Omega Engineering DVD VCR Combo CIO DAC08 User Manual

CIO-DAC16  
and  
CIO-DAC08  
User’s Manual  
Revision 4  
October, 2000  
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Table of Contents  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1  
1 INTRODUCTION  
2 SOFTWARE INSTALLATION  
3 HARDWARE INSTALLATION  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
3.1 Initial Board Setup  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
3.2 Selecting the Base Address  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
3.3 Wait State Jumper  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4  
3.4 Individual / Simultaneous Update Jumpers  
. . . . . . . . . . . . . . . . . . . . 4  
3.5 Analog Output Range Switches  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5  
3.6 Installing the CIO-DAC## in the Computer  
. . . . . . . . . . . . . . . . . . . 6  
3.7 Cabling to the CIO-DAC##  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6  
3.8 Testing the Installation  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6  
3.9 Signal Connection  
3.10 Connector Diagram  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8  
4 ARCHITECTURE  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9  
4.1 Control & Data Registers  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9  
5 SPECIFICATIONS  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12  
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1 INTRODUCTION  
The CIO-DAC16 is a 16 channel analog output board. The CIO-DAC08 is an eight  
channel analog output board. The analog outputs are dual-DAC AD7273s with each  
output buffered by an OP07. The CIO-DAC family is compatible with MetraByte's  
DDA-06 but lacks digital outputs. Software designed for the DDA-06 will operate  
the analog outputs.  
The analog outputs are controlled by writing a digital control word as two bytes to  
the DAC's control register. The control register is double buffered so the DAC's  
output is not updated until the second byte (the high byte) has been written.  
The analog outputs can also be set for simultaneous update in groups of two, four,  
six, etc. or all sixteen. When a DAC pair is set for simultaneous update, writing new  
digital values to the DAC's control register does not cause an update of the DAC's  
voltage output. Update of the output occurs only after a READ from the board's  
addresses.  
2 SOFTWARE INSTALLATION  
An installation program labeled InstaCal™ is on the disk shipped with the board.  
This program will guide you through board configuration and switch settings. Refer  
to the Extended Software Installation Manual for complete instructions regarding  
installing and using InstaCal. If you decide not to use InstaCal as a guide, the  
information required for configuring the board is provided in the following section.  
1
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3 HARDWARE INSTALLATION  
3.1 Initial Board Setup  
The CIO-DAC## has one bank of gain switches for each analog output channel, one  
base address switch, a simultaneous update jumper for each DAC pair, a “power-up  
state” selection jumper and one wait state jumper block which must be set before  
installing the board in your computer. The InstaCal calibration and test program  
included with the CIO-DAC## will show how these switches are to be set. Run the  
program before you open your computer.  
The CIO-DAC## is setup at the factory as follows:  
BASE ADDRESS  
300h (768 decimal)  
WAIT STATE  
Off Position, Right  
SIMULTANEOUS UPDATE  
ANALOG OUTPUT  
POWER UP STATE  
Single Channel Update  
+5V  
Standard (undefined output values at power up)  
3.2 Selecting the Base Address  
Unless there is already a board in  
your system that uses address  
300h (768 decimal), leave the  
switches as they are set at the  
factory.  
In the example shown here, the  
CIO-DAC## is set for base  
address 300h (768 decimal).  
Figure 3-1. Base Address Switches  
Certain address are used by the PC, others are free and can be used by the  
CIO-DAC## and other expansion boards. We recommend you try the factory  
default BASE = 300h (768 decimal) first.  
