Yokogawa EJA118 User Manual

Instruction
Manual

Model EJA118W, EJA118N and
EJA118Y Diaphragm Sealed
Differential Pressure Transmitters

[Style: S2]

IM 1C22H1-01E

Yokogawa Electric Corporation

IM 1C22H1-01E

10th Edition

Blank Page

CONTENTS

CONTENTS

1. INTRODUCTION ............................................................................................ 1-1

WARRANTY.................................................................................................. 1-2

2. HANDLING CAUTIONS ................................................................................ 2-1

2.1 Model and Specifications Check......................................................... 2-1

2.2 Unpacking ........................................................................................... 2-1

2.3 Storage................................................................................................ 2-1

2.4 Selecting the Installation Location ...................................................... 2-2

2.5 Pressure Connection........................................................................... 2-2

2.6 Waterproofing of Cable Conduit Connections .................................... 2-2

2.7 Restrictions on Use of Radio Transceiver .......................................... 2-2

2.8 Insulation Resistance and Dielectric Strength Test............................ 2-3

2.9 Installation of Explosion Protected Type ............................................ 2-3

2.9.1 FM Approval ................................................................................. 2-3

2.9.2 CSA Certification .......................................................................... 2-5

2.9.3 SAA Certification .......................................................................... 2-6

2.9.4 CENELEC (KEMA)/IEC (KEMA) Certification.............................. 2-7

2.9.5 JIS Certification ............................................................................ 2-9

2.10 EMC Conformity Standards ................................................................ 2-9

3. COMPONENT NAMES .................................................................................. 3-1

4. INSTALLATION.............................................................................................4-1

4.1 Precautions ......................................................................................... 4-1

4.2 Mounting the Diaphragm Seals .......................................................... 4-1

4.3 Transmitter Mounting .......................................................................... 4-2

4.4 Affixing the Teflon Film ....................................................................... 4-3

4.5 Rotating Transmitter Section .............................................................. 4-3

5. WIRING..........................................................................................................5-1

5.1 Wiring Precautions .............................................................................. 5-1

5.2 Selecting the Wiring Materials ............................................................ 5-1

5.3 Connections of External Wiring to Terminal Box................................ 5-1

5.3.1 Power Supply Wiring Connection ................................................ 5-1

5.3.2 External Indicator Connection ...................................................... 5-1

5.3.3 BRAIN TERMINAL BT200 Connection ........................................ 5-2

5.3.4 Check Meter Connection.............................................................. 5-2

5.4 Wiring .................................................................................................. 5-2

5.4.1 Loop Configuration ....................................................................... 5-2

(1) General-use Type and Flameproof Type..................................... 5-2

(2) Intrinsically Safe Type ................................................................. 5-2

5.4.2 Wiring Installation ......................................................................... 5-3

(1) General-use Type and Intrinsically Safe Type............................. 5-3

(2) Flameproof Type (JIS) ................................................................ 5-3

5.5 Grounding............................................................................................ 5-4

5.6 Power Supply Voltage and Load Resistance ..................................... 5-4

FD No. IM 1C22H1-01E
10th Edition: Feb. 2000(YK)
All Rights Reserved, Copyright © 1995, Yokogawa Electric Corporation

i

IM 1C22H1-01E

CONTENTS

6. OPERATION..................................................................................................6-1

6.1 Preparation for Starting Operation...................................................... 6-1

6.2 Zero Point Adjustment ........................................................................ 6-2

6.2.1 When you can obtain Low Range Value from actual measured

value of 0% (0 kPa, atmospheric pressure); ............................... 6-2

6.2.2 When you cannot obtain Low Range Value from actual

measured value of 0%; ................................................................ 6-2

6.3 Starting Operation ............................................................................... 6-3

6.4 Shutting Down Operation.................................................................... 6-3

6.5 Setting the Range Using the Range-setting Switch ........................... 6-4

7. BRAIN TERMINAL BT200 OPERATION ..................................................... 7-1

7.1 BT200 Operation Precautions............................................................. 7-1

7.1.1 Connecting the BT200 ................................................................. 7-1

7.1.2 Conditions of Communication Line .............................................. 7-1

7.2 BT200 Operating Procedures ............................................................. 7-1

7.2.1 Key Layout and Screen Display................................................... 7-1

7.2.2 Operating Key Functions.............................................................. 7-2

(1) Alphanumeric Keys and Shift Keys............................................. 7-2

(2) Function Keys ............................................................................. 7-2

7.2.3 Calling Up Menu Addresses Using the Operating Keys.............. 7-3

7.3 Setting Parameters Using the BT200 ................................................. 7-4

7.3.1 Parameter Summary .................................................................... 7-4

7.3.2 Parameter Usage and Selection .................................................. 7-6

7.3.3 Setting Parameters ....................................................................... 7-7

(1) Tag No. Setup ............................................................................. 7-7

(2) Calibration Range Setup ............................................................. 7-7

(3) Damping Time Constant Setup ................................................... 7-8

(4) Output Mode and Integral Indicator Display Mode Setup ........... 7-9

(5) Output Signal Low Cut Mode Setup............................................ 7-9

(6) Integral Indicator Scale Setup................................................... 7-10

(7) Unit Setup for Displayed Temperature ...................................... 7-11

(8) Unit Setup for Displayed Static Pressure .................................. 7-12

(9) Operation Mode Setup.............................................................. 7-12

(10) Impulse Line Connection Orientation Setup ............................. 7-12

(11) Output Status Display/Setup when a CPU Failure.................... 7-12

(12) Output Status Setup when a Hardware Error Occurs ............... 7-12

(13) Bi-directional Flow Measurement Setup ................................... 7-13

(14) Range Change while Applying Actual Inputs ............................ 7-13

(15) Zero Point Adjustment............................................................... 7-14

(16) Test Output Setup ..................................................................... 7-15

(17) User Memo Fields..................................................................... 7-15

7.4 Displaying Data Using the BT200..................................................... 7-16

7.4.1 Displaying Measured Data ......................................................... 7-16

7.4.2 Display Transmitter Model and Specifications........................... 7-16

7.5 Self-Diagnostics ................................................................................ 7-16

7.5.1 Checking for Problems............................................................... 7-16

(1) Identifying Problems with BT200 .............................................. 7-16

(2) Checking with Integral Indicator................................................ 7-17

