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User’s
Manual
D Series
Nests and Signal Conditioners
IM 77J05A00-01EN
IM 77J05A00-01EN
5th Edition
Foreword
Thank you for purchasing the JUXTA D series of signal conditioners (hereinafter referred to as “D series”).
This manual describes the installation, wiring, and setting method of the D series. Please read though this user’s manual carefully before using the product.
Target Readers
This manual is intended for those who have work experiences as maintenance staffs, engineers, and operators of instrumentation and control.
Notice
● The contents of this manual are subject to change without notice as a result of continuing improvements to the instrument’s performance and functions.
● Every effort has been made to ensure accuracy in the preparation of this manual. Should any errors or omissions come to your attention, however, please inform YOKOGAWA
Electric’s sales office or sales representative.
● Under no circumstances may the contents of this manual, in part or in whole, be transcribed or copied without our permission.
Trademarks
● Our product names or brand names mentioned in this manual are the trademarks or registered trademarks of YOKOGAWA
Electric Corporation (hereinafter referred to as YOKOGAWA).
● Microsoft, MS-DOS, Windows, Windows XP, and Windows NT are either registered trademarks or trademarks of Microsoft
Corporation in the United States and/or other countries.
● Adobe, Acrobat, and Postscript are either registered trademarks or trademarks of Adobe Systems Incorporated.
● We do not use the TM or ® mark to indicate these trademarks or registered trademarks in this user's manual.
● All other product names mentioned in this user's manual are trademarks or registered trademarks of their respective companies.
Safety Precautions
To use the instrument properly and safely, observe the safety precautions described in this user's manual when operating it. Use of the instrument in a manner not prescribed herein may compromise protection features inherent in the device. We assume no liability for or warranty on a fault caused by users’ failure to observe these instructions.
Notes on the User’s Manual
• This user’s manual should be readily accessible to the end users so it can be referred to easily. It should be kept in a safe place.
• Read the information contained in this manual thoroughly before operating the product.
• The purpose of this user's manual is not to warrant that the product is well suited to any particular purpose, but rather to describe the functional details of the product.
Safety, Protection, and Modification of the Product
The following symbols are used in the product and user’s manuals to indicate safety precautions:
“Handle with Care” (This symbol is attached to the part(s) of the product to indicate that the user’s manual should be referred to in order to protect the operator and the instrument from harm.)
Protective grounding terminal
Functional grounding terminal (Do not use this terminal as a protective grounding terminal.)
Alternating current
Direct current
ON (power)
OFF (power)
• In order to protect the system controlled by this product and the product itself, and to ensure safe operation, observe the safety precautions described in this user’s manual. Use of the instrument in a manner not prescribed herein may compromise the product's functions and the protection features inherent in the device.
We assume no liability for safety, or responsibility for the product's quality, performance or functionality should users fail to observe these instructions when operating the product.
• Installation of protection and/or safety circuits with respect to a lightning protector; protective equipment for the system controlled by the product and the product itself; foolproof or failsafe design of a process or line using the system controlled by the product or the product itself; and/or the design and installation of other protective and safety circuits are to be appropriately implemented as the customer deems necessary.
• Be sure to use the spare parts approved by YOKOGAWA when replacing parts or consumables.
• This product is not designed or manufactured to be used in critical applications that directly affect or threaten human lives.
Such applications include nuclear power equipment, devices using radioactivity, railway facilities, aviation equipment, air navigation facilities, aviation facilities, and medical equipment.
If so used, it is the user’s responsibility to include in the system additional equipment and devices that ensure personnel safety.
• Modification of the product is strictly prohibited.
5th Edition : Nov.20, 2014 (YK)
All Rights Reserved, Copyright © 2008 Yokogawa Electric Corporation
IM 77J05A00-01EN i
WARNING
● Power Supply
Ensure that the instrument’s supply voltage matches the voltage of the power supply before turning ON the power.
● Protective Grounding
To prevent electric shock, always confirm that protective grounding is connected before turning ON the instrument’s power supply.
● Necessity of Protective Grounding
Do not cut off the internal or external protective grounding wire or disconnect the wiring of the protective grounding terminal. Doing so renders the protective functions of the instrument invalid and poses a potential shock hazard.
● Defects in Protective Functions
If protective functions such as grounding are suspected to be defective, do not operate the instrument. Ensure that all protective functions are in working order before operating the instrument.
● Do Not Use in an Explosive Atmosphere
Do not operate the instrument in locations with combustible or explosive gases or steam. Operation in such environments constitutes an extreme safety hazard. Use of the instrument in environments with high concentrations of corrosive gas (H
2 etc.) for extended periods of time may cause a failure.
S, SOx,
● External Connection
Ensure that protective grounding is connected before connecting the instrument to the device under measurement or to an external control circuit.
● Damage to the Protective Construction
Operation of the instrument in a manner not specified in this user’s manual may damage its protective construction.
Warning and Disclaimer
• YOKOGAWA makes no warranties regarding the product except those stated in the WARRANTY that is provided separately.
• The product is provided on an "as is" basis. YOKOGAWA assumes no liability to any person or entity for any loss or damage, direct or indirect, arising from the use of the product or from any unpredictable defect of the product.
Handling Precautions for the Main Unit
• The instrument comprises many plastic components. To clean it, wipe it with a soft, dry cloth. Do not use organic solvents such as benzene or thinner for cleaning, as discoloration or deformation may result.
• Keep electrically charged objects away from the signal terminals. Not doing so may cause the instrument to fail.
• Do not apply volatile chemicals to the display area, operation keys, etc. Do not leave the instrument in contact with rubber or PVC products for extended periods. Doing so may result in failure.
• If the equipment emits smoke or abnormal smells or makes unusual noises, turn OFF the instrument’s power switch immediately and unplug the device. In such an event, contact your sales representative.
Symbols Used in This Manual
This symbol is used on the instrument. It indicates the possibility of injury to the user or damage to the instrument, and signifies that the user must refer to the user’s manual for special instructions.
The same symbol is used in the user’s manual on pages that the user needs to refer to, together with the term “WARNING” or
“CAUTION.”
WARNING
Calls attention to actions or conditions that could cause serious or fatal injury to the user, and indicates that precautions should be taken to prevent such occurrences.
CAUTION
Calls attention to actions or conditions that could cause injury to the user or damage to the instrument or property and indicates precautions that should be taken to prevent such occurrences.
Note
Identifies important information required to operate the instrument.
Indicates related operations or explanations for the user’s reference. ii IM 77J05A00-01EN
Checking the Contents of the Package
Unpack the box and check the contents before using the product.
If the product is different from that which you have ordered, if any parts or accessories are missing, or if the product appears to be damaged, contact your sales representative.
Check the model and suffix codes inscribed on the nameplate to confirm that the product received is that which was ordered.
• For the model and suffix codes of the JUXTA D series nests, refer to the section 1.1. The nameplate is on the upside of the nest.
• For the model and suffix codes of the JUXTA D series signal conditioners, refer to the section 2.1. The nameplate is on the rear side of the front door of a signal conditioner.
No. (Instrument number)
When contacting your sales representative, inform them of this number too.
Accessories
Check that none of them are missing or damaged.
• The following accessories are included with the JUXTA D series nests.
(1) Nest Tag Number Label: 1
(2) Signal Conditioner Tag Number Label: 16
(3) Nest Mounting Bracket: 1 set
Mounting Screw: M3 screw x 4
(4) Plate: 16
Mounting Screw: M3 screw x 32
The plates corresponding to the unused slots are included only if the additional specification “/AS” (Signal conditioner embedded type) is ordered. (The plates are attached on the unused slots.)
(1) Nest tag number label
NEST TAG NO.
(2) Tag number labels for signal conditioners
TAG NO.
TAG NO.
• The following accessories are included with the JUXTA D series signal conditioners.
(1) Signal Conditioner Tag Number Label: 1
This label is included in the order for signal conditioners only.
(2) Range Label:1
This label is included with the following models only. (It is used when the range is changed.)
DH2, DM1, DT5, DR5, DRU, DS1, DP3, DQ0
Nameplate
Label attaching position
Range label
IN
Label attaching position
Tag number label
TAG NO.
(3) Nest mounting brackets (4) Plate
Mounting screws
Mounting screws
IM 77J05A00-01EN iii
D series Lineups
D series consists of DCS-supported signal conditioners and the nests for mounting these signal conditioners.
D series of Nests
Model Description
DCE
DCP
DME
DMP
Nest for Input/Output cards
(Electric, E/P Mixture Mounting Type)
Nest for Input/Output cards
(Electric, E/P, P/E Mixture Mounting Type)
Nest for Control Input/Output
(Electric, E/P Mixture Mounting Type)
Nest for Control Input/Output
(Electric, E/P, P/E Mixture Mounting Type)
D series of Signal Conditioners
Model Description
DH1 Isolator
DH2
DH5
DM1
DC0
DC7
Isolator (Free Range Type)
Isolator (with Square Root Extractor)
Isolator (2-output, mV Input Type)
Output Isolator (Current I / O Type)
Output Isolator (Current I / O Type)
(with HART Communication)
Output Isolator (Voltage Input / Current Output Type) DA0
DH0
DT5
DR5
DRU
DS1
DP1
DP3
DQ0
DA1
DA5
DA2
DA7
DG1
DB1
DD1
DF1
DF0
DSK
Output Isolator (Voltage I / O Type)
Thermocouple Converter (Free Range Type)
RTD Converter (Free Range Type)
Cryogenic Temperature Converter
Potentiometer Converter (Free Range Type)
Pulse Repeater
Pulse to Analog Converter (Free Range Type)
Analog to Pulse Converter (Free Range Type)
Distributor
Distributor (with Square Root Extractor)
Distributor (with Communication Function)
Distributor (with HART Communication)
PT Converter (RMS)
CT Converter (RMS)
Tachometer Converter
Pneumatic to Electric Converter
Electric to Pneumatic Converter
Limit Alarm
DX1
DXT
Input/Output Through Card
Extention Card
DSC2 Communication Interface Card
Notes on Description
This manual explains the cases where the D series connects with
DCS (CENTUM CS3000, CS1000, etc.) of Yokogawa Electric
Corporation.
The following products used for this manual are the DCS-related products of Yokogawa Electric Corporation.
Model Description
AAV141/K4A00 Analog Input Module (with KS cable adapter)
AAB141/K4A00 Analog Input Module (with KS cable adapter)
AAB841/V4A00 Analog I/O Module (with VM2 compatible adapter)
AAB842/V4A00 Analog I/O Module (with VM2 compatible adapter)
AAB841/M4A00 Analog I/O Module (with MAC2 compatible adapter)
AAB842/M4A00 Analog I/O Module (with MAC2 compatible adapter)
AAV542/K4A00 Analog Output Module (with KS cable adapter)
AAP149 Pulse Input Module (PM1 compatible)
AAP849
AMM12C
AMC80
VM1
VM2
VM4
PM1
MAC2
PAC
KS1
KS2
TE16
Pulse Input/Analog Output Module (PAC compatible)
Voltage Input Multiplexer Module
Multipoint Control Analog I/O Module
Multipoint Analog Input Card
Multipoint Analog Input/Output Card
Multipoint Analog Output Card
Multipoint Pulse Train Input Card
Multipoint Analog Control Input/Output Card
Multipoint Pulse Train Input/Analog Output Card
Signal Cable
Signal Cable
Terminal Block
Related Documents
Refer to General Specifications (GS) for the specifications of signal conditioners and the nests.
Nest
Model Document No.
DCE GS 77J05Y51-01E
DCP GS 77J05Y52-01E
Model Document No.
DME GS 77J05Y53-01E
DMP GS 77J05Y54-01E
Signal Conditioner
Model Document No.
DH1 GS 77J05H01-01E
DH2 GS 77J05H02-01E
DH5 GS 77J05H05-01E
DM1 GS 77J05M01-01E
DC0 GS 77J05C10-01E
DC7 GS 77J05C17-01E
DA0 GS 77J05A10-01E
DH0 GS 77J05H10-01E
DT5 GS 77J05T05-01E
DR5 GS 77J05R05-01E
DRU GS 77J05R11-01E
DS1 GS 77J05S01-01E
DP1
DP3
GS 77J05P01-01E
GS 77J05P03-01E
DQ0 GS 77J05Q10-01E
Model Document No.
