Allen-Bradley ArmorBlock-LP 1792-IB16LP Installation Instructions Manual

Installation Instructions

Cat. No. 1792-IB16LP

This 1792 ArmorBlock



I/O block module (Cat. No. 1792-IB16LP ) contains I/O circuits, a built-in power supply, and a built-in DeviceNet

I/O adapter. Because of its sealed housing, this 1792 I/O block requires no enclosure. It is compatible with PLC or SLC programmable controllers using DeviceNet scanners. The I/O values are accessible from the PLC or SLC programmable controller data table.

This ArmorBlock-LP module has no switches to set. You set module parameters using the DeviceNet Manager Software (cat. no. 1787-MGR) or similar configuration tool.

Contents

This box contains:

•

1 ArmorBlock–LP module

•

Package containing 10 write-on indicator tabs, and 7 micro caps

•

1 DeviceNet right hand aluminum T-port tap (part number 97042401)

•

Installation Instructions

European Union Directive Compliance

If this product is installed within the European Union or EEA regions and has the CE mark, the following regulations apply.

EMC Directive

This apparatus is tested to meet Council Directive 89/336/EEC

Electromagnetic Compatibility (EMC).

The product described in this manual is intended for use in an industrial environment.

ArmorBlock is a trademark of Allen-Bradley Co. Inc.

Publication 1792-5.6 – September 1997

2 ArmorBlock-LP 16 Input Module

Low Voltage Directive

This apparatus is also designed to meet Council Directive 73/23/EEC

Low Voltage, by applying the safety requirements of EN 61131–2

Programmable Controllers, Part 2 – Equipment Requirements and Tests.

For specific information that the above norm requires, see the appropriate sections in this manual, as well as the following

Allen-Bradley publications:

•

Industrial Automation Wiring and Grounding Guidelines for Noise

Immunity, publication 1770-4.1

•

Automation Systems Catalog, publication B111

Install Your ArmorBlock Module

Installation of the ArmorBlock module consists of:

• setting the node address and communication rate in the ArmorBlock module

• mounting the ArmorBlock module

• connecting the wiring

• communicating with your module

Set the Node Address

Each ArmorBlock comes with its internal program set for node address

63 and a communication rate of 125Kbps. To set the node address and communication rate, you need the following:

• host computer with DeviceNet Manager Software (or similar configuration software tool)

•

1770-KFD RS-232 module (or similar interface)

• suitable cables to connect the 1770-KFD to your module and to connect the 1770-KFD to your host computer

Publication 1792-5.6 – September 1997

ArmorBlock-LP 16 Input Module 3

Set up a system (as shown below) to communicate with your

ArmorBlock module to set the node address and communication rate to meet your system requirements.

Power from 9V dc power supply adapter

1770-KFD

RS-232 module

Host computer with

DeviceNetManager software

Power Supply Open style connector to sealed mini–connector

30194–M

Mount the ArmorBlock Module

Mount the block module directly to the machine or device. Complete mounting dimensions are shown below.

Mounting Dimensions

1.8

(45)

1.5

(38)

2.0

(51)

4.2

(107)

0.18

(4.5)

1.3

(33)

1.5

(39)

2.4

(60)

1.4

(36)

Inches

(Millimeters)

1.1

(27)

Use 3 #8 (4mm) screws to mount block

1.1

(27)

1.1

(27)

6.0

(152)

1.25

(32)

1.0

(25.5)

30198–M

Publication 1792-5.6 – September 1997

4 ArmorBlock-LP 16 Input Module

Connect the Wiring to the ArmorBlock Module

This module uses quick disconnect, screw-on style connectors for:

•

I/O input wiring

• the DeviceNet connector

5-pin DeviceNet Mini-connector

Eight 5-pin Input Micro-connectors

30197–M

Seven micro plugs are included with your module. Use these plugs to cover and seal unused ports. Pinout diagrams for these connectors are shown below.

!

ATTENTION: Make sure all connectors are securely tightened to properly seal the connections against leaks and maintain IP67 requirements.

Connecting the Input Wiring

Connect input wiring to the micro-connectors which screw into mating connectors on the front of the block.

Make connections as shown below.

