ETC PC-77DS1-8KR240-31

PC-77DS1
APEX Signal, A Division of NAI, Inc.
EIGHT (1.2 VA) DIGITAL to SYNCHRO/RESOLVER CONVERTERS
4 TWO-SPEED or 8 SINGLE-SPEED or COMBINATION (PROGRAMMABLE)
16 BIT RESOLUTION; To .0083° ACCURACY;
ON-BOARD PROGRAMMABLE REFERENCE SUPPLY
SELF TEST and Programmable Rotation
FEATURES:
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
16-bit resolution
30 arc-seconds accuracy
360 Hz to 10 kHz operation
1.2 VA drive capability
2,4,6 or 8-channel versions available
Programmable 2-speed ratios (2 to 255) and angle rotation
Continuous background BIT testing with Reference and Signal loss detection
Power-On Self-Test (POST)
Outputs can be turned ON/OFF
Either internal or external ±12 VDC supply
Optional on-board programmable reference supply
Watchdog timer and soft reset
Transformer isolated
No adjustments or trimming required
Part Number, S/N, Date Code and Revision in permanent memory
DESCRIPTION:
This high density intelligent DSP-based card incorporates up to eight separate transformer isolated Digital-toSynchro/Resolver converters with 1.2 VA drive, extensive diagnostics, signal & reference loss detection and optional 5
VA reference supply. Either one common or eight separate reference inputs can be specified. Each output can be
turned ON or OFF via the bus. Two-speed configuration and constant rotation that includes a start and a stop angle
can be programmed. Transformer isolation enables user to ground one of the outputs without affecting performance.
The optional on−board reference supply is field programmable for both voltage and frequency. A watchdog timer is
provided to monitor the processor. This model will drive passive loads such as CT's etc. Part Number, S/N, Date
Code, and Revision are located in permanent memory. The ±12VDC is normally derived from the backplane, but
jumpers are supplied to permit the card to be powered from external supplies.
Major diagnostics are incorporated to offer substantial improvements to system reliability because the user is alerted
(within 5 seconds) to channel malfunctions. This approach reduces bus traffic because the Status Registers do not
require constant polling. See Programming Instructions for further details.
The D2 Test initiates automatic background BIT Testing that compares the output of each channel against the
commanded input to a test accuracy of 0.05° and monitors each Output and Reference. Results are available in
Status registers. The testing is totally transparent to the user, requires no external programming, has no effect on the
standard operation of this card and can be enabled or disabled via the bus.
The D3 Test starts a BIT Test that generates and tests 72 different angles, to a testing accuracy of 0.05°. Results can
be read from Status Registers. External reference is required and testing requires no external programming, and can
be Initiated or terminated via the bus. CAUTION: Outputs must be ON and are therefore active during this test.
Check connected loads for possible interaction.
Power-On Self-Test (POST), if enabled, initiates the D3 Test upon turn-on and is enabled/disabled via the bus.
Apex Signal, A Division of NAI, Inc.
170 Wilbur Place, Bohemia, NY, 11716,USA
631.567.1100/631.567.1823(fax)
www.naii.com / e-mail:[email protected]
3-20-01
Code:OVGU1
S 77 DS1 A001 REV A 1.2
Page 1 of 8
SPECIFICATIONS (applies to each Channel)
Resolution:
Accuracy:
Output format:
Output voltage:
Output load:
Regulation:
Ratio:
Rotation:
16 bits (.0055°)
30 arc-seconds (.008°) at 0.3 VA
±1 arc-minute (.017°) at 1.2 VA. No load to full load
See part number, transformer isolated
See code table and part number.
1.2 VA max./channel. Short circuit protected (5000 Ω reactive at 90 VL-L Synchro,
90 Ω reactive at 11.8 VL-L Synchro, 110 Ω reactive at 11.8 VL-L Resolver)
5% maximum, no load to Full load
Set any ratio between 2 and 255
Continuous rotation or programmable Start and Stop angles. 0 to ±13.6 RPS with a
resolution of 0.15°/sec. Step size is 16 bits (0.0055)° up to 1.5 RPS, then linearly increases
to 12 bits (0.088°) at 13.6 RPS.