DA1 GS 77J05A01-01E
DA5
DA2
GS 77J05A05-01E
GS 77J05A02-01E
DA7 GS 77J05A07-01E
DG1 GS 77J05G01-01E
DB1 GS 77J05B01-01E
DD1 GS 77J05D01-01E
DF1 GS 77J05F01-01E
DF0 GS 77J05F10-01E
DSK GS 77J05S21-01E
DX1 GS 77J05X01-01E
DSC2 GS 77J05S31-01E iv IM 77J05A00-01EN
Contents
Chapter 1 Nests
Connecting DME, DMP to AAB841/M4A00, AAB842/M4A00, AMC80, MAC2 ..................................1-9
Chapter 2 Signal Conditioners
Chapter 3 Installation, Wiring, and Piping
1
2
3
4
5
6
IM 77J05A00-01EN v
Contents
3.4 Wiring and Piping of Field Side Terminal and Front Terminal of Signal Conditioner ........ 3-9
Chapter 4 Preparation for the Operation
Chapter 5 Maintenance
vi IM 77J05A00-01EN
Contents
Chapter 6 JHT200 Handy Terminal
Revision Information
1
2
3
4
5
6
IM 77J05A00-01EN vii
Blank Page
Chapter 1 Nests
1.1 Model and Suffix Codes
Model
DCE
DCP
DME
DMP
Power supply
Communication
Suffix code
-3
Style
Additional specification
0
2
*A
Description
Nest for input/output
Nest for input/0output (E/P mixed mounting type)
Nest for control input/output
Nest for control input/output (E/P mixed mounting type)
24 V DC±10%
None
Available (with DSC2 card)
Style A
/AS Signal conditioner embedded type
DCE and DCP Nests for Input/Output
The DCE and DCP are the nests for signal conditioners. They can be mounted on an
EIA/JIS-standard 19-inch rack or directly on the wall.
• The DCE and DCP nests can mount 16 signal conditioners of D series and a DSC2
Communication Interface Card.
• The DCP nest can mount E/P converter.
• The table below shows connectable I/O modules of DCS.
VP/CS3000
FIO module
Analog input
Analog input
AAV141/K4A00
(with HART Communication) AAB141/K4A00
Analog input/output AAB841/V4A00
Analog input/output
(with HART Communication) AAB842/V4A00
Analog output AAV542/K4A00
Pulse train input APP149
CENTUM
CS3000/CS1000
RIO module
AMM12C
XL/μXL/V
I/O card
VM1
VM2
VM4
PM1
DME and DMP Nests for Control Input/Output
The DME and DMP are the nests for signal conditioners. They can be mounted on an
EIA/JIS-standard 19-inch rack or directly on the wall.
• The DME and DMP nests can mount 16 signal conditioners of D series and a
DSC2 Communication Interface Card.
• The DMP nest can mount E/P converters.
• In order to protect duplication of the DCS connection module, two DCS connection connectors are furnished.
• Both nests also have connectors for the SPBD (*) standby manual station, for the backup of the manipulated outputs during the maintenance or replacement of output type signal conditioners. (* SPBD is not available for the DA7.)
• The table below shows connectable I/O modules of DCS.
Analog input/output
Analog input/output
CS3000/CS1000
FIO module
AAB841/M4A00
(with HART Communication)
AAB842/M4A00
Pulse train input/Analog output AAP849
CENTUM
CS3000/CS1000
RIO module
AMC80
XL/μXL
I/O card
MAC2
PAC
IM 77J05A00-01EN 1-1
3
4
1
2
1.2 External Dimensions
DCE Nest for Input/Output (Electric, and P/E Mixed Mounting Type)
448.8
Unit: mm
482.6
465
Power supply and communication terminals
26.6
12-Ø7.5×12.3
64.6
49.6
120
37.7 24.5
57.1
100
145
Field side I/O terminals Communication interface card
I/O cable shield terminal
CN2
CN1
DCP Nest for Input/Output (Electric, P/E, and E/P Mixed Mounting Type)
View A
Air supply connecting hole
448.8
Unit: mm
1-2
A
482.6
Air supply connecting holes
465 for Electronic to Pneumatic converters Air supply connecting hole
Power supply and
Communication terminals
26.6
12-Ø7.5×12.3
64.6
49.6
120
37.7 24.5
57.1
100
145
Field side I/O terminals Communication interface card
I/O cable shield terminal
CN2
CN1
IM 77J05A00-01EN
1.2 External Dimensions
DME Nest for Control Input/Output (Electric, and P/E Mixed Mounting Type)
Unit: mm
448.8
3
4
1
2
482.6
465
Power supply and
Communication terminals
26.6
12-Ø7.5×12.3
64.6
49.6
120
37.7 24.5
57.1
100
145
Field side I/O terminals Communication interface card
I/O cable shield terminal
CN2
CN1
DMP Nest for Control Input/Output (Electric, P/E, and E/P Mixed Mounting Type)
Unit: mm
View A
Air supply connecting hole
448.8
A
482.6
Air supply connecting holes for
465
Electric to Pneumatic Converters Air supply connecting hole
Power supply and
Communication terminals
26.6
12-Ø7.5×12.3
64.6
49.6
120
37.7 24.5
57.1
100
145
+ -
Field side I/O terminals Communication interface card
I/O cable shield terminal
CN2
CN1
IM 77J05A00-01EN 1-3
1-4
1.3 Mounting Place of Signal Conditioner
The I/O module of connected side (DCS side) differs according to the model of nest.
Also, the model of mountable signal conditioner and its mounting place differ according to the model of I/O module of connected side.
Nest I/O module of connected side Mountable signal conditioner and mounting place
DCE
DCP
AAV141/K4A00
(Note)
Analog input module (with KS cable adapter) Page 1-5
AAB141/K4A00
(Note)
Analog input module (with KS cable adapter)
AMM12C
VM1
AAB841/V4A00
(Note)
AAB842/V4A00
(Note)
VM2
AAV542/K4A00
(Note)
VM4
APP149
Voltage input multiplexer module
Multipoint analog input card
Analog I/O module
(with VM2 compatible adapter)
Analog I/O module
(with VM2 compatible adapter)
Multipoint analog I/O card
Page 1-6
Analog output module (with KS cable adapter) Page 1-7
DME
DMP
PM1
AAB841/M4A00
AAB842/M4A00
Multipoint analog output card
16-channel pulse input module
(PM1 compatible)
Multipoint pulse train input card
Analog I/O module (Non-isolated)
Analog I/O module
(with MAC2 compatible adapter)
Page 1-8
Page 1-9
AMC80
MAC2
Multipoint control analog I/O module
Multipoint analog control I/O card
AAP849 8-channel pulse input and 8-channel current output module (PAC compatible)
PAC Multipoint pulse train input/analog output card
(Note) Unavailable for duplex configuration which used two modules.
Page 1-10
IM 77J05A00-01EN
1.3 Mounting Place of Signal Conditioner
Connecting DCE, DCP to AAV141/K4A00, AAB141/K4A00, AMM12C, VM1
DA5
DA2
DA7
DG1
DS1
DP3
DQ0
DA1
DH0
DT5
DR5
DRU
DH5
DM1
DC0
DC7
DA0
Nest slot number.
Signal Conditioner
DH1
DH2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Note
Note 1
DB1
DD1
DF1
DF0
DP1
DSK
DX1
Note 2
: Available to mount
Note 1: This signal conditioner can be mounted when I/O module is AAB141/K4A00.
Note 2: The DSK cannot be connected to I/O module of connected side via connector. The slot where the DSK is mounted cannot send or receive signals via connector (CN1/CN2).
3
4
1
2
IM 77J05A00-01EN 1-5
1.3 Mounting Place of Signal Conditioner
Connecting DCE, DCP to AAB841/V4A00, AAB842/V4A00, VM2
DF1
DF0
DP1
DSK
DX1
DA7
DG1
DB1
DD1
DRU
DS1
DP3
DQ0
DA1
DA5
DA2
DH5
DM1
DC0
DC7
DA0
DH0
DT5
DR5
Nest slot number
Signal Conditioner
DH1
DH2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Note
(Note 1)
(Note 2)
(Note 3)
(Note 4)
: Available to mount
Note 1: This signal conditioner can be mounted when I/O module is AAB842/V4A00.
Note 2: The DF0 can be mounted only to the DCP nest.
Note 3: The DSK cannot be connected to I/O module of connected side via connector. The slot where the DSK is mounted cannot send or receive signals via connector (CN1/CN2).
Note 4: The DX1-21N*A and DX1-31N*A (when 250 Ω is selected) cannot be mounted to the nest slots from No.9 to No.16.
1-6 IM 77J05A00-01EN
1.3 Mounting Place of Signal Conditioner
Connecting DCE, DCP to AAV542/K4A00, VM4
DB1
DD1
DF1
DF0
DP1
DSK
DX1
DA5
DA2
DA7
DG1
DS1
DP3
DQ0
DA1
DH0
DT5
DR5
DRU
DH5
DM1
DC0
DC7
DA0
Nest slot number
Signal Conditioner
DH1
DH2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Note
(Note 1)
(Note 2)
(Note 3)
: Available to mount
Note 1: The DF0 can be mounted only to the DCP nest.
Note 2: The DSK cannot be connected to I/O module of connected side via connector. The slot where the DSK is mounted cannot send or receive signals via connector (CN1/CN2).
Note 3: The DX1-21N*A and DX1-31N*A (when 250 Ω is selected) cannot be mounted.
3
4
1
2
IM 77J05A00-01EN 1-7
1.3 Mounting Place of Signal Conditioner
Connecting DCE, DCP to APP149, PM1
DB1
DD1
DF1
DF0
DP1
DSK
DX1
DA5
DA2
DA7
DG1
DS1
DP3
DQ0
DA1
DH0
DT5
DR5
DRU
DH5
DM1
DC0
DC7
DA0
Nest slot number
Signal Conditioner
DH1
DH2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Note
(Note 1)
(Note 2)
: Available to mount
Note 1: The DSK cannot be connected to I/O module of connected side via connector. The slot where the DSK is mounted cannot send or receive signals via connector (CN1/CN2).
Note 2: The DX1-21N*A and DX1-31N*A (when 250 Ω is selected) cannot be mounted.
1-8 IM 77J05A00-01EN
1.3 Mounting Place of Signal Conditioner
Connecting DME, DMP to AAB841/M4A00, AAB842/M4A00, AMC80, MAC2
DB1
DD1
DF1
DF0
DP1
DSK
DX1
DA5
DA2
DA7
DG1
DS1
DP3
DQ0
DA1
DH0
DT5
DR5
DRU
DH5
DM1
DC0
DC7
DA0
Nest slot number
Signal Conditioner
DH1
DH2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Note
(Note 1)
(Note 1)
(Note 2)
(Note 3)
(Note 4)
: Available to mount
Note 1: This signal conditioner can be mounted when I/O module is AAB842/M4A00.
Note 2: The DF0 can be mounted only to the DMP nest.
Note 3: The DSK cannot be connected to I/O module of connected side via connector. The slot where the DSK is mounted cannot send or receive signals via connector (CN1/CN2).
Note 4: The DX1-21N*A and DX1-31N*A (when 250 Ω is selected) cannot be mounted to the even-numbered nest slots.
3
4
1
2
IM 77J05A00-01EN 1-9
1.3 Mounting Place of Signal Conditioner
Connecting DME, DMP to AAP849, PAC
DB1
DD1
DF1
DF0
DP1
DSK
DX1
DA5
DA2
DA7
DG1
DS1
DP3
DQ0
DA1
DH0
DT5
DR5
DRU
DH5
DM1
DC0
DC7
DA0
Nest slot number
Signal Conditioner
DH1
DH2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Note
(Note1)
(Note 2)
(Note 3)
: Available to mount
Note 1: The DF0 can be mounted only to the DMP nest.
Note 2: The DSK cannot be connected to I/O module of connected side via connector. The slot where the DSK is mounted cannot send or receive signals via connector (CN1/CN2).
Note 3: The DX1-21N*A and DX1-31N*A (when 250 Ω is selected) cannot be mounted to the even-numbered nest slots.
