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NuDAQ / NuIPC
9112 Series
Multi-function DAS Cards
for PCI / 3U CompactPCI
User’ s Manual
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CONTENTS
Chapter 1 Introduction...........................................1
1.1 Features............................................................................... 1
1.2 Applications......................................................................... 2
1.3 Specifications...................................................................... 2
1.4 Software Supporting............................................................ 4
1.4.1
Programming Library ........................................................................... 4
1.4.2
1.4.3
1.4.4
1.4.5
1.4.6
1.4.7
1.4.8
1.4.9
PCIS-LVIEW: LabVIEW ® Driver.......................................................... 4
PCIS-VEE: HP-VEE Driver................................................................... 5
DAQBenchTM: ActiveX Controls ........................................................ 5
DASYLabTM PRO.................................................................................... 5
PCIS-DDE: DDE Server and InTouchTM........................................... 5
PCIS-ISG: ISaGRAFTM driver............................................................... 5
PCIS-ICL: InControlTM Driver.............................................................. 5
PCIS-OPC: OPC Server........................................................................ 5
Chapter 2 Installation.............................................6
2.1 What You Have .................................................................... 6
2.2 Unpacking............................................................................ 7
2.3 Device Installation for Windows Systems............................ 7
2.4 PCB Layout.......................................................................... 8
2.5 Jumper Settings .................................................................10
2.6 Analog Input Channel Configuration ..................................10
2.7 Clock Source Setting..........................................................11
2.8 D/A Reference Voltage Setting............................................11
2.9 Connectors Pin Assignments.............................................13
2.9.1
2.9.2
Pin Assignments of PCI-9112...........................................................13
Pin Assignments of cPCI-9112 ........................................................15
2.10 Hardware Installation Outline .............................................16
2.11 Device Installation for Windows Systems...........................16
2.12 Daughter Board Connection ...............................................17
2.12.1 Connect with ACLD-8125..................................................................17
2.12.2 Connect with ACLD-9137..................................................................17
2.12.3 Connect with ACLD-9182..................................................................17
2.12.4 Connect with ACLD-9185..................................................................18
2.12.5 Connect with ACLD-9138 and ACLD-9188....................................18
Chapter 3 Registers Format.................................19
3.1 I/O Registers Map ...............................................................19
3.2 A/D Data Registers..............................................................20
3.3 D/A Output Register............................................................21
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3.4 A/D control Register ...........................................................22
3.5 A/D Status Register ............................................................25
3.6 Software Trigger Register...................................................25
3.7 Digital I/O register...............................................................26
3.8 Internal Timer/Counter Register..........................................27
3.9 High Level Programming....................................................27
3.10 Low Level Programming.....................................................27
Chapter 4 Operation Theorem.............................28
4.1 A/D Conversion...................................................................28
4.2 Analog Input Signal Connection.........................................28
4.2.1
4.2.2
4.2.3
A/D Conversion Procedure...............................................................31
A/D Trigger Modes ..............................................................................31
A/D Data Transfer Modes..................................................................32
4.3 D/A Conversion...................................................................33
4.4 Digital Input and Output......................................................34
4.5 Timer/Counter Operation ....................................................35
Chapter 5 C/C++ Library .......................................39
5.1 Libraries Installation...........................................................39
5.2 Programming Guide............................................................40
5.2.1
5.2.2
Naming Convention ............................................................................40
Data Types.............................................................................................40
5.3 _9112_Initial........................................................................41
5.4 _9112_DI .............................................................................42
5.5 _9112_DI _Channel .............................................................42
5.6 _9112_DO ...........................................................................43
5.7 _9112_DA............................................................................44
5.8 _9112_AD_Set_Channel......................................................45
5.9 _9112_AD_Set_Range.........................................................46
5.10 _9112_AD_Set_Mode ..........................................................47
5.11 _9112_AD_Set_Autoscan....................................................48
5.12 _9112_AD_Soft_Trig ...........................................................49
5.13 _9112_AD_Aquire ...............................................................50
5.14 _9112_AD_DMA_Start.........................................................51
5.15 _9112_AD_DMA_Status ......................................................53
5.16 _9112_AD_DMA_Stop.........................................................54
5.17 _9112_ContDmaStart ..........................................................55
5.18 _9112_CheckHalfReady ......................................................56
5.19 _9112_DblBufferTransfer....................................................57
5.20 _9112_GetOverrunStatus....................................................57
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5.21 _9112_ContDmaStop ..........................................................58
5.22 _9112_AD_INT_Start ...........................................................59
5.23 _9112_AD_INT_Status ........................................................60
5.24 _9112_AD_INT_Stop ...........................................................61
5.25 _9112_AD_Timer.................................................................61
5.26 _9112_TIMER_Start.............................................................63
5.27 _9112_TIMER_Read............................................................63
5.28 _9112_TIMER_Stop.............................................................64
5.29 _9112_Alloc_DMA_Mem .....................................................64
5.30 _9112_Free_DMA_Mem.......................................................65
5.32 _9112_Get_Sample .............................................................65
Chapter 6 Calibration............................................67
6.1 What do you need...............................................................67
6.2 VR Assignment...................................................................68
6.3 A/D Adjustment...................................................................68
6.3.1
6.3.2
Bipolar Calibration ..............................................................................68
Unipolar Calibration............................................................................68
6.4 D/A Adjustment...................................................................69
6.4.1
6.4.2
Reference Voltage Calibration .........................................................69
D/A Channel Calibration ....................................................................69
Chapter 7 Software Utilities................................70
7.1 Software Utility ...................................................................70
7.1.1
7.1.2
7.1.3
7.1.4
Running the Utility ..............................................................................71
System Configuration ........................................................................71
Calibration .............................................................................................71
Functional Testing ..............................................................................72
7.2 PCI SCAN Utility .................................................................72
Appendix A. Demo. Programs..............................73
Product Warranty/Service ....................................75
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How to Use This Guide
This manual is for helping users to manipulate the PCI-9112 and cPCI-
9112. The functionality of PCI-9112 and cPCI-9112 are the same.
Therefore, the “ PCI-9112” in this manual represent both the PCI-9112 and
cPCI-9112 without specifications.
The manual describes how to modify various settings on the PCI-9112
card to meet your requirements. It is divided into seven chapters:
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Chapter 1, Introduction, gives an overview of the product
features, applications, and specifications.
Chapter 2, Installation, describes how to install the PCI-9112.
The layout of PCI-9112 is shown, jumper setting for analog input
channel configuration, D/A reference voltage settings are specified.
The connectors' pin assignment and how to connect the outside
signal and devices are also described.
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Chapter 3, Registers Format, describes the details of register
format and structure of the PCI-9112, this information is very
important for the programmers who want to control the hardware
by low-level programming.
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Chapter 4, Operation Theorem, describes how to operate the
PCI-9112. The A/D, D/A, DIO and timer/counter functions are
introduced. Some programming concepts are also specified.
Chapter 5, C/C++ Library, describes the software utility and
library of PCI-9112, and also describes how to install and operate
the utility and library to meet your requirements and help you to
program your own software application.
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Chapter 6, Calibration, describes how to calibrate the PCI-9112
for accurate measurement.
Chapter 7, Software Utility, describes the software utilities which
can help you to run the card.
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1
Introduction
The 9112 series products are multi-function data acquisition cards.. The
9112 series includes:
PCI-9112: 12-bit 100KHz Multifunction DAS card
cPCI-9112: 12-bit 100KHz Multifunction DAS card for 3U ComptactPCI
The 9112 series DAS cards are using state-of-the-art technology to make
this card ideal for data logging and signal analysis applications in medical,
process control, etc.
1.1 Features
The PCI-9112 PCI Bus Advanced Data Acquisition Card provides the
following advanced features:
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32-bit PCI-Bus
12-bit analog input resolution
On-board A/D FIFO memory
Auto-scanning channel selection
Up to 110Khz A/D sampling rates
16 single-ended or 8 differential analog input channels
Bipolar or unipolar input signals
Programmable gain of x0.5, x1, x2, x4, x8
On-chip sample & hold
Two 12-bit monolithic multiplying analog output channels
16 digital output channels
16 digital input channels
3 independent programmable 16-bit down counters
Three A/D trigger modes : software trigger, programmable pacer
trigger, and external pulse trigger.
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Integral DC-to-DC converter for stable analog power source
Introduction
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37-pin D-type connector for PCI-9112
100-pin SCSI-type connector for cPCI-9112
Half-size PCB
1.2 Applications
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Industrial and laboratory ON/OFF control
Energy management
Annunciation
16 TTL/DTL compatible digital input channels
Security controller
Product test
Event and frequency counting
Waveform and pulse generation
BCD interface driver
1.3 Specifications
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Analog Input (A/D)
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Converter: ADS774 or equivalent, successive approximation type
Resolution: 12-bit
Numbers of Input Channel: 16 single-ended or 8 differential
Input Range: (Programmable)
Bipolar
: 10V, 5V, 2.5V, 1.25V, 0.625V
±
±
±
±
±
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Unipolar
Conversion Time: 8 m sec
Throughput: 110KHz multiplexing (maximum)
Analog Input Over-voltage Protection: Continuous ± 35V max.
Accuracy:
: 0~10V, 0~5V, 0~2.5V, 0~1.25V
GAIN = 0.5, 1
GAIN = 2, 4
GAIN = 8
0.01% of FSR ±1 LSB
0.02% of FSR ±1 LSB
0.04% of FSR ±1 LSB
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Input Impedance: 10 MW
Trigger Modes: Software, Timer Pacer, and External trigger
Data Transfer Modes: Bus mastering DMA, Program control,
Interrupt
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FIFO Depth: 8 words for PCI-9112, 2K words for cPCI-9112 only
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Analog Output (D/A)
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Numbers of Output Channel: 2 double-buffered analog output
Resolution: 12-bit
Output Range:
Ø
Internal Reference: (unipolar) 0~5V or 0~10V
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Ø
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External Reference: (unipolar) max. +10V or -10V
Converter: DAC7541 or equivalent, monolithic multiplying
Settling Time: 30 m sec
Linearity: ±1/2 bit LSB
Output Driving Capability: ±5mA max.
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Digital I/O (DIO)
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Numbers of channels: 16 TTL compatible inputs and outputs
Input Voltage:
Low: Min. 0V. Max. 0.8V
High: Min. +2.0V
Input Load:
Low: +0.5V @ -0.2mA max.
High: +2.7V @+20mA max.
Output Voltage:
Low: Min. 0V; Max. 0.4V
High: Min. +2.4V
Driving Capacity:
Low: Max. +0.5V at 8.0mA (Sink)
High: Min. +2.7V at 0.4mA (Source)
u
u
Programmable Counter
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Timer / Counter Device: 8254
A/D pacer timer: 32-bit timer (two 16-bit counter cascaded
together) with a 2MHz time base
Pacer Frequency Range: 0.00046 Hz ~ 100K Hz
Counter: One 16-bit counter with a 2MHz time base
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General Specifications
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Connector : 37-pin D-type connector
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Operating Temperature: 0° C ~ 60° C
Storage Temperature: -20° C ~ 80° C
Humidity: 5 ~ 95%, non-condensing
Power Consumption:
PCI-9112:
+5 V @ 460 mA typical
+12V @ 110 mA typical
cPCI-9112:
+5 V @ 600 mA typical
+12V @ 20 mA typical
PCB Dimension:
PCI-9112: Compact size only 102mm(H) X 173mm(L)
cPCI-9112: Standard CompactPCI form factor
Introduction
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1.4 Software Supporting
ADLink provides versatile software drivers and packages for users’
different approach to built-up a system.
We not only provide
programming library such as DLL for many Windows systems, but also
provide drivers for many software package such as LabVIEW®, HP
VEETM, DASYLabTM, InTouchTM, InControlTM, ISaGRAFTM, and so on.
All the software options are included in the ADLink CD. The non-free
software drivers are protected with serial licensed code. Without the
software serial number, you can still install them and run the demo
version for two hours for demonstration purpose. Please contact with
your dealer to purchase the formal license serial code.
1.4.1 Programming Library
For customers who are writing their own programs, we provide function
libraries for many different operating systems, including:
u
DOS Library: Borland C/C++ and Microsoft C++, the functions
descriptions are included in this user’ s guide.
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Windows 95 DLL: For VB, VC++, Delphi, BC5, the functions
descriptions are included in this user’ s guide.
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PCIS-DASK: Include device drivers and DLL for Windows 98,
Windows NT and Windows 2000. DLL is binary compatible
across Windows 98, Windows NT and Windows 2000. That
means all applications developed with PCIS-DASK are
compatible across
Windows 98, Windows NT and Windows
2000. The developing environment can be VB, VC++, Delphi,
BC5, or any Windows programming language that allows calls to
a DLL. The user’ s guide and function reference manual of PCIS-
DASK are in the CD. Please refer the PDF manual files under
\\Manual_PDF\Software\PCIS-DASK
The above software drivers are shipped with the board. Please refer to
the “ Software Installation Guide” to install these drivers.
