UEi PowerDAQ PD2-AO-8/16, PowerDAQ PDXI-AO, PowerDAQ PD2-AO-32/16, PowerDAQ PD2-AO, PowerDAQ PD2-AO-16/16 User Manual

...
PowerDAQ PD2-AO, PDXI-AO
PCI/PXI High-Density 16-bit Analog Output Board
User Manual
August 2001 Edition
© Copyright 1998-2001 United Electronic Industries, Inc. All rights reserved
All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form by any means, electronic, mechanical, by photocopying, recording, or otherwise without prior written permission.
Third Edition
August 2001 Printing
Information furnished in this manual is believed to be accurate and reliable. However, no responsibility is assumed for its use, or for any infringements of patents or other rights of third parties that may result from its use.
Contacting United Electronic Industries
Address:
10 Dexter Avenue
Watertown, Massachusetts 02472
U.S.A.
! Support:
Telephone: (617) 924-1155
Fax: (617) 924-1441
" Internet Access:
Support support@ueidaq.com
Web site http://www.powerdaq.com
FTP site ftp://ftp.powerdaq.com
Table of Contents
i
Table of Contents
How to Use This Manual ......................................................iv
Introduction .......................................................................................... iv
Who Should Read This Book? .............................................................. iv
Organization of This Manual ............................................................... iv
Conventions Used in This Manual........................................................ vi
Feedback............................................................................................... vi
Introduction ..............................................................................2
About the PowerDAQ™ Analog Output series board.......................... 2
Overview ............................................................................................ 2
Features.............................................................................................. 3
AO Applications.....................................................................................4
PowerDAQ AO Models.......................................................................... 5
Getting Started ......................................................................................5
Installation and Configuration............................................. 8
Unpacking..............................................................................................8
Hardware ...............................................................................................8
Installing Multiple Boards .................................................................. 9
Software ................................................................................................ 9
Installation..........................................................................................9
Base address, DMA, Interrupt settings ............................................10
Diagnostics........................................................................................10
Accessories ...........................................................................................13
Cables................................................................................................13
Screw Terminal Panels ......................................................................15
Complete kits ....................................................................................16
J1 Connector......................................................................................16
J2 Connector (PD2-AO only)............................................................16
J3-J8 Connector(PD2-AO-96 only) .................................................. 17
Architecture ........................................................................... 20
Functional Overview ............................................................................ 20
Analog Output Subsystem (AO) ...................................................... 21
Digital Output Subsystem ................................................................ 25
Digital Input Subsystem ................................................................... 25
Counter/Timer Subsystem ............................................................... 25
Calibration Subsystem...................................................................... 27
DSP Processor .................................................................................. 27
PCI Bus Interface ............................................................................. 27
Timing and Control ..........................................................................28
API and Third-Party Software Examples........................ 32
Table of Contents
API Function calls ................................................................................ 32
API Examples ....................................................................................... 34
Third-party examples........................................................................... 34
Interconnections.................................................................... 36
PD2- AO-8[16][32] Connectors ...........................................................36
PD2- AO-96 Connectors ..................................................................... 37
PDXI- AO-8[16][32] Connectors..........................................................38
PD2-AO-8[16][32] J1 Analog Connector .......................................... 39
PD2-AO J2 DIO/Counter/Timers/IRQx Connector..........................40
J1-J2 Connection Example................................................................40
Appendix A: Specifications................................................. 43
PD2-AO specifications:........................................................................43
AO subsystem ..................................................................................43
Digital Input and Output .................................................................44
DSP – based subsystems.................................................................44
Appendix B: Accessories ..................................................... 47
Overview .............................................................................................. 47
Cables: (PD[XI]-CBL-xx)................................................................... 47
Screw Terminal Panels: (PD2-AO-STP-xx).......................................49
Screw Terminal Panels: (PD-STP-3716)............................................50
OEM Header Distribution Connector............................................... 52
Accessory Board Connections.......................................................... 53
Appendix C: Common Questions and Support.............. 55
Calibration Questions....................................................................... 55
Service and Support............................................................................. 55
Technical Support Form ................................................................... 57
Appendix D: Warranty ........................................................ 58
Overview ..............................................................................................58
Index........................................................................................ 60
ii
Table of Contents
List of Figures
Figure 1: PowerDAQ Control Panel Application ................................... 11
Figure 2: PowerDAQ control panel application showing PD2-AO-32
board installed .................................................................................. 12
Figure 3: PD2-AO-STP-32 Wiring Diagram .......................................15
Figure 4: Block Diagram of the PowerDAQ PD2-AO boards........... 20
Figure 5: PowerDAQ PD2-AO-8[16][32] Connectors........................ 36
Figure 6: PowerDAQ™ PD2-AO-96 Connectors.............................. 37
Figure 7: PowerDAQ™ PDXI-AO-8[16][32] Connectors ......................38
Figure 8: Connector pin assignment for the J1................................ 39
Figure 9: Connector pin assignment for the J2 ...............................40
Figure 10: Configuring the PD2-AO-STP with PD2-AO-8[16][32] ..........41
Figure 11: Configuring the PD2-AO-STP with PDXI-AO-8[16][32].......... 42
Figure 12: PD2-AO-STP-32 Wiring Diagram ......................................49
Figure 13: PD-STP-3716 Wiring Diagram............................................50
Figure 14: PD-CONN-PCB wiring diagram .............................................. 52
List of Tables
Table 1: PowerDAQ™ AO Models ......................................................5
Table 2: Сonversion between the PD2-MF(S) and PD2-AO board J1
connector pinout. ............................................................................53
Table 3: Dimensions of PowerDAQ™ AO accessory products .............. 54
iii

How to Use This Manual

How to Use This Manual

Introduction

This manual describes the PowerDAQ™ Analog Output boards. The following boards are supported:
PD2-AO-8/16 PD2-AO-16/16 PD2-AO-32/16 PD2-AO-96/16 PDXI-AO-8/16 PDXI-AO-16/16 PDXI-AO-32/16
Two different form-factors are available – 32-bit 33 MHz PCI and 32-bit 33 MHz PDXI. PDXI is a PowerDAQ extension for instrumentation and is a superset of Compact PCI and PXI bus industry-oriented standards.

Who Should Read This Book?

This manual has been designed to benefit the user of PowerDAQ™ PD2-AO and PDXI-AO boards. To use PowerDAQ™ Analog Output Board, it is assumed that you have basic PC skills, and that you are familiar with Microsoft Windows NT/2000/95/98/Me and/or Linux/QNX operating environments.

Organization of This Manual

The PowerDAQ™ PD2-AO User Manual is organized as follows:
Chapter 1 - Introduction
This chapter gives you an overview of PowerDAQ™ Analog Output series board’s features the various models available and what you need to get started.
Chapter 2 - Installation and Configuration
This chapter explains how to install and configure your PowerDAQ™ Analog Output series board.
iv
How to Use This Manual
Chapter 3 - Architecture
This chapter discusses the internal structure and subsystems of your PowerDAQ™ Analog Output series board.
Chapter 4 – API and Third-Party Software Examples
This chapter explains how to use PowerDAQ™ Analog Output series boards using the PowerDAQ™ API on Visual C++, VB, Delphi, C++ Builder or Third-Party software such as LabVIEW®, TestPoint®, DASYLab®, HP VEE®, etc.
Chapter 5 - Interconnections
This chapter describes the I/O connections to your PowerDAQ™ Analog Output series board.
Appendix A - Specifications
This chapter lists the PowerDAQ™ Analog Output series board hardware specifications.
Appendix B - Accessories
This appendix lists the PowerDAQ™ Analog Output series board accessories products.
Appendix C - Common Questions and Support
This appendix contains a list of commonly asked questions and their answers relating to usage and special features of your PowerDAQ™ Analog Output series board board. Should you require assistance while installing or using PowerDAQ™ Analog Output series board, support service details are also listed.
Appendix D - Warranty
This appendix contains a detailed explanation of PowerDAQ™ Analog Output series board’s warranty.
Index
The Index alphabetically lists topics covered in this manual.
v
How to Use This Manual

Conventions Used in This Manual

These are the main conventions used to help you get the most out of this manual:
Tips are designed to highlight quick ways to get the
TIP
job done, or good ideas you might not discover on your own.
Note Notes alert you to important information.
CAUTION! Caution advises you of precautions to take to
avoid injury, data loss, or system crash. Text formatted in bold typeface may also represent type
that should be entered verbatim or a command, as in the following example:
You can instruct users how to run setup using a command such as setup.exe.