1-10 IM 77J05A00-01EN
Chapter 2 Signal Conditioners
2.1 Model and Suffix Codes
Isolator
DH1-6*B
Model
E :
F :
G :
H :
Z :
A :
B :
C :
D :
Input Signal
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
10 to 50 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Power supply: 24 V DC±10%
Isolator (with Square Root Extractor)
DH5-66*B
Model
Input Signal
6 : 1 to 5 V DC
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Power supply: 24 V DC±10%
Isolator (Free Range Type)
Model
Input Signal
A :
B :
Z :
1 :
2 :
0 :
0 to 50 mA DC, span is 1 mA or more
0 to 20 mA DC, span is 0.1 mA or more
(Cutom order) Current signal
-10 to +10 V DC, span is 0.1 V or more
-2 to +2 V DC, span is 10 mV or more
(Custom order) Voltage signal
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
DH2-6*B
Power supply: 24 V DC±10%
Isolator (mV Input Free Range Type)
DM1-16*B/B
Model
Input Signal
1 : mV DC potentional difference signal
Input signal range: -100 to +150 mV DC
Input span: 3 mV or more
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Burnout
U :
D :
N :
UP
DOWN
OFF
Power supply: 24 V DC±10%
3
4
1
2
IM 77J05A00-01EN 2-1
2.1 Model and Suffix Codes
Output Isolator (Current I/O Type)
DC0-AN*A
Model
Input Signal
A : 4 to 20 mA DC
Output signal
A :
H :
4 to 20 mA DC
10 to 50 mA DC
Power supply: 24 V DC±10%
Output Isolator
(Voltage Input/Current Output Type)
DA0-6N*B
Model
Input Signal
6 : 1 to 5 V DC
Output signal
A :
H :
Z :
4 to 20 mA DC
10 to 50 mA DC
(Custom order)
Current signal
Power supply
24 V DC±10%
Output Isolator (Current I/O Type)
(with HART Communication)
DC7-AAN
Model
Input Signal
A : 4 to 20 mA DC
Output signal
A : 4 to 20 mA DC
Power supply: 24 V DC±10%
Output Isolator (Voltage I/O Type)
DH0-6N*B
Model
Input Signal
6 : 1 to 5 V DC
Output Signal
5 :
6 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
(Custom order)
Voltage signal
Power supply
24 V DC±10%
Thermocouple Converter (Free Range Type)
DT5-6*B/B/
Model
Input Signal
IEC/JIS specifications thermocouple
1 :
2 :
3 :
4 :
5 :
K (CA)
T (CC)
E (CRC)
J (IC)
R
6 :
7 :
8 :
0 :
S
B (RH)
N
Custom order
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Burnout
U :
D :
N :
UP
DOWN
OFF
Optional specification
DF: Fahrenheit display function
Power supply 24 V DC ±10%
2-2 IM 77J05A00-01EN
RTD Converter (Free Range Type)
DR5-6*B/B/
Model
Input Signal
1 :
2 :
3 :
4 :
0 :
IEC/JIS specifications RTD
Pt100 (IPTS-68: JIS’89)
JPt100 (JIS’89)
Pt50 (JIS’81)
Pt100 (ITS-90: JIS’97)
Custom order
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Burnout
U :
D :
N :
UP
DOWN
OFF
Optional specification
DF: Fahrenheit display function
Power supply 24 V DC ±10%
Potentiometer Converter (Free Range Type)
DS1-6*B/B
Model
Input Signal
1 :
0 :
Total resistance=Within 100 Ω to 2 kΩ
(Custom oder)
Total resistance=More than 2 kΩ to 30 kΩ
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Burnout
U :
D :
N :
UP
DOWN
OFF
Power supply: 24 V DC±10%
2.1 Model and Suffix Codes
Cryogenic Temperature Converter
DRU-66*A/B/
Model
Input Signal
1 :
0 :
4-wire type RTD for cyogenic
(Custom order)
Other 4-wire type RTD
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
6 : 1 to 5 V DC
Burnout
U :
D :
N :
UP
DOWN
OFF
Optional specification
DF : Fahrenheit display function
Power supply: 24 V DC±10%
Pulse to Analog Converter
(Free Range Type)
Model
Transmitter power supply
1 :
2 :
Transmitter power supply (12 V ±10%)
Transmitter power supply (24 V ±10%)
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
DP3-6*A
Power supply
24 V DC±10%
3
4
1
2
IM 77J05A00-01EN 2-3
2.1 Model and Suffix Codes
Analog to Pulse Converter
(Free Range Type)
Model
Input Signal
A :
6 :
4 to 20 mA DC
1 to 5 V DC
Output signal
1 : Open collector
Power supply
24 V DC±10%
DQ0-1N*A
Distributor (with Square Root Extractor)
Model
Input Signal
A : 4 to 20 mA DC
(Transmitter power supply: 25.25±0.25 V DC)
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Power supply
24 V DC±10%
DA5-A6*B
Distributor (with HART Communication)
DA7-AA6
Model
Input Signal
A : 4 to 20 mA DC
(Transmitter power supply: 25.25±0.25 V DC)
Output 1 Signal
A : 4 to 20 mA DC
Output 2 Signal
6 : 1 to 5 V DC (Can be output only from terminal (3)-(4).)
Power supply
24 V DC±10%
2-4
Distributor
DA1-A6*B
Model
Input Signal
A : 4 to 20 mA DC
(Transmitter power supply: 25 to 28 V DC)
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Power supply
24 V DC±10%
Distributor (with Communication Function)
DA2-A66*B
Model
Input Signal
A : 4 to 20 mA DC
(Transmitter power supply: 25 to 28 V DC)
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
6 : 1 to 5 V DC
Power supply
24 V DC±10%
Note1: When using with the following Yokogawa model, it is necessary to change the position of a switch for HART communication.
Temperature Transmitter YTA (Style 1 and 2) which was shipped before 2003
Vortex flowmeter DY, DYA which were shipped before 2003
Magnetic flowmeters AM11, AE, AE14, SE, SE14
Note2: HART communication does not work properly when using in combination with Yokogawa analytical EXA202 series
(PH202G, PH202S, SC202G, SC202S, ISC202G, ISC202S,
DO202G, and DO202S). The succession model, FLXA21 can be worked properly.
IM 77J05A00-01EN
PT Converter (RMS)
Model
Input Signal
1 :
2 :
0 :
0 to 110 V AC
0 to 150 V AC
(Custom order) Voltage signal
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Power supply
24 V DC±10%
DG1-6*A
Tachometer Converter
DD1-16*A
Model
Input Signal
1 : AC voltage signal
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
(24 mA or less)
Power supply
24 V DC±10%
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
(±10 V or less)
CT Converter (RMS)
2.1 Model and Suffix Codes
DB1-6*A
Model
Input Signal
A :
B :
Z :
0 to 1 A AC
0 to 5 A AC
(Custom order) Current signal
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Power supply
24 V DC±10%
Pneumatic to Electric Converter
DF1-6*A
Model
Input Signal
1 :
2 :
3 :
4 :
0.2 to 1.0 kgf/cm 2
3 to 15 psi
20 to 100 kPa
19.6 to 98.1 kPa
Output 1 Signal
6 : 1 to 5 V DC
Output 2 signal
E :
F :
G :
Z :
A :
B :
C :
D :
4 to 20 mA DC
2 to 10 mA DC
1 to 5 mA DC
0 to 20 mA DC
0 to 16 mA DC
0 to 10 mA DC
0 to 1 mA DC
(Custom order)
Current signal
5 :
6 :
7 :
0 :
1 :
2 :
3 :
4 :
0 to 10 mV DC
0 to 100 mV DC
0 to 1 V DC
0 to 10 V DC
0 to 5 V DC
1 to 5 V DC
-10 to +10 V DC
(Custom order)
Voltage signal
Power supply
24 V DC±10%
3
4
1
2
IM 77J05A00-01EN 2-5
2.1 Model and Suffix Codes
Electric to Pneumatic Converter
DF0-N*A
Model
Input Signal
A :
6 :
4 to 20 mA DC
1 to 5 V DC
Output Signal
1 :
2 :
3 :
4 :
0.2 to 1.0 kgf/cm 2
3 to 15 psi
20 to 100 kPa
19.6 to 98.1 kPa
Power supply
24 V DC±10%
Limit Alarm
DSK-11
Model
Input Signal
A :
Z :
4 to 20 mA DC
(Custom order)
Current signal
6 :
0 :
1 to 5 V DC
(Custom order)
Voltage signal
Output 1 Signal
1 : Alarm output (Relay contact)
Output 2 signal
1 : Alarm output (Relay contact)
Extension Card
Model
DXT*A
Pulse Repeater
Model
Transmitter power supply
1 :
2 :
Transmitter power supply (12 V ±10%)
Transmitter power supply (24 V ±10%)
Output 1 Signal
1 : Open collector
Output 2 signal
1 : Open collector
Power supply
24 V DC±10%
DP1-11*A
Input/Output Through Card
DX1-1N*A
Model
Input Signal
1 :
2 :
3 :
Without input resistance 250 Ω
With input resistance 250 Ω
With changeover switch of input resistance 250 Ω
Output 1 Signal
1 : Direct connection of input and output
Communication Interface Card
Model
DSC2
2-6 IM 77J05A00-01EN
2.2 External Dimensions
Signal Conditioners other than DF0 and DF1
126
37.1
69.4
DF0 Electric to Pneumatic Converter
126
23.6
5
Unit: mm
5
3
4
1
2
130.6
102.7
5
2-M3
37.1
130.6
102.8
5
23.6
5
5
69.4
5
5
2-M3
IM 77J05A00-01EN 2-7
2.2 External Dimensions
DF1 Pneumatic to Electric Converter
126
69.4
DXT Extension Card
248.7
37.1
Unit: mm
23.6
5
5
130.6
102.8
Input air pressure hole
5
5
2-M3
22.6
CN2 CN1
73.1
93.1
CN3
DSC2 Communication Interface Card
112.6
BRN
DSC
Transmission LED
(TX)
Receive LED
(RX)
Communication connector
Nest address setting switch
1 to F: valid
0: invalid
23.6
95
2-8 IM 77J05A00-01EN
2.3 Terminal Assignments
DH1, DA1, DA2, and DA7
Span adjustment trimmer
Output-2 terminal
Terminal Signal
Output-2
Output-2
(+)
(–)
Zero adjustment trimmer
Connection
M4×0.7
screw
DA0, DC7 and DH0
Span adjustment trimmer
Zero adjustment trimmer
DC0, DQ0, and DX1
No input/output front terminals and adjustment trimmers.
3
4
1
2
IM 77J05A00-01EN 2-9
2.3 Terminal Assignments
DH2, DH5, DM1, DT5, DR5, DS1, DP3, DA5, and DP1
Output-2 terminal
Terminal Signal
Output-2 (+)
Output-2 (–)
Connection
M4×0.7
Screw
DG1, DD1, and DB1
Span adjustment trimmer
Output-2 terminal
Input terminal
Zero adjustment trimmer
Terminal Arrangement of DG1 and DD1
Terminal Signal Connection
Input
Input
Output 2
Output 2
(V)
(±)
(+)
(–)
M4×0.7
screw
Terminal Arrangement of DB1
Terminal Signal Connection
Input
Input
(A)
(±)
M4×0.7
screw
Output 2
Output 2
(+)
(–)
CAUTION
Connect the input signal line to the front terminals and of the signal conditioner. An incorrect connection to the field side terminals of the nest may cause overheating or burning of the nest.
2-10 IM 77J05A00-01EN
DF1
2.3 Terminal Assignments
Output-2 terminal
Span adjustment trimmer
Zero adjustment trimmer
Terminal
Output-2
Output-2
Signal
Input
(+)
(−)
Connection
M4×0.7
screw
Rc1/4
Input air pressure hole
3
4
1
2
DF0
Output check terminal
Span adjustment trimmer
Zero adjustment trimmer
Terminal Signal
For output check (+)
For output check (−)
Output
Output air pressure hole
Connection
M4×0.7
screw
Rc1/4
The 1 to 5 V DC signal proportional to the output air signal is outputted between output check terminals 1 and 2.
(Accuracy: ±1%)
CAUTION
When removing the DF0 from the nest, pull the DF0 about 15 mm from the nest, then disconnect the output piping. Pulling about 15 mm makes the auto-sealing valve function of the nest work to prevent air leak.
IM 77J05A00-01EN 2-11
2.3 Terminal Assignments
DRU
Output-2 terminal
Input terminal
Terminal
Input
Signal
Input
Output-2
Output-2
(A)
(B)
(+)
(−)
Connection
M4×0.7
screw
Note
Input wiring for the DRU is 4-wire type. Field side terminals A and C of the nest are used in addition to the input terminals and of the DRU.
DSK
Alarm-2 setting trimmer
Alarm output terminal
Alarm-1 setting trimmer
Terminal Signal
Alarm-1 output (NO/NC)
Alarm-1 output (COM)
Alarm-2 output
Alarm-2 output
(NO/NC)
(COM)
Connection
M4×0.7
screw
2-12 IM 77J05A00-01EN
Chapter 3 Installation, Wiring, and Piping
3.1 Installation
The DCE, DCP, DME, and DMP nests can be mounted horizontally on an EIA/JISstandard 19-inch rack or on the wall. Maximum 5 nests can be mounted on one side of the cabinet on the installation conditions mentioned on the next page.