1.4.2 PCIS-LVIEW: LabVIEW® Driver
PCIS-LVIEW contains the VIs, which are used to interface with NI’ s
LabVIEW® software package. The PCIS-LVIEW supports Windows
95/98/NT/2000. The LabVIEW® drivers are free shipped with the board.
You can install and use them without license. For detail information about
PCIS-LVIEW, please refer to the user’ s guide in the CD.
(\\Manual_PDF\Software\PCIS-LVIEW)
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1.4.3 PCIS-VEE: HP-VEE Driver
The PCIS-VEE includes the user objects, which are used to interface with
HP VEE software package. PCIS-VEE supports Windows 95/98/NT. The
HP-VEE drivers are free shipped with the board. You can install and use
them without license. For detail information about PCIS-VEE, please
refer to the user’ s guide in the CD.
(\\Manual_PDF\Software\PCIS-VEE)
1.4.4 DAQBenchTM: ActiveX Controls
We suggest the customers who are familiar with ActiveX controls and
VB/VC++ programming use the DAQBenchTM ActiveX Control
components library for developing applications. The DAQBenchTM is
designed under Windows NT/98. For more detailed information about
DAQBench, please refer to the user’ s guide in the CD.
(\\Manual_PDF\Software\DAQBench\DAQBench Manual.PDF)
1.4.5 DASYLabTM PRO
DASYLab is an easy-to-use software package, which provides easy-setup
instrument functions such as FFT analysis. Please contact us to get
DASYLab PRO, which include DASYLab and ADLink hardware drivers.
1.4.6 PCIS-DDE: DDE Server and InTouchTM
DDE stands for Dynamic Data Exchange specifications. The PCIS-DDE
includes the PCI cards’ DDE server. The PCIS-DDE server is included in
the ADLINK CD. It needs license. The DDE server can be used
conjunction with any DDE client under Windows NT.
1.4.7 PCIS-ISG: ISaGRAFTM driver
The ISaGRAF WorkBench is an IEC1131-3 SoftPLC control program
development environment. The PCIS-ISG includes ADLink products’
target drivers for ISaGRAF under Windows NT environment. The PCIS-
ISG is included in the ADLINK CD. It needs license.
1.4.8 PCIS-ICL: InControlTM Driver
PCIS-ICL is the InControl driver which support the Windows NT. The
PCIS-ICL is included in the ADLINK CD. It needs license.
1.4.9 PCIS-OPC: OPC Server
PCIS-OPC is an OPC Server, which can link with the OPC clients. There
are many software packages on the market can provide the OPC clients
now. The PCIS-OPC supports the Windows NT. It needs license.
Introduction
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2
Installation
This chapter describes how to install the 9112 series cards. Please follow
the follow steps to install.
u
Check what you have (section 2.1)
u
u
u
u
u
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Unpacking (section 2.2)
Check the PCB and jumper location(section 2.3)
Setup jumpers (section 2.4~2.8)
Install the hardware and setup and jumpers (section 2.10)
Install the software drivers and run utility to test (section 2.11)
Cabling with external devices (section 2.9 and 2.12)
2.1 What You Have
In addition to this User's Guide, the package includes the following items:
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PCI-9112 or cPCI-9112 Enhanced Multi-function DAS Card
ADLINK Software CD
Software Installation Guide
If any of these items is missing or damaged, contact the dealer from
whom you purchased the product. Save the shipping materials and carton
in case you want to ship or store the product in the future.
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2.2 Unpacking
The card contains sensitive electronic components that can be easily
damaged by static electricity. Failure to perform the procedure outlined
below may damage the on board devices.
The board is packaged in an anti-static bag to avoid damage to the
sensitive IC on the board. After opening the card module carton, extract
the bag and place it only on a grounded anti-static surface to establish
grounding. The card should be handled on a grounded anti-static mat.
The operator should be wearing an anti-static wristband, grounded at the
same point as the anti-static mat.
Inspect the card for obvious damage. Shipping and handling may cause
damage to your module. Be sure there are no shipping and handing
damages on the module before processing.
Note : DO NOT ATTEMPT TO INSTALL A DAMAGED BOARD IN THE
COMPUTER.
You are now ready to install your card.
2.3 Device Installation for Windows Systems
Once Windows 95/98/2000 has started, the Plug and Play function of
Windows system will find the new NuDAQ/NuIPC cards. If this is the first
time to install NuDAQ/NuIPC cards in your Windows system, you will be
informed to input the device information source. Please refer to the
“ Software Installation Guide” for the steps of installing the device.
Installation
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2.4 PCB Layout
PCI-9112 Layout
A D S - 7 7 4
Figure 2.1 PCB Layout of the PCI-9112
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cPCI-9112 Layout
Figure 2.2 PCB Layout of the PCI-9112
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2.5 Jumper Settings
You can set the following configuration by jumpers: the analog input
signal mode, counter’ s clock source, and analog output range. The card's
jumpers and switches are preset at the factory. You can change the
jumper settings for your own applications.
For system reliability and safety, the design of PCI-9112 still keeps some
board configurations to be set through jumpers. These setting are listed
as below.
Jumpers
(PCI-
9112)
Jumpers
(cPCI-
9112)
Configurat
ion
Attributes
Single-
ended or
Differential
Analog
Input
Analog
Inputs
JP1 and
JP5
JP1 and
JP4
Internal
Clock or
External
Clock
Clock
Source
JP2
JP3
JP2
JP3
D/A
Reference
Voltage
-10V or -5V
Internal
Reference
or
External
Reference
D/A
Reference
Source
JP4
JP5
Table 2.1
Jumpers Listing Table
2.6 Analog Input Channel Configuration
The PCI-9112 offers 16 single-ended or 8 differential analog input
channels. The jumper JP1 and JP5 control the analog input configurations.
The settings of JP1 and JP5 are specified as following:
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PCI-9112
SINGLE
cPCI-9112
SINGLE
SINGLE
SINGLE
DIFF
Single-ended
JP5
JP1
JP4
JP4
JP1
(default setting)
DIFF
DIFF
DIFF
SINGLE
SINGLE
SINGLE
SINGLE
Differential
Input
JP5
JP1
JP1
DIFF
DIFF
DIFF
DIFF
Figure 2.2
Analog Input Mode Setting
2.7 Clock Source Setting
The programmable interval timer 8254 is used in the PCI-9112. It
provides 3 independent 16-bit programmable down counters. The input of
counter 2 is connected to a precision 2MHz oscillator for internal pacer.
The input of counter 1 is cascaded from the output of counter 2. The
channel 0 is free for user's applications. There are two selections for the
clock source of channel 0 : the internal 2MHz clock or the external clock
signal from connector CN3 pin 35. The setting of clock is shown as Figure
2.3.
Internal Clock
Source: 2MHz
INTCLK
JP2
(default setting)
EXTCLK
INTCLK
External Clock
Source
JP2
EXTCLK
Figure 2.3 Timer's Clock Source Setting
2.8 D/A Reference Voltage Setting
The D/A converter's reference voltage source can be supplied both
internally and external. The external reference voltage comes from
connector CN3 pin 31 (ExtRef1) and pin12 (ExtRef2), see section 3.1.
The reference source of D/A channel 1 and channel 2 are selected by
JP4, respectively. Their possible settings are shown as below:
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JP4(PCI-9112) JP5(cPCI-9112)
D/A CH1 is External
D/A CH2 is External
INTREF
ExtRef1
INTREF
ExtRef2
INTREF
ExtRef1
INTREF
ExtRef2
D/A CH1 is External
D/A CH2 is Internal
D/A CH1 is Internal
D/A CH2 is External
INTREF
ExtRef1
INTREF
ExtRef2
D/A CH1 is Internal
D/A CH2 is Internal
(default setting)
INTREF
ExtRef1
INTREF
ExtRef2
Figure 2.4 Analog Output Voltage Setting
The internal A/D reference voltage can be set to –5V or –10V by JP3.
The possible configurations are specified as Figure 2.5. Note that the
internal reference voltage is used only when the JP4 is set to internal
reference only.
-10V
Reference Voltage is
-5V (default setting)
J P 3
-5V
-10V
Reference Voltage is
-10V
J P 3
-5V
Figure 2.5 Internal Reference Voltage Setting
Note : If the -10V D/A reference voltage is selected, the D/A output
range is 0V~10V. On the other hand, if the -5V is selected, the
D/A output range is 0V~5V.
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2.9 Connectors Pin Assignments
2.9.1 Pin Assignments of PCI-9112
The PCI-9112 comes equipped with two 20-pin insulation displacement
connectors - CN1 and CN2 and one 37-pin D-type connector - CN3. The
CN1 and CN2 are located on board and CN3 located at the rear plate.
CN1 is for digital signal input, CN2 for digital signal output, CN3 for
analog input, analog output and timer/counter's signals. The pin
assignments for each connector are illustrated in the Figure 2.9.1~ Figure
2.9.3.
CN 3: Analog Input / Output & Counter/Timer
(for single-ended connection)
(for differential connection)
CN3
1
AI0
AI1
AI2
20
21
22
AI8
2
3
4
5
AI9
AI10
AI11
AI3
AI4
23
24
25
AI12
AI13
AI14
6
7
8
AI5
AI6
AI7
26
27
28
29
30
31
AI15
A.GND
A.GND
9
A.GND
10
11
12
A.GND
V.REF
AO1
ExtRef2
ExtRef1
AO2
13
14
15
16
17
18
19
+12V
A.GND
D.GND
32
33
GATE0
GATE
COUT1
N/C
34
COUT0
35
36
37
ExtTrg
N/C
+5V
ExtCLK
Figure 2.9.1 Pin Assignments of CN3
Legend :
AIn
: Analog Input Channel n ( single-ended)
: Analog High Input Channel n ( differential)
: Analog Low Input Channel n ( differential)
AIHn
AILn
ExtRef n : External Reference Voltage for D/A CH n
AOn : Analog Output Channel n
ExtCLK : External Clock Input
ExtTrig : External Trigger Signal
CLK
: Clock input for 8254
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GATE
: Gate input for 8254
COUT n : Signal output of Counter n
V.ERF : Voltage Reference
A.GND : Analog Ground
GND
CN 1: Digital Signal Input (DI 0 - 15)
CN1
: Ground
DI 1
DI 3
DI 5
DI 7
DI 9
DI 11
DI 13
DI 15
GND
+12V
DI 0
DI 2
DI 4
DI 6
DI 8
DI 10
DI 12
DI 14
GND
+5V
1
3
5
7
2
4
6
8
9 10
11 12
13 14
15 16
17 18
19 20
Figure 2.9.2 Pin Assignment of CN1
CN 2: Digital Signal Output (DO 0 - 15)
CN2
DO 1
DO 3
DO 5
DO 7
DO 9
DO 11
DO 13
DO 15
GND
DO 0
DO 2
DO 4
DO 6
DO 8
DO 10
DO 12
DO 14
GND
1
3
5
7
2
4
6
8
9 10
11 12
13 14
15 16
17 18
19 20
+12V
+5V
Figure 2.9.3 Pin Assignment of CN2
Legend :
DO n
: Digital output signal channel n
: Digital input signal channel n
: Digital ground
DI n
GND
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2.9.2 Pin Assignments of cPCI-9112
(1) DOUT_0 (26) DIN_9
GND (76) GND
(2) DOUT_1 (27) DIN_10
GND (77) GND
(3) DOUT_2 (28) DIN_11
GND (78) GND
(4) DOUT_3 (29) DIN_12
GND (79) GND
(5) DOUT_4 (30) DIN_13
GND (80) GND
(6) DOUT_5 (31) DIN_14
GND (81) 5Vout
(7) DOUT_6 (32) DIN_15
GND (82) 5Vout
(8) DOUT_7 (33) EXTCLK
GND (83) GND
(9) DOUT_8 (34) EXTTRG
GND (84) GND
(10) DOUT_9 (35) COUT0
(51)
(52)
(53)
(54)
(55)
(56)
(57)
(58)
(59)
(60)
(1)
(2)
(3)
(51)
(52)
(53)
GND
(11) DOUT_10
(61) GND(86) GATE
(12) DOUT_11 (37)
(62) GND(87) AGND
(85) COUT1
(36)
(48)
(49)
(50)
(98)
GATE0
12VOUT
(99)
(100)
Legend :
AINm
: Analog Input Channel m ( single-ended)
AINHm : Analog High Input Channel m ( differential)
AINLm : Analog Low Input Channel m ( differential)
ExtTrig : External AD Trigger Signal
DIN_x
: Digital Input Channel x
DOUT_x : Digital Output Channel x
ExtCLK : External Clock Input for 8254 Counter #0
COUT n : Signal output of Counter n
GATE0 : Gate input for 8254 Timer #0
GATE
ExtRef n : External Reference Voltage for D/A CH n
DAn : Analog Output Channel n (n=1,2)
REFout : Internal Voltage Reference Output
5Vout : Internal 5V Output
: Gate input for 8254 Timer #1,2
12Vout : Internal 12V Output
A.GND : Analog Ground
GND
: Ground
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2.10 Hardware Installation Outline
PCI configuration
The PCI cards (or CompactPCI cards) are equipped with plug and play
PCI controller, it can request base addresses and interrupt according to
PCI standard. The system BIOS will install the system resource based on
the PCI cards’ configuration registers and system parameters (which are
set by system BIOS). Interrupt assignment and memory usage (I/O port
locations) of the PCI cards can be assigned by system BIOS only. These
system resource assignments are done on a board-by-board basis. It is
not suggested to assign the system resource by any other methods.