Feedback

vi
We are interested in any feedback you might have concerning our products and manuals. A Reader Evaluation form is available on the last page of the manual.
1
Introduction
1
Chapter 1: Introduction

Introduction

This chapter describes the basic features of the PowerDAQ™ PD2-AO boards.

About the PowerDAQ™ Analog Output series board

Thank you for purchasing a PowerDAQ™ Analog Output series board. The board you received is either a PD2-AO PCI­bus board or a PDXI-AO CompactPCI bus board. These boards differ in certain hardware respects however the software is the same.
The PDXI series Analog Output boards utilize all advantages of the PXI/cPCI form-factor.
The associated PowerDAQ™ Software Suite (PD-SDK) has been written specifically for these products.
Overview
The PowerDAQ analog output boards are configured as 8, 16, 32 or 96 channels. The PDXI versions are available in 8, 16 and 32 channel versions. The PowerDAQ Analog Output board uses 16-bit DACs and allows you to configure the start up states for each channel (200ms maximum delay between system reset and power-on value loading). The on­board DSP/PCI interface allows you to use up to three 24­bit counter timers, high-speed IRQ/External Clock lines, eight digital inputs and eight high-drive (-32/64ma) digital outputs. Additionally each board has a special calibration subsystem, which is used to calibrate each analog output channel.
2
Features
The major features of the PowerDAQ AO boards are: 24-bit 66/100 MHz Motorola 56301 DSP (Digital Signal
Processor)
“Bus Master Ready” PCI Bus Host PC Interface (PCI 2.1
Compliant)
8/16/32/96 channel 16-bit +/- 10V DACs
DC-100KHz per D/A throughput
2MHz/board maximum update rate
1/2/4/8/16/32/64 Fixed/Unlimited channel list length
Asynchronous/Simultaneous update modes for the all
DACs
Eight Digital Inputs
Eight Digital Outputs
Counters/Interrupt/Synchronization inputs
Per-channel calibration
Sense lines for the each DAC (optional), jumper-
selectable on PDXI models
User-defined Power-Up states for the each DAC (200
ms maximum setup time after the system reset) Default is 0V.
Three 24-bit counter timers (16.5/25MHz maximum)
On-board 2K FIFO (located in the DSP memory)
32Ksamples FIFO upgrade option
Software:
Chapter 1: Introduction
PowerDAQ for Windows95/98/Me/NT/2000/XP/Linux/QNX Visual C++, VB, Delphi, C++ Builder, Kylix Drivers for: LabVIEW®
HP VEE® LabWindows/CVI® TestPoint® DASYLab® DiaDem® MATLAB DAQ Toolbox
Note For the full list of specifications,
Specifications.
see Appendix A:
3

AO Applications

PowerDAQ Analog Output series boards provide a wide range of powerful features that cover a wide range of applications. The most common applications are:
Process Control
ATE
Closed-loop Servo-Control
Motor Control
Individual DAC voltage output
Telecommunications equipment control (micro mirrors)
The Digital Input and Digital Output Subsystems applications:
Electro-mechanical relay control applications
Solid-state relay applications
Alarm System sensors
Digital motion control
The Counter-Timer Subsystem applications:
PWM modulator
Frequency counter
Pulse generator
Chapter 1: Introduction
4
Note The easiest way to expand the possibilities of the PD2­AO/PDXI-AO board is to use the PD2-MF/S or PDXIU-MF/S multifunction boards series in the same PC.

PowerDAQ AO Models

PowerDAQ PD2-AO/PDXI-AO model numbers are derived as follows:
PD2-[Type Of Board]-[Channels]-[Speed]/[Resolution][Gain]
PDXI-[Type Of Board]-[Channels]-[Speed]/[Resolution][Gain]
The types of boards are: MF Multifunction
AO Analog Output DIO Digital Input /Output CTM Counter Timer
Models AO Features
PD2-AO-8/16 PCI bus Eight 16-bit Analog Output Channels PD2-AO-16/16 PCI bus Sixteen 16-bit Analog Output Channels PD2-AO-32/16 PCI bus Thirty-two 16-bit Analog Output Channels PD2-AO-96/16 PCI bus Ninety-six 16-bit Analog Output Channels PDXI-AO-8/16 PXI/CPCI bus Eight 16-bit Analog Output Channels PDXI-AO-16/16 PXI/CPCI bus Sixteen 16-bit Analog Output Channels PDXI-AO-32/16 PXI/CPCI bus Thirty-two 16-bit Analog Output Channels
Chapter 1: Introduction
Table 1: PowerDAQ™ AO Models
All PowerDAQ™ AO boards have the following additional features:
Digital Input Eight static digital inputs Digital Output Eight static digital outputs Clock/Interrupt Lines Counter Timers Three 24-bit (33/50MHz
Internal/16.5/25 MHz External)

Getting Started

To get your PowerDAQ AO board up and running, ensure that you have the following:
A computer with PCI slots (for PD2-AO models) or PXI/CPCI
slots (for PDXI-AO models) and the BIOS compliant to PCI Specifications 2.1 or greater. S
Common Questions and Support.
PowerDAQ™ PD2-AO PCI/PDXI-AO board with user manual.
ee Appendix C:
5
Chapter 1: Introduction
Latest PowerDAQ™ Software Suite CD (PD-SDK) Software.
This can be downloaded from www.PowerDAQ.com/download
Minimum 16MB RAM for Windows9x and 32MB for
Windows NT/98/Me and 64MB for Windows 2000
6
2
Installation and
Configuration
7
Chapter 2: Installation and Configuration

Installation and Configuration

This chapter describes the hardware and software installation and configuration of the PowerDAQ AO board.

Unpacking

Your PowerDAQ™ AO board is wrapped in an anti-static bag to protect against electrostatic charges that might damage the board. To avoid damage, proceed as follows:
Ground yourself with a grounded wrist strap or grounded
source.
Discharge the static electricity by taking the board in the
antistatic bag and touching the metal part of your PC.
Remove the board from the antistatic bag. We suggest you
save the bag.
Inspect the board for any damage. If any damage is found,
notify your distributor to return the board to the manufacturer.
Support.
See Appendix C: Common Questions and
Note The PowerDAQ AO boards contain sensitive electronic components. Please make sure the proper grounding and electrostatic conditions are used.

Hardware

You can install your PowerDAQ PD2-AO board in any PCI slot. PDXI-AO boards should be installed into the Compact PCI/PXI/PDXI chassis only. We recommend you use the first available slot and complete the following instructions:
PCI board installation:
1. Turn off your PC. Remove the cover and make sure you have clear access to
Connect all desired cables to the PD2-AO board. Insert the PowerDAQ PD2-AO board into a PCI slot. (If the
8
the PCI slots.
PCI slots have not been used for a long time, insert the PowerDAQ PD2-AO board, then remove it and clean
Chapter 2: Installation and Configuration
the edge connector with alcohol. After this has been
done, replace the bard back into the slot.) Screw the bracket and replace the cover. Turn the PC on.
PDXI board installation:
1. Turn off your PC.
2. Remove the slot cover.
3. Insert the PowerDAQ PDXI-AO board into a slot.
4. Screw the bracket.
5. Turn the PC on.
The PowerDAQ AO board is now installed. All board configurations are controlled via software using the PD­SUITE.
Note For the Windows 95/98/Me/2000/XP platforms, you should install PowerDAQ Software Suite prior the board installation.
Installing Multiple Boards
You can install multiple PowerDAQ AO boards in one PC. You are limited to the number of PCI/PDXI slots in your PC.

