1 от 6

ABB 07 DO 90-S GJR5 2508 00 R202 AC31-S Safety Binary Output Module

ABB 07 DO 90-S GJR5 2508 00 R202 AC31-S Safety Binary Output Module

Only 6 item(s) left in stock
  • Manufacturer: ABB

  • Product No.: 07DO90-S GJR5250800R202

  • Country of origin:Германия

  • Product Type: Safety Binary Output Module

  • Barcode: 8537101190

  • Payment: T/T, Western Union

  • Weight: 400g

  • Dimensions: 120 × 140 × 85 mm

  • Shipping port: Xiamen

  • Warranty: 12 months

Количество
Покажи пълните подробности

Industrial Safety Output Control

The ABB 07 DO 90-S  (07 AB 90-S) (also known as 07DO90-S) with part number GJR5 2508 00 R202 / GJR5250800R202 is a safety-related binary output module designed for high-integrity automation systems in the Advant Controller 31-S platform. It operates as a remote I/O module connected via the electrically isolated CS31 system bus. The module provides 8 electrically isolated binary output channels, each rated at 24 V DC and 0.5 A. It is designed to default to a safe OFF state in fault conditions, making it suitable for safety-related applications compliant with DIN V 19250 requirement classes 1–4.

Key Hardware Features

  • Dual-Channel Architecture: Output activation requires simultaneous approval from two internal processing paths for enhanced safety integrity.
  • Independent Switch-Off Paths: Outputs are divided into two groups of four channels, each with separate shutdown control for redundancy.
  • Cyclic Signal Monitoring: The module continuously checks output behavior using short diagnostic pulses to detect faults or cross-talk.
  • Electrical Isolation: Optocouplers isolate the control logic from field outputs and the CS31 bus to reduce interference and improve safety.
  • On-Board Diagnostics: Front-panel LEDs indicate channel status and system faults for quick visual troubleshooting.

Target Industry Applications

  • Safety Instrumented Systems (SIS) requiring compliance with DIN V 19250 safety classes.
  • Emergency shutdown (ESD) and interlock systems in chemical and process industries.
  • Power plant auxiliary control and safety-critical automation networks.
  • Distributed remote I/O systems using the CS31 communication bus.

Ordering Information

Product Model Order Number System Compatibility
07 DO 90-S / 07DO90-S GJR5 2508 00 R202 / GJR5250800R202 Advant Controller 31-S (AC31 Central Units)

Technical Specifications

Parameter Value
Manufacturer ABB
Country of Origin Germany
Output Channels 8 binary outputs (2 groups of 4)
Process Voltage 24 V DC (20.4–28.8 V DC)
Internal Supply Voltage 24 V DC (20.4–28.8 V DC)
Load Current 0.5 A per channel
Total Output Current Max 4 A total
Signal Delay 8 ms
Test Pulse Duration < 1 ms
Short-Circuit Protection Electronic current limiting
Permissible Loads Resistive, inductive (max 0.5 Hz), lamp load (max 5 W)
Cable Length Up to 1000 m shielded / 600 m unshielded
Power Dissipation Max 15 W
Bus Transmission Time 750 µs
Dimensions 120 × 140 × 85 mm
Weight 400 g
Shipping Weight 0.65 kg
Package Size 160 × 180 × 120 mm

Terminal Configuration & Functional Assignments

Terminal Block Pins Signal Description
X1 1–8, 9 A00–A07, Shield 24 V DC binary outputs / shield connection
X2 10–14 Shield / Bus CS31 system bus interface and grounding
X3 15–23 ZP, UP, NC 0 V reference, +24 V supply, not connected
X4 24–28 NC, M, L+ Internal reference and supply voltages

Installation and Guides

Installation Notes

The 07 DO 90-S is typically installed inside ABB AC31-S control cabinets on a standard DIN rail.

In most retrofit systems, it is mounted together with other AC31 I/O modules in an existing cabinet layout. Proper spacing should be considered to avoid heat accumulation in dense panels.

Keep the module away from high interference sources such as drives, transformers, or large switching contactors, since older CS31-based systems can be sensitive to electrical noise.

Wiring Notes

Each output channel supports 24 V DC with a maximum load of 0.5 A.

In real applications, wiring quality has more impact on stability than the rated specification.

Inductive loads such as solenoids and valves should always be protected with proper suppression devices such as flyback diodes.

Avoid mixing power return paths between high-load actuators and low-level control circuits, especially in legacy panels where grounding practices may not be consistent.

Most field issues are caused by wiring changes during maintenance or retrofit work rather than module failure.

