SNAP-ODC-32-SRC
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SNAP-ODC-32-SRC

$452.00 (USA and Canada only)

Availability: Call for Availability
SNAP 32-channel Digital (Discrete) Output Module, 5-60 VDC Load Sourcing

Production Specification

The SNAP-ODC-32-SRC digital output module (load sourcing) provides 32 digital output channels in one compact SNAP module. This module is ideal for OEMs and others with applications with high point counts, or for those requiring a large number of digital output channels on one SNAP I/O rack. The high-density configuration reduces per-point costs of digital I/O systems by providing up to eight times as many I/O channels in the same space.

If you're unsure whether you need a sinking or sourcing module, see the sinking/sourcing demo or watch the brief Sinking vs. Sourcing video.

Part of the SNAP PAC System, the module mounts on a SNAP PAC rack with a SNAP PAC brain or rack-mounted controller. Analog, digital, and serial I/O modules can all be on the same rack. Such an I/O unit is also well suited for PC-based control or for use as intelligent remote I/O for an Allen-Bradley Logix PLC system, such as ControlLogix, MicroLogix, or CompactLogix.

For easy field wiring, use the SNAP-ODC-HDB or compact SNAP-UDC-HDB breakout rack and the SNAP-HD-BF6 header cable. A wiring harness with flying leads (SNAP-HD-CBF6) is also available.

To switch larger loads, use the module with two SNAP-TEX-MR10-16C breakout boards, which have mechanical relays that allow you to switch loads up to 10 amps. Easily connect the module to the boards using the SNAP-HD-G4F6 cable, which simply plugs into both the module and the boards.

For switching signals with higher current, see the SNAP-UDC-HDB-G4 breakout board, which mounts G4 input modules that handle up to 3 amps per point (G4 modules are sold separately).

Reference Charts: Build your system in the SNAP I/O Configurator.

 

SNAP-ODC-32-SRC
SNAP-ODC-32-SRC-FM [Obsolete]

SNAP-ODC-32-SNK
SNAP-ODC-32-SNK-FM [Obsolete]

Switching Voltage

5–60 VDC

5–60 VDC

Nominal Switching Voltage

12–24 VDC

12–24 VDC

Logic Voltage and Current

5 VDC ± 0.1 @ 150 mA

5 VDC ± 0.1 @ 150 mA

Maximum Off State Voltage

60 VDC

60 VDC

Output Leakage, Typical

<10 microamps per channel (60 V, 70 °C)

<10 microamps per channel (60 V, 70 °C)

Maximum Load per Point

0.25 A

0.25 A

Voltage Drop

0.15 VDC @ 0.25 A

0.15 VDC @ 0.25 A

Surge (1 sec.)

1 A

1 A

Output Arrangement

32 output channels; 4 groups of 8 outputs each. Points in each group share a common positive connection.

32 output channels; 4 groups of 8 outputs each. Points in each group share a common negative connection.

Maximum Operating
Common Mode Voltage

250 V

250 V

Isolation: Field to Logic

1500 V

1500 V

Output Turn-On/Off Time

100 microseconds

100 microseconds

Polling time from I/O proces­sor to module1

2–30 ms typical2

2–30 ms typical2

Indicators

None; use optional OptoTerminal-G20 diag­nostic display or breakout rack.

None; use optional OptoTerminal-G20 diagnostic display or breakout rack.

Maximum Number of HDD Modules on One Mounting Rack

16

16

Torque, hold-down screws

Not to exceed 1 in-lb (0.11 N-m)

Not to exceed 1 in-lb (0.11 N-m)

Torque, connector screws

5.22 in-lb (0.59 N-m)

5.22 in-lb (0.59 N-m)

Operating Temperature

-20 to 70 °C

-20 to 70 °C

Storage Temperature

-40 to 85 °C

-40 to 85 °C

Agency Approvals

SNAP-ODC-32-SRC: UL, CE, RoHS, DFARS; UKCA

SNAP-ODC-32-SRC-FM: CE, FM, RoHS, DFARS; UKCA

SNAP-ODC-32-SNK: UL, CE, RoHS, DFARS; UKCA

SNAP-ODC-32-SNK-FM: CE, FM, RoHS, DFARS; UKCA

Warranty

Lifetime

Lifetime

1 Affects turn-on and turn-off determination
2 Time varies based on the SNAP PAC I/O processor (brain or on-the-rack controller), processor configuration, and Ethernet host communication activity.

SNAP High-Density Digital Modules Data Sheet

SNAP I/O high-density digital modules from Opto 22 provide 16 or 32 digital input or output points in one compact SNAP module. These modules are ideal for OEMs and others who have high point-count applications, or for anyone requiring more than 64 digital points on a single SNAP PAC rack. The high-density configuration reduces per-point costs of digital I/O systems by providing up to eight times as many I/O points in the same space.

SNAP high-density digital modules are part of the SNAP PAC System. They can also be used as part of intelligent remote I/O with an Allen-Bradley Logix PLC system. HDD modules require a SNAP PAC R-series controller or a SNAP PAC brain for I/O processing.