Software

PowerDAQ Software Suite CD contains drivers and software (example code with source code) for Windows, Linux and QNX (optional). You can always download the latest software suite from www.PowerDAQ.com/download.
Installation
From the CD, run the SETUP.exe program. The setup program will take you through the installation process. If you downloaded the PowerDAQ software from the web you just need to run the file downloaded and follow the setup instructions.
9
Chapter 2: Installation and Configuration
As the installation process modifies your Windows registry, you must only install or uninstall the software using the appropriate programs.
Note Never delete the PowerDAQ software from you PC directly. Always use Uninstall program from PowerDAQ folder
or Control Panel/Add-Remove Programs applet.
Note Once the installation is complete, the PC must be rebooted for proper operation.
Note Windows NT/2000/XP users must be logged in as an administrator or have equivalent access.
Base address, DMA, Interrupt settings
The PowerDAQ AO boards are configured automatically by the computer BIOS on power up. Usually you do not have to set any base address, DMA channels or interrupt levels. The PowerDAQ driver is designed to share interrupts over PCI devices but very rarely will the BIOS assign same interrupt to mass-storage devices such as a SCSI controller or video card and a PowerDAQ board. In this case it could be significant latency between the time when board fires an interrupt and the time the PowerDAQ driver actually receives it. In this case we recommend changing your BIOS settings and assigning a dedicated interrupt for the PowerDAQ board. Please refer to your motherboard/computer manual for the BIOS settings change procedure.
Diagnostics
In order to confirm board operation, install the PowerDAQ Suite. This automatically installs the PowerDAQ application control panel diagnostic program that will display all available PowerDAQ boards in your system.
10
Chapter 2: Installation and Configuration
To access the PowerDAQ control panel, select START > Settings > Control Panel and the PowerDAQ icon will be
displayed.
Figure 1: PowerDAQ Control Panel Application
An alternative test is to use the SimpleTest program installed by the Software Suite. Attached a oscilloscope of multimeter to the outputs of the AO board. Run the SimpleTest.exe program by selecting START > Programs > PowerDAQ > Delphi Acquisition Demo. This program shows all information about the board(s) installed and allows you to test all subsystems available on the board selected for the test.
11
Chapter 2: Installation and Configuration
Figure 2: PowerDAQ control panel application showing PD2-AO-
32 board installed
Please refer to the PowerDAQ Software manual for a complete set of ready to run example programs and the detailed API for programming of the PowerDAQ AO boards.
All PowerDAQ AO manuals are supplied in electronic Adobe Acrobat PDF format. If you require the PDF reader, this can be downloaded from the Internet from www.adobe.com
12

Accessories

PowerDAQ AO boards have an extensive range of optional accessories:
Cables (3ft, 6ft or 9ft) Screw terminal panels Complete kits J1 high-density analog cable (PD2-AO-8[16][32] only) J2 PD-CBL-37 DIO connection kit (PD2-AO only) J3-J8 IDC40 to DB37 flat/twisted pair ribbon cable (PD2-
AO-96 only)
J1 to J1/J2 splitter analog/digital cable
Cables
Digital cable (PD2-AO boards only)
PD-CBL-37: The J2 connector uses a 37-way ribbon
Chapter 2: Installation and Configuration
connector set. It comprises of a 13” internal ribbon cable, which connects from the PowerDAQ AO board J2 internal digital connector (DIO /Counters/IRQs) to a 37-way D-SUB bracket. A 1-meter ribbon cable then connects from the bracket to the PD2-AO­STP accessory panels.
Analog cable (PD2-AO-8[16][32] boards only)
PD-CBL-96: The J1 connector uses a 96-way shielded
round 1-meter cable with a metal connector on either end. It connects to: PD2-AO-STP­16or 32, PD-BNC-16 or 64 accessory panels.
13
Chapter 2: Installation and Configuration
Analog cable (PD2-AO-96 boards only)
PD-CBL-4037TP: The J3-J8 connector uses a 36-way flat
or twisted pair ribbon cable (DB37 to IDC40) to bring out the analog output signals. It connects to: PD-STP-3716, so one PD2-AO­96/16 board requires a set of six cables and terminals for all ninety-six channels.
Note The PowerDAQ PD2-AO-8/16/32 boards require a PD­CBL-96 and the PD2-AO-96 requires up to 6 PD-CBL-4037TP. If digital IO/CTM is going to be used, an optional PD-CBL-37 cable is required.
Custom cables are available. Please contact the factory for more details.
Splitter analog/digital cable (PDXI-AO boards only)
PDXI-CBL-AO: The J1 connector uses a split round
shielded cable, which brings out the analog signals to a 96­way “pin-less” Fujitsu connector and the digital I/O signals to 37-way DB-37 connectors.
14
It connects to: PD2-AO-STP-xx, PD-BNC-xx accessory panels.
Screw Terminal Panels
The PD2-AO-STP-16/32 is a 16/32-channel screw terminal panel, which also includes connections for the counter timers, high speed interrupt/synchronization lines and DIO ports. Using the jumpers, each sense line can be connected to the appropriate output directly on the screw terminal.
Note For the all PDXI-AO boards, the sense to force line jumpers are located directly on the board. All jumpers should be removed from the PD2-AO-STP panel in this case.
Because of compatible pin-outs, the PD-BNC-xx terminals can be used with PD2-AO-8[16][32] boards. Custom terminal panels are available. Please contact the factory for more details.
Chapter 2: Installation and Configuration
Cable PD-CBL-96
PD-AO-STP-32
PDXI-CBL-AO
PD2-AO Board
Cable PD-CBL-37
PDXI-AO
board
PD-AO-STP-32
Figure 3: PD2-AO-STP-32 Wiring Diagram
15
The PD-STP-3716 is a low cost 16-channel screw terminal panel, which can be used with the PD2-AO-96/16 or PD2­AO-8/16. This terminal contains analog signals only. For the digital signals, you will need the PD-STP-DIO.
Complete kits
We have included the PD-CBL-96 and the PD2-AO-STP-32 into a complete kit for the PD2-AO-8[16][32] boards. The product is available by ordering PN PD2-AO-STP-16KIT or -
32.
Also complete kits are available for the PDXI-AO boards. These products are available by ordering PN PDXI-AO-STP­16KIT or –32KIT.
J1 Connector
If you wish to develop you own custom cable, you can purchase the connector and metal cover from your distributor or the factory. The part number is PD-CONN.
Chapter 2: Installation and Configuration
The manufacturer is:
Fujitsu Takamisawa America, Inc. Telephone: 408-745-4990 Fax: 408-745-4995
The manufacturers’ part number for the connector is FCN-230C096-C/E and the metal cover FCN-247J096­G/E.
Custom terminal panels are available. Please contact your distributor or the factory.
J2 Connector (PD2-AO only)
J2 connector is a 36-way boxed IDC header.
The manufacturer is Tomas & Betts (www.tnb.com
The manufacturers’ part number for the connector is 609-
3627.
16
) .
Chapter 2: Installation and Configuration
J3-J8 Connector(PD2-AO-96 only)
J3-J8 connectors are 40-way boxed IDC headers.
The manufacturer is 3M (http://www.mmm.com/esm/
The manufacturers’ part number for the connector is 2540­6002UB.
).
17
Chapter 2: Installation and Configuration
18
3
Architecture
19
Chapter 3: Architecture

Architecture

This chapter describes the functional operation of the PowerDAQ AO boards.
AOU T3 1 SEN SE
AOU T3 0 SEN SE
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AOUT31
AOUT30
AOUT1
AOUT0
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AOut Calibrat ion
DACs
DAC31
DAC30
DAC29
DAC28
DAC3
DAC2
DAC1
DAC0
Voltage
Reference
AOut Contr ol
s s e r d d
Local Data Bus
A
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F
o
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Bus Master PCI Interface
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Counter
3x24-bit
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(Driver)
IRQA
IRQB
IRQC
Configurat ion & Calibrat ion
EEPROM
Timer
Digital
Buffer
Latc h
Digita l
Output
Figure 4: Block Diagram of the PowerDAQ PD2-AO boards

