OMRON K3HB Digital Indicators User Manual
- June 9, 2024
- Omron
Table of Contents
K3HB Digital Indicators
CompoWay/F
List of
Communications Settings
Compoway/F
Digital Indicators
K3HB
Communications User’s Manual P Cat. No. N129-E1-04
Overview
Operating Parts, Installa- Remote I/O Com- Explicit Message Communications Troubleshooting Additional Informa-
BCD
Procedures tion, and Wiring munications Communications Performance and Maintenance tion for DeviceNet Communications
DeviceNet
BCD Output
K3HB Digital Indicators
Communications User’s Manual
Revised September 2022
iv
Preface
OMRON products are manufactured for use according to proper procedures by a
qualified operator and only for the purposes described in this manual. This
manual describes the functions, performance, and application methods needed
for optimum use of the K3HB. Please observe the following items when using the
K3HB. · This product is designed for use by qualified personnel with a
knowledge of electrical systems. · Read this manual carefully and make sure
you understand it well to ensure that you are using the
K3HB correctly. · Keep this manual in a safe location so that it is available
for reference when required.
Visual Aids
The following headings appear in the left column of the manual to help you
locate different types of information.
Note Indicates information of particular interest for efficient and convenient
operation of the product.
1,2,3… 1. Indicates lists of one sort or another, such as procedures,
checklists, etc.
Trademarks
· DeviceNet is a registered trademark of the Open DeviceNet Vendors
Association, Inc. · Other product names and company names that appear in this
manual are the trademarks or regis-
tered trademarks of the respective companies.
OMRON, 2004-2022
All rights reserved. No part of this publication may be reproduced, stored in
a retrieval system, or transmitted, in any form, or by any means, mechanical,
electronic, photocopying, recording, or otherwise, without the prior written
permission of OMRON. No patent liability is assumed with respect to the use of
the information contained herein. Moreover, because OMRON is constantly
striving to improve its high-quality products, the information contained in
this manual is subject to change without notice. Every precaution has been
taken in the preparation of this manual. Nevertheless, OMRON assumes no
responsibility for errors or omissions. Neither is any liability assumed for
damages resulting from the use of the information contained in this
publication.
v
Read and Understand this Manual
Please read and understand this manual before using the product. Please
consult your OMRON representative if you have any questions or comments.
Warranty and Limitations of Liability
WARRANTY OMRON’s exclusive warranty is that the products are free from defects
in materials and workmanship for a period of one year (or other period if
specified) from date of sale by OMRON. OMRON MAKES NO WARRANTY OR
REPRESENTATION, EXPRESS OR IMPLIED, REGARDING NONINFRINGEMENT,
MERCHANTABILITY, OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS. ANY BUYER
OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS DETERMINED THAT THE
PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. OMRON
DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED.
LIMITATIONS OF LIABILITY OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL, INDIRECT,
OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY
CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED ON CONTRACT,
WARRANTY, NEGLIGENCE, OR STRICT LIABILITY. In no event shall the
responsibility of OMRON for any act exceed the individual price of the product
on which liability is asserted. IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR
WARRANTY, REPAIR, OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON’S
ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED, STORED, INSTALLED,
AND MAINTAINED AND NOT SUBJECT TO CONTAMINATION, ABUSE, MISUSE, OR
INAPPROPRIATE MODIFICATION OR REPAIR.
Application Considerations
SUITABILITY FOR USE OMRON shall not be responsible for conformity with any
standards, codes, or regulations that apply to the combination of products in
the customer’s application or use of the products. At the customer’s request,
OMRON will provide applicable third party certification documents identifying
ratings and limitations of use that apply to the products. This information by
itself is not sufficient for a complete determination of the suitability of
the products in combination with the end product, machine, system, or other
application or use. The following are some examples of applications for which
particular attention must be given. This is not intended to be an exhaustive
list of all possible uses of the products, nor is it intended to imply that
the uses listed may be suitable for the products. · Outdoor use, uses
involving potential chemical contamination or electrical interference, or
conditions or
uses not described in this manual. · Nuclear energy control systems,
combustion systems, railroad systems, aviation systems, medical
equipment, amusement machines, vehicles, safety equipment, and installations
subject to separate industry or government regulations. · Systems, machines,
and equipment that could present a risk to life or property. Please know and
observe all prohibitions of use applicable to the products. NEVER USE THE
PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT
ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS,
AND THAT THE OMRON PRODUCTS ARE PROPERLY RATED AND INSTALLED FOR THE INTENDED
USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.
PROGRAMMABLE PRODUCTS OMRON shall not be responsible for the user’s
programming of a programmable product, or any consequence thereof.
vi
Disclaimers
CHANGE IN SPECIFICATIONS Product specifications and accessories may be changed
at any time based on improvements and other reasons. It is our practice to
change model numbers when published ratings or features are changed, or when
significant construction changes are made. However, some specifications of the
products may be changed without any notice. When in doubt, special model
numbers may be assigned to fix or establish key specifications for your
application on your request. Please consult with your OMRON representative at
any time to confirm actual specifications of purchased products. DIMENSIONS
AND WEIGHTS Dimensions and weights are nominal and are not to be used for
manufacturing purposes, even when tolerances are shown. PERFORMANCE DATA
Performance data given in this manual is provided as a guide for the user in
determining suitability and does not constitute a warranty. It may represent
the result of OMRON’s test conditions, and the users must correlate it to
actual application requirements. Actual performance is subject to the OMRON
Warranty and Limitations of Liability. ERRORS AND OMISSIONS The information in
this document has been carefully checked and is believed to be accurate;
however, no responsibility is assumed for clerical, typographical, or
proofreading errors, or omissions.
vii
Safety Precautions
Definition of Precautionary Information
The following notation is used in this manual to provide precautions required
to ensure safe usage of the product.
The safety precautions that are provided are extremely important to safety.
Always read and heed the information provided in all safety precautions.
The following notation is used.
WARNING
Indicates a potentially hazardous situation which, if not avoided, will result in minor or moderate injury, or may result in serious injury or death. Additionally there may be significant property damage.
Symbols
CAUTION
Indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury or in property damage.
Symbol
Caution
Prohibition Mandatory Caution
Meaning
General Caution Indicates non-specific general cautions, warnings, and
dangers.
Electrical Shock Caution Indicates possibility of electric shock under
specific conditions.
General Prohibition Indicates non-specific general prohibitions.
General Caution Indicates non-specific general cautions, warnings, and
dangers.
viii
Precautions
WARNING
Do not touch the terminals while power is being supplied. Doing so may
possibly result in electric shock. Make sure that the terminal cover is
installed before using the product.
Always provide protective circuits in the network. Without protective
circuits, malfunctions may possibly result in accidents that cause serious
injury or significant property damage. Provide double or triple safety
measures in external control circuits, such as emergency stop circuits,
interlock circuits, or limit circuits, to ensure safety in the system if an
abnormality occurs due to malfunction of the product or another external
factor affecting the product’s operation.
CAUTION
Do not allow pieces of metal, wire clippings, or fine metallic shavings or
filings from installation to enter the product. Doing so may occasionally
result in electric shock, fire, or malfunction.
Do not use the product in locations where flammable or explosive gases are
present. Doing so may occasionally result in minor or moderate explosion,
causing minor or moderate injury, or property damage.
Do not attempt to disassemble, repair, or modify the product. Doing so may
occasionally result in minor or moderate injury due to electric shock.
Do not use the equipment for measurements within Measurement Categories III
and IV for K3HB-X and II, III, and IV for K3HB-S, K3HB-V, K3HB-H, K3HB-R,
K3HB-P, and K3HB-C (according to IEC61010-1). Doing so may occasionally cause
unexpected operation, resulting in minor or moderate injury, or damage to the
equipment. Use the equipment for measurements only within the Measurement
Category for which the product is designed.
Perform correct setting of the product according to the application. Failure
to do so may occasionally cause unexpected operation, resulting in minor or
moderate injury, or damage to the equipment.
Ensure safety in the event of product failure by taking safety measures, such
as installing a separate monitoring system. Product failure may occasionally
prevent operation of comparative outputs, resulting in damage to the connected
facilities and equipment.
Tighten the screws on the terminal block and the connector locking screws
securely using a tightening torque within the following ranges. Loose screws
may occasionally cause fire, resulting in minor or moderate injury, or damage
to the equipment. Terminal block screws: 0.43 to 0.58 N·m Connector locking
screws: 0.18 to 0.22 N·m
ix
CAUTION
Make sure that the product will not be adversely affected if the DeviceNet
cycle time is lengthened as a result of changing the program with online
editing. Extending the cycle time may cause unexpected operation, occasionally
resulting in minor or moderate injury, or damage to the equipment.
Before transferring programs to other nodes or changing I/O memory of other
nodes, check the nodes to confirm safety. Changing the program or I/O memory
of other nodes may occasionally cause unexpected operation, resulting in minor
or moderate injury, or damage to the equipment.
Take adequate security measures against DDoS attacks (Distributed Denial of
Service attacks), computer viruses and other technologically harmful programs,
unauthorized access and other possible attacks before using this product.
Security Measures
Anti-virus protection Install the latest commercial-quality antivirus software
on the computer connected to the control/monitor system and maintain to keep
the software up-to-date.
Security measures to prevent unauthorized access Take the following measures
to prevent unauthorized access to our products.
Install physical controls so that only authorized personnel can access
control/monitor systems and equipment. Reduce connections to control/monitor
systems and equipment via networks to prevent access from untrusted devices.
Install firewalls to shut down unused communications ports and limit
communications hosts and isolate control/monitor systems and equipment from
the IT network. Use a virtual private network (VPN) for remote access to
control/ monitor systems and equipment. Scan virus to ensure safety of SD
cards or other external storages before connecting them to control/monitor
systems and equipment.
Data input and output protection Validate backups and ranges to cope with
unintentional modification of input/output data to control/monitor systems and
equipment.
Checking the scope of data Checking validity of backups and preparing data for
restore in case of falsification and abnormalities Safety design, such as
emergency shutdown, in case of data tampering and abnormalities
Data recovery Backup data and keep the data up-to-date periodically to prepare
for data loss.
x
Precautions for Safe Use
(1) Do not use the product in the following locations. · Locations subject to
direct radiant heat from heating equipment · Locations where the product may
come into contact with water or oil · Locations subject to direct sunlight ·
Locations where dust or corrosive gases (in particular, sulfuric or ammonia
gas) are present · Locations subject to extreme temperature changes ·
Locations where icing or condensation may occur · Locations subject to
excessive shocks or vibration
(2) Do not use the product in locations subject to temperatures or humidity
levels outside the specified ranges or in locations prone to condensation. If
the product is installed in a panel, ensure that the temperature around the
product (not the temperature around the panel) does not go outside the
specified range.
(3) Provide sufficient space around the product for heat dissipation.
(4) Use and store the product within the specified temperature and humidity
ranges. If several products are mounted side-by-side or arranged in a vertical
line, the heat dissipation will cause the internal temperature of the products
to rise, shortening the service life. If necessary, cool the products using a
fan or other cooling method.
(5) The service life of the output relays depends on the switching capacity
and switching conditions. Consider the actual application conditions and use
the product within the rated load and electrical service life. Using the
product beyond its service life may result in contact welding or burning.
(6) Install the product horizontally.
(7) Mount to a panel between 1 and 8-mm thick.
(8) Use the specified size of crimp terminals (M3, width: 5.8 mm max.) for
wiring. To connect bare wires, use AWG22 (cross section: 0.326 mm2) to AWG14
(cross section: 2.081 mm2) to wire the power supply terminals and AWG28 (cross
section: 0.081 mm2) to AWG16 (cross section: 1.309 mm2) for other terminals.
(Length of exposed wire: 6 to 8 mm)
(9) In order to prevent inductive noise, wire the lines connected to the
product separately from power lines carrying high voltages or currents. Do not
wire in parallel with or in the same cable as power lines. Other measures for
reducing noise include running lines along separate ducts and using shield
lines.
(10) Ensure that the rated voltage is achieved no longer than 2 s after
turning the power ON.
(11) Allow the product to operate without load for at least 15 minutes after
the power is turned ON.
(12) Do not install the product near devices generating strong high-frequency
waves or surges. When using a noise filter, check the voltage and current and
install it as close to the product as possible.
(13) Do not use thinner to clean the product. Use commercially available
alcohol.
(14) Be sure to confirm the name and polarity for each terminal before wiring
the
xi
terminal block and connectors. (15) Use the product within the noted supply
voltage and rated load. (16) Do not connect anything to unused terminals. (17)
Output turns OFF when the mode is changed or settings are initialized. Take
this
into consideration when setting up the control system. (18) Install an
external switch or circuit breaker that complies with applicable
IEC60947-1 and IEC60947-3 requirements and label them clearly so that the
operator can quickly turn OFF the power. (19) Use the specified cables for the
communications lines and stay within the specified DeviceNet communications
distances. Refer to the User’s Manual (Cat. No. N129) for information on
communications distances and cables. (20) Do not pull the DeviceNet
communications cables with excessive force or bend them past their natural
bending radius. (21) Do not connect or remove connectors while the DeviceNet
power is being supplied. Doing so will cause product failure or malfunction.
(22) Use cables with a heat resistance specification of 70ºC min.
xii
EC Directives
· EMC Directives
Concepts
EMC Directives OMRON devices that comply with EC Directives also conform to
the related EMC standards so that they can be more easily built into other
devices or the overall machine. The actual products have been checked for
conformity to EMC standards. Whether the products conform to the standards in
the system used by the customer, however, must be checked by the customer.
EMC-related performance of the OMRON devices that comply with EC Directives
will vary depending on the configuration, wiring, and other conditions of the
equipment or control panel on which the OMRON devices are installed. The
customer must, therefore, perform the final check to confirm that devices and
the overall machine conform to EMC standards.