2
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Table 3-1. PC I/O Addresses  
HEX  
FUNCTION  
HEX  
FUNCTION  
RANGE  
RANGE  
000-00F 8237 DMA #1  
020-021 8259 PIC#1  
040-043 8253 TIMER  
060-063 8255 PPI (XT)  
2C0-2CF EGA  
2D0-2DF EGA  
2E0-2E7 GPIB (AT)  
2E8-2EF SERIAL PORT  
060-064 8742 CONTROLLER (AT) 2F8-2FF SERIAL PORT  
070-071 CMOS RAM & NMI  
MASK (AT)  
300-30F PROTOTYPE CARD  
080-08F DMA PAGE REGISTERS  
0A0-0A1 8259 PIC #2 (AT)  
0A0-0AF NMI MASK (XT)  
0C0-0DF 8237 #2 (AT)  
0F0-0FF 80287 NUMERIC CO-P  
(AT)  
310-31F PROTOTYPE CARD  
320-32F HARD DISK (XT)  
378-37F PARALLEL PRINTER  
380-38F SDLC  
3A0-3AF SDLC  
1F0-1FF HARD DISK (AT)  
200-20F GAME CONTROL  
3B0-3BB MDA  
3BC-3B PARALLEL PRINTER  
B
210-21F EXPANSION UNIT (XT)  
238-23B BUS MOUSE  
3C0-3CF EGA  
3D0-3DF CGA  
23C-23F ALT BUS MOUSE  
270-27F PARALLEL PRINTER  
2B0-2BF EGA  
3E8-3EF SERIAL PORT  
3F0-3F7 FLOPPY DISK  
3F8-3FF SERIAL PORT  
The CIO-DAC## BASE switch can be set for address in the range of 000-3E0 so it  
should not be hard to find a free address area for you CIO-DAC##. Once again, if  
you are not using IBM prototyping cards or some other board which occupies these  
addresses, then 300-31F HEX are free to use. Address not specifically listed, such as  
390-39F, are free.  
3
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3.3 Wait State Jumper  
The CIO-DAC## boards have a wait state jumper which can enable an on-board  
wait state generator. A wait  
state is an extra delay injected  
ON  
OFF  
into the processor's clock via  
the bus. This delay slows  
down the processor when the  
processor addresses the  
CIO-DAC## board so that  
signals from slow devices  
(chips) will be valid.  
WAIT STATE JUMPER BLOCK - This block has  
no wait state selected. For a wait state, place  
the jumper on the two leftmost pins.  
Figure 3.2. Wait State Jumper  
The wait state generator on the CIO-DAC## is only active when the CIO-DAC## is  
being accessed. Your PC will not be slowed down in general by using the wait state.  
3.4 Individual / Simultaneous Update Jumpers  
Analog outputs can be jumpered so that new output data is held until one or more  
DACs have been loaded with new digital data. Then, as a group, the new data  
transfers to the voltage outputs. The simultaneous transfers occurs when any of the  
CIO-DAC## addresses are read (and the jumpers are in the “XFER” position).  
The analog output chips on the CIO-DAC## are dual DACs (two analog outputs per  
chip). A single jumper sets both DACs on a single chip to be either simultaneously  
transferred on a read (XFER) or the ouputs are individually updated when the MSB  
register is written.  
The diagram below shows the jumper block in each mode. If you look on the  
CIO-DAC## board, you will see numbers such as 12, 34, 56... (reading right to left)  
below each jumper. The numbers indicate the pair of channels that the jumper  
selects.  
4
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.
XFER  
XFER  
# # (UPDATE)  
# # (UPDATE)  
Simultaneous updates from all DACs  
Jumpered to XFER  
Individual updates per DAC  
(Two Channels)  
INDIVIDUAL UPDATE / SIMULTANEOUS TRANSFER JUMPER  
J1 to J8 - One per pair of channels.  
Figure 3-3. Simultaneous Update Jumper  
3.5 Analog Output Range Switches  
The analog output voltage range of each channel can be set with a set of five ganged  
DIP switches. The switch blocks are located on the board below the calibration  
potentiometers. The switch blocks are labeled 0 to 15 (0 to 7 on the CIO-DAC08)  
and individual switches are labeled 1 through 5.  
Set the switches for each individual channel as shown in Figure 3-4..  
1
2
3
4
5
RANGE  
+/-10V  
+/-5V  
UP  
UP  
UP  
DN UP  
DN DN UP  
DN DN DN UP  
DN DN  
DN  
+/-2.5V  
0 to 10V  
0 to 5V  
0 to 2.5V  
DN UP  
DN UP  
DN UP  
UP  
DN UP  
DN DN UP  
DN DN  
DN  
Figure 3-4. Output Range Switch  
5
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To set a channel to a particular range, read the switch positions as UP or DN (down)  
from left to right in the row beside the range you desire.  