Environmental Conditions
(1) Ambient temperature and humidity
The following ambient temperature and humidity ranges are applied during operation of the units.
0 to 50°C, 5 to 90%RH (no condensation)
(2) Vibration condition
Desirable vibration of installation location is 2 m/s 2 (about 0.2 G) or less at 10 to 150
Hz.
(3) Air purity
Desirable indoor dust is 0.2 mg/m 3 or less.
Especially, corrosive gases and conductive dusts, such as, for example, a hydrogen sulfide, sulfurous acid gas, chlorine, iron, and carbon should not be present.
3
4
1
2
IM 77J05A00-01EN 3-1
3.1 Installation
Installation Conditions
(1) Secure spaces above and below the nest for heat protection.
• Apart 100 mm or more from the floorboard.
• Apart 100 mm or more from the top of the panel. Make air vent hole and set air cooling fan at the top of the panel.
• Apart 60 mm or more from back wall for air ventilation in case of rack mounting.
(2) Sufficient spaces are required for front and side of the nest since they are wiring, piping, and maintenance area.
(3) When storing the nest in the cabinet, make compulsory air cool to prevent raise of temperature.
(4) Do not place the nest on heat generation materials.
(5) When mounting the nest one above another, provide space above and below the nest as shown below
Nest Mounting Methods
● 19-inch Rack Mounting ● Wall Mounting
Unit: mm
Air cooling fan
(with a vent hole)
100 or more
Air cooling fan
(with a vent hole)
100 or more
78 or more 128 or more
60 or more
3-2 IM 77J05A00-01EN
3.1 Installation
Mounting of Nest Metal Fittings
Screw holes for three types of mounting places are provided on both sides of the nest as shown below. Mount the nest metal fittings in either of them according to the nest mounting place.
Air supply connecting hole
Rc3/8
(PT3/8 female screw)
Nest metal fittings
26.6
64.6
49.6
120
3
4
1
2
Mounting screws
(M3 screw)
19-inch rack mounting
19-inch rack mounting
Wall mounting
Note
When two air supply connecting holes are used, mount the nest metal fittings in either or .
Mounting and Removal of Signal Conditioners
Mounting
1. Place the signal conditioner so that the edge fit into the guides of the nest and insert it.
2. Push the signal conditioner so that the connectors are connected certainly, and fix it by mounting screws (upper and lower sides).
Removal
Loosen the mounting screws of the upper and lower sides, and draw out a signal converter to the front.
Guide
Connector
Signal
Conditioner
IM 77J05A00-01EN
Mounting screws (M3)
Guide
3-3
3-4
3.2 Example of I/O Connection
DCE Nest: Example of Connection to AAV141/K4A00
Indicator
RS-485 communication terminal
A
B
SG
Recorder
Host DCS I/O device
FIO module AAV141/K4A00
KS2 signal cable
Signal conditioner
Output 2 Output 2
Communication interface card
KS2 signal cable
A C
CN1
CN2
B
Field side terminal
TE16 Terminal block
The secondary 16-point outputs of the signal conditioner can be connected to recorders etc. through the CN2 connector.
Recorder
► The figure above is the example of connection to the multipoint analog input module. For the signal conditioners mountable to the nest, see the section 1.3 in this manual.
IM 77J05A00-01EN
3.2 Example of I/O Connection
DCP Nest: Example of Connection to AAV542/K4A00
RS-485 communication terminal
A
B
SG power supply terminal terminal
Host DCS I/O device
FIO module AAV542/K4A00
3
4
1
2
KS2 signal cable
Supply air pressure: 140 kPa
Signal conditioner Communication interface card
IM 77J05A00-01EN
A C
B
Field side terminal
CN1
CN2
► The figure above is the example of connection to the multipoint analog output module. For the signal conditioners mountable to the nest, see the section 1.3 in this manual.
KS2 Cable
43
Unit: mm t=15
16 pairs cable with shield
40-pin connector
Signal conditioner’s nest side
Earth terminal
40-pin connector
Host DCS I/O device side
3-5
3.2 Example of I/O Connection
DME Nest: Example of Connection to AAB841/M4A00
A
B
SG power supply terminal
Ground terminal
Host DCS I/O device
FIO module AAB841/M4A00
Indicator Recorder
Output-2 Output-2
Signal conditioner
Communication interface card
KS1 signal cable
Field side terminal
A C
CN1
CN2
B + –
SPBD
Standby Manual Station
► The figure above is the example of connection to the multipoint analog I/O module. For the signal conditioners mountable to the nest, see the section 1.3 in this manual.
3-6 IM 77J05A00-01EN
3.2 Example of I/O Connection
DMP Nest: Example of Connection to AAB841/M4A00
A
B
SG power supply terminal terminal
Host DCS I/O device
FIO module AAB841/M4A00
Indicator Recorder
3
4
1
2
Output-2
Supply air pressure: 140 kPa
Output 2
Signal conditioner
Communication interface card
KS1 signal cable
+ -
Field side terminal
A C
CN1
CN2
B + –
SPBD
Standby Manual Station
► The figure above is the example of connection to the multipoint analog I/O module. For the signal conditioners mountable to the nest, see the section 1.3 in this manual.
KS1 Cable
43
Unit: mm t=15
20 pairs cable with shield
40-pin connector
Signal conditioner’s nest side
IM 77J05A00-01EN
Earth terminal
40-pin connector
Host DCS I/O device side
3-7
3-8
3.3 Cables for Field Side Wiring and Wiring of
Power Supply and Ground
Flexible twisted cables and durable round crimp-on terminals (JIS C 2805) are recommended to be used.
ØD2
ØD1
L
A
Nominal crosssectional area
Screw
(mm)
øD1
Hole diameter
(mm)
A
Terminal diameter
(mm)
L
Terminal length
(mm)
øD2
Insulating cover
(mm)
0.75mm
2
0.9mm
2
1.25mm
2
2mm 2
4 4.3 or more 8.7 or less About 21 3.6 or less
4 4.3 or more 8.7 or less About 21 3.9 or less
(1) Signal wiring cable
Nominal cross-sectional area of conductor : 0.75 to 2 mm 2
Example of applicable cable:
Twisted polyvinyl chloride insulated flexible cords (VSF) (JIS C 3306)
(2) Power supply wiring cable and DG1/DB1 input signal wiring cable
Nominal cross-sectional area of conductor : 0.75 to 2 mm 2
Example of applicable cable :
600 V polyvinyl chloride insulated wires (IV) (JIS C 3307)
Polyvinyl chloride insulated wires for electrical apparatus (KIV) (JIS C 3316)
(3) Ground wiring cable
Nominal cross-sectional area of conductor : 2 mm 2
Example of applicable cable:
600 V polyvinyl chloride insulated wires (IV) (JIS C 3307)
Polyvinyl chloride insulated wires for electrical apparatus (KIV) (JIS C 3316)
IM 77J05A00-01EN
3.4 Wiring and Piping of Field Side Terminal and
Front Terminal of Signal Conditioner
Connection examples on pages from 3-4 to 3-7 show assignments of the field side terminals. The field side terminals are M4 screw terminals. Dedicated cable is used to connect the nest and DCS I/O devices.
The table on page 3-10 shows relationship between the field side terminals of the DCP nest, front terminals of the signal conditioner and I/O signal. The table applies to the DCE nest except only it cannot store the DF0 (Electric to Pneumatic Converter).
The table on page 3-11 shows relationship between the field side terminals of DMP nest, front terminals of the signal conditioner and I/O signal. The table applies to the DME nest except only it cannot store the DF0 (Electric to Pneumatic Converter).
For example, in case of DM1 input, apply "+" signal to the field side terminal A of the nest and apply "–" signal to the terminal C. B shows no wiring.
Connecting the RJC Sensor (DT5*B Thermocouple Converter)
Connect the RJC side of RJC sensor to the field side terminal C of the nest and the other side to the field side terminal B as shown below.
A C
DT5*B
3
4
1
2
B
RJC side
Crimp-on terminal side
CAUTION
• Connect the RJC sensor together with the input signal line so that the crimp-on terminal of the input signal line overlaps the RJC sensor.
• Handle the RJC sensor lead wire with care to prevent disconnection.
• The RJC sensor of DT5*B has a different structure from that of the former style
DT5*A.
Note for the DF0 (Electric to Pneumatic Converter) Mounging as a Spare
Do not remove the white sealing plug of the output air pressure hole for dust prevention when the DF0 is mounted to the nest (DCP/DMP) as a spare without I/O signal.
Also, do not apply input signal while the plug is on the pipe hole. This unloaded condition might cause hunting to occur.
CN1
IM 77J05A00-01EN 3-9
3.4 Wiring and Piping of Field Side Terminal and Front Terminal of Signal Conditioner
WARNING
Be sure to turn OFF the power supply before wiring to avoid the risk of electric shock. Use a tester or similar device to ensure that no power is being supplied to a cable to be connected.
Wiring and Piping of Field Side Terminal of DCP (DCE) Nest and Front Terminal of Signal Conditioner
Signal Conditioner
DM1
DT5*B
DR5
+
Field side I/O Terminal Symbol
A B C
+ Not Connected
RJC
–
–
1 2
Front Terminal Symbol
Not Connected Not Connected
3
+
Not Connected Not Connected
For Output 2
+
For Output 2
–
4
–
Not Connected Not Connected
+ –
AIR
DRU
Wiring resistance of A and B should be equal
RTD
+
For Output 2
–
100% CENTER 0%
For Output 2
DS1
DP1 2-wire type (Voltage contact)
DP3 Internal power supply
2-wire type
Internal power supply 3-wire type
DH1, DH2, DH5
Wiring resistance of A and C should be equal
+
Not Connected
–
Not Connected
Available for the combination with BARD
+ – in case power supply is not necessary
For 2-wire transmitter – +
Not Connected Not Connected
Not Connected Not Connected
+ –
DA1, DA2, DA5
DA7
Signal
+
+
Power supply
Power supply
Not Connected
Not Connected
Not Connected Not Connected
Not Connected Not Connected Not Connected
–
–
For Output 2
Not Connected
+
For Output 2
Not Connected
–
+
For Output 2
–
+ –
For Output 2
+ –
For Output 2
Not Connected DH0, DA0, DQ0
DX1 (*1)
DG1
DB1
DD1
+
+
–
–
Not Connected Not Connected Not Connected
Not Connected Not Connected Not Connected
Not Connected Not Connected Not Connected
Not Connected Not Connected
Not Connected
V u v
U
Not Connected
±
V
A k l
L
N
±
V
K L
±
+
Not Connected
–
+
For Output 2
–
For Output 2
+ –
For Output 2
DF1
DF0 (Available for DCP only)
DSK
Not Connected
Not Connected
+
Not Connected Not Connected
Not Connected
Not Connected
Not Connected
–
+ –
For Output 2
+ –
For output signal check
NO/NC COM
Output 1
Not Connected
Not Connected
NO/NC COM
Output 2
• I/O screw terminal: M4 x 0.7, I/O air piping: Rc1/4 female screw, Air supply piping: Rc3/8 female screw
• In case the output 2 signal is DC current, it can be output from either “CN2” or from “Front terminal.”
(*1) 250 Ω installed type cannot be used as output card (even-numbered slot.)
IN
OUT
3-10
CAUTION
• Connect the input signal line of DG1, DB1, and DD1 to the front terminals 1 and
2 of the signal conditioner. An incorrect connection to the field side terminals of the nest may cause overheating or burning of the nest (DCP/DCE.)
• Do not connect anything to the terminal with no instruction in the table above.
Operation cannot be guaranteed if the terminal is connected.
IM 77J05A00-01EN
3.4 Wiring and Piping of Field Side Terminal and Front Terminal of Signal Conditioner
WARNING
Be sure to turn OFF the power supply before wiring to avoid the risk of electric shock. Use a tester or similar device to ensure that no power is being supplied to a cable to be connected.
