

60

 

10

SECONDPORTB Bit 6

FOURTHPORTB Bit 7

59

 

9

SECONDPORTB Bit 7

FOURTHPORTA Bit 0

58

 

8

SECONDPORTA Bit 0

FOURTHPORTA Bit 1

57

 

7

SECONDPORTA Bit 1

FOURTHPORTA Bit 2

56

 

6

SECONDPORTA Bit 2

FOURTHPORTA Bit 3

55

 

5

SECONDPORTA Bit 3

FOURTHPORTA Bit 4

54

 

4

SECONDPORTA Bit 4

FOURTHPORTA Bit 5

53

 

3

SECONDPORTA Bit 5

FOURTHPORTA Bit 6

52

 

2

SECONDPORTA Bit 6

FOURTHPORTA Bit 7

51

 

1

SECONDPORTA Bit 7

PCIe slot ↓

Connector pinout

Main I/O connector pinout

* The board has two individual slow blow fuses rated at 1 A. One fuse protects the +5V User Output at pin 49,
and one fuse protects the +5V User Output at pin 99.

10

PCIe-DIO96H User's Guide Installing the PCIe-DIO96H

1

50

2

49

51

100

52

99

10050

511

Key

Key

The red stripe
identifies pin # 1

The red stripe
identifies pin # 51

Cable is labeled

“Pins 51-100”.

Cable is labeled

“Pins 1-50”.

IN

100-pin

I/O connector

Digital I/O

pins 1 to 50

Digital signal conditioning or

50-pin screw terminl board

Digital I/O
pins 51 to 100

C100FF-x cable

IN

Digital signal conditioning or

50-pin screw terminl board

Cabling

Caution! When connecting the cable to the board's I/O connector, make sure that the arrow indicating pin 1

Figure 2. C100FF-x cable

on the board connector lines up with the arrow indicating pin 1 on the cable connector. Incorrectly
connected cables can damage the board and the I/O controller.

Figure 3. C100FF-x cable configuration

11

PCIe-DIO96H User's Guide Installing the PCIe-DIO96H

Field wiring and signal termination

You can use the following screw terminal boards to terminate field signals and route them into the
PCIe-DIO96H using the C100FF-x cable.

 CIO-MINI50 – 50-pin screw terminal board.
 CIO-TERM100 – 100-pin screw terminal board (two 50-pin IDC connectors).
 CIO-SPADE50 — 16" × 4" termination panel which mates with both 37-pin and 50-pin connectors.
 SCB-50 – 50 conductor, shielded signal connection/screw terminal box provides two independent 50-pin

connections.

 CIO-ERB24 – 24 Form C relays, 6 A relay accessory board for digital signal conditioning.
 CIO-SERB24/FD – 24 Form C relays, 10 A, fault detecting relay accessory board with socketed and field-

replaceable relays.

 CIO-ERB48 – 48 Form C relays, 6 A, relay, 50-pin accessory board for digital signal conditioning.
 CIO-SERB48 – 48 Form C relays, 10 A relay accessory board with socketed and field-replaceable relays.
 SSR-RACK24 – 24-channel, solid-state relay mounting rack for digital signal conditioning.
 SSR-RACK48 – 48-channel, solid-state relay mounting rack with quad-format modules.

Details on these products are available on our website.

For additional information about digital interfacing

Detailed information regarding digital interfacing is contained in MCC's Guide to DAQ Signal Connections.
This document is available on our website at www.measurementcomputing.com/signals/signals.pdf.

12

Chapter 3

CIO-ERB24
or
SSR-Rack24

IN

OUT

CIO-ERB24
or
SSR-Rack24

IN

OUT

CIO-ERB24
or
SSR-Rack24

IN

OUT

CIO-ERB24
or
SSR-Rack24

IN

OUT

C100FF-x Cable

PCIe-DIO96H

Functional Details

CIO-ERB24 and SSR-RACK24 daisy chain configuration

Many relay and solid-state relay (SSR) racks provide only 24-bits of digital I/O. You can configure the CIO­ERB24 relay output board and SSR-RACK24 I/O module rack in a daisy chain configuration to use all of the
digital I/O bits provided by the PCIe-DIO96H board. An example of the daisy chain configuration scheme for
each board is shown below.

The PCIe-DIO96H board provides digital I/O in a group of 96 bits. Each of the C100FF-x cable's 50-pin
connectors provides 48 bits. To use all of the board's 96 digital I/O bits to control relays and/or SSRs, configure
the daisy chain as shown in Figure 4.

Figure 4. PCIe-DIO96H to C100FF-x to relay rack daisy chain cabling

The 24 digital I/O bits on pins 1-24 control the first relay board on the chain. The 24 digital I/O bits on pins
25-50 control the second relay/SSR board on the daisy chain and so on, for up to 100 pins.

82C55 emulation (mode 0)

The PCIe-DIO96H emulates the 82C55 chip (mode 0). The 82C55 emulation initializes all ports as inputs on
power-up and reset. A TTL input is a high impedance input. If you connect another TTL input device to the
output, it could be turned on or off every time the board is reset.

