Allen-Bradley/Rockwell

Transcription

Allen-Bradley/Rockwell
MANUFACTURER DATA SHEET
PLC-CPU
Manufacturer:
Allen-Bradley/Rockwell
Model Number:
MicroLogic 1500
See www.geomartin.com for additional PDF datasheets
Martin Part Number:
VendorPartNumber:
E-065167-01 AB# 1764-24BWA. Base Unit
E-065174-00 AB# 1764-LSP, Processor 7K
E-065167-00 AB# 1764-LRP, Processor 14K
PDF File: Doc_000298_Cover.pdf
This page is intentionally left blank
MicroLogix™ 1500
Programmable
Controllers
(Bulletin 1764)
User Manual
Important User
Information
Because of the variety of uses for the products described in this publication, those
responsible for the application and use of this control equipment must satisfy
themselves that all necessary steps have been taken to assure that each application
and use meets all performance and safety requirements, including any applicable
laws, regulations, codes and standards.
The illustrations, charts, sample programs and layout examples shown in this
guide are intended solely for purposes of example. Since there are many variables
and requirements associated with any particular installation, Rockwell
International Corporation does not assume responsibility or liability (to include
intellectual property liability) for actual use based upon the examples shown in
this publication.
Rockwell Automation publication SGI-1.1, Safety Guidelines for the Application,
Installation and Maintenance of Solid-State Control (available from your local
Rockwell Automation office), describes some important differences between
solid-state equipment and electromechanical devices that should be taken into
consideration when applying products such as those described in this publication.
Reproduction of the contents of this copyrighted publication, in whole or part,
without written permission of Rockwell Automation, is prohibited.
Throughout this manual we use notes to make you aware of safety considerations:
ATTENTION
!
Identifies information about practices or circumstances that
can lead to personal injury or death, property damage or
economic loss
Attention statements help you to:
• identify a hazard
• avoid a hazard
• recognize the consequences
IMPORTANT Identifies information that is critical for successful
application and understanding of the product.
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Chapter
1
Hardware Overview
Hardware Features
The MicroLogix 1500 programmable controller contains a power supply, input
circuits, output circuits, and a processor. The controller is available in 24 I/O and
28 I/O configurations.
The hardware features of the controller are:
1
10
2
RUN
REM
PROG
3
12
4
5
11
10 9 8 1 7
6
Feature Description
Feature Description
1
Removable Terminal Blocks
7
Memory Module/Real-Time Clock(1)
2
Interface to Expansion I/O,
Removable ESD Barrier
8
Replacement Battery(1)
3
Input LEDs
9
Battery
4
Output LEDs
10
Terminal Doors and Label
5
Communication Port
11
Data Access Tool(1)
6
Status LEDs
12
Mode Switch, Trim Pots
(1) Optional.
1
Publication 1764-UM001A-US-P
1-2
Hardware Overview
MicroLogix 1500
Component Descriptions
A controller is composed of a standard processor (1764-LSP or enhanced
1764-LRP with RS-232 port) and one of the base units listed below. The FET
transistor outputs are available on the 1764-28BXB base only.
Base Units
Catalog Number Base Unit I/O and Power Supply
1764-24AWA
Twelve 120V ac inputs, twelve relay outputs and 120/240V ac power supply
1764-24BWA
Twelve 24V dc inputs, twelve relay outputs and 120/240V ac power supply
1764-28BXB
Sixteen 24V dc inputs, six FET and six relay outputs and 24V dc power supply
Processors
Processor (Catalog Number 1764-LSP)
Processor (Catalog Number 1764-LRP)
Communications Port
• DTE (male) 9-pin D-shell connector
• 30V dc isolation
Publication 1764-UM001A-US-P
Wiring Your Controller
3-3
Wiring with Spade Lugs
The diameter of the terminal screw head is 5.5 mm (0.220 in.). The input and
output terminals of the MicroLogix 1500 base unit are designed for a 6.35mm
(0.25 in.) wide spade (standard for #6 screw for up to 14 AWG) or a 4 mm (metric
#4) fork terminal.