Reference input voltage:
Reference frequency:
Phase shift:
Settling time:
Power:
Temperature, operating:
Size:
Weight:
(See code table and part number) Transformer isolated. 1 ma max./channel
360 Hz to 10 kHz (see code table and part number)
5° max. between output and reference.
Less than 100 microseconds
+ 5 VDC at 0.4 A
±12 VDC at 1.6 A average, 4 A peak (for 8 channels). Power supplies must be able to
supply peak power without current limiting.
0°C to +70°C. Storage temperature: -55°C to +85°C.
4.5 x13.5 x 0.74 (11.43 x 34.29 x 1.88 cm)
12 oz. (.605 kg)
REFERENCE:
Voltage:
Frequency:
Regulation:
Output power:
Optional (see part number).
2.0 to 28 Vrms programmable (Resolution 0.1Vrms) or 115 Vrms fixed. Accuracy ±2%,
360 Hz to 10 kHz ±1% with 1 Hz resolution.
10% maximum, no load to full load.
5 VA max. at 40° min. inductive (see part number).
PROGRAMMING:
I/O CONFIGURATION:
This card requires 32 consecutive addresses in the I/O address space on a 32-byte boundary. The base address is
switch settable in the 000-3E0 hex (0 to 992) address range.
ADDRESS= BASE + OFFSET
BASE
A9
A8
A7
A6
A5
OFFSET A4 A3 A2 A1 A0
Decimal equiv.
32
SW1∗
64
SW2∗
128
SW3∗
256
SW4∗
512
SW5∗
∗ “1” = Off “0” = On
NOTE: Base addresses to avoid:
378-37F Parallel Printer Port 3B0-3BF Monochrome Display
3F8-3FF Asynch Comm I/O 3F0-3F7 Floppy Disk
Page 1 (1E = 0)
00
01
02
03
04
05
06
07
Ch.1
Ch.1
Ch.2
Ch.2
Ch.3
Ch.3
Ch.4
Ch.4
Lo
Hi
Lo
Hi
Lo
Hi
Lo
Hi
write
write
write
write
write
write
write
write
08
09
0A
0B
0C
0D
0E
0F
Ch.5
Ch.5
Ch.6
Ch.6
Ch.7
Ch.7
Ch.8
Ch.8
Lo
Hi
Lo
Hi
Lo
Hi
Lo
Hi
write
write
write
write
write
write
write
write
Apex Signal, A Division of NAI, Inc.
170 Wilbur Place, Bohemia, NY, 11716,USA
10
11
12
13
14
15
16
18
Freq. Lo
Freq. Hi
Eo Lo
Eo Hi
Status, Reference
Status, Signal
Status, Test
Test (D2) verification
write/read
write/read
write/read
write/read
read
read
read
write/read
631.567.1100/631.567.1823(fax)
www.naii.com / e-mail:[email protected]
1A
1C
1D
1E
Active channels
Save Lo
Save Hi
Page register = 0
3-20-01
Code:OVGU1
write/read
write
write
write
S 7 7DS1 A001 REV A 1.2
Page 2 of 8
Page 2 (1E = 1)
00
01
02
03
04
05
06
Part # Lo
Part # Hi
Serial # Lo
Serial # Hi
Date code Lo
Date code Hi
Rev level Lo
read
read
read
read
read
read
read
07
08
09
0A
0B
0C
0D
Rev level Hi
Wrap-around Ch. 1 Lo
Wrap-around Ch. 1 Hi
Wrap-around Ch. 2 Lo
Wrap-around Ch. 2 Hi
Wrap-around Ch. 3 Lo
Wrap-around Ch. 3 Hi
read
read
read
read
read
read
read
0E
0F
10
11
12
13
14
Wrap-around Ch. 4 Lo read
Wrap-around Ch. 4 Hi read
Wrap-around Ch. 5 Lo read
Wrap-around Ch. 5 Hi read
Wrap-around Ch. 6 Lo read