7.5.2 Errors and Countermeasures..................................................... 7-18

ii

IM 1C22H1-01E

CONTENTS

8. MAINTENANCE............................................................................................. 8-1

8.1 Overview ............................................................................................. 8-1

8.2 Calibration Instruments Selection ....................................................... 8-1

8.3 Calibration ........................................................................................... 8-1

8.4 Disassembly and Reassembly............................................................ 8-3

8.4.1 Replacing the Integral Indicator ................................................... 8-3

8.4.2 Replacing the CPU Assembly...................................................... 8-4

8.5 Troubleshooting................................................................................... 8-5

8.5.1 Basic Troubleshooting.................................................................. 8-5

8.5.2 Troubleshooting Flow Charts ....................................................... 8-5

9. GENERAL SPECIFICATIONS ...................................................................... 9-1

9.1 Standard Specifications ...................................................................... 9-1

9.2 Model and Suffix Codes...................................................................... 9-3

9.3 Optional Specifications........................................................................ 9-6

9.4 Dimensions.......................................................................................... 9-8

INSTALLATION AND OPERATING PRECAUTIONS FOR

JIS INTRINSICALLY SAFE EQUIPMENT.......................................... EX-A03E

INSTALLATION AND OPERATING PRECAUTIONS FOR

JIS FLAMEPROOF EQUIPMENT....................................................... EX-B03E

Customer Maintenance Parts List

DPharp EJA Series Transmitter Section ............................ CMPL 1C22A1-02E

Models EJA118W, EJA118N, and EJA118Y Diaphragm Sealed

Differential Pressure Transmitter ............................. CMPL 1C22H1-01E

REVISION RECORD

iii

IM 1C22H1-01E

Blank Page

1. INTRODUCTION

NOTE

1. INTRODUCTION

Thank you for purchasing the DPharp electronic
pressure transmitter.

The DPharp Pressure Transmitters are precisely
calibrated at the factory before shipment. To ensure
correct and efficient use of the instrument, please read
this manual thoroughly and fully understand how to
operate the instrument before operating it.

j Regarding This Manual

• This manual should be passed on to the end user.

• The contents of this manual are subject to change
without prior notice.

• All rights reserved. No part of this manual may be
reproduced in any form without Yokogawa’s written
permission.

• Yokogawa makes no warranty of any kind with
regard to this manual, including, but not limited to,
implied warranty of merchantability and fitness for a
particular purpose.

• If any question arises or errors are found, or if any
information is missing from this manual, please
inform the nearest Yokogawa sales office.

• The specifications covered by this manual are
limited to those for the standard type under the
specified model number break-down and do not
cover custom-made instruments.

• Please note that changes in the specifications,
construction, or component parts of the instrument
may not immediately be reflected in this manual at
the time of change, provided that postponement of
revisions will not cause difficulty to the user from a
functional or performance standpoint.

j Safety Precautions

• For the protection and safety of the operator and the
instrument or the system including the instrument,
please be sure to follow the instructions on safety
described in this manual when handling this instru­ment. In case the instrument is handled in contradic­tion to these instructions, Yokogawa does not
guarantee safety.

• For the intrinsically safe equipment and
explosionproof equipment, in case the instrument is
not restored to its original condition after any repair
or modification undertaken by the customer,
intrinsically safe construction or explosionproof
construction is damaged and may cause dangerous
condition. Please contact Yokogawa for any repair
or modification required to the instrument.

• The following safety symbol marks are used in this
Manual:

WARNING

Indicates a potentially hazardous situation which,
if not avoided,
injury.

CAUTION

Indicates a potentially hazardous situation which,
if not avoided, may result in minor or moderate
injury. It may also be used to alert against

unsafe practices

could

result in death or serious

.

NOTE

For FOUNDATION Fieldbus and HART protocol
versions, please refer to IM 1C22T2-01E and IM
1C22T1-01E respectively, in addition to this IM.

IMPORTANT

Indicates that operating the hardware or software
in this manner may damage it or lead to system
failure.

Draws attention to information essential for
understanding the operation and features.

1-1

IM 1C22H1-01E

1. INTRODUCTION

WARRANTY

• The warranty shall cover the period noted on the
quotation presented to the purchaser at the time of
purchase. Problems occurred during the warranty
period shall basically be repaired free of charge.

• In case of problems, the customer should contact the
Yokogawa representative from which the instrument
was purchased, or the nearest Yokogawa office.

• If a problem arises with this instrument, please
inform us of the nature of the problem and the
circumstances under which it developed, including
the model specification and serial number. Any
diagrams, data and other information you can
include in your communication will also be helpful.

• Responsible party for repair cost for the problems
shall be determined by Yokogawa based on our
investigation.

• The Purchaser shall bear the responsibility for repair
costs, even during the warranty period, if the
malfunction is due to:

- Improper and/or inadequate maintenance by the

purchaser.

- Failure or damage due to improper handling, use or

storage which is out of design conditions.

- Use of the product in question in a location not

conforming to the standards specified by
Yokogawa, or due to improper maintenance of the
installation location.

- Failure or damage due to modification or repair by

any party except Yokogawa or an approved
representative of Yokogawa.

- Malfunction or damage from improper relocation

of the product in question after delivery.

- Reason of force majeure such as fires, earthquakes,

storms/floods, thunder/lightening, or other natural
disasters, or disturbances, riots, warfare, or
radioactive contamination.

WARNING

• Instrument installed in the process is under
pressure. Never loosen or tighten the flange
bolts as it may cause dangerous spouting of
process fluid.

• Since the accumulated process fluid may be
toxic or otherwise harmful, take appropriate
care to avoid contact with the body, or inhala­tion of vapors even after dismounting the
instrument from the process line for mainte­nance.

CAUTION

This instrument is tested and certified as intrinsi­cally safe type or explosionproof type. Please
note that the construction of the instrument,
installation, external wiring, maintenance or
repair is strictly restricted, and non-observance
or negligence of this restriction would result in
dangerous condition.

1-2

IM 1C22H1-01E

2. HANDLING CAUTIONS

2. HANDLING CAUTIONS

This chapter describes important cautions regarding
how to handle the transmitter. Read carefully before
using the transmitter.

The EJA Series pressure transmitters are thoroughly
tested at the factory before shipment. When the
transmitter is delivered, visually check them to make
sure that no damage occurred during shipment.

Also check that all transmitter mounting hardware
shown in Figure 2.1 is included. If the transmitter was
ordered without the mounting bracket, the transmitter
mounting hardware is not included. After checking the
transmitter, repack it in the way it was delivered until
installation.

Transmitter
mounting bolt

U-bolt

2.2 Unpacking

When moving the transmitter to the installation site,
keep it in its original packaging. Then, unpack the
transmitter there to avoid damage on the way.

2.3 Storage

The following precautions must be observed when
storing the instrument, especially for a long period.

(a) Select a storage area which meets the following

conditions:

• It is not exposed to rain or water.

• It suffers minimum vibration and shock.

• It has an ambient temperature and relative
humidity within the following ranges.

