SNAP-D8M
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SNAP-D8M

$127.00 (USA and Canada only)

Availability: In stock
OBSOLETE - SNAP D-Series 8-module Rack

Production Specification

NOTE: This product is obsolete when stock is depleted.

SNAP D-Series 8-module Rack

SNAP D Series

 

SNAP-D4M

SNAP-D6M

SNAP-D8M

SNAP-D12M

Description

4-module rack

6-module rack

8-module rack

12-module rack

Power Requirements

5 VDC ± 0.25 VDC
@ 200mA max.
(700mA with brain board)

5 VDC ± 0.1 VDC
@ 300mA max.

5 VDC ± 0.1 VDC
@ 400mA max.

5 VDC ± 0.1 VDC
@ 1200mA max.

Operating Temperature Range

0 to 70 °C

0 to 70 °C

0 to 70 °C

0 to 70 °C

Relative Humidity

95%, non-condensing

95%, non-condensing

95%, non-condensing

95%, non-condensing

Length (inches)

4.19

5.74

7.74

10.74

Length (mm)

106.43

145.8

196.6

272.8

Center to Center Length

1.98”

3.53”

5.53”

4.26”

# of Center Positions

2

2

2

3

Agency Approvals UL, DFARS UL, CE, RoHS, DFARS; UKCA UL, DFARS UL, CE, RoHS, DFARS; UKCA

 

SNAP D Series Racks Data Sheet

The SNAP I/O D Series racks are designed for discrete control applications and can accommodate 4, 6, 8, or 12 SNAP 4-channel digital modules. This data sheet applies to:

Using Power Supplies with Opto 22 Systems

This technical note gives an overview of power supplies for use with many Opto 22 control systems and recommends types of power supplies for Opto 22 mounting racks.

This note applies to SNAP, mistic, Optomux, Pamux, and direct I/O. It does NOT apply to groov EPIC systems, which have their own integrated power supplies. 

UL Approval Document

This document lists all Opto 22 part numbers that have the Underwriters Laboratory (UL) approval.

AutoCAD Drawings

This file contains AutoCAD drawings of Opto 22 products dating from 1988 to 2003. These are the same drawings that have been available on our BBS. Included is an Excel file describing the file names and relevant Opto 22 part numbers.

Video: Verifying Voltage at the I-O Rack

Verifying the voltage level at the I/O rack is very important for equipment safety and point value accuracy. This is the proper technique for reading the voltage level at the rack.