Functional Overview

Although there are some functional differences between the PD2-AO and PDXI-AO boards they all utilize the same PowerDAQ software, which significantly simplifies the software development process.
User
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20
Analog Output Subsystem (AO)
The PowerDAQ II analog output boards are configured as 8, 16, 32 or 96 sixteen-bit output channels. On the PD2-AO­8[16][32] each channel has an optional sense line to provide 16-bit accuracy at rated output current. The PDXI-AO board allows the use of sense lines on the first sixteen channels by installing on-board jumpers. The PD2-AO-96 does not provide the sense line option.
Note The default sense line option is not available on PD2­AO boards because of noise considerations – high currents going through the cable induce more noise) and sense lines carry the same signal as corresponding output lines inside the cable. Please take this into consideration when configuring the sense lines (if required).
The AO subsystem also includes input modes, channel queue, trigger and clocking control.
Interrupt (event) generation: You can use events to provide gap-free updates of the analog outputs.
Chapter 3: Architecture
There are three update modes for the analog subsystem
Single update
Event (interrupt) – based waveform mode
Continuous pulled-IO waveform mode and auto-
regeneration waveform mode.
The user can define the power-on value of each channel (the default start-up value is set to zero). The included utility application “Start-Up Configuration Wizard” (StartUpState.exe) is installed by the SDK can be used to modify the start-up states.
Note The Power-On state will be loaded into the DACs with 200 ms maximum delay after the system reset. The calibration values will be loaded only when PowerDAQ driver is loaded and up to +/-30 mV offset is possible on the outputs during the system boot process.
21
Chapter 3: Architecture
Note The quad output DACs has current limitations. Only one output of each quad can be continuously shorted to ground. Two, three and even four channels shorted to ground MUST NOT exceed five seconds.
Analog Output Mode
Single Update
The PowerDAQ AO boards operate with either a single­update or streaming (waveform) output configuration. Single-update mode allows direct write access to any of the 16-bit DACs of the PowerDAQ AO board. The update frequency is at least 1kHz for the single update mode and can be as high as 15KHz in real-time operating environments. The single update speed is dependent on your PC system speed.
Note There is a special sub-mode of the single update mode when all or selected DAC’s outputs are updated simultaneously.
22
Event-based Waveform
Event-based waveform mode allows continuous waveform generation and is not limited by the amount of data. Each time the DSP based FIFO is ½ full an interrupt is fired to request additional data to be sent to the board. The PowerDAQ advanced buffering mechanism hides those interrupts from the user and allows you to work with big output arrays logically divided by frames. The end of each frame can generate an event, which will request more data from the application. Complete information on the PowerDAQ advanced circular buffer (ACB) can be found at www.POwerDAQ.com
Note If the on-board FIFO is empty or the last value is outputted, the board will continue outputting the last DC value.
Chapter 3: Architecture
Auto-regeneration Waveform (circular waveform)
Auto-regeneration waveform mode can be used to create fixed length waveforms without any host intervention of user software after the subsystem has initialized. An application writes data to the buffer of the PowerDAQ AO board and each time the end of buffer is reached, it starts to resend the same buffer again. Note, that 2048 samples can fit into the on-board DSP memory and auto regeneration of up to 2048 samples will not require any intervention of the host PC.
Channel List
There are two ways do define a Channel List for the PowerDAQ AO board. First, when the output data and channel number are combined together to provide the output channel selection. In this situation, the lower 16 bits are data, the following upper 8, the channel number and special flags (see the picture below).
This mode supports update rates up to 455KS/sec
31 23 15 0
Not used 16-bit output data
Bits 16-20 are used to define the output channel number on a PD2/PDXI-AO-8[16][32] board.
Bit 21, when set is used as a Write and Hold Flag – this is used to write data to the DAC WITHOUT updating it on a PD2/PDXI-AO-8[16][32] board.
Bit 22, when set is used as an Update All Flag – all DAC’s will be updated by the previously written data on a
PD2/PDXI-AO-8[16][32] board. PD2-AO-96 board only:
Bits 16-22 are used to define the output channel number on PD2/PDXI-AO-8[16][32] boards.
Flags,
23
Chapter 3: Architecture
Bits 21,22,23 when all set together are used as a Write and Hold Flag – written to DAC’s data with this bit set will not update output.
Bits 23, when set is used as Update All Flag – all DAC’s will be update by previously written data.
This is the default configuration, which provides an unlimited channel list length.
Another way to define the channel list is a series of continuous channel numbers(1/2/4/8/16/32/64), up to the number of ports available on the AO board, starting at any channel. For example, the PD2-AO-32, channels 0 through 15 can be specified as a channel list of channels to be updated in Event-based Waveform Mode and the remaining channels can be used in Single Update Mode.
This mode is called DMA-based update mode and supports output rates up to 1.6 MS/sec.
Note There is a dedicated function in the PowerDAQ API called _PdAO32SetUpdateChannel which can be used to specify the update channel number. Any write to this channel will force the update of all DAC’s.
24
Digital Output Subsystem
There are eight static digital outputs on the PowerDAQ analog output board. They are TTL/CMOS output level compatible, 2000V ESD protected. Due to the static nature of the outputs they can be updated at any time without any limitations. Digital outputs provide high current compatibility (-32/64 ma), which support drive relays or these lines can be used for control applications.
Digital Input Subsystem
There are eight static digital inputs on the PowerDAQ analog output board. They are TTL/CMOS input level compatible, 2000V ESD protected. Due to the static nature of the inputs they can be read at any time without any limitations.
Chapter 3: Architecture
Counter/Timer Subsystem
Depending on your PowerDAQ AO operation mode, the board can support up to the three DSP based 24-bit counter/timers with a maximum count rate up to 33 MHz for 66MHz DSP and 50MHz for 100MHz DSP (PDXI-AO only) for an internal base clock and 16.5 MHz/25MHz for the external clock. The minimum count rate is 0.001 Hz for the internal clock and no low limits for the external clock.
Note For all waveform modes, only Timer0 and Timer1 are available for use.
Programming of the counter/timer subsystem of the PD2­AO board requires a minimal understanding of the Triple Timer Module of the Motorola 56301 DSP. For this information please refer to the
Manual
(Motorola P/N DSP56301UM/AD).
Motorola DSP 56301 User
25
Chapter 3: Architecture
Each timer can be used for internal or external clocking and can interrupt the on-board DSP after a specified number of events (clocks) or signal an external device after counting internal events. Each timer can also be used to trigger DMA transfers after a specified number of events (clocks) have occurred. Each timer connects to the external world through one bi-directional pin TIO that is 7kV ESD protected. When TIO is configured as input the timer functions as an external event counter or can measure external pulse width/signal period. When TIO is used as output, it functions as a timer, watchdog or Pulse Width Modulator.
Some common timer/counter/output functions that microprocessors require are:
Real time clock, Event counter Digital one-shot Programmable rate generator Square wave generator Binary rate multiplier Complex digital wave form generator Complex motor control
26
Note Each counter is a 24-bit count-up counter
After power-up, the count value and output of all counters
are set to zero
Each counter must be programmed before it can be used
Unused counters need not to be programmed
Use the PowerDAQ API to program counters.
Each counter is fully independent of the others. Only prescaler, when used, is a common part of the counter-timer subsystem. Each counter may operate in a different mode
Calibration Subsystem
The calibration subsystem is used to calibrate each analog output zero offset (with 150-microvolt accuracy) and output range (PD2-AO only). The calibration data is stored in the on-board EEPROM. Additionally a PowerDAQ AO board provides an application for the user to configure the start­up output value of the any DAC. This value will be loaded immediately after a system reset or power-on with 200 ms maximum latency.
DSP Processor
All PowerDAQ AO boards are based on the Motorola 56301 DSP. This is a 24-bit 66/100 MHz processor with an integrated PCI interface. The PCI interface implements the PCI Local Bus Specifications so the board is fully auto­configured (base address, interrupt).
When the PowerDAQ software is loaded, the PowerDAQ AO firmware is downloaded to the DSP via the PCI bus. This firmware contains all the code necessary to communicate with the board subsystems and the host PC driver.
Chapter 3: Architecture
Note The drivers from the PowerDAQ web site always
contain the latest versions of the DSP firmware.
Note Custom programming of the DSP is not available with the standard PowerDAQ AO product. However, should you require DSP processing, please contact the factory.
PCI Bus Interface
The PowerDAQ AO boards communicate via the PCI bus. The PCI bus interface is embedded in the Motorola 56301 DSP. On power up, the host PC automatically configures the boards base address and interrupt resources.
27
Timing and Control
The PowerDAQ AO clocking and triggering features are extensive and can be configured in various different ways.
Analog Output Clocking
Clocking comprises of two input signals:
1. Clock In – used to clock analog output channels in channel list.
2. Trigger In – used to start/stop acquisition
.
You must load the channel list prior to starting this operation.
Clocking can be controlled by:
Software Strobe Internal Clock (DSP) External Clock
Chapter 3: Architecture
28
Universal External Interrupt/Clock/Synchronization Inputs
Note You can only use these lines for Analog Output
Clocking OR Triggering
Triggering is configured as follows:
Use the IRQB pin to asynchronously update all DACs.
Use the IRQC pin to supply your external trigger source.
Trigger modes: Start trigger (acquisition starts on rising edge of the trigger
signal)
Stop trigger (acquisition stops on rising edge of the trigger
signal)
Trigger lines should be pulled-down to ground via 4.7Kohm
resistors.
Chapter 3: Architecture
Synchronizing two or more boards
Note Using the PowerDAQ AO control panel application, please ensure the software driver recognizes the two or more PowerDAQ AO boards. No custom synchronization cables are required – all connections can be made directly on the screw terminal. PDXI-AO boards provides a special configuration program PDXICFG.EXE that allows synchronize boards via the PXI bus extension. This feature is not available in standard Compact PCI chassis.
If internal connection between multiple boards is required, the following connections should be made (PD2-AO boards only):
The PowerDAQ PD2-AO J2 internal connector has a TMR2 Clock I/O pin. You can connect this pin to the TMR2 pin of the next board you wish to synchronize acquisition. It is preferable to use a 100-200 Ohm series resistor for the clock connection.
For a custom cable contact the factory.
29
Chapter 3: Architecture
30
4
API and Third-Party
Software Examples
31
Chapter 4: API and Third-Party Software