I/O Input Micro-Connector

Pin 1 = Sensor Source Voltage Positive

3 4

Pin 2 = Signal B

5

Pin 3 = Negative/Return

2 1

(View into socket)

Pin 4 = Signal A

Pin 5 = Ground

Use a splitter cable (or “Y” cable) to access signal B.

Publication 1792-5.6 – September 1997

ArmorBlock-LP 16 Input Module 5

Connecting the DeviceNet Wiring

Connect DeviceNet wiring to the 5-pin mini-connector on the end of the block. Connections are shown below.

DeviceNet Mini-Connector

Pin 1 = Drain (Bare)

3

Pin 2 = V+ (Red)

4 2

Pin 3 = V– (Black)

Note: Colors are

DeviceNet standard

5 1 Pin 4 = CAN–HI (White)

Pin 5 CAN–LO (Blue)

(View into pins)

Communicate with Your ArmorBlock Module

This ArmorBlock module’s I/O is exchanged with the master through a poll, bit strobe or change of state connection.

When set for Polled, Bit Strobe, or change of state, the module consumes and produces as follows:

Type of I/O

Connection

Polled

Bit Strobe

Change of State

Consumes

0 Bytes

0 Bytes

0 Bytes

3 Bytes

3 Bytes

3 Bytes

Produces

Polled device – a master initiates communication by sending its polled

I/O message to the ArmorBlock module. The 16 input module scans the inputs and fault bit producing a response that reflects their status.

Change of state – productions occur when an input changes or an input source voltage fault occurs. If neither has occurred within the “expected packet rate,” a heartbeat production occurs. This heartbeat production tells the scanner module that the ArmorBlock module is alive and ready to communicate.

Bit Strobe device – a master initiates communication by sending its bit strobe I/O message. All bit strobed devices then respond. The 16 input module scans the inputs and fault bits, producing a response that reflects their status.

Publication 1792-5.6 – September 1997

6 ArmorBlock-LP 16 Input Module

Refer to the table below for the word/bit definitions.

Bit 07 06

Produces 1

Produces 2

I8A

I8B

Produces 3 IS

Where: I = Input

IS = Sensor source voltage fault

I7A

I7B

05

I6A

I6B

04 03

I5A

I5B

I4A

I4B

Reserved

02

I3A

I3B

01

I2A

I2B

00

I1A

I1B

Word Bit Description

Produces

1

00–07 Input bits – bit 00 corresponds to input 1A, bit 01 to input 2A, and so on.

0 = input off; 1 = the input is on.

Produces

2

00–07 Input bits – bit 00 corresponds to input 1B, bit 01 to input 2B, and so on.

0 = input off; 1 = the input is on.

Produces 00–06 Reserved

07 Sensor source voltage fault bit – this bit is set (1) when the sensor source voltage is faulted.

Publication 1792-5.6 – September 1997

ArmorBlock-LP 16 Input Module 7

Troubleshoot with the Indicators

The ArmorBlock I/O module has the following indicators:

•

Network status indicator (NS)

•

Module status indicator (MS)

•

Individual I/O status indicators (A, B)

•

Power Status indicators

– module power

– sensor power

– sensor short circuit

NS = Network Status Indicator

OVL = Sensor Short

Circuit Indicator

U

S

= Sensor Power

U

L

Status Indicator

MS = Module Status

Supply Status Indicator

= Module Power Supply

Indicator

A and B = Input I/O

Status Indicators

30197–M

Note: This module contains a circuit to protect the DeviceNet power supply from short circuits in an attached sensor or sensor cable. If you connect a sensor while the module is powered, the surge current produced by the sensor can cause the module to fault. This operation is normal.