This data sheet covers the following modules:

The data sheet also covers the following accessories used with SNAP HDD modules:

SNAP High-Density Digital Module User's Guide

This guide covers how to install and test SNAP 16-channel and 32-channel digital modules, part of the SNAP PAC System. These modules provide 16 or 32 points of digital input or digital output in the same space as a 4-channel digital module. They are ideal for OEMs and for anyone who needs up to 512 digital points on a single mounting rack. SNAP high-density digital modules include the following part numbers:

  • SNAP-IAC-16
  • SNAP-IAC-A-16
  • SNAP-IAC-K-16
  • SNAP-IDC-16
  • SNAP-IDC-32
  • SNAP-IDC-32D
  • SNAP-IDC-32DN
  • SNAP-IDC-32-FM [OBSOLETE]
  • SNAP-IDC-32N
  • SNAP-ODC-32-SNK
  • SNAP-ODC-32-SNK-FM  [OBSOLETE]
  • SNAP-ODC-32-SRC
  • SNAP-ODC-32-SRC-FM  [OBSOLETE]

Modules, Cables, and Breakout Boards Compatibility Charts

This document shows which SNAP I/O modules, breakout boards, and cables can be used together.

Comparison Chart: SNAP 4-Channel and High-Density Digital Modules

This document compares 4-channel and high-density SNAP digital I/O modules.

SNAP PAC System Product Guide

This document lists and describes all current Opto 22 SNAP PAC System part numbers, including PAC Project software, SNAP PAC controllers, and SNAP I/O modules of all kinds. SNAP PAC mounting racks and SNAP power supplies are also listed.

UKCA Declaration of Conformity (EMC, LVD, RoHS)

This document is the Manufacturer's Declaration of Conformity for the products listed herein, in accordance with the rules, regulations and standards of the United Kingdom. The models cited have been tested to the essential requirements listed in the Standards section, and fully comply with the legislation as listed in UK Legislation section.

Case Study: AAQUA NV

Antwerp-based AAQUA NV has specialized in engineering and constructing industrial wastewater treatment plants since 1999, with customers all over the world. Where possible, the company also adds value to customer waste, either by recycling wastewater to drinking water quality or by capturing the energy in the water to reduce fuel costs.

Initially AAQUA often worked with a subcontractor to automate treatment, but in 2005 they began offering automation themselves. To do so, the small company needed an automation system that was Ethernet based, flexible, reliable, offered remote access, and was easy to learn.

In this case study, read how they found that system and how they use it today. 

Declaration of Conformity (EMC, LVD, RoHS)

This document is the Manufacturer's Declaration of Conformity for the products listed herein, in accordance with European, international, and/or national standards and regulations.

Case Study: Amalgamated Research, LLC

As the research and development department of Amalgamated Sugar in the 1970s, ARi began with a mission to develop efficient processes to extract sugar from sugar beets.

But over time, their continuous research in the industrial separation field has led them far beyond sugar.

Sinking or Sourcing Technical Note

Are you confused about sinking and sourcing when wiring DC circuits? This technical note explains what sinking and sourcing mean, explores where you would use one wiring method rather than the other, and shows how to use a digital output module with your DC circuit.

SNAP PAC System Migration Technical Note

This document describes migration options for customers integrating the SNAP PAC System with older Opto 22 systems. It explains the SNAP PAC System's similarities and differences with earlier systems, defines legacy products, and shows how to mix old and new hardware.

Customers moving to the SNAP PAC System may also want to consult form #1693, Legacy and Current Product Comparison and Compatibility Charts.

Opto 22 RoHS 3 Statement of Compliance - Restriction of Hazardous Substances

This document is a statement of compliance with the EU Directive 2015/863/EU, Restriction of Hazardous Substances (RoHS 3). This document lists Opto 22 products that comply with the substance restrictions of the RoHS 3 directive.

Using ioDisplay 6.0 with SNAP High-Density Digital Modules Technical Note

This technical note is for customers using SNAP high-density digital modules with ioControl 6.1 and ioDisplay 6.0.

UL Approval Document

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

CE Declaration: EMC

This document is the Manufacturer's Declaration for the listed products as mentioned in the attachment - to which this confirmation refers - that they are in accordance with the mentioned European, international and/or national standards and regulations.

CE Declaration: Low Voltage

This document is the Manufacturer's Declaration for the listed products as mentioned in the attachment - to which this confirmation refers - that they are in accordance with the mentioned European, international and/or national standards and regulations.

CAD 3D Drawing: SNAP-ODC-32-SRC Digital Output Module

This CAD file contains a 3-dimensional drawing of the SNAP-ODC-32 32-channel digital input and output modules. The drawing applies to the following modules:

CAD Drawing: SNAP-ODC-HDB Breakout Rack

This is a CAD drawing of the SNAP-ODC-HDB breakout rack, which is used with two SNAP high-density digital output modules: SNAP-ODC-32-SNK and SNAP-ODC-32-SRC.

Video: SNAP PAC System Overview

This overview describes the four integrated components of the SNAP PAC system: software, controllers, brains and I/O. This hardware and software system is designed for industrial control, remote monitoring and data acquisition.

Video: Securing SNAP Module

A quick overview on securing a SNAP Module to a SNAP rack.

Video: Removing a SNAP Module

A quick overview on removing a SNAP module.

Accuracy vs Resolution

What's the difference between accuracy and resolution in analog I/O specifications? Try your own specs in the calculator.

Sinking vs Sourcing

Switching a DC circuit? Learn about sinking and sourcing, and the digital output modules to use with each.