PCI slot selection
The PCI card can be inserted to any PCI slot without any configuration for
system resource. Please note that the PCI system board and slot must
provide bus-mastering capability to operate this board well.
Installation Procedures
1.Turn off your computer.
2.Turn off all accessories (printer, modem, monitor, etc.) connected to
your computer.
3. Remove the cover from your computer.
4. Setup jumpers on the PCI or CompactPCI card.
5. Select a 32-bit PCI slot. PCI slot are short than ISA or EISA slots, and
are usually white or ivory.
6.Before handling the PCI cards, discharge any static buildup on your
body by touching the metal case of the computer. Hold the edge and do
not touch the components.
7.Position the board into the PCI slot you selected.
8.Secure the card in place at the rear panel of the system.
2.11 Device Installation for Windows Systems
Once Windows 95/98/2000 has started, the Plug and Play function of
Windows system will find the new NuDAQ/NuIPC cards. If this is the first
time to install NuDAQ/NuIPC cards in your Windows system, you will be
informed to input the device information source. Please refer to the
“ Software Installation Guide” for the steps of installing the device.
.
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2.12 Daughter Board Connection
The PCI-9112 can be connected with five different daughter boards,
ACLD-8125, 9137, 9138, 9182, 9185, and 9188. The functionality and
connections are specified in the following sections.
The cPCI-9112 is equipped with 100 pin SCSI-II type connector, the DIN-
100S is a general purpose terminal board for connecting the external
devices.
2.12.1 Connect with ACLD-8125
The ACLD-8125 has a 37-pin D-sub connector, which can connect with
PCI-9112 through 37-pin assemble cable. The most outstanding feature
of this daughter board is a CJC (cold junction compensation) circuit on
board. You can directly connect the thermocouple on the ACL-8125 board.
The CJC only suitable for High Gain version board.
2.12.2 Connect with ACLD-9137
The ACLD-9137 is a direct connector for the card which is equipped with
37-pin D-sub connector. This board provides a simple way for connection.
It is very suitable for the simple applications that do not need complex
signal condition before the A/D conversion is performed.
2.12.3 Connect with ACLD-9182
The ACLD-9182 is a 16 channel isolated digital input board. This board is
connected with CN1 of PCI-9112 via 20-pin flat cable. The advantage of
board is a 500Vdc isolation voltage is provided, and it can protect your PC
CN2
ACLD-
CN1
ACLD-
PCI
system from damage when an abnormal input signal is occurred.
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2.12.4 Connect with ACLD-9185
The ACLD-9185 is a 16 channel SPDT relay output board. This board is
connected with CN2 of PCI-9112 via 20-pin flat cable. by using this board,
you can control outside device through the digital output signals.
2.12.5 Connect with ACLD-9138 and ACLD-9188
ACLD-9138 and ACLD-9188 are general purpose terminal boards for all
the card which comes equipped with 37-pin D-sub connector. The ACLD-
9138 has a LED indicator to show the power ON/OFF of your computer
system.
CN1
CN3
CN2
ACLD-9188
PCI-9112
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3
Registers Format
The detailed descriptions of the register format and structure of the PCI-
9112 are specified in this chapter. This information is quite useful for the
programmer who wish to handle the card by low-level program.
In addition, the low level programming syntax is introduced. This
information can help the beginners to operate the PCI-9112 in the
shortest learning time.
3.1 I/O Registers Map
The PCI-9112 functions as 32-bit PCI target device to any master on the
PCI bus. It supports burst transfer to memory space by using 32-bit data.
All data read and write will base on 32-bit data.There are three types of
registers on the PCI-6308: PCI Configuration Registers (PCR), Local
Configuration Registers (LCR) and 9112 registers.
The PCR, which compliant to the PCI-bus specifications, is initialized and
controlled by the plug & play (PnP) PCI BIOS. User‘ s can study the PCI
BIOS specification to understand the operation of the PCR. Please
contact with PCISIG to acquire the specifications of the PCI interface.
The LCR is specified by the PCI bus controller AMCC-5933, which is
to understand the details of the LCR if you use the software library.
The Table 3.1 shows the 9112 I/O address of each register with respect
to the base address. The function of each register also be shown.
Registers Format
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I/O Address
Read
Write
Base + 0
Base + 4
Base + 8
Base + C
Counter 0
Counter 1
Counter 2
-------------
Counter 0
Counter 1
Counter 2
8254
Control
Counter
Base + 10
Base + 14
Base + 18
A/D Data Reg.
-------------
CH1 D/A Data
Reg.
CH2 D/A Data
Reg.
A/D
Status
A/D Control Reg.
Reg.
Base + 1C
Base + 20
Digital IN Reg.
-------------
Digital OUT Reg.
Software Trigger
Table 3.1 I/O Address
3.2 A/D Data Registers
The PCI-9112 provides 16 single-ended or 8 differential A/D input
channels, the digital data will store in the A/D data registers. The 12 bits
A/D data is put into 32 bits registers.
Address
Attribute
: BASE + 10
: read only
Data Format:
Bit
7
6
0
BA
SE+
10
A
D
3
A
D
2
A
D
1
A
D
0
C
H
3
C
H
2
C
H
1
C
H
0
BA
SE+
11
A
D
1
A
D
1
A
D
9
A
D
8
A
D
7
A
D
6
A
D
5
A
D
4
1
0
BA
SE+
12
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
BA
SE+
13
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
AD11 .. AD0
:
Analog to digital data. AD11 is the Most
Significant Bit (MSB). AD0 is the Least Significant Bit (LSB).
CH3 ~ CH0 : A/D channel number from which the data is derived.
---
:
Don‘ t care
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3.3 D/A Output Register
The D/A converter will convert the D/A output register data to the analog
signal. The register data of the address Base+10 is used for D/A channel
1, Base+14 is used for D/A channel 2.
Address
Attribute
: BASE + 10
: write only
Data Format: (for D/A Channel 1)
Bit
0
Bas
D
A
3
D
A
2
D
A
0
e
+
10
Bas
D
A
1
D
A
1
D
A
8
e
+
11
1
0
Bas
-
-
-
-
-
-
-
-
-
e
+
12
Bas
-
-
-
-
-
-
-
-
-
e
+
14
Address
Attribute
: BASE + 14
: write only
Data Format: (for D/A Channel 2)
Bit
0
Base
+ 14
D
A
3
D
A
2
D
A
1
D
A
0
Base
+ 15
D
A
1
D
A
1
D
A
9
D
A
8
1
0
Base
+ 16
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Base
+ 17
DA0 is the LSB and DA11 is the MSB of the 12 bits data.
--- : don't care
Registers Format
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3.4 A/D control Register
This register is to control the A/D channels to be converted. It is a write
only register. When the channel number is written to the register, the
multiplexer switches to the new channel and wait for conversion.
Address
Attribute
: BASE + 18
: write only
Data Format:
Bit
4
0
Base
+ 18
Base
+ 19
MUX
Auto-
Scan
GAIN
A/D Mode
M
U
X
Base
+ 1A
---
---
-
-
-
-
-
-
Base
+ 1B
A/D Mode:
Bit 3
Bit 2
Bit 1
Bit 0
EITS
TSTS
INTX
DMA
X
EITS : External / Internal Trigger Source
1 : External Trigger Source
0: Internal Trigger Source
TPST : Timer Pacer/ Software Trigger
1 : Timer Pacer Trigger
0 : Software Trigger
(It is only available when the Internal Trigger Source is selected)
INTX: Interrupt Transfer Mode
1 : Enable Interrupt Transfer
0 : Disable Interrupt Transfer
DMAX : DMA Transfer Mode (bus mastering)
1 : Enable DMA Data Transfer
0 : Disable DMA Data Transfer
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Only below modes are legal to be applied on the PCI-9112 card :
Bit 3
EIT
S
Bit
2
T
P
S
T
Bit
1
IN
T
Bit
0
D
M
A
Mode Description
X
X
0
0
0
1
0
0
0
1
Software Trigger & Polling
Timer Pacer Trigger
DMA
&
0
1
1
1
1
1
0
0
1
0
0
1
0
Timer Pacer Trigger & INT
External Trigger & Polling
External Trigger & DMA
External Trigger & INT
X
X
X
Auto-Scan: ( Bit 4)
0: Auto Scan is disabled
Only channel [M3 M2 M1 M0] is converted only
1: The converted channel will be selected by the sequence [ M3 M2
M1 M0] to 0, for example, the MUX register is [0110] and the auto-scan
bit is enabled, then the channel scan sequence is :
CH6, CH5, CH4, CH3, CH2, CH1, CH0, CH6, CH5, ...
MUX Register: ( Bit8 ~ Bit5)
The converted A/D channel is controlled by the register MUX, the format
of MUX is show as table below.
Bit
8
Bit
7
Bit
6
Bit
5
Channel No.
M
3
M
2
M
1
M
0
0
0
0
...
1
1
0
0
0
...
1
1
0
0
1
...
1
1
0
1
0
...
0
1
CH0
CH1
CH2
...
CH14
CH15
Note : Signle-ended mode : channel is selected from CH0 ~ CH15.
Differential mode : channel is selected from CH0 ~ CH5.
· Gain: ( Bit12 ~ Bit9)
Registers Format
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In PCI-9112, the analog input ranges are software programmable and it is
controlled by the gain value. The gain value and its corresponding input
range is shown as below.
Bipola
(
(
(
(
r
or
Unipol
ar
Input Range
Bi
t1
2)
G
3
Bi
t1
1)
G
2
Bi
t1
0)
G
1
Bi
t9
)
G
0
0
1
0
0
Bipola
r
Bipola
r
Bipola
r
Bipola
r
Bipola
r
Unipol
ar
Unipol
ar
Unipol
ar
Unipol
ar
±10V
±5V
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
±2.5V
±1.25V
±0.625V
0V ~ 10V
0V ~ 5V
0V ~ 2.5V
0V ~ 1.25V
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3.5 A/D Status Register
Address
Attribute
: BASE + 18
: read only
Data Format:
Bit
1
0
Base
+ 18
DO
VR
DR
DY
Base
+ 19
---
---
---
---
---
---
Base
+ 1A
Base
+ 1B
DOVR: A/D Over-Run ( it is only when A/D is transferred by DMA bus
master mode. )
1 : A/D converted Data is over run
0 : A/D converted Data is in normal condition
DRDY :A/D Data is Ready
1 : A/D conversion is completed
0 : A/D conversion is not completed
3.6 Software Trigger Register
If you want to generate a trigger pulse to the PCI-9112 for A/D conversion,
you just write any data to this register, and then the A/D converter will be
triggered.
Address
Attribute
: BASE + 20
: write only
Data Format:
Bit
BAS
E+2
0
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3.7 Digital I/O register
There are 16 digital input channels and 16 digital output channels
provided by the PCI-9112. The address Base + 1C is used to access
digital inputs and control digital outputs.
Address
Attribute
: BASE + 1C
: read only
Data Format:
Bit
Bas
e +
1C
Bas
e +
1D
D
I
7
D
I
D
I
6
D
I
D
I
5
D
I
D
I
4
D
I
D
I
3
D
I
D
I
2
D
I
1
5
1
4
1
3
1
2
1
1
1
0
Bas
e +
1E
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Bas
e +
1F
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Address
Attribute
Data Format:
Bit
: BASE + 1C
: write only
2
Bas
e +
1C
D
O
7
D
O
6
D
O
5
D
O
4
D
O
3
D
O
2
Bas
e +
1D
D
O
1
D
O
1
D
O
1
D
O
1
D
O
1
D
O
1
5
4
3
2
1
0
Bas
e +
1E
Bas
e +
1F
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
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3.8 Internal Timer/Counter Register
Two counters of 8254 are used for periodically triggering the A/D
conversion, the left one is left free for user applications. The 8254
occupies 4 I/O address locations in the PCI-9112 as shown blow. Users
can refer to NEC's or Intel's data sheet for a full description of the 8254
features.
Address
: BASE + 0 ~ BASE + F
Attribute : read / write
Data Format :
Base + 0
Counter 0 Register ( R/W)
Counter 1 Register ( R/W)
Counter 2 Register ( R/W)
8254 CONTROL BYTE (W)
Base + 4
Base + 8
Base + C
3.9 High Level Programming
To operate the PCI-9112, you should by-pass the detailed register
structures and control your PCI-9112 card directly via the high-level
Application-Programming-Interface (API).
The software Libraries,
including DOS Library for Borland C++ and DLL driver for Windows -95/98,
are included in the CD. For more detailed information, please refer to
Chapter 5 “ C/C++ Software Library” .