Wrap-around Ch. 6 Hi read
Wrap-around Ch. 7 Lo read
15
16
17
18
1A/1B
1C/1D
1E
Wrap-around Ch. 7 Hi
read
Wrap-around Ch. 8 Lo
read
Wrap-around Ch. 8 Hi
read
Power-on (POST)
read/write
Watchdog timer
read/write
Soft reset
write
Page register = 1
write
Page 3 (1E = 2)
00
01
02
03
04
Stop angle Ch.1 Lo
Stop angle Ch.1 Hi
Stop angle Ch.2 Lo
Stop angle Ch.2 Hi
Stop angle Ch.3 Lo
read/write
read/write
read/write
read/write
read/write
05
06
07
08
09
Stop angle Ch.3 Hi
Stop angle Ch.4 Lo
Stop angle Ch.4 Hi
Stop angle Ch.5 Lo
Stop angle Ch.5 Hi
read/write 0A
read/write 0B
read/write 0C
read/write 0D
read/write 0E
Stop angle Ch.6 Lo
Stop angle Ch.6 Hi
Stop angle Ch.7 Lo
Stop angle Ch.7 Hi
Stop angle Ch.8 Lo
read/write
read/write
read/write
read/write
read/write
0F Stop angle Ch.8 Hi read/write
read
16 Rotation Complete
write/read
18 Rotation, Mode
1A Test Enable
write/read
1E Page register = 2
write
Page 4 (1E = 3)
00
01
02
03
04
05
06
07
Rotate rate Ch.1 Lo read/write
Rotate rate Ch.1 Hi read/write
Rotate rate Ch.2 Lo read/write
Rotate rate Ch.2 Hi read/write
Rotate rate Ch.3 Lo read/write
Rotate rate Ch.3 Hi read/write
Rotate rate Ch.4 Lo read/write
Rotate rate Ch.4 Hi read/write
Data Hi
Data Lo
Outputs, ON/OFF
Test Enable
Rotation, Mode
Rotation, INITIATE
Rotation, Stop
Rotation, completed
Active channels
Status, Reference
Status, Signal
Status, Test
08
09
0A
0B
0C
0D
0E
0F
Rotate rate Ch.5 Lo read/write
Rotate rate Ch.5 Hi read/write
Rotate rate Ch.6 Lo read/write
Rotate rate Ch.6 Hi read/write
Rotate rate Ch.7 Lo read/write
Rotate rate Ch.7 Hi read/write
Rotate rate Ch.8 Lo read/write
Rotate rate Ch.8 Hi read/write
D7
180
.703
Ch.8
X
Ch.8
Ch.8
Ch.8
Ch.8
Ch.8
Ch.8
Ch.8
Ch.8
D6
90
.352
Ch.7
X
Ch.7
Ch.7
Ch.7
Ch.7
Ch.7
Ch.7
Ch.7
Ch.7
D5
45
.176
Ch.6
X
Ch.6
Ch.6
Ch.6
Ch.6
Ch.6
Ch.6
Ch.6
Ch.6
10
11
12
13
14
15
16
17
Ratio, Ch.1/2 Lo read/write
Ratio, Ch.1/2 Hi read/write
Ratio, Ch.3/4 Lo read/write
Ratio, Ch.3/4 Hi read/write
Ratio, Ch.5/6 Lo read/write
Ratio, Ch.5/6 Hi read/write
Ratio, Ch.7/8 Lo read/write
Ratio, Ch.7/8 Hi read/write
D4
D3
D2
22.5 11.25 5.625
.088 .044 .022
Ch.5 Ch.4 Ch.3
X
D3
D2
Ch.5 Ch.4 Ch.3
Ch.5 Ch.4 Ch.3
Ch.5 Ch.4 Ch.3
Ch.5 Ch.4 Ch.3
Ch.5 Ch.4 Ch.3
Ch.5 Ch.4 Ch.3
Ch.5 Ch.4 Ch.3
Ch.5 Ch.4 Ch.3
D1
2.813
.011
Ch.2
X
Ch.2
Ch.2
Ch.2
Ch.2
Ch.2
Ch.2
Ch.2
Ch.2
18 Outputs ON/OFF
1A Rotation, Initiate
1C Rotation, Stop
1E Page register = 3
read/write
write
write
write
D0
1.406
.0055
Ch.1
X
Ch.1
Ch.1
Ch.1
Ch.1
Ch.1
Ch.1
Ch.1
Ch.1
At Power-On or System Reset, all parameters are restored to last saved setup and if POST is enabled, a D3
test is initiated.
