Helm Instrument Company, Inc.
361 West Dussel Drive
Maumee, Ohio 43537 USA
419/ 893-4356
Fax: 419/ 893-1371
1769 Weigh Scale
Module
Model HM1525
Instruction Manual
FEBRUARY 2004
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Table of Contents
Weigh Scale Load Module
User Manual
Table of
Contents
Strain Gage
Preface...................................................................... P-1
Who Should Use this Manual................................P-1
Purpose of this Manual .........................................P-1
Contents of this Manual ........................................P-2
Related Documentation ........................................P-3
Terms and Abbreviations......................................P-4
Common Techniques Used in this Manual ...........P-5
Product Support....................................................P-5
Your Questions or Comments on this Manual ......P-5
Chapter 1..................................................................1-1
Components..........................................................1-1
Strain Gain Transducer Operation........................1-1
Hardware Overview ..............................................1-2
Overview
Chapter 2..................................................................2-1
Getting Started......................................................2-1
Required Tools and Equipment ............................2-1
System Operation .................................................2-2
Sensor Wiring .......................................................2-2
Getting
Started
Chapter 3..................................................................3-1
Channel Configuration, Data and Status ..............3-1
Module Addressing ...............................................3-1
Module Configuration.........................................3-1
Data Table Memory Map ......................................3-1
Output Image ........................................................3-1
Input Image...........................................................3-3
Integer File............................................................3-5
Channel
Configuration,
Data and
Status
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Table of Contents
Weigh Scale Load Module
User Manual
Initial
Setup
Procedures
Chapter 4..................................................................4-1
Initial Setup Procedures........................................4-1
Step 1. Balance Sensor Input ...............................4-1
Step 2. Set Calibration Numbers ..........................4-2
Chapter 5..................................................................5-1
HT-400 Sensor Ohm Reading ..............................5-1
Block Diagrams.....................................................5-2
Trim Jumper Setting..............................................5-2
PLC Ladder Logic .................................................5-3
System
Trouble-
Shooting
Guide
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Preface
Preface
Read this preface to familiarize yourself with the rest of this manual. This
preface covers the following topics:
•
•
•
•
•
who should use this manual
the purpose of this manual
terms and abbreviations
conventions used in this manual
Allen-Bradley support
Who Should
Use this
Manual
Use this manual if you are responsible for the design, installation, programming,
or maintenance of an automation control system that used Allen-Bradley small
logic controllers.
You should have a basic understanding of SLC 500 products. You should
understand electronic process control and be able to interpret the ladder logic
instructions required to generate the electronic signals that control your
application. If you do not, contact your local Allen-Bradley representative for the
proper training before using this product.
This manual is a learning and reference guide for the Helm Weigh Scale Module.
It contains the information you need to install, wire, and use the module.
Purpose of
This Manual
P-1
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Preface
Contents of this
Manual
Chapter
Title
Content
Describes the purpose, background,
and scope of this manual. Also
specifies the audience for whom this
manual is intended and defines key
terms and abbreviations used
throughout this book.
Preface
Provides a hardware and system
overview. Explains and illustrates the
components of the system.
1
Overview
Provides installation information and
wiring guidelines.
2
3
Installation and Wiring
Examines the channel configuration
and the channel status word, and
explains how the module uses
configuration data and generates
status during operation.
Channel Configuration, Data
and
Status
Gives an example of the ladder logic
required to define the channel for
operation. Also includes
4 Ladder Programming Examples
representative examples for unique
requirements such as sample count,
trend calculation, etc.
Explains how to interpret and correct
problems that occur while using the
load module.
5
A
B
Troubleshooting
Specifications
Provides physical, electrical,
Environmental, and functional
Specifications for the module.
Ladder Program
P-2
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Preface
Related
Documentation
The following documents contain information that may be helpful to you as you use Allen-Bradley SLC
products. To obtain a copy of any of the Allen-Bradley documents listed, contact your local Allen-Bradley
office or distributor.
For
Read this Document
Document
Number
An overview for the MicroLogixTM
Programmable Controllers
MicroLogix 1500 Programmable Controllers
1764-UM001A-US-P
1764-IN001A-ML-P
1764-IN002A-ML-P
1769-2.1
A description on how to install and use your
MicroLogix Programmable Controller
MicroLogix 1500 Programmable Controller
Base Units Installation Instructions and
Wiring Diagrams
A description on how to install the processor MicroLogix 1500 Processor Installation
into the MicroLogix 1500 Base unit.