When using spade lugs, use a small, flat-blade screwdriver to pry the finger-safe
cover from the terminal blocks as shown below. Then loosen the terminal screw.
Finger-Safe
Cover
Using Surge
Suppressors
Inductive load devices, such as motor starters and solenoids, require the use of
some type of surge suppression to protect and extend the operating life of the
controller’s output contacts. Switching inductive loads without surge suppression
can significantly reduce the life expectancy of relay contacts. By adding a
suppression device directly across the coil of an inductive device, you prolong the
life of the output or relay contacts. You also reduce the effects of voltage transients
and electrical noise from radiating into adjacent systems.
The following diagram shows an output with a suppression device. We recommend
that you locate the suppression device as close as possible to the load device.
+dc or L1
ac or dc
Outputs
VAC/
Out 0
Out 1
Out 2
Out 3
Out 4
Out 5
Out 6
Out 7
COM
Suppression
Device
dc COM or L2
Publication 1764-UM001A-US-P
3-4
Wiring Your Controller
If the outputs are dc, we recommend that you use an 1N4004 diode for surge
suppression, as shown below.
+24V dc
Relay or Solid
State dc Outputs
VAC/
Out 0
Out 1
Out 2
Out 3
Out 4
Out 5
Out 6
Out 7
COM
IN4004 Diode
24V dc common
Suitable surge suppression methods for inductive ac load devices include a varistor,
an RC network, or an Allen-Bradley surge suppressor, all shown below. These
components must be appropriately rated to suppress the switching transient
characteristic of the particular inductive device. See the table on page 3-5 for
recommended suppressors.
Surge Suppression for Inductive ac Load Devices
Output Device
Varistor
Output Device
RC Network
Output Device
Surge
Suppressor
If you connect an expansion I/O triac output to control an inductive load, we
recommend that you use varistors to suppress noise. Choose a varistor that is
appropriate for the application. The suppressors we recommend for triac outputs
when switching 120V ac inductive loads are a Harris MOV, part number V175
LA10A, or an Allen-Bradley MOV, catalog number 599-K04 or 599-KA04.
Consult the varistor manufacturer’s data sheet when selecting a varistor for your
application
For inductive dc load devices, a diode is suitable. A 1N4004 diode is acceptable for
most applications. A surge suppressor can also be used. See the table on page 3-5
for recommended suppressors.
Publication 1764-UM001A-US-P
3-8
Wiring Your Controller
Terminal Block Layouts
The base unit terminal block layouts are shown below. The shading on the labels
indicates how the terminals are grouped. A detail of the groupings is shown in the
table following the terminal block layouts.
Group 0
DC
COM 0
+24V
Inputs
DC
POWER
OUT
1764-24BWA
Outputs
VAC
VDC 0
L2
85-265
VAC
L1
Group 1
I/1
I/3
I/4
I/2
DC
COM 1
I/5
I/7
I/8
I / 10
VAC
VDC 1
VAC