3.10 Low Level Programming
To operate the PCI-9112, users do not need to understand how to write a
hardware dependent low-level program. Because it is more complex to
control the PCI controller and the information is not described in this
manual. We do not recommend users to program its applications based
on low-level programming. The PCI controller used in the PCI-9112 is
AMCC-S5933. For more s5933 PCI controller information, please visit
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4
Operation Theorem
The operation theorem of the functions on PCI-9112 card is described in
this chapter. The functions include the A/D conversion, D/A conversion,
Digital I/O and counter / timer. The operation theorem can help you to
understand how to manipulate or to program the PCI-9112.
4.1 A/D Conversion
Before programming the PCI-9112 to perform the A/D conversion, you
should understand the following issues:
Ø
Ø
Ø
Ø
Ø
A/D front-end signal input connection
A/D conversion procedure
A/D trigger mode
A/D data transfer mode
Signal Connection
4.2 Analog Input Signal Connection
The PCI-9112 provides 16 single-ended or 8 differential analog input
channels. The analog signal can be converted to digital value by the A/D
converter. To avoid ground loops and get more accuracy measurement
of A/D conversion, it is quite important to understand the signal source
type and how to choose the analog input modes : signal-ended and
differential. The PCI-9112 offers jumpers to select 16 single-ended or 8
different analog inputs.
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Single-ended Mode
The single-ended mode has only one input relative to ground and it
suitable for connecting with the floating signal source. The floating source
means it does not have any connection to ground. Figure 3.4 shows the
single-ended connection. Note that when more than two floating sources
are connected, the sources must be with common ground.
Figure 4.2.1 Floating source and single-ended
Differential input mode
The differential input mode provides two inputs that respond to the
difference signal between them. If the signal source has one side
connected to local ground, the differential mode can be used for reducing
ground loop. Figure 3.5 shows the connection of the differential input
mode. However, even if the signal source is local grounded, the single-
ended still can be used when the Vcm (Common Mode Voltage) is very
small and the effect of ground loop can be negated.
n
=
n =
0, …
To A/D Converter
AIHn
+
-
Ground
Signal
Source
AILn
GND
Vcm = VG1 - VG2
VG1
VG2
Figure 4.2.2 Ground source and differential input
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A differential mode must be used when the signal source is differential. A
differential source means the ends of the signal are not grounded. To
avoid the danger of high voltage between the local ground of signal and
the ground of the PC system, a shorted ground path must be connected.
Figure 3.6 shows the connection of differential source.
n =
n
0,
To A/D Converter
AIHn
+
-
Differential
Signal
Source
AILn
GND
Vcm = VG1 - VG2
VG1
VG2
Figure 4.2.3 Differential source and differential input
If your signal source is both floating and local ground, you should use the
differential mode, and the floating signal source should be connected as
the Figure 3.7 .
n
=
n
0,
High
Hn
Floating
Signal
To A/D Converter
Source
Low
AILn
GND
Figure 4.2.4 Floating source and differential input
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4.2.1 A/D Conversion Procedure
The A/D conversion is starting by a trigger source, then the A/D converter
will start to convert the signal to a digital value. The PCI-9112 provides
three trigger modes, see section 5.1.2.
While A/D conversion, the DRDY bit in A/D status register is cleared to
indicate the data is not ready. After conversion being completed, the
DRDY bit will return to high(1) level. It means users can read the
converted data from the A/D data registers. Please refer section 4.5 for
the A/D status register format.
The A/D data should be transferred into PC's memory for further using.
The PCI-9112 provides three data transfer modes that allow users to
optimize the DAS system. Refer to section 5.1.3 for data transfer modes.
4.2.2 A/D Trigger Modes
In the PCI-9112, A/D conversion can be triggered by the Internal or
External trigger source. The EITS bit of A/D control register is used to
select the internal or external trigger, please refer to section 4.5 for details.
Whenever the external source is set, the internal sources are disable.
If the internal trigger is selected, there are two internal sources, the
software trigger and the timer pacer trigger can be used. The A/D
operation mode is controlled by A/D mode bits (EITS, TSTS) of A/D
control register (BASE+18). Total three trigger sources are possible in
the PCI-9112. The different trigger conditions are specified as follows:
Software trigger
The trigger source is software controllable in this mode. That is, the A/D
conversion is starting when any value is written into the software trigger
register (BASE+20). This trigger mode is suitable for low speed A/D
conversion. Under this mode, the timing of the A/D conversion is fully
controlled under software. However, it is difficult to control the fixed A/D
conversion rate except another timer interrupt service routine is used to
generate a fixed rate trigger.
Timer Pacer Trigger
An on-board timer / counter chip 8254 is used to provide a trigger source
for A/D conversion at a fixed rate. Two counters of the 8254 chip are
cascaded together to generate trigger pulse with precise period. Please
refer to section 5.4 for 8254 architecture. This mode is ideal for high
speed A/D conversion. It can be combined with the DMA bus mastering or
the interrupt data transfer. It's recommend to use this mode if your
applications need a fixed and precise A/D sampling rate.
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External Trigger
Through the pin-17 of CN3 (ExtTrig), the A/D conversion also can be
performed when a rising edge of external signal is occurred. The
conversion rate of this mode is more flexible than the previous two modes,
because the users can handle the external signal by outside device. The
external trigger can combine with the DMA transfer, interrupt data transfer,
or even program polling data transfer. Generally, the interrupt data
transfer is often used when external trigger mode is used.
4.2.3 A/D Data Transfer Modes
On the PCI-9112, three A/D data transfer modes can be used when the
conversion is completed. The data transfer mode is controlled by the A/D
mode control bits (INTX, DMAX) of the A/D control register (BASE+18).
The different transfer modes are specified as follows:
Software Data Transfer (DRDY)
Usually, this mode is used with software A/D trigger mode. After the A/D
conversion is triggered by software, the software should poll the DRDY bit
on the A/D Status register until it becomes to high level. Whenever the
low byte of A/D data is read, the DRDY bit will be cleared to indicate the
data is read out.
It is possible to read A/D converted data without polling. The A/D
conversion time will not excess 8ms on PCI-9112 card. Hence, after
software trigger, the software can wait for at least 8ms then read the A/D
register without polling.
Interrupt Transfer (INTX)
The PCI-9112 provides hardware interrupt capability. Under this mode, an
interrupt signal is generated when the A/D conversion is ended and the
data is ready to be read. It is useful to combine the interrupt transfer with
the timer pacer trigger mode. Under this mode, the data transfer is
essentially asynchronous with the control software.
When the interrupt transfer is used, the hardware interrupt will be inserted
and its corresponding ISR (Interrupt Service Routine) will be invoked and
executed after A/D conversion is completed. The converted data is
transferred by the ISR program. In PCI design, the IRQ level is assigned
by BIOS directly.
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DMA Transfer (DMAX)
The DMA (Direct Memory Access) bus master allows data to be
transferred directly between the PCI-9112 and the PC memory at the
fastest possible rate, without using any CPU time. The A/D data will be
queue at local FIFO on the PCI-9112 itself and it is automatically
transferred to PC's memory.
The DMA transfer mode is very complex to program. It is recommended
to use the high level program library to operate this card. If you wish to
program the software which can handle the DMA bus master data transfer,
please refer to more information about PCI controller.
4.3 D/A Conversion
The operation of D/A conversion is more simple than A/D operation. You
only need to write Digital values into the D/A data registers and the
corresponding voltage will be output from the AO1 or AO2. Refer to
section 4.3 for information about the D/A data registers.
The
mathematical relationship between the Digital number DAn and the output
voltage is formulated as following:
DAn
Vout = -Vref ´
4096
where the Vref is the reference voltage, the Vout is the output voltage,
and the DAn is the Digital value in D/A data registers.
Before performing the D/A conversion, users should care about the D/A
reference voltage which set by the JP3 and JP4. Please refer section 2.8
for jumper setting. The reference voltage will effect the output voltage. If
the reference voltage is -5V, the D/A output scaling will be 0~5V. If the
reference voltage is -10V, the D/A output scaling will be 0~10V.
The PCI-9112 has two unipolar analog output channels. To make the D/A
output connections from the appropriate D/A output, please refer Figure
3.8.
-5 or -10
INT or Ext
Pin-30 ( AO0)
Ref In
Pin-32 ( AO1)
D/A Converter
-
ut
D/A
+
Pin-14 ( A.GND)
Analog GND
Figure 4.3 Connection of Analog Output Connection
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4.4 Digital Input and Output
The PCI-9112 provides 16 digital input and 16 digital output channels
through the connector CN1 and CN2 on board. The digital I/O signal are
fully TTL/DTL compatible. The detailed digital I/O signal are specified in
section 1.3.
To program digital I/O operation is fairly straight forward. The digital input
operation is just to read data from the corresponding registers, and the
digital output operation is to write data to the corresponding registers. The
digital I/O registers‘ format are shown in section 4.5. Note that the DIO
data channel can only be read or written in form of 16 bits together. It is
impossible to access individual bit channel.
74LS244
Digital Input(DI)
From TTL Signal
Digital Output (DO)
To TTL Devices
74LS373
Digital GND (DGND)
Outside Device
Figure 4.4 Digital I/O Connection
ACL-8112
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4.5 Timer/Counter Operation
The PCI-9112 has an interval timer/counter 8254 on board. It offers 3
independent 16-bit programmable down counters; counter 1 and counter
2 are cascaded together for A/D timer pacer trigger of A/D conversion,
and counter 0 is free for your applications. Figure 3.10 shows the 8254
timer/counter connection.
CN3 Pin-37
8254 Timer/Counter
EXT
INT
Counter 0
GATE0
CLK0
OUT0
CN3 Pin-33
CN3 Pin-34
CN3 Pin-16
Vcc
Counter 1
GATE1
CLK1
OUT1
OUT2
A/D Trigger
CN3 Pin-35
2MHz
Oscillator
Counter 2
CLK2
GATE2
Figure 4.5 Block Diagram of 8254 Timer/Counter
The clock source of counter 0 can be internal or external, while the gate
can be controlled externally and the output is send to the connector CN3.
As to counter 0 and counter 1, the clock source is internally fixed, while
the gate can be controlled externally and the output is send to the
connector CN3 too. All the timer/ counter signals are TTL compatible.
The following shows how to configure the 8254 timer / counter chip.
The 8254 Timer / Counter Chip
The Intel (NEC) 8254 contains three independent, programmable, multi-
mode 16 bit counter/timers. The three independent 16 bit counters can be
clocked at rates from DC to 5 MHz. Each counter can be individually
programmed with 6 different operating modes by appropriately formatted
control words. The most commonly uses for the 8254 in microprocessor
based system are:
Ø
programmable baud rate generator
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Ø
Ø
Ø
Ø
Ø
event counter
binary rate multiplier
real-time clock
Digital one-shot
motor control
For more information about the 8254, please refer to the NEC
Microprocessors and peripherals or Intel Microsystems Components
Handbook.
Pacer Trigger Source
The counter 1 and counter 2 are cascaded together to generate the timer
pacer trigger of A/D conversion. The frequency of the pacer trigger is
software controllable. The maximum pacer signal rate is 2MHz/4=500K
which excess the maximum A/D conversion rate of the PCI-9112. The
minimum signal rate is 2MHz/65536/65536, which is a very slow
frequency that user may never use it.
General Purpose Timer/ Counter
The counter 0 is free for users' applications. The clock source, gate
control signal and the output signal is send to the connector CN3. The
general purpose timer / counter can be used as event counter, or used for
measuring frequency, or others functions.
I/O Address
The 8254 in the PCI-9112 occupies 4 I/O address as shown below.
BASE + 0
BASE + 1
BASE + 2
BASE + 3
LSB OR MSB OF COUNTER 0
LSB OR MSB OF COUNTER 1
LSB OR MSB OF COUNTER 2
CONTROL BYTE
The programming of 8254 is control by the registers BASE+0 to BASE+3.
The functionality of each register is specified this section. For more
detailed information, please refer handbook of 8254 chip.
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Control Byte
Before loading or reading any of these individual counters, the control
byte (BASE+3) must be loaded first. The format of the control byte is :
B
i
7
6
5
0
t
S
C
1
S
C
0
R
L
1
B
C
D
·
·
·
SC1 & SC0 - Select Counter (Bit7 & Bit 6)
S
C
1
S
C
0
COUNTER
0
0
1
1
0
1
0
1
Select Counter 0
Select Counter 1
Select Counter 2
ILLEGAL
RL1 & RL0 - Select Read/Load operation (Bit 5 & Bit 4)
R
L
1
R
L
0
OPERATION
0
0
1
1
0
1
0
1
COUNTER LATCH FOR STABLE READ
READ/LOAD LSB ONLY
READ/LOAD MSB ONLY
READ/LOAD LSB FIRST, THEN MSB
M2, M1 & M0 - Select Operating Mode (Bit 3, Bit 2, & Bit 1)
M2
M1
M0
MODE
0
0
x
x
1
1
0
0
1
1
0
0
0
1
0
1
0
1
0
1
2
3
4
5
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·
BCD - Select Binary/BCD Counting (Bit 0)
0
16-BITS BINARY COUNTER
1
BINARY CODED DECIMAL (BCD) COUNTER
(4 DIGITAL)
N
ot
e
The count of the binary counter is from 0 up to
65,535 and the count of the BCD counter is
from 0 up to 9,999
Mode Definitions
In 8254, six operating modes can be selected. They are :
Ø
Ø
Ø
Ø
Ø
Ø
Mode 0: Interrupt on Terminal Count
Mode 1: Programmable One-Shot.