Instructions
Selecting Discrete Input/Output Modules
Compact Discrete Input/Output Modules
Technical Data
View power usage of expansion modules to
determine power supply requirements
Expansion Modules System Qualifier
RA Website Download
1769-5.16
End Cap Installation
Compact I/O End Caps/Terminators
Installation Instructions
A complete listing of current Automation
Group documentation, including ordering
instructions. Also indicates whether the
documents are available on CD-ROM or in
multi-languages
Automation Group Publication Index
SD499
A glossary of industrial automation terms
and abbreviations
Allen-Bradley Industrial Automation
Glossary
ICCG-7.1
An article on wire sizes and types for
grounding electrical equipment
National Electrical Code
Published by the
National Fire
Protection
Association of
Boston, MA.
P-3
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Preface
Terms and
Abbrevia-
tions
The following terms and abbreviations are used throughout this manual. For definitions of terms
not listed here refer to Allen-Bradley’s Industrial Automation Glossary, Publication ICCG-7.1.
Calibration - Procedure, performed by trained personnel, where machine or press is
dynamically loaded to impact on load cells. A process of linearity measuring to determine the
loading capacity of the machine.
Calibration Number - Amplification values established during machine calibration or pre-
assigned on force load cells.
Channel - Refers to one of two, strain gage inputs available on the modules terminal block.
Chassis - A hardware assembly that houses devices such as I/O modules, adapter modules,
processor modules, and power supplies.
Configuration Word - Contains the channel configuration information needed by the module to
configure and operate each channel. Information is written to the configuration word through
the logic supplied in your ladder program.
Data Word - A 16-bit integer that represent the value of the analog input channel. The channel
data word is valid only when the channel is enabled.
Gain - Amplification of an input signal.
Load/Force - Measurement of impact during a machine cycle. Sensors provide the input for
this measurement.
LSB - (Least Significant Bit) Refers to a data increment defined as the full scale range divided
by the resolution. The bit that represents the smallest value within a string of bits.
Remote Configuration - A control system where the chassis can be located several thousand
feet from the processor chassis.
Resolution - The smallest detectable change in a measurement, typically expressed in
engineering units (e.g. 0.15C) or as a number of bits. For example a 12-bit system has 4,096
possible output states. It can therefore measure 1 part in 4096.
Sample - Load/force values established from a series of machine cycles. Also defined as
benchmark.
Sampling time - The time required by the A/D converter to sample an input channel.
Scale - Value used to describe the press/machine overall tonnage. Set for maximum value of
one channel. For example, settings for a 150 ton press = 75.
Status Word - Contains status information about the channel’s current configuration and
operational state. You can use this information in your ladder program to determine whether
the channel data word is valid.
Update Time - The time required for the module to sample and convert the input signals of all
enables input channels and make the resulting data values available to the SLC processor.
P-4
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Preface
Common
Techniques
Used in this
Manual
The following conventions are used throughout this manual:
•
•
Bulleted lists such as this one provide information, not procedural steps.
Numbered lists provide sequential steps or hierarchical information.
Contact your Helm representative or call Helm direct at 419-893-4356:
Product
Support
•
•
•
•
sales and order support
product technical training
warranty support
support service agreements
Your Questions or Comments on this Manual
If you have any suggestions for how this manual could be made more useful to you, please send
us your ideas.
P-5
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Chapter 1
Overview
You have just purchased the most advanced load monitoring solution
available. HELM INSTRUMENT COMPANY, INC. manufactures a
complete line of load monitoring control solutions for use on metal
stamping, forging, compaction and assembly presses; cold forming, cold
heating, injection molding and die cast machines.
Standard or custom transducers and load cells are available for in-die
monitoring of transfer or progressive tooling.
At HELM, quality is inherent not only in the design of our products but in
the attitudes of our employees as well. We’re working together to give
you the best. After all, that’s what our business is all about - providing
innovative instrumentation to help make your manufacturing process
more productive and your operation more effective.
The Helm Weigh Scale combines machine and tooling monitoring with
programmable limit switch function. User programmable high and low
limits protect the machine and tooling to ensure part quality.
Critical setup information can be stored and uploaded as part of a die
recipe program. An optional resolver input module is used to compare
machine/press tonnage to crank angle for real time signature analysis.
The Helm Weigh Scale module is attached to the controller or to an
adjacent I/O module on the din rail. The system is comprised of two
parts; the input module and two Helm Strain gage based sensors.