Ambient temperature:

–40 to 85°C without integral indicator
–30 to 80°C with integral indicator

Relative humidity:

5% to 100% R.H. (at 40°C)

Preferred temperature and humidity:

approx. 25°C and 65% R.H.

U-bolt nut

Figure 2.1 Transmitter Mounting Hardware

Mounting bracket

F0201.EPS

2.1 Model and Specifications Check

The model name and specifications are indicated on the
name plate attached to the case. If the reverse operat­ing mode was ordered (reverse signal), ‘REVERSE’
will be inscribed in field *1; if square root display
mode was ordered, ‘SQRT’ is inscribed in field *2; if
square root output mode was ordered, ‘SQRT’ is
inscribed in field *3.

(b) When storing the transmitter, repack it as nearly as

possible to the way it was packed when delivered
from the factory.

(c) If storing a transmitter that has been used, thor-

oughly clean the diaphragm surface of the dia­phragm seal (pressure-detector section), so that no
measured fluid remains on them. Also make sure
before storing that the pressure-detector and
transmitter assemblies are securely mounted.

Figure 2.2 Name Plate Example of JIS Flameproof Type

2-1

IM 1C22H1-01E

2. HANDLING CAUTIONS

2.4 Selecting the Installation Location

The transmitter is designed to withstand severe
environmental conditions. However, to ensure stable
and accurate operation for years, observe the following
precautions when selecting an installation location.

(a) Ambient Temperature

Avoid locations subject to wide temperature
variations or a significant temperature gradient. If
the location is exposed to radiant heat from plant
equipments, provide adequate thermal insulation
and/or ventilation.

(b) Ambient Atmosphere

Avoid installing the transmitter in a corrosive
atmosphere. If the transmitter must be installed in a
corrosive atmosphere, there must be adequate
ventilation as well as measures to prevent intrusion
or stagnation of rain water in conduits.

(c) Shock and Vibration

Select an installation site suffering minimum shock
and vibration (although the transmitter is designed
to be relatively resistant to shock and vibration).

(d) Installation of Explosion-protected Transmitters

Explosion-protected transmitters can be installed in
hazardous areas according to the types of gases for
which they are certified. See Subsection 2.9
“Installation of Explosion Protected Type Transmit­ters.”

2.5 Pressure Connection

The following precautions must be observed in order to
safely operate the transmitter under pressure.

(a) Never apply a pressure higher than the specified

maximum working pressure.

(b) Never loosen or tighten the bolts securing the

diaphragm seal flanges when the assembly is under
pressure. Do it after releasing the process pressure
if required.

2.6 Waterproofing of Cable Conduit Connections

Apply a non-hardening sealant to the threads to
waterproof the transmitter cable conduit connections.
(See Figure 5.4.2a, 5.4.2b and 5.4.2d.)

2.7 Restrictions on Use of Radio Transceiver

IMPORTANT

Although the transmitter has been designed to
resist high frequency electrical noise, if a radio
transceiver is used near the transmitter or its
external wiring, the transmitter may be affected
by high frequency noise pickup. To test for such
effects, bring the transceiver in use slowly from a
distance of several meters from the transmitter,
and observe the measurement loop for noise
effects. Thereafter, always use the transceiver
outside the area affected by noise.

WARNING

• Instrument installed in the process is under
pressure. Never loosen or tighten the flange
bolts to avoid the dangerous spouting of
process fluid.

• Since the accumulated process fluid may be
toxic or otherwise harmful, take appropriate
care to avoid contact with the skin, eyes or
body, or inhalation of vapors even after dis­mounting the instrument from process line for
maintenance.

2-2

IM 1C22H1-01E

2. HANDLING CAUTIONS

NOTE

2.8 Insulation Resistance and
Dielectric Strength Test

Since the transmitter has undergone insulation resis­tance and dielectric strength tests at the factory before
shipment, normally these tests are not required.
However, if required, observe the following precau­tions in the test procedures.

(a) Do not perform such tests more frequently than is

absolutely necessary. Even test voltages that do not
cause visible damage to the insulation may degrade
the insulation and reduce safety margins.

(b) Never apply a voltage exceeding 500 V DC (100 V

DC with an internal lightning protector) for the
insulation resistance test, nor a voltage exceeding
500 V AC (100 V AC with an internal lightning
protector) for the dielectric strength test.

(c) Before conducting these tests, disconnect all signal

lines from the transmitter terminals. Perform the
tests in the following procedure:

• Insulation Resistance Test

1) Short-circuit the + and – SUPPLY terminals in the

terminal box.

2) Turn OFF the insulation tester. Then connect the

insulation tester plus (+) lead wire to the shorted
SUPPLY terminals and the minus (–) leadwire to
the grounding terminal.

3) Turn ON the insulation tester power and measure

the insulation resistance. The voltage should be
applied short as possible to verify that the insula­tion resistance is at least 20 MΩ.

4) After completing the test and being very careful not

to touch exposed conductors disconnect the
insulation tester and connect a 100 kΩ resistor
between the grounding terminal and the short­circuiting SUPPLY terminals. Leave this resistor
connected at least one second to discharge any
static potential. Do not touch the terminals while it
is discharging.

• Dielectric Strength Test

1) Short-circuit the + and – SUPPLY terminals in the

terminal box.

2) Turn OFF the dielectric strength tester. Then

connect the tester between the shorted SUPPLY
terminals and the grounding terminal. Be sure to
connect the grounding lead of the dielectric strength
tester to the ground terminal.

3) Set the current limit on the dielectric strength tester

to 10 mA, then turn ON the power and gradually
increase the test voltage from ‘0’ to the specified
voltage.

4) When the specified voltage is reached, hold it for

one minute.

5) After completing this test, slowly decrease the
voltage to avoid any voltage surges.

2.9 Installation of Explosion

Protected Type

For FOUNDATION Fieldbus explosion protected
type, please refer to IM 1C22T2-01E.

WARNING

To pressure the safety of explosionproof equip­ment requires great care during mounting,
wiring, and piping. Safety requirements also
place restrictions on maintenance and repair
activities. Please read the following sections very
carefully.

2.9.1 FM Approval

a. FM Intrinsically Safe Type

Caution for FM intrinsically safe type. (Following
contents refer “DOC. No. IFM012-A12 P.1 and 2.”)

Note 1. Model EJA Series pressure transmitters

with optional code /FS1 are applicable for
use in hazardous locations.

• Intrinsically Safe for Class I, Division 1, Groups A,
B, C & D. Class II, Division 1, Groups E, F & G
and Class III, Division 1 Hazardous Locations.

• Nonincendive for Class I, Division 2, Groups A, B,
C & D. Class II, Division 2, Groups E, F & G and
Class III, Division 1 Hazardous Locations.