Mode 2: Rate Generator.
Mode 3: Square Wave Rate Generator.
Mode 4: Software Triggered Strobe.
Mode 5: Hardware Triggered Strobe.
All detailed description of these six modes are written in Intel
Microsystems Components Handbook Volume II Peripherals.
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5
C/C++ Library
This chapter describes the software library for operating this card. Only
the functions in DOS library and Windows 95 DLL are described. Please
refer to the PCIS-DASK function reference manual, which included in
ADLINK CD, for the descriptions of the Windows 98/NT/2000 DLL
functions.
The function prototypes and some useful constants are defined in the
header files LIB directory (DOS) and INCLUDE directory (Windows 95).
For Windows 95 DLL, the developing environment can be Visual Basic
4.0 or above, Visual C/C++ 4.0 or above, Borland C++ 5.0 or above,
Borland Delphi 2.x (32-bit) or above, or any Windows programming
language that allows calls to a DLL. It provides the C/C++, VB, and Delphi
include files.
5.1 Libraries Installation
Please refer to the “Software Installation Guide” for the detail
information about how to install the software libraries for DOS, or
Windows 95 DLL, or PCIS-DASK for Windows 98/NT/2000.
The device drivers and DLL functions of Windows 98/NT/2000 are
included in the PCIS-DASK. Please refer the PCIS-DASK user’ s guide
and function reference, which included in the ADLINK CD, for detailed
programming information.
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5.2 Programming Guide
5.2.1 Naming Convention
The functions of the NuDAQ PCI cards or NuIPC CompactPCI cards’
software driver are using full-names to represent the functions' real
meaning. The naming convention rules are:
In DOS Environment :
_{hardware_model}_{action_name}. e.g. _9112_Initial().
All functions in PCI-9112 driver are with 9112 as {hardware_model}.
But they can be used by PCI-9112, cPCI-9112.
In order to recognize the difference between DOS library and Windows 95
library, a capital "W" is put on the head of each function name of the
Windows 95 DLL driver. e.g. W_9112_Initial().
5.2.2 Data Types
We defined some data type in Pci_9112.h (DOS) and Acl_pci.h (Windows
95). These data types are used by NuDAQ Cards’ library. We suggest
you to use these data types in your application programs. The following
table shows the data type names and their range.
Type Name
U8
Description
Range
0 to 255
-32768 to 32767
0 to 65535
8-bit ASCII character
16-bit signed integer
16-bit unsigned integer
32-bit signed integer
32-bit single-precision
floating-point
I16
U16
I32
U32
-2147483648 to 2147483647
0 to 4294967295
F32
32-bit single-precision -3.402823E38 to 3.402823E38
floating-point
F64
64-bit double-precision -1.797683134862315E308 to
floating-point
1.797683134862315E309
Boolean
Boolean logic value
TRUE, FALSE
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5.3 _9112_Initial
@ Description
A PCI-9112 card is initialized according to the card number. Becaus e the
PCI-9112 is PCI bus architecture and meets the plug and play design, the
IRQ and base_address (pass-through address) are assigned by system
BIOS directly. Every PCI-9112 card has to be initialized by this function
before calling other functions.
Note : Because configuration of PCI-9112 is handled by the system,
there is no jumpers or DMA selection on the PCI boards that
need to be set up by the users.
u
Syntax
Visual C++ (Windows-95)
int W_9112_Initial (int card_number, int *base_address, int
*irq_no)
Visual Basic (Windows-95)
W_9112_Initial (ByVal card_number As Long, base_address As Long,
irq_no As Long) As Integer
C/C++ (DOS)
int _9112_Initial (int card_number, int *base_address, int
*irq_no)
u
Argument
card_number : the card number to be initialized, only four cards can be
initialized, the card number must be CARD_1, CARD_2,
CARD_3, or CARD_4.
base_address : the I/O port base address of the card, it is asigned by system
BIOS.
irq_no: system will give an available interrupt number to this card automatically.
u
u
Return Code
ERR_NoError,
ERR_InvalidBoardNumber
ERR_PCICardNotExist
ERR_PCIBiosNotExist,
ERR_PCIIrqNotExist
Example
#include "9112.h"
main()
{
int errCode;
int baseAddr1, irqNo1;
int baseAddr2, irqNo2;
errCode = _9112_Initial( CARD_1, &baseAddr1, &irqNo1);
if ( errCode != ERR_NoError )
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exit(0);
errCode = _9112_Initial( CARD_2, &baseAddr2, &irqNo2);
if ( errCode != ERR_NoError )
exit(0);
.
}
5.4 _9112_DI
@ Description
This function is used to read data from digital input port. There are 16-bit
digital inputs on the PCI-9112. You can get all 16 input data from
_9112_DI one shot.
u
Syntax
Visual C++ (Windows-95)
int W_9112_DI (int card_number, unsigned int *di_data)
Visual Basic (Windows-95)
int W_9112_DI (ByVal card_number As Long, di_data As Long) As
Long
C/C++ (DOS)
int _9112_DI (int card_number, unsigned int *di_data)
u
Argument
card_number : the card number of PCI-9112
di_data :
return all 16-bit value from digital port.
u
u
Return Code
ERR_NoError,
ERR_BoardNoInit
Example
See Appendix A . Demo Program 'DIO_DEMO.C'
5.5 _9112_DI _Channel
u
Description
This function is used to read data from digital input channels (bit). There
are 16 digital input channels on the PCI-9112. When performs this
function, the digital input port is read and the value of the corresponding
channel is returned.
* channel means each bit of digital input ports.
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u
Syntax
Visual C++ (Windows-95)
int W_9112_DI_Channel (int card_number, int di_ch_no, unsigned
int *di_data)
Visual Basic (Windows-95)
W_9112_DI_Channel (ByVal card_number As Long, ByVal di_ch_no As
Long, di_data As Long) As Integer
C/C++ ( DOS)
int _9112_DI_Channel (int card_number, int di_ch_no, unsigned
int *di_data )
u
Argument
card_number : the card number of PCI-9112
di_ch_no :
from 0 to 15.
di_data :
the DI channel number, the value has to be set
return value, either 0 or 1.
u
u
Return Code
ERR_NoError,
ERR_BoardNoInit,
ERR_InvalidDIChannel
Example
#include “9112.h”
main()
{
unsigned int data;
int ch;
int baseAddr, irqNo;
_9112_Initial( CARD_1, &baseAddr, &irqNo);
/* Assume NoError when Initialize PCI-9112 */
.
.
for( ch=0; ch<16; ch++ )
{
_9112_DI_Channel(CARD_1, ch , &data );
printf( "The value of DI channel %d is %d.\n",ch , data);
}
}
5.6 _9112_DO
u
Description
This function is used to write data to digital output port. There are 16
digital outputs on the PCI-9112,
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u
Syntax
Visual C++ (Windows-95)
int W_9112_DO (int card_number, unsigned int do_data)
Visual Basic (Windows-95)
W_9112_DO (ByVal card_number As Long, ByVal do_data As Long) As
Integer
C/C++ ( DOS)
int _9112_DO(int card_number, unsigned int do_data )
u
u
Argument
card_number : the card number of PCI-9112
do_data :
value will be written to digital output port
Return Code
ERR_NoError,
ERR_BoardNoInit
5.7 _9112_DA
u
Description
This function is used to write data to D/A converters. There are two
Digital-to-Analog conversion channels on the PCI-9112. The resolution of
each channel is 12-bit, i.e. the range is from 0 to 4095.
u
Syntax
Visual C++(Windows-95)
int W_9112_DA (int card_number, int da_ch_no, unsigned int data)
Visual Basic (Windows-95)
W_9112_DA (ByVal card_number As Long, ByVal da_ch_no As Long,
ByVal da_data As Long) As Long
C/C++ ( DOS)
int _9112_DA (int card_number, int da_ch_no, unsigned int data )
u
u
Argument
card_number : the card number of PCI-9112
da_ch_no :
D/A channel number, DA_CH_1 or DA_CH_2.
data : D/A converted value, if the value is greater than 4095,
the higher bits are negligent.
Return Code
ERR_NoError,
ERR_BoardNoInit
ERR_InvalidDAChannel
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u
Example
#include “9112.h”
main()
{
Int
baseAddr, irqNo;
_9112_Initial( CARD_1, &baseAddr, &irqNo);
/* Assume NoError when Initialize PCI-9112 */
/* if the hardware setting for DA output range is 0~5V */
_9112_DA(CARD_1, DA_CH_1 , 0x800 );
printf( "The output voltage of CH1 is 2.5V \n" );
_9112_DA(CARD_1, DA_CH_2 , 0xFFF );
printf( "The output voltage of CH2 is 5V \n" );
}
A more complete program is specified in Appendix A Demo.
Program 'DA_DEMO.C'
5.8 _9112_AD_Set_Channel
u
Description
This function is used to set AD channel by means of writing data to the
multiplexed scan channel register. There are 16 single-ended or 8
differential analog input channels in PCI-9112, so the channel number
should be set between 0 to 15 for signled-end analog input mode, and 0
to 7 for differnetial analog input mode. The initial state is channel 0 which
is a default setting by the PCI-9112 hardware configuration.
u
Syntax
Visual C++ (Windows-95)
int W_9112_ AD_Set_Channel (int card_number, int ad_ch_no)
Visual Basic (Windows-95)
W_9112_AD_Set_Channel (ByVal card_number As Long, ByVal
da_ch_no As Long) As Long
C/C++ ( DOS)
int _9112_AD_Set_Channel (int card_number, int ad_ch_no )
u
Argument
card_number : the card number of PCI-9112
ad_ch_no :
channel number to perform AD conversion
for single-ended mode : channel no. is from 0-15; for
differential mode : channel no. is from 0-7
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u
Return Code :
ERR_NoError,
ERR_BoardNoInit
ERR_InvalidADChannel
5.9 _9112_AD_Set_Range
u
Description
This function is used to set the A/D analog input range by means of
writing data to the A/D range control register. There are two factors will
change the analog input range - Gain and Input type.
The Gain can be choice from 0.5, 1, 2, 4, and 8 . The input type is either
Bipolar or Unipolar.
The initial value of gain is '1‘ and input type is bipolar, which are pre-set
by the PCI-9112 hardware. The relationship between analog input
voltage range, gain and input mode are specified by following tables:
** this table is suitable for PCI-9112 card.
Input type
AD_INPUT
GAIN
(Bipolar
Unipolar)
Bipolar
Bipolar
or
Input Range
AD_B_5_V
AD_B_2_5
_V
1
2
±5V
±2.5V
AD_B_1_2
5_V
AD_B_0_6
25_V
AD_U_10_
V
4
8
1
Bipolar
Bipolar
Unipolar
±1.25V
±0.625V
0V ~ 10V
AD_U_5_V
AD_U_2_5
_V
2
4
Unipolar
Unipolar
0V ~ 5V
0V ~ 2.5V
AD_U_1_2
5_V
AD_B_10_
V
8
Unipolar
Bipolar
0V ~ 1.25V
0.5
±10V
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u
Syntax
Visual C++ (Windows-95)
int W_9112_ AD_Set_Range (int card_number, int ad_range)
Visual Basic (Windows-95)
W_9112_AD_Set_Channel (ByVal card_number As Long, ByVal
ad_range As Long) As Long
C/C++ ( DOS)
int _9112_AD_Set_Range (int card_number, int ad_range )
u
u
Argument
card_number : the card number of PCI-9112
ad_range :
the programmable range of A/D conversion,
please refer the the above table for the possible range values.
Return Code
ERR_NoError
ERR_BoardNoInit
ERR_AD_InvalidRange
5.10 _9112_AD_Set_Mode
u
Description
This function is used to set the A/D trigger and data transfer mode by
means of writing data to the mode control register. The hardware initial
state of the PCI-9112 is set as AD_MODE_0 software (internal) trigger
with program polling data. For more detailed description of DMA bus
mastering mode is specified in section 4.13.
A/D Mode
Description
AD_MOD
E_0
Software Trigger, Software Polling
AD_MOD
E_1
Timer Trigger, Interrupt Transfer
AD_MOD
E_2
AD_MOD
E_3
Timer Trigger, DMA ( bus mastering)Transfer
External Trigger, Software Polling
AD_MOD
E_4
External Trigger, Interrupt Transfer
AD_MOD
E_5
External Trigger, DMA (bus mastering) Transfer
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u
Syntax
Visual C++ (Window s-95)
int W_9112_AD_Set_Mode (int card_number, int ad_mode)
Visual Basic (Windows-95)
W_9112_AD_Set_Mode (ByVal card_number As Long, ByVal ad_mode As
Long) As Long
C/C++ ( DOS)
int _9112_AD_Set_Mode (int card_number, int ad_mode )
u
u
u
Argument
card_number : the card number of PCI-9112
ad_mode :
AD trigger and data transfer mode
( please refer to above table.)