Components
The primary part of the load monitoring system centers around the
measurement. The basic function of the Helm Strain Gain sensor is to
detect the amount of deflection imposed on the press or die as parts are
being formed. All Strain Gain sensors are matched to within 1% and
therefore can be replaced without recalibration of the machine.
Strain Gain
Transducer
Operation
The Helm Strain Gain sensors can be mounted to strategic high stress
areas of the machine frame or strategically located in tooling or applied
to stop blocks. Signals from these sensors are routed to the Weigh
Scale module for processing. The Helm Strain Gage is capable of
measuring either a tension or compression
signal.
Page 1-1
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Chapter 1
Hardware
Overview
The Weigh Scale module can be attached to the controller or to an
adjacent I/O module before or after din rail mounting. It is a Class 1
module (uses eight input words and eight output words). It interfaces to
strain gage based transducers (350ohm or 700ohm).
The module can accept input from two sensors. The module has no
output channels. Module configuration requires manual and user
programmable setup.
The Weigh Scale module receives and stores digitally converted analog
data into its image table for retrieval by processor. The module supports
connections from any combination of up to two strain gage sensors.
Any combination of Helm Strain Gage sensors can be used. Contact
Helm for additional information on the type and application of different
sensor options.
Page 1-2
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Chapter 2
Getting
Started
This chapter can help you to get started using the Helm Weigh Scale
module. The procedures included here assume that you have a basic
understanding of PLC products. You should understand electronic
process control and be able to interpret the ladder logic instructions
required to generate the electronic signals that control your application.
Because it is a start-up guide, this chapter does not contain detailed
explanations about the procedures listed. It does, however, reference
other chapters in this book where you can get more information about
applying the procedures described in each step. It also references other
SLC documentation that may be helpful if you are unfamiliar with
programming techniques or system installation requirements.
If you have any questions or are unfamiliar with the terms used or
concepts presented in the procedural steps, always read the referenced
chapters and other recommended documentation before trying to apply
the information.
This chapter will:
•
•
•
Tell you what equipment you need
Explain how to install and wire the module
Show you how to set channels for the sensor input
Required Tools and Equipment
Have the following tools and equipment ready:
•
•
•
Small blade screwdriver
Appropriate strain gage cable
Programming equipment (All programming examples shown in this
manual demonstrate the use of Allen-Bradley’s RS Logix 500.
Page 2-1
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Chapter 2
System
Operation
The Weigh Scale module communicates to the processor through the parallel
backplane interface and receives +5Vdc and +24Vdc power from the power
supply through the backplane. No external power supply is required. The
MicroLogix and CompactLogix platforms can support up to 8 I/O modules. You
may install up to 3 Weigh Scale modules using the base power supply. An
additional power supply can be added to support more than 3 modules. Refer to
publication 17864-UM100A-US-P for information on expansion power supply
systems.
Each individual channel on the module can receive input signals from strain gage
based sensors. The module converts the analog values directly into digital
values.
Sensor
Wiring
The sensors are wired to the modules using the rightmost bank of inputs.
The pin-out is shown below.
To ensure proper operation
and high immunity to
electrical noise, always use
Helm strain gage cable.
The module can support up to
two sensor inputs DO NOT
attempt to parallel additional
gages as you will cause
damage to the module and void
product warranty.
To limit noise, keep strain gage cable as
far away as possible from power and load
lines.
Page 2-2
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Chapter 3
Channel
This chapter explains how the Weigh Scale module and the processor communicate
through the module's input and output image.
Configuration
Data and
Status
For CompactLogix / RSLogix™ 5000 setup, please refer to Appendix A
With RS Logix500 software, verify the module ID code.
Expansion General Configuration
Vendor ID = 3
Product Type = 9
Product Code = 1
Series/Major Rev/Minor Rev = D
Weigh
Scale
Module ID
Code = 1
No special I/O configuration (SPIO CONFIG) information is required. The module ID code
automatically assigns the correct number of input and output words. The following memory map
shows how the output and input image tables are defined.
The 8 word output image (output from the CPU to the module) contains
Information that you configure to define the way a specific channel will work.
Example – If you want to configure channel 2 on the module located in slot 4
in the SLC chassis, your address would be O:4.2.