• Outdoor hazardous locations, NEMA 4X.

• Temperature Class: T4

• Ambient temperature: –40 to 60°C

Note 2. Entity Parameters

• Intrinsically Safe Apparatus Parameters
[Groups A, B, C, D, E, F and G]
Vmax = 30 V Ci = 22.5 nF
Imax = 165 mA Li = 730 µH
Pmax = 0.9 W

* Associated Apparatus Parameters

(FM approved barriers)
Voc ≤ 30 V Ca > 22.5 nF
Isc ≤ 165 mA La > 730 µH
Pmax ≤ 0.9W

2-3

IM 1C22H1-01E

2. HANDLING CAUTIONS

• Intrinsically Safe Apparatus Parameters
[Groups C, D, E, F and G]
Vmax = 30 V Ci = 22.5 nF
Imax = 225 mA Li = 730 µH
Pmax = 0.9 W

* Associated Apparatus Parameters

(FM approved barriers)
Voc ≤ 30 V Ca > 22.5 nF
Isc ≤ 225 mA La > 730 µH
Pmax ≤ 0.9 W

• Entity Installation Requirements
Vmax ≥ Voc or Vt, Imax ≥ Isc or It,
Pmax (IS Apparatus) ≥ Pmax (Barrier)
Ca ≥ Ci + Ccable, La ≥ Li + Lcable

Note 3. Installation

• Barrier must be installed in an enclosure that meets
the requirements of ANSI/ISA S82.01.

• Control equipment connected to barrier must not use
or generate more than 250 V rms or V dc.

• Installation should be in accordance with ANSI/ISA
RP12.6 “Installation of Intrinsically Safe Systems for
Hazardous (Classified) Locations” and the National
Electric Code (ANSI/NFPA 70).

• The configuration of associated apparatus must be
FMRC Approved.

• Dust-tight conduit seal must be used when installed
in a Class II, III, Group E, F and G environments.

• Associated apparatus manufacturer’s installation
drawing must be followed when installing this
apparatus.

• The maximum power delivered from the barrier
must not exceed 0.9 W.

• Note a warning label worded “SUBSTITUTION OF
COMPONENTS MAY IMPAIR INTRINSIC
SAFETY,” and “INSTALL IN ACCORDANCE
WITH DOC. No. IFM012-A12 P.1 and 2.”

Note 4. Maintenance and Repair

• The instrument modification or parts replacement by
other than authorized representative of Yokogawa
Electric Corporation is prohibited and will void
Factory Mutual Intrinsically safe and Nonincendive
Approval.

[Intrinsically Safe]

Hazardous Location Nonhazardous Location

Class I, II, III, Division 1,
Groups A, B, C, D, E, F, G

EJA Series Pressure
Transmitters

+

Supply

Hazardous Location Nonhazardous Location

Class I, II, Division 2,
Groups A, B, C, D, E, F, G
Class III, Division 1.

EJA Series Pressure
Transmitters

Supply

–

[Nonincendive]

+
–

Safety Barrier

+

+

–

–

Not Use
Safety Barrier

General
Purpose
Equipment

General
Purpose
Equipment

F0203.EPS

b. FM Explosionproof Type

Caution for FM explosionproof type.

Note 1. Model EJA Series differential, gauge,

and absolute pressure transmitters with
optional code /FF1 are applicable for
use in hazardous locations.

• Explosionproof for Class I, Division 1, Groups B,
C and D.

• Dust-ignitionproof for Class II/III, Division 1,
Groups E, F and G.

• Outdoor hazardous locations, NEMA 4X.

• Temperature Class: T6

• Ambient Temperature: –40 to 60°C

• Supply Voltage: 42 V dc max.

• Output signal: 4 to 20 mA

Note 2. Wiring

• All wiring shall comply with National Electrical
Code ANSI/NEPA70 and Local Electrical Codes.

• When installed in Division 1, “FACTORY
SEALED, CONDUIT SEAL NOT REQUIRED.”

Note 3. Operation

• Keep the “CAUTION” nameplate attached to the
transmitter.
CAUTION: OPEN CIRCUIT BEFORE REMOV­ING COVER. FACTORY SEALED, CONDUIT
SEAL NOT REQUIRED. INSTALL IN ACCOR­DANCE WITH THE INSTRUCTION MANUAL
IM 1C22.

• Take care not to generate mechanical sparking
when accessing to the instrument and peripheral
devices in a hazardous location.

+
–

+
–

2-4

IM 1C22H1-01E

2. HANDLING CAUTIONS

Note 4. Maintenance and Repair

• The instrument modification or parts replacement
by other than authorized representative of
Yokogawa Electric Corporation is prohibited and
will void Factory Mutual Explosionproof Approval.

c. FM Intrinsically Safe Type/FM

Explosionproof Type

Model EJA Series pressure transmitters with
optional code /FU1 can be selected the type of
protection (FM Intrinsically Safe or FM
Explosionproof) for use in hazardous locations.

Note 1. For the installation of this transmitter,

once a particular type of protection is
selected, any other type of protection
cannot be used. The installation must be
in accordance with the description about
the type of protection in this instruction
manual.

Note 2. In order to avoid confusion, unnecessary

marking is crossed out on the label other
than the selected type of protection when
the transmitter is installed.

* Associated apparatus (CSA certified barriers)

Maximum output voltage (Voc) ≤ 30 V
Maximum output current (Isc) ≤ 165 mA
Maximum output power (Pmax) ≤ 0.9 W

Note 3. Installation

• All wiring shall comply with Canadian Electrical
Code Part I and Local Electrical Codes.

• The instrument modification or parts replacement
by other than authorized representative of
Yokogawa Electric Corporation and Yokogawa
Corporation of America is prohibited and will void
Canadian Standards Intrinsically safe and
nonincendive Certification.

[Intrinsically Safe]

Hazardous Location Nonhazardous Location

Class I, II, III, Division 1,
Groups A, B, C, D, E, F, G

EJA Series Pressure
Transmitters

+

Supply

–

Safety Barrier

+

+

–

–

General
Purpose
Equipment

+
–

2.9.2 CSA Certification

a. CSA Intrinsically Safe Type

Caution for CSA Intrinsically safe type. (Following
contents refer to “DOC No. ICS003-A12 P.1-1 and
P.1-2.”)

Note 1. Model EJA Series differential, gauge, and

absolute pressure transmitters with
optional code /CS1 are applicable for use
in hazardous locations

• Intrinsically Safe for Class I, Division 1, Groups A,
B, C & D. Class II, Division 1, Groups E, F & G
and Class III, Division 1 Hazardous Locations.