Conformance to EC Directives
The K3HB Digital Indicators comply with EC Directives. To ensure that the
machine or device in which the Unit is used complies with EC Directives, the
Unit must be installed as follows:
1,2,3…
1. You must use reinforced insulation or double insulation for the DC power supplies used for the communications power supply, internal power supply, and I/O power supplies.
2. Units complying with EC Directives also conform to the Common Emission
Standard (EN61326). Radiated emission characteristics (10-m regulations) may
vary depending on the configuration of the control panel used, other devices
connected to the control panel, wiring, and other conditions. You must
therefore confirm that the overall machine or equipment complies with EC
Directives.
The following example shows one means of reducing noise.
1,2,3…
1. Noise from the communications cable can be reduced by installing a ferrite
core on the communications cable within 10 cm of the DeviceNet Master Unit.
Ferrite Core (Data Line Filter): 0443-164151 (manufactured by Fair-Rite
Products Co., Ltd.)
Impedance specifications
25 MHz
105
100 MHz 190
2. Wire the control panel with as thick and short electric lines as possible
and ground to 100 min.
3. Keep DeviceNet communications cables as short as possible and ground to
100 min.
xiii
Complying with Safety Standards
For the DeviceNet power supply, always use a power supply with reinforced or
double insulation, that complies with EN/IEC standards. Conformance to the
standards is for indoor applications only.
xiv
Related Manuals
The following manuals are also related to the K3HB Digital Indicator. Refer to these manuals when using the K3HB.
K3HB Digital Indicators Communications User’s Manual
(This manual)
Describes the models, communications functions, specifications, and application methods of K3HB Digital Indicators with communications.
K3HB-S/-X/-V/-H Digital Indicators User’s Manual
(N128)
Describes the models, functions, specifications, and application methods of K3HB-S/-X/-V/-H Digital Indicators. Refer to this manual for information on specifications and functions other than DeviceNet.
K3HB-R/-P/-C Digital Indicators User’s Manual
(N136)
Describes the models, functions, specifications, and application methods of K3HB-R/-P/-C Digital Indicators. Refer to this manual for information on specifications and functions other than DeviceNet.
DeviceNet Operation Manual
(W267)
Describes the configuration and connection forms for a DeviceNet network. Also describes connection methods and specifications for devices used to connect to the network, such as cables and connectors, as well as methods for supplying communications power. When using DeviceNet, obtain this manual in advance and be sure you understand its contents.
CVM1-DRM21-V1/C200HW-DRM21-V1 DeviceNet Master Units Operation Manual
(W379)
Describes the specifications, functions, and application methods for the DeviceNet Master Units for CVM1/CVseries, C200HS, and C200HX/HG/HE PLCs.
SYSMAC CS/CJ Series DeviceNet Units Operation Manual
(W380)
Describes the specifications, functions, and application methods for the DeviceNet Units for CS/CJ-series PLCs. (A CS/CJ-series DeviceNet Unit can function simultaneously as both a DeviceNet master and slave.)
DeviceNet Configurator Version 2 Operation Manual
(W382)
Describes the application methods of the DeviceNet Configurator. The DeviceNet Configurator is used to build, set, and manage DeviceNet networks on graphic displays. Refer to this manual as required.
xv
xvi
TABLE OF CONTENTS
Part 1: CompoWay/F
SECTION 1 CompoWay/F Communications . . . . . . . . . . . . . . . . . . . . .
.
1-1 Communications Method . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . 1-2 Frames (CompoWay/F
Communications) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 1-3 FINS-mini Text . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
Variable Areas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5 Reading the
Variable Area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . 1-6 Writing to the Variable Area . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . 1-7 Operation Commands (CompoWay/F Communications) . . . . . . . .
. . . . . . . . . . . . . . . . . . . 1-8 Setting Areas . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . 1-9 Commands and Responses (CompoWay/F Communications) .
. . . . . . . . . . . . . . . . . . . . . . 1-10 Program Example . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . .
1-1
1-2 1-5 1-6 1-8 1-9 1-10 1-11 1-12 1-13 1-23
SECTION 2 List of Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
Part 2: DeviceNet
SECTION 1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . 3-1
1-1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 1-2
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5
SECTION 2 Operating Procedures . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . 4-1
2-1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2 2-2
Functions Supported Only by the K3HB-DRT . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . 4-4
SECTION 3 Parts, Installation, and Wiring . . . . . . . . . . . . . . . . . .
. . . . . 5-1
3-1 Part Names and Functions . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . 5-2 3-2 DeviceNet
Communications Cables Wiring . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . 5-4
SECTION 4 Remote I/O Communications . . . . . . . . . . . . . . . . . . . . .
. . . 6-1
4-1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 4-2 I/O
Allocation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 4-3 Ladder Programming
Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . 6-7
xvii
TABLE OF CONTENTS
SECTION 5 Explicit Message Communications . . . . . . . . . . . . . . . . . .
. . 7-1
5-1 Overview of Explicit Message Communications . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . 7-2 5-2 Sending CompoWay/F Commands to the
Digital Indicator . . . . . . . . . . . . . . . . . . . . . . . . . 7-4 5-3
Explicit Messages Specific to DeviceNet-compatible Digital Indicators . . . .
. . . . . . . . . . . 7-6
SECTION 6 Communications Performance . . . . . . . . . . . . . . . . . . . . .
. . 8-1
6-1 Remote I/O Communications Performance. . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . 8-2 6-2 Message Communications
Performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . 8-6
SECTION 7 Troubleshooting and Maintenance . . . . . . . . . . . . . . . . . .
. . 9-1
7-1 Indicators and Error Processing. . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . 9-2 7-2 Maintenance. . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . 9-3
SECTION 8 Additional Information for DeviceNet . . . . . . . . . . . . . . . .
. 10-1
8-1 Detailed DeviceNet Specifications . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . 10-2 8-2 Mounted Objects . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . 10-3 8-3 DeviceNet Connection Hardware . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . 10-7 8-4 Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10-10
Part 3: BCD Output
SECTION 1 BCD Communications . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . 11-1
1-1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-2 1-2
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-3 1-3 Accessories
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . 11-6 1-4 Precautions for BCD
Programming. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . 11-7 1-5 Programming Example 1: Connecting to a PLC . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-7 1-6
Programming Example 2: Connecting to a PLC . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . 11-10
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . I-1
Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . R-1
xviii
About this Manual:
This manual describes communications for the K3HB Digital Indicators and
includes the sections described below divided into two parts according to the
type of communications. Please read this manual carefully and be sure you
understand the information provided before attempting to setup or operate
communications for a K3HB Digital Indicator.
Part 1: CompoWay/F
Section 1 describes CompoWay/F communications. Section 2 provides a list of
K3HB settings.
Part 2: DeviceNet
Section 1 introduces the features and specifications of K3HB-DRT Digital
Indicators. Section 2 outlines the basic operating procedures for the K3HB-DRT
Digital Indicators. Section 3 describes the methods used to install and wire
K3HB-DRT Digital Indicators. Section 4 describes the input (IN) areas and
output (OUT) areas that K3HB-DRT Digital Indicators can use for remote I/O
communications. The methods to allocate data for master communications are
also described using sample programming. Section 5 describes how to send
explicit messages to the K3HB-DRT Digital Indicator, including how to send
CompoWay/F commands using explicit messages. Section 6 provides information on
the time required for a complete communications cycle, for an output response
to be made to an input, to start the system, and to send messages. Section 7
describes error processing, periodic maintenance operations, and
troubleshooting procedures needed to keep the DeviceNet Network operating
properly. Details on resetting replaced Digital Indicators are also provided.
Read through the error processing procedures in both this manual and the
operation manual for the DeviceNet master being used before operation so that
operating errors can be identified and corrected more quickly. Section 8
provides DeviceNet specifications, tables of mounted objects, and tables of
DeviceNet connection hardware.
Part 3: BCD Output
Section 1 describes BCD communications using K3HB Digital Indicators.
!WARNING Failure to read and understand the information provided in this
manual may result in personal injury or death, damage to the product, or
product failure. Please read each section in its entirety and be sure you
understand the information provided in the section and related sections before
attempting any of the procedures or operations given.
xix
xx
Part 1: CompoWay/F
SECTION 1 CompoWay/F Communications . . . . . . . .
1-1 Communications Method . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . 1-2 Frames (CompoWay/F
Communications). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . 1-3 FINS-mini Text . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4 Variable
Areas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . 1-5 Reading the Variable Area . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . 1-6 Writing to the Variable Area . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7 Operation
Commands (CompoWay/F Communications) . . . . . . . . . . . . . . . . . . . . .
. . . . 1-8 Setting Areas . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9 Commands
and Responses (CompoWay/F Communications) . . . . . . . . . . . . . . . . . .
. . . 1-10 Program Example . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-1
1-2 1-5 1-6 1-8 1-9 1-10 1-11 1-12 1-13 1-23
SECTION 2 List of Settings. . . . . . . . . . . . . . . . . . . . . . . 2-1
Part 1: CompoWay/F
CompoWay/F Communications
SECTION 1 CompoWay/F Communications
This section describes communications using CompoWay/F.
1-1 Communications Method . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . 1-2 1-1-1 CompoWay/F
Communications Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . 1-2 1-1-2 Communications Specifications . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . 1-2 1-1-3 Transfer Protocol
(CompoWay/F Communications) . . . . . . . . . . . . . . . . . . . . . 1-2
1-1-4 Cable Connections . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . 1-3
1-2 Frames (CompoWay/F Communications). . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . 1-5 1-2-1 Command Frame . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-5 1-2-2 Response Frame . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . 1-5
1-3 FINS-mini Text . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6 1-4 Variable Areas .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . 1-8 1-5 Reading the Variable Area . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . 1-9 1-6 Writing to the Variable Area . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10 1-7
Operation Commands (CompoWay/F Communications) . . . . . . . . . . . . . . . .
. . . . . . . . . 1-11 1-8 Setting Areas . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. 1-12 1-9 Commands and Responses (CompoWay/F Communications) . . . . . . . .
. . . . . . . . . . . . . 1-13
1-9-1 Monitor Value Read (CompoWay/F Communications) . . . . . . . . . . . . .
. . . . . . 1-13 1-9-2 Setting Data Read (CompoWay/F Communications). . . . .
. . . . . . . . . . . . . . . . 1-13 1-9-3 Monitor Value/Setting Data Compound
Read (CompoWay/F Communications) 1-14 1-9-4 Protect Level Setting Data Write .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-15
1-9-5 Setting Data Write (CompoWay/F Communications) . . . . . . . . . . . . .
. . . . . . . 1-15 1-9-6 Setting Data Compound Write (CompoWay/F
Communications) . . . . . . . . . . . 1-16 1-9-7 Monitor Value/Setting Data
Compound Read Store (Write) . . . . . . . . . . . . . . . 1-16 1-9-8 Monitor
Value/Setting Data Compound Read Store Check (Read) . . . . . . . . . . 1-17
1-9-9 Monitor Value/Setting Data Compound Store Read. . . . . . . . . . . . .
. . . . . . . . . 1-17 1-9-10 Write via Communications . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-18 1-9-11 Reset .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . 1-18 1-9-12 Bank Selection . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . 1-18 1-9-13 Zero Execute/Cancel. . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . 1-19 1-9-14 Software Reset .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . 1-19 1-9-15 Move to Setting Area 1. . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-20 1-9-16
Move to Protect Level . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . 1-20 1-9-17 Initialize Settings . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . 1-20 1-9-18 Read Machine Attributes . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . 1-21 1-9-19 Controller Status
Read (CompoWay/F Communications) . . . . . . . . . . . . . . . . . 1-21 1-9-20
Echo Back Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . 1-22 1-10 Program Example . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . 1-23
1-1
CompoWay/ F Communications
Communications Method
Section 1-1
1-1 Communications Method
1-1-1 CompoWay/F Communications Protocol
CompoWay/F is OMRON’s unified protocol for general purpose serial communications. Featuring a unified frame format and commands that are compliant with FINS, which has a record of successful use with OMRON programmable controllers, CompoWay/F makes communications easy between multiple components and a computer.
FINS (Factory Interface Network Service)
This is a protocol for message communications between controllers on an OMRON
factory automation network.
Supplement
The communications function is used by creating a program on the host computer. As such, the explanations in this chapter are from the perspective of the host computer. For example, “Read/Write” refers to the host computer reading or writing to the K3HB.
1-1-2
Communications Specifications
Transfer connection:
Multi-point
Communications method: RS-485 or RS-232C (half duplex)
Synchronization method: Start-stop
Baud rate:
9.6k, 19.2k, 38.4k bit/s
Send code:
ASCII
Data length:
7 or 8 bits
Stop bit length:
1 or 2 bits
Error detection:
Vertical parity (none, even, or odd) BCC (Block Check Character) Start-stop synchronized data configuration
Flow control:
None
Interface:
RS-485 or RS-232C
Retry function:
None
Note Initial settings are shaded.
1-1-3
Transfer Protocol (CompoWay/F Communications)
The host computer sends a command frame, and the K3HB sends a response frame
based on the content of the command frame. One response frame is sent in
response to one command frame.
Host computer
Rfreaspmoense Rfreaspmoense
Comfrmamaned Comfrmamaned
K3HB
1-2
CompoWay/F Communications
Communications Method
Section 1-1
The exchange between the command frame and response frame is explained below.
After a receiving a response from the Digital Indicator, have the host
computer wait at least 50 ms before sending the next command.