Output Image
(o = file type : =element delimiter 4=slot
.=word delimiter 2=word)
Bit
Reserved
Reserved
Reserved
O:e.0/0
Bit
O:e.0/1
O:e.0/2
Bit
Bit
Zero Stabilize 0=Off 1=On
LSD Flicker 0=Off 1=On
Vibration Filter 0=Off 1=On
Channel 2 Trim
O:e.0/3
O:e.0/4
O:e.0/5
O:e.0/6
O:e.0/7
O:e.0/8
O:e.0/9
O:e.0/10
O:e.0/11
O:e.0/12
O:e.0/13
O:e.0/14
O:e.0/15
O:e.1
Bit
Bit
Bit
Bit
Coarse Zero Up Adjust
Channel 1 Trim
Bit
Bit
Reserved
Bit
Reserved
Bit
Reserved
Bit
Coarse Zero Down Adjust
Clear Tare
Bit
Bit
Tare
Bit
Channel Toggle 0=CH1 1=CH2
Channel 1 Scale value
Channel 1 mV/V Setting
Channel 1 A/D Trim Setting
Channel 2 mV/V Setting
Channel 2 A/D Trim Setting
A/D Samples Setting
Channel 2 Scale value
Integer
Integer
Integer
Integer
Integer
Integer
Integer
O:e.2
O:e.3
O:e.4
O:e.5
O:e.6
O:e.7
Page 3-1
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Chapter 3
Output
Image
(cont.)
Zero Stabilize Bit (O:e/3)
Enables module feature to display “0” when Weigh scale is empty.
0 = Disable 1 = Enable
Least Significant Bit (LSD) Flicker Bit (O:e/4)
LSD of weigh value. Does not change when load is applied or if load
is constant.
Vibration Filter Bit (O:e/5)
Enables vibration filter to cancel out load variation due to vibration of
product weighed.
0 = Disable
1 = Enable
Channel 2 Trim Bit (O:e/6)
Factory set bit to load Channel 2 trim value into module (Not for end user)
Coarse Zero Up Adjust Bit (O:e/7)
Used to increase offset of amplifier to set to range of A/D.
Channel 1 Trim Bit (O:e/8)
Factory set bit to load Channel 1 trim value into module (Not for end user)
Coarse Zero Down Adjust Bit (O:e/12)
Used to decrease offset of amplifier to set to range of A/D.
Clear Tare Bit (O:e/13)
Resets or removes tare value from module. (Used to initially setup module)
Tare Bit (O:e/14)
Sets weigh value to zero.
Channel Toggle Bit (O:e/15)
Used to switch from Channel 1 to Channel 2 when setting up channels.
Channel 1 Scale Value (Integer Word O:e.1)
Value of scale from capacity of load cell for Channel 1.
Channel 1 mV/V Setting (Integer Word O:e.2)
4 digit mV/V setting from load cell mV/V specification.
Channel 1 A/D Trim Setting (Integer Word O:e.3)
Factory set trim value for Channel 1. (Not for end user)
Channel 2 mV/V Setting (Integer Word O:e.4)
4 digit mV/V setting from load cell mV/V specification.
Channel 2 A/D Trim Setting (Integer Word O:e.5)
Factory set trim value for Channel 2. (Not for end user)
A/D Samples Setting (Integer Word O:e.6)
Sets number of samples (for averaging) of weigh value. (0-1000)
Channel 2 Scale Value (Integer Word O:e.7)
Value of scale from capacity of load cell for Channel 2.
Page 3-2
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Chapter 3
Data Table
Input Image
The 8-word module input image (input from the module to the CPU) represents data
words and status words. Input words (data words) hold the input data that represents
the values of the sensor inputs.
Input words (status bits) contain the various status conditions and reflect the
configuration settings you have entered into the output configuration words.
(I =file type : =element delimiter 2 =slot
. =word delimiter 0 =word / 2 =bit)
Bit
Reserved
I:e.0/0
I:e.0/1
I:e.0/2
I:e.0/3
I:e.0/4
I:e.0/5
I:e.0/6
I:e.0/14
I:e.0/15
Bit
Trim Mode
Reserved
Bit
Bit
Reserved
Bit
Reserved
Bit
Reserved
Bit
Reserved
Bit
Channel 1 Sign Bit
Channel 2 Sign Bit
Bit
Integer
Integer
Integer
Integer
Integer
Integer
Integer
Channel 1 Weigh Value
Channel 2 Weigh Value
Channel 1 A/D Trim Value
Reserved
I:e.1
I:e.2
I:e.3
I:e.4
I:e.5
I:e.6
I:e.7
Channel 2 A/D Trim Value
Communication Fault Counter
Reserved
Calibrate Mode Bit (I:e/1)
If set, module is in trim mode. Bit should always be clear.
Channel 1 Sign Bit (I:e/14)
If Channel 1 signal is positive value, Bit = 0 and negative value Bit = 1.