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8 ArmorBlock-LP 16 Input Module

Network Status Indicator NS

Indication Status

Flashing Green

Solid Green

Flashing Red

Solid Red

On-line, not connected

Link OK, on-line connected

At least 1 I/O connection is in the timed-out state

Incorrect baud rate, or a duplicate Mac ID exists

Module Status Indicator MS

Indication

OFF

Flashing Green/OFF

Solid Green

Flashing Red

Solid Red

Status

No power, or no network access

On-line but not connected

On-line, link okay, connected

Recoverable fault

Critical failure

Sensor Short Circuit Indicator OVL

Indication

OFF

Solid Red

Status

Sensor source voltage operating correctly

1 or more Sensor source voltage shorts

Input I/O Status Indicators A and B

OFF

Yellow

Indication

No valid input signal present

Status

Valid input signal present

Module and Sensor Power Supply Status Indicators U

S

and U

L

OFF

Indication Status

Power supply is not functioning correctly

Green Power Supply is operating

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ArmorBlock-LP 16 Input Module 9

Specifications

16 Input Module – Cat. No. 1792-IB16LP

Input Specifications

Inputs per Block

On-state Voltage Range

On-state Current

Off-state Voltage

Off-state Current

Maximum

Minimum

Maximum

Minimum

16 sinking

12–30V dc

15.0mA @ 30V dc

1.6mA @ 12V dc

5V dc

0.8mA

5–12.0V dc

0.8–2.2mA

Transition Voltage

Transition Current

Input Signal Delay

Indicators

Off to On or On to Off

Sensor Source Voltage

Current

1ms maximum

Minimum 13V dc @ 800mA out and

DeviceNet power = 15V dc

50mA per point, 0.8A total per module

Network Status – red/green

Module Status – red/green

Sensor Power Supply Status – green

Module Power Supply Status – green

Short Circuit Sensors – red

I/O Status – yellow

125k, 250k, 500k selectable Communication Rate in Baud

General Specifications

DeviceNet Power Voltage

Current

Dimensions Inches

Millimeters

Environmental Conditions

Operational Temperature

Storage Temperature

Relative Humidity

Shock Operating

Non-operating

Vibration

Specifications continued on next page.

11.0 – 25.0V dc

100mA (no powered sensors)

900mA (full sensor load)

6.0H X 2.4W X 2.0D

152H X 60W X 51D

0 to 60 o C (32 to 140 o F)

–20 to 80 o C (–40 to 176 o F) up to 100%

30 g peak acceleration, 11(+1)ms pulse width

50 g peak acceleration, 11(+1)ms pulse width

Tested 10 g @ 10–500Hz per IEC 68-2-6

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10 ArmorBlock-LP 16 Input Module

General Specifications

Conductors

Enclosure

Agency Certification

Product Data (user information)

Refer to publication 1485-6.7.1 for information on cabling for your DeviceNet module.

Meets or exceeds IP67

CE marked for all applicable directives

Publication 1792-2.1

This product has been tested at an Open DeviceNet Vendor Association,

Inc. (ODVA) authorized independent test laboratory and found to comply with ODVA Conformance Test Software Version FT 1.3/1.1.

Worldwide representation.

Argentina

•

Australia

•

Austria

•

Bahrain

•

Belgium

•

Brazil

•

Bulgaria

•

Canada

•

Chile

•

China, PRC

•

Colombia

•

Costa Rica

•

Croatia

•

Cyprus

•

Czech Republic

•

Denmark

•

Ecuador

•

Egypt

•

El Salvador

•

Finland

•

France

•

Germany

•

Greece

•

Guatemala

•

Honduras

•

Hong Kong

•

Hungary

•

Iceland

•

India

•

Indonesia

•

Ireland

•

Israel

•

Italy

•

Jamaica

•

Japan

•

Jordan

•

Korea

•

Kuwait

•

Lebanon

•

Malaysia

•

Mexico

•

Netherlands

•

New Zealand

•

Norway

•

Pakistan

•

Peru

•

Philippines

•

Poland

•

Portugal

•

Puerto Rico

•

Qatar

•

Romania

•

Russia–CIS

•

Saudi Arabia

•

Singapore

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Slovakia

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Slovenia

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South

Africa, Republic

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Spain

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Sweden

•

Switzerland

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Taiwan

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Thailand

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Turkey

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United Arab Emirates

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United Kingdom

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United States

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Uruguay

•

Venezuela

•

Yugoslavia

Allen-Bradley Headquarters, 1201 South Second Street, Milwaukee, WI 53204 USA, Tel: (1)

414 382-2000 Fax: (1) 414 382-4444

Publication 1792-5.6 – September 1997

Publication 1792-5.6 – September 1997

PN955128–53

Copyright 1997 Allen-Bradley Company, Inc. Printed in USA