Enter Active Channels: Set the bit, corresponding to each channel to be monitored during BIT testing, in the
Active Channel register at Page 1, 1Ah. “1”=active; “0”=not used. Omitting this step will produce false alarms
because unused channels will set faults.
Save Setup: The current setup can be saved by writing 5555h to the Save Register at Page 1, 1C/1Dh. This
location will automatically clear to 0000h when the save is completed (within 5 seconds). When save is elected, all
parameters are saved, however, any parameter can be changed at will. Saving is optional. If not saved, reenter
parameters at each power up.
To restore factory shipped parameters, write AAAAh to the Save Register at Page 1, 1C/1Dh followed by system
reset. Note: After a SAVE or RESTORE, Poll Page 1, 1C/1Dh and do not perform any other operation until word is at
"0".
Read and Write Angle: For single-speed applications (Ratio=1), in 16-bit mode, write 16-bit binary data (or 16bit 2’s compliment data) to address Page 1, 00h for Ch.1; to 02h for Ch.2 etc. In 8-bit mode, write to offset 00h/01h
to 0Eh/0Fh. The Write Registers are double buffered to prevent data ambiguity during 8-bit data transfer. Load data
into Hi byte register first, followed by the Lo byte. When reading the wrap around test angles, read the Hi byte first.
Apex Signal, A Division of NAI, Inc.
170 Wilbur Place, Bohemia, NY, 11716,USA
631.567.1100/631.567.1823(fax)
www.naii.com / e-mail:[email protected]
3-20-01
Code:OVGU1
S 7 7DS1 A001 REV A 1.2
Page 3 of 8
Hi byte read holds Lo byte until read (ex. 330°=1110101010101011). For two-speed applications, write only to first
channel of channel pair (Coarse speed), and card will set angle of second channel (fine speed), to the Coarse angle
multiplied by the ratio. Note: writing to an input angle register will stop any rotation initiated on that channel.
Ratio: Enter the desired ratio, as a binary number, in the Ratio Register corresponding to the pair of channels to be used as a
two-speed channel. Example: Single speed = 1; 36:1 = 100100.
ON/OFF: Set the bit corresponding to each channel to be turned on, to “1” in Outputs On/Off Register at page 4,
18h. To turn OFF a channel, set corresponding bit to “0”. Default is OFF.
Read Wrap-Around Angles: Read at addresses Page 2, 08h to 17h. AVAILABLE AT ALL TIMES.
Rotation Rate: Write to the corresponding Rotation Rate register a 2’s compliment number representing the
desired rotation rate, LSB = 0.15°/sec. Ex: 12 RPS =. (12 x 360°/0.15° = 28800 = 7080h), -12 RPS = ( -12 x
360°/0.15° = -28800 = 8F80h). Step size is 16 bits (0.0055°) for up to 1.5 RPS, then linearly increases to 12 bits
(0.088°) at 13.6 RPS.
Rotation Mode, Continuous or Start/Stop: For continuous rotation, set the corresponding channel bits to "1"
in the register at page 3, 18h. For rotation to cease at a designated stop angle, set the bit to "0".
Stop Angles: Write 16-bit binary data to appropriate address at page 3, 00h to 0Fh. After a channel reaches the
stop angle, it will stop rotating and remain at that angle until a new input angle is set. If rotation is initiated again, the
angle will start rotating from the present angle.