Wiring and Piping of Field Side Terminal of DMP (DME) Nest and Front Terminal of Signal Conditioner
Signal Conditioner
DM1
DT5*B
Field side I/O Terminal Symbol
+
A
+
B
Not Connected
RJC
C
–
–
1
Not Connected
2
Front Terminal Symbol
Not Connected
3
+
Not Connected Not Connected
For Output 2
+ –
For Output 2
4
–
DR5
DRU
Wiring resistance of A and B should be equal
RTD
Not Connected Not Connected
+
+
–
For Output 2
–
100% CENTER 0%
For Output 2
DS1
Not Connected Not Connected
+ –
DP1 2-wire type (Voltage contact)
DP3 Internal power supply
2-wire type
DA7
Internal power supply 3-wire type
DH1, DH2, DH5
DA1, DA2, DA5
Wiring resistance of A and C should be equal
+
Signal
+
+
Not Connected
Power supply
Power supply
Not Connected
–
Available for the combination with BARD
For 2-wire transmitter
+ – in case power supply is not necessary
– +
Not Connected
Not Connected
Not Connected Not Connected Not Connected
–
– Not Connected
Not Connected
Not Connected
Not Connected
For Output 2
Not Connected
+ –
For Output 2
Not Connected
+ –
For Output 2
+ –
For Output 2
+ –
For Output 2
Not Connected DC0, DC7
DX1 (*1)
DG1
DB1
DD1
+
+
–
–
Not Connected Not Connected Not Connected
Not Connected
Not Connected
Not Connected Not Connected
Not Connected Not Connected
Not Connected Not Connected
Not Connected Not Connected
V u v
U V
±
A k l
L
N
±
V
K L
±
+
Not Connected
–
+
For Output 2
–
For Output 2
+ –
For Output 2
DF1
DF0 (Available for DMP only)
Not Connected
Not Connected
Not Connected Not Connected
Not Connected Not Connected
+ –
For the Output 2
+ –
For output signal check
NO/NC COM
Not Connected
Not Connected
DSK
+ Not Connected –
NO/NC COM
Output 2
• I/O screw terminal: M4 x 0.7, I/O air piping: Rc1/4 female screw, Air supply piping: Rc3/8 female screw
• In case the output 2 signal is DC current, it can be output from either “CN2” or from “Front terminal.”
(*1) 250 Ω installed type cannot be used as output card (even-numbered slot.)
IN
AIR
OUT
IM 77J05A00-01EN
CAUTION
• Connect the input signal line of DG1, DB1, and DD1 to the front terminals 1 and
2 of the signal conditioner. An incorrect connection to the field side terminals of the nest may cause overheating or burning of the nest (DMP/DME.)
• Do not connect anything to the terminal with no instruction in the table above.
Operation cannot be guaranteed if the terminal is connected.
3-11
3
4
1
2
3.5 Air Piping
Space of Piping
110 mm or more piping space from the nest's receiving face of signal conditioner is recommended to be secured as shown below.
Approx. 110 mm
Receiving face of signal conditioner
Air manifold
Half union
Materials of Piping
Division
Harf Union
(ø6×Rc1/4)
Bulkhead Union
(ø6×ø6)
Piping
(ø6×4)
Application First recommendation
Nylon pipe
MH-1062
ME-4060
AX-1206 (Black)
Signal conditioner side
Second recommendation
Hard steel pipe
AH-1062
AE-4060
C1220T-1/2H
(JIS)
To signal conditioner
Piping side
Half Union
From field instrument
Bulkhead Union
3-12 IM 77J05A00-01EN
3.5 Air Piping
Air supply Piping Method
The following method is recommendable for air supply piping in the instrumentation board.
(1) Pipe length
Pipe length from air header to air supply connecting hole of the nest should be within
5 m.
(2) Pipe diamter (ID: Inside Diameter)
Use pipe of ID 8,9, or 10 mm.
(3) Number of air supply connecting holes
Make additional air supply connecting hole if maximum air consumption of overall
DCP or DMP nest exceeds 480 Nl/min.
Additional air supply connecting hole is provided on the left side board of the nest as
shown below.
• If maximum air consumption is 480 Nl/min or less (corresponding to air
consumption of 8 E/P converters), the number of air supply connecting holes is
one.
• If maximum air consumption exceeds 480 Nl/min (corresponding to air
consumption of 8 E/P converters), the number of air supply connecting holes is
two.
However, the above conditions of (1) and (2) should be satisfied
DCP or DMP
Air supply connecting hole
3
4
1
2
+ -
Air supply connecting hole
DCP or DMP
Air supply connecting hole
IM 77J05A00-01EN
Air supply pipe
From air-set
Air header
Air supply pipe
Pressure gauge
3-13
3.5 Air Piping
Air supply System
After-cooler, filter, air dryer should be set following after the compressor so as not to intrude water, oil, and other dirts into E/P converter since E/P converter requires clean and dried air.
The following shows example of air supply system and the notice for its setting.
(1) Example of Air supply System
Air supply conduit
Pressure gauge
Pressure reducing valve
Isolation valve
Air supply
Downward pitch
10 mm/m(1/100) or more
Drain exhaust valve
3-way cock
Air supply main pipe
Filter
As shown in the figure above, two pressure reducing valves are recommendable to use in parallel in case of plenty of applicable instruments. Parallel disposition will serve to keep operation in case either one of the valves is clogged. As shown in the figure above, use of 3-way cock can separate either one of the air supply systems when it requires maintenance. Usually, both air supply systems can be operated in parallel. In order to supply clean and dried air to the instruments, water drain, filter, and pipe inclination
(1/100 or more) shall be set.
(2) Composition
• Air supply
Clean and dired air is required. Take out water, oil, and other dirts by after-cooler, filter, air dryer, etc.
• Air supply main pipe (Air header)
Make inclination of at least 10 mm/m (1/100) on main pipe supplying air to series of instruments so that moisture and oil can be take out from the pipe.
• Air supply conduit pipe
Conduit pipe should be take out from the upper of the main pipe so as to prevent the moisture. Even in an unavoidable case, take out the conduit pipe from main pipe section. Never take out it from the bottom.
Isolation valve is recommended to be set on the air supply conduit pipe so as to take out the respective instruments separately.
• Filter
Filter will serve to take out moisture, oil, and other dirts which can not be eliminated by the main air supply system. Usually, open the bottom cock and drain the moistutre, oil, etc. once or more per day.
The above method and device is only the example. There are other methods and devices. Use suitable methods and devices so as to supply clean and dried air to the instruments.
3-14 IM 77J05A00-01EN
3.5 Air Piping
Air Leakage Check
When air leakage check be made by using check liquid after air piping of input pressure hole of P/E converter and output pressure hole of E/P converter as well as air supply connecting hole of DCP and DMP nests have been completed, utmost care shall be done not to flow the check liquid into converters
The following air leakage check liquids are recommended to be used. Do not use water.
• Liquid Leak Detector "Snoop"
Manuafactured by Nupro Company
Sold by Sugimoto Shoji
3
4
1
2
IM 77J05A00-01EN 3-15
Blank Page
Chapter 4 Preparation for the Operation
4.1 Check Points before Turning On
Check for Power Supply Voltage, Supply-Air Pressure, and Signal Wiring
(1) Rating of the power supply: 24 V DC ± 10%
(2) Rating of the supply-air pressure: 140 kPa ± 10%
(3) Signal wiring
(4) Mounting, Ambient temperature, Ambient humidity, Dusts, Vibration
Be sure to check the above points before turning on the signal conditioners.
The product meets the specified performance in about 5 minutes after turning on.
Check for Burnout Operation and Ranges
The settings for the burnout operation (UP, DOWN, OFF) and the range are set according to your specification at the time of factory shipments.
Check that the model and specifications indicated on the label attached to inside of the main unit are as ordered.
3
4
1
2
IM 77J05A00-01EN 4-1
4-2
4.2 Precaution for the Static Electricity
Many semiconductor integrated circuit components are used for the signal conditioner.
When handling it for the purpose of the maintenance or settings, it is necessary to be careful enough to the static electricity trouble.
Be careful of the following points in order to avoid the static electricity trouble.
(1) Put the signal conditioner into conductive bag or charge protection bag when storing or carrying separately. (The signal conditioner for single order is shipped put in a conductive bag or charge protection bag from the factory.)
(2) When inserting or pulling out the signal conditioner, use wrist strap with ground conductor through a 1 MΩ resistor. Wrist strap should be connected to ground terminal near the ground conductor or unpainted portion (grounded) of the rack.
Wrist strap
(3) In case where the signal conditioner is used on a work bench, etc., place it on the conductive sheet grounded through a 1 MΩ resistor. The worker should wear the wrist strap described in (2). Do not place the plastics electrified easily on the work bench.
Signal conditioner
Conductive sheet
Wrist strap
1 MΩ
(4) Do not touch by hands directly to the electrical parts such as the patterns, connectors or pins without using the wrist strap and conductive sheet.
IM 77J05A00-01EN
4.3 Signal Conditioners and Interface Card with
Setting Means
A part of specification of DCS2 Communication Interface Card, DP1 Pulse Repeater,
DP3 Pulse to Analog Converter, DA7 Distributor (with Communication Function) (with
HART Communication) and DC7 Output Isolator (Current I / O Type) (with HART
Communication) are set by the switch or a short-circuit socket.
The following table shows the setting means and setting method. Refer to the pages from 4-3 to 4-8 for details.
Signal Conditioners and
Interface Card with setting means
Setting means Setting methods
Nest address Rotary switch DSC2
Communication Interface
Card
Communication condition
Upper communication protocol Short-circuit socket & Setting pins
DP1
Pulse Repeater
DP3
Load resistance for current pulses Short-circuit socket & Setting pins
Filter
Transmitter power supply voltage Short-circuit socket & Setting pins
Pulse to Analog Converter Load resistance for current pulses Setting switch
Filter
DSK
Limit Alarm
DX1 Input/Output Through
Card
DA7 Distributor
(with HART Communication)
Direction of the alarm action
Output contact (NO/NC)
Setting of 250 Ω input resistance
ON/OFF
Setting of HART communication
ON/OFF
Short-circuit socket & Setting pins
Short-circuit socket & Setting pins
Short-circuit socket & Setting pins
DC7 Output Isolator
(Current I / O Type)
(with HART Communication)
Setting of HART communication
ON/OFF
Slide switch
Short-circuit socket & Setting pins
3
4
1
2
IM 77J05A00-01EN 4-3
4.3 Signal Conditioners and Interface Cards with Setting Means
Setting of DSC2 Communication Interface Card
Refer to the figure below for the setting.
The setting of communication condition works only if the setting of upper communication protocol is "DSC2 upper communication protocol."
Nest address settings
DSC2 Upper Communication Protocol
(Factory default)
BRAIN Communication Protocol
0
D
E
F
B
C
9
A
7
8
5
6
3
4
1
2
9600
9600
4800
4800
4800
2400
2400
2400
1200
1200
1200
600
600
600
-----
Setting of the communication condition
Baud rate
(bps)
9600
Parity
None
(Factory default)
Odd
Even
None
Odd
Even
None
Odd
Even
None
Odd
Even
None
Odd
Even
Undefined
0
B
C
9
A
7
8
5
6
D
E
F
3
4
1
2
Nest address
0
(Factory default)
1
2
5
6
3
4
11
12
13
14
15
7
8
9
10
4-4 IM 77J05A00-01EN
4.3 Signal Conditioners and Interface Cards with Setting Means
Setting of DP1 Pulse Repeater
DP1 is a pulse repeater that receives voltage, current, or contact pulses from a field and converts them into an isolated transistor-contact pulse.
• Since the DP1 has an embedded load resistance, the current pulses transmitted from various flowmeters can be received. The load resistance for current pulses can be set by the combination of a short-circuit socket and setting pins.
• The input filter “ON/OFF” is selectable. It is effective when receiving an input signal including a chattering signal such as from a relay contact.
The filter "ON/OFF" can be set by the combination of a short-circuit socket and setting pins.
There are four connection methods according to the types of transmitters.
Connection to 3-wire Power Supply Type Transmitter
In this method, supplies the power to the transmitter and receives the output signal of transmitter as a voltage pulse signal.
Transmitter
B
A
Power supply
ON OFF
200
510
1k
FILTER
All settings should be OFF
OFF OFF
C
DP1
Connection to 2-wire Power Supply Type Transmitter
In this method, supplies the power to the transmitter and receives the output signal of transmitter as a current pulse signal. This current signal is converted into a voltage level pulse by the load resistance for current pulses. (200 Ω, 510 Ω, 1 KΩ selectable)
Transmitter
B Power supply
A
ON OFF
ON OFF
FILTER
The switch of required resistance should be set to ON position.
(The above example is the setting for 510 Ω)
C
DP1
Connection to Contact Pulse Transmitter
Input signals can be received by both the relay contact and open collector.
Transmitter Transmitter
B Power Supply or
A
C
OFF
DP1
ON
ON OFF
FILTER
All resistance switches should be
OFF.
FILTER switch is set to ON when removing a noise.
(The above example is the setting for FILTER ON.)
IM 77J05A00-01EN 4-5
3
4
1
2
4.3 Signal Conditioners and Interface Cards with Setting Means
Connection to Voltage Pulse Transmitter
Transmitter
B Power supply
200
510
1k
FILTER
ON OFF
A
OFF OFF
All settings should be OFF
C
DP1
Setting of the Load Resistance for Current Pulses
DP1 requires the setting of the load resistance for current pulses according to the connected transmitter. Short 2 setting pins using a short-circuit socket for the setting.