For example, the ±5V range is: UP>DN>DN>UP>DN.  
3.6 Installing the CIO-DAC## in the Computer  
Turn the power off.  
Remove the cover of your computer. Please be careful not to dislodge any of the  
cables installed on the boards in your computer as you slide the cover off.  
Locate an empty expansion slot in your computer.  
Push the board firmly down into the expansion bus connector. If it is not seated  
fully it can fail to work and could short circuit the PC bus power onto a PC bus  
signal. This could damage the motherboard in your PC as well as the CIO-DAC##.  
3.7 Cabling to the CIO-DAC##  
The CIO-DAC## connector is accessible through the PC/AT expansion bracket.  
The connector is a standard 37-pin male connector. A mating female connector,  
such as the C37FF-2, is available from OMEGA.  
Several cabling and screw termination options are available from OMEGA.  
DFCON-37  
C37FF-2  
D connector, D shell and termination pins to  
construct your own cable  
2-foot (and longer) ribbon cable with 37 pin D  
connectors  
C37FFS-5  
5-foot shielded round cable with molded ends  
housing 37-pin connectors. Also available in 10-ft.  
length.  
CIO-MINI37  
CIO-TERMINAL  
Simple, 40-position 4”X4” screw terminal board  
Full featured 4 x 16 in. screw terminal board with  
prototyping and interface circuitry  
3.8 Testing the Installation  
You can test the installation of the CIO-DAC## using InstaCal. Select the Test  
option to vary the output voltages and monitor them with a Volt Meter.  
6
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3.9 Signal Connection  
The analog outputs of the CIO-DAC## are two-wire hookups. A signal, labeled  
D/A # OUT on the connector diagram below, and a Low Level Ground (LLGND).  
The low level ground is an analog ground and is the ground reference which should  
be used for all analog hookups.  
Possible analog output ranges are:  
Bipolar Ranges  
Unipolar Ranges  
+10V  
and  
0 to 10V  
+5V  
+2.5V  
0 to 5V  
0 to 2.5V  
See the range select switch in section 3.5.  
Each of the DAC## outputs are individually buffered through an OP07 operational  
amplifier (OP-AMP). The OP07s are socketted so that if one fails it can be replaced  
in the field. The OP07 for each channel is located just below the calibration  
potentiometers for that channel.  
At the full rated output swing of ±10V, each channel is capable of sinking or  
sourcing ±5 mA. That means a load of 2K Ohms can be connected to each channel.  
As the load resistance is raised from 2K up to 10 Megaohms or more, the output  
load on the DAC decreases. Any load resistance greater than 2K is fine.  
As the load resistance decreases, the output load increases. The OP07 responds by  
producing a lower output voltage. If your CIO-DAC## will not produce the output  
voltage specified by the code & range combination, it is a good idea to check the  
load with an ohm meter.  
Under normal circumstances you will not damage the OP07 by connecting the  
output to ground. If your connection results in a failure of the OP07, chances are  
good that there was some potential at the connecting point in addition to a load at  
ground or between 0 and 2K ohms. Explore the point with a DVM before  
reconnecting the CIO-DAC## (and after replacing the OP07 of course). Connect  
the negative lead of the DVM to any LLGND pin of the CIO-DAC##.  
7
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3.10 Connector Diagram  
The CIO-DAC## connector is a 37-pin D-type connector accessible from the rear of  
the PC through the expansion backplate.  
The connector accepts female 37-pin D type connectors, such as those on the  
C37FF-2, 2 foot cable with connectors.  
If frequent changes to signal connections or signal conditioning is required, refer to  
the information on the CIO-TERMINAL, CIO-SPADE50 and CIO-MINI37 screw  
terminal boards.  
