YOKOGAWA SE14 User Manual

User's
Manual

Model SE14
Magnetic Flow Converter

IM 1E10C1-E

YokogawaElectric Corpo ration

IM 1E10C1-E

7th Edition

CONTENTS

Contents

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

2. HANDLING PRECAUTIONS .......................................................................... 2-1

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

2.2 Accessories ...................................................................................................... 2-1

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

2.4 Installation Location Precautions.................................................................... 2-1

2.5 Cleaning Precautions....................................................................................... 2-1

3. INSTALLATION................................................................................................3-1

3.1 Installing Magnetic Flow Converter ............................................................... 3-1

3.2 Wiring Precautions .......................................................................................... 3-1

3.2.1 Protective Grounding............................................................................... 3-1

3.2.2 General Precautions ................................................................................. 3-2

3.2.3 Cable T ypes.............................................................................................. 3-2

3.2.4 DC Connections....................................................................................... 3-3

3.2.5 Wiring Ports............................................................................................. 3-3

3.2.6 Connecting to External Instruments ........................................................ 3-4

4. BASIC OPERATING PROCEDURES............................................................ 4-1

4.1 Liquid Crystal Display (LCD) ........................................................................ 4-1

4.2 Types of Display Data .................................................................................... 4-2

4.2.1 The Initial Procedure to Change the Display Mode ................................ 4-3

4.2.2 Flow Rate Display Mode ......................................................................... 4-5

4.2.3 Setting Mode............................................................................................ 4-6

4.2.4 Alarm Display Mode ............................................................................... 4-7

4.2.5 Auto Zero Mode ...................................................................................... 4-8

4.2.6 Indicator Error Mode ............................................................................... 4-8

5. FUNCTION AND DATA SETTINGS ............................................................. 5-1

5.1 Setting Nominal Size ...................................................................................... 5-2

5.2 Setting Flow Span ........................................................................................... 5-3

5.3 Setting Meter Factor ....................................................................................... 5-6

5.4 Power Frequency (For DC version only) ....................................................... 5-7

5.5 Other Functions and Settings .......................................................................... 5-7

5.5.1 Pulse Output............................................................................................. 5-7

5.5.2 Display of Internal Totalization Values.................................................... 5-9

5.5.3 Resetting for Totalization Display ......................................................... 5-10

5.5.4 Damping Time Constant ........................................................................ 5-11

5.5.5 Current Output during Alarm Occurrence ............................................. 5-11

5.5.6 Reversing Flow Direction ...................................................................... 5-11

5.5.7 Limiting Current Output ........................................................................ 5-12

5.5.8 Forward and Reverse Flow Measurement ............................................. 5-13

5.5.9 Automatic Two Range Switching .......................................................... 5-14

5.5.10 Alarm Output at Low Flow Limit (Flow Switch) .................................. 5-15

5.5.11 Totalization Switch Output .................................................................... 5-16

5.5.12 Alarm Output ......................................................................................... 5-17

FD No. IM 1E10C1-E
7th Edition: Jan. 2002 (YK)
All Rights Reserved. Copyright © 1998, Yokogawa Electric Corporation

i

IM 1E10C1-E

CONTENTS

5.5.13 Data Settings Enable / Inhibit ................................................................ 5-17

5.5.14 Procedure of Selecting Special Application Items................................. 5-18

5.5.15 Rate Limit .............................................................................................. 5-18

6. OPERATION VIA BRAIN TERMINAL (BT200) ......................................... 6-1

6.1 BT200 Connections......................................................................................... 6-1

6.2 BT200 Keypad Layout.................................................................................... 6-2

6.3 BT200 Key Functions ..................................................................................... 6-3

6.4 Displaying Flow Rate Data............................................................................. 6-4

6.5 Setting Parameters........................................................................................... 6-5

6.5.1 Setting Nominal Size ............................................................................... 6-5

6.5.2 Setting Flow Span.................................................................................... 6-7

6.5.3 Setting Meter Factor .............................................................................. 6-10

6.5.4 Power Frequency (For DC version only) ............................................... 6-11

6.6 Other Functions ............................................................................................. 6-11

6.6.1 User-Defined Units ................................................................................ 6-11

6.7 Other Important Points.................................................................................. 6-12

7. OPERATION VIA HART COMMUNICATOR ............................................7-1

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

7.1.1 Interconnection between ADMAG SE and HART Communicator ......... 7-1

7.1.2 Communication Line Requirements ........................................................ 7-2

7.2 Basic Operation of the HART Communicator (Model 275) .......................... 7-3

7.2.1 Keys and Functions.................................................................................. 7-3

7.2.2 Display ..................................................................................................... 7-4

7.2.3 Calling Up Menu Addresses .................................................................... 7-4

7.2.4 Entering, Setting and Sending Data......................................................... 7-6

7.3 Parameters ....................................................................................................... 7-8

7.3.1 Parameters Configuration ........................................................................ 7-8

7.3.2 Data Renewing......................................................................................... 7-8

7.3.3 Menu Tree................................................................................................ 7-9

7.3.4 Setting Parameters ................................................................................. 7-12

8. ACTUAL OPERATION .................................................................................... 8-1

8.1 Pre-Operation Zero Adjustment...................................................................... 8-1

8.1.1 Zero Adjustment Using Data Setting Keys .............................................. 8-1

8.1.2 Zero Adjustment Using BT200................................................................ 8-2

8.1.3 Zero Adjustment Using HART Communicator ....................................... 8-3

8.2 Self-diagnostics Functions .............................................................................. 8-4

8.2.1 Output Status during Alarm Occurrence.................................................. 8-4

8.2.2 Self-diagnostics Using HART Communicator ........................................ 8-5

8.2.3 Error Description and Countermeasure ................................................... 8-6

9. MAINTENANCE................................................................................................ 9-1

9.1 Loop Test (Test output) .................................................................................. 9-1

9.1.1 Settings for Test Output Using Data Setting Keys................................... 9-1

9.1.2 Setting for Test Output Using BT200 ...................................................... 9-2

9.1.3 Setting for Test Output Using HART Communicator ............................. 9-3

9.2 Trouble Shooting............................................................................................. 9-5

9.2.1 No Indication ........................................................................................... 9-5

9.2.2 Unstable Zero........................................................................................... 9-6

ii

IM 1E10C1-E

CONTENTS

9.2.3 Disagreement of Indication with Actual Flow Rate................................. 9-7

10. OUTLINE.......................................................................................................... 10-1

11. PARAMETER LIST ........................................................................................11-1

11.1 Parameters for ADMAG SE Indicator and BRAIN Terminal ..................... 11-1

11.2 Parameters for HART Communicator .......................................................... 11-7

12. EXPLOSION PROTECTED TYPE INSTRUMENT .................................. 12-1

12.1 CENELEC ATEX(KEMA)........................................................................... 12-1

12.2 FM ................................................................................................................. 12-2

12.2.1 FM Explosionproof (Optional Code /FF1) .............................................. 12-2

12.2.2 FM Nonincendive (Optional Code /FN1)................................................ 12-2

12.3 CSA ............................................................................................................... 12-3

12.4 SAA ............................................................................................................... 12-4

iii

IM 1E10C1-E

1. INTRODUCTION

1. INTRODUCTION

This instrument has been already adjusted at the
factory before shipment.