When writing multiple sets of setting data in a row, such as when writing to
the variable area or performing a compound write, controllability may be
affected. Pay attention to the following points:
Command
Maximum of 3 sets of setting data can be written
Command
1-1-4 Cable Connections
RS-485
Response 50 ms or higher
B
A
B CDE
1
1
RS-485
2
2
3
RS-485
3
4
4
5
5
6
6
B (+) A (-) B (+) A (-)
RS- 485
· Use terminals B1 through B4 to communicate with the host. The terminal
layout is designed for cross-over wiring and thus the B1-B3 and B2-B4
terminals are connected internally.
· Wiring is configured either 1:1 or 1:N. A maximum of 32 Units, including the
host computer can be connected with a 1:N configuration.
· The maximum total cable length is 500 m.
· Use shielded, twisted-pair wires of at least AWG28 to AWG16 for all cables.
Cable Diagram (Reference)
At least AWG28
Conductor cross-sectional area: 0.081 mm2 min.
· Attach a terminator to each end of the transmission path, including the host
computer. Use a 100- to 125- (1/2 W) resistor for the terminator.
· Use an RS-232C/RS-485 Converter to connect RS-232C devices, such as personal
computers.
1-3
CompoWay/ F Communications
Communications Method
Converter Example: RS-232C/RS-485 Converter
Section 1-1
K32-23209 Adapter
RS-232C
D-sub, 9-pin (Straight)
K3SC-10 RS-232C/RS485 Converter +-
B1 or B3
100- to 125- Terminator (1/2 W)
(B) (A)
B2 or B4
K3HB (No. 0)
B1 or B3
(B) (A)
B2 or B4
K3HB (No. 1)
B1 or B3
(B) (A)
100- to 125- Terminator (1/2 W)
B2 or B4 K3-HB (No. 31)
RS-232C
A BCDE
1
1
2
RS-232C
2
3
3
4
4
5
5
6
6
B SD RD RS-232C SG
· Use terminals B1 through B3 to communicate with the host.
· Wiring is configured 1:1.
· The maximum cable length is 15 m. Use OMRON’s Z3RN RS-232C Optical Interface
to extend the wiring path.
· Use shielded, twisted-pair wires of at least AWG28 to AWG16 for all cables.
(Same wire used for RS-485 cable.)
Host computer RS-232C
K3HB
25-pin 9-pin
1 — FG 2 3 SD 3 2 RD 4 7 RS 5 8 CS 6 6 DR 20 4 ER
RS-232C No. 1 SD 2 RD 3 SG
7 5 SG
Shield
1-4
CompoWay/F Communications
Frames (CompoWay/F Communications)
Section 1-2
1-2
Frames (CompoWay/F Communications)
Based on CompoWay/F protocol, commands from the host computer and responses
from the K3HB take the form of frames.
The data comprising command frames and response frames are explained below.
In the following explanation, an “H” following a numeric value (for example
02H) indicates that the value is a hexadecimal number. A number or letters
enclosed in quotation marks (for example “00”) is an ASCII character.
1-2-1 Command Frame
STX 02H
Node No.
Subaddress SID
“00” “0”
FINS-mini command text ETX BCC
03H
12
2
1
1 1 byte
BCC calculation range
STX Node No.
Code that indicates the beginning of the communications frame (02H).
Be sure to set this code in the leading byte.
This number specifies the destination.
Specify the Unit No. of the K3HB.
When broadcasting to all units, specify “XX”. Responses are not sent to a
broadcast.
Sub-address SID (Service ID) FINS-mini Command text ETX BCC
Not used on the K3HB. Be sure to set to “00”. Not used on the K3HB. Be sure to
set to “0”. The text of the command.
Code that indicates the end of the text (03H). Block Check Character. This
stores the result of the BCC calculation from Node No. to EXT.
Node Sub-
FINS-mini
STX No. address SID command text ETX BCC
02H 30H 30H 30H 30H 30H 30H 35H 30H 30H 03H 36H
BCC = 30H + 30H + 30H + 30H + 30H + 30H + 35H + 30H + 30H + 03H = 36H +: XOR (exclusive OR) operation
1-2-2 Response Frame
Node Sub- End STX No. address Code
02H
“00”
12
2
2
FINS-mini response text ETX BCC
03H 1 1 byte
Supplement
A response is not sent to command frames that do not end with ETX.BCC characters.
STX Node No. Sub-address
Code that indicates the beginning of the communications frame (02H). Be sure
to set this code in the leading byte.
The number that was specified in the command frame is repeated here.
This is the Unit No. of the responding K3HB.
Not used on the K3HB. Set to “00”.
1-5
CompoWay/ F Communications
FINS-mini Text
Section 1-3
End code
FINS-mini Response text ETX BCC
Returns the result of the command executed as instructed by the command frame.
Text of the response
Code that indicates the end of the text (03H) Block Check Character Stores the
result of the BCC calculation from Node No. to EXT.
End Codes (CompoWay/F Communications)
End code
Name
“0F”
FINS command error
“10”
Parity error
“11”
Framing error
“12”
Overrun error
“13”
BCC error
“14”
Format error
“16”
Sub-address error
“18”
Frame length error
“00”
Normal end
Description
Error detection order of priority
Could not execute the specified FINS command
8
Sum of bits that are “1” in received data does not agree with 2 the set communications parity value.
Stop bit of command frame characters is “0”.
1
Attempted to transfer new data because received data buffer 3 is already full.
Calculated BCC different from received BCC.
5
Characters other than “0” to “9” or “A” to “F” in FINS-mini com- 7 mand text. In the case of an echo-back test, when data other than the test data is sent.
No SID and FINS-mini command text, or no FINS-mini command text.
“MRC/SRC” not correct in FINS-mini command text.
No sub-address, SID, or FINS-mini command text; or sub- 6 address less than 2 characters and no SID and FINS-mini command text.
The received frame exceeds the required number of bytes. 4
Command was executed normally without error.
None
1-3 FINS-mini Text
The FINS-mini command text and FINS-mini response text form the body of
command/response communications.
FINS-mini command text and FINS-mini response text are configured as follows.
Command Text
FINS-mini command text consists of an MRC (main request code) and an SRC (sub request code), followed by the required data.
Node STX No.
02H
Subaddress SID
“00” “0”
FINS-mini command text ETX BCC
03H
MRC SRC
Data
2 2 bytes
1-6
CompoWay/F Communications
FINS-mini Text
Response text
Section 1-3
FINS-mini response text consists of the MRC and SRC, followed by an MRES (main response code) and SRES (sub response code), and then the required data.
Node Sub-
FINS-mini
STX No. address End code Response text ETX BCC
02H
“00”
03H
MRC SRC MRES SRES
Data
2
2
2 2 bytes
If the specified FINS-mini command was not successfully executed, the response will only contain the MRC, SRC, MRES and SRES.
List of FINS-mini Service Commands (CompoWay/F Communications)
MRC “01” “01” “01” “01” “01”
“01”
“01”
“05” “06” “08” “30”
SRC “01” “02” “04” “13” “10”
“11”
“12”
“03” “01” “01” “05”
Service name Monitor value/setting data read
Monitor value/setting data write
Monitor value/setting data compound read Monitor value/setting data compound
write Monitor value/setting data compound stored read
Monitor value/setting data compound read store (write)
Monitor value/setting data compound read store check (read)
Machine attribute read
Controller status read Echo-back test Operation command
Description
Reads monitor values/setting data.
Writes monitor values/setting data.
Performs multiple reads of monitor values/setting data.
Performs multiple writes of monitor values/setting data.
Sequentially reads contents of addresses specified in “monitor value/setting
data compound read store.”
Specifies addresses to be read using “monitor value/setting data compound
stored read.”
Reads the contents stored using “variable area compound read store.”
Reads the model and other attributes.
Reads the operation status.
Performs an echo-back test.
Commands such as Run/Stop, AT Execute/Cancel, and “Move to setting area 1”.
1-7
CompoWay/ F Communications
Variable Areas
Section 1-4
1-4
Variable Areas
The area used for data exchange when communicating with the K3HB is called the
“variable area.” The PV is read and various setting data are read and written
using the variable area of the K3HB.
Operation commands and reading of machine attributes do not use the variable
area.
K3HB
Operation
Microprocessor
commands, etc.
Variable area
Read/write
Variable Types
Addresses (CompoWay/F Communications) Number of Elements Set Values
A variable area is accessed by specifying the position of a variable within the variable area using the variable type and address.
Variable types in variable areas are as follows:
Variable type C0 C1 C2 C4 C5 C6 C7 C8 C9 CA CB
Description Read-only parameters Protect level RUN level Initial setting level Input adjustment level Display adjustment level Scaling level Comparative set value level Linear output level Communications setting level Advanced function setting level
Area Setting area 0 (during operation)
Setting area 1 (during stop)
Each variable type has an address. Addresses are 2 bytes long and written in hexadecimal. Addresses are assigned according to units of access size.
Address (2 bytes)
0 0 0 0 0 0 # # 0 A6 A5 A4 A3 A2 A1 A0
For more information on addresses, refer to List of Settings on page 2-1.
The number of elements is expressed as a 2-byte hexadecimal number. The
specification range for the number of elements varies depending on the
command. See 1-9 Commands and Responses (CompoWay/F Communications) (page
1-13) for more information. For example, if the number of elements is 0010,
the first 16 elements of data (H’10) from the address are specified.
Values read and written to the variable area are expressed in hexadecimal and
disregard the decimal point position (negative values are expressed as a two’s
complement). Example: D’105.0 H’0000041A
The variable is an 8-digit number in hexadecimal. Negative values are
expressed as a two’s complement. The decimal is disregarded.
1-8
CompoWay/F Communications
Reading the Variable Area
Section 1-5
For example, if the PV of the K3HB is 105.0, it will be read as H’0000041A (105.0 1050 H’0000041A).
1-5 Reading the Variable Area
Command
The data area is read by setting the required data in the following FINS-mini command text format.
FINS-mini Command Text
MRC “01”
2
Variable SRC type
“01”
2
2
Read start address
4
Bit position Number of elements
“00” “0001” to “0019”
2
4
Data name MRC/SRC
Variable type First address of read Bit position Number of elements
Explanation
Specifies the FINS-mini monitor value/setting data read command.
Specify a variable type.
Specify the address for the beginning of the read.
Not used on the K3HB. Specify “00”.
Specifies the number of variables to read (max. of 25 (H’19)). Not needed for
a compound read.
Response
FINS-mini Response Text
MRC “01”
2
SRC “01”
2
Response code (MRES/SRES)
Data to be read
4
Number of elements × 8 bytes
(for compound read, number of elements × 10 bytes)
Data name MRC/SRC Response code Read data
Explanation The FINS-mini command text appears here. Result of execution of the command. Values for variables that were read.
Response Codes
Response code
“1001”
“1002”
“1101” “110B” “1100” “2203”
“0000”
Error name
Explanation
Command length too long
The command is too long.
Command length too short
The command is too short.
Area type error
Incorrect variable type.
Response length too long Number of elements > 25 (H’0019).
Parameter error
Specified bit position is other than “00”.
Operation error
Unit error, unit change, display unit error, internal non-volatile memory error
Normal end
1-9
CompoWay/ F Communications
Writing to the Variable Area
Section 1-6
1-6 Writing to the Variable Area
Write to the data area by setting the required data in the following FINS-mini command text format.
Command
FINS-mini Command Text
MRC “01”
2
Variable SRC type
“02”
2
2
Starting address of write
4
Bit
Number of
position elements
“00” “0001” to “0018”
2
4
Write data
Response
Data name MRC/SRC
Variable type First address of write Bit position Number of elements
Write data
Explanation Specifies the FINS-mini monitor value/setting data write command.
Specify a variable type.
Specify the address for the beginning of the write. Not used on the K3HB.
Specify “00”.
Specifies the number of variables to be written (max. of 24 (H’18)). Not
needed for a compound write. Enter data to be written.
FINS-mini Response Text
MRC “01”
2
SRC “02”
2
Response code (MRES/SRES)
4
Data name MRC/SRC Response code
Explanation FINS-mini command text appears here. Result of execution of the command.
Response Codes
Response code
“1002” “1101” “1003” “1100” “2203”
“0000”
Error name Command length too short Area type error Number of elements/Data
number do not agree Parameter error Operation error
Normal end
Explanation
The command is too short.
Incorrect variable type. The specified number of elements does not agree with
the actual number of data elements. Bit position specification other than
“00”. Written data was outside of setting range. Write via communications is
disabled. Write to setting area 1 was attempted from setting area 0. Write to
setting data of protect level was attempted from other than protect level.
Calibration level in progress. Unit error, unit change, display unit error,
internal non-volatile memory error.
1-10
CompoWay/F Communications
Operation Commands (CompoWay/F Communications)
Section 1-7
1-7 Operation Commands (CompoWay/F Communications)
Operation commands are sent using the following FINS-mini command text format.
Command
FINS-mini Command Text
MRC “30”
2
Instruction Related SRC code information
“05”
2
2
2
Data name MRC/SRC Operation code Related information
Explanation Specify the FINS-mini operation command. Specify an operation code. Specify information related to the command.
Operation commands for the K3HB are shown in the following table.
Operation code
Description
00
Write via communications
01
Reset
02
Bank selection
03
Zero execute/cancel
06
Software reset
07
Move to setting area 1
08
Move to protect level
0B
Initialize settings
Related information 00: OFF (Disabled) 01: ON (Enabled) 00 00 to 07: Bank 0 to 7 00: Zero cancel 01: Zero execute 00 00 00 00
Response
Note
A software reset will not respond (no service PDU response).
FINS-mini Response Text
MRC “30”
2
SRC “05”
2
Response code (MRES/SRES)
4
Data name MRC/SRC Response code
Explanation FINS-mini command text appears here. Result of execution of the command.