• Nonincendive for Class I, Division 2, Groups A, B,
C & D, Class II, Division 2, Groups F & G, and
Class III, Hazardous Locations. (not use Safety
Barrier)

• Encl. “Type 4X”

• Temperature Class: T4

• Ambient temperature: –40 to 60°C

• Process Temperature: 120°C max.

Note 2. Entity Parameters

• Intrinsically safe ratings are as follows:

Maximum Input Voltage (Vmax) = 30 V
Maximum Input Current (Imax) = 165 mA
Maximum Input Power (Pmax) = 0.9 W
Maximum Internal Capacitance (Ci) = 22.5 nF
Maximum Internal Inductance (Li) = 730 µH

[Nonincendive]

Hazardous Location Nonhazardous Location

Class I, II, Division 2,
Groups A, B, C, D, E, F, G
Class III

EJA Series Pressure
Transmitters

+

Supply

–

Not Use
Safety Barrier

General
Purpose
Equipment

+
–

F0204.EPS

b. CSA Explosionproof Type

Caution for CSA explosionproof type.

Note 1. Model EJA Series differential, gauge, and

absolute pressure transmitters with
optional code /CF1 are applicable for use
in hazardous locations:

• Explosionproof for Class I, Division 1, Groups B,
C and D.

• Dust-ignitionproof for Class II/III, Division 1,
Groups E, F and G.

• Encl “Type 4X”

• Temperature Class: T6, T5, and T4

• Process Temperature: 85°C (T6), 100°C (T5), and
120°C (T4)

• Ambient Temperature: –40 to 80°C

• Supply Voltage: 42 V dc max.

• Output Signal: 4 to 20 mA

2-5

IM 1C22H1-01E

2. HANDLING CAUTIONS

Note 2. Wiring

• All wiring shall comply with Canadian Electrical
Code Part I and Local Electrical Codes.

• In hazardous location, wiring shall be in conduit as
shown in the figure.

CAUTION: SEAL ALL CONDUITS
WITHIN 50 cm OF THE ENCLOSURE.
UN SCELLEMENT DOIT ÊTRE
INSTALLÉ À MOINS DE 50 cm DU
BÎTIER.

• When installed in Division 2, “SEALS NOT
REQUIRED.”

Note 3. Operation

• Keep the “CAUTION” label attached to the
transmitter.

CAUTION: OPEN CIRCUIT BEFORE
REMOVING COVER.
OUVRIR LE CIRCUIT AVANT
D´NLEVER LE COUVERCLE.

• Take care not to generate mechanical sparking
when accessing to the instrument and peripheral
devices in a hazardous location.

Note 4. Maintenance and Repair

• The instrument modification or parts replacement
by other than authorized representative of
Yokogawa Electric Corporation and Yokogawa
Corporation of America is prohibited and will void
Canadian Standards Explosionproof Certification.

Non-Hazardous

Locations

Non-hazardous
Location
Equipment

42 V DC Max.
4 to 20 mA DC
Signal

Non-Hazardous

Locations

Non-hazardous
Location
Equipment

42 V DC Max.
4 to 20 mA DC
Signal

Hazardous Locations Division 1

50 cm Max.

Sealing Fitting

Hazardous Locations Division 2

Sealing Fitting

Conduit

EJA Series

EJA Series

F0205.EPS

c. CSA Intrinsically Safe Type/CSA

Explosionproof Type

Model EJA Series pressure transmitters with
optional code /CU1 can be selected the type of
protection (CSA Intrinsically Safe or CSA
Explosionproof) for use in hazardous locations.

Note 1. For the installation of this transmitter,

once a particular type of protection is
selected, any other type of protection
cannot be used. The installation must be
in accordance with the description about
the type of protection in this instruction
manual.

Note 2. In order to avoid confusion, unnecessary

marking is crossed out on the label other
than the selected type of protection when
the transmitter is installed.

2.9.3 SAA Certification

a. SAA Intrinsically Safe Type

Caution for SAA Intrinsically safe type and Type n.

Note 1. Model EJA Series differential, gauge, and

absolute pressure transmitters with
optional code /SU1 are applicable for use
in hazardous locations.

• Type of Protection and Marking Code:

Ex ia IIC T4 (Tamb = 60°C) IP67 Class I Zone 0

• Type of Protection and Marking Code:

Ex n IIC T4 (Tamb = 60°C) IP67 Class I Zone 2

• Ambient Temperature: –40 to 60°C

Note 2. Entity Parameters

• Intrinsically safe rating of the transmitters are as
follows.

Maximum Input Voltage (Ui) = 30 V
Maximum Input Current (Ii) = 165 mA
Maximum Input Power (Pi) = 0.9 W
Maximum Internal Capacitance (Ci) = 0.02 µF
Maximum Internal Inductance (Li) = 0.73 mH

Note 3. Wiring

• All Wiring shall comply with the Australian
Standard.

Note 4. Maintenance and Repair

• The instrument modification or parts replacement
by other than authorized representative of
Yokogawa Electric Corporation is prohibited and
will void Standards Association of Australia
Intrinsically safe and Type n Certification.

2-6

IM 1C22H1-01E

2. HANDLING CAUTIONS

[Intrinsic Safety]

Hazardous Location Nonhazardous Location

(Zone 0)

EJA Series
Pressure
Transmitter

*1: Any safety barriers used for the output current must be

limited by a resistor “R” such that Imaxout-Uz/R.

Hazardous Location

EJA Series
Pressure
Transmitter

*2: The voltage of the power supply is not exceed 30V dc.

+
–

[Type n]

(Zone 2)

+
–

+

Safety Barrier

–

+

Power Supply

–

*1

F0206.EPS

*2

F0207.EPS

b. SAA Flameproof Type

Caution for SAA flameproof type.

Note 1. Model EJA Series differential, gauge, and

absolute pressure transmitters with
optional code /SU1 are applicable for use
in hazardous locations:

• Type of Protection and marking Code:
Ex d II C T* IP67 Class I Zone 1 (T* see schedule)

• Temperature Class: T6, T5, and T4

• Process Temperature:
85°C (T6), 100°C (T5), and 120°C (T4)

• Supply voltage: 42 V dc max.

• Output Signal: 4 to 20 mA

• Ambient Temperature: –40 to 80°C

Note 2. Wiring

• All wiring shall comply with the Australian
Standard.

Note 3. Operation

• Keep the “CAUTION” label attached to the
transmitter.

CAUTION: AMBIENT TEMPERATURE
ABOVE 75 DEG C SELECT SUITABLE
CABLE. DISCONNECT POWER AND
WAIT 1 MINUTE BEFORE REMAKING
COVER

• Take care not to generate mechanical sparking
when accessing to the instrument and peripheral
devices in a hazardous location.