To ensure correct use of the instrument, please read
this manual thoroughly and fully understand how to
operate the instrument before operating it.

 Regarding This Manual

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

• Before use, read this manual thoroughly to compre­hend its contents.

• The contents of this manual may be changed
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 material, including, but not limited to,
implied warranties of merchantability and suitability
for a particular purpose.

• All reasonable effort has been made to ensure the
accuracy of the contents of this manual. However, if
any errors are found, please inform Yokogawa.

• Yokogawa assumes no responsibilities for this
product except as stated in the warranty.

• If the customer or any third party is harmed by the
use of this product, Yokogawa assumes no responsi­bility for any such harm owing to any defects in the
product which were not predictable, or for any
indirect damages.

 Safety Precautions

• The following general safety precautions must be
observed during all phases of operation, service, and
repair of this instrument. Failure to comply with
these precautions or with specific WARNINGS
given elsewhere in this manual violates safety
standards of design, manufacture, and intended use
of the instrument. YOKOGAWA Electric Corpora­tion assumes no liability for the customer’s failure to
comply with these requirements. If this instrument is
used in a manner not specified in this manual, the
protection provided by this instrument may be
impaired.

The following safety symbol marks are used in
this manual and instrument;

WARNING

A WARNING sign denotes a hazard. It calls
attention to procedure, practice, condition or the
like, which, if not correctly performed or adhered
to, could result in injury or death of personnel.

CAUTION

A CAUTION sign denotes a hazard. It calls
attention to procedure, practice, condition or the
like, which, if not correctly performed or adhered
to, could result in damage to or destruction of
part or all of the product.

IMPORTANT

A IMPORTANT sign denotes an attention to
avoid leading to damage to instrument or system
failure.

NOTE

A NOTE sign denotes a information for essential
understanding of the operation and features.

Protective grounding terminal.
Function grounding terminal. This terminal

should not be used as a “Protective grounding
terminal”.

Alternating current.
Direct current.

1-1

IM 1E10C1-E

1. INTRODUCTION

 Warranty

• The guaranteed term of this instrument is described
in the quotation. We repair the damages that
occurred during the guaranteed term for free.

• Please contact with our sales office when this
instrument is damaged.

• If the instrument has trouble, please inform us
model code, serial number, and concrete substances
or situations. It is preferable to be attached a outline
or data.

• We decide after the examination if free repair is
available or not.

• Please consent to the followings for causes of
damages that are not available as free repair, even if
it occured during the guaranteed term.

A:Unsuitable or insufficient maintenance by the

customer.

B: The handling, using, or storage that ignore the

design and specifications of the instrument.

C: Unsuitable location that ignore the description in

this manual.

D:Remaking or repair by a person except whom we

entrust.

E: Unsuitable removing after delivered.
F: A natural disaster (ex. a fire, earthquake, storm and

flood, thunderbolt) and external causes.

 For Safety Using

For safety using the instrument, please give attention
mentioned below.

WARNING

(1) Installation

• The instrument must be installed by expert
engineer or skilled personnel. The procedures
described about INSTALLATION are not
permitted for operators.

• The Magnetic Flow Tube is a heavy instrument.
Please give attention to prevent that persons
are injured by carrying or installing. It is prefer­able for carrying the instrument to use a cart
and be done by two or more persons.

• In case of high process temperature, care
should be taken not to burn yourself because
the surface of body and case reach a high
temperature.

• When removing the instrument from hazardous
processes, avoid contact with the fluid and the
interior of the flow tube.

• All installation shall comply with local install­ation requirement and local electrical code.

(2) Wiring

• The instrument must be installed by expert
engineer or skilled personnel. The procedures
described about WIRING are not permitted for
operators.

•Please confirm voltages between the power
supply and the instrument before connecting
the power cables. And also, please confirm
that the cables are not powered before con­necting.

• The protective grounding must be connected to
the terminal in order to avoid personal shock

hazard.

(3) Operation

• Wait 10 min. after power is turned off, before
opening the covers.

(4) Maintenance

• Please do not carry out except being written to
a maintenance descriptions. When these
procedures are needed, please contact to
nearest YOKOGAWA office.

• Care should be taken to prevent the build up of
drift, dust or other material on the display glass
and data plate. In case of its maintenance, soft
and dry cloth is used.

(5) Explosion Protected Type Instrument

• For explosion proof type instrument, the de­scription in Chapter 12 “EXPLOSION PRO­TECTED TYPE INSTRUMENT” is prior to the
other description in this user's manual.

• Only trained persons use this instrument in the
industiral location.

• The protective grounding must be connected
to a suitable IS grounding system.

• Take care not to generate mechanical spark
when access to the instrument and peripheral
devices in hazardous locations.

1-2

IM 1E10C1-E

2. HANDLING PRECAUTIONS

2. HANDLING PRECAUTIONS

This instrument has been already tested thoroughly at
the factory. When the instrument is delivered, please
check externals and make sure that no damage
occurred during transportation.

In this chapter, handling precautions are described.
Please read this chapter thoroughly at first. And please
refer to the relative matter about other ones.

If you have any problems or questions, please make
contact with Yokogawa sales office.

2.1 Checking Model and Specifications

The model and specifications are shown on the Data
Plate. Please confirm the specifications between the
instrument that was delivered and the purchase order
(refer to the chapter 10. Outline).

Please let us know Model and Serial No. when making
contact with Yokogawa sales office.

MAGNETIC FLOW
CONVERTER

MODEL
SUFFIX

STYLE
SUPPLY

CURRENT
OUTPUT
PULSE
OUTPUT
AMB.TEMP.
ENCLOSURE
TAG NO.
NO.

Figure 2.1 Data Plate

VAC~47 to 63Hz 11Wmax.

4 - 20mA
(600Ωmax.)

30V DC 0.2Amax.
–20 to +60 °C
IP67

N200

VDC 11Wmax.

Made in Japan

2.2 Accessories

When the instrument is delivered, please make sure
that the following accessories are in the package.

• Data sheet (1-sheet)

•Mounting hardware

• Hexagonal wrench 1-piece (for special screw of

converter)

• Unit labels

• Plug 1-piece (only for DC power supply version)

2.3 Storage Precautions

In case the instrument is expected to be stored over a
long term, please give attention to the followings;

• The instrument should be stored in its original
packing condition.

• The storage location should be selected according to
the following conditions:

1) The location where it is not exposed to rain or

water.

2) The location where there is few vibration or

shock.

3) Temperature and humidity should be:

Temperature: –20 to 60˚C (–4 to 140˚F)
Humidity: 5 to 80% RH (no condensation)
Preferable ambient temperature and humidity
are 25˚C(77˚F) and about 65% RH.

2.4 Installation Location

Precautions

Please select the installation location considering the
following items to ensure long term stable operation of
the flowmeter.

• Ambient Temperature:
Please avoid to install the instrument at the location
where temperature changes continuously. If the
location receives radiant heat from the plant, provide
heat insulation or improve ventilation.

•Atmospheric Condition:
Please avoid to install the instrument in an corrosive
atmosphere. In case of installing in the corrosive
atmosphere, please keep ventilating sufficiently and
prevent rain from entering the conduit.