VDC 2
VAC
VDC 3
VAC
VDC 4
O/5
O/7
O/8
O / 10
O/1
O/2
O/4
O/3
VAC
VDC 0
I/8
I / 10
VAC
VDC 1
VAC
VDC 2
VAC
VDC 3
VAC
VDC 4
O/5
O/7
O/8
O / 10
O/1
O/2
5
up
4
up
Group 2
DC
COM 2
I/6
I/9
I / 11
I / 15
I / 13
I/7
I/8
I / 10
I / 12
I / 14
VAC VDC 2
VDC 1
O/3
O/5
O/7
VAC
VDC 3
O/9
O / 10
O/2
O/4
O/6
VDC
COM 2
O/8
VAC
VDC 4
28BXB
28BXB
O / 11
4
up
G ro
3
up
G ro
O/1
2
up
G ro
O/0
24AWA
O / 11
I/5
I/2
24AWA
G ro
G ro
3
up
I/4
O/9
DC
COM 1
1
up
G ro
Publication 1764-UM001A-US-P
O/6
VAC
VDC 5
Group 1
I/3
0
up
G ro
+24V
O/4
G ro
2
up
VAC
VDC 0
O/3
G ro
1
up
COM
24 VDC
I / 11
I/7
G ro
Outputs
I/0
I/9
I/5
0
up
1764-28BXB
Group 2
AC
COM 2
I/6
AC
COM 1
I/1
NOT
USED
I/4
I/2
G ro
Inputs
DC
COM 0
I/3
24BWA
O / 11
I/0
Group 0
NOT
USED
Group 1
I/1
O/9
NOT
USED
O/0
L1
O/6
24BWA
5
up
G ro
L2
85-265
VAC
AC
COM 0
VAC
VDC 5
4
up
G ro
3
up
G ro
2
up
G ro
1
up
G ro
0
up
G ro
Group 0
Outputs
I / 11
I/0
NOT
USED
1764-24AWA
I/9
COM
O/0
Inputs
Group 2
DC
COM 2
I/6
Wiring Your Controller
3-9
Terminal Groupings
Controller
1764-24BWA
1764-24AWA
1764-28BXB
Controller
1764-24BWA
1764-24AWA
1764-28BXB
Inputs
Input Group
Group 0
Group 1
Group 2
Group 0
Group 1
Group 2
Group 0
Group 1
Group 2
Common Terminal
DC COM 0
DC COM 1
DC COM 2
AC COM 0
AC COM 1
AC COM 2
DC COM 0
DC COM 1
DC COM 2
Input Terminal
I/0 through I/3
I/4 through I/7
I/8 through I/11
I/0 through I/3
I/4 through I/7
I/8 through I/11
I/0 through I/3
I/4 through I/7
I/8 through I/15
Outputs
Output Group
Group 0
Group 1
Group 2
Group 3
Group 4
Group 5
Group 0
Group 1
Group 2
Group 3
Group 4
Group 5
Group 0
Group 1
Group 2
Group 3
Group 4
Voltage Terminal
VAC/VDC 0
VAC/VDC 1
VAC/VDC 2
VAC/VDC 3
VAC/VDC 4
VAC/VDC 5
VAC/VDC 0
VAC/VDC 1
VAC/VDC 2
VAC/VDC 3
VAC/VDC 4
VAC/VDC 5
VAC/VDC 0
VAC/VDC 1
VDC 2, VDC COM 2
VAC/VDC 3
VAC/VDC 4
Output Terminal
O/0
O/1
O/2
O/3
O/4 through O/7
O/8 through O/11
O/0
O/1
O/2
O/3
O/4 through O/7
O/8 through O/11
O/0
O/1
O/2 through O/7
O/8 and O/9
O/10 and O/11
Publication 1764-UM001A-US-P
3-10
Wiring Your Controller
Sinking and Sourcing
Circuits
Any of the MicroLogix 1500 DC embedded input groups can be configured as
sinking or sourcing depending on how the DC COM is wired on the group. See
pages 3-11 through 3-14 for sinking and sourcing wiring diagrams.
Type
Definition
Sinking Input
The input energizes when high-level voltage is applied to
connection of a PNP sourcing device the input terminal (active high). Connect the power supply
VDC (-) to the DC COM terminal.
The input energizes when low-level voltage is applied to
Sourcing Input
connection of an NPN sinking device the input terminal (active low). Connect the power supply
VDC (+) to the DC COM terminal.
1764-24AWA Wiring Diagram
Input Terminals
L2
NOT AC
IN 1
USED COM 0
NOT
USED
IN 0
IN 3
IN 4
IN 6
AC
IN 2 COM 1 IN 5
AC
IN 9
COM 2
IN 7
IN 8
IN 11
IN 10
L1
L2 L1
“NOT USED” terminals are not intended for use as connection points.