Return Code
ERR_NoError
ERR_BoardNoInit
ERR_InvalidMode
Example
#include “9112.h”
main()
{
Int baseAddr, irqNo;
_9112_Initial( CARD_1, &baseAddr, &irqNo);
/* Assume NoError when Initialize PCI-9112 */
_9112_AD_Set_Range(CARD_1, AD_B_5_V );
printf( "The A/D analog input range is +/- 5V \n" );
_9112_AD_Set_Mode(CARD_1, AD_MODE_4 );
printf( "Now, The Internal Timer Pacer trigger is set \n" );
/* All A/D conversion will be trigger by internal timer pacer,
and the converted data should be transfered in the interrupt
service routine. ( ISR). */
}
5.11 _9112_AD_Set_Autoscan
u
Description
This function is used to set automatic hardware channel scan to be
enable or disable. If the PCI-9112 is set as enable mode, then the A/D
channel can be converted automatically, that is, the hardware will
automatically decrement until channel 0. Then, it will go back to channel
which is set by _9112_AD_Set_Channle and wrap back to zero again.
For example, the channel is set as 4, the A/D conversion sequence will be
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4, 3, 2, 1, 0, 4, 3, 2, 1, 0, 4, 3, 2, 1, 0, 4, 3, ......
If the auto-scan is set as disable, the channel will be kept as single
channel only, such as channel 4.
u
Syntax
Visual C++ (Windows-95)
int W_9112_AD_Set_Autoscan (int card_number, int autoscan)
Visual Basic (Windows-95)
int W_9112_AD_Set_ Autoscan (ByVal card_number As Long, ByVal
autoscan As Long) As Long
C/C++ ( DOS)
int _9112_AD_Set_Autoscan (int card_number, int autoscan)
u
Argument
card_number : the card number of PCI-9112
autoscan :
TRUE or FALSE
u
u
Return Code
ERR_NoError, ERR_BoardNoInit
Example
See the demo program ‘AD_DEMO4.C'
5.12 _9112_AD_Soft_Trig
u
Description
This function is used to trigger the A/D conversion by software. When the
function is called, a trigger pulse will be generated and A/D conversion is
started, and the converted data will be stored in the base address Base +
0x10 after the conversion.
u
Syntax
Visual C++ (Windows-95)
int W_9112_ AD_AD_Soft_Trig (int card_number)
Visual Basic (Windows-95)
W_9112_ AD_Soft_Trig (ByVal card_number As Long) As Long
C/C++ ( DOS)
int _9112_AD_Soft_Trig (int card_number)
u
u
Argument :
card_number : the card number of PCI-9112
Return Code :
ERR_NoError, ERR_BoardNoInit
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5.13 _9112_AD_Aquire
u
Description
This function is used to poll the AD conversion data. It will trigger the AD
conversion, and read the 12-bit A/D data until the data is ready ('data
ready' bit becomes low).
u
Syntax
Visual C++ (Windows-95)
int W_9112_AD_Aquire (int card_number, int *ad_data)
Visual Basic (Windows-95)
W_9112_ AD_Aquire (ByVal card_number As Long, ad_data As
Long )As Integer
C/C++ ( DOS)
int _9112_AD_Aquire (int card_number, int *ad_data )
u
Argument
card_number : the card number of PCI-9112
ad_data :
12-bit A/D converted value, the value should be
within 0 to 4095.
Bit 0 ~ Bit 3 : is the converted channel number
Bit 4 ~ Bit 15 : is the converted A/D data.
u
u
Return Code :
ERR_NoError,
ERR_BoardNoInit
ERR_AD_AquireTimeOut
Example
#include “9112.h”
main()
{
int
int
ad_data;
errCode;
Int baseAddr, irqNo;
_9112_Initial( CARD_1, &baseAddr, &irqNo);
/* Assume NoError when Initialize PCI-9112 */
/* Set to software trigger at first*/
_9112_AD_Set_Mode(CARD_1, AD_MODE_0 );
/* then trigger the AD */
_9112_AD_Soft_Trig(CARD_1);
/* wait for AD data ready then read it */
errCode = _9112_AD_Aquire(CARD_1, &ad_data);
if( errCode == ERR_NoError )
printf( "The AD value is %d.\n", ad_data );
else
printf( "AD conversion error happen\n" );
Also See Demo Program 'AD_DEMO1.C'
}
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5.14 _9112_AD_DMA_Start
u
Description
The function will perform A/D conversion N times with DMA data transfer.
It takes place in the background which will not stop until the N-th
conversion
has
completed
or
your
program
execute
_9112_AD_DMA_Stop() function to stop the process.
After executing this function, it is necessary to check the status of the
operation by using the function _9112_AD_DMA_Status(). The function
is performed on single A/D channel when the A/D channel auto-scan is
set as FALSE. If the A/D channel auto-scan is TRUE, the conversion will
be multiple channels by sequence.
The PCI-9112 Bus mastering DMA is different from tradition PC style
DMA. Its description is as following:
Bus Mastering DMA mode of PCI-9112:
PCI bus mastering offers the highest possible speed available on the PCI-
9112. When the function _9112_AD_Set_Mode is set as AD_MODE_2
( Timer Trigger & DMA transfer ) or AD_MODE_5 ( External Trigger &
DMA transfer), it will enable PCI bus master operation. This is
conceptually similar to DMA (Direct Memory Access) transfers in a PC but
is really PCI bus mastering. It does not use an 8237-style DMA controller
in the host computer and therefore isn't blocked in 64K max. groups. PCI-
9112 bus mastering works as follows:
1. To set up bus mastering, first do all normal PCI-9112 initialization
necessary to control the board in status mode. This includes testing for
the presence of the PCI BIOS, determining the base addresses, slot
number, vendor and device ID's, I/O or memory, space allocation, etc.
Please make sure your PCI-9112 is plug in a bus master slot, otherwise
this function will not be workable.
2. Load the PCI controller with the count and 32-bit physical address of
the start of previously allocated destination memory which will accept A/D
data. This count is the number of bytes (not longwords!) transferred
during the bus master operation and can be a large number up to 64
million (2^26) bytes. Since the PCI-9112 transfers are always longwords,
this is 16 million longwords (2^24) or 32 million A/D samples but use the
bytecount.
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3. After the A/D conversion is started, the A/D converted data is stored in
the FIFO of PCI controller. Each bus mastering data transfer continually
tests if any data in the FIFO and then blocks transfer, the system will
continuously loop until the conditions are satisfied again but will not exit
the block transfer cycle if the block count is not complete. If there is
momentarily no A/D data, the PCI-9112 will relinquish the bus temporarily
but returns immediately when more A/D samples appear. This operation
continues until the whole block is done.
4. This operation proceeds transparently until the PCI controller transfer
byte count is complete. All normal PCI bus operation applies here such as
a receiver which cannot accept the transfers, higher priority devices
requesting the PCI bus, etc. Remember that only one PCI initiator can
have bus mastership at any one time. However, review the PCI priority
and "fairness" rules. Also study the effects of the Latency Timer. And be
aware that the PCI priority strategy (round robin rotated, fixed priority,
custom, etc.) is unique to your host PC and is explicitly not defined by the
PCI standard. You must determine this priority scheme for your own PC
(or replace it).
5. The interrupt request from the PCI controller can be optionally set up to
indicate that this longword count is complete although this can also be
determined by polling the PCI controller.
u
Syntax
Visual C++ (Windows-95)
int W_9112_AD_DMA_Start (int card_number, int auto_scan, int
ad_ch_no, int ad_range, int count, HANDLE memID, int c1, int c2)
Visual Basic (Windows-95)
W_9112_AD_DMA_Start (ByVal card_number As Long, ByVal auto_scan
As Long, ByVal ad_ch_no As Long, ByVal ad_range As Long, ByVal
count As Long, ByVal memID As Long, ByVal c1 As Long, ByVal c2
As Long) As Long
C/C++ ( DOS)
int _9112_AD_DMA_Start (int card_number, int auto_scan, int
ad_ch_no, int ad_range, int count , unsigned long *ad_buffer,
int c1,int c2)
u
Argument
card_number:
the card number of PCI-9112
auto_scan: TRUE or FALSE
Example1:
auto_scan is FALSE, ad_ch_no is 3. Using DMA mode to
read A/D data only channel 3.
Example2: auto_scan is TRUE, ad_ch_no is 3. Using DMA mode to read
A/D data with multi-channel , channel 3, 2, 1 and 0. Reading sequence is
channel 3,2,1,0, 3,2,1,0,3,2,1,0....
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ad_ch_no : A/D channel number
ad_range : A/D analog input range, the possible values are shown in
section 4.3.8.
count :
the number of A/D conversion
ad_buffer(DOS) :the start address of the memory buffer to store the AD
data, the buffer size must large than the number of AD conversion.
In DOS environment, please make sure this memory is double-word
alignment. Every 16-bit unsigned integer data in ad_buffer:
D11 D10 D9 .......................D1 D0 C3 C2 C1 C0
D11, D10, ..., D1, D0 : A/D converted data
C3, C2, C1, C0
: converted channel no.
memID(Windows-95) : the memory ID of the allocated system DMA
memory. In Windows 95 environment, before calling
W_9112_AD_DMA_Start, W_9112_Alloc_DMA_Mem must be called to
allocate a contiguous DMA memory. W_9112_Alloc_DMA_Mem will
return a memory ID for identify the allocated DMA memory, as well as the
linear address of the DMA memory for user to access the data. The
format of the A/D data is the same as DOS buffer (ad_buffer argument).
c1 : the 16-bit timer frequency divider of timer channel #1
c2 : the 16-bit timer frequency divider of timer channel #2
u
Return Code
ERR_NoError, ERR_BoardNoInit, ERR_InvalidADChannel,
ERR_AD_InvalidRange, ERR_InvalidTimerValue
u
Example
See Demo Program 'AD_DEMO3.C' , 'AD_DEMO6.C'
5.15 _9112_AD_DMA_Status
u
Description
Since the _9112_AD_DMA_Start function executs in background, you can
issue the function _9112_AD_DMA_Status to check its operation status.
u
Syntax
Visual C++ (Windows-95)
int W_9112_AD_DMA_Status (int card_number, int *status, int *
count)
Visual Basic (Windows-95)
W_9112_AD_Status (ByVal card_number As Long, status As Long,
count As Long) As Long
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C/C++ ( DOS)
int _9112_AD_DMA_Status(int card_number, int *status , int
*count )
u
Argument
card_number :
the card number of PCI-9112
status : status of the DMA data transfer
0: AD_DMA_STOP : DMA is completed
1: AD_DMA_RUN : DMA is not completed
count :
the number of A/D data which has been transferred.
u
Return Code
ERR_NoError,
ERR_BoardNoInit
u
Example
See Demo Program 'AD_DEMO3.C' , 'AD_DEMO6.C'
5.16 _9112_AD_DMA_Stop
u
Description
This function is used to stop the DMA data transferring. After executing
this function, the internal A/D trigger is disable and the A/D timer ( timer
#1 and #2) is stopped. The function returns the number of the data which
has been transferred, no matter if the A/D DMA data transfer is stopped
by this function or by the DMA terminal count ISR.
u
Syntax
Visual C++ (Windows-95)
int W_9112_AD_DMA_Stop (int card_number, int * count)
Visual Basic (Windows-95)
W_9112_AD_DMA_Stop (ByVal card_number As Long, count As Long)
As Long
C/C++ ( DOS)
int _9112_AD_DMA_Stop (int card_number, int *count )
u
Argument
card_number :
the card number of PCI-9112
the number of A/D converted data which has been
count :
transferred.
u
u
Return Code
ERR_NoError
ERR_BoardNoInit
Example
See Demo Program 'AD_DEMO3.C', ‘AD_DEMO6.C’
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5.17 _9112_ContDmaStart
u
Description
The function will perform A/D conversion continuous with DMA data
transfer. It will takes place in the background which will not be stop until
your program execute _9112_ContDmaStop() function to stop the
process.
After executing this function, it is necessary to check the status of double
buffer
by using the function _9112_CheckHalfReady() and using
_9112_DblBufferTransfer() to get the A/D converted data.
There is a group function for continuous A/D conversion using DMA as
following:
_9112_ContDmaStart();
_9112_CheckHalfReady();
_9112_DblBufferTransfer();
_9112_GetOverrunStatus();
_9112_ContDmaStop();
u
Syntax
Visual C++ (Windows-95)
int W_9112_ContDmaStart (int card_number, int auto_scan, int
ad_ch_no, int ad_range, int count, HANDLE memID, int c1, int c2)
Visual Basic (Windows-95)
W_9112_ContDmaStart (ByVal card_number As Long, ByVal auto_scan
As Long, ByVal ad_ch_no As Long, ByVal ad_range As Long, ByVal
count As Long, ByVal memID As Long,
ByVal c2 As Long) As Long
ByVal c1 As Long
C/C++ ( DOS)
int _9112_ContDmaStart (int card_number, int auto_scan, int
ad_ch_no, int ad_range, int count , int *db_buffer, int c1,
int c2)
u
Argument
card_number :
auto_scan :
the card number of PCI-9112
TRUE or FALSE
Example1 : auto_scan is FALSE, ad_ch_no is 3. Using DMA mode to
read A/D data only channel 3.