To establish a consistent TTL level at power-up, configure each port resistor with InstaCal for either pull-up or
pull-down.

Whenever an 82C55 emulation is powered on or reset, all pins are set to high-impedance input. Based on
standard TTL functionality, these inputs typically float high, and may have enough drive current to turn on
external devices. Consequently, if you have output devices such as solid state relays, they may be switched on
whenever the computer is powered on or reset. To prevent unwanted switching, and to drive all outputs to a
known state after power on or reset, configure each port resistor with InstaCal.

Unconnected inputs are forced to the pull direction

Unconnected inputs will float in the pull direction that is configured for the port with InstaCal (either up/high or
down/low).

13

PCIe-DIO96H User's Guide Functional Details

Replacing a fuse

The PCIe-DIO96H has two individual 1 amp slow blow fuses. One fuse is connected to the +5V User Output at
pin 49, and is labeled F1 on the board. The second fuse is connected to the +5V User Output at pin 99, and is
labeled F2 on the board. A spare fuse is installed on the board at location F3. All fuses are secured to the board
with clips for convenient replacement.

A fuse will blow during operation if amperage exceeds 1 amp. If you need to replace a fuse, perform the
following procedure.

1. Pry the center of the fuse from the fuse holder clip.

2. Insert the replacement fuse into the fuse holder clip.

Fuse specifications

Refer to the information below to purchase additional fuses, (or an equivalent), if required:

 Manufacturer: LittelFuse®
 Series: 452 Slo-Blo®
 Part number: 0452001. (Include the period as part of the item number.)
 1 amp, 125 volts, 0.225 Ω
 http://www.littelfuse.com/part/0452001..html

14

Specifications

Parameter

Specification

Digital type

8255 emulation, Mode 0

Output

74ABT244

Input

74LV373A

Configuration

8 banks of 8, 8 banks of 4, programmable by bank as input or output

Number of I/O

96

Output high

2.0 volts min @ –15 mA

Output low

0.55 volts max @ 64 mA

Input high

2.0 volts min, 5.5 volts absolute max

Input low

0.8 volts max, –0.5 volts absolute min

Power-up / reset state

Input mode (10 kW impedance from pull-up or pull-down)

Pull-up/pull-down resistors

EEPROM stored; software programmable driven by 74ACT244 through
10 kWbussed resistor networks (shipped in the pull-up state)

Parameter

Specification

+3.3 V operating (bus)

484 mA max (405 mA typ)

+5 V operating (Molex)

1.74 A max (54 mA typ no load)

+5 V user output (Molex)

1 A max per +5 V user output (pins 49 and 99, protected with 1 A slow blow fuse)

+5 V user output Fuse

1 A Littelfuse ® Slo-Blo ® Fuse P/N: 0452001 or equivalent

Parameter

Specification

Operating temperature range

0 °C to 50 °C

Storage temperature range

–35°C to 80 °C

Humidity

0% to 90% non-condensing

Parameter

Specification

Dimensions (L × W × H)

167.6 × 106.6 × 14.48 mm (6.60 × 4.20 × 0.57 in.)

All specifications are subject to change without notice.
Typical for 25 °C unless otherwise specified.
Specifications in italic text are guaranteed by design.

Digital input/output

Table 1. Digital I/O specifications

Chapter 4

Power consumption

Environmental

Mechanical

Table 2. Power consumption specifications

Table 3. Environmental specifications

Table 4. Mechanical specifications

15

PCIe-DIO96H User's Guide Specifications

Parameter

Specification

Bus type

PCI Express 1.0a

Bus width

x1 lane PCI Express

Parameter

Specification

Connector type

100-pin, high-density

Compatible cables

C100FF-x

Compatible accessory products

CIO-MINI50 (two devices are required)
CIO-TERM100
SCB-50
CIO-ERB24
CIO-SERB24

CIO-ERB48
CIO-SERB48
SSR-RACK24
SSR-RACK48

Bus

Table 5. Bus specifications

Signal connector

Table 6. Signal connector specifications

16

PCIe-DIO96H User's Guide Specifications

Pin

Signal name

Pin

Signal name

100

GND

50

GND

99

+5V User Output (Note 1)

49

+5V User Output (Note 1)