API and Third-Party Software Examples

The PowerDAQ Software Suite API and third party software drivers support all PowerDAQ AO board features. This chapter provides an overview on how to use the API calls and examples using third-party software.

API Function calls

Please refer to PowerDAQ SDK and programmer manual for the details about Analog Output board programming.
Generally Analog Output subsystem works in the same way as all other paced subsystems. The following command sequence should be used to program the PowerDAQ AO board in a low-level language such as C/C++/VB/Delphi:
Open Driver. This allows you to check that the driver
is installed properly and started and also gets a number and parameters of the PowerDAQ boards installed in the system.
32
Open Adapter. After the adapter is opened the
PowerDAQ SDK return a special handle that should be used for all calls referring to a specific PowerDAQ board installed. This call locks the specific PowerDAQ board by the specific application.
Open Subsystem. This call grants access to one of
the available PowerDAQ board subsystems. The following subsystems can be accessed on a PowerDAQ Analog Output board: Analog Output, Digital Input, Digital Output, DSP Counter and Calibration.
Work with subsystem. There are two different ways
to use a subsystem – in synchronous and asynchronous mode.
Chapter 4: API and Third-Party Software
In Synchronous Mode (known as Single Update on
the AO subsystem) there is a set of calls available which gives direct and immediate access to the DACs (DIO ports and DSP Timers). Timed access can be made using the operating system based timing loops.
In Asynchronous Mode (which has two sub-modes
on PowerDAQ AO boards – event-based and regenerate mode) , a dedicated acquisition buffer is allocated in host PC memory. This buffer is divided by the number of logical blocks called frames, usually between 4 and 16 frames should be allocated. The following steps should be considered when Asynchronous acquisition mode is used:
# User application uses API calls to allocate the
acquisition buffer and fill it with initial data for all output subsystems.
# Subsystem configuration word should be assembled
using the API constants provided.
# The user application should define a set of events
from the board. A typical set of events include data availability events and error events
# Start of asynchronous operation
# WaitForSingleObject operating system function call
or an equivalent should be used to check for events from the board. It is preferable to put this call into a separate thread. After an event, the application should re-initialize it and process the data.
# Terminate asynchronous operation
# Auto-regenerate mode user application can allocate
one or more frames in the buffer, fill it with data and start acquisition. The PowerDAQ driver will control event handling and supply more data into the on-board FIFO as requested. Note, that frame size cannot exceed 64Mbytes. The size of the buffer itself is limited by the amount of Physical memory installed on your PC.
33
Chapter 4: API and Third-Party Software
4
Close subsystem. When the application closes the
subsystem it’s frees-up resources.
Close adapter. After the adapter is closed it is
accessible from other applications.
Close driver.

API Examples

The PowerDAQ Software Suite contains a complete set of self­documented examples dedicated to PowerDAQ AO boards programming. The best way to write your own program is to use a ready-to-run example and modifiy it as required by your application.
The examples are available in the following languages:
C/C++/Delphi/VisualBASIC:
Single Update Example (Separate example available for the
PD2-AO-96/16 board)
Buffered output Example (Event-based)
Please refer to the example sources for extensive programming details. All examples are located in <Program Files Dir>\PowerDAQ\SDK\Examples\<Language>\<Example>

Third-party examples

All third-party drivers, supplied by UEI include a set of examples, which support all of the PowerDAQ Analog Output board features. They are usually installed during the SDK installation process into the folders defined by third-party software vendors. Please refer to the readme file of the SDK version to find an exact location of the examples you need.
3
5
5
Interconnections
3
Chapter 5: Interconnections
6

Interconnections

PD2- AO-8[16][32] Connectors

The PowerDAQ PD2-AO-8[16][32] boards have two connectors and one header:
96-contact high-density Fujitsu header – analog output
connector (J1)
36-way boxed IDC header (DIO/Timer and IRQ lines)
J2
J1 Connector
PowerDAQ(tm)
PD-AO-8[16][32] board
Figure 5: PowerDAQ PD2-AO-8[16][32] Connectors
Note For manufacturers part numbers,
Specifications
.
Connector
see Appendix A:
3
7

PD2- AO-96 Connectors

The PowerDAQ PD2-AO-96 boards have seven headers on it: 40-way boxed IDC header – analog output connectors (J3-
J8)
36-way boxed IDC header (DIO/Timer and IRQ lines)
Chapter 5: Interconnections
J2 Connector
Connectors from all cables are going through the
PCI bracket. Following connector layout is defined :
J3 - AOut 0..15, J4 - AOut 16..31, J5 - AOut 32..47,
J6 - AOut 48..63, J7 - AOut 64..79, J3 - AOut 80-..95
PowerDAQ(tm) PD-AO-96 board
J2- DIO/Timers
Figure 6: PowerDAQ™ PD2-AO-96 Connectors
Note For manufacturers part numbers,
Specifications
.
J4 Connector
J3 Connector
J6 Connector
J5 Connector
J8 Connector
J7 Connector
see Appendix A:
3
Chapter 5: Interconnections