Example2 : auto_scan is TRUE, ad_ch_no is 3. Using DMA mode to
read A/D data with multi-channel, channel 3, 2, 1 and 0.
Reading sequence is channel 3,2,1,0, 3,2,1,0,3,2,1,0....
ad_ch_no :
ad_range :
A/D channel number
A/D analog input range, please refer to the
section 4.3.8 for the possible values.
count :the number of A/D conversion
db_buffer(DOS):
the start address of the circular buffer to store the
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AD data, the buffer size must large than the number of AD conversion.
In DOS environment, please make sure this memory is double-word
alignment. Every 16-bit unsigned integer data in ad_buffer:
D11 D10 D9 .......................D1 D0 C3 C2 C1 C0
D11, D10, ..., D1, D0 : A/D converted data
C3, C2, C1, C0
: converted channel no.
memID(Windows-95) : the memory ID of the allocated system DMA
memory to act as the circular buffer. In Windows 95 environment, before
calling W_9112_ContDmaStart, W_9112_Alloc_DMA_Mem must be
called to allocate a contiguous DMA memory. W_9112_Alloc_DMA_Mem
will return a memory ID for identify the allocated DMA memory, as well as
the linear address of the DMA memory for user to access the data. The
format of the A/D data is the same as DOS buffer (ad_buffer argument).
c1 :
c2 :
the 16-bit timer frequency divider of timer channel #1
the 16-bit timer frequency divider of timer channel #2
u
u
Return Code
ERR_NoError,
ERR_BoardNoInit,
ERR_InvalidADChannel, ERR_AD_InvalidRange,
ERR_InvalidTimerValue
Example
See Demo Program 'AD_DEMO5.C'
5.18 _9112_CheckHalfReady
u
Description
When you use _9112_ContDmaStart() to convert A/D data then you must
use _9112_CheckHalfReady() to check data ready or not in the circular
buffer, size of data is half of the circular buffer (count/2) and using
_9112_DblBufferTransfer() to get data.
u
Syntax
Visual C++ (Windows-95)
int W_9112_CheckHalfReady (int card_number, int * halfReady)
Visual Basic (Windows-95)
int W_9112_CheckHalfReady (ByVal card_number As Long, halfReady
As Long) As Long
C/C++ ( DOS)
int _9112_CheckHalfReady(int card_number, int *halfReady )
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u
Argument
card_number :
halfReady : TRUE or FALSE.
the card number of PCI-9112
u
Return Code
ERR_NoError,
ERR_BoardNoInit
u
Example
See Demo Program 'AD_DEMO5.C'
5.19 _9112_DblBufferTransfer
u
Description
Using this function to move the converted A/D data to user buffer.
u
Syntax
Visual C++ (Windows-95)
int W_9112_DblBufferTransfer (int card_number, unsigned long
far * userBuffer)
Visual Basic (Windows-95)
W_9112_ DblBufferTransfer (ByVal card_number As Long,
userBuffer As Long) As Long
C/C++ ( DOS)
int _9112_DblBufferTransfer(int card_number, unsigned long
*userBuffer )
u
Argument :
card_number :
the card number of PCI-9112
userBuffer : user buffer for A/D converted data, size of user buffer is
half of doubleBuf (count /2).
u
Return Code :
ERR_NoError, ERR_BoardNoInit
u
Example :
See Demo Program 'AD_DEMO5.C'
5.20 _9112_GetOverrunStatus
u
Description
When you use _9112_ContDmaStart() to convert A/D data and if you do
not use _9112_DblBufferTransfer to move converted data then the double
buffer overrun will occur, using this function to check overrun count.
u
Syntax
Visual C++ (Windows-95)
int W_9112_GetOverrunStatus (int card_number, int *
overrunCount)
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Visual Basic (Windows-95)
W_9112_GetOverrunStatus(ByVal card_number As Long, overrunCount
As Long) As Long
C/C++ ( DOS)
int _9112_GetOverrunStatus (int card_number, int *overrunCount )
u
Argument
card_number :
overrunCount:
the card number of PCI-9112
number of overrun counts.
u
Return Code
ERR_NoError,
ERR_BoardNoInit
u
Example
See Demo Program 'AD_DEMO5.C'
5.21 _9112_ContDmaStop
u
Description
This function is used to stop the continuous DMA data transferring.
u
Syntax
Visual C++ (Windows-95)
int W_9112_ContDmaStop (int card_number)
Visual Basic (Windows-95)
W_9112_ContDmaStop (ByVal card_number As Long) As Long
C/C++ ( DOS)
int _9112_ContDmaStop (int card_number)
u
Argument :
card_number :
the card number of PCI-9112
u
Return Code :
ERR_NoError,
ERR_BoardNoInit
u
Example :
See Demo Program 'AD_DEMO5.C'
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5.22 _9112_AD_INT_Start
u
Description
The function will perform A/D conversion N times with interrupt data
transfer. It takes place in the background which will not stop until the N-th
conversion has been completed or your program execute
_9112_AD_INT_Stop() function to stop the process. After executing this
function, it is necessary to check the status of the operation by using the
function 9112_AD_INT_Status(). The function is performed on single A/D
channel with fixed analog input range.
u
Syntax
Visual C++(Windows-95)
int W_9112_AD_INT_Start(int card_number, int auto_scan, int
ad_ch_no, int ad_range, int count, unsigned long *ad_buffer,
int c1, int c2)
Visual Basic (Windows-95)
W_9112_ AD_INT_Start (ByVal card_number As Long, ByVal
auto_scan As Long, ByVal ad_ch_no As Long, ByVal ad_range As
Long, ByVal count As Long, ad_buffer As Integer,ByVal c1 As
Long, ByVal c2 As Long) As Long
C/C++ (DOS)
int _9112_INT_Start (int card_number, int auto_scan, int
ad_ch_no, int ad_range,int count, unsigned long *ad_buffer,
int c1, int c2)
u
Argument
card_number :
the card number of PCI-9112
auto_scan : TRUE or FALSE
Example1 : auto_scan is FALSE, ad_ch_no is 3. Using DMA mode to
read A/D data only channel 3.
Example2 : auto_scan is TRUE, ad_ch_no is 3. Using INT mode to read
A/D data with multi-channel , channel 3, 2, 1 and 0. Reading sequence is
channel 3,2,1,0, 3,2,1,0,3,2,1,0....
ad_ch_no : A/D channel number
ad_range : A/D analog input range, please refer to the section 4.3.8 for
the possible values.
count :
the number of A/D conversion
ad_buffer : the start address of the memory buffer to store the AD data,
the buffer size must large than the number of AD conversion.
In DOS environment, please make sure this memory is double-word
alignment. Every 16-bit unsigned integer data in ad_buffer:
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D11 D10 D9 .......................D1 D0 C3 C2 C1 C0
D11, D10, ..., D1, D0 : A/D converted data
C3, C2, C1, C0
: converted channel no.
c1 : the 16-bit timer frequency divider of timer channel #1
c2 : the 16-bit timer frequency divider of timer channel #2
u
Return Code
ERR_NoError,
ERR_BoardNoInit
ERR_InvalidADChannel , ERR_AD_InvalidRange
ERR_InvalidTimerValue
u
Example
See Demo Program 'AD_DEMO2.C' , ‘AD_DEMO5.C’
5.23 _9112_AD_INT_Status
u
Description
Since the _9112_AD_INT_Start() function executs in background, you
can issue the function _9112_AD_INT_Status to check the status of
interrupt operation.
u
Syntax
Visual C++ (Windows-95)
int W_9112_AD_ INT_Status (int card_number, int *status, int *
count)
Visual Basic (Windows-95)
W_9112_INT_Status (ByVal card_number As Long, status As Long,
count As Long) As Long
C/C++ ( DOS)
int _9112_AD_INT_Status(int card_number, int *status , int
*count )
u
Argument
card_number :
the card number of PCI-9112
status :
status of the INT data transfer
0 : AD_INT_STOP : DMA is completed
1 : AD_INT_RUN : DMA is not completed
current conversion count number.
count :
u
Return Code
ERR_NoError,
ERR_BoardNoInit
u
Example
See Demo Program 'AD_DEMO2.C' ,
‘AD_DEMO5.C’
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5.24 _9112_AD_INT_Stop
@ Description
This function is used to stop the interrupt data transfer function. After
executing this function, the internal AD trigger is disable and the AD timer
is stopped. The function returns the number of the data which has been
transferred, no matter whether if the AD interrupt data transfer is stopped
by this function or by the _9112_AD_INT_Stop() itself.
@ Syntax
Visual C++ (Windows-95)
int W_9112_AD_INT_Stop(int card_number, int * count)
Visual Basic (Windows-95)
W_9112_INT_Stop(ByVal card_number As Long, count As Long) As
Long
C/C++ ( DOS)
int _9112_AD_INT_Stop(int card_number, int *count )
@ Argument :
card_number :
the card number of PCI-9112
count : the number of A/D data which has been transferred.
@ Return Code :
ERR_NoError
ERR_BoardNoInit
@ Example :
See Demo Program 'AD_DEMO2.C' , ‘AD_DEMO5.C’
5.25 _9112_AD_Timer
u
Description
This function is used to setup the Timer #1 and Timer #2.
Timer #1 & #2 are used as frequency divider for generating constant A/D
sampling rate dedicatedly. It is possible to stop the pacer trigger by
setting any one of the dividers as 0. Because the AD conversion rate is
limited due to the conversion time of the AD converter, the highest
sampling rate of the PCI-9112 can not exceed 100 KHz. The
multiplication of the dividers must be larger than 20.
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u
Syntax
Visual C++ (Windows-95)
int W_9112_AD_Timer (int card_number, unsigned int c1, unsigned
int c2)
Visual Basic (Windows-95)
W_9112_Timer (ByVal card_number As Long, c1 As Long, c2 As Long)
As Long
C/C++ ( DOS)
int _9112_AD_Timer(int card_number, unsigned int c1 , unsigned
int c2 )
u
Argument
card_number :
c1 :
c2 :
the card number of PCI-9112
frequency divider of timer #1
frequency divider of timer #2
Note : the A/D sampling rate is equal to :
2MHz / (c1 * c2),
when c1 = 0 or c2 = 0, the pacer trigger will be stopped.
u
u
Return Code
ERR_NoError
ERR_BoardNoInit
ERR_InvalidTimerValue
Example
main()
{
int
Int
errCode;
baseAddr, irqNo;
_9112_Initial( CARD_1, &baseAddr, &irqNo);
/* Assume NoError when Initialize PCI-9112 */
_9112_AD_Timer(CARD_1,10 , 10 );
/* set AD sampling rate to 2MHz/(10*10) */
..
}
_9112_AD_Timer(CARD_1, 0 , 0 );
/* stop the pacer trigger */
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5.26 _9112_TIMER_Start
u
Description
The Timer #0 on the PCI-9112 can be freely programmed by the users.
This function is used to program the Timer #0. This timer can be used as
frequency generator if internal clock is used. It also can be used as event
counter if external clock is used. All the 8253 mode is available. Please
refer to section5.4"Timer/Counter operation.
u
Syntax
Visual C++ (Windows-95)
int W_9112_TIMER_Start (int card_number, int timer_mode,
unsigned int c0)
Visual Basic (Windows-95)
W_9112_TIMER_Start(ByVal card_number As Long, timer_mode As
Long, c0 As Long) As Long
C/C++ ( DOS)
int _9112_TIMER_Start(int card_number, int timer_mode, unsigned
int c0 )
u
Argument
card_number :
timer_mode :
the card number of PCI-9112
the 8253 timer mode, the possible values are :
TIMER_MODE0, TIMER_MODE1,
TIMER_MODE2, TIMER_MODE3,
TIMER_MODE4, TIMER_MODE5.
the counter value of timer
c0 :
u
Return Code
ERR_NoError,
ERR_BoardNoInit
ERR_InvalidTimerMode, ERR_InvalidTimerValue
5.27 _9112_TIMER_Read
u
Description
This function is to read the counter value of the Timer #0.
u
Syntax
Visual C++ (Windows-95)
int W_9112_TIMER_Read (int card_number, unsigned int far *
counter_value)
Visual Basic (Windows-95)
W_9112_TIMER_Read (ByVal card_number As Long, counter_value As
Long) As Long
C/C++ (DOS)
int _9112_TIMER_Read (int card_number, unsigned int
*counter_value )
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u
Argument :
card_number :
the card number of PCI-9112
counter_value : the counter value of the Timer #0
@ Return Code :
ERR_NoError,
ERR_BoardNoInit
5.28 _9112_TIMER_Stop
u
Description
This function is used to stop the timer operation. The timer is set to the
'One-shot' mode with counter value ' 0 '. That is, the clock output signal
will be set to high after executing this function.