The factory default is set to OFF.
Setting of Input Filter
If the pulse input has chattering noise at dry contact (mechanical relay, etc.) of below
100 Hz, set the input filter to ON to eliminate the noise. ON/OFF pins of the input filter is located at the bottom of setting pins. The factory default is set to OFF.
Setting Method
Note
When taking out or inserting a short-circuit socket, use tweezers, etc., and be careful not to bend a pin.
All OFF status
(Factory default)
200
510
1K
FILTER
Filter ON status
200
510
1K
FILTER
ON OFF ON OFF
Relation between Setting pins and the Load Resistance for Current Pulses
200
OFF
OFF
OFF
ON
ON
ON
ON
Setting pins
510
OFF
ON
ON
OFF
OFF
ON
ON
Setting of the load resistance for current pulses
Setting of an input filter
1K
ON
OFF
ON
OFF
ON
OFF
ON
Load resistance for current pulses
1 kΩ
510 Ω
338 Ω
200 Ω
167 Ω
147 Ω
126 Ω
4-6 IM 77J05A00-01EN
4.3 Signal Conditioners and Interface Cards with Setting Means
Setting of DP3 Pulse to Analog Converter
DP3 receives pulse signals from a field and converts them into isolated DC voltage or DC current signals. Any input can be received from voltage pulses, current pulses, voltage-free contacts, and open collector contacts.
• Transmitter's power supply of either 12 V DC or 24 V DC can be selected by the combination of a short-circuit socket and setting pins.
As the DP1, four (4) connection methods are available according to the type of transmitter.
Setting of Transmitter Power Supply Voltage
Set the power voltage provided to the transmitter.
Either a 12 V DC or a 24 V DC can be selected with the short-circuit socket.
The factory setting is according to the model and suffix codes specified in the order.
Setting of the Load Resistance for Current Pulses
DP3 requires the setting of the load resistance for current pulse according to the connected transmitter. The table on the next page shows the relation between the setting switches and the load resistance for current pulses. The factory default is set to OFF.
Setting of Input Filter
If the pulse input has chattering noise at dry contact (mechanical relay, etc.) of below
100 Hz, set the input filter to ON to eliminate the noise. ON/OFF switch of the input filter is located at the top of setting switches. The factory default is set to OFF.
Setting Method
Note
When taking out or inserting a short-circuit socket, use tweezers, etc., and be careful not to bend a pin.
3
4
1
2
IM 77J05A00-01EN
Setting of transmitter power supply voltage
Setting example for 12 V Setting example for 24 V
24V J2 24V J2
12V J1 12V J1
Setting of an input filter
Setting of the load resistance for current pulses
Filter ON status All OFF status
(Factory default)
FILTER
1K
500
200
ON OFF
FILTER
1K
500
200
ON OFF
4-7
4.3 Signal Conditioners and Interface Cards with Setting Means
Relation between Setting Switches and the Load Resistance for Current Pulses
200
ON
OFF
OFF
ON
ON
Setting switches
500
OFF
ON
OFF
ON
OFF
1K
OFF
OFF
ON
OFF
ON
Load resistance for current pulses
200 Ω
500 Ω
1 kΩ
143 Ω
167 Ω
Setting of DSK Limit Alarm
Setting of Direction of Alarm Action
Set each direction (DIR/RVS) of Alarm 1 and Alarm 2 by SW1 and SW2.
Setting of Output Contact (NO/NC)
When the output contact is de-enegized, set a-contact(NO)/b-contact(NC) by
JP5(Alarm-1)/JP6(Alarm-2).
Setting Method
Note
When taking out or inserting a short-circuit socket, use tweezers, etc., and be careful not to bend a pin.
Setting of the direction of alarm action
SW2 * SW1 *
RVS
DIR
SW1: Alarm-1
SW2: Alarm-2
RVS: Reverse action
DIR: Direct action
*Set the same position two short-circuit socket.
Setting of the direction of relay action
NC
JP6
NO NC
JP5
NO
JP5: Alarm-1
JP6: Alarm-2
NO: a-contact
NC: b-contact
4-8 IM 77J05A00-01EN
4.3 Signal Conditioners and Interface Cards with Setting Means
Setting of DX1 Input/Output Through Card
For DX1-31N*A, the ON/OFF of 250 Ω input resistance can be set. Short the 2 setting pins using a short-circuit socket for the setting. The factory default is set to ON.
Setting Method
Note
When taking out or inserting a short-circuit socket, use tweezers etc., and be careful not to bend a pin.
3
4
1
2
Setting of 250 Ω input resistance ON/OFF
250 Ω ON status 250 Ω OFF status
IM 77J05A00-01EN 4-9
4.3 Signal Conditioners and Interface Cards with Setting Means
Setting of DA7 Distributor (with HART Communication)
DA7 is available for setting the ON/OFF of HART communication. The setting can be made by short-circuiting two setting pins using a short -circuit socket.
The factory default is set to ON.
Setting Method
Note
• Be careful not to bend the pin when removing or inserting a short-circuit socket. Use a tool such as a tweezer.
• As shown below, set the short-circuit sockets of J110 and J10 to the same position. Proper operation is not guaranteed on the other settings.
• When using with the following Yokogawa model, it is necessary to set the position of the slide switch for SP side.
(1) Temperature transmitter YTA (Style 1 and 2) which was shipped before 2003.
(2) Vortex flowmeter DY, DYA which were shipped before 2003.
(3) Magnetic flowmeters AM11, AE, AE14, SE, and SE14.
Slide switch
View A
Setting of HART communication
HART communication
ON
(for the factory default.)
HART communication
OFF
J110
J110
ON
J110
ON
J10
OFF OFF
J10
ON
J10
ON
OFF OFF
STD side
View A
Slide switch
SP side
Note
HART communication does not work properly when using in combination with Yokogawa analytical EXA202 series (PH202G, PH202S, SC202G, SC202S, ISC202G, ISC202S,
DO202G, and DO202S). The succession model, FLXA21 can be worked properly.
4-10 IM 77J05A00-01EN
4.3 Signal Conditioners and Interface Cards with Setting Means
Setting of DC7 Output Isolator (Current I / O Type) (with HART Communication)
DC7 is available for setting the ON/OFF of HART communication. The setting can be made by short-circuiting two setting pins using a short -circuit socket.
The factory default is set to ON.
Setting Method
Note
• Be careful not to bend the pin when removing or inserting a short-circuit socket. Use a tool such as a tweezer.
• As shown below, set the short-circuit sockets of J110 and J10 to the same position. Proper operation is not guaranteed on the other settings.
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2
J110
Setting of HART communication
HART communication
ON
(for the factory default.)
HART communication
OFF
J110
ON
J110
ON
OFF OFF
IM 77J05A00-01EN 4-11
Blank Page
Chapter 5 Maintenance
5.1 Calibration Apparatus
CAUTION
• Never touch the electronic components (printed circuit boards) of signal conditioners and extension cards during power-on.
• Be careful of static electricity when connecting or disconnecting the signal conditioners. (Refer to Section 4.2)
• Warm the instruments up about 10 to 15 minutes before calibration.
Calibration Apparatus
The following apparatus is necessary for the calibration of signal conditioners.
Calibration Apparatus (1)
Calibration apparatus
Digital voltmeter
DC voltage/current generator
6-dial decade resistance box
Standard resistor
DM1 DT5 DR5 DRU DS1 DA1 DA7 DH0 DA0 DX1
DH1
DH2
DH5
DA2
DA5
DC0
DC7
Calibration Apparatus (2)
Calibration apparatus
Digital voltmeter
DC voltage/current generator
Standard resistor
Pulse generator
Pulse counter
AC voltage/current generator
Digital pressure gauge
Standard pressure generator
DC power supply
Continuity circuit tester
DP1 DP3 DH0 DG1
DD1
DB1 DF1 DF0 DSK
The apparatus with check marks are necessary for the calibration of the corresponding model.
Use the following apparatuses or equivalent for the calibration.
Digital voltmeter : Model 7562, YOKOGAWA
DC voltage/current generator : Model 7651, YOKOGAWA
6-dial decade resistance box : Model 2793 01, YOKOGAWA
Standard resistor
Pulse generator
Pulse counter
: Model 2792, YOKOGAWA
: Model FG110, YOKOGAWA
: Model TC110, YOKOGAWA
AC voltage/current generator : Model 2558, YOKOGAWA
Digital pressure gauge : Model MT210, YOKOGAWA
Standard pressure generator : Model MC100, YOKOGAWA
DC power supply
Continuity circuit tester
: 5 V DC
: (for the check of alarm relay contact output)
IM 77J05A00-01EN 5-1
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5.1 Calibration Apparatus
DXT Extension Card
DXT Extension Card is the intermediate board for calibration and check of the signal conditioner. It is equipped with a connector for the handy terminal, and terminals for input/output and power supply. (Microcomputer-based signal conditioners can be calibrated using handy terminals, in case the nest is not specified for communication function.) The signal conditioner can be calibrated by connecting to DXT without using a nest. Loop check and calibration in mounting state are possible by inserting DXT into a nest, and connecting a signal conditioner to it.
CN2 connector for nest mounting
24 V DC power supply terminal
Output-1 terminal
(Input terminal if the signal conditioner is for an output.)
CN1 connector for a signal conditioner
Field side terminal
CN3 connector for the JHT200 Handy Terminal
Note
When connecting DA7 to DXT and checking the output, the following conditions are required:
• When the DXT is mounted on the nest, verify the output of DA7 with the indicated value on the CRT display of the control system. The output of DA7 cannot be verified with the output-1 terminal (TM11, TM12) of DXT. Do not connect measuring instruments such as voltmeters or ammeters.
• When the DXT is not mounted on the nest, connect the output-1 terminal as shown in the figure below.
Output-1 terminal
TM12 TM11
Standard
resistor
250Ω
Digital voltmeter
Electric current
DSC2 Communication Interface Card
DSC2 is used inserting into the dedicated slots of DCE, DCP, DME, and DMP.
Communication data of the signal conditioners with communication functions and the transmitters with BRAIN communication can be relayed to the host system through the DSC2. Nest addresses can be set by the rotary switch (hexadecimal) on the front panel. Furthermore, DSC2 has a 5-pin connecter for JHT200 Handy Terminal that enables communication with the signal conditioners and the transmitters with BRAIN communication.
5-2 IM 77J05A00-01EN
5.2 Connection of Calibration Apparatus
According to the following figures, connect the field side terminals of the nest of which the signal conditioner to be calibrated is mounted, or the DXT Extension Card, with the calibration apparatus.
(1) DM1, DH1, DH2, DH5 (2) DT5*B
Field side terminal Field side terminal
A C A C
RJC sensor
B B
+ –
DC voltage/current generator
(3) DR5
Field side terminal
A C
B
+ –
DC voltage/current generator
Calibrate DT5*B by the field side terminal of the nest.
(4) DRU
Field side terminal
A
B
C
DRU front terminal
1 2
Variable resistor Variable resistor
(Note) The wiring resistance should be equial.
(Note) The wiring resistance should be equal.
(5) DS1
Field side terminal
A C
B
The sum resistance of
“R1 + R2” needs to be equal to the total resistance.
(6) DP1, DP3
Field side terminal
A
B
C
+ –
Pulse generator
Variable resistor
R1
R2
(Note) The wiring resistance should be equal.
A
B
C
(Note) “B” is used in cases where the power is supplied from a converter.
When using two-wire type,
B is the power supply, and
A is the signal.
When using three-wire type,
B is the power supply,
A is “+”, and C is “−”.
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IM 77J05A00-01EN 5-3
5.2 Connection of Calibration Apparatus
(7) DA1, DA2, DA5, DA7
Field side terminal
A
B
C
+ –
DC voltage/current generator with SINK current
(Note) When not using each internal power supply of DA1, DA2,
DA5 and DA7, C is “+”, and B is “−”.
The left figure shows the combination with two-wire transmitter using internal power supply.
(8) DH0, DA0, DC0, DC7
Field side terminal
A C
B
250Ω Standard resistor
+ –
Digital voltmeter
The resistor is added for
DA0, DC0 and DC7.
(9) DSK
Field side terminal
A C
B
(10) DX1 (with an input resistance)
Field side terminal
A
B
C
+ –
DC voltage/current generator
(11) DQ0
Field side terminal
A C
B
+ –
DC voltage/current generator
(12) DG1, DD1
Front terminal of DG1/DD1
1 2
– +
Pulse counter
(13) DB1
Front terminal of DB1
1 2
+ –
AC voltage/current generator
(14) DF1
Field side terminal of DF1
+ –
AC voltage/current generator
(15) DF0
Front terminal of DF0
(Note) DF0 should be mounted directly to the nest without using DXT card.