Channel 2 Sign Bit (I:e/15)
If Channel 2 signal is positive value, Bit = 0 and negative value Bit = 1.
Page 3-3
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Chapter 3
Input
Image
(cont.)
Channel 1 Weigh Value (I:e.1)
Weigh value for Channel 1
Channel 2 Weigh Value (I:e.2)
Weigh value for Channel 2.
Channel 1 A/D Trim Value (I:e.3)
Value stored in module for Channel 1. Value should match value on sticker.
Channel 2 A/D Trim Value (I:e.5)
Value stored in module for Channel 2. Value should match value on sticker.
Communication Fault Counter (I:e.6)
Used to troubleshoot noise or ground loops. Associated with module faults to PLC.
Counter value should always be zero.
Page 3-4
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Chapter 3
Integer File
Using RS Logix500 software, reserve an integer file for Weigh Module monitoring.
For illustration purposes in this manual, we have reserved Integer file N10:0 - N10:16.
Data Description
Address
Bit
Bit
Channel 1 Sign Bit
Channel 2 Sign Bit
N10:0/2
N10:0/3
N10:2
Integer Faults
Integer Channel 1 A/D Trim
Integer Channel 2 A/D Trim
Integer Channel 1 Weigh Value
Integer Channel 2 Weigh Value
N10:5
N10:6
N10:8
N10:9
Bit
Bit
Bit
Bit
Bit
Bit
Bit
Up Button
Channel 2 A/D Trim Set Bit
Down Button
Channel 1 A/D Trim Set Bit
Reset Zero
Tare/Zero Button
N10:16/1
N10:16/2
N10:16/3
N10:16/4
N10:16/9
N10:16/12
N10:16/13
Channel Toggle Bit 0=CH1 1=CH2
Page 3-5
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Setup
Procedure
Chapter 4
A complete listing of a sample ladder logic program is included at the back of this manual.
Examples shown here are for reference.
All values are 0 (default) on initial start-up. This means that all alarms are
disabled. You must make the following adjustments for proper operation:
• Balance sensor input(s)
• Set Calibration numbers
Step 1. Balance Sensor Input.
1. Set mV/V to 2000.
2. Set Scale to 10000.
3. Press Clear Tare pushbutton.
4. Use Up and Down buttons to set amplifier to low range of A/D (20,000 counts)
5. Press Zero/Tare pushbutton.
Step 2. Set Calibration Numbers
1. Set Scale to capacity of load cell.
2. Set mV/V to load cell specification.
3. Example:
100 ton load cell, 2.025 mV/V
For scale set, enter 100
For mV/V set, enter 2025
Page 4-1
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Chapter 5
System
Trouble-
shooting
Guide
HT-400 Sensor Ohm Readings
Green-Black
Red-White
All other color combinations
All colors to Ground
Shield to Ground
350 ohms
350 ohms
266 ohms
open
open
Electrical Specifications:
Type of input
Input Impedance
Strain Gage (350 ohm, 700 ohm)
10k
Display Resolution
Overall Module Accuracy
Module Update Time
Number of Channels
A/D Conversion Method
Normal Mode Rejection:
(between +/- input)
Amplifier Bandwidth
Calibration
Up to .0025% of full scale
.01% of full scale
10 µsec
2 (isolated)
Successive Approximation - 16 bit
116DB CMRR
200 kHz
Software Selectable
Isolation:
500 VDC continuous between inputs
and chassis ground, and between input
and backplane
LED indicators
Recommended Cable
Terminal Strip
2 LED's for Power and Alarm
Strain Gage Cable (Helm part number 6117)
16-pin removable
Operating Temperatures
Hazardous Environment
Classification
0°C to 60°C (32°F to 140°F)
Class 1 Division 2 Hazardous Environment
Factory Jumper. Removing this
Jumper will cause module to
Become unstable.