-12V 19  
GND 18  
+12V 17  
37 GND  
36 +5V  
D/A 15 OUT 16  
D/A 14 OUT 15  
D/A 13 OUT 14  
D/A 12 OUT 13  
D/A 11 OUT 12  
D/A 10 OUT 11  
D/A 9 OUT 10  
35 LLGND  
34 LLGND  
33 LLGND  
32 LLGND  
31 LLGND  
30 LLGND  
29 LLGND  
28 LLGND  
27 LLGND  
26 LLGND  
25 LLGND  
24 LLGND  
23 LLGND  
22 LLGND  
21 LLGND  
20 LLGND  
D/A 8 OUT  
D/A 7 OUT  
D/A 6 OUT  
9
8
7
D/A 5 OUT  
D/A 4 OUT  
D/A 3 OUT  
D/A 2 OUT  
D/A 1 OUT  
D/A 0 OUT  
6
5
4
3
2
1
Figure 3-5.. Connector CIO-DAC16  
Figure 3-6. Connector CIO-DAC08  
8
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4 REGISTER ARCHITECTURE  
The CIO-DAC## is a simple board to understand. All control and data is  
read/written with simple I/O read and write commands. No interrupt or DMA  
control software is required. Thus, the board's functions are easy to control directly  
from BASIC, C or PASCAL.  
4.1 Control & Data Registers  
The CIO-DAC16 has 32 analog output registers, the CIO-DAC08 has 16. There are  
two registers for each channel; one for the lower 8 bits and one for the upper 4 bits.  
The first address, or BASE ADDRESS, is determined by the setting of a bank of  
switches on the board.  
The register descriptions all follow the format:  
7
6
5
4
3
2
1
0
D5  
D6  
D7  
D8  
D9  
D10  
D11  
D12  
Where the numbers along the top row are the bit positions within the 8 bit byte and  
the numbers and symbols in the bottom row are the functions associated with that  
bit.  
To write to or read from a register in decimal or HEX, the following weights apply:  
Table 4-1. Register Bit Weights  
BIT POSITION  
DECIMAL VALUE  
HEX VALUE  
0
1
2
3
4
5
6
7
1
2
4
1
2
4
8
8
16  
32  
64  
128  
10  
20  
40  
80  
To write a control word or data to a register, the individual bits must be set to 0 or 1  
then combined to form a byte. Data read from registers must be analyzed to  
determine which bits are on or off.  
The method of programming to set or read bits from bytes is beyond the scope of  
this manual. It is covered in most Introduction To Programming books, available  
from a bookstore.  
9
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In summary form, the registers and their function are listed in the following table.  
Each register has eight bits which can constitute a byte of data or eight individual  
read/write functions. The CIO-DAC08 has 8 pairs of register (Base + 0 through  
Base + 15) and the CIO-DAC16 has 16 pairs of register (Base + 0 through Base +  
31).  
Table 4-2. Register Map  
ADDRESS  
BASE + 0  
BASE + 1  
BASE + 2  
BASE + 3  
BASE + 4  
BASE + 5  
BASE + 6  
BASE + 7  
BASE + 8  
...  
WRITE FUNCTION  
D/A 0 Least Significant Byte  
D/A 0 Most Significant Nibble  
D/A 1 Least Significant Byte  
D/A 1 Most Significant Nibble  
D/A 2 Least Significant Byte  
D/A 2 Most Significant Nibble  
D/A 3 Least Significant Byte  
D/A 3 Most Significant Nibble  
D/A 4 Least Significant Byte  
READ FUNCTION  
Intiate simultaneous update  
Intiate simultaneous update  
Intiate simultaneous update  
Intiate simultaneous update  
Intiate simultaneous update  
Intiate simultaneous update  
Intiate simultaneous update  
Intiate simultaneous update  
Intiate simultaneous update  
BASE + ## And so on for each DAC  
Same  
The DAC16 contains 32 registers (16 register pairs). The DAC08 contains 16  
registers. Each register-pair controls one D/A output.  
Each DAC has two 8-bit registers which are used to control it. The first register  
contains the least significant eight bits of D/A code and should be written first.  
7
6
5
4
3
2
1
0
D5  
D6  
D7  
D8  
D9  
D10  
D11  
D12  
(LSB)  
The second register contains the most significant four bits of D/A code and should  
be written to second. A write to this register updates the output of the D/A with all  
12 bits of the D/A code contained in the two registers. If the XFER jumper is set for  
the DAC, no update will occur until a read of any one of the DAC registers is  
executed. Upon a read, all DACs set for simultaneous update (XFER jumper set)  
will update together.  