PDXI- AO-8[16][32] Connectors

The PowerDAQ PD2-AO-8[16][32] boards have only one connector:
96-contact high-density Fujitsu header – analog output and
DIO/Timers connector (J1)
J1
PowerDAQ™ PDXI-AO-8[16][32]
Channels 0..15 sense line jumpers. Install 1-2 and 3-4 jumpers to short sense line with corresponding output on the board. SNSx terminals are grounds in this case. Install 2-3 jumpers to keep sense line in the cable. In this case screw terminal jumpers should be installed. Rows : A-AOut3, B-AOut2, C-AOut1, D-AOut0, E-AOut7, F-AOut6, G-AOut5, H-AOut4, I-AOut11, J-AOut10, K-AOut9, L-AOut8, M-AOut15, N-AOut14, O-AOut13, P-AOut12
Factory-installed jumpers (PDXI-AO-8[16] boards only). Connects outputs 16..31 to the analog ground to provide more grounds in the cable
38
Figure 7: PowerDAQ™ PDXI-AO-8[16][32] Connectors
Note For manufacturers part numbers,
Specifications
.
see Appendix A:
Chapter 5: Interconnections
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
PD2-AO-8[16][32] J1 Analog Connector
GN D
GN D
GN D
GN D
GN D
OUT 3 1
OUT 2 9
OUT 2 7
OUT 2 5
AGND
OUT 2 2
OUT 2 0
OUT 1 8
OUT 1 7
OUT 1 5
OUT 1 3
AGND
OUT 1 0
AOUT8
AOUT6
AOUT5
AOUT3
AOUT1
AGND
AGND
AGND
AGND
AGND
AGND
OUT3 0 SENSE
OUT2 8 SENSE
OUT2 7 SENSE
OUT2 5 SENSE
OUT2 3 SENSE
AGND
OUT2 0 SENSE
OUT1 8 SENSE
OUT1 6 SENSE
AGND
OUT1 3 SENSE
OUT1 1 SENSE
AOUT9 SENSE
AOUT8 SENSE
AOUT6 SENSE
AOUT4 SENSE
AGND
AOU T1 SENSE
NC
1
2 351
452
553
654
755
856
10 58
11 5 9
12 60
13 61
15 63
16 64
17 65
18 66
19 67
20 68
21 6 9
22 70
23 71
24 72
25 73
26 74
27 75
28 76
29 77
30 78
31 7 9
32 80
33 81
34 82
35 83
36 84
37 85
38 86
39 87
40 88
41 8 9
42 90
43 91
44 92
45 93
46 94
47 95
48 96
AGND
49
50
AGND
AGND
AGND
AGND
AGND
AOUT30
AOUT28
AOUT26
57
AOUT24
AOUT23
AOUT21
AOUT19
AGND
62
AOUT16
AOUT14
AOUT12
AOUT11
AOUT9
AOUT7
AGND
AOUT4
AOUT2
AOUT0
AGND
AGND
AGND
AGND
AGND
OUT3 1 SENSE
OUT2 9 SENSE
AGND
OUT2 6 SENSE
OUT2 4 SENSE
OUT2 2 SENSE
OUT2 1 SENSE
OUT1 9 SENSE
OUT1 7 SENSE
OUT1 5 SENSE
OUT1 4 SENSE
OUT1 2 SENSE
OUT1 0 SENSE
AGND
AOUT7 SENSE
AOUT5 SENSE
AOUT3 SENSE
AOUT2 SENSE
AOUT0 SENSE
Figure 8: Connector pin assignment for the J1
39
Chapter 5: Interconnections
0
The compatible pin out was used for the PD2-AO-8[16][32] and PD2­MF(S) J1 connector to provide the ability to use common accessories. For the details see conversion table in Appendix B. Note, that on PD2­AO-8[16] AOUT16..31 and AOUT16..31 SENSE are connected to the ground.
PD2-AO J2 DIO/Counter/Timers/IRQx Connector
DGND
TM R0
DGND
DGND
TM R1
DGND
DGND
Figure 9: Connector pin assignment for the J2
J1-J2 Connection Example
The example below shows how to connect PD2-AO board to the PD2-AO-STP screw terminal.
Note For the PD2-AO-8[16] board lines OUT16-OUT31 and OUT16S-OUT32S are tied to the analog ground.
DIN0
DIN1
DIN2
DIN3
DIN4
DIN5
DIN6
DIN7
IRQA
IRQB
IRQC
2
DGND
1
4
TM R2
3
6
5
DGND
8
7
DGND
10
9
+5 VPJ2
12
11
DGND
14
13
DOUT0
16
DOUT1
15
18
17
DOUT2
20
19
DOUT3
22
21
DOUT4
24
23
DOUT5
26
25
DOUT6
28
27
DOUT7
30
29
DGND
32
31
DGND
34
33
DGND
36
35
DGND
4
j
j
PowerDAQ II Analog Output Board
(8/16/32 Channels)
Local /Remote Sense
umpers
PD-AO-STP-32
PD-CBL-96
Screw Ter minal
Channels 16-31
Channels 0-15 and digital lines
Jumpers JP1-JP32 defines the sense configuration for the channels 0..31 respectively. When shunts installed at locations B-C the channel is configured to remote sense and SNSx terminal used to connect this line to the remote equipment. If shunts are installed at A-B and C-D locations the channel is configured to local sense (at screw terminal) and SNSx terminal for the selected channel connected to the AGND
Chapter 5: Interconnections
PD-CBL-37
IRQx and TMRx termination
umpers
AOUTx SNSx
AOUTx – channel x output SNSx – channel x sense line or AGND (see jumpers JP1-
To the servo­motors, etc.
To/from Digital sensors
Figure 10: Configuring the PD2-AO-STP with PD2-AO-8[16][32]
41
Chapter 5: Interconnections
2
j
s
j
s
PDXI Analog Output Board
(8/16/32 Channels)
J6
J8
PDXI-CBL- AO
PD-AO-STP-32
Sense-to-Out jumpers. JP0.15 jumpers should be installed only if jumpers on J6 jumper pattern on PDXI-AO board in 2-3 positions. JP16. .31 should NEVER be i ns tal l ed.
See PD2-AO-8[16][32] connect ion for the detai ls.
Screw Terminal
Local /Remote Sense
umper
Chan nels 16-31
Channels 0-15 and digital lines
AOUTx SNSx
AOUTx – channel x output SNSx – channel x sense line or AGND (s ee jumpers JP1- JP32 settings)
IRQx and
TMRx termination
umper
To/from Dig it al sensors
To the servo­mot or s, e tc.
Figure 11: Configuring the PD2-AO-STP with PDXI-AO-8[16][32]
4

Appendix A: Specifications

Appendix A: Specifications

PD2-AO specifications:

The following conditions apply:
A = 0°C to +85°C
T
AO subsystem
Parameter Value
Number of channels 8,16,32 or 96 (PD2-AO only) Resolution 16 bits Update rate
Buffer Size
Type of D/A Double-buffered Accuracy +/- 3 LSB max DNL +/- 3 LSB max Monotonicity Over
Temperature Gain Error 0.02% (PDXI-AO), 0.05% (PD2-AO) Range
Output Coupling DC Output Impedance 0.15 Ohm max Current Drive +/-5mA (PDXI-AO,PD2-AO-96)
Capacitive Loads 180 pF min Settling time 10uS to 0.003% Slew Rate 10V/uS Gain Bandwidth 1 MHz Noise 2LSB RMS, 0-10000Hz Output protection Short to ground, +/- 15 Volts Power-on state, default, user
programmable Gain drift 25ppm/deg C
100 KS/s channel, up to 1600 KS/s aggregate throughput in DMA mode, 455 KS/s in unlimited channel list mode.
2k samples (upgradeable to 32 KSamples on PDXI­AO models)
15 bits
+/- 10V fixed, 0..10V factory-installed option available for PD2-AO-96/16 board
+/-20mA(PD2-AO-8[16][32])
0.0000V +/-25mV (PD2-AO-8[16][32]
0.0000V +/-5mV (PD2-AO-96, PDXI-AO)
43
Appendix A: Specifications
4
Note Due to the quad DACs, the current is limited. Only one output of each may be continuously shorted to ground. The current is limited to 40 ma for PD2-AO-8[16][32] boards and 20 ma for all other models.
Digital Input and Output
Parameter Value
Number of channels 8 inputs and 8 outputs Compatibility CMOS/TTL, 2KV ESD protected Power-on state Logic Zero Input termination 4.7Kohm pull-up to 5V Output High Level 3.0V min @ -32 mA, 3.4V min @ -16 mA,
4.2V min @ -2 mA Output Low Level 0.55V max @ 64 mA Input Low Voltage 0.0 - 0.8 V Input High Voltage 2.0 - 5.0 V Input current 1uA
DSP – based subsystems
There are two DSP-based subsystems available on the PowerDAQ DIO boards:
Counter/timers
High-speed interrupts
DC ELECTRICAL CHARACTERISTICS FOR DSP­BASED SUBSYSTEMS
Counter/timers
Parameter Value
Number of channels 3 Resolution 24 bits Maximum frequency 16.5/25MHz for the external,
33/50 MHz for the internal clock (see notes) Minimum frequency DC for input, 0.001Hz for output Minimum Pulse Width 20 nS
4
5
Output High Level 2.0V min @ -4 mA Output Low Level 0.5V max @ 4 mA Input Low Voltage 0.0 - 0.8 V Input High Voltage 2.0 - 5.0 V Input current 1uA
External Event Counter
Input Width Measurement
Input Period Measurement
Event Capture
Pulse Width Modulation (PWM)
Watchdog Pulse
Watchdog Toggle
Note The external clock frequency should be less than the internal operating frequency divided by 4 (I.e. 16.33/25.00 MHz for 66/100 MHz DSP). The standard PowerDAQ boards ships with a 66 MHz DSP.
Appendix A: Specifications
COUNTER/TIMER SPECIFICATIONS:
NoteThe maximum timer frequency is 16.33 MHz for external clock and 33 MHz for internal clock (66 MHz DSP core). TIO assumes timer I/O pin, CLKOUT – DSP clock. The minimum pulse width is 20 ns for an external clock/event.
The following conditions apply:
A = 0°C to +100°C; C load = 50pF + 2 TTL loads
T
4
Appendix A: Specifications
6
CONNECTORS SPECIFICATIONS
Connector Description/Manufacturer/P/N
J1 (PD2-AO-8[16][32], PDXI-AO)
J2 (PD2-AO) J2 connector is a 36-way boxed IDC header.
J3-J8 (PD2-AO-96) J3-J8 connectors are 40-way boxed IDC headers.
Fujitsu Takamisawa America, Inc. 408-745-4990 Fax: 408-745-4995.
Connector p/n FCN-230C096-C/E and the metal cover p/n FCN-247J096-G/E.
The manufacturer is Tomas & Betts (www.tnb.com
3627.
The manufacturer is 3M (http://www.mmm.com/esm/ connector is 2540-6002UB.
), p/n for the connector is 609-
), p/n for the
ENVIRONMENT
Operating environment 0°C to 70°C
4