98

THIRDPORTC Bit 0

48

FIRSTPORTC Bit 0

97

THIRDPORTC Bit 1

47

FIRSTPORTC Bit 1

96

THIRDPORTC Bit 2

46

FIRSTPORTC Bit 2

95

THIRDPORTC Bit 3

45

FIRSTPORTC Bit 3

94

THIRDPORTC Bit 4

44

FIRSTPORTC Bit 4

93

THIRDPORTC Bit 5

43

FIRSTPORTC Bit 5

92

THIRDPORTC Bit 6

42

FIRSTPORTC Bit 6

91

THIRDPORTC Bit 7

41

FIRSTPORTC Bit 7

90

THIRDPORTB Bit 0

40

FIRSTPORTB Bit 0

89

THIRDPORTB Bit 1

39

FIRSTPORTB Bit 1

88

THIRDPORTB Bit 2

38

FIRSTPORTB Bit 2

87

THIRDPORTB Bit 3

37

FIRSTPORTB Bit 3

86

THIRDPORTB Bit 4

36

FIRSTPORTB Bit 4

85

THIRDPORTB Bit 5

35

FIRSTPORTB Bit 5

84

THIRDPORTB Bit 6

34

FIRSTPORTB Bit 6

83

THIRDPORTB Bit 7

33

FIRSTPORTB Bit 7

82

THIRDPORTA Bit 0

32

FIRSTPORTA Bit 0

81

THIRDPORTA Bit 1

31

FIRSTPORTA Bit 1

80

THIRDPORTA Bit 2

30

FIRSTPORTA Bit 2

78

THIRDPORTA Bit 3

29

FIRSTPORTA Bit 3

78

THIRDPORTA Bit 4

28

FIRSTPORTA Bit 4

77

THIRDPORTA Bit 5

27

FIRSTPORTA Bit 5

76

THIRDPORTA Bit 6

26

FIRSTPORTA Bit 6

75

THIRDPORTA Bit 7

25

FIRSTPORTA Bit 7

74

FOURTHPORTC Bit 0

24

SECONDPORTC Bit 0

73

FOURTHPORTC Bit 1

23

SECONDPORTC Bit 1

72

FOURTHPORTC Bit 2

22

SECONDPORTC Bit 2

71

FOURTHPORTC Bit 3

21

SECONDPORTC Bit 3

70

FOURTHPORTC Bit 4

20

SECONDPORTC Bit 4

69

FOURTHPORTC Bit 5

19

SECONDPORTC Bit 5

68

FOURTHPORTC Bit 6

18

SECONDPORTC Bit 6

67

FOURTHPORTC Bit 7

17

SECONDPORTC Bit 7

66

FOURTHPORTB Bit 0

16

SECONDPORTB Bit 0

65

FOURTHPORTB Bit 1

15

SECONDPORTB Bit 1

64

FOURTHPORTB Bit 2

14

SECONDPORTB Bit 2

63

FOURTHPORTB Bit 3

13

SECONDPORTB Bit 3

62

FOURTHPORTB Bit 4

12

SECONDPORTB Bit 4

61

FOURTHPORTB Bit 5

11

SECONDPORTB Bit 5

60

FOURTHPORTB Bit 6

10

SECONDPORTB Bit 6

59

FOURTHPORTB Bit 7

9

SECONDPORTB Bit 7

58

FOURTHPORTA Bit 0

8

SECONDPORTA Bit 0

57

FOURTHPORTA Bit 1

7

SECONDPORTA Bit 1

56

FOURTHPORTA Bit 2

6

SECONDPORTA Bit 2

55

FOURTHPORTA Bit 3

5

SECONDPORTA Bit 3

54

FOURTHPORTA Bit 4

4

SECONDPORTA Bit 4

53

FOURTHPORTA Bit 5

3

SECONDPORTA Bit 5

52

FOURTHPORTA Bit 6

2

SECONDPORTA Bit 6

51

FOURTHPORTA Bit 7

1

SECONDPORTA Bit 7

Table 7. Signal connector pinout

Note 1: Protected by individual slow blow fuses rated at 1 A.

17

Declaration of Conformity

According to ISO/IEC 17050-1:2010

Manufacturer: Measurement Computing Corporation
Address: 10 Commerce Way
Suite 1008
Norton, MA 02766

USA

Product Category: Electrical equipment for measurement, control and laboratory use.

Measurement Computing Corporation declares under sole responsibility that the product

PCIe-DIO96H

Complies with the essential requirements of the following applicable European Directives:

Electromagnetic Compatibility (EMC) Directive 2004/108/EC
Low Voltage Directive 2006/95/EC
RoHS Directive 2011/65/EU

Conformity is assessed in accordance to the following standards:
EMC:

Emissions:

 EN 61326-1:2006 (IEC 61326-1:2005), Class A
 EN 55011: 2007 (IEC CISPR 11:2003), Group 1, Class A

Immunity:

 EN 61326-1:2006 (IEC 61326-1:2005), Controlled EM Environments
 EN 61000-4-2:2001 (IEC 61000-4-2:2001)
 EN 61000-4-3 :2002 (IEC61000-4-3:2002)
 EN 61000-4-4 :2004 (IEC61000-4-4:2004)
 EN 61000-4-5 :2001 (IEC61000-4-5:2001)
 EN 61000-4-6 :2007 (IEC61000-4-6:2003)
 EN 61000-4-11:2004 (IEC61000-4-11:2004)

Safety:

 EN610101-1 (IEC61010-1)

Environmental Affairs:

Articles manufactured on or after the Date of Issue of this Declaration of Conformity do not
contain any of the restricted substances in concentrations/applications not permitted by the RoHS
Directive.

Carl Haapaoja, Director of Quality Assurance

Measurement Computing Corporation

10 Commerce Way

Suite 1008

Norton, Massachusetts 02766

(508) 946-5100

Fax: (508) 946-9500

E-mail: info@mccdaq.com

www.mccdaq.com