Note 4. Maintenance and Repair

• The instrument modification or parts replacement
by other than authorized representative of
Yokogawa Electric Corporation is prohibited and
will void Standards Association of Australia
Flameproof Certification.

2.9.4 CENELEC (KEMA)/IEC (KEMA) Certification

a. CENELEC (KEMA) Intrinsically Safe Type

Caution for CENELEC (KEMA) intrinsically safe
type.

Note 1. Model EJA Series differential, gauge, and

absolute pressure transmitters with
optional code /KS1 for potentially explo­sive atmospheres:

• Type of Protection and Marking code:
EEx ia IIC T4

• Temperature Class: T4

• Process Temperature: 120°C max.

• Ambient Temperature: –40 to 60°C

Note 2. Electrical Data

• In type of explosion protection intrinsic safety EEx
ia IIC only for connection to a certified intrinsically
safe circuit with following maximum values:

Ui = 30 V
Ii = 165 mA
Pi = 0.9 W
Effective internal capacitance; Ci = 22.5 nF

Effective internal inductance; Li = 730 µH

Note 3. Installation

• All wiring shall comply with local installation
requirements. (Refer to the installation diagram)

Note 4. Maintenance and Repair

• The instrument modification or parts replacement
by other than authorized representative of
Yokogawa Electric Corporation is prohibited and
will void KEMA Intrinsically safe Certification.

[Installation Diagram]

Hazardous Location

Transmitter

+

Supply

–

*1: In any safety barriers used the output current must be limited

by a resistor “R” such that Imaxout-Uz/R.

Nonhazardous Location

+

Safety Barrier

–

F0208.EPS

*1

2-7

IM 1C22H1-01E

2. HANDLING CAUTIONS

b. CENELEC (KEMA) Flameproof Type

Caution for CENELEC (KEMA) flameproof type.

Note 1. Model EJA Series differential, gauge, and

absolute pressure transmitters with
optional code /KF1 for potentially explo­sive atmospheres:

• Type of Protection and Marking Code: EEx d IIC
T6···T4

• Temperature Class: T6, T5, and T4

• Maximum Process Temperature:
85°C (T6), 100°C (T5), and 120°C

• Ambient Temperature: –40 to 80°C

Note 2. Electrical Data

• Supply voltage: 42 V dc max.

• Output signal: 4 to 20 mA

Note 3. Installation

• All wiring shall comply with local installation
requirement.

• The cable entry devices shall be of a certified
flameproof type, suitable for the conditions of use.

Note 4. Operation

• Keep the “CAUTION” label to the transmitter.

CAUTION: WAIT 1 MIN. AFTER
POWER-DISCONNECTION, BEFORE
OPENING THE ENCLOSURE.

• Take care not to generate mechanical sparking
when accessing to the instrument and peripheral
devices in a hazardous location.

Note 5. Maintenance and Repair

• The instrument modification or parts replacement
by other than authorized representative of
Yokogawa Electric Corporation is prohibited and
will void KEMA Flameproof Certification.

c. IEC (KEMA) Type of Protection “n”

Caution for IEC (KEMA) Type of Protection “n.”

Note 1. Model EJA Series pressure transmitters

with optional code /KU1 for potentially
explosive atmospheres.

• Type of Protection and Marking Code:
Ex nA IIC T4

• Temperature Class: T4

• Process Temperature: 120°C max.

• Ambient Temperature: –40 to 60°C

Note 2. Electrical Data

• Supply and output circuit ≤ 30 V dc, 165 mA
(terminals + and –)

Note 3. Installation

• All wiring shall comply with local installation
requirements. (refer to the installation diagram)

Note 4. Maintenance and Repair

• The instrument modification or parts replacement
by other than authorized representative of
Yokogawa Electric Corporation is prohibited and
will void KEMA Type of Protection “n” Certifica­tion.

[Installation Diagram]

Hazardous Location

Transmitter

Ratings of the Power Supply as follows;

(Zone 2 only)

Supply

Maximum Voltage: 30 V
Maximum Current: 165 mA

+
–

Nonhazardous Location

+

Power Supply

–

F0209.EPS

d. CENELEC (KEMA) Intrinsically Safe Type/

CENELEC (KEMA) Flameproof Type/IEC
(KEMA) Type of Protection “n”

Model EJA Series pressure transmitters with
optional code /KU1 can be selected the type of
protection (CENELEC (KEMA) Intrinsically
Safe or CENELEC (KEMA) Flameproof or IEC
(KEMA) Type of Protection “n”) for use in
hazardous locations.

Note 1. For the installation of this transmitter,

once a particular type of protection is
selected, any other type of protection
cannot be used. The installation must be
in accordance with the description about
the type of protection in this instruction
manual.

Note 2. In order to avoid confusion, unnecessary

marking is crossed out on the label other
than the selected type of protection when
the transmitter is installed.

2-8

IM 1C22H1-01E

2. HANDLING CAUTIONS

NOTE

2.9.5 JIS Certification

JIS Flameproof and Intrinsically Safe Type
The model EJA Series pressure transmitters with

optional code /JF1 and /JS1, which have obtained
certification according to technical criteria for explo­sion-protected construction of electric machinery and
equipment(Standards Notification No. 556 from the
Japanese Ministry of Labor) conforming to IEC
standards, are designed for hazardous areas where
explosive gases and/or inflammable vapors may be
present. [JIS Flameproof Type(optional code /JF1)
allows installation in Division 1 and 2 areas, and JIS
Intrinsically Safe Type(optional code /JS1) allows
installation in Division 0, 1, and 2 areas.]

To observe the safety of flameproof equipment requires
great care during mounting, wiring, and piping. Safety
requirements also place restrictions on maintenance
and repair activities. Users absolutely must read
“Installation and Operating Precautions for JIS Intrinsi­cally Safe Equipment and Flameproof Equipment” at
the end of this manual.

2.10 EMC Conformity Standards

For EMI (Emission): EN55011, AS/NZS 2064 1/2
For EMS (Immunity): EN50082–2

YOKOGAWA recommends customer to apply
the Metal Conduit Wiring or to use the twisted
pair Shield Cable for signal wiring to conform the
requirement of EMC Regulation, when customer
installs the EJA Series Transmitters to the plant.

CAUTION

(For JIS flameproof type without integral indicator)

When the fill fluid near the sensor part moves
from within, the instrument outputs a failure
signal either high or low of the specific signal. In
that case, generate the alarm to identify that the
failure signal is output since the event may
invalidate the flameproof approval.
If the optional integral indicator is equipped, the
indicator identifies the alarm on its display.
Therefore, no other alarm generation is neces­sary.