Appendix B: Accessories

7
Appendix B: Accessories

Overview

The PowerDAQ AO boards can connect to a variety of stand-alone or 19” rack-mount accessory panels. A complete range of cables and options are available.
If you require a custom accessory, please contact the factory.
These are following options available for use with PowerDAQ AO boards:
The universal screw terminal PD2-AO-STP-32 includes
both analog and digital terminals and allows you to connect Analog Output and Sense lines directly at the screw terminal. May be used with all PowerDAQ AO boards except PD2-AO-96 (note, that digital part of this screw terminal still can be utilized)
PD-BNC-16/64. This BNC terminal connects each Analog
Output line using the BNC-terminated cable that allows eliminating or reducing external noise. PD-BNC-16 may be used with PD2/PDXI-AO-8 boards only. PD-BNC-64 may be used with all PowerDAQ AO boards except PD2­AO-96.
PD-CONN-PCB – This small terminal panel is useful in
OEM applications but does not provide the ability to connect the digital signals to/from the board
PD-STP-3716. This terminal connects sixteen analog
output channels to PD2/PDXI-AO-8 or PD2-AO-96 board. May be considered as a low cost termination option
Cables: (PD[XI]-CBL-xx)
PD-CBL-96: The J1 connectors use a 96-way shielded
round 1-meter cable with a metal connector on either end. It connects to: PD2-AO-STP­xx, PD-BNC-xx accessory panels. Used with all PD2-AO boards except PD2-AO-96.
4
Appendix B: Accessories
PDXI-CBL-AO:The PDXI-AO J1 connectors use a split 96-
way shielded round 1-meter cable. It connects to: PD2-AO-STP-xx, PD-BNC-xx accessory panels. Note, that both analog and digital signals are connected to the screw terminal using this cable.
PD-CBL-37: This is a 37-way ribbon connector set. It
comprises of a 13” internal ribbon cable which connector from the PowerDAQ™ II AO board J2 internal digital connector (DIO/Counters/IRQx) to a 37-way D-SUB bracket. A 1-meter ribbon cable then connects from the bracket to the PD-AO-STP accessory panels. The PD-CBL-37 is available as an option.
PD-CBL-4037TP: This is a 36-way ribbon cable which
connectos from the PowerDAQ™ II AO 96 channel board J3-J8 internal analog connector to a 37-way D-SUB bracket. A 1­meter ribbon cable then connects from the bracket to the PD-STP-3716 accessory panels. Used with PD2-AO-96 boards only.
48
Appendix B: Accessories
Screw Terminal Panels: (PD2-AO-STP-xx)
The PD2-AO-STP-32 is a 32-channel screw terminal panel, which includes connections to the counter timers, high­speed interrupt/synchronization lines and DIO ports.
Custom terminal panels are available. Please contact your distributor or the factory.
Cable PD-CBL-96
PD-AO-STP-32
PD-AO-STP-32
Figure 12: PD2-AO-STP-32 Wiring Diagram
PDXI-CBL-AO
Cable PD-CBL-37
PD2-AO Board
PDXI-AO
board
49
Appendix B: Accessories
0
Screw Terminal Panels: (PD-STP-3716)
The PD-STP-3716 is a simple 16-channel screw terminal panel, which includes connections to the analog signals only. This terminal panel can be used with PD2-AO-96 and PD2[PDXI]-AO-8 boards only. Note, that different cables are required for the different boards:
PD-CBL-9637 – used with PD2-AO-8
PDXI-CBL-AO – used with PDXI-AO-8
PD-CBL-4037TP – used with PD2-AO-96
Cable PD-CBL-9637
PD2-AO-8
PD-STP-3716
Cable PDXI-CBL-AO
Cable PD-CBL-4037TP
6
PD2-AO-96
PDXI-AO-8
Figure 13: PD-STP-3716 Wiring Diagram
Note That if Sense lines are available on PD2-AO-8 or J6 jumpers in 2-3 position on PDXI-AO-8 AOutx line should be connected to ASensex line on the screw terminal.
5
Appendix B: Accessories
Terminal Pin
1 OUT0 Clk. In. 20 SNS0 Clk.Out
2 AGND Ext. Trig 21 OUT1 DGND
3 SNS1 DGND 22 AGND AGND
4 AGND OUT0 23 OUT2 AGND
5 SNS2 OUT1 24 AGND AGND
6 AGND OUT2 25 OUT3 AGND
7 SNS3 OUT3 26 AGND AGND
8 AGND OUT4 27 OUT4 AGND
9 SNS4 OUT5 28 AGND AGND
10 AGND OUT6 29 OUT5 AGND
11 SNS5 OUT7 30 AGND AGND
12 AGND OUT8 31 OUT6 AGND
13 SNS6 OUT9 32 AGND AGND
14 AGND OUT10 33 OUT7 AGND
15 DNC OUT11 34 SNS7 AGND
16 DNC OUT12 35 DNC AGND
17 DNC OUT13 36 DNC AGND
18 DNC OUT14 37 DNC N/C
19 DNC OUT15 DNC= Do
PD2 [PDXI]-AO-8
PD2-AO-96 Termi
nal Pin
PD2 [PDXI]-AO-8
not connect
PD2-AO-96
51
Appendix B: Accessories
2
OEM Header Distribution Connector
For the OEM the PD2-AO and PDXI-AO board provides the PD­CONN-PCB – a small terminal panel. The PD-CONN-PCB allows you to connect both PD2-MF/MFS and PD2-AO/PDXI-AO boards. See table on the next page for the pinout conversion.
PowerDAQ II/PDXI AO Board
(8/16/32 C hannels)
PD-CON N­PCB
To the servo­motors, etc.
Figure 14: PD-CONN-PCB wiring diagram
Custom terminal panels are available. Please contact the factory or your distributor.
5
Appendix B: Accessories
Accessory Board Connections
PD2-MFx PD2-AO-32 J1 J1 PD2-AO-32 PD2-MFx
Ext. Trig In AGND 26 74 AGND +5V
CL Clock In AGND 30 78 AOUT 31 SENSE AIN63
Pin Pin AGND AGND 1 49 AGND AGND AGND AGND 2 50 AGND AOUT0 AGND AGND 3 51 AGND AGND AGND AGND 4 52 AGND AOUT1 DGND DGND 5 53 AGND AGND AGND AGND 6 54 AGND AGND AIN55 AOUT31 7 55 AOUT30 AIN54 AIN53 AOUT29 8 56 AOUT28 AIN52
AIN51 AOUT27 9 57 AOUT26 AIN50 AIN49 AOUT25 10 58 AOUT24 AIN48 AGND AGND 11 59 AOUT23 AIN39 AIN38 AOUT22 12 60 AOUT21 AIN37 AIN36 AOUT20 13 61 AOUT19 AIN35 AIN34 AOUT18 14 62 AGND AGND AIN33 AOUT17 15 63 AOUT16 AIN32 AIN23 AOUT15 16 64 AOUT14 AIN22
AIN21 AOUT13 17 65 AOUT12 AIN20 AGND AGND 18 66 AOUT11 AIN19
AIN18 AOUT10 19 67 AOUT9 AIN17
AIN16 AOUT8 20 68 AOUT7 AIN7
AIN6 AOUT6 21 69 AGND AGND AIN5 AOUT5 22 70 AOUT4 AIN4 AIN3 AOUT3 23 71 AOUT2 AIN2
AIN1 AOUT1 24 72 AOUT0 AIN0
AGND AGND 25 73 AGND AGND
CV Clock
Out
N/C AGND 28 76 AGND AGND
AGND AGND 29 77 AGND N/C
AIN62 AOUT 30 SENSE 31 79 AOUT 29 SENSE AIN61 AIN60 AOUT 28 SENSE 32 80 AGND AGND AIN59 AOUT 27 SENSE 33 81 AOUT 26 SENSE AIN58
AIN57 AOUT 25 SENSE 34 82 AOUT 24 SENSE AIN56 AIN47 AOUT 23 SENSE 35 83 AOUT 22 SENSE AIN46 AGND AGND 36 84 AOUT 21 SENSE AIN45 AIN44 AOUT 20 SENSE 37 85 AOUT 19 SENSE AIN43 AIN42 AOUT 18 SENSE 38 86 AOUT 17 SENSE AIN41 AIN40 AOUT 16 SENSE 39 87 AOUT 15 SENSE AIN31 AGND AGND 40 88 AOUT 14 SENSE AIN30 AIN29 AOUT 13 SENSE 41 89 AOUT 12 SENSE AIN28
AIN27 AOUT 11 SENSE 42 90 AOUT 10 SENSE AIN26 AIN25 AOUT 9 SENSE 43 91 AGND AGND AIN24 AOUT 8 SENSE 44 92 AOUT 7 SENSE AIN15
AIN14 AOUT 6 SENSE 45 93 AOUT 5 SENSE AIN13
AIN12 AOUT 4 SENSE 46 94 AOUT 3 SENSE AIN11 AGND AGND 47 95 AOUT 2 SENSE AIN10
AIN9 AOUT 1SENSE 48 96 AOUT 0 SENSE AIN8
AGND 27 75 AGND CV Clock In
Table 2: Сonversion between the PD2-MF(S) and PD2-AO board J1
connector pinout.
53
Appendix B: Accessories
4
Dimensions:
The following table contains the dimensions of the PowerDAQ™ AO and accessory products.
Accessory Dimensions (W x L x H)
PDXI-AO-x 3.9”x6.3”x0.5” PD2-AO-96 4.2”x13.275”x0.5” PD2-AO-32 4.2”x11”x0.5” PD2-AO-16 4.2”x8.2”x0.5” PD2-AO-8 4.2”x8.2”x0.5” PD2-AO-STP-32 4.2”x7.0”x2.1” PD-STP-3716 2.8”x4.4”x0.5” PD-CONN-PCB 3.3”x3.33”x0.4”
Table 3: Dimensions of PowerDAQ™ AO accessory products
5