•Vibration or shock:
Please avoid to install the instrument at the location
where there is heavy vibration or shock.

2.5 Cleaning Precautions

Care should be taken to prevent the buildup of dirt,
dust or other material on the display glass. Such
buildup may interfere with the operation of
programming keys.

2-1

IM 1E10C1-E

3. INSTALLATION

3. INSTALLATION

WARNING

This instrument must be installed by expert
engineer or skilled personnel. The procedures
described in this chapter are not permitted for
operators.

3.1 Installing Magnetic Flow Converter

A signal cable (AM011) is used between the remote
type flow tube and the converter. The maximum signal
cable length is 300m (984ft).
The converter is mounted on a 2-inch (60.5mm outer
dia.) vertical or horizontal pipe. See Figure 3.1.1

Vertical Mounting

2-inch pipe

U-Bolt

Bracket

Nut

CAUTION

Confirm that all connections are corrected before
applying power to the instrument. Improper
wiring may damage the flow tube or converter.

NOTE

The terminal box cover is locked by special
screw. In case of opening the terminal box
cover, please use the Hexagonal Wrench
attached.

CAUTION

Be sure to lock the cover with the special screw
using the Hexagonal Wrench attached after
tightening the terminal box cover.

The external signal wirings are connected into the
terminal inside the converter. Please connect to each
terminal (Please refer to Figure 3.2.1) by taking off a
cover backside the converter.

Excitation Cable

Dedicated Cable
AM011-4

Converter SE14

Power supply
Protective ground
4 to 20 mA DC output
Pulse or alarm output

Horizontal pipe Mounting

Nut

Bracket

2-inch pipe

U-Bolt

Figure 3.1.1 Magnetic Flow Converter Installation

F030101.EPS

3.2 Wiring Precautions

This section is described wiring only for converter
side. Please see "Wiring" in SE***DJ/EJ Magnetic
Flow Tube User's Manual for flow tube side.

A
B
C

Figure 3.2.1 Wiring

Flow Tube

EX2
EX1

Converter
Terminals

SA

A
B

SB

C
Ex1
Ex2

NOTE : Terminate those shielding wire
terminals using tape.

Flow Tube
SE***DJ/EJ

(See NOTE below)

(See NOTE below)

3.2.1 Protective Grounding

CAUTION

Please be sure to connect protective grounding
of ADMAG SE with cable of 2mm2 or larger
cross section in order to avoid the electrical
shock to the operators and maintenance engi­neers and prevent the influence of external
noise. And further connect the grounding wire to
the mark (100Ω or less).

3-1

A
B

C
Ex1
Ex2

IM 1E10C1-E

F030201.EPS

3. INSTALLATION

3.2.2 General Precautions

Please give attention to the followings in wiring.

CAUTION

• Please pay attention to avoid the cable is
bended excessively.

• Please do not connect cables outdoors in case
of rain to prevent damages from dew formation
and to keep insulation inside the terminal box
of the flowmeter.

• The all cable ends are to be provided with
round crimp-on terminal.

• The power cables and output signal cables
must be routed in separate steel conduit tubes
or flexible tubes.(except 4-core 24VDC cable
wiring.)

• When waterproof glands or union equipped
waterproof glands are used, the glands must be
properly tightened to keep the box watertight.

•Please install a external switch or circuit
breaker as a means of power off (capacitance;
15A, conform to IEC947-1 and IEC947-3). The
preferable location is either near the instrument
or other places to easy operation. Further­more, please indicate "power off equipment" on
the those external switch or circuit breaker.

• Please be sure to fully tighten the terminal box
cover before the power is turned on. After
tightening the covers, please be sure to fix it
with the special screw using a hexagonal
wrench attached.

• Please be sure to turn off the power before
opening the terminal box cover.

• In case of DC power supply, a plug is attached.
When 4-core cable is used, please put that
plug into unused electrical connection port.

3.2.3 Cable Types

IMPORTANT

If the cable is longer than required, cut off any
extra length, rather coiling it up, and terminate
the conductors as shown in Figure 3.2.3. Avoid
using intermediate terminal boards to extend the
cable length, or this will interrupt the shielding.

Unit : mm (inch)

ACB

SA

(WHITE)

On the
converter side

Figure 3.2.3 Treatment of Dedicated Signal Cable

25 (0.98)

(BLACK)

150

8 (0.3) Max.

(5.9)

20 (0.8)

SB

50 (1.97)

(RED)

L (SPECIFIED LENGTH)

70 (2.76)

80 (3.15)

AM011*A

ACB

90 (3.5)

(WHITE)

8 (0.3) Max.

150

(5.9)

ø10.5 (0.4)

(BLACK)

On the flow

tube side

F030203.EPS

CAUTION

Since A, B, SA, SB, and C all operate at differ­ent electrical potentials, securely insulate them
from each other so they do not touch.
The shields must not be allowed to touch each
other or to touch the case.
Cover each shield with vinyl tube or wrap in vinyl
tape.

55 (2.2)

90 (3.5)

(RED)

(1) Dedicated Signal Cable(AM011)

The flow signal is transmitted via this dedicated cable.
The cable is constructed with double shielding over the
two conductors, and used heat-resistant vinyl as the
outer jacket material.

Finished diameter: 10.5 mm (0.413 in.)
Maximum length: 30 m (98 ft)
Maximum temperature: 80°C (176°F)

Conductors

Shields

Tape

Outer jacket

Shield

Insulation

Insulation

Figure 3.2.2 Dedicated Signal Cable AM011

10.5mm

(0.413in.)

F030202.EPS

NOTE

Conductors A and B carry the signal from the
electrodes, and C is at the potentials of the liquid
it self (signal common) . Shields SA and SB are
kept at the same potentials as the individual
electrodes (these are actively driven shields).
This is done to reduce the effect of the distrib­uted capacitance of the cable at long cable
length. Note that, since the signals from the
individual electrodes are impedance converted
inside the converter, errors will result if they
come in contact with any other component.
Great care must be taken in the cable end
treatment.

3-2

IM 1E10C1-E

3. INSTALLATION

(2) Power, Excitation, or Output Cable
Power Cable

• Crimp-on Terminal

• Green/Yellow covered conductors shall be used only
for connection to PROTECTIVE CONDUCTOR
TERMINALS.

• Conform to IEC277 or IEC245 or equivalent
national authorization.

Excitation or Output Cable

• Please use Polyvinyl chloride insulated and sheathed
control cables (JIS C3401) or Polyvinyl chloride
insulated and sheathed portable power cables (JIS
C3312) or equivalents.

Outer Diameter

•6.5 to 12mm in diameter (10.5 to 11.5 mm for
waterproof gland / ECG, /ECU)

Nominal Cross Section

• Single wire; 0.5 to 2.5mm2 , Stranded wire; 0.5 to

2

2.5mm

EX1

EX2

60

(2.4)

85

(3.3)

Unit: mm (inch)

EX1

EX2

1000

(3300)

900

(2970)

800

(2640)

700

(2310)

Allowed

600

cable

(1980)

length

500

m(ft)

(1650)

400

(1320)

300

(990)

200

(660)

100

(330)

0

Cable cross section area : 1.25mm

Supply Voltage and Cable Length

20

22

24

Usable range E(V)

2

26

28

Cable cross section area : 2mm

F030205.EPS

Figure 3.2.5 Supplied Power and Cable Length

(2)Setting Power Supply Frequency

IMPORTANT

In case of DC power supply, the frequency of
the power supply has to be adjusted. Please
adjust for the local power frequency. The power
supply frequency is set in parameter B12 (or
Power freq for HART). Refer to 5.4, 6.5.4, or

7.3.4 for data setting procedure.