Hazardous Location Nonhazardous Location

4 to 20 mA DC 1 to 5 V DC

Transmitter

Figure 2.3 Example of using DCS (Distributed Control

System)

Power
Supply

DCS

Display

F0210.EPS

2-9

IM 1C22H1-01E

3. COMPONENT NAMES

Transmitter section*

*See below for details.

3. COMPONENT NAMES

Diaphragm seal

(high pressure side)

Diaphragm

Cover flange

Flange

Pressure-detector section

(low pressure side)

Capillary tube

Diaphragm seal

F0301.EPS

Figure 3.1.1 Component Names (Model EJA118W External View)

Terminal box cover

Conduit connection

Zero-adjustment screw

Pressure-detector section

Burn-out
direction

HIGH

LOW

Output at
burn-out

110% or

higher

-

5% or

lower

F0302.EPS

Integral
indicator

Mounting screw

Amplifier cover

CPU assembly

(Note 1)

Range-setting switch
(See Subsection 6.5)

Transmitter section

External indicator
conduit connection

Cover
flange

Setting pin
(CN4)

(Note 1)

(Note 1)

Setting pin (CN4)
position

H
L

H
L

(Note 2)

Note 1: Options depend on your order specifications. For details, see Subsection 9.2, “Model and Suffix Codes.”
Note 2: • Insert the pin (CN4) as shown in the above figure into the H or L side. The pin is set to the H side for delivery (unless

option code /C1 is otherwise specified in the order).

• The setting can be confirmed by calling up parameter D52 using the BRAIN TERMINAL. Refer to Subsection. 7.3.3 (11).

Display Symbol

Display mode is ‘square root’. (Display is not lit when ‘proportional’ mode.)
The output signal being zero-adjusted is increasing.
The output signal being zero-adjusted is decreasing.

%, Pa, hPa, kPa, MPa, kgf/cm2, gf/cm2, mbar, bar,
atm, mmHg, mmH2O, inH2O, inHg, ftH2O, psi, Torr

Select one of these seventeen available engineering units for the display.

Figure 3.1.2 Component Names (Transmitter Section Details)

3-1

Meaning of Display Symbol

T0301.EPS

IM 1C22H1-01E

4. INSTALLATION

4. INSTALLATION

4.1 Precautions

j Before installing the transmitter, read the cautionary

notes in Section 2.4, “Selecting the Installation
Location.” For additional information on the
ambient conditions allowed at the installation
location, refer to Subsection 9.1 “Standard Specifi­cations.”

IMPORTANT

• When welding piping during construction, take
care not to allow welding currents to flow
through the transmitter.

• Do not step on this instrument after installation.

4.2 Mounting the Diaphragm Seals

Mount the diaphragm seals using the flanges as shown
in Figure 4.2.1. Figure 4.2.2 shows how to mount the
diaphragm seals on a tank. The customer should
prepare the mating flange, gasket, bolts and nuts.

Bolt

Flange

Diaphragm

Nut

IMPORTANT

• When measuring the liquid level of the tank,
the minimum liquid level (zero point) must be
set to a level at least 50 mm above the center
of the high pressure side diaphragm seal (see
Figure 4.2.2).

• Correctly install the diaphragm seals on the
high and low pressure sides of the process,
checking the label on each seal.

• To avoid measuring error duets temperature
difference between the two diaphragm seals,
capillary tube must be bound together. The
capillary tube must be securely fixed to the
tank wall to prevent movement by wind or
vibration. If the capillary tube are too long,
loosely coil the excess and secure using
suitable clamps.

• During the diaphragm seal installation, ensure
as far as possible that no seal liquid head is
applied to the diaphragm seals.

• Exercise care so as not to damage diaphragm
surfaces. Since the diaphragm protrudes
approx. 1mm from the flange surface, placing
the diaphragm seals with their diaphragm
surfaces facing downward may damage the
diaphragm surfaces.

• Do not sharply bend or twist capillary tube or
apply excessive stress to them.

ød

Gasket

The product is shipped with
these parts assembled.

Correctly install the diaphragm seals on
the high and low pressure sides of the
process, checking the label on each seal.

Figure 4.2.1 Mounting the Diaphragm Seals

IMPORTANT

Please use a gasket which has a bigger inside
diameter than that of gasket facing (ød) on
diaphragm seal. In case a gasket which has a
smaller inside diameter than that of gasket
facing is used, it may cause an error as the
gasket prevents diaphragm from working cor­rectly. (Refer to Subsection 9.4 ‘Dimensions’)

F0401.EPS

Low

IMPORTANT

Install the sealed diaphragm
so that the shank positions
downward.

The transmitter should be installed as low
as possible below the position where the
high pressure side diaphragm seal is
installed.

Figure 4.2.2 Installing the Diaphragm Seals to a Tank

pressure
side

High
pressure
side

50mm minimum

4-1

Minimum
liquid level

F0402.EPS

IM 1C22H1-01E

4. INSTALLATION

4.3 Transmitter Mounting

j The transmitter can be mounted on a nominal 50

mm (2-inch) pipe using the mounting bracket
supplied, as shown in Figure 4.3.1. The transmitter
can be mounted on either a horizontal or a vertical
pipe.

j When mounting the bracket on the transmitter,

tighten the (four) bolts that hold the transmitter to a
torque of approximately 39 N·m {4 kgf·m}.

Vertical pipe mounting

Horizontal pipe mounting

Transmitter
mounting bolt

IMPORTANT

The transmitter should be installed at least 600
mm below the high pressure (HP) process
connection to ensure a positive head pressure of
fill fluid. Pay special attention to vacuum applica­tions. If it can not be installed at least 600 mm
below the HP process connection, please use
the equation below:

(P–P0)3dHg

h= 37.5310–3 [mm]

ds

h: Vertical height between the HP process

connection and the transmitter (mm)
h≤0: Install the transmitter at least h (mm)

below the HP process connection

h>0: Install the transmitter at most h (mm)

above the HP process connection
P: Pressure in the tank (Pa abs)
P0: Minimum working pressure limit of the

transmitter (Pa abs)

If the ambient temperature range is

–10 to 50°C.

3178 (Wetted parts material code S)

3596 (Wetted parts material code T)

6074 (Wetted parts material code H)

4711 (Wetted parts material code U)
ds: Specific gravity of fill fluid (at 25°C), refer

to GS 1C22H1-E.

dHg:Specific gravity of the Mercury 13.6

(at 25°C)

U-bolt nut

Mounting bracket

50mm (2-inch) pipe

Figure 4.3.1 Transmitter Mounting

U-bolt

F0403.EPS

IMPORTANT

Never loosen the four screws securing the cover
flange or the screws at the joints between the
capillary tube and cover flanges (if the seal liquid
leaks, the transmitter cannot be used).