Initiate Rotation: First set the Rotation Rate Registers and Rotation Mode Register, for each channel that is to
rotate. Then, to start rotation for those channels, set the corresponding channel bit to a “1” in the Rotation Initiate
Register at page 4, 1Ah.
Stop Rotation: Set the corresponding bit, for each channel to be stopped, to a “1” in the Rotation Stop Register at
page 4, 1Ch. Channel will remain at the stopped angle until new input angles are set, or rotation is again initiated.
Rotation Completed: Read the Rotation Completed Register at page 3, 16h. Each bit corresponds to a given
channel. A "1" = rotation completed, "0"=rotation in process.
Power-On Self-Test (POST) will initiate the D3 test on Power-On, if POST is enabled and saved. Enable by
writing "1" or Disable by writing "0" to POST register at page 2, 18h and then save setup.
D2 Test Enable: Writing “1” to D2 of Test Enable Register at page 3, 1Ah initiates automatic background BIT
testing that checks the output accuracy of each channel, by comparing the measured output angle, before the output
transformer, to the commanded angle, and monitors each Reference and Signal. The status bits will be set to
indicate an accuracy problem or Signal/Reference loss and the results can be read from Status Registers within 2
seconds. A “0” deactivates this test. The testing is totally transparent to the user, requires no external programming,
has no effect on the standard operation of this card and can be enabled or disabled via the bus. Outputs must be ON
for test to function. Card will write 55h (every 2 seconds) to D2 Test Verify Register at page 1, 18h when D2 is
enabled. User can periodically clear to 0000h and then read page 1, 18h again, after 2 seconds, to verify that BIT
Testing is activated. This test continuously sequences between the eight channels on the card with each output
being measured for approx. 180 mSec. If the measured angle has an error greater the 0.05º, a flag will be set in the
appropriate register. If the input angle is stepped more then 0.05º during a test cycle, the test cycle will not generally
indicate an error.
D3 Test Enable: Writing “1” to D3 of Test Enable Register at page 3, 1Ah initiates a BIT Test that generates and
tests 72 different angles to a test accuracy of 0.05°. External reference is required and outputs must be ON. The
Status bits will be set to indicate an accuracy problem or Signal or Reference loss. Results are available in Status
Registers. Test cycle takes about 30 seconds and D3 changes from “1” to “0” when test is complete. The testing
requires no external programming, and can be initiated or terminated via the bus. CAUTION: Outputs must be ON
during this test and are therefore active. Check connected loads for possible interaction.
Apex Signal, A Division of NAI, Inc.
170 Wilbur Place, Bohemia, NY, 11716,USA
631.567.1100/631.567.1823(fax)
www.naii.com / e-mail:[email protected]
3-20-01
Code:OVGU1
S 7 7DS1 A001 REV A 1.2
Page 4 of 8
Status, Test: Check the corresponding bit of the Test Status Register at page 1, 16h, for status of BIT Testing for
each active channel. A ”1” means Accuracy OK; “0” failed (test cycle takes 2 seconds for accuracy error).
Status, Ref: Check the corresponding bit of the Ref Status Register at page 1, 14h, for status of the reference input
for each active channel. A ”1” =Ref. ON, “0” = Ref. Loss (Reference loss is detected after 2 seconds).
Status, Sig: Check the corresponding bit of the Sig Status Register at page 1, 15h, for status of the input signals for
each active channel. A "1" = Signal ON, “0” = Signal loss (Signal loss is detected after 2 seconds).
Soft Reset (Level sensitive): Writing “1” to page 2, 1Ch/1Dh initiates and holds software reset state. Then, writing “0” initiates
reboot (takes 400 ms). This function is equivalent to a power-on self-test.
Watchdog Timer: This feature monitors the watchdog timer register at page 2, 1A/1Bh. When it detects that a
code has been received, that code will be inverted within 100 µSec. The inverted code stays in the register until
replaced by a new code. User, after 100 µSec. should look for the inverted code to confirm that the processor is
operating.