2

On the converter side On the flow tube side

F030204.EPS

Figure 3.2.4 End Treatment of Excitation Cable

3.2.4 DC Connections

(1)Connecting Power Supply

IMPORTANT

In case of 24VDC power supply, AC power
supplies or reversed polarities cannot be con­nected. It will cause the fuse to burn out.

IMPORTANT

In case of 24VDC power supply, the specifica­tion for the supply voltage is 24VDC (-15 to
+20%), but the input voltage of the converter
drops due to cable resistance so it should be
used within the following range.

3.2.5 Wiring Ports

Please select the most suitable standard of wiring
procedure for the wiring ports by customer’s own.

(1)Using the Waterproof Gland

IMPORTANT

To prevent water or condensate from entering
the converter housing, waterproof glands are
recommended. Do not over-tighten the glands or
damage to the cables may result. Tightness of
the gland can be checked by confirming that the
cable is held firmly in place.

Gasket

Gasket

Washer

Tightening gland

Water-proof gland(/ECG)

Figure 3.2.6 Waterproof Gland

(2)Conduit Wiring

In case of conduit wiring, please use the waterproof
gland to prevent water flowing through the conduit
pipe into the wiring connection.

Washer

Tightening gland

G1/2

Water-proof gland with union joint(/ECU)

F030206.EPS

3-3

IM 1E10C1-E

3. INSTALLATION

Please slope the conduit pipe down, and install a drain
valve at the low end of the vertical pipe.

Please open the drain valve regularly.

Drain valve

F030207.EPS

Figure 3.2.7 Conduit Wiring

3.2.6 Connecting to External Instru-

ments

CAUTION

All the devices to be connected to current
output and pulse output must be conformed to
CSA1010, CSA950, or IEC950.

(1)Analog Signal Output(4 to 20mADC)

ADMAG SE

ADMAG SE

PULSE OUT

PULSE OUT

PLS/ALM+

+

–

PLS/ALM–

PLS/ALM+

+

–

PLS/ALM–

Protective diode

Mechanical counter

30 V DC, 0.2A. max*

*In case of FM Nonincendive type, 0.135A max.

Load

Universal counter or

Electronic counter

F030209.EPS

Figure 3.2.9 Pulse Output Connection

(3)Alarm or Status Output

IMPORTANT

This is a transistor contact(insulated type) so
attention must be paid to voltage and polarity
when making connections.
This output can not switch an AC load. To do
this, another relay (see the figure below) is
required.

* The alarm output works from "close"(Normal) to

"open"(Alarm).

ADMAG SE

PLS/ALM+

Protective diode

Load

PLS/ALM–

+

ADMAG SE

CUR+

–

CUR–

+

RECEIVER

–

Load Resistance
max. 600 Ω

F030208.EPS

Figure 3.2.8 Connection for Analog Singal Output

(2)Pulse Output

IMPORTANT

Please give attention to voltage and polarity in
wiring, because it is transister contact (insula­tion type.)

• In case of the filtering constant of Electric
Counter is more than the pulse width, it makes
signal decreases and can not be calculated
correctly.

• In case of input impedance of electric counter
is large inductive noise from power supply
bring bad influence to measurement. To
calculate correctly, it is recommended to use
shield cable or to make input impedance small
enough within the limits of pulse output of
flowmeter.

This connection cannot be made.

ADMAG SE

PLS/ALM+

PLS/ALM–

External

Power supply

30 V DC, 0.2A. max*

*In case of FM Nonincendive type, 0.135A max.

Figure 3.2.10 Contact Output Connection

Magnetic

valve

AC power supply

F030210.EPS

3-4

IM 1E10C1-E

4. BASIC OPERATING PROCEDURES

4. BASIC OPERATING PROCEDURES

All data settings can be performed with the three keys on the front panel (SET,SHIFT,
and INC), or using a handheld Brain Terminal (BT) or using a HART communicator.
The following sections describe basic data components and how to use the three panel
keys. (Please refer to Chapter 6 for the operation via Brain Terminal and Chapter 7 for
the operation via HART communicator.)

4.1 Liquid Crystal Display (LCD)

ADMAG SE display panel (if equipped) shows the components as follows.

4:Decimal Point

1:Data Display

3:Unit Display

µMmNkgalbbl
scftm3 /d /s /h /m

SET

SHIFT

%

INC

2:Infrared Switches (if equipped)

Figure 4.1 Components of Display

1: Data Display: Displays flow rate data, setting data and type of alarm generated.
2: Infrared Switches: These keys are used to change the display and type of setting data.
3: Unit Display: Displays flow rate units. In order to display other units, the

required unit label should be selected from the provided data
sheets.

4: Decimal Point: Displays decimal point.

• Structure of the Display

* The Display consists of six figure and five dots for the decimal point between them.
* Two types of data can be entered : direct entry of numerals and entry of desired data

items using codes.
Please refer to Chapter 11. Parameter List for information on how to change settings.

NOTE

The infrared switches operates as “ON” status by detecting the infrared ray reflection
from a finger put over the switches through the glass plate of the cover. Switches are
just below the printed letters SET, SHIFT, or INC on the faceplate and are circled
with a white line.
When you “touch” the swiches, please note the follwing.

The switches may operate even when you don’t touch the glass plate if your finger
comes near just above the glass plate. so please touch the switches sliding in your
finger from the lower part of the glass plate. Also be sure not to touch more than
one switch at one time by covering your other fingers over the faceplate.

4-1

IM 1E10C1-E

4.2 Types of Display Data

The Display Data is divided into 5 types as follows.

4. BASIC OPERATING PROCEDURES

Please refer to section 4.2.2

Flow Rate Display Mode

This mode indicates the instantaneous flow rate and totalization data.
Display settings can be set in the Setting Mode and parameter
No.“d01” (DISP SELECT) by using infrared switches, Brain Terminal,
or HART communicator.

Setting Mode

This mode makes certain about
contents of parameter and
rewrite data.This mode is called
up from Flow Rate Display Mode
by touching the SET key for 3
sec. and inputting a password.

Alarm Display Mode

When an alarm occurs in the
Flow Rate Display Mode, this
mode indicates the alarm code
number and normal data
alternately.

Please refer to section 4.2.4

Pass-Word Input Mode

Please refer to section 4.2.3

Number Changing Mode

Data Changing Mode

Data confirmation Mode

Auto Zero Mode

This mode is indicated during
automatic zero setting.

Indicator Error Mode

This mode is shown in case the
keys keep staying “ON” by stains
or obstacles on front glass of the
case.The error is canceled by
cleaning them.