CS31 Bus Behavior

The CS31 communication bus is stable when correctly installed, but it is sensitive to wiring layout and grounding conditions.

Common field issues include improper shield termination, extended bus lines added during system expansion, or mixed grounding between cabinet sections.

In many plants, communication problems appear only after small modifications to an existing system.

Field Experience

This module is commonly found in legacy ABB AC31-S systems still operating in production environments.

Typical applications include valve control, interlock logic, burner management systems, and distributed I/O expansion in older automation architectures.

In most cases, the module is replaced not because of failure, but due to system upgrades or spare part planning requirements.

Procurement Notes

This module is supplied for maintenance and replacement use in existing ABB AC31-S systems.

Please confirm that the part number matches your existing unit before ordering, especially GJR5250800R0202 or 07 DO 90-S.

This is a legacy automation component, commonly sourced for repair, spare part stocking, or system downtime replacement.

No configuration or software modification is typically required when replacing like-for-like units in the same AC31 rack.

Product Documentation

Technical Datasheet (PDF) Complete specifications and technical drawings.

Technical Datasheet

ABB 07 DO 90-S GJR5 2508 00 R202 AC31-S Safety Binary Output Module

What is the consequence if the process voltage UP drops or is interrupted during operation?

Any interruption of the process voltage UP is not permitted. It will immediately trigger an external error, cause the respective group shutdown, and report a fault to the central master unit.

Why do the output channels switch on and off for a duration under 1 millisecond?

The module executes an automatic cyclic self-test to check the switch capacity of output drivers and group shutdown transistors. These pulses are under 1 ms so that connected inductive loads or relays do not react.

What happens if a capacitive load is accidentally connected to an output channel?

Connecting capacitive loads is strictly prohibited. Doing so causes an external error condition, interrupting operation of the associated output group.

Can an individual blown fuse be replaced on-site within this output module?

No. The unit contains integrated solder-in micro-fuses. If a fuse blows, the entire module must be replaced to preserve certified safety infrastructure compliance.

Глобална експресна доставка

  • Стандартна доставка: 4-6 работни дни чрез DHL, FedEx и UPS.
  • Експресна изпращане: Изпращане в същия ден за налични поръчки, направени преди 14:00 ч. (GMT+8).
  • Глобално покритие: Обслужваме над 150 държави, включително бърза доставка до Саудитска Арабия и ОАЕ.

Връщания и гаранция

  • 30-дневна гаранция: Връщания се приемат за налични продукти в оригинална, фабрично запечатана опаковка.
  • 12-месечна гаранция: Всеки индустриален компонент е подкрепен с нашата професионална техническа гаранция.

Поръчките се обработват и доставят от понеделник до петък (с изключение на официалните празници).


За пълна информация относно допустимост, такси за презареждане и международни връщания, моля, разгледайте нашия официален Политика за възстановяване и връщане .

TECHNICAL SPECIFICATIONS

Color pattern
Сиво-бял
Country of origin
Германия
Power source
Постоянен ток

Наскоро разгледани продукти

Технически знания

Electric Actuators Designed to Replace Fluid Power Systems: A Practical Industrial Automation Guide

This article explains how integrated electric actuators, such as SMC’s e-Actuator series, are transforming industrial motion control by replacing traditional pneumatic and hydraulic systems. It...

Math Operations Using OpenPLC for Industrial Automation Applications

This article explains how PLC systems perform core mathematical operations such as addition, subtraction, multiplication, division, modulo, and exponentiation within industrial automation. It shows...

Advanced Boolean Logic with FBD PLC Programming: Practical Industrial Applications Beyond Basic Logic

The article explains several advanced Boolean logic functions used in PLC programming beyond basic AND, OR, and NOT operations. It covers how tools like truth tables, multiplexers, pulse generators,...

Boolean Logic in PLC Programming: Understanding FBD Logic Gates

Boolean logic is the foundation of every PLC program. From simple machine controls to complex industrial automation systems, logic gates determine how controllers respond to changing inputs and...

Deep-Dive Guide to Industrial Firewalls and OT Network Segmentation

Industrial firewalls play a critical role in OT cybersecurity, protecting PLC, DCS, and SCADA networks through segmentation, ingress/egress control, and IDS/IPS integration aligned with IEC 62443...

Guide to Robotic Grippers: From Delicate Handling to Heavy-Duty Automation

Modern robotic grippers are evolving beyond traditional mechanical jaws. From gecko-inspired adhesive systems and soft food-grade grippers to AI-powered warehouse tools, advanced gripping...