Low pressure side

h

(+)

0
(–)

High
pressure
side

Figure 4.3.2 Example of Installation to Tank (Caution on

Installation)

4-2

IM 1C22H1-01E

P

F0404.EPS

4. INSTALLATION

4.4 Affixing the Teflon Film

The FEP Teflon option includes a teflon film and
fluorinated oil.
Before mounting the diaphragm seal to the process
flange, affix the teflon film as follows:

IMPORTANT

(1) Position the diaphragm seal so that the

diaphragm is in a upward position.

(2) Pour the fluorinated oil on the diaphragm and

gasket area covering it completely and
evenly. Be careful not to scratch the dia­phragm or change the its shape.

(3) Affix the teflon film over the diaphragm and

gasket area.

(4) Next, carefully inspect the cover and try to

identify any entrapped air between the
diaphragm and the teflon film. The air must
be removed to ensure accuracy. If air
pockets are present, use your fingers to
remove the air by starting at the center of the
diaphragm and work your way out.

(5) Place the gasket with the teflon film and affix

to the process flange.

4.5 Rotating Transmitter Section

The DPharp transmitter section can be rotated in 90°
segments.

(1) Remove the two Allen screws that fasten the

transmitter section and pressure-detector section,
using the Allen wrench supplied with the transmit­ter.

(2) Rotate the transmitter section slowly in 90°

segments.

(3) Tighten the two Allen screws.

IMPORTANT

Do not rotate the transmitter section more than
180°.

Transmitter section

Rotate 90° or 180°
segments

Rotate 90° or 180°
segments

Conduit connection

Zero-adjustment screw

Teflon film

PART No.

F9347XA
F9347YA

Fluorinated oil
[PART No.: F9145YN]

Diaphragm

Gasket area

Diaphragm seal

Figure 4.4.1 Affixing the Teflon Film

Process flange size

For 3inch (80 mm)
For 2inch (50 mm)

F0405.EPS

Pressure-detector section

F0406.EPS

Figure 4.5.1 Rotating Transmitter Section

4-3

IM 1C22H1-01E

5. WIRING

5. WIRING

5.1 Wiring Precautions

IMPORTANT

• Lay wiring as far as possible from electrical
noise sources such as large capacity transform­ers, motors, and power supplies.

• Remove electrical connection dust cap before
wiring.

• All threaded parts must be treated with water­proofing sealant. (A non-hardening silicone
group sealant is recommended.)

• To prevent noise pickup, do not pass signal
and power cables through the same ducts.

• Explosion-protected instruments must be wired
in accordance with specific requirements (and,
in certain countries, legal regulations) in order
to preserve the effectiveness of their explosion­protected features.

• The terminal box cover is locked by an Allen
head bolt (a shrouding bolt) on CENELEC,
SAA, and JIS flameproof type transmitters.
When the shrouding bolt is driven clockwise by
an Allen wrench, it is going in and cover lock is
released, and then the cover can be opened.
See Subsection 8.4 “Disassembly and Reas­sembly” for details.

Refer to The “Installation and Operating
Precautions for JIS Flameproof Equipment”
and “Installation and Operating Precautions
for JIS Intrinsically Safe Equipment” at the
end of this manual for correct wiring.

CAUTION

If the transmitter is flameproof and the ambient
temperature is 50°C or more, use cables having
a maximum allowable heat resistance of at least
75°C in consideration of the instrument's genera­tion of heat or the cables' self-heating.

(d) In environment where oils, solvents, corrosive gases

or liquids may be present, use wires or cables that
are resistant to such substances.

(e) It is recommended that crimp-on solderless terminal

lugs (for 4 mm screws) with insulating sleeves be
used for leadwire ends.

5.3 Connections of External Wiring to Terminal Box

5.3.1 Power Supply Wiring Connection

Connect the power supply wiring to the SUPPLY +
and – terminals.

Transmitter terminal box

+

Power supply

–

F0501.EPS

Figure 5.3.1 Power Supply Wiring Connection

5.2 Selecting the Wiring Materi­als

(a) Use stranded leadwires or cables which are the

same as or better than 600 V grade PVC insulated
wire (JIS C3307) or equivalent.

(b) Use shielded wires in areas that are susceptible to

electrical noise.

(c) In areas with higher or lower ambient temperatures,

use appropriate wires or cables.

5.3.2 External Indicator Connection

Connect wiring for external indicators to the CHECK +
and – terminals.

(Note) Use a external indicator whose internal resistance is 10 Ω or

less.

Power supply

Figure 5.3.2 External Indicator Connection

+
–

Transmitter terminal box

5-1

External indicator

IM 1C22H1-01E

F0502.EPS

5. WIRING

5.3.3 BRAIN TERMINAL BT200 Connec-

tion

Connect the BT200 to the SUPPLY + and – terminals
(Use hooks).

Transmitter terminal box

BT200

Figure 5.3.3 BT200 Connection

+

Power supply

–

Ignore the polarity
since the BT200 is
AC-coupled to the
terminal box.

F0503.EPS

5.3.4 Check Meter Connection

Connect the check meter to the CHECK + and –
terminals (use hooks).

• A 4 to 20 mA DC output signal from the CHECK +

and – terminals.

(Note) Use a check meter whose internal resistance is 10 Ω or less.

Power supply

+

5.4.1 Loop Configuration

Since the DPharp uses a two-wire transmission system,
signal wiring is also used as power wiring.

DC power is required for the transmitter loop. The
transmitter and distributor are connected as shown
below.

For details of the power supply voltage and load
resistance, see Section 5.6; for communications line
requirements, see Subsection 7.1.2.

(1) General-use Type and Flameproof Type

Hazardous Location Nonhazardous Location

Transmitter terminal box

Figure 5.4.1a Connection between Transmitter and

Distributor

Distributor
(Power supply unit)

Receiver
instrument

F0505.EPS

–

Check meter

Figure 5.3.4 Check Meter Connection

Transmitter terminal box

F0504.EPS

5.4 Wiring

CAUTION

For the intrinsically safe equipment and flame­proof equipment, wiring materials and wiring
work for these equipment including peripherals
are strictly restricted. Users absolutely must read
“Installation and Operating Precautions for JIS
Intrinsically Safe Equipment” and “Installation
and Operating Precautions for JIS Flameproof
Equipment” at the end of this manual prior to the
work.

(2) Intrinsically Safe Type

For intrinsically safe type, a safety barrier must be
included in the loop.

Hazardous Location Nonhazardous Location

Transmitter terminal box

Distributor
(Power supply unit)

Receiver
instrument

Safety barrier

Figure 5.4.1b Connection between Transmitter and

Distributor

F0506.EPS

5-2

IM 1C22H1-01E