4-2

Please refer to section 4.2.5

Please refer to section 4.2.6

IM 1E10C1-E

4.2.1 The Initial Procedure to Change the Display Mode

•The procedure of changing the display from the Flow Rate Display Mode into the
Setting Mode by using infrared switches on the converter is described as follows.

(1) Procedure in General

4. BASIC OPERATING PROCEDURES

The Flow Rate

Display Mode

SET key

(for 3 sec.)

The Pass-word

Input Mode

Password Input

(It is always “4321”.)

(2) Procedure in Detail

Switch Operation Display Description

(After power on)

SET SHIFT INC

(for 3 sec.)

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

(example)

To go to the Setting Mode, it is needed to go to the Password
Input Mode first. Please touch the SET key for 3 sec., and the
display goes into the Password Input Mode.

By touching the SET key again, the display goes into the
Number Input Mode. Please input the Password as follows, by
touching the SHIFT and INC keys.

By touching the INC key for some moment, change “0” into
“4”.

By touching the SHIFT key, the cursor moves to the next digit.

The Setting

Mode

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

NOTE

By touching the INC key for some moment again, change “0”
into “3”.

By continuing this for the rest of two digits, please change the
whole digits into “4321”.

By touching the SET key, whole Display is blinking.
And by touching the SET key again, setting the password is
completed.

(Setting is now completed)

By touching the SET key again, the display goes to the number
changing mode.

In the Password Input Mode, if keys were not operated for more than 20 sec., or if
correct password were not set, the display goes back into the Flow Rate Display Mode
automatically.

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IM 1E10C1-E

4. BASIC OPERATING PROCEDURES

• The procedure of returning from the Setting Mode to the Flow Rate Display
Mode by using infrared switch on the converter is described as follows.

Switch Operation Display Description

The number changing mode of the Setting Mode.

SET SHIFT INC

(SHIFT key first)

(1) Functions of

Number

Changing Mode

SET SHIFT INC

(2) Functions of

Number

Changing Mode

(example)

After all settings have been completed, touch the SET key
simultaneously while touching the SHIFT key. Then the display
goes back to the Flow Rate Display Mode.

• Additional information on the functions of the keys is described here.

SHIFT

key

When the SHIFT key is touched in the Number Changing Mode, it shows as follows.

<< The Cursor Position moves alternately by touching the
SHIFT key.

Cursor Position

Cursor Position

key

INC

The INC key in the Number Changing Mode has each working at each cursor position.
a) In case the Cursor Position is at upper figure

SET SHIFT INC

The parameter number changes the followings by touching the INC key.

b) In case the Cursor Position is at lower figure

The parameter number changes from small number to big one by touching the INC key.
For example; 02, 03,

...

, 37, 02, 03,

...

(in case of parameters with “b”)

4-4

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4.2.2 Flow Rate Display Mode

• Flow Rate Display Mode indicates flow rates and totalization data. ADMAG SE can
indicate 12 types as follows.

INDICATOR

DISPLAY ITEM CONTENTS BT200 SETTING

Flow Rate (%)

Flow Rate
Actual Flow Rate

Instantaneous flow rate is displayed
within a range of -8 (or -108%) to
108% for the span.

The actual meter rate of instataneous
flow rate is displayed. (See NOTE)
The decimal place is the same as for
the span setting. However, since a
decimal point set at the least
significant bit cannot be displayed.

Parameter

No.

d01

d01

Code

No.

D01: DISP SELECT

00

D01: DISP SELECT

01

4. BASIC OPERATING PROCEDURES

HART

Communicator

RATE(%)

RATE

Disp Select
PV % rnge

Disp Select
PV

Actual Flow Rate
Totalization Values

Reverse Flow Rate
Totalization Values

Differential Between the
Forward and Reverse Flow
Totalization Values

Alternate Display of Flow Rate
(%) and Forward Flow Rate
Totalization Values

Alternate Display of Actual
Flow Rate and Forward Flow
Rate Totalization Values

Alternate Display of Actual
Flow Rate and Forward Flow
Rate(%)

Alternate Display of Flow Rate
(%) and Reverse Flow
Totalization Values

Alternate Display of Forward
Flow Rate and Reverse Flow
Totalization Values

Alternate Display of Flow Rate
(%) and Differential Flow
Totalization Values

Alternate Display of Forward
Flow Rate and Differential
Flow Totalization Values

Display actual flow rate totalization
value

Display reverse flow rate totalization
value

Differential totalization between
forward totalization and reverse
totalization is displayed.

Display alternately between display
of “RATE(%)” and “FOR. TTL”
every 4 second interval.

Display alternately between display
of “RATE” and “FOR. TTL”.

Display alternately between display
of “RATE” and “RATE(%)” every 4
second interval.

Display alternately between display
of “RATE(%)” and “REV. TTL”
every 4 second interval.

Display alternately between display
of “RATE” and “REV. TTL” every 4
second interval.

Actual flow rate (%) and differential
between forward and reverse
totalization values are indicated
alternately every 4 sec.

Actual flow rate and forward and
reverse totalization values are
indicated alternately every 4 sec.

d01

d01

d01

d01

d01

d01

d01

d01

d01

d01

D01: DISP SELECT

02

D01: DISP SELECT

03

D01: DISP SELECT

04

D01: DISP SELECT

05

D01: DISP SELECT

06

D01: DISP SELECT

07

D01: DISP SELECT

08

D01: DISP SELECT

09

D01: DISP SELECT

10

D01: DISP SELECT

11

FOR. TOT AL

REV. TOTAL

DIF. T OTAL

RATE %/FOR TTL

RATE/FOR TTL

RATE/RATE %

RATE %/REV. TTL

RATE/REV . TTL

RATE %/DIF. TTL

RATE/DIF. TTL

Disp Select
Totl

Disp Select
Rev. totl

Disp Select
Diff. totl

Disp Select
PV % rnge/Totl

Disp Select
PV/Totl

Disp Select
PV % rnge/PV

Disp Select
PV % rnge/Rev. totl

Disp Select
PV/Rev. totl

Disp Select
PV % rnge/Diff. totl

Disp Select
PV/Diff. totl

NOTE

• The display can set the units by setting parameter No.“b04” and “b05”.

• When special display of flow rate is specified in parameter “D10 flow user unit”, this
special display has higher priority in displaying than actual flow rate.

•Those 12 types function can be selected and set by changing into the Setting Mode.
(Please refer to 4.2.3 Setting Mode.)

• Those 12 types function can be selected by using infrared switches, Brain Terminal,
or HART communicator. (For using BT, please refer to Chapter 6. OPERATION VIA
BRAIN TERMINAL(BT 200). For using HART communicator, Chapter 7. OPERA­TION VIA HART Communicator.)

4-5

IM 1E10C1-E

4.2.3 Setting Mode

The Setting Mode confirms contents of parameter and rewrite data.

Number

Changing Mode

Cursor position is blinking.

4. BASIC OPERATING PROCEDURES

• Detailed procedures of data setting are explained in “ Chapter 5. Function and Data
Settings”.

• Procedure of data setting

* When the display is in the Setting Mode just after power

ON, it always starts from “b02”.

* After that, it starts from the former selected number.

SET SHIFT INC SET SHIFT INC

*Keys for number changing
SHIFT: for changing positions (to the right)
INC: for changing alphabets or numerals

SET SHIFT INC

Data Changing

Mode

*By touching the SET key the display goes to the Data Changing Mode.