Standard pressure generator
Digital pressure gauge
5-4 IM 77J05A00-01EN
5.3 Calibration Procedure
DM1, DT5, DR5, DRU, DS1
According to the measurement range, apply input signals equivalent to 0%, 25%,
50%, 75%, and 100% of the span through a DC voltage/current generator or a decade resistance box to the converter.
In case of DT5*B, apply the mV signal between the terminals of A(+) and C(-), referring to the thermo-electromotive force list after turning off the RJC in the measurement parameter (C08). (Turn on the RJC after calibration.) Verify that the output-1 of the converter is 1 V, 2 V, 3 V, 4 V, and 5 V respectively and within the specified accuracy rating by the indicated value of the CRT display of a control system or the output terminal of the DXT card. Also, verify that the difference of output-2 and output-1 is within ± 0.2% of the span.
If the output-1 does not satisfy the accuracy, adjust using the JHT200 Handy Terminal.
(The output-2 also interlocks.)
► For the adjustment with the JHT200 Handy Terminal, refer to the chapter 6 "JHT200 Handy
Terminal" in this manual and the user's manual for JHT200 Handy Terminal (IM JF81-02E).
DA1, DA2, DA5, DH1, DH2, DH5
Apply input signals equivalent to 0%, 25%, 50%, 75%, and 100% of the span through the
DC voltage/current generator to the converter. (In case of DA5, DH5: 0%, 6.25%, 25%,
56.25%, and 100%) Verify that the output-1 of the converter is 1 V, 2 V, 3 V, 4 V, and 5 V respectively and within the specified accuracy rating by the indicated value of the CRT display of a control system or the output terminal of the DXT card. Also, verify that the difference of output-2 and output-1 is within ± 0.2% of the span.
If the output-1 does not satisfy the accuracy, adjust it by the front zero/span adjustment trimmer for DA1, DA2, and DH1, by the JHT200 Handy Terminal for DA5, DH2, and DH5.
(The output-2 also interlocks.)
► For the adjustment with the JHT200 Handy Terminal, refer to the chapter 6 "JHT200 Handy
Terminal" in this manual and the user's manual for JHT200 Handy Terminal (IM JF81-02E).
DA7
Apply input signals equivalent to 0%, 25%, 50%, 75%, and 100% of the span through the
DC voltage current generator to the converter.
Verify that the output-1 of the converter is 4 mA, 8 mA, 12 mA, 16 mA and 20 mA, and each value is within the specified accuracy rating with the indicated value on the CRT display of a control system. Also, verify that the difference of output-2 and output-1 is within ± 0.2% of the span.
If the output-1 does not satisfy the accuracy, adjust it by the front zero/span adjustment trimmer. (The output-2 also interlocks.)
► Refer to "5.1 Calibration Apparatus: DXT Extension Card"
DX1
Apply input signals equivalent to 0%, 25%, 50%, 75%, and 100% of the span through the voltage current generator to the converter. Verify that the output-1 of the converter is 0%,
25%, 50%, 75%, and 100% of the span respectively and within the specified accuracy rating by the indicated value of the CRT display of a control system or the output terminal of the DXT card. (DX1 has no adjustment function.)
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IM 77J05A00-01EN 5-5
5.3 Calibration Procedure
DP1, DP3
DC0, DC7, DA0, DH0
Input the signals of 0%, 25%, 50%, 75%, and 100% of the span from the CRT display of a control system or the terminal of the DXT card. Verify that the output at that time is 0%,
25%, 50%, 75%, and 100% of the span respectively and within the specified accuracy rating.
(Note) If the data of 0% or 100% is output from the CRT display, the data will be a scaleover. (0% or less/ 100% or more) On the calibration, check that the output is equivalent to 1% or 99% of the input.
If the output signal does not satisfy the accuracy, adjust by the front zero/span adjustment trimmer. (DC0 has no adjustment function. )
DQ0
Input the signals of 0%, 25%, 50%, 75%, and 100% of the span from the CRT display of a control system or the terminal of the DXT card. Verify that the output frequency at that time is 0%, 25%, 50%, 75%, and 100% of the span respectively and within the specified accuracy rating.
(Note) If the data of 0% or 100% is output from the CRT display, the data will be a scaleover. (0% or less/ 100% or more) On the calibration, check that the output is equivalent to 1% or 99% of the input.
If the output frequency does not satisfy the accuracy, adjust using the JHT200 Handy
Terminal.
► For the adjustment with the JHT200 Handy Terminal, refer to the chapter 6 "JHT200 Handy
Terminal" in this manual and the user's manual for JHT200 Handy Terminal (IM JF81-02E).
DG1, DD1, DB1
Apply a square wave pulse of arbitrary frequency (6 kHz or less) to DP1 through the pulse generator.
Check the value by the indicated value of the CRT display of a control system or the output terminal of the DXT card.
For DP3, apply a square wave pulse of arbitrary frequency, equivalent to 0%, 25%, 50%,
75%, and 100% of the span, through the pulse generator. Verify that the output-1 of the converter is 1 V, 2 V, 3 V, 4 V, and 5 V respectively and within the specified accuracy rating by the indicated value of the CRT display of a control system or the output terminal of the DXT card. Also, verify that the difference of output-2 and output-1 is within ± 0.2% of the span.
If the output-1 does not satisfy the accuracy, adjust using the JHT200 Handy Terminal.
(The output-2 also interlocks.) (DP1 has no adjustment function.)
► For the adjustment with the JHT200 Handy Terminal, refer to the chapter 6 "JHT200 Handy
Terminal" in this manual and the user's manual for JHT200 Handy Terminal (IM JF81-02E).
Apply input signals equivalent to 0%, 25%, 50%, 75%, and 100% of the span through the
AC voltage/current generator to the converter. Verify that the output-1 of the converter is 0%, 25%, 50%, 75%, and 100% of the span respectively and within the specified accuracy rating by the indicated value of the CRT display of a control system or the output terminal of the DXT card. Also, verify that the difference of output-2 and output-1 is within ± 0.2% of the span. If the output-1 signal does not satisfy the accuracy, adjust by the front zero/span adjustment trimmer. (The output-2 also interlocks.)
DF1
Apply input signals equivalent to 0%, 25%, 50%, 75%, and 100% of the span through the standard pressure generator to the converter. Verify that the output-1 of the converter is 0%, 25%, 50%, 75%, and 100% of the span respectively and within the specified accuracy rating by the indicated value of the CRT display of a control system or the output terminal of the DXT card. Also, verify that the difference of output-2 and output-1 is within ± 0.2% of the span. If the output-1 does not satisfy the accuracy, adjust by the front zero/span adjustment trimmer. (The output-2 also interlocks.)
5-6 IM 77J05A00-01EN
DF0
DSK
5.3 Calibration Procedure
Input the signals of 0%, 25%, 50%, 75%, and 100% of the span from the CRT display of a control system. Verify that the output air pressure at that time is 0%, 25%, 50%, 75%, and 100% of the output span respectively and within the specified accuracy rating.
(Note) If the data of 0% or 100% is output from the CRT display, the data will be a scaleover. (0% or less/ 100% or more) On the calibration, check that the output is equivalent to 1% or 99% of the input.
If the output signal does not satisfy the accuracy, adjust by the front zero/span adjustment trimmer.
CAUTION
The length of the tube connected to the DF0 and the air pressure measuring instrument should be 10 m or more.
Apply the input signal equivalent to the alarm point through the DC voltage/current generator. Turn the setting trimmer and set to the action point of the output relay. Alarms have the settings for action directions (DIR: Direct action, RVS: Reverse action). For the direct action (DIR), set the trimmer to the point where the relay is energized by adjusting upward. For the reverse action (RVS), set it to the point where the relay is energized by adjusting downward.
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IM 77J05A00-01EN 5-7
5-8
5.4 Change of the Measurement Parameters
Applicable Signal Conditioners
The parameters of signal conditioners are set as you specified for the factory default settings. If the signal conditioner is microcomputer-based (Free Range Type), measurement parameters, such as measuring ranges and input types, can be changed using JHT200 Handy Terminal.
(Sensor parameter setting function of the host system, DCS of Yokogawa Electric
Corporation, also enables to set the measurement parameters.)
If the range has been changed, calibrate the signal conditioner according to the section 5.2 and 5.3. Also, write a new range and update the label.
The followings are the signal conditioners in which the measurement parameters can be changed.
Model Description
DH2 Isolator (Free Range Type) (*1)
DH5
DM1
DT5
DR5
DRU
DS1
DP3
DQ0
DA5
DA2
Isolator (with Square Root Extractor)
Isolator (mV Input Free Range Type)
Thermocouple Converter (Free Range Type)
RTD Converter (Free Range Type)
Cryogenic Temperature Converter
Potentiometer Converter (Free Range Type)
Pulse to Analog Converter (Free Range Type)
Analog to Pulse Converter (Free Range Typr)
Distributor (with Square Root Extractor)
Distributor (with Communication Function)
(*1)
(*1)
(*2)
*1: For DH2, DRU, and DQ0, the measurement parameters can be changed with
JHT200 Handy Terminal only. The sensor parameter setting function is not available for these models.
*2: For DA2, its own measurement parameters cannot be set, but the parameters of the transmitters with BRAIN communication can be set.
Connection method with JHT200
Insert the signal conditioner to the nest through DXT Extension Card.
DXT Extention Card has a connector for the connection with JHT200.
Connect the 5-pin connector cable of JHT200 to DXT.
DSC2 Communication Interface Card also has a connector, which is available for the measurement parameter setting of signal conditioners and the transmitters with
BRAIN communication.
► Connection method: Refer to the section 6.2 Connection Method with JHT200
Parameter Setting of the Measurement Parameters
For details of the measurement parameter setting, refer to the chapter 6 "JHT200
Handy Terminal".
Note that the following functions of Handy Terminal are not applicable for signal conditioners.
(1) Calling up the diagnostic menu (DIAG key)
(2) Reading out overall data (UPLD key)
(3) Setting for overall data (DNLD key)
IM 77J05A00-01EN
Chapter 6 JHT200 Handy Terminal
6.1 Usage and Features
Usage
JHT200 Handy Terminal is a portable terminal that is used in combination with JUXTA signal conditioners.
It is available for the settings, changes, and display of necessary parameters for operation of each device, such as tag numbers, and the ranges, and burnout by intercommunication.
It also enables the zero/span adjustments and the monitoring of I/O values and selfcheck results.
Features
(1) On-line monitoring
The input/output signal of the signal conditioner is not affected by the communication.
(2) High operationality
Easy operational procedure by the adoption of the hierarchical structure menu.
(3)Abundant diagnostic and security functions
• Diagnostic function with error messages
• Low battery alarm function
• Auto power-off function
• Security password
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IM 77J05A00-01EN 6-1
6-2
6.2 Connection of JHT200 and Nests
The figure below shows connection to the D series nests (DCE, DCP, DME, and DMP).
Use the DXT Extension Card or DSC2 Communication Interface Card for connection.
When using the DSC2 Communication Interface Card, it is necessary to designate the slot number of SC card to communicate. The slot numbers correspond to 1, 2, 3,……15, and 16 from the left.
► For the assignment of slots, see the user’s manual for JHT200 Handy Terminal (IM JF81-02E)
DXT
Extension Card
Signal Conditioner
JHT200
Handy Terminal
IM 77J05A00-01EN
6.3 Description of Main Parameters
For setting change or I/O adjustment, refer to the user’s manual for JHT200 Handy
Terminal (IM JF81-02E).
► Refer to "6.4 List of Parameters" for the parameter of each product.
Low Cut (B07:LOW CUT)
This function is available only for DA5, DH5, DP3, and DQ0.
(1) Low input cut point of DA5 and DH5 can be set between 0.3% and the 100%. For the input below the low input cut point, a linear signal to the input is output. If not specified in the order, it will be set at 0.6%.
Hysteresis is fixed at 0.2%.
(2) Low input cut point of DP3 can be set 0.01 Hz and F100 Hz (100% of input range.)
The frequency below the low input cut point is equivalent to 0 Hz.
If not specified in the order, it will be set at 0.01 Hz.
(3) Low output cut point of DQ0 can be set between 0.0001 Hz and F100 Hz (100% of output range.) The frequency below the low output cut point is equivalent to 0 Hz. If not specified in the order, it will be set at 0.0001 Hz.