u
Syntax
Visual C++(Windows-95)
int W_9112_TIMER_Stop (int card_number, unsigned int *
counter_value)
Visual Basic (Windows-95)
W_9112_TIMER_Stop (ByVal card_number As Long, counter_value As
Long) As Long
C/C++ (DOS)
int _9112_TIMER_Stop (int card_number, unsigned int
*counter_value )
u
Argument :
card_number :
the card number of PCI-9112
counter_value : the current counter value of the Timer #0
u
Return Code :
ERR_NoError
ERR_BoardNoInit
5.29 _9112_Alloc_DMA_Mem
u
Description
Contact Windows 95 system to allocate a block of contiguous memory for
DMA transfer. This function is only available in Windows 95 version.
u
Syntax
Visual C++(Windows-95)
int W_9112_Alloc_DMA_Mem (unsigned long buf_size, HANDLE *memID,
unsigned long *linearAddr)
Visual Basic (Windows-95)
W_9112_Alloc_DMA_Mem (ByVal buf_size As Long, memID As Long,
linearAddr As Long) As Long
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u
Argument :
buf_size: Bytes to allocate. Please be careful, the unit of this
argument is BYTE, not SAMPLE.
memID:
If the memory allocation is successful, driver returns the ID
of that memory in this argument. Use this memory ID in
W_9112_AD_DMA_Startor W_9112_ContDmaStartfunction call.
linearAddr: The linear address of the allocated DMA memory. You can
use this linear address as a pointer in C/C++ to access the DMA data.
u
Return Code :
ERR_NoError
ERR_AllocDMAMemFailed
5.30 _9112_Free_DMA_Mem
u
Description
Deallocate a system DMA memory under Windows 95 environment. This
function is only available in Windows 95 version.
u
Syntax
Visual C++(Windows-95)
int W_9112_Free_DMA_Mem (HANDLE memID)
Visual Basic (Windows-95)
W_9112_Free_DMA_Mem (ByVal memID As Long) As Long
u
memID:
Argument :
The memory ID of the system DMA memory to deallocate.
u
Return Code :
ERR_NoError
5.32 _9112_Get_Sample
u
Description
For the language without pointer support such as Visual Basic,
programmer can use this function to access the index-th data in DMA
buffer. This function is only available in Windows 95 version.
u
Syntax
Visual C++(Windows-95)
int W_9112_Get_Sample (unsigned long linearAddr, unsigned index,
unsigned short *ai_data)
Visual Basic (Windows-95)
W_9112_Get_Sample (ByVal linearAddr As Long, ByVal idx As Long,
ai_data As Integer) As Long
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u
Argument :
linearAddr: The linear address of the allocated DMA memory.
index:
index 0.
ai_data:
The index of the sample to retrieve. The first sample is with
Returns the sample retrieved.
u
Return Code :
ERR_NoError
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6
Calibration
In data acquisition process, how to calibrate your measurement devices
to maintain its accuracy is very important. Users can calibrate the analog
input and analog output channels under the users' operating environment
for optimizing the accuracy. This chapter will guide you to calibrate your
PCI-9112 to an accuracy condition.
6.1 What do you need
Before calibrating your PCI-9112 card, you should prepare some
equipment’ s for the calibration:
Ø
Calibration program : Once the program is executed, it will guide
you to do the calibration. This program is included in the delivered
package.
Ø
Ø
A 5 1/2 digit multimeter (6 1/2 is recommended)
A voltage calibrator or a very stable and noise free DC voltage
generator.
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6.2 VR Assignment
There are five variable resistors (VR) on the PCI-9112 board to allow you
making accurate adjustment on A/D and D/A channels. The function of
each VR is specified as Table 6.1.
VR1
VR2
VR3
VR4
VR5
VR6
VR7
A/D bipolar offset adjustment
A/D full scale adjustment
D/A channel 1 full scale adjustment
D/A channel 2 full scale adjustment
A/D unipolar offset adjustment
D/A reference voltage adjustment
A/D programmable amplifier offset adjustment
Table 6.1 Function of VRs
6.3 A/D Adjustment
6.3.1 Bipolar Calibration
1. Set the analog input range as : +/- 5V, i.e. the gain = 1 and input
mode = Bipolar.
2. Short the A/D channel 0 (pin 1 of CN3) to ground (GND), and connect
the TP1 (+) and TP2 (-) with your DVM. Trim the variable resister VR7 to
obtain a value as close as possible to 0V.
3. Apply a +5V input signal to A/D channel 0, and trim the VR2 to obtain
reading between 4094~4095.
4. Apply a +0V input signal to A/D channel 0, and trim the VR1 to obtain
reading flickers between 2048~2049.
5. Repeat step 3 and step 4, adjust VR2 and VR1.
6.3.2 Unipolar Calibration
1. Set the analog input range as : 0 ~ 10 V, i.e. the gain = 1 and input
mode = Unipolar.
2. Short the A/D channel 0 (pin 1 of CN3) to ground (GND) and connect
TP1 (+) and TP2 (-) with your DVM. Trim the VR5 to -5V reading in the
DVM.
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6.4 D/A Adjustment
There are two steps to calibrate the analog output channels, D/A 1 and
D/A 2. The first step is to adjust the reference voltage, and the second
step is to adjust each channel of D/A.
6.4.1 Reference Voltage Calibration
1. Set reference voltage as -5V (the D/A reference voltage is selected
by JP3, see section 2.8).
2. Connect VDM (+) to CN3 pin-11 (V.REF) and VDM (-) to GND.
Trim the variable resister VR6 to obtain -5V reading in the DVM.
Note: If the reference voltage set as -10V, the connection is the same as
-5V, but the reading from DVM should be -10V.
6.4.2 D/A Channel Calibration
D/A CH1 calibration
1. Connect VDM (+) to CN3 pin-30 (AO1) and VDM (-) to A.GND.
2. Write the Digital value 0x0FFF into registers (BASE+ 10)
3. Trim the variable resister VR3 to obtain +5V reading in the DVM.
D/A CH2 calibration
1. Connect VDM (+) to CN3 pin-32 (AO2) and VDM (-) to A.GND.
2. Write the Digital value 0x0FFF into registers (Base + 14)
3. Trim the variable resister VR4 to obtain +5V reading in the DVM.
A calibration utility is supported in the software CD which is included in
the product package. The detailed calibration procedures and description
can be found in the utility. Users only need to run the software calibration
utility and follow the procedures. You will get the accurate measure data.
In normal condition, the PCI-9112 already calibrated by factor before it is
shipped out. So, users do not need to calibrate your PCI-9112 when you
get it.
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7
Software Utilities
The PCI-9112 is a PCI-based high performance multi-function data
acquisition card, which provides 16 single-ended analog or 8 differential
analog inputs and auto scan channel by hardware, two double-buffered
multiplexing analog outputs. In addition to analog I/O, 16 digital inputs and
outputs and three 16-bit timer/counter channels are also included in the
board.
The utility program in the software package includes System
Configuration, Calibration, and Functional testing. All the utilities are using
menu-driven operating mode based on windowing environment, so it is
very easy to operate and no more learning effort.
In addition to the Utility and C/C++, DLL Libraries, some demonstration
programs are also included; users can refer them and save a lot of
programming time and get some other benefits as well. Please refer the
Appendix A for details of the demo programs.
7.1 Software Utility
There are three functions provided by PCI-9112's utility software, they are
System Configuration, Calibration, and Functional Testing. This utility
software is designed by menu-driven based on windowing environment.
Not only the text messages are shown for operating guidance, but also
has the graphic to indicate you how to set right hardware configuration.
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7.1.1 Running the Utility
After finishing the installation, you can execute the utility by typing as
follows :
C> cd \ADLINK\9112\DOS\UTIL
C> 9112UTIL
The 9112UTIL.EXE includes six functions:
1. Configuration
2. Calibration :
: Check the hardware setting of your PCI-9112.
Calibrate the A/D and D/A measurement
accuracy of your PCI-9112.
3. Software Trigger Testing:
Testing utility for software polling A/D, D/A and Digital I/O.
4. Interrupt Testing : Testing utility for interrupt A/D data transfer
mode.
5. DMA Testing
A/D data transfer mode.
6. Quit
:
Testing utility for DMA (bus-mastering)
: Exit the utility.
7.1.2 System Configuration
This function is used to guide you how to install the PCI-9112 card, and
set the right hardware configuration.
The top window shows the setting items that you have to set before using
the PCI-9112 card. The bottom window gives you a layout of PCI-9112;
the jumpers and DIP switch are shown on it. Whenever you change the
attribute of each setting, its corresponding jumper will be update
immediately. You could follow this indication to change the jumper setting
on your PCI-9112 board.
The following diagram will be displayed on the screen as you choose the
Configuration Setup function from main menu.
7.1.3 Calibration
This function is used to guide you how to calibrate the PCI-9112. The
calibration program serves as a useful test of the PCI-9112's A/D and D/A
functions and can aid in troubleshooting if problems arise.
Note : For an environment with frequently large changes of temperature
and vibration, a 3 months re-calibration interval is recommended.
For laboratory conditions, 6 months to 1 year is acceptable
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When you choose the calibration function from the main menu list, a
diagram shown below is displayed on the screen, the upper window
shows the calibration items, such as DAC channel 1 or channel 2 full
range adjust, Gain Amplifier offset adjust. etc.
The bottom window shows the detailed procedures should be followed
when you proceed the calibration. The instructions will guide you to
calibrate each item step by step.
7.1.4 Functional Testing
This function is used to test multi-function of PCI-9112, it includes Digital
I/O testing, D/A testing, A/D testing, Timer Testing, and DMA testing.
When you choose the test function from the main menu list, a diagram
shown below is displayed on the screen, the upper window shows the
testing items, and the bottom window shows the testing results.
7.2 PCI SCAN Utility
A PCI bus devices scanning utility (PCI_SCAN.EXE) for DOS is included
the CD. This utility is to help user to trouble shooting the board. Please
refer to the “ software installation guide” for detailed information about how
to use this software.
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Appendix A. Demo.
Programs
DOS Software:
In this software CD, there are 8 DOS demonstration programs are
provided. They could help you to program your application by using C
Language Library easily. The description of these programs are specified
as follows:
AD_DEMO1.C :
AD_DEMO2.C
A/D conversion uses software trigger
and program data transfer.
A/D conversion uses interrupt and
program data transfer.
AD_DEMO3.C :
AD_DEMO4.C :
A/D conversion uses DMA data transfer.
A/D conversion uses software trigger
and program data transfer.
( autoscan enable, muli-channel )
A/D conversion uses interrupt and
program data transfer.
AD_DEMO5.C
autoscan enable, muli-channel )
A/D conversion uses DMA data transfer.
autoscan enable, muli-channel )
Continue A/D converted by DMA
transfer
AD_DEMO6.C :
AD_DEMO5.C :
DA_DEMO.C :
DIO_DEMO.C :
D/A conversion
Read/Write data from digital input/output
channels
Windows 95 DLL:
There are several demonstration programs for Windows 95 DLL. They
could help you to program your application by using C/C++ or Visual
Basic Language to link with DLL library. You can learn how to program
and link with DLL library of PCO-9112.
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The description of these programs are specified as follows:
Samples \sdk\9112\
9112util.exe
A/D conversion uses software trigger
and program data transfer. Visual
C/C++ program.
Samples \sdk\9112int\
9112int.exe
A/D conversion uses interrupt data
transfer. Visual C/C++ program.
Samples \sdk\9112dma\
9112dma.exe
A/D conversion uses DMA data
transfer. Visual C/C++ program.
Samples \sdk\9112cdma\
9112cdma.exe
A/D conversion uses DMA data
transfer
with
double-buffering
mechanism. Visual C/C++ program.
Samples \vb\9112\vb9112.e
xe
A/D conversion uses software trigger
and program data transfer, D/A
conversion, and digital I/O. Visual
Basic program.
Samples\vb\9112int\
vb9112i.exe
A/D conversion uses interrupt data
transfer. Visual Basic program.
Samples\vb\9112dma\
vb9112d.exe
A/D conversion uses DMA data
transfer. Visual Basic program.
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Product Warranty/Service
Seller warrants that equipment furnished will be free form defects in
material and workmanship for a period of one year from the confirmed
date of purchase of the original buyer and that upon written notice of any
such defect, Seller will, at its option, repair or replace the defective item
under the terms of this warranty, subject to the provisions and specific
exclusions listed herein.
This warranty shall not apply to equipment that has been previously
repaired or altered outside our plant in any way as to, in the judgment of
the manufacturer, affect its reliability. Nor will it apply if the equipment has
been used in a manner exceeding its specifications or if the serial number
has been removed.
Seller does not assume any liability for consequential damages as a
result from our products uses, and in any event our liability shall not
exceed the original selling price of the equipment.
The equipment warranty shall constitute the sole and exclusive remedy of
any Buyer of Seller equipment and the sole and exclusive liability of the
Seller, its successors or assigns, in connection with equipment purchased
and in lieu of all other warranties expressed implied or statutory, including,
but not limited to, any implied warranty of merchant ability or fitness and
all other obligations or liabilities of seller, its successors or assigns.
The equipment must be returned postage-prepaid. Package it securely
and insure it. You will be charged for parts and labor if you lack proof of
date of purchase, or if the warranty period is expired.
Product Warranty/Service
·
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