Response Codes
Response code
“1001”
“1002”
“1100”
Error name
Command length too long Command length too short Parameter error
Explanation
The command is too long.
The command is too short.
Operation code or related information is not correct.
1-11
CompoWay/ F Communications
Setting Areas
Section 1-8
Response code
Error name
“2203”
Operation error
“0000”
Normal end
Explanation
Unable to execute because write via communications is disabled. Unable to
execute operation command. For more information, see corresponding operation
command explanation in 1-9 Commands and Responses (CompoWay/F Communications).
Unit error, unit change, display unit error, internal non-volatile memory
error
1-8
Setting Areas
The K3HB has two setting areas for communications: Setting area 0 and setting
area 1.
In setting area 0, control continues.
As such, setting area 0 makes it possible to perform operations that require
control to be in progress, such as reading the PV, writing an SP, and
run/stop, as well as operations that do not interfere with control. On the
other hand, operations that may change control such as writing initial setting
data cannot be performed. (Note that setting data that cannot be written can
still be read.)
In setting area 1, control is stopped.
This makes it possible to perform operations such as writing initial setting
data which are not possible in setting area 0.
When the power is turned on, setting area 0 is selected. To access setting
area 1, use the “Move to setting area 1” operation command. To return to
setting area 0 from setting area 1, turn off the power or use the “Software
reset” operation command.
Power on “Software reset” command
Setting area 0
“Move to setting area 1” command
Setting area 1
Control in progress
Control stop
Variable type C0 C1 C2 C4 C5 C6 C7 C8 C9 CA CB
Description Read-only parameters Protect level RUN level Initial setting level Input adjustment level Display adjustment level Scaling level Comparative set value level Linear output level Communications setting level Advanced function setting level
Area Setting area 0 (during control)
Setting area 1 (during stop)
1-12
CompoWay/F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
1-9
Commands and Responses (CompoWay/F Communications)
The K3HB provides a set of applied commands that make use of variable area
read/write commands, operation commands, and other services provided by the
CompoWay/F communications protocol.
K3HB applied commands are explained below.
1-9-1 Monitor Value Read (CompoWay/F Communications)
Command
MRC “01”
Variable SRC type “01”
Address
Bit position
“00”
Number of elements
“0001”
Variable type “C0”
“0000” “0001” “0002” “0003” “0004”
Address
Monitor value (data name) Version Status Measurement value Maximum value Minimum value
Response
This command is used to read the PV, status, and other monitor values. The number of elements can be set from 0002 to 0019 to allow reading of monitor values in contiguous addresses.
MRC “01”
SRC Response code
“01”
“0000”
Data Monitor value
Response codes: The above indicates a normal end. For the response codes, see 1-5 Reading the Variable Area (page 1-9).
1-9-2 Setting Data Read (CompoWay/F Communications)
Command
MRC “01”
Variable SRC type “01”
Address
Bit position
“00”
Number of elements
“0001”
Variable type “C1” “C2”
Address “0000” to “0004”
“C4” “C5” “C6” “C7” “C8” “C9” “CA” “CB”
“0000” to “0027”
Setting data (explanation) Setting data of setting area 0
Protect level RUN level Setting data of setting area 1 Initial setting level
Input adjustment level Display adjustment level Scaling level Comparison
setting Linear output setting level Communications setting level Advanced
function setting level
This command is used to read setting data. The number of elements can be set from 0002 to 0019 to allow successive reading of 2 to 25 items of setting data in contiguous addresses.
1-13
CompoWay/ F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
Response
To specify the variable type or address, see SECTION 2 List of Settings (page
2-1). The upper limit of an address will vary depending on the variable type.
This command can be used in both setting area 0 and setting area 1.
MRC “01”
SRC Response code
“01”
“0000”
Data Setting data
Response codes: The above indicates a normal end. For the response codes, see 1-5 Reading the Variable Area (page 1-9).
1-9-3 Monitor Value/Setting Data Compound Read (CompoWay/F Communications)
Command
MRC “01”
Variable SRC type “04”
Address
Variable Bit position type
“00”
Address
Bit position “00”
Variable type “C0” “C1” to “C2” “C4” to “CB”
Address “0000” to “0004” “0000” to “0004” “0000” to “0027”
Variable type Address
Bit position “00”
Setting data (explanation) Monitor values Setting data of setting area 0 Setting data of setting area 1
Response
Multiple monitor values or setting data can be read by sending a single
command. Up to 20 items can be read even if the addresses are not contiguous.
To specify the variable type or address, see SECTION 2 List of Settings (page
2-1). The upper limit of an address will vary depending on the variable type.
This command can be used in both setting area 0 and setting area 1.
If an area type error or a setting data error occurs in any of the data being
read, no data will be read.
MRC “01”
SRC “04”
Variable Response code type
“0000”
Type
Data Monitor value / Setting data
Variable type
Data
Type
Monitor value / Setting data
Response codes: The above indicates a normal end. For the response codes, see 1-5 Reading the Variable Area (page 1-9).
1-14
CompoWay/F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
1-9-4 Protect Level Setting Data Write
Command
MRC “01”
Variable SRC type
“02” “C5”
Number of Address Bit position elements
“00”
“0001”
Data Protect level setting data
Address “0000” “0001” “0002” “0003” “0004”
Setting data Operation adjustment protect Setting level protect Setting change protect Forced zero protect MAX/MIN protect
Response
This command writes protect level setting data.
This command is used in setting area 0. An error will result if used in
setting area 1.
To use this command, use the “Write via communications” operation command to
enable “Write via communications,” and then use the “Move to protect level”
operation command to move to “Protect level.”
MRC “01”
SRC “02”
Response code “0000”
Response codes: The above indicates a normal end. For the response codes, see 1-6 Writing to the Variable Area (page 1-10).
1-9-5 Setting Data Write (CompoWay/F Communications)
Command
MRC “01”
Variable SRC type
“02”
Number of Address Bit position elements
“00”
“0001”
Data Setting data
Variable type “C1” “C2”
Address “0000” to “0004”
“C4” “C5” “C6” “C7” “C8” “C9” “CA” “CB”
“0000” to “0027”
Setting data (explanation) Setting data of setting area 0
Protect level RUN level Setting data of setting area 1 Initial setting level
Input adjustment level Scaling level Display adjustment level Comparison
setting Linear output setting level Communications setting level Advanced
function setting level
The above setting data is written. The number of elements can be set from 2 to
24 to write setting data of contiguous addresses.
To specify an address, see SECTION 2 List of Settings (page 2-1).
Setting data of setting area 1 can be written in setting area 1. An error will
result if written in setting area 0.
To use this command, “Write via communications” must be enabled using the
“Write via communications” operation command.
1-15
CompoWay/ F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
Response
MRC “01”
SRC Response code
“02”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-6 Writing to the Variable Area (page 1-10).
1-9-6 Setting Data Compound Write (CompoWay/F Communications)
Command
MRC “01”
Variable SRC type
“13”
Address
Bit position “00”
Data Setting data
Response
Variable type Address
Bit position “00”
Data Setting data
Variable type “C1” to “C2” “C4” to “CB”
Address “0000” to “0004” “0000” to “0027”
Setting data (explanation) Setting data of setting area 0 Setting data of setting area 1
Multiple setting data items can be written by sending a single command. Up to
12 items can be written even if the addresses are not contiguous.
To specify the variable type or address, see SECTION 2 List of Settings (page
2-1).
Setting data of setting area 1 is written in setting area 1. An error will
result if written in setting area 0.
To use this command, “Write via communications” must be enabled using the
“Write via communications” operation command.
MRC “01”
SRC “13”
Response code “0000”
Response codes: The above indicates a normal end. For the response codes, see 1-6 Writing to the Variable Area (page 1-10).
1-9-7 Monitor Value/Setting Data Compound Read Store (Write)
Command
MRC “01”
Variable SRC type “11”
Variable Read address Bit position type
“00”
Read address Bit position “00”
Variable type
Read address Bit position “00”
Variable type “C0” “C1” to “C2” “C4” to “CB”
Address “0000” to “0004” “0000” to “0004” “0000” to “0027”
Setting data (explanation) Monitor values Setting data of setting area 0 Setting data of setting area 1
This command is used to store the addresses of multiple monitor values or
setting data that you wish to read.
The stored monitor values or setting data can be read by sending a single
“Monitor value/setting data compound store read” command. Up to 20 items can
be stored, even if the addresses are not continuous.
1-16
CompoWay/F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
Response
To specify the variable type or address, see SECTION 2 List of Settings (page
2-1). The upper limit of an address will vary depending on the variable type.
This command can be used in both setting area 0 and setting area 1.
MRC “01”
SRC Response code
“11”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-5 Reading the Variable Area (page 1-9).
1-9-8 Monitor Value/Setting Data Compound Read Store Check (Read)
Command Response
MRC “01”
SRC “12”
This is used to check the contents that were stored using “Monitor value/setting data compound read store.”
MRC “01”
SRC “12”
Variable Response code type Read address
“0000”
Type
Variable type Read address Bit position
Type
“00”
Response codes: The above indicates a normal end. For the response codes, see 1-5 Reading the Variable Area (page 1-9).
1-9-9 Monitor Value/Setting Data Compound Store Read
Command
MRC “01”
SRC “10”
This is used to read by a single command the multiple monitor values or
setting data items that were stored using “Monitor value/setting data compound
read store (write).”
This command can be used in both setting area 0 and setting area 1.
If an area type error or a setting data error occurs in any of the data being
read, no data will be read.
Response
MRC “01”
SRC “10”
Variable Response code type
“0000”
Type
Data Monitor value / Setting data
Variable type
Data
Type
Monitor value / Setting data
Response codes: The above indicates a normal end. For the response codes, see 1-5 Reading the Variable Area (page 1-9).
1-17
CompoWay/ F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
1-9-10 Write via Communications
Command
MRC “30”
Command Related SRC code information “05” “00”
Related information “00” “01”
Description Write via communications disabled Write via communications enabled
Response
This command is used to enable or disable “Write via communications.” When
sent, it changes the set value of “Write via communications.”
When write via communications is disabled, communications cannot be used to
write setting data or send operation commands.
The initial setting is “disabled.”
This command can be used in both setting area 0 and setting area 1.
MRC “30”
SRC Response code
“05”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
1-9-11 Reset
Command
MRC “30”
Command Related SRC code information “05” “01”
Related information
“00”
Reset
Description
Response
This command resets the system to no-measurement status. It can only be used in setting area 0.
MRC “30”
SRC Response code
“05”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
1-9-12 Bank Selection
Command
MRC “30”
Command Related SRC code information “05” “02”
Related information
“00” to “07”
0 to 7
Bank No. selected
This command can be used only when “Bank Selection” is set to “Key.” This command is used to change between comparative set values preset in banks. There are 8 banks numbered 0 to 7. This command can be used in both setting area 0 and setting area 1.
1-18
CompoWay/F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
Response
MRC “30”
SRC Response code
“05”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
1-9-13 Zero Execute/Cancel
Command
MRC “30”
Command Related SRC code information “05” “03”
Related information “00” “01”
Zero cancel Zero execute
Description
This command is used to execute/cancel the forced zero and tare zero functions. The results of the command will depend on the status of the tare zero setting, as shown below.
Tare zero
OFF ON
Commands executed in order left to right.
Zero execute Zero execute
Zero cancel
Zero cancel
Forced zero ON Forced zero ON Forced zero OFF Forced zero OFF
Forced zero ON Tare zero ON Tare zero OFF Forced zero OFF
Response
This command can be used only in setting area 0. An operation error will occur
in the following situations.
· When there is no-measurement status, there is an input error, or a
measurement is outside the display range (but zero cancel is possible.)
· When a RESET or HOLD input is ON
· When the command is used in setting area 1
MRC “30”
SRC Response code
“05”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
1-9-14 Software Reset
Command
MRC “30”
Command Related SRC code information
“05” “06” “00”
A software reset causes the same operation as turning the power off and on. This command can be used in both setting area 0 and setting area 1. To use this command, “Write via communications” must be enabled using the “Write via communications” operation command.
Response
(No response) A response is not returned to this operation command.
1-19
CompoWay/ F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
1-9-15 Move to Setting Area 1
Command Response
MRC “30”
Command Related SRC code information “05” “07” “00”
Use this command to move to setting area 1.
The command is used in setting area 0. Nothing happens if the command is used
in setting area 1.
If the command is used when “Initial setting protect” is set to 2 (Disable
move to input initial setting level), an operation error will result.
To use this command, “Write via communications” must be enabled using the
“Write via communications” operation command.
MRC “30”
SRC Response code
“05”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
1-9-16 Move to Protect Level
Command Response
MRC “30”
Command Related SRC code information
“05” “08” “00”
Use this command to move to protect level.
This command is used in setting area 0. If used in setting area 1, an
operation error will result.
To use this command, “Write via communications” must be enabled using the
“Write via communications” operation command.
MRC “30”
SRC Response code
“05”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
1-9-17 Initialize Settings
Command
MRC “30”
Command Related SRC code information “05” “0B” “00”
This returns all settings to the initial settings.
This command is used in setting area 1. If used in setting area 0, an
operation error will result.
To use this command, “Write via communications” must be enabled using the
“Write via communications” operation command.
1-20
CompoWay/F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
Response
MRC “30”
SRC Response code
“05”
“0000”
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
1-9-18 Read Machine Attributes
Command Response
MRC “05”
SRC “03”
This command reads the K3HB model and communications buffer size. The command can be used in any state of the K3HB.