Trim Jumper
Located at Bottom
Left Corner of Module
Black Jumper
Page 5-1
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APPENDIX A – Module Properties RSLogix™5000
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WEIGH_MODULE - Ladder Diagram
WEIGH_1525:MainTask:MainProgram
Total number of rungs in routine: 7
Page 1
2/27/2008 3:01:17 PM
C:\Jobs\Helm\Module_Logic\COMPACTLOGIX_HM1525.ACD
MOVE SAMPLE SETPOINT FROM MMI SCREEN TO MODULE
WEIGH MODULE A/D
SAMPLES SETTING
MOV
0
Move
Source HM1525_CONTROL[1]
1
Dest
Local:1:O.Data[6]
1
MOVE SCALE SETPOINTS FROM MMI SCREEN TO MODULE
WEIGH MODULE CHANNEL
1 SCALE
MOV
1
Move
Source HM1525_CONTROL[2]
10000
Dest
Local:1:O.Data[1]
10000
WEIGH MODULE CHANNEL
2 SCALE
MOV
Move
Source HM1525_CONTROL[3]
10000
Dest
Local:1:O.Data[7]
10000
MOVE MV/V SETPOINTS FROM MMI SCREEN TO MODULE
WEIGH MODULE CHANNEL
1 MV/V SETTING
MOV
2
Move
Source HM1525_CONTROL[4]
2000
Dest
Local:1:O.Data[2]
2000
WEIGH MODULE CHANNEL
2 MV/V SETTING
MOV
Move
Source HM1525_CONTROL[5]
2000
Dest
Local:1:O.Data[4]
2000
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RSLogix 5000
WEIGH_MODULE - Ladder Diagram
WEIGH_1525:MainTask:MainProgram
Total number of rungs in routine: 7
Page 2
2/27/2008 3:01:17 PM
C:\Jobs\Helm\Module_Logic\COMPACTLOGIX_HM1525.ACD
TOGGLE VIBRATION FILTER, ZERO STABILIZE, FLICKER OFF/ON CONTROL FROM MMI SCREEN TO MODULE
WEIGH MODULE
VIBRATION FILTER
OFF/ON TOGGLE
VIBRATION FILTER
OFF/ON
HM1525_CONTROL[0].0
Local:1:O.Data[0].5
3
ZERO STABLE OFF/ON
TOGGLE
WEIGH MODULE ZERO
STABLE OFF/ON
HM1525_CONTROL[0].1
Local:1:O.Data[0].3
LSD FLICKER OFF/ON
TOGGLE
HM1525_CONTROL[0].2
WEIGH MODULE LSD
FLICKER OFF/ON
Local:1:O.Data[0].4
COURSE ZERO UP, COURSE ZERO DOWN, CLEAR TARE, TARE, CHANNELS 1/2 PUSHBUTTONS FROM MMI
SCREEN TO MODULE
COURSE ZERO UP
PUSHBUTTON
WEIGH MODULE COURSE
ZERO UP ADJUST
HM1525_CONTROL[0].3
ONE_SHOTS.0
ONS
Local:1:O.Data[0].7
4
COURSE ZERO DOWN
PUSHBUTTON
HM1525_CONTROL[0].4
WEIGH MODULE COURSE
ZERO DOWN ADJUST
Local:1:O.Data[0].12
ONE_SHOTS.1
ONS
CLEAR TARE
PUSHBUTTON
WEIGH MODULE CLEAR
TARE
HM1525_CONTROL[0].5
Local:1:O.Data[0].13
TARE PUSHBUTTON
HM1525_CONTROL[0].6
WEIGH MODULE TARE
Local:1:O.Data[0].14
WEIGH MODULE
CHANNELS 1/2 TOGGLE
0=CH1 1=CH2
CHANNELS 1/2 TOGGLE
BIT
HM1525_CONTROL[0].7
Local:1:O.Data[0].15
CHANNELS 1 AND 2 DATA SIGN BITS FROM MODULE TO MMI SCREEN
WEIGH MODULE CHANNEL
1 SIGN BIT
MMI CHANNEL 1 SIGN
BIT STATUS
Local:1:I.Data[0].14
HM1525_STATUS[0].0
5
WEIGH MODULE CHANNEL
2 SIGN BIT
MMI CHANNEL 2 SIGN
BIT STATUS
Local:1:I.Data[0].15
HM1525_STATUS[0].1
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RSLogix 5000
WEIGH_MODULE - Ladder Diagram
WEIGH_1525:MainTask:MainProgram
Total number of rungs in routine: 7
Page 3
2/27/2008 3:01:17 PM
C:\Jobs\Helm\Module_Logic\COMPACTLOGIX_HM1525.ACD
CHANNELS 1 AND 2 WEIGH VALUES FROM MODULE TO MMI SCREEN
MMI WEIGH MODULE
CHANNEL 1 WEIGH
VALUE
MOV
6
Move
Source
Local:1:I.Data[1]
207
Dest HM1525_STATUS[1]
207
MMI WEIGH MODULE
CHANNEL 2 WEIGH
VALUE
MOV
Move
Source
Local:1:I.Data[2]
207
Dest HM1525_STATUS[2]
206
(End)
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RSLogix 5000
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