* Two types of data can be entered : direct entry of numerals and entry of desired data

items using codes. Please refer to “Chapter 11. Parameter List” for information on
how to change settings.

SET SHIFT INC SET SHIFT INC

* Keys for data changing
SHIFT: for changing positions (to the right)
INC: for changing numerals or the position of
decimal point

*Data types are as follows.

Direct entry of numerals Entry of selected number

5-figure data = A decimal point is sure to show somewhere, The last figure (6th figure)

is always SPACE.
6-figure data(totalized value) = A decimal point doesn't show anywhere and no SPACE.
Selection type data = It is always 2-figure(other figures are always SPACE).

SET SHIFT INC

Data Confirmation Mode

SET SHIFT INC

SET SHIFT INC

Whole display is blingking.

Data is completed.

The marks are always shown at the highest figure.

It changes: “+” and “–” (“+” is shown as “ ”.)

*When it is the Data Changing Mode and touch SET key, it

changes into the Check Up Mode, whole of the display
begins to blink.

* During the display is blinking, touch the SET key, then the

data is completed.

* Then touch the SET key again and the display goes back to

the Number Changing Mode.

* During the display is blinking and touch other keys except

the SET key, the data setting is canceled and the display
goes back to the Number Changing Mode.

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IM 1E10C1-E

4.2.4 Alarm Display Mode

• When an alarm occurs, a content of the alarm is shown as an alarm code number.
However, this mode is available during the Flow Rate Display Mode.
In this mode, alarm number and flow rate are shown alternately.

For example;

• When alarm No. 6 is raised.

• When alarm No.6 and No.8 are raised at the same time.

4. BASIC OPERATING PROCEDURES

<< Flow Rate is indicated for 4 sec.

%

<< Alarm No. is indicated for 2 sec.

<< Flow Rate is indicated for 4 sec.

%

NOTE

<< Alarm No.6 is indicated for 2 sec.

<< Flow Rate is indicated for 4 sec.

%

<< Alarm No.8 is indicated for 2 sec.

For further description of the alarm functions, please refer to “Chapter 8.2 Self­diagnostics Functions”.

4-7

IM 1E10C1-E

4.2.5 Auto Zero Mode

•Three ways of the auto zero adjustment can be done by using the infrared switches on
the converter, BT Terminal, or HART communicator.
Please refer to “8.1 Pre-Operation Zero Adjustment” in detail.

• The display can be changed into the Auto Zero Mode from any mode.

• The Auto Zero Mode is shown as follows (for 20sec.).

• When the Auto Zero Mode is finished, the display goes back into the Flow Rate
Display Mode automatically.

4.2.6 Indicator Error Mode

In the event the glass is stained or objects are placed near or on the glass, the switches
can be activated due to the infrared deflection. This will cause the "Password Input
Mode" to be displayed frequently and make the normal display mode unavailable. The
following comments relate to this possible occurrence.

*When the front glass of case is stained, please wipe out the glass by soft and dry

cloth.

*In case that each key keeps touching for more 120 sec. and it is continued, the

Password Input Mode is not available to enter.

*In case all keys are “OFF” for more 3 sec. , this mode is cancelled.
*This condition (the above-mentioned) is not an alarm, but the followings are shown

on LCD to indicate this condition.
(4 to 20 mA Output , Status Output , Flow Rate Indication Value and Self-check
Function work normally.)

*When these errors are raised, the display indicates alternately as follows.

4. BASIC OPERATING PROCEDURES

IMPORTANT

<< Flow Rate is indicated for 4 sec.

%

<< Warning is indicated for 2 sec.

In case of the front cover is loosened, "dSPErr" may occur, so please make sure the
cover is always fastened tightly.

4-8

IM 1E10C1-E

5. FUNCTION AND DATA SETTINGS

5. FUNCTION AND DATA SETTINGS

A Magnetic flowmeter calculates volume flow rate from a minute voltage that corre­sponds to the flow velocity of a fluid an outputs as a 4 to 20mA signal.

The three parameters must be set to obtain a correct signal.

NOTE

NOTE

Nominal size, flow span and meter factor must be set.

This chapter explaines how to set flow span, other functions and data settings.
Please set data correctly.

• you cannot set the leftmost digit of display to numeric value

greater than "4". If the leftmost digit of the span must be "4" or
more, set the numeric value beginning from the digit second
from the left on the display (the fourth digit).

• If the leftmost digit of the display is set to "3", the digits to its
right can be set to "0" only, regardless of the decimal point
position.

Basic Key Operations

How to change the display into the setting mode?
How to move the cursor on the display during parameter setting?
How to change the display into the data changing mode?
How to move the cursor in the data changing mode?
How to change the data?
Finally, How to input the set data?

Key OperationItem

SET
SHIFT
SET
SHIFT
INC
SET (Twice)

5-1

IM 1E10C1-E

5. FUNCTION AND DATA SETTINGS

5.1 Setting Nominal Size

Switch Operation Display Description

(See 4.2.1 The initial
procedure to change the
display)

SET SHIFT INC

Change the display into the setting mode through the password
input mode. (Please refer to Chapter 4 “BASIC OPERATION
PROCEDURES.”)

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

By touching the SHIFT and INC key, select the parameter No.
“b06”.

Defalt is set as 00 (Size Unit is mm). Below is an example to set it “01” .(Size Unit is inch)

By touching the SET key, change the display into the data
changing mode.

By touching the INC key, select code
“01” for inch.

By touching the SET key, whole Display is blinking.
And by touching the SET key again, the data is completed.

(Setting is now completed)

By touching the SET key again, the display goes back to the
number changing mode.

By touching the SHIFT and INC key, select the parameter No.
“b07”.

Code

00
01

Size Unit

mm
inch

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

Below is an example to change to “2.0”.

(Setting is now completed)

By touching the SET key, change the display into the data
changing mode.

By touching the SHIFT key, the cursor moves to the next digit.
By touching the INC key, change “1” into “0”.

By touching the SHIFT key, the cursor moves to the next digit.

By touching the INC key, change “0” into “2”.

By touching the SET key twice, the setting is completed.

By touching the SET key again, the display goes back to the
number changing mode.

5-2

IM 1E10C1-E

5.2 Setting Flow Span

(1) Determing the Flow Span

The flow rate span is the instantaneous flow rate value at which the output current is to
be 20mA.
Please determine the span under considering the followings.

• Please set the maximum flow rate at the most variable flow rate line.
If the flow rate of the fluid exceeds the flow rate span value, the flow rate that
exceeds this value (20mA or more) is not output and the flowmeter will not display
the correct flow rate. (108% or more can't be output)

• In a line where the flow rate is comparatively stable, set a value that is 1.5 to 2.0
times larger than the normal flow rate.

• Please set a value that will correspond to a flow velocity of 0.3 to 10m/s.
Please comfirm the flow velocity by sizing data or parameter No. “b13”.
(Parameter No. “b13” indicates corresponding flow velocity to set span)

• The basic input value for display is flow span value. It is recommended that the
accuracy of the first digit is in a 0.05 to 0.1% in case inputting the flow rate span
value.
For example, 30m3/h should be set as 30.00m3/h.