Appendix C: Common Questions and Support

Appendix C: Common Questions and Support
Q
What is PCI Specification 2.1?
A
The PCI LocalBus is a high-performance bus that provides a
processor-independent data path between the CPU and high-speed peripherals. PCI is a robust interconnect mechanism designed specifically to accommodate multiple high performance peripherals for graphics, full motion video, SCSI, LAN, etc.
The PCI Local Bus Specifications, Rev 2.1 includes the protocol, electrical, mechanical and configuration specification for the PCI Local Bus components and expansion boards.
The Rev 2.1 was published June 1, 1995 by the PCI Special Interest Group.PO Box 14070,Portland,OR 97214. Web site:
www.pcisig.com
Calibration Questions
Q
How often should I calibrate my board?
A The PD2-AO series board should be calibrated once a year.
-----------------------------------------------------------------------------

Service and Support

If you have technical problems using PowerDAQ™ PD2-AO, our Technical Support department can be reached by:
Telephone: (617) 924 1155
Fax: (617) 924 1441
Email: support@powerdaq.com
55
Appendix C: Common Questions and Support
Web Site: www.powerdaq.com
For the most efficient service, please be available at your computer and be prepared to answer several questions listed on the following page when you call for technical support. This information helps us identify specific system and configuration-related problems.
56
Appendix C: Common Questions and Support
Technical Support Form
Photocopy this form and update it each time you make changes to your software or hardware. Completing this form accurately before contacting us for technical support helps our application engineers answer your questions more efficiently.
What is the name and version number of the product?
____________________________________________
What version of Windows are you using? ____________________________________________ What programming language and version?
____________________________________________
Is the board set at factory configuration? ____________________________________________ Have you run the board diagnostics? What were the results?
____________________________________________
Did the system ever work ? If so, what changed (moved location, installed other boards, software etc..)
____________________________________________
Have you run the sample programs? What were the results?
____________________________________________
Have you verified that all your connections are made properly and are secure?
____________________________________________
Have you been able to isolate the source of your problem: input or output device, board, software?
____________________________________________
What other boards or applications are installed in your system?
____________________________________________
How much RAM do you have? ____________________________________________ What size hard disk are you using? ____________________________________________ How fast is your CPU? ____________________________________________ How fast is your host data bus?
____________________________________________
If you are on a network, what type of network are you using and approximately how many users are on the network?
____________________________________________
Please specify whether or not the problem occurred more than once
____________________________________________
57

Appendix D: Warranty

Appendix D: Warranty

Overview

IBM, IBM PC/XT/AT and IBM PS/2 are trademarks of International Business Machine Corporation.
BASIC is a trademark of Dartmouth College.
Microsoft is a trademark of Microsoft Corporation.
LabVIEW, LabWindows/CVI, DASYLab, DIADEM is a trademark of National Instruments Corporation
All PowerDAQ™ PD2-AO boards have received CE Mark certification according to the following:
EN55011
EN50082-1
Life Support Policy
UNITED ELECTRONIC INDUSTRIES' PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE LEGAL AFFAIRS DEPARTMENT OF UNITED ELECTRONIC INDUSTRIES CORPORATION. As used herein:
1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can reasonably be expected to result in a significant injury to the user or (c) should the device or system fail to perform, may reasonably be expected to result in a significant hazard to human life, or a significant potential for injury to the user.
2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to effect its safety or effectiveness.
58
Appendix D: Warranty
United Electronics, Industries, inc. warrants that the products furnished under this agreement will be free from material defects for a period of one year from the date of shipment. The customer shall provide notice to United Electronics Industries of such defect within one week after the Customer’s discovery of such defect. The sole obligation and liability of Untied Electronic Industries under this warranty shall be to repair or replace, at its option, without cost to the Customer, the product or part which is so defective and as to which such notice is given.
Upon request by United Electronics Industries, the product or part claimed to be defective shall immediately be returned at the customer’s expense to United Electronics Industries.
There shall be no warranty or liability for any products or parts which have been subject to misuses, accident, negligence, failure or electrical power or modification by the Customer without United Electronics Industries’ approval. Final determination of warranty eligibility shall be made by United Electronics Industries. If a warranty claim is considered invalid for any reason, the Customer will be charged for services performed and expenses incurred by United Electronics Industries in handling and shipping the return item.
As to replacement parts supplied or repairs made during the original warranty period, the warranty period of the replacement or repaired part shall terminate with the termination of the warranty period with respect to the original product or part.
THE FOREGOING WARRANTY CONSTITUTES UNTIED ELECTRONICS INDUSTRIES SOLE LIABILITY AND THE CUSTOMER’S SOLE REMEDT WITH RESPECT TO THE PRODUCTS AND IS IN LIEU OF ALL OTHER WARRANTIES. LIABILITIES AND REMEDIES, EXCEPT AS THUS PROVIDED, UNITED ELECTRONIC INDUSTRIES DISCLAIMS ALL WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
59

Index

Accessories, 14 Analog Input Clocking, 29 Analog Input Subsystem, 26 Base address, 11 Board specifications, 43 CE Mark CE Mark Certification, 59 Control Panel, 12 Counter/Timer Subsystem, 26 Diagnostics, 11 Dimensions for accessories, 55 DMA, 11 DSP Processor, 28 Installation hardware and software, 9 Interrupts, 11 J1 Connector Pinouts, 40 Life Support Policy, 59 Motorola 56301, 28 OEM Header Panel, 53 PCI Bus Interface, 28 PCI Specification, 56
PD-CBL-37, 14, 49 PD-CBL-96, 14, 15, 49
PD-STP-96, 16, 17, 50, 51 PD-STP-9616-KIT, 17 PD-STP-96-KIT, 17 Screw Terminal Panels, 16 Service and Support, 56 Single Ended, 23 Timing and Control, 29 Types of boards PowerDAQ™ boards supported, 6 Warranty, 59
Index
60
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