Output Terminals
CR
CR
L2
(Lo)
VAC VAC/ VAC/ VAC/ VAC/ VAC/
NEUT VDC 0 VDC 1 VDC 2 VDC 3 VDC 4 OUT 5 OUT 7 OUT 8 OUT 10
VAC/
120/240 EARTH
OUT 0 OUT 1 OUT 2 OUT 3 OUT 4 OUT 6
OUT 9 OUT 11
VDC 5
VAC GND
(Hi)
L1
Publication 1764-UM001A-US-P
CR
CR
CR
CR
Wiring Your Controller
3-11
1764-24BWA Sinking Wiring Diagram
Input Terminals
+24V
DC
IN 1
POWER
OUT COM 0
IN 0
COM
IN 3
IN 2
IN 4
IN 6
DC
IN 5
COM 1
-DC
DC
COM 2
IN 7
IN 8
IN 9
IN 11
IN 10
+DC
Output Terminals
CR
CR
L2
(Lo)
VAC VAC/ VAC/ VAC/ VAC/ VAC/
OUT 5 OUT 7 OUT 8 OUT 10
NEUT VDC 0 VDC 1 VDC 2 VDC 3 VDC 4
120/240 EARTH
VAC/
VAC GND OUT 0 OUT 1 OUT 2 OUT 3 OUT 4 OUT 6 VDC 5 OUT 9 OUT 11
(Hi)
L1
CR
CR
CR
CR
Publication 1764-UM001A-US-P
3-12
Wiring Your Controller
1764-24BWA Sourcing Wiring Diagram
Input Terminals
+24V
POWER DC IN 1
OUT COM 0
COM
IN 0
IN 2
IN 3
IN 4
DC
IN 5
COM 1
IN 6
DC
IN 9
COM 2
IN 7
IN 8
IN 11
IN 10
+DC -DC
Output Terminals
CR
L2
CR
(Lo)
VAC VAC/ VAC/ VAC/ VAC/ VAC/
NEUT VDC 0 VDC 1 VDC 2 VDC 3 VDC 4 OUT 5 OUT 7 OUT 8 OUT 10
VAC/
120/240 EARTH
OUT 0 OUT 1 OUT 2 OUT 3 OUT 4 OUT 6
OUT 9 OUT 11
VDC 5
VAC GND
L1
Publication 1764-UM001A-US-P
(Hi)
CR
CR
CR
CR
Wiring Your Controller
3-13
1764-28BXB Sinking Wiring Diagram
Input Terminals
-DC
+DC
-DC
+DC
NOT DC
IN 1
USED COM 0
NOT
IN 0
USED
IN 3
IN 2
IN 4
IN 6
DC
IN 5
COM 1
DC IN 9
COM 2
IN 7
IN 8
IN 11 IN 13 IN 15
IN 10 IN 12 IN 14
“NOT USED” terminals are not intended for use as connection points.
Output Terminals
CR
CR
CR
-DC
COM
VAC/ VAC/ VDC 2 OUT 3 OUT 5 OUT 7 VAC/ OUT 9 OUT 10
VDC 0 VDC 1
VDC 3
+24v EARTH OUT 0 OUT 1 OUT 2 OUT 4 OUT 6 VDC OUT 8 VAC/ OUT 11
COM 2
GND
VDC 4
+DC
CR
CR
CR
Publication 1764-UM001A-US-P
3-14
Wiring Your Controller
1764-28BXB Sourcing Wiring Diagram
Input Terminals
+DC
-DC
+DC
-DC
NOT DC
IN 1
USED COM 0
NOT IN 0
USED
IN 3
IN 2
IN 4
IN 6
DC
IN 5
COM 1
DC IN 9
COM 2
IN 7
IN 8
IN 11 IN 13 IN 15
IN 10 IN 12 IN 14
“NOT USED” terminals are not intended
Output Terminals
CR
CR
CR
-DC
COM
+24V
+DC
Publication 1764-UM001A-US-P
VAC/
VAC/ VAC/
OUT 9 OUT 10
VDC 2 OUT 3 OUT 5 OUT 7
VDC 3
VDC 0 VDC 1
VDC
VAC/
EARTH
OUT 0 OUT 1 OUT 2 OUT 4 OUT 6
OUT 8
OUT 11
COM 2
VDC 4
GND
CR
CR
CR
B-2
Replacement Parts
Lithium Battery
(1747-BA)
IMPORTANT
When the processor’s Battery Low indicator is lit, install a
replacement battery immediately. After the indicator turns on, the
battery lasts for at least:
• 14 days for the 1764-LSP
• 7 days for the 1764-LRP
Installing
Follow the procedure below to ensure proper replacement battery installation.