MRC SRC Response code
“05” “03”
“0000”
Format
Buffer size “00D9”
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
Model
K
3H
B
–
Bytes 8 and 9 are blank
Symbol X
V S H R
P
C
A Series
Analog input
mV input Linear Sensor input Temperature input Rotary pulse input
Time interval input
Up/Down counting pulse input
Symbol VD AD VA AA LC SD TA NB PB NB PB NB PB
B Input
DC voltage AC voltage DC current AC current mV Linear Sensor Temperature
NPN/voltage pulse input PNP input NPN/voltage pulse input PNP input
NPN/voltage pulse input PNP input
1-9-19 Controller Status Read (CompoWay/F Communications)
Command Response
MRC “06”
SRC “01”
This command reads the operation state of the K3HB. The command can be used in any state of the K3HB.
MRC “06”
SRC “01”
Operation Response code state
“0000”
Related information
1-21
CompoWay/ F Communications
Commands and Responses (CompoWay/F Communications)
Section 1-9
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
Operation State
Operation state 00 01
Description Operating (no errors in setting area 0, see note) Stopped (all other situations)
Note
Measurements outside the display range and no-measurement status do not generate errors and thus may be possible even for an operation state of 00.
Related Information
Bit position 7 6 5 4 3 2 1
0
Status
Not used
Not used
Not used
Not used
Input error B
Present value
Input error A
Measurement outside the display range
No-measurement status
Note
(1) The bit will be ON (1) or when an error occurs and otherwise will be OFF
(0).
(2) Information is in the same order as status information.
1-9-20 Echo Back Test
Command
MRC “08”
SRC “01”
Test data 0 to 200 bytes
This command is used to perform an echo back test. The command can be used in any state of the K3HB. Keep the test data within the following ranges depending on the communications data length.
Communications data length
7 bits
8 bits
Description
ASCII code H’20 to H’7E ASCII code H’20 to H’7E or H’A1 to H’FE
Response
MRC “08”
SRC Response code
“01”
“0000”
Test data 0 to 200 bytes
Response codes: The above indicates a normal end. For the response codes, see 1-7 Operation Commands (CompoWay/F Communications) (page 1-11).
1-22
CompoWay/F Communications
Program Example
Section 1-10
1-10 Program Example
N88Basic
This program displays the response from the K3HB on the screen when command
data is entered from the keyboard.
Command data from the unit number to the number of elements must be entered.
The program was created in N88BASIC.
1000 1010 1020 1030 1040 1050 1060 1070 1080 1090 1100 1110 1120 1130 1140 1150 1160 1170 1180 1190 1200 1210 1220 1230 1240 1250 1260 1270 1280 1290 1300 1310 1320 1330 1340 1350 1360 1370 1380 1390 1400 1410 1420 1430 1440 1450 1460 1470 1480 1490 1500 1510 1520 1530 1540 1550 1560 1570
‘—————————————————‘PROGRAM: E5AR/ER Communication Sample Program(CompoWay/F)
‘VERSION:1.00 (c)Copyright OMRON Corporation 2003 All Rights Reserved
‘—————————————————‘ ‘======Communication port (PARITY=EVEN, DATA=7, STOP=2)
======” ‘ OPEN “COM:E73” AS #1 ‘ SENDDATA ‘ ========= Communication
routine================== ‘ ——–Communication data input———INPUT “SEND
DATA:”,SEND$ ‘ ——–If no input, jump to end routine———IF SEND$ = ” ” THEN
EXITSEND ‘ ——-BCC calculation——-BCC = 0 SEND$ = SEND$+CHR$(3) FOR I=1 TO
LEN(SEND$)
BCC = BCC XOR ASC(MID$(SEND$, I, 1)) NEXT I BCC$ = CHR$(BCC) ‘ ——Send———SDATA$
= CHR$(2)+SEND$+BCC$ PRINT #1, SDATA$; ‘ ========= Receive routine ===========
‘ RDATA$ = ” ” TIMEOUT = 0 RCVLOOP ——-No response detection——TIMEOUT =
TIMEOUT+1 IF TIMEOUT > 2000 THEN RESP$ = “No Response”:GOTO RCVEND IF LOC(1) =
0 THEN RCVLOOP ‘ —–Check for end character (if no end character, continue
reading) RDATA$ = RDATA$+INPUT$(LOC(1),#1) IF LEN(RDATA$) <2 THEN RCVLOOP IF
MID$(RDATA$,LEN(RDATA$)-1,1) <> CHR$(3) THEN RCVLOOP RESP$ =
MID$(RDATA$,2,LEN(RDATA$)-2) RCVEND ‘ ——-Display received data———-PRINT
“RESPONSE:”;RESP$ GOTO SENDDATA ‘ EXITSEND =========End routine==========
CLOSE #1 END
1-23
CompoWay/ F Communications
Program Example
Operation Example
Section 1-10
Reading the present value of Unit No.01.
RUN SEND DATA:010000101C00002000001 RESPONSE:010000010100000000014F
SEND DATA: [STX] 01 00 0 0101 C0 0002 00 0001 [ETX] [BCC] Number of elements
Bit position Read start address Variable type MRC/SRC SID Sub-address Node No.
RESPONSE: [STX] 01 00 00 0101 0000 0000014F [ETX] [BCC] Data to be read
Response code MRC/SRC End code Sub-address Node No.
1-24
List of Settings
SECTION 2 List of Settings
This list of settings shows addresses for CompoWay/F communications. Refer to
the address for the communications protocol that is used.
2-1
List of Settings
Status (K3HB)
Output
MAX value MIN value Present value
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
Bit position
Section 2
List of Settings
Status
No measurement status Measurement outside the display range Input error A
Input error B
No measurement status Measurement outside the display range Input error A
Input error B
No measurement status Measurement outside the display range Input error A
Input error B
Comparative set value LL (1) Comparative set value L (2) Comparative set value
PASS (3)
Comparative set value H (4)
0 (OFF) No Error No Error No Error No Error
No Error No Error No Error No Error No Error No Error No Error No Error
OFF OFF OFF OFF
1 (ON) Error Error Error Error Error Error Error Error Error Error Error Error
ON ON ON ON
Operation status Control inputs
Control inputs Outputs
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15
0 0
Bit position
Status Comparative set value HH (5) Error output Not used Not used
TIMING BANK 1 BANK 2 BANK 4 ZERO/COMPENSATION RESET HOLD S-TMR Setting area
Write via communications Forced zero Tare zero
0 (OFF)
1 (ON)
OFF
ON
OFF
ON
OFF
—
OFF
—
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
Setting Area 0 Setting Area 1
OFF (Disabled) ON (Enabled)
OFF
ON
OFF
ON
Note The output status turns ON and OFF whether or not an Output Unit is mounted. The output status is undefined if there is no output terminal when Unit 3 outputs a two-relay comparative output pattern. If the output is a two- relay plus one-relay comparative output pattern, LL turns ON when PASS turns ON (output and display colors are not changed in communications status). A 5-output judgement is performed internally regardless of the number of output points. The LL output is always ON in the above configuration so the PASS output does not turn ON. To avoid this situation, the HH/LL status is ignored when Unit 3 uses a two-relay output pattern. The PASS judgement is performed with just H and L for operations like that described.
2-2
List of Settings
List of Settings
Section 2
Communications Monitoring Settings
Variable Address Setting data Character type
Monitor/Setting range
C0
0000
Version
—
0001
Status
—
0002
Measurement –value
0003
MAX value
—
0004
MIN value
—
—
—
H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
Character
——-
—
—
Default setting ——-
—
—
Decimal Unit point
—
—
—
—
—
—
Model XVSH
—
—
—
—
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Protect Level
Variable Address type
Parameter name
C1
0000
RUN/Adjust-
ment protect
0001
Setting level protect
0002
Setting change protect
0003
Forced zero protect
0004
MAX/MIN protect
Character Monitor/Setting range Character
Default setting
run.pt H’00000000 to
0 to 2
0
H’00000002: (0 to 2)
set.pt H’00000000 to
0 to 2
1
H’00000002: (0 to 2)
wt.pt H’00000000: OFF(0)
off, on
off
H’00000001: ON(1)
zr.pt H’00000000: OFF(0)
off, on
off
H’00000001: ON(1)
mm.pt H’00000000 to
0 to 2
0
H’00000002: (0 to 2)
Decimal Unit point
—
—
Model XVSH
—
—
—
—
—
—
x
—
—
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
RUN Level
Variable Address type
Parameter name
C2
0000
Comparative
set value HH
Character Monitor/Setting range
Character
Default setting
—
H’FFFFB1E1 to H’0001869F :9999 to
99999
(-19,999 to 99,999)
99999
Decimal
Unit
point
According to –the decimal position set-
ting
Model XVSH
0001
Comparative –set value H
0002
Comparative –set value L
0003
Comparative –set value LL
H’FFFFB1E1 to H’0001869F :9999 to
(-19,999 to 99,999)
99999
H’FFFFB1E1 to H’0001869F :9999 to
(-19,999 to 99,999)
99999
H’FFFFB1E1 to H’0001869F :9999 to
(-19,999 to 99,999)
99999
99999 :9999 :9999
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-3
List of Settings
List of Settings
Section 2
Initial Setting Level
Variable Address Parameter
type
name
C4
0000
Calculation
0001
Input type A
0002 0003
Power supply frequency
Scaling input value A1
0004
Scaling display value A1
Character
Monitor/Setting range
Character
Default setting
Decimal Unit point
cal H’00000000: A(0), H’00000001:B(1), 0, 1, 2, 3, 4, 0
H’00000002:K-A(2), H’00000003:
5, 6, 7
A+B(3),
H’00000004: A-B(4), H’00000005: K-
(A+B)(5), H’00000000: B/A×10000(6),
H’00000007: (B/A-1) × 10000(7)
—
—
in-ta X(VD):
X(VD):
X(VD): a vd —
—
H’00000000: ±199.99 V(0),
a vd, b vd, X(AD): a ad
H’00000001: ±19.999 V(1),
c vd, d vd X(VA): a va
H’00000002: ±1.9999 V(2),
X(AD):
X(AA): a aa
H’00000003: 1.0000 to 5.0000 V(3) a ad, b ad, V: a lc
X(AD):
c ad, d ad S: 4 to 20
H’00000000: ±199.99 mA(0),
X(VA):
H: 2-k
H’00000001: ±19.999 mA(1),
a va, b va,
H’00000002: ±1.9999 mA(2),
c va, d va
H’00000003: 4.000 to 20.000 mA(3) X(AA):
X(VA):
a aa, b aa,
H’00000000: 0.0 to 400.0 V(0),
c aa, d aa
H’00000001: 0.00 to 199.99 V(1),
V:
H’00000002: 0.000 o 19.999 V(2),
a lc, b lc,
H’00000003: 0.0000 to 1.9999 V(3) c lc, d lc
X(AA):
S:
H’00000000: 0.000 to 10.000 A(0),
0-20, 4-20,
H’00000001: 0.0000 to 1.9999 A(1), 0-5, 1-5, 5,
H’00000002: 0.00 to 199.99 mA(2), 10
H’00000003: 0.000 to 19.999 m(3)
H:
V:
0-pt, 1-pt,
H’00000000: 0.00 to 199.99 mV(0), 2-k, 3-k, 4-
H’00000001: 0.000 to 19.999 mV(1), j, 5-j, 6-t,
H’00000002: ±100.00 mV(2),
7-e, 8-l, 9-
H’00000003: ±199.99 mV(3)
u, 10-n, 11-
S:
r, 12-s, 13-
H’00000000: 0 to 20 mA(0)
b, 14-w
H’00000001: 4 to 20 mA(1),
H’00000002: 0 to 5 V(2),
H’00000003: 1 to 5 V(3),
H’00000004: ±5 V(4),
H’00000005: ±10 V(5)
H:
H’00000000: 0-Pt100(0), H’00000001:
1-Pt100(1), H’00000002: 2-K(2),
H’00000003: 3-K(3), H’00000004: 4-
J(4), H’00000005: 5-J(5), H’00000006:
6-T(6), H’00000007: 7-E(7),
H’00000008: 8-L(8), H’00000009: 9-
V(9), H’0000000A: 10-N(10),
H’0000000B: 11-R(11), H’0000000C:
12-S(12), H’0000000D: 13-B(13),
H’0000000E: 14-W(14)
fre H’00000000: 50(0), H’00000001: 60(1) 50, 60
50
—
Hz
Model
XVSH
xx
x
x
inp.a1 H’FFFFB1E1 to H’0001869F
:9999 to
X (VD):
Accord- Accord-
x
(-19,999 to 99,999)
99999
:99 . 99
ing to the ing to
X (AD):
input type the
:99 . 99
input
X (VA): 0.0
type
X (AA):
0 . 000
V: 0.00
S: 4.000
dsp.a1 H’FFFFB1E1 to H’0001869F
:9999 to
X (VD):
—
—
x
(-19,999 to 99,999)
99999
:9999
X (AD):
:9999
X (VA): 0
X (AA): 0
V: 0
S: 4000
2-4
List of Settings
List of Settings
Section 2
Variable Address Parameter
type
name
C4
0005
Scaling
input value
A2
0006
Scaling display value
A2
0007
Input type B
0008
Scaling input value B1
0009 000A
Scaling display value B1
Scaling input value B2
000B 000C 000D
Scaling display value B2
Constant K
Decimal point position
000F 000E
Temperature units
Comparative output pattern
Character
Monitor/Setting range
inp.a2 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
dsp.a2 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
in-tb H’00000000: 0 to 20 mA(0), H’00000001: 4 to 20 mA(1), H’00000002: 0 to 5
V(2), H’00000003: 1 to 5 V(3), H’00000004: ±5 V(4), H’00000005: ±10(5)
inp.b1 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
dsp.b1 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
inp.b2 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
dsp.b2 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
k H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
dp H’00000000 to H’00000004: 0 to 4
d-u H’00000000 °C(0), H’00000001: F(1)
out-p H’00000000: standard output(0), H’00000001: zone output(1), H’00000002:
zone output(2)
Character :9999 to 99999
:9999 to 99999 0-20, 4-20, 0-5, 1-5, 5, 10
Default setting
Decimal point
X (VD): 199 . 99 X (AD): 199 . 99 X (VA): 400 . 00 X (AA): 10 . 000 V: 199.99 S: 20.000
According to the
