OptoIn8-I2C

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Tindie-mediums.png

File:OptoIn8-I2C-X3-CCA-5453-640px.jpg

Features

  • Eight optically-isolated input channels on card
    • (8) 4N25 optoisolators
  • I2C host interface
    • MCP23008 I2C Parallel I/O
    • Two Wire interface
    • 100/400 KHZ operation
    • 25mA sink/source capability per I/O
    • Jumper selectable terminators
    • 3-bit address (Jumper selectable) - Up to 8 boards
    • Single 4-pin host interface connector (Ground, Power, Clock, Data)
  • 24LC024 Open Data Acquisition System Personality EEPROM
  • 3.3V or 5V operation
  • Compatible with Arduino, Raspberry Pi, BeagleBone Black
  • DB-25 connector for rugged uses
  • 95x95mm form factor
  • (4) 6-32 mounting holes - one on each corner

MCP23008 Block Diagram

MCP23008-Blk-Dia.PNG

Layout

OptoIn8-CAD-X2.png

Power

Vin		5	V	12
Vdiode		1.7	V	1.7
Vres		3.3	V	10.3
I		0.01	A	0.01
PwrRes		0.033	W	0.103
ResRatedPwr	0.25	W	0.25
Derated		13.2	%	41.2

Connectors

J1 - Power

OptoIn8-X2-J1.png

  1. GND
  2. VCC
  3. GND

J2-J3 - I2C

OptoIn8-X2-J2-J3.png

  1. GND
  2. VCC
  3. SDA
  4. SCL

J4 - I2C Address Select

OptoIn8-X2-J4.png

Install jumper for 0. Do not install jumper for 1.

5-6 = A0
3-4 = A1
1-2 = A2

J5 - EEPROM Write Enable/Write Protect Jumper

OptoIn8-X2-J5.png

  • Install = Allow EEPROM
  • Removed = Do not allow writes to EEPROM

J6 - Card Present/Interrupt

OptoIn8-X2-J6.png

  1. GND
  2. INT
  3. CP - Card present (pulled low)

J7 - I2C Terminators Jumpers

OptoIn8-X2-J7.png

Install shunts to terminate lines.

3-4 = SDA Terminator
1-2 = SCK Terminator

J8 - I/O connector

OptoIn8-I2C-X3-CCA-5456-640px.jpg

OptoIn8-Connector

Db25M.gif

OptoIn8-X2-J8-fixed.png]]]

DB-25

Pin	Descr		Pin	Descr
1	CH1-IN+		14	CH1-IN-
15	CH2-IN+		3	CH2-IN-
4	CH3-IN+		17	CH3-IN-
18	CH4-IN+		6	CH4-IN-
7	CH5-IN+		20	CH5-IN-
21	CH6-IN+		9	CH6-IN-
10	CH7-IN+		23	CH7-IN-
24	CH8-IN+		12	CH8-IN-
2	N/C		5	N/C
8	N/C		11	N/C
13	N/C		16	N/C
19	N/C		22	N/C
25	N/C			

Assembly Sheet

OptoIn8-I2C Assembly Sheet

Design Validation/First Article Test

Read Single Opto Input Channel Test

  • Test code
  • Write out on Arduino D8 line
  • D8 is wired to the first Opto channel
  • Read back Opto channel
    • Result is complement of write data
Wrote HIGH, read back 0
Wrote LOW, read back  1

Read all 8 Channels

8 channel read card
Wrote LOW to channel  1, read back  FF
Wrote HIGH to channel 1, read back  FE
Wrote LOW to channel  2, read back  FF
Wrote HIGH to channel 2, read back  FD
Wrote LOW to channel  3, read back  FF
Wrote HIGH to channel 3, read back  FB
Wrote LOW to channel  4, read back  FF
Wrote HIGH to channel 4, read back  F7
Wrote LOW to channel  5, read back  FF
Wrote HIGH to channel 5, read back  EF
Wrote LOW to channel  6, read back  FF
Wrote HIGH to channel 6, read back  DF
Wrote LOW to channel  7, read back  FF
Wrote HIGH to channel 7, read back  BF
Wrote LOW to channel  8, read back  FF
Wrote HIGH to channel 8, read back  7F
Wrote LOW to channel  1, read back  FF
Wrote HIGH to channel 1, read back  FE
Wrote LOW to channel  2, read back  FF
Wrote HIGH to channel 2, read back  FD
Wrote LOW to channel  3, read back  FF
Wrote HIGH to channel 3, read back  FB
Wrote LOW to channel  4, read back  FF
Wrote HIGH to channel 4, read back  F7
Wrote LOW to channel  5, read back  FF
Wrote HIGH to channel 5, read back  EF
Wrote LOW to channel  6, read back  FF
Wrote HIGH to channel 6, read back  DF
Wrote LOW to channel  7, read back  FF
Wrote HIGH to channel 7, read back  BF
Wrote LOW to channel  8, read back  FF
Wrote HIGH to channel 8, read back  7F

Pass/Fail version of the code

EEPROM Test

  • Code to write to the EEPROM
Initializing eep buffer
len of buffer=96
reading block
readBuff len=97
read back=ODAS
ODAS
  • Code to read the EEPROM
Signature=ODAS
ProductID=3
Vendor=land.boards.com
Product=OptoIn8-I2C

Factory Acceptance Test

  • Runs on [ODAS Test Station]]
  • Cable from UUT connector to the DIGIO32 card in the Test Station.
  • The Test Station has an internal DIGIO32 card.
  • The DIGIO32 internal to the Test Station is set to all outputs.
  • Put out 8 bit test vector on DIGIO32 pins
    • D0 is LED1+
    • D8 is LED1-
  • To turn on LED1, set D0 High and D8 Low
  • Looks at the returned values on the OptoIn8-I2C
  • The OptoIn8-I2C cards that is the UUT is set up to all inputs.
  • USB running puTTY
    • 9600 baud
  • Menu driven
  • Auto-detect card if test has been run before
Checking EEPROM for board type...Detected OptoIn8-I2C board
R=Read EEPROM, W=Write EEPROM, T=Test DIGIOs, L=Loop Test, B=Bounce LEDs
  • If the EEPROM has not been programmed (first time for the test to be run)
Checking EEPROM for board type...Company Mismatch
Select the board type
1 - DIGIO16-I2C board
2 - DIGIO-128 board
3 - OptoIn8-I2C board
4 - OptoOut8-I2C board
5 - DIGIO32-I2C board
6 - PROTO16-I2C board
7 - ODAS-PSOC5 board
8 - ODAS-RELAY16 board
9 - TBD board
X - Boards without EEPROMs
Select board > 
  • Select board
Select board > 3 [OptoIn8-I2C Card]
Writing EEPROM
Initializing eep buffer
len of buffer=96
reading block
Family=ODAS
Company=land.boards.com
Checking EEPROM for board type...Detected OptoIn8-I2C board
<pre>
* Test 'T'
<pre>
R=Read EEPROM, W=Write EEPROM, T=Test DIGIOs, L=Loop Test, B=Bounce LEDs
Loopback Test PASS = 1, FAIL = 0

Revision History

Rev X3 to Rev X4 PWB changes

  • Moved the DB-25 mounting holes to center on the connector pins

OptoIn8-DB-Conn-X3.PNG

OptoIn8-DB-Conn-X4.PNG

Rev X2 to Rev X3 PWB changes

  • Move DB connector (J8) left from X=22.7 mm to X=17 mm

OptoIn8-DB-Conn-X2.PNG

OptoIn8-DB-Conn-X3.PNG

Rev X1

OptoIn8-I2C Rev X1