IMPORTANT
Do not remove the permanent battery when installing
replacement battery.
1. Insert battery into replacement battery pocket with wires facing up.
2. Insert replacement battery wire connector into connector port.
3. Secure battery wires under wire latch (as shown below).
Replacement Battery Pocket
Replacement Battery
DC INPUTS
Battery Connector Wires
24V SINK/SOURCE
DC/RELAY OUT
24V SOURCE
Permanent Battery
(DO NOT ATTEMPT
TO REMOVE)
Connector Port
Publication 1764-UM001A-US-P
Wire Connector
Wire Latch
9DEJA 2=FAH
Wiring Diagrams for MicroLogix™ 1500
Programmable Controllers and Compact
Discrete I/O Modules
(Bulletin 1764 and 1769)
List of Diagrams
Description
Page
1764-24AWA Base Unit, AC Power, 12 AC Inputs/ 12 Relay Outputs
2
1764-24BWA Base Unit, AC Power, 12 DC Inputs/ 12 Relay Outputs
1764-28BXB Base Unit, DC Power, 16 DC Inputs/ 6 Relay and 6 FET
Outputs
Sinking
3
Sourcing
4
Sinking
5
Sourcing
6
1769-IA16 100/120V ac 16-Point Input Module
7
1769-IM12 200/240V ac 12-Point Input Module
7
1769-IQ16 24V dc Sinking/Sourcing 16-Point Input Module
7
1769-IQ6XOW4 24V dc Sinking/Sourcing 6-Point Input, AC/DC 4-Point Normally
Open Relay Output Module
8
1769-OA8 100 to 240V ac 8-Point Output Module
8
1769-OB16 24V dc Sourcing 16-Point Output Module
8
1769-OV16 24V dc Sinking 16-Point Output Module
9
1769-OW8 AC/DC Normally Open Relay 8-Point Output Module
9
1764-901 - April 1999
2
Wiring Diagrams for MicroLogix™ 1500 Programmable Controllers and Compact Discrete I/O Modules
1764-24AWA Base Unit, AC
Power, 12 AC Inputs/ 12 Relay
Outputs
Input Terminals
Output Terminals
1764-901 - April 1999
Note: Do not use the NOT
USED terminals as
connection points.
Wiring Diagrams for MicroLogix™ 1500 Programmable Controllers and Compact Discrete I/O Modules
1764-24BWA Base Unit, AC
Power, 12 DC Inputs/ 12 Relay
Outputs - Sinking
!
Input Terminals
Output Terminals
1764-901 - April 1999
"
Wiring Diagrams for MicroLogix™ 1500 Programmable Controllers and Compact Discrete I/O Modules
1764-24BWA Base Unit, AC
Power, 12 DC Inputs/ 12 Relay
Outputs - Sourcing
Input Terminals
Output Terminals
1764-901 - April 1999
Wiring Diagrams for MicroLogix™ 1500 Programmable Controllers and Compact Discrete I/O Modules
1764-28BXB Base Unit, DC
Power, 16 DC Inputs/ 6 Relay
and 6 FET Outputs - Sinking
5
Input Terminals
Note: Do not use the NOT
USED terminals as
connection points.
Output Terminals
1764-901 - April 1999
6
Wiring Diagrams for MicroLogix™ 1500 Programmable Controllers and Compact Discrete I/O Modules
1764-28BXB Base Unit, DC
Power, 16 DC Inputs/ 6 Relay
and 6 FET Outputs - Sourcing
Input Terminals
Note: Do not use the NOT
USED terminals as
connection points.