input type
X (VD):
—
19999
X (AD):
19999
X (VA): 4000
X (AA):
10000
V: 19999
S: 20000
4-20
—
Unit According to the input type
—
—
Model XVSH
x
x
xx
x
:9999 to 99999
20 . 000
:9999 to 99999 :9999 to 99999
4000 20 . 000
:9999 to 99999
20000
:9999 to 99999 ,,,,,, ,,,,.,, ,,,.,,, ,,.,,,, ,.,,,,
c, f
0
X (VD): ,,,.,, X (AD): ,,,.,, X (VA): ,,,,., X (AA): ,,.,,, V: ,,,., S: ,,.,,,
c
nomal,
nomal
zone, level
Accord- Accord- x x
x
ing to the ing to
input type the
input
type
—
—
xx
x
Accord- Accord- x x
x
ing to the ing to
input type the
input
type
—
—
xx
x
—
—
xx
x
—
—
x
—
—
xxx
—
—
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-5
List of Settings
List of Settings
Section 2
Input Adjustment Level
Variable Address Parameter
type
name
C5
0000
Timing hold
0001 0002 0003 0004
ON timing delay
OFF timing delay
Zero limit
Zero limit value
Character
Monitor/Setting range
Character
Default setting
tmg-h H’00000000: Normal(0), H’00000001: sampling(1), H’00000002: peak(2),
H’00000003: bottom(3), H’00000004: peak to peak(4)
on-t H’00000000 to H’00001387: (0 to 4999)
off-t H’00000000 to H’00001387: (0 to 4999)
z-lim H’00000000: OFF(0) H’00000001: ON(1)
lim-p H’00000000 to H’00000063: (0 to 99)
nomal, s-h, nomal p-h, b-h, p-p
0 to 4999 0
0 to 4999 0
off, on
off
0 to 99
0
0005
Step value
0006
Average type
0007
Averaging times
0008 0009 000A 000B 0010
Input shift input 1
Input shift value 1
Input shift input 2
Input shift value 2
Power interruption memory
step H’00000000: OFF(0), H’00000001: 2(1), H’00000002: 5(2), H’00000003: 10(3)
avg-t H’00000000: Simple average(0), H’00000001: move average(1)
avg-n
H’00000000: 1(0)/H’00000001: 2(1)/
H’00000002: 4(2)/ H’00000003: 8(3)/ H’00000004:16(4)/
H’00000005:32(5)/ H’00000006: 64(6)/ H’00000007: 128(7)/
H’000000008: 256(8)/ H’000000009: 512(9)/ H’00000000A:
1024(10) times
isi.1 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
iss.1 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
isi.2 H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
iss.2 H’FFFFB1E1 to H’0001869F (-199.99 to 99.999)
memo H’00000000: OFF(0), H’00000001: ON(1)
off, 2, 5, 10 smpl, move 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024
:9999 to 99999 :99.99 to 999 . 99 :9999 to 99999 :99.99 to 99 . 999 off, on
off smpl 1
-200 . 0 0 . 00 1300 . 0 0 . 00 off
Decimal point
—
Unit —
model XVSH
—
S: ms
Others:
100 ms
—
S: ms
Others:
100 ms
—
—
According to —
the decimal position set-
ting
—
digit
—
—
—
—
According to –the input type
2
—
According to –the input type
2
—
—
—
xxx xxx xxx xxx
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-6
List of Settings
List of Settings
Section 2
Display Adjustment Level
Variable Address Parameter Character
type
name
Monitor/Setting range
Character
Default setting
C6
0000
Compara-
tive set
value dis-
play
sv.dsp H’00000000: OFF(0),
off, on
off
H’00000001: ON(1)
0001
Display refresh
period
d.ref H’00000000: OFF(0), H’00000001: 0.5 s(1),
H’00000002: 1 s(2), H’00000003: 2 s(3), H’00000004: 4 s(4)
off, 0.5, 1, off 2, 4
0002
Display color selec-
tion
color H’00000000: Green (red)(0), H’00000001:
green(1), H’00000002: red (green)(2), H’00000003: red(3)
grn-r, grn, grn-r red-g, red
0003
Display
value selection
disp H’00000000: PV(0), H’00000001: MAX(1), H’00000002: MIN (2)
pv, max, min pv
0004
Automatic display
return
ret H’00000000 to
0 to 99
10
H’00000063: (0 to 99)
0005
Position meter type
pos-t H’00000000: OFF(0),
off, inc, inc
H’00000001: increase(1), inc-r, dev,
H’00000002: increase
dev-r
(inverted)(2),
H’00000003: deviation
(3),
H’00000004: deviation,
(inverted)(4)
0006
Position meter upper limit
pos-h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
X (VD): 19999 X (AD): 19999 X (VA): 4000 X (AA): 10000 V: 19999 S: 99999 H: 1300 . 0
0007
Position meter lower limit
pos-l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
X (VD): :9999 X (AD): :9999 X (VA): 0 X (AA): 0 V: 0 S: :9999 H: -200 . 0
0008
PV decimal
point indication
pvdp H’00000000: OFF(0)
off, on
on
H’00000001: ON(1)
Decimal point
—
Unit —
Model XVSH
—
s
—
—
—
—
—
s
—
—
According to –the decimal position set-
ting
According to –the decimal position set-
ting
—
—
xxx
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Comparative Set Value Level
Variable Address Parameter Character
type
name
Monitor/Setting range
Character
Default setting
C8
0000
Compara-
tive set
value 0 HH
sv0.hh H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0001
Compara-
tive set value 0 H
sv0.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0002
Compara-
tive set value 0 L
sv0.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
0003
Comparative set
value 0 LL
sv0.ll H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
Decimal
Unit
point
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
Model XVSH
2-7
List of Settings
List of Settings
Section 2
Variable Address Parameter
type
name
C8
0004
Compara-
tive set
value 1 HH
Character Monitor/Setting range Character
Default setting
sv1.hh H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0005
Comparative set
value 1 H
sv1.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0006
Comparative set value 1 L
sv1.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
0007
Comparative set value 1 LL
sv1.ll H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
0008
Compara-
tive set value 2 HH
sv2.hh H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0009
Compara-
tive set value 2H
sv2.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
000A
Compara-
tive set value 2 L
sv2.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
000B
Comparative set
value 2 LL
sv2.ll H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
000C
Comparative set
value 3 HH
sv3.hh H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
000D
Comparative set value 3 H
sv3.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
000E
Comparative set value 3 L
sv3.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
000F
Compara-
tive set value 3 LL
sv3.ll H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
0010
Compara-
tive set value 4 HH
sv4.hh H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0011
Comparative set
value 4 H
sv4.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0012
Comparative set
value 4 L
sv4.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
0013
Comparative set value 4 LL
sv4.ll H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
0014
Comparative set value 5 HH
sv5.hh H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0015
Compara-
tive set value 5 H
sv5.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
Decimal
Unit
point
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
Model XVSH
2-8
List of Settings
List of Settings
Section 2
Variable Address Parameter
type
name
C8
0016
Compara-
tive set
value 5 L
Character Monitor/Setting range Character
Default setting
sv5.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
0017
Comparative set
value 5 LL
sv5.ll H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
0018
Comparative set value 6 HH
sv6.hh H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
0019
Comparative set value 6 H
sv6.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
001A
Compara-
tive set value 6 L
sv6.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
001B
Compara-
tive set value 6 LL
sv6.ll H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
001C
Compara-
tive set value 7 HH
sv7.hh H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
001D
Comparative set
value 7 H
sv7.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
99999
001E
Comparative set
value 7 L
sv7.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
001F
Comparative set value 7 LL
sv7.ll H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
:9999 to 99999
:9999
Decimal
Unit
point
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
According to –the decimal position setting
Model XVSH
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Linear Output Level
Variable Address Parameter
type
name
C9
0000
Linear cur-
rent type
0001
Linear voltage type
0002
Linear output upper
limit
0003
Linear out-
put lower limit
Character
Monitor/Setting range Character
Default setting
lset.c H’00000000: 0 to 20 mA(0), H’00000001: 4 to 20 mA(1)
lset.v H’00000000: 0 to 5 V(0), H’00000001: 1 to 5 V(1), H’00000002: 0 to 10
V(2)
lset.h H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
lset.l H’FFFFB1E1 to H’0001869F (-19,999 to 99,999)
0-20, 4-20 0-5, 1-5, 0-10 :9999 to 99999
:9999 to 99999
4-20 1-5
X (VD): 19999 X (AD): 19999 X (VA): 4000 X (AA): 10000 V: 19999 S: 99999 H:
1300.0 X (VD): :9999 X (AD): :9999 X (VA): 0 X (AA): 0 V: 0 S: :9999 H: -200.0
Decimal point
—
Unit —
—
—
According to –the decimal
position setting
According to —
the decimal position setting
Model XVSH
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-9
List of Settings
List of Settings
Section 2
Communications Setting Level
Variable Address Parameter Character
type
name
Monitor/Setting range
Character
Default setting
CA
0000
Unit No.
0001
Baud rate
0002 0003 0004
Data length
Stop bit length Parity
0005
Send wait time
u-no H’00000000 to H’00000063: (0 to 99)
bps H’00000000: 9.6(0), H’00000001: 19.2(1), H’00000002: 38.4(2)
len H’00000000: 7(0), H’00000001: 8(1)
sbit H’00000000: 1(0), H’00000001: 2(1)
prty H’00000000: None (0), H’00000001: Even (1), H’00000002: Odd (2)
sdwt H’00000000 to H’00000063 (0 to 99)
0 to 99
1
9.6, 19.2, 9.6 38 . 4
7, 8
7
1, 2
2
none, even, even odd
0 to 99
20
Decimal point
—–
——-
—
Unit —
Model XVSH
kbps
bit bit —
ms
Note The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Advanced Function Setting Level
Variable Address Parameter Charac-
type
name
ter
Monitor/Setting range
CB
0000
PASS-output
pass H’00000000: LL(0), H’00000001:
change
L(1), H’00000002: PASS(2),
H’00000003: H(3), H’00000004:
HH(4), H’00000005: ERR(5)
0001
Hysteresis
hys H’00000000 to H’0000270F: (0 to 9,999)
0002
Output OFF delay
off-d H’00000000 to H’000007CF (0 to 1,999)
Character ll, l, pass, h, hh, err
Default setting
pass
0 to 9999
1
0 to 1999
0
Decimal point
—
According to the decimal position setting —
0003
Shot output
shot H’00000000 to
0 to 1999
0
—
H’000007CF (0 to 1,999)
0004 0005 0006 0007 0008
0009 000A
000B
000C 000D
Output logic
Output refresh stop
Tare zero
Zero trimming
Previous average value comparison
Bank selection
Startup compensation timer
Input error enable
Standby sequence
Cold junction compensating circuit
out-n H’00000000: Close in alarm(0),
n-o, n-c
n-o
—
H’00000001: Open in alarm(1)
o-stp H’00000000: OFF(0), H’00000001: off, out, all off
—
OUT(1), H’00000002: ALL(2)
t-zr H’00000000: OFF(0) H’00000001: ON(1)
off, on
off
—
z-trm H’00000000: OFF(0) H’00000001: ON(1)
off, on
off
—
hp-f H’00000000: OFF(0) H’00000001: ON(1)
off, on
off
—
bnk-c H’00000000: OFF(0), H’00000001: off, key, ev off
—
KEY(1), H’00000002: EV(2)
(See note.)
s-tmr H’00000000 to H’0000270F: (0 to 99.9)
0 . 0 to 99 . 9 0 . 0
1
s.err H’00000000: Disable(0), H’00000001: overflow(1), H’00000002: input
error(2)
stdby H’00000000: OFF(0) H’00000001: ON(1)
cjc H’00000000: OFF(0) H’00000001: ON(1)
off, over, s.err
—
s.err
off, on
off
—
off, on
on
—
Unit
—
—
S: ms Others: 100 ms S: ms Others: 100 ms ———–
–s
—
—–
Model XVSH
x x
xxx
Note (1) The values beginning with H’ in the Monitor/Setting range column are
used when setting or monitoring data via communications.
(2) If the event connector is provided as a standard feature or an event
connector is added, use EV for the “bank selection” setting.
2-10
List of Settings
List of Settings
Section 2
K3HB-R/P
Communications Monitoring Settings
Variable type
C0
Address
0000 0001 0002
Parameter name
Version
Status
Measurement value
0003 0004
Max. value Min. value
Character
——-
—–
Monitor/Setting range
Character
—
—
—
—
H’FFFFB1E1 to H’0001869F: -19999 to 99999
—
(Time limit is OFF. Lower limit of P is 0.)
H’00000000 to H’0001869F: 0 to 99999 (Time unit is
min.)
H’00000000 to H’000176D7: 0.00.00 to 9.59.59
(Time unit is hr:min:s.)
H’00000000 to H’0001850F: 00.00.0 to 99.59.9
(Time unit is min:s:ms.)