Optional Reference Supply: For frequency, write a 16-bit word (Ex: 400 Hz = 1 1001 0000) to address page 1,
10/11h. For voltage, write an 16-bit word (Ex: 26.1 Vrms =1 0000 0101) with Lsb=0.1 Vrms, to address page 1,
12/13h. It is recommended that user program the required frequency before setting the output voltage.
Serial Number: At page 2, 02/03h, is read as a 16-bit binary word.
Date Code: Read as a decimal number at page 2, 04/05h. The four digits represent YYWW (Year,Year,Week.Week
15 14 13 12 11 10
0
0
0
0
1
1
DSP Rev 1.1
Rev: At page 1, 06/07h.
Example
9
0
8
7
6
5
0
0
0
1
FPGA Rev 3
4
1
3
0
2
1
0
0
PC Rev
0
1
1
Front panel Connectors:
DC37P, Mate: DC37S This connector is used when six (6) or fewer channels are specified
Pin
19
37
18
36
17
35
Ch. 1
S1
S2
S3
S4
RHi
RLo
Pin
16
34
15
33
14
32
Ch. 2
S1
S2
S3
S4
∗RHi
∗RLo
Pin
13
31
12
30
11
29
Ch. 3 Pin Ch. 4
S1
10 S1
S2
28 S2
S3
9 S3
S4
27 S4
8 ∗RHi
∗RHi
26 ∗RLo
∗RLo
Pin
7
25
6
24
5
23
Ch. 5
S1
S2
S3
S4
∗RHi
∗RLo
Pin
4
22
3
21
2
20
Ch. 6 Pin
S1
1 Chassis
S2
S3
S4
∗RHi
∗RLo
DD-50P, Mate: DD-50S This connector is used when seven (7) or eight (8) channels are specified
Pin
16
17
15
50
33
49
Ch. 1
S1
S2
S3
S4
RHi
RLo
Pin
32
48
31
47
30
46
Ch. 2
S1
S2
S3
S4
∗RHi
∗RLo
Pin
29
45
28
44
27
43
Ch. 3 Pin Ch. 4
S1
26 S1
S2
42 S2
S3
25 S3
S4
41 S4
24 ∗RHi
∗RHi
40 ∗RLo
∗RLo
S4 pins used only with Resolvers.
Pin
23
39
22
38
21
37
Ch. 5
S1
S2
S3
S4
∗RHi
∗RLo
Pin
20
36
19
35
18
34
Ch. 6 Pin Ch. 7 Pin Ch. 8
S1
2 S1
8 S1
S2
3 S2
9 S2
S3
4 S3
10 S3
S4
5 S4
11 S4
6 ∗RHi
12 ∗RHi
∗RHi
7 ∗RLo
13 ∗RLo
∗RLo
Pin
14 RefHi
1 RefLo
Do not connect to any undesignated pins.
*These inputs are supplied as individual reference inputs ONLY when specified in the part number.
The Standard output connector for a 2, 4, or 6 channel card, is the 37 pin (DC-37P) connector, however the 50 pin
(DD-50P) connector can be ordered as an option, allowing separate pins for the output of the on board reference.
Apex Signal, A Division of NAI, Inc.
170 Wilbur Place, Bohemia, NY, 11716,USA
631.567.1100/631.567.1823(fax)
www.naii.com / e-mail:[email protected]
3-20-01
Code:OVGU1
S 7 7DS1 A001 REV A 1.2
Page 5 of 8
The Standard output connector for a 8 channel card, is the 50 pin (DC-50P) connector.
For the 37 pin connector, the reference is brought IN on pins 17 & 35 (without the optional internal reference). If the
optional internal reference generator is specified, this internal reference will come OUT on pins 17 & 35.
For the 50 pin connector, the reference is brought IN on pins 33 & 49 (without the optional internal reference). If the
optional internal reference generator is specified, this internal reference will come OUT on pins 33 & 49 AND on pins
14 & 1.