Output Terminals
1764-901 - April 1999
Wiring Diagrams for MicroLogix™ 1500 Programmable Controllers and Compact Discrete I/O Modules
1769-IA16 100/120V ac
16-Point Input Module
7
L1
IN 0
IN 1
IN 2
IN 3
IN 4
IN 5
IN 6
100/120V ac
IN 7
IN 8
IN 9
IN 10
IN 11
IN 12
IN 13
IN 14
IN 15
AC
COM
L2
1769-IM12 200/240V ac
12-Point Input Module
AC
COM
Commons are
connected internally.
L1
IN 0
IN 1
IN 2
IN 3
IN 4
IN 5
IN 6
200/240V ac
IN 7
IN 8
IN 9
IN 10
IN 11
Note: Do not use the NC
terminals as connection
points.
NC
NC
NC
NC
AC
COM
L2
1769-IQ16 24V dc Sinking/
Sourcing 16-Point Input
Module
AC
COM
Commons are connected
internally.
+DC (sinking)
-DC (sourcing)
IN 0
IN 1
IN 2
24V dc
IN 3
IN 4
IN 5
IN 6
IN 7
+DC (sinking)
-DC (sourcing)
DC
COM 1
-DC (sinking)
+DC (sourcing)
IN 9
IN 8
IN 11
24V dc
IN 10
IN 13
IN 12
IN 15
-DC (sinking)
+DC (sourcing)
DC
COM 2
IN 14
1764-901 - April 1999
8
Wiring Diagrams for MicroLogix™ 1500 Programmable Controllers and Compact Discrete I/O Modules
1769-IQ6XOW4 24V dc Sinking/
Sourcing 6-Point Input,
AC/DC 4-Point Normally Open
Relay Output Module
CR
OUT 0
CR
OUT 2
VAC
VDC
L1 or +DC
OUT 1
CR
OUT 3
CR
NC
NC
NC
NC
NC
L2 or -DC
Note: Do not use the
NC terminals as
connection points.
NC
+DC (sinking)
-DC (sourcing)
IN 0
IN 1
24V dc
IN 2
IN 3
IN 4
IN 5
DC
COM
-DC (sinking)
+DC (sourcing)
1769-OA8 100 to 240V ac
8-Point Output Module
L1
VAC 1
CR
OUT 0
CR
OUT 2
OUT 1
CR
OUT 3
CR
100 to 240V ac
L2
L1
VAC 2
100 to 240V ac
CR
OUT 4
CR
OUT 6
OUT 5
CR
OUT 7
CR
L2
1769-OB16 24V dc Sourcing
16-Point Output Module
+DC
+VDC
CR
OUT 0
CR
OUT 2
OUT 1
CR
OUT 3
CR
OUT 4
OUT 5
CR
OUT 6
CR
OUT 8
OUT 7
CR
OUT 9
CR
OUT 11
CR
OUT 13
CR
24V dc (source)
OUT 10
OUT 12
OUT 14
OUT 15
DC COM
-DC
1764-901 - April 1999
Wiring Diagrams for MicroLogix™ 1500 Programmable Controllers and Compact Discrete I/O Modules
1769-OV16 24V dc Sinking
16-Point Output Module
+DC
+VDC
CR
OUT 0
CR
OUT 2
'
OUT 1
CR
OUT 3
CR
OUT 4
OUT 5
CR
OUT 6
CR
OUT 8
OUT 7
CR
OUT 9
CR
OUT 11
CR
OUT 13
CR
24V dc (sink)
OUT 10
OUT 12
OUT 14
OUT 15
DC COM
-DC
1769-OW8 AC/DC Normally
Open Relay 8-Point Output
Module
OUT 0
CR
L2 or -DC
L1 or +DC
OUT 1
CR
OUT 3
CR
OUT 5
CR
L2 or -DC
OUT 2
VAC-VDC
2
L1 or +DC
VAC-VDC
1
CR
OUT 4
CR
OUT 6
OUT 7
1764-901 - April 1999
Publication 1764-901 - April 1999
Supersedes Publication xxxxxxx-xx - xxxxxxx-xx
PN xxxxxxx-xx
© 1999 Rockwell International Corporation. All rights reserved. Printed in the U.S.A.

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