Same as above
—
Same as above
—
Default setting —
—
—
Decimal point Unit
—
—
—
—
—
—
—
—
—
—
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Protect Level
Variable type
C1
Address 0000 0001 0002 0003
Parameter name
RUN/adjustment protect
Setting level protect
Setting change protect
Max/Min protect
Character
run.pt
Monitor/Setting range H’00000000 to H’00000002: (0 to 2)
set.pt
H’00000000 to H’00000002: (0 to 2)
wt.pt mmpt
H’00000000: OFF (0) H’00000001: ON (1)
H’00000000 to H’00000002: (0 to 2)
Character 0 to 2 0 to 2 off, on 0 to 2
Default setting
0
Decimal point Unit
—
—
1
—
—
off
—
—
0
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
RUN Level
Variable type
C2
Address 0000
Parameter name
Measurement value/comparative set value HH
Character
—
Monitor/Setting range
H’FFFFB1E1 to H’0001869F: -19999 to 99999 (Time limit is OFF. Lower limit of P
is 0.) H’00000000 to H’0001869F: 0 to 99999 (Time unit is min.) H’00000000 to
H’000176D7: 0.00.00 to 9.59.59 (Time unit is hr:min:s.) H’00000000 to
H’0001850F: 00.00.0 to 99.59.9 (Time unit is min:s:ms.)
Character
Default setting
:9999 to 99999 0. 00. 00 to 99999 0. 00. 00 to 9. 59. 59 0. 00. 00 to 99. 59. 9
99999
0001 0002 0003
Measurement
—
value/compara-
tive set value H
Measurement
—
value/compara-
tive set value L
Measurement
—
value/compara-
tive set value LL
Same as above Same as above Same as above
Same as above 99999
Same as above
R: :9999 P: 0
Same as above
R: :9999 P: 0
Decimal point Unit
According to the –decimal position setting. The time unit, however, is
indicated as .. for hr:min:s and as .. for min:s:ms. Same as above —
Same as above —
Same as above —
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-11
List of Settings
List of Settings
Section 2
Initial Setting Level
Variable type
C4
Address
0010 0001
Parameter name
Function
Input type A
0007
Input type B
0011 0012 0013 0014 0015
Prescale AX Prescale AY Prescale BX Prescale BY Time unit
000D 000E
Decimal point position
Comparative output pattern
Character
func in-ta
in-tb
ps. ax ps. ay ps. bx ps. by time
dp
Monitor/Setting range
H’00000000 to H’00000005: (F1 to 6)
H’00000000: No-contact (NO) H’00000001: No-contact (NC) H’00000002: Contact
(NO) H’00000003: Contact (NC)
H’00000000: No-contact (NO) H’00000001: No-contact (NC) H’00000002: Contact
(NO) H’00000003: Contact (NC)
H’00000000 to H’0001869F: (0.0000 to 9.9999)
H’FFFFFFF7 to H’00000009: (-9 to 9)
H’00000000 o H’0001869F: (0.0000 to 9.9999)
H’FFFFFFF7 to H’00000009: (-9 to 9)
H’00000000: OFF (0) H’00000001: min (1) H’00000002: hour: min: s (2)
H’00000003: min, s: 100 ms (3)
H’00000000 to H’00000004: (0 to 4)
out-p
H’00000000: Standard outputs (0) H’00000001: Zone outputs (1) H’00000002: Level outputs (2)
Character
f1 to 6 00, 01, 10, 11
Default setting
f1
00
Decimal point Unit
—
—
—
—
00, 01, 10, 11
00
—
—
0. 0000 to 9. 9999 1. 0000
4
—
10 -9 to 10 9 10 0
—
—
0. 0000 to 9. 9999 1. 0000
4
—
10 -9 to 10 9 10 0
—
—
off, min,
off
—
—
h. mm. ss,
mm. ss. d
\\, \\. , \\
—
—
\. \, \. \,
. \\
nomal, zone,
nomal
—
—
level
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Input Adjustment Level
Variable type
C5
Address 0006
Parameter name
Averaging type
0007
Averaging times
000C 000D 0010
Auto-zero time A
Auto-zero time B
Power supply memory
Character
a?g-t a?g-n
at. za at. zb memo
Monitor/Setting range
H’00000000: Simple average (0) H’00000001: Moving average (1)
H’00000000: 1 (0)/H’00000001: 2 (1)/ H’00000002: 4 (2)/H’00000003: 8 (3)/
H’00000004: 16 (4)/H’00000005: 32 (5)/ H’00000006: 64 (6)/H’00000007: 128 (7)/
H’00000008: 256 (8)/H’00000009: 512 (9)/ H’0000000A: 1,024 (10) times
H’00000000 to H’0000752F: (0.0 to 2999.9)
H’00000000 to H’0000752F: (0.0 to 2999.9)
H’00000000: OFF (0), H’00000001: ON (1)
Character smpl, mo?e
Default setting
smpl
Decimal point Unit
—
—
1, 2, 4, 8, 16, 32, 1
—
—
64, 128, 256,
512, 1024
0. 0 to 2999. 9
2999. 9
1
s
0. 0 to 2999. 9
2999. 9
1
s
off, on
off
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-12
List of Settings
List of Settings
Section 2
Display Adjustment Level
Variable type
C6
Address 0000 0001 0002 0003 0004 0005
0006
Parameter name
Comparative set value display Display refresh period
Display color selection
Display value selection Automatic display return Position meter type
Position meter upper limit
Character
s?. dsp d. ref
color
disp ret pos-t
pos-h
Monitor/Setting range H’00000000: OFF (0), H’00000001: ON (1)
Character off, on
Default setting
off
H’00000000: OFF (0), H’00000001: 0.5 s (1), H’00000002: 1 s (2), H’00000003: 2
s (3), H’00000004: 4 s (4)
H’00000000: Green (red) (0), H’00000001: Green (1), H’00000002: Red (green)
(2), H’00000003: Red (3)
H’00000000: PV (0), H’00000001: Max (1), H’00000002: Min (2)
H’00000000 to H’00000063: (0 to 99)
off, 0. 5, 1, 2, 4
grn-r, grn, red-g, red p?, max, min 0 to 99
off grn-r p? 10
H’00000000: OFF (0), H’00000001: Incremental (1), H’00000002: Incremental
(reversed) (2), H’00000003: Deviation (3), H’00000004: Deviation (reversed)
(4)
H’FFFFB1E1 to H’0001869F: -19999 to 99999 (Time limit is OFF. Lower limit of P
is 0.) H’00000000 to H’0001869F: 0 to 99999 (Time unit is min.) H’00000000 to
H’000176D7: 0.00.00 to 9.59.59 (Time unit is hr:min:s.) H’00000000 to
H’0001850F: 00.00.0 to 99.59.9 (Time unit is min:s:ms.)
off, inc, inc-r, inc dev, dev-r
:9999 to 99999 0. 00. 00 to 99999 0. 00. 00 to 9. 59. 59 0. 00. 00 to 99. 59. 9
99999
0007
Position meter lower limit
pos-l
Same as above
Same as above
R: :9999 P: 0
Decimal point Unit
—
—
—
s
—
—
—
—
—
s
—
—
According to the –decimal position setting. The time unit, however, is
indicated as .. for hr:min:s and as .. for min:s:ms.
Same as above —
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-13
List of Settings
List of Settings
Section 2
Prescale Level
Variable type
C7
Address
0000 0001 0002 0003 0004
Parameter name
Prescale 0AX
Prescale 0AY
Prescale 0BX
Prescale 0BY
Decimal point position 0
0005 0006 0007 0008 0009
Prescale 1AX Prescale 1AY Prescale 1BX Prescale 1BY Decimal point position 1
000A 000B 000C 000D 000E
Prescale 2AX Prescale 2AY Prescale 2BX Prescale 2BY Decimal point position 2
000F 0010 0011 0012 0013
Prescale 3AX Prescale 3AY Prescale 3BX Prescale 3BY Decimal point position 3
0014 0015 0016 0017 0018
Prescale 4AX Prescale 4AY Prescale 4BX Prescale 4BY Decimal point position 4
0019 001A 001B 001C 001D
Prescale 5AX Prescale 5AY Prescale 5BX Prescale 5BY Decimal point position 5
001E 001F 0020 0021 0022
Prescale 6AX Prescale 6AY Prescale 6BX Prescale 6BY Decimal point position 6
0023 0024 0025 0026 0027
Prescale 7AX Prescale 7AY Prescale 7BX Prescale 7BY Decimal point position 7
Character
ps0. ax ps0. ay ps0. bx ps0. by dp0
Monitor/Setting range
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to
9) H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9
to 9) H’00000000 to H’00000004: (0 to 4)
ps1. ax ps1. ay ps1. bx ps1. by dp1
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps2. ax ps2. ay ps2. bx ps2. by dp2
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps3. ax ps3. ay ps3. bx ps3. by dp3
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps4. ax ps4. ay ps4. bx ps4. by dp4
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps5. ax ps5. ay ps5. bx ps5. by dp5
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps6. ax ps6. ay ps6. bx ps6. by dp6
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps7. ax ps7. ay ps7. bx ps7. by dp7
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
Character
Default setting
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
Decimal point Unit
4
—
—
—
4
—
—
—
—
—
4
—
—
—
4
—
—
—
—
—
4
—
—
—
4
—
—
—
—
—
4
—
—
—
4
—
—
—
—
—
4
—
—
—
4
—
—
—
—
—
4
—
—
—
4
—
—
—
—
—
4
—
—
—
4
—
—
—
—
—
4
—
—
—
4
—
—
—
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-14
List of Settings
List of Settings
Section 2
Comparative Set Value Level
Variable type
C8
Address 0000
Parameter name
Comparative set value 0HH
Character
s?0. hh
Monitor/Setting range
H’FFFFB1E1 to H’0001869F: -19999 to 99999 (Time limit is OFF. Lower limit of P
is 0.) H’00000000 to H’0001869F: 0 to 99999 (Time unit is min.) H’00000000 to
H’000176D7: 0.00.00 to 9.59.59 (Time unit is hr:min:s.) H’00000000 to
H’0001850F: 00.00.0 to 99.59.9 (Time unit is min:s:ms.)
0001 0002 0003 0004 0005 0006 0007 0008 0009 000A 000B 000C 000D 000E 000F 0010 0011 0012 0013 0014 0015 0016 0017 0018 0019 001A 001B 001C 001D 001E 001F
Comparative set value 0H
Comparative set value 0L
Comparative set value 0LL
Comparative set value 1HH
Comparative set value 1H
Comparative set value 1L
Comparative set value 1LL
Comparative set value 2HH
Comparative set value 2H
Comparative set value 2L
Comparative set value 2LL
Comparative set value 3HH
Comparative set value 3H
Comparative set value 3L
Comparative set value 3LL
Comparative set value 4HH
Comparative set value 4H
Comparative set value 4L
Comparative set value 4LL
Comparative set value 5HH
Comparative set value 5H
Comparative set value 5L
Comparative set value 5LL
Comparative set value 6HH
Comparative set value 6H
Comparative set value 6L
Comparative set value 6LL
Comparative set value 7HH
Comparative set value 7H
Comparative set value 7L
Comparative set value 7LL
s?0. h s?0. l s?0. ll s?1. hh s?1. h s?1. l s?1. ll s?2. hh s?2. h s?2. l s?2. ll s?3. hh s?3. h s?3. l s?3. ll s?4. hh s?4. h s?4. l s?4. ll s?5. hh s?5. h s?5. l s?5. ll s?6. hh s?6. h s?6. l s?6. ll s?7. hh s?7. h s?7. l s?7. ll
Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above Same as above
Character
Default setting
:9999 to 99999 0. 00. 00 to 99999 0. 00. 00 to 9. 59. 59 0. 00. 00 to 99. 59. 9
99999
Same as above 99999
Decimal point Unit
According to the –decimal position setting. The time unit, however, is
indicated as .. for hr:min:s and as .. for min:s:ms.
Same as above —
Same as above Same as above Same as above
R: :9999 P: 0
R: :9999 P: 0
99999
Same as above –Same as above –Same as above —
Same as above 99999
Same as above —
Same as above Same as above Same as above
R: :9999 P: 0
R: :9999 P: 0
99999
Same as above –Same as above –Same as above —
Same as above 99999
Same as above —
Same as above Same as above Same as above
R: :9999 P: 0
R: :9999 P: 0
99999
Same as above –Same as above –Same as above —
Same as above 99999
Same as above —
Same as above Same as above Same as above
R: :9999 P: 0
R: :9999 P: 0
99999
Same as above –Same as above –Same as above —
Same as above 99999
Same as above —
Same as above Same as above Same as above
R: :9999 P: 0
R: :9999 P: 0
99999
Same as above –Same as above –Same as above —
Same as above 99999
Same as above —
Same as above Same as above Same as above
R: :9999 P: 0
R: :9999 P: 0
99999
Same as above –Same as above –Same as above —
Same as above 99999
Same as above —
Same as above Same as above Same as above
R: :9999 P: 0
R: :9999 P: 0
99999
Same as above –Same as above –Same as above —
Same as above 99999
Same as above —
Same as above Same as above
R: :9999 P: 0
R: :9999 P: 0
Same as above –Same as above —
2-15
List of Settings
List of Settings
Section 2
Linear Output Level
Variable type
C9
Address 0000 0001 0002
Parameter name
Linear current type
Linear voltage type
Linear output upper limit
0003
Linear output lower limit
Character
lset. c
Monitor/Setting range
Character
H’00000000: 0-20 mA (0), H’00000001: 4-20 mA (1) 0-20, 4-20
Default setting
4-20
lset. v lset. h
H’00000000: 0-5 V (0), H’00000001: 1-5 V (1), H’00000002: 0-10 V (2)
H’FFFFB1E1 to H’0001869F: -19999 to 99999 (Time limit is OFF. Lower limit of P
is 0.) H’00000000 to H’0001869F: 0 to 99999 (Time unit is min.) H’00000000 to
H’000176D7: 0.00.00 to 9.59.59 (Time unit is hr:min:s.) H’00000000 to
H’0001850F: 00.00.0 to 99.59.9 (Time unit is min:s:ms.)