• In a span setting, the maximum value that can set is “30000” except any relation
with decimal position.

5. FUNCTION AND DATA SETTINGS

5-3

IM 1E10C1-E

5. FUNCTION AND DATA SETTINGS

(2) Span Settings by Infrared Switches on the Converter (Example: Flow Span 30.0m3/h)

 Span Value Setting

Switch Operation Display Description

(See 4.2.1 The initial
procedure to change the
display)

SET SHIFT INC

Change the display into the setting mode through the password
input mode. (Please refer to Chapter 4 “BASIC OPERATION
PROCEDURES.”)

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

By touching the SHIFT and INC key, select the parameter No.
“b03”.

Defalt is set as 1.0000. Below is an example to change it into 0030.0.

By touching the SET key, change the display into the data
changing mode.

By touching the INC key, change “1” into “0”.

By touching the SHIFT key, the cursor moves to the decimal
point.
The decimal point on the cursor can be moved by touching the
INC key.

And by touching the SHIFT key, blinking part moves to the
right.

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

(Setting is now completed)

By touching the INC key, change “0” into “3”.

By touching the SET key, whole Display is blinking.
And by touching the SET key again, the data is completed.

By touching the SET key again, the display goes back to the
number changing mode.

5-4

IM 1E10C1-E

5. FUNCTION AND DATA SETTINGS

 Setting Volume Measurement (m3) and Time Unit (/h)

Switch Operation Display Description

(Select m3)

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

Defalt : 12

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

Change the display into the number changing mode through the
setting mode.

By touching the SHIFT and INC key, please select the
parameter No.“b04”.

And by touching the SET key,
change into the data changing mode.

By touching the INC key, set the “01”
(equivalent as m

3

)

By touching the SET key,
whole display is blinking.
And touching the SET key again,
the data is completed.

Code

00
01
02
03
04
05
06
07
08
09
10
11
12
13

Volume Unit

3

km

(103X

m3)

3

m

L(liter)

3

cm

(10-2X

m)

M gal

k gal

gal

m gal

k bbl

bbl

m bbl

u bbl

m

ft.

3

SET SHIFT INC

(Select /h)

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

Defalt : 03

And by touching the SET key, the data is completed and the
display goes back into the number changing mode.

By touching the SHIFT and INC key, select the parameter No.
“b05”.

By touching the SET key, change the display into the data
changing mode.

By touching the INC key, set the

Time Unit

“01” (equivalent as /h)

By touching the SET key,
whole display is blinking.

Code

00
01
02
03

/d
/h

/m

/s

And touoching the SET key again, the data is completed.

* If keys that except SET key are touched during display is

blinking, input data is not completed and back to former data.

SET SHIFT INC

(Setting is now completed)

By touching the SET key again, the display goes back to the
number changing mode.

5-5

IM 1E10C1-E

5. FUNCTION AND DATA SETTINGS

5.3 Setting Meter Factor

The meter factor is engraved on the data plate of the combined flow tube.

Switch Operation Display Description

(See 4.2.1 The initial
procedure to change the
display)

SET SHIFT INC

Change the display into the setting mode through the password
input mode. (Please refer to Chapter 4 “BASIC OPERATION
PROCEDURES.”)

SET SHIFT INC

SET SHIFT INC

SET SHIFT INCSET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

SET SHIFT INC

By touching the SHIFT and INC key, select the parameter No.
“b08”.

Defalt is set as 1.0000. Below is an example to set it “1.1200”.

By touching the SET key, change the display into the data
changing mode.

By touching the SHIFT key twice, the cursor moves to the next
digit.

By touching the INC key, change “0” into “1”.

By touching the SHIFT key, the cursor moves to the next digit.

By touching the INC key, change “0” into “2”.

SET SHIFT INC

SET SHIFT INC

(Setting is now completed)

By touching the SET key twice, the setting is completed.

By touching the SET key again, the display goes back to the
number changing mode.

5-6

IM 1E10C1-E

5. FUNCTION AND DATA SETTINGS

5.4 Power Frequency (For DC version only)

IMPORTANT

the frequency differs. The meter is set to 50.00Hz at the factory.

Display Description

Set the value in areas where the frequency differs in
“b12”.

Default: 50.00Hz

5.5 Other Functions and Settings

5.5.1 Pulse Output

PLS/ALM+, PLS/ALM–terminals are for common use with pulse, alarm and other status

In case of DC power supply version, setting power frequency is required in areas where

NOTE

(1) Pulse Output Overview

output functions. Therefore, in case this function is used, other functions are not
available to use.

• By setting a pulse weight, a scaled pulse is transmitted to external counters or
measuring instruments.

Pulse Output Overview

Output Specifications
Connecting

Terminals

Pulse Width
Output Rate

* Please refer to “3.2.6 Output Connection to External Instruments” for information how to connect external

instruments.

(2) Procedures for Setting Pulse Output

Example setting: 10 liter output per pulse in a flow rate span of  m3/h

ContentItem

Transistor contact output (contact capacity is 30V DC, 200mA)
PLS/ALM+, PLS/ALM–

When using these for pulse output, alarm output or status output are not

available as the terminals are used commonly.
Selection: DUTY50%, 0.5, 1, 20, 33, 50, 100ms
Min. 0.0001p/s, Max. 1000p/s

Display Description

Pulse output can be set in parameter No. “b10” and
selected “00” (Pulse output).

Default: 00

ContentCode

00

Pulse output

01

Alarm output

02

Forward / reverse flow measurement

03

Automatic two range switching

04

Alarm output at low flow limit

05

Totalization switch

5-7

IM 1E10C1-E

5. FUNCTION AND DATA SETTINGS

■■

Display Description

After setting the number changing mode, the unit of pulse
weight is set in parameter No. “F01”.

Default : 06

Volume unit in that for the flow rate span ×10

00

Volume unit in that for the flow rate span ×10

01

Volume unit in that for the flow rate span ×10

02

Volume unit in that for the flow rate span ×1

03

Volume unit in that for the flow rate span ×10

04

Volume unit in that for the flow rate span ×10

05

Number of pulses output per second at 100%

06

output

Volume UnitCode

-9

-6

-3

3
6

When pulses are to be output per some liter with the flow
rate span of

m3/h, select “02” since L = 10-3 × m

Set the pulse weight “10” in parameter No. “F02”.

Default : 0

Set the low cut range nearby 0% in parameter No.
“F03”.

Default: (3%)

Setting Range: 0 to 100% (of span)

The pulse width can be set in parameter No. “F04”.

Pulse WidthCode

Default: 00

00

50%DUTY (Max. 1000p/s Min. 0.0001p/s)

01

0.5ms (Max. 1000p/s Min. 0.0001p/s)

02

1ms (Max. 500p/s Min. 0.0001p/s)

03

20ms (Max. 25p/s Min. 0.0001p/s)

04

33ms (Max. 15p/s Min. 0.0001p/s)

05

50ms (Max. 10p/s Min. 0.0001p/s)

06

100ms (Max. 5p/s Min. 0.0001p/s)

Normally, these are all required settings. The following settings are made depending on the applications
that are used.