7
6
5
4
3
2
1
0
X
X
X
X
D1  
D2  
D3  
D4  
(MSB)  
10  
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4.2 Output Transfer Functions  
To program a DAC, you must select the output you desire in volts, then apply a  
transfer function to that value. The transfer function for code = output is:  
The UNIPOLAR transfer function of the DAC is:  
FSV / 4096 * CODE = OutV or CODE = OutV / FSV * 4096  
For Example:  
If the range is 0 to 5V, and you desire a 2V output CODE = 2/5 * 4096  
CODE = 1638  
The BIPOLAR transfer function for the DAC is:  
FSV/4096 * CODE - 0.5 * FSV or CODE = (OutV + 0.5 * FSV) / FSV * 4096  
For example:  
If the range is set to ±10 and you desire a 7V output  
CODE = (7V + 0.5 * 20) / 20 * 4096  
CODE = 614  
11  
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5 SPECIFICATIONS  
POWER CONSUMPTION  
CIO-DAC16  
+5V supply  
+12V supply  
435 mA typical, 525 mA max  
140 mA typical, 180 mA max  
80 mA typical, 105 mA max  
12V supply  
CIO-DAC08  
+5V supply  
+12V supply  
12V supply  
435 mA typical, 525 mA max  
75 mA typical, 98 mA max  
52 mA typical, 68 mA max  
ANALOG OUTPUT  
D/A type  
AD7237  
12 bits  
Resolution  
Number of channels  
CIO-DAC16  
16 Voltage Outputs  
CIO-DAC08  
8 Voltage Outputs  
Output Ranges  
±10V, ±5V, ±2.5V, 0 to 10V, 0 to 5V,  
0 to 2.5V. Each channel independently  
switch-selectable.  
D/A pacing  
Software paced  
Data transfer  
Software  
Offset error  
Gain error  
Differential non-linearity  
Integral non-linearity  
Monotonicity  
Adjustable to zero  
Adjustable to zero  
±½ LSB max  
±½ LSB max  
12 bits  
Gain drift (DAC)  
Offset drift (DAC)  
±30 ppm/°C max  
±3 ppm/°C max  
Throughput  
Slew Rate  
Settling time (20V step to .01%)  
System-dependent  
0.3 V/µs Typical  
70 µs  
Current Drive  
Output short-circuit duration  
Output coupling  
±5 mA min  
Indefinite  
DC  
Output resistance (OP-07)  
0.1 ohm max  
Miscellaneous  
Double-buffered output latches  
12  
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Update DACs individually or  
simultaneously (jumper-selectable by  
pairs)  
DAC output state on power up and reset  
undefined  
ENVIRONMENTAL  
Operating temperature range  
Storage temperature range  
Humidity  
0 to 70°C  
40 to 100°C  
0 to 90% non-condensing  
13  
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For your notes.  
14  
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EC Declaration of Conformity  
Part Number  
CIO-DAC16  
CIO-DAC08  
Description  
16 Channel analog output board  
8 Channel analog output board  
to which this declaration relates, meets the essential requirements, is in conformity  
with, and CE marking has been applied according to the relevant EC Directives listed  
below using the relevant section of the following EC standards and other normative  
documents:  
EU EMC Directive 89/336/EEC: Essential requirements relating to electromagnetic  
compatibility.  
EU 55022 Class B: Limits and methods of measurements of radio interference  
characteristics of information technology equipment.  
EN 50082-1: EC generic immunity requirements.  
IEC 801-2: Electrostatic discharge requirements for industrial process measurement  
and control equipment.  
IEC 801-3: Radiated electromagnetic field requirements for industrial process  
measurements and control equipment.  
IEC 801-4: Electrically fast transients for industrial process measurement and control  
equipment.  
Carl Haapaoja, Director of Quality Assurance  
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OMEGA Engineering Inc.  
One OMEGA Drive,  
Stamford, Ct 06801  
(800) 872-9436  
E-mail: info@omega.com  
www. omega.com  
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