0-5, 1-5, 0-10 1-5
:9999 to 99999 0. 00. 00 to 99999 0. 00. 00 to 9. 59. 59 0. 00. 00 to 99. 59. 9
99999
lset. l
Same as above
Same as above
R: :9999 P: 0
Decimal point Unit
—
—
—
—
According to the –decimal position setting. The time unit, however, is
indicated as .. for hr:min:s and as .. for min:s:ms.
Same as above —
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Communications Setting Level
Variable type
CA
Address 0000 0001
Parameter name
Communications unit number
Baud rate
0002 0003 0004 0005
Communications data length
Communications stop bits
Communications parity
Send wait time
Character
u-no
bps
len
sbit
prty
sdwt
Monitor/Setting range
H’00000000 to H’00000063: (0 to 99)
H’00000000: 9.6 (0), H’00000001: 19.2 (1), H’00000002: 38.4 (2) H’00000000: 7
(0), H’00000001: 8 (1)
H’00000000: 1 (0), H’00000001: 2 (1)
H’00000000: None (0), H’00000001: Even (1), H’00000002: Odd (2) H’00000000 to
H’00000063: (0 to 99)
Character 0 to 99
Default setting
1
Decimal point Unit
—
—
9. 6, 19. 2. 38. 4 9. 6
—
kbps
7, 8
7
—
bit
1, 2
2
—
bit
none, even, odd even
—
—
0 to 99
20
—
ms
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Advanced Function Setting Level
Variable type
CB
Address 0000
Parameter name
PASS output change
0001
Hysteresis
Character
pass
hys
Monitor/Setting range
H’00000000: LL (0), H’00000001: L (1), H’00000002: PASS (2), H’00000003: H
(3), H’00000004: HH (4)
H’00000000 to H’0000270F: 0 to 9999 (Time limit is OFF. Lower limit of P is
0.) H’00000000 to H’00001747: 0.00.00 to 0.59.59 (Time unit is hr:min:s.)
H’00000000 to H’0000257F: 00.00.0 to 09.59.9 (Time unit is min:s:ms.)
Character
Default setting
ll, l, pass, h, pass hh
0 to 9999
1
0. 00. 00 to
0. 59. 59
00. 00. 0 to
09. 59. 9
0002 0003 0004 0005 0009 000A 000C
Output OFF delay off-d
H’00000000 to H’000007CF: (0 to 1999)
Shot output
shot
H’00000000 to H’000007CF: (0 to 1999)
Output logic
Output refresh stop Bank selection
Startup compensation timer Standby sequence
out-n o-stp bnk-c s-tmr
stdby
H’00000000: Close in alarm (0), H’00000001: Open in alarm (1) H’00000000: OFF
(0), H’00000001: OUT (1), H’00000002: ALL (2) H’00000000: OFF (0), H’00000001:
KEY (1), H’00000002: EV (2) H’00000000 to H’0000270F: (0.0 to 99.9)
H’00000000: OFF (0), H’00000001: ON (1)
0 to 1999
0
0 to 1999
0
n-o, n-c off, out, all off, key, ev 0. 0 to 99. 9
n-o
off
off (See note 1.) 0. 0
off, on
off
Decimal point Unit
—
—
According to the decimal position setting. The time unit, however, is
indicated as .. for hr:min:s and as .. for min:s:ms. —
—
—
—
R: 100 ms P: ms R: 100 ms P: ms —
—
—
—
—
1
s
—
—
Note
(1) If the event connector is provided as a standard feature or an event
connector is added, use EV for the “bank selection” set.
(2) The values beginning with H’ in the Monitor/Setting range column are used
when setting or monitoring data via communications.
2-16
List of Settings
List of Settings
Section 2
K3HB-C
Communications Monitoring Settings
Variable type
C0
Address
0000 0001 0002
0003 0004
Parameter name
Version
Status
Measurement value
Max. value
Min. value
Character
—
—–
Monitor/Setting range
—-H’FFFFB1E1 to H’0001869F: (-19999 to 99999)
—
H’FFFFB1E1 to H’0001869F: (-19999 to 99999)
—
H’FFFFB1E1 to H’0001869F: (-19999 to 99999)
Character
——-
—–
Default setting
—
—–
Decimal point Unit
—
—
—
—
—
—
—
—
—
—
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Protect Level
Variable type
C1
Address 0000 0001 0002 0003
Parameter name
RUN/adjustment protect
Setting level protect
Setting change protect
Max/Min protect
Character
run. pt
Monitor/Setting range H’00000000 to H’00000002: (0 to 2)
set. pt
H’00000000 to H’00000002: (0 to 2)
wt. pt mm. pt
H’00000000: OFF (0) H’00000001: ON (1)
H’00000000 to H’00000002: (0 to 2)
Character 0 to 2 0 to 2 off, on 0 to 2
Default setting
0
Decimal point Unit
—
—
1
—
—
off
—
—
0
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
RUN Level
Variable type
C2
Address 0000 0001 0004 0002 0003
Parameter name
Measurement value/comparative set value 5
Measurement value/comparativ e set value 4
Measurement value/comparativ e set value 3
Measurement value/comparativ e set value 2
Measurement value/comparativ e set value 1
Character
—
—
—
—
—
Monitor/Setting range H’FFFFB1E1 to H’0001869F: (-19999 to 99999) H’FFFFB1E1 to H’0001869F: (-19999 to 99999) H’FFFFB1E1 to H’0001869F: (-19999 to 99999) H’FFFFB1E1 to H’0001869F: (-19999 to 99999) H’FFFFB1E1 to H’0001869F: (-19999 to 99999)
Character :9999 to 99999
Default setting
99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
Decimal point Unit
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-17
List of Settings
List of Settings
Section 2
Initial Setting Level
Variable type
C4
Address 0010
Parameter name
Function
0001
Input type A
0007
Input type B
0011 0012 000D
000E
Prescale X Prescale Y Decimal point position
Comparative output pattern
Character
func
in-ta
in-tb
ps. ax ps. ay dp
Monitor/Setting range
H’00000000: Individual inputs (0), H’00000001: Phase differential inputs (1),
H’00000002: Pulse counting input (2)
H’00000000: No-contact (NO), H’00000001: No-contact (NC), H’00000002: Contact
(NO), H’00000003: Contact (NC)
H’00000000: No-contact (NO), H’00000001: No-contact (NC), H’00000002: Contact
(NO), H’00000003: Contact (NC)
H’00000000 to H’0001869F: (0.0000 to 9.9999)
H’FFFFFFF7 to H’00000009: (-9 to 9)
H’00000000 to H’00000004: (0 to 4)
out-p
H’00000001: Zone outputs (1), H’00000002: Level outputs (2)
Character f1, f2, f3
Default setting
f3
Decimal point Unit
—
—
00, 01, 10, 11
00
—
—
00, 01, 10, 11
00
—
—
0. 0000 to 9. 9999 1. 0000
4
—
10 -9 to 10 9 10 0
—
—
\\, \\. , \\
—
—
\. \, \. \,
. \\
zone, level
level
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Input Adjustment Level
Variable type
C5
Address 000E 000F 0010
Parameter name
Compensation value
Compensation conditions
Power supply memory
Character
compn
Monitor/Setting range H’FFFFB1E1 to H’0001869F: (-19999 to 99999)
com-p memo
H’00000000: None (0), H’00000001: When input is addition (1)
H’00000000: OFF (0), H’00000001: ON (1)
Character :9999 to 99999
Default setting
0
Decimal point Unit
—
—
none, plus
none
—
—
off, on
off
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Display Adjustment Level
Variable type
C6
Address 0000 0001 0002 0003 0004 0005
0006 0007
Parameter name
Comparative set value display Display refresh period
Display color selection
Display value selection Automatic display return Position meter type
Position meter upper limit Position meter lower limit
Character
s?. dsp d. ref
color
disp ret pos-t
pos-h pos-l
Monitor/Setting range H’00000000: OFF (0), H’00000001: ON (1)
Character off, on
Default setting
off
H’00000000: OFF (0), H’00000001: 0.5 s (1), H’00000002: 1 s (2), H’00000003: 2
s (3), H’00000004: 4 s (4)
H’00000000: Green (red) (0), H’00000001: Green (1), H’00000002: Red (green)
(2), H’00000003: Red (3)
H’00000000: PV (0), H’00000001: Max (1), H’00000002: Min (2)
H’00000000 to H’00000063: (0 to 99)
off, 0. 5, 1, 2, 4
grn-r, grn, red-g, red p?, max, min 0 to 99
off grn-r p? 10
H’00000000: OFF (0), H’00000001: Incremental (1), H’00000002: Incremental
(reversed) (2), H’00000003: Deviation (3), H’00000004: Deviation (reversed)
(4)
H’FFFFB1E1 to H’0001869F: (-19999 to 99999)
off, inc, inc-r, dev, dev-r
:9999 to 99999
inc 99999
H’FFFFB1E1 to H’0001869F: (-19999 to 99999)
:9999 to 99999 :9999
Decimal point Unit
—
—
—
s
—
—
—
—
—
s
—
—
—
—
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-18
List of Settings
List of Settings
Section 2
Prescale Level
Variable type
C7
Address
0000 0001 0004
Parameter name
Prescale 0X
Prescale 0Y
Decimal point position 0
0005 0006 0009
Prescale 1X
Prescale 1Y
Decimal point position 1
000A 000B 000E
Prescale 2X
Prescale 2Y
Decimal point position 2
000F 0010 0013
Prescale 3X
Prescale 3Y
Decimal point position 3
0014 0015 0018
Prescale 4X
Prescale 4Y
Decimal point position 4
0019 001A 001D
Prescale 5X
Prescale 5Y
Decimal point position 5
001E 001F 0022
Prescale 6X
Prescale 6Y
Decimal point position 6
0023 0024 0027
Prescale 7X
Prescale 7Y
Decimal point position 7
Character
ps0. ax
ps0. ay
dp0
Monitor/Setting range
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to
9) H’00000000 to H’00000004: (0 to 4)
ps1. ax ps1. ay dp1
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps2. ax ps2. ay dp2
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps3. ax ps3. ay dp3
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps4. ax ps4. ay dp4
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps5. ax ps5. ay dp5
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps6. ax ps6. ay dp6
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
ps7. ax ps7. ay dp7
H’00000000 to H’0001869F: (0.0000 to 9.9999) H’FFFFFFF7 to H’00000009: (-9 to 9) H’00000000 to H’00000004: (0 to 4)
Character
Default setting
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
0. 0000 to 9. 9999 1. 0000
10 -9 to 10 9 10 0
\\, \\. , \. \, \. \, . \\
\\
Decimal point Unit
4
—
—
—
—
—
4
—
—
—
—
—
4
—
—
—
—
—
4
—
—
—
—
—
4
—
—
—
—
—
4
—
—
—
—
—
4
—
—
—
—
—
4
—
—
—
—
—
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
2-19
List of Settings
List of Settings
Section 2
Comparative Set Value Level
Variable type
C8
Address 0000
Parameter name
Comparative set value 05
Character
s?0.o5
Monitor/Setting range H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0001
Comparative set value 04
s?0.o4
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0020
Comparative set value 03
s?0.o3
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0002
Comparative set value 02
s?0.o2
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0003
Comparative set value 01
s?0.o1
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0004
Comparative set value 15
s?1.o5
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0005
Comparative set value 14
s?1.o4
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0021
Comparative set value 13
s?1.o3
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0006
Comparative set value 12
s?1.o2
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0007
Comparative set value 11
s?1.o1
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0008
Comparative set value 25
s?2.o5
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0009
Comparative set value 24
s?2.o4
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0022
Comparative set value 23
s?2.o3
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
000A
Comparative set value 22
s?2.o2
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
000B
Comparative set value 21
s?2.o1
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
000C
Comparative set value 35
s?3.o5
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
000D
Comparative set value 34
s?3.o4
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0023
Comparative set value 33
s?3.o3
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
000E
Comparative set value 32
s?3.o2
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
000F
Comparative set value 31
s?3.o1
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0010
Comparative set value 45
s?4.o5
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0011
Comparative set value 44
s?4.o4
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0024
Comparative set value 43
s?4.o3
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0012
Comparative set value 42
s?4.o2
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0013
Comparative set value 41
s?4.o1
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
0014
Comparative set value 55
s?5.o5
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
Character :9999 to 99999
Default setting
99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
Decimal point Unit
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
2-20
List of Settings
List of Settings
Section 2
Variable type
C8
Address 0015
Parameter name
Comparative set value 54
0025
Comparative set value 53
0016
Comparative set value 52
0017
Comparative set value 51
0018
Comparative set value 65
0019
Comparative set value 64
0026
Comparative set value 63
001A
Comparative set value 62
001B
Comparative set value 61
001C
Comparative set value 75
001D
Comparative set value 74
0027
Comparative set value 73
001E
Comparative set value 72
001F
Comparative set value 71
Character
s?5.o4
Monitor/Setting range H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?5.o3
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?5.o2
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?5.o1
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?6.o5
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?6.o4
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?6.o3
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?6.o2
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?6.o1
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?7.o5
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?7.o4
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?7.o3
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?7.o2
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
s?7.o1
H’FFFFB1E1 to H’0001869F (-19999 to 99999)
Character :9999 to 99999
Default setting
99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
:9999 to 99999 99999
Decimal point Unit
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
According to the –decimal position setting.
Note
The values beginning with H’ in the Monitor/Setting range column are used when setting or monitoring data via communications.
Linear Output Level
Variable type
C9
Address 0000 0001 0002 0003
Parameter name
Linear current type
Linear voltage type
Linear output upper limit
Linear output lower limit
Character
lset. c
Monitor/Setting range
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>