EXTERNAL +/- 12VDC: The card is shipped, configured for operation from +/- 12 VDC power supplied from edge connector.
To operate from External +/- 12VDC supplies: From jumper block JP5, remove jumpers 1-2, and 5-6, then connect jumpers
3-4 , and 7-8. Leave jumper 9 – 10 connected.
Connect external +12 VDC to JP4-4 (labeled +12), connect external –12 VDC to JP4-2 (labeled –12) and external grounds
to JP4-1 and JP4-3 (common tie points )
CONNECTIONS FOR BRINGING +/- 12 VDC INTO THE CARD FROM AN EXTERNAL SOURCE
- 12 VDC
COMPONENT SIDE OF BOARD
GROUND
JI
+ 12 VDC
JP4 CONNECTIONS, FOR
EXTERNAL +/- 12 VDC
1
JP5 JUMPER SET-UP FOR BRINGING
+/- 12 VDC IN VIA EXTERNAL WIRES
JP5 JUMPER SET-UP FOR BRINGING
+/- 12 VDC IN FROM EDGE
CONNECTOR (DEFAULT SET-UP)
Apex Signal, A Division of NAI, Inc.
170 Wilbur Place, Bohemia, NY, 11716,USA
2 3
4
9
1
10
2
9
1
10
2
631.567.1100/631.567.1823(fax)
www.naii.com / e-mail:[email protected]
3-20-01
Code:OVGU1
S 7 7DS1 A001 REV A 1.2
Page 6 of 8
Code Table
Code
Output
(VL-L)
Ref
(Vrms)
01
02
25
26
27
11.8
90
2.0
2.0
2.0
2.0
26
115
2.0
6.0
8.0
11.8
400
400
7200
4000
2400
2400
1.2
1.2
1.2
1.2
1.2
1.2
3.5
6.8
10.0
11.8
11.8
11.8
11.8
26
2.0
2.5
26
7
1.5
7.07
115
10.0
11.8
115
26
115
26
6.0
5.0
26
7
3.0
3000
400
400
2500
400
400
400
400
4000
2900
400
400
2048
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
28
29
31
32
33
34
50
51
52
53
54
55
Frequency
(Hz)
Apex Signal, A Division of NAI, Inc.
170 Wilbur Place, Bohemia, NY, 11716,USA
Load
(VA)
Notes
Channel 1
Channel 2
Channels 1 and 2
Channels 3 to 8
2 ch resolver
4 ch resolver
50 ma drive
631.567.1100/631.567.1823(fax)
www.naii.com / e-mail:[email protected]
3-20-01
Code:OVGU1
S 7 7DS1 A001 REV A 1.2
Page 7 of 8
PART NUMBER DESIGNATION
77DS1 - X X X X X X - XX
TOTAL NUMBER OF CHANNELS
2 = 2 D/S Channels
4 = 4 D/S Channels
6 = 6 D/S Channels
8 = 8 D/S Channels
ENVIRONMENTAL
C = No Conformal Coating
K = Removable Conformal Coating
CODE (See Code Table)
OPTIONS 2
0 = None
9 = Custom Design (See Separate Spec)
OPTIONS 1
With On-Board Reference:
1 = One Common Reference Input Tied
to the On-Board Reference Supply
2 = Individual Reference Inputs
5 = 2, 4, or 6 channels with Optional 50
Pin connector, with separate pins for
reference output
FORMAT
S = Synchro
R = Resolver
M = Mixed (See Code Table)
P = S/R Programmable
ISA BUS
1 = 8-Bit ISA Bus
2 = 16-Bit ISA Bus
Apex Signal, A Division of NAI, Inc.
170 Wilbur Place, Bohemia, NY, 11716,USA
Without On-Board Reference:
3 = One Common Reference Input
4 = Individual Reference Inputs
631.567.1100/631.567.1823(fax)
www.naii.com / e-mail:[email protected]
3-20-01
Code:OVGU1
S 7 7DS1 A001 REV A 1.2
Page 8 of 8