Input Zero Adjustment (C04: ZERO ADJ, C06 for DS1*B, no function for DP3)
This function enables the zero adjustment for input A/D conversion section. Accuracy can be maintained for the range change at customer site and the sensor error can be absorbed.
Input Span Adjustment (C05: SPAN ADJ, C07 for DS1*B, no function for DP3)
This function enables the span adjustment for input A/D conversion section. Accuracy can be maintained for the range change at customer site and the sensor error can be absorbed.
Input Zero Adjustment (C06: ZERO ADJ, for DS1*B)
By adjusting with this parameter, the 0% set point of the input range, parameter
[B10:ZERO], is updated automatically. Accuracy can be maintained for the range change at customer site and the sensor error can be absorbed. Since the adjustment procedure differs from [C04: ZERO ADJ], refer to the following procedures:
(1) Set the total resistance of the potentiometer being combined to the parameter
[B08: RESIST].
(2) From the potentiometer, input the value equivalent to 0% value of the input range to the DS1*B.
(3) Press <ENTER> twice, where [C06: ZERO ADJ] is displayed.
• Input zero adjustment is completed and the set point of the parameter [B10:
ZERO] is updated.
Input Span Adjustment (C07: SPAN ADJ, only for DS1*B)
By adjusting with this parameter, the 100% set point of the input range, parameter
[B11: SPAN], is updated automatically. Accuracy can be maintained for the range change at customer site and the sensor error can be absorbed. Since the adjustment procedure differs from [C05: SPAN ADJ], refer to the following procedures:
(1) Set the total resistance of the potentiometer being combined to the parameter
[B08: RESIST].
(2) From the potentiometer, input the value equivalent to 100% value of the input range to the DS1*B.
(3) Press <ENTER> twice, where [C07: SPAN ADJ] is displayed.
• Input span adjustment is completed and the set point of the parameter
[B11: SPAN] is updated.
IM 77J05A00-01EN 6-3
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6.3 Description of Main Parametersl
Output 0% Adjustment (C01: OUT 0%)
For the adjustment of 0% value of output, refer to the following procedures:
(1) Set the adjustment value 0% in this parameter, and press <ENTER > twice. The value equivalent to 0% of the output range will be output, irrespective of the input.
(2) Set the value of reversed polarity to the deviation of an output value (*1) , and press
<ENTER> twice.
*1: If the indicating value deviates to the (+) side, set (−) value equivalent to the deviation; if it deviates to the (−) side, set (+) value equivalent to the deviation for adjusting the output value to 0%.
Output 100% Adjustment (C02: OUT 100%)
The 100% value of output can be adjusted by the same operation as [C01: OUT 0%].
Adjust by reading 0% as 100%.
RJC ON/OFF (C08: RJC, only for DT5*B)
The RJC (Reference Junction Compensation) can be stopped by setting "OFF" in this parameter. Set the parameter to "OFF" when the DT5*B is calibrated.
Note
RJC returns to ON mode when the DT5*B is turned off and then on again.
Status (A03: STATUS)
When the "ERROR" is displayed for the self-check item (03:SELF CHK), the error content is displayed in hexadecimal on the STATUS column (A03: STATUS).
Bit Allocation for STATUS of Style A
7 6 5 4 3 2 1 0
Bit Allocation for STATUS of Style B
7 6 5 4 3 2 1 0
Undefined
EEPROM sumcheck error history
LOW CUT status
Output overshoot
Undefined
WDT overflow
Power off history
Undefined
A/D error history
EEPROM sumcheck error / EEP error history
LOW CUT status
Output overshoot
Undefined
Undefined
Power off history / WDT overflow history
RJC error
6-4 IM 77J05A00-01EN
6.4 List of Parameters
DM1, DT5, DR5
*3
*4
*5
*6
B02
B03
B04
B05
B06
B09
B10
B11
B12
C00
C01
C02
C03
A03
A04
B00
B01
Number Item
01
02
Model
Tag number
03
A00
A01
A02
Self check
Display item
Input value
Output value
C04
C05
C08
*1
*2
Status
Rev No.
Setting item
Tag number 1
Tag number 2
Comment 1
Display
MODEL
TAG NO.
SELF CHK
DISPLAY
INPUT
OUPUT
STATUS
REV NO.
SET
TAG NO.1
TAG NO.2
COMMENT1
DM1*B
. mV
Data display for each signal conditioner
DT5*B DR5*B
Alphanumeric 16 characters
GOOD or ERROR
. degC (*3)
.%
FF(2 digits in hex) n.nnn (n: Rev No.)
. degC (*3)
Alphanumeric 8 characters (first half 8 characters)
Alphanumeric 8 characters (last half 8 characters)
Alphanumeric 8 characters (first half 8 characters)
Comment 2
DR5 Input type
COMMENT2
TYPE
Alphanumeric 8 characters (last half 8 characters)
PT/JPT/PT100-90/
PT50(*4)
B/E/J/K/T/R/S/N DT5 Input type
Temperature unit
Zero (0% of input range)
Span (*1)
Burnout
Adjustment Item
0% Output adjustment
TYPE
UNIT
ZERO
SPAN
BURN OUT
ADJUST
OUT0%
. mV
. mV degC/K/degF (*5)
. degC (*3)
. degC (*3)
OFF/UP/DOWN
100% Output adjustment
Wire resistance compensation (*2)
Input zero adjustment
OUT100%
WIRING R EXECUTE/RESET
±10.00%
±10.00%
EXECUTE/RESET
Input span adjustment
ZERO ADJ
SPAN ADJ
. mV
RST/INC/DEC
. mV
RST/INC/DEC
. mV
RST/INC/DEC
. mV
RST/INC/DEC
RJC On/Off RJC ON/OFF (*6)
The measurable data is within the range described in the General Specifications.(GS)
. Ω
RST/INC/DEC
. Ω
RST/INC/DEC
Wire resistance compensation is the function to correct the errors that occurs when the external conductor resistance is high. (Necessary for the combination with BARD Safety Barrier)
The temperature unit to be displayed is the setting in the parameter [B09: UNIT].
PT=Pt100 (IPTS-68, JIS'89), JPT=JPt100 (JIS'89), PT100-90=Pt100 (ITS-90, JIS'97), PT50=Pt50 (JIS'81)
Fahrenheit (deg F) is the optional specification for DT5*B and DR5*B. It is displayed only in cases where it is specified.
The RJC becomes effective after the power is turned off and then on again.
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IM 77J05A00-01EN 6-5
6.4 List of Parametersl
DS1, DA5, DH5
C06
C07
*1
*2
B12
C00
C01
C02
C04
A03
A04
B00
B01
B02
B03
B04
Number Item
01
02
Model
Tag number
03
A00
A01
A02
Self check
Display item
Input value
Output value
B07
B08
B10
B11
C05
Status
Rev No.
Setting item
Tag number 1
Tag number 2
Comment 1
Comment 2
Low cut
Total resistance
Zero (0% of input range)
Span (*1)
Display
MODEL
TAG NO.
SELF CHK
DISPLAY
INPUT
OUPUT
STATUS
REV NO.
SET
TAG NO.1
TAG NO.2
COMMENT1
COMMENT2
LOW CUT
RESIST
ZERO
SPAN
BURN OUT
ADJUST
OUT0%
OUT100%
ZERO ADJ
DS1*B
. OHM
Data display for each signal conditioner
DA5*B
Alphanumeric 16 characters
GOOD or ERROR
.%
.%
FF (2 digits in hex) n.nnn (n: Rev No.)
DH5*B
.%
Alphanumeric 8 characters (first half 8 characters)
Alphanumeric 8 characters (last half 8 characters)
Alphanumeric 8 characters (first half 8 characters)
Alphanumeric 8 characters (last half 8 characters)
. OHM(*2)
. OHM
. OHM
OFF/UP/DOWN
0.3 to 100%
Burnout
Adjustment Item
0% Output adjustment
100% Output adjustment
Input zero adjustment
Input span adjustment SPAN ADJ
±10.00%
±10.00%
.%
RST/INC/DEC
.%
RST/INC/DEC
Input zero adjustment
Input span adjustment
ZERO ADJ
SPAN AD
. OHM
. OHM
The measurable data is within the range described in the General Specifications(GS).
The standard specification is 100 to 2000 Ω, but up to 30 kΩ is available by the custom order specification.
6-6 IM 77J05A00-01EN
DH2, DP3, DQ0
B16
B17
B18
C00
C01
C02
C04
Number Item
01
02
A03
A04
B00
B01
03
A00
A01
A02
B02
B03
B04
B07
B10
B11
B15
C05
*1
*2
Model
Tag number
Display
MODEL
TAG NO.
DH2*B
Data display for each signal conditioner
DP3*A DQ0*A
Alphanumeric 16 characters
GOOD or ERROR Self check
Display item
Input value
Output value
Status
Rev No.
Setting item
Tag number 1
SELF CHK
DISPLAY
INPUT
OUPUT
STATUS
REV NO.
SET
TAG NO.1
. V(*2)
.%
. Hz
.%
FF (2 digits in hex) n.nnn (n: Rev No.)
.%
. Hz
Tag number 2
Comment 1
Comment 2
Low cut
Zero (0% of input range)
Span (*1)
Zero (0% of output range)
Output span
Pulse width
TAG NO.2
COMMENT1
COMMENT2
LOW CUT
ZERO
SPAN
OUT ZERO
OUT SPAN
P.W.TYPE
Alphanumeric 8 characters (first half 8 characters)
Alphanumeric 8 characters (last half 8 characters)
Alphanumeric 8 characters (first half 8 characters)
Alphanumeric 8 characters (last half 8 characters)
. V(*2)
. Hz
. Hz
. Hz
. V(*2) . Hz
. Hz
. Hz
50%/ON/OFF
. ms Pulse width fixation time
Adjustment Item
0% Output adjustment
100% Output adjustment
Input zero adjustment
Input span adjustment
P.W.TIME
ADJUST
OUT0%
OUT100%
ZERO ADJ
SPAN ADJ
±10.00%
±10.00%
.%
RST/INC/DEC
.%
RST/INC/DEC
±10.00%
±10.00%
The measurable data is within the range described in the General Specifications(GS).
The unit (V, mV, mA) to be displayed is different by the input specification code.
.%
RST/INC/DEC
.%
RST/INC/DEC
6.4 List of Parameters
3
4
5
1
2
6
7
8
IM 77J05A00-01EN 6-7
6.4 List of Parametersl
DRU
B09
B10
B11
B12
C00
C01
C02
C04
A04
B00
B01
B02
B03
B04
B05
Number Item
01 Model
A02
A03
C05
*1
*2
*3
02
03
A00
A01
Tag number
Self check
Display item
Input value
Output value
Status
Display
MODEL
TAG NO.
SELF CHK
DISPLAY
INPUT
OUPUT
STATUS
REV NO.
SET
TAG NO.1
TAG NO.2
COMMENT1
COMMENT2
TYPE
DRU*A
Data display for each signal conditioner
Alphanumeric 16 characters
GOOD or ERROR
. degC (*2)
.%
FF (2 digits in hex) n.nnn (n: Rev No.) Rev No.
Setting item
Tag number 1
Tag number 2
Comment 1
Comment 2
Input type
Temperature unit
Zero (0% of input range)
Span (*1)
Burnout
Adjustment Item
0% Output adjustment
100% Output adjustment
Input zero adjustment
UNIT
ZERO
SPAN
BURN OUT
ADJUST
OUT0%
OUT100%
ZERO ADJ
Alphanumeric 8 characters (first half 8 characters)
Alphanumeric 8 characters (last half 8 characters)
Alphanumeric 8 characters (first half 8 characters)
Alphanumeric 8 characters (last half 8 characters)
J263*B degC/K/degF(*3)
. degC(*2)
. degC(*2)
OFF/UP/DOWN
±10.00%
±10.00%
. Ω
RST/INC/DEC
Input span adjustment SPAN ADJ . Ω
RST/INC/DEC
The measurable data is within the range described in the General Specifications(GS).
The temperature unit to be displayed is the setting in the parameter [B09: UNIT].
Fahrenheit (deg F) is the optional specification for DRU. It is displayed only in cases where it is specified.
6-8 IM 77J05A00-01EN
Revision Information
Title : D Series Nests and Signal Conditioners
Manual No. : IM 77J05A00-01EN
Jan. 2008/1st Edition
Newly published
Oct. 2010/2nd Edition
DA7 and DC7 added
Apr. 2011/3rd Edition
Explanatory note addition of DA7
Switch change of DSK
Style change of DA0, DA1, DA2, DA7, DH1, and DH0
Support the dual output of DA7 i
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