3

(Flow rate value after damping)

Default: 01

Default: 00

5-8

The pulse output calculation can be set in parameter No.
“n01” by selecting flow rate or flow rate value after
damping.

In case the pulse output transistor should be OFF
ACTIVE, please change the parameter No. in “n02” to
“01”.

IM 1E10C1-E

5.5.2 Display of Internal Totalization Values

■■

• By setting a weight per a pulse, flow rate totalized value is shown on the display of
the converter.

(1) Setting Totalization Pulse Weight

Example: To output 10 liter per pulse in flow rate span of  m3/h.

Display Description

5. FUNCTION AND DATA SETTINGS

Set the pulse weight unit in parameter No. “E01”.

Defalt : 06

Default : 3%

(Damped flow rate value)

Default : 01

Volume unit in that for the flow rate span ×10

00

Volume unit in that for the flow rate span ×10

01

Volume unit in that for the flow rate span ×10

02

Volume unit in that for the flow rate span ×1

03

Volume unit in that for the flow rate span ×10

04

Volume unit in that for the flow rate span ×10

05

Number of pulses output per second at 100%

06

output

When pulses are to be output per some liter with the flow

Volume UnitCode

rate span of

m3/h, select “02” since L = 10-3 × m

-9

-6

-3

3
6

3

Set the pulse weight “10(l)” in parameter No. “E02”.

Set the low cut range nearby 0% in parameter No. “E03”.
Setting Range: 0 to 100% (of span)

The flow rate totalized value calculation can be set in
parameter No. “n01” by selecting “NO DAMPING” or
“DAMPING”.

5-9

IM 1E10C1-E

5.5.3 Resetting for Totalization Display

(1) Presetting for Forward Totalization Display

• E04, E05 are used for reset or preset the totalization values of the display.

Display Description

Default: 00 (disabled)

Default: 0

5. FUNCTION AND DATA SETTINGS

The totalization value presetting enable can be selected at
parameter No. “E04”.

ContentCode

00

Totalization preset inhibit

01

Totalization preset enable

The totalization value presetting enable is selected at
parameter number “E05”. The initial value is “0”, if it is
no setting, the function is zero setting.

SET SHIFT INC

(Twice)

(2) Zero-resetting for Reverse Toralization Display

Display Description

Default: 00 (disabled)

SET SHIFT INC

(Twice)

During the A30 :TOTAL (totalization value of flow rate)
is shown, the totalization value display is becoming the
value that is set at parameter number “E05”, by touching
SET key twice.

The totalization value presetting enable can be selected at
parameter No. “E04”.

00
01

During the A31 :REV.TOTAL (totalization value of
reverse flow rate) is shown, the totalization value display
is becoming zero, by touching SET key twice.

ContentCode

Totalization preset inhibit
Totalization preset enable

5-10

IM 1E10C1-E

5.5.4 Damping Time Constant

• The time constant can be changed by setting the parameter No. “b02” to suppress a
fluctuation or change a response time.

• The time constant influences to flow rate, pulse output and internal totalization.
However, in case “00” is selected in parameter No. “n01”, the pulse output and
internal totalization are not influenced by it.

Display Description

Default: 3(sec).

5.5.5 Current Output during Alarm Occurrence

• The current output and display values during alarming can be selected in advance.

Display Description

Default: 03

5. FUNCTION AND DATA SETTINGS

The time constant can be set in parameter No. “02”.
Setting Range: 0.5 to 200.0 sec.

The current output value during alarming can be set in
parameter No. “b11”.

Code

00
01
02
03

Content

2.4mA or less

4.0mA
HOLD

21.6mA or more

5.5.6 Reversing Flow Direction

•The flow direction is set to “FORWARD” at the factory. This function enables to set
flow direction from “FORWARD” to “REVERSE”.

Display Description

The flow derection can be set in parameter No. “b14”.

Default: 00

Code

00
01

Content

Forward direction
Reverse direction to flow arrow

5-11

IM 1E10C1-E

5.5.7 Limiting Current Output

(1) 4 to 20mA Low Cut Output (Current output nearby 0% range)

• This function makes it possible to reduce fluctuations in the 0% region to reduce it to
0%.

Display Description

5.6mA(10%)

5. FUNCTION AND DATA SETTINGS

Output

(2) 4 to 20mA Low Limit

(3) 4 to 20mA High Limit

Default : 00

4mA

Setting range: 0 to 10% Default:0(%)

0.5%0.5%

Set value

Hysteresis:1% fixed

• This function limits the low end of the analog output.

• The default value is set at –20%, and –10% as reverse flow limit. Please set in case
other setting is required.

• 2.4mA or less output in alarming is also limited.

Display Description

Default : -20(%)

Setting Range: –20 to 100%

Default: –20%

5.6mA(10%)

Output

4mA

• This function limits the high end of the analog output.

• The default value is set at 120%, and please set in case other setting is required.

• 21.6mA or more output in alarming is also limited.

Display Description

Output

18.4mA (90%)

Default : 120(%)

4mA

Setting Range: 0 to 120%

Default: 120%

5-12

IM 1E10C1-E

5.5.8 Forward and Reverse Flow Measurement

• This function enables to measure forward and reverse flow rate without change the
detector direction.

•By setting reverse range, in case fluids flow to reverse direction the flowmeter
measures it as reverse direction range automatically. In this time, a status signal that
shows changing into the reverse direction is output.

• To set the internal totalizing function for forward direction can also show it for
reverse direction by parameter settings.

• PLS/ALM+, PLS/ALM– are used for output connection.

PLS/ALM+, PLS/ALM– terminals are for common use with pulse, alarm and other

NOTE

status output functions. Therefore, in case this function is used, other functions are not
available to use.

Display Description

Default: 00

5. FUNCTION AND DATA SETTINGS

F and R flow rate measurement can be selected as “02” in
parameter No. “b10”.

Code

00

Pulse output

01

Alarm output

02

Forward / reverse flow measurement

03

Automatic two range switching

04

Alarm output at low flow limit

05

Totalization switch

Content

Default: 2%

Reverse direction span can be set in parameter No.
“b30”.
Flow rate unit is the same as forward direction span.

Futher reverse range span should be set in the same
number of places of decimals as forward range span.
Example: forward flow rate : 1.000 then reverce flow rate
should be 4.000.

Hysteresis width at switching direction can be set in
parameter No. “b31”.
It is the rate (%) of the smaller span, either forward or
reverse span. “b31”.

0%

Flow Rate

Hysteresis

Status output
Forward flow measurement: OFF
Reverse flow measurement: ON

5-13

When using reversed status (ON/OFF) is required,
it can be set in “N02 Output Mode”

IM 1E10C1-E

5.5.9 Automatic Two Range Switching

•When an input exceeds 100% of the first range, the range is automatically transferred
to the second range and the status output changes state.

• PLS/ALM+, PLS/ALM–terminals are used for output connection.

PLS/ALM+, PLS/ALM–terminals are for common use with pulse, alarm and other status

NOTE

output functions. Therefore, in case this function is used, other functions are not
available to use.

Display Description

Default : 00

5. FUNCTION AND DATA SETTINGS

Automotic two range transfer can be selected “03” in
parameter No. “b10”.

Code

Pulse output

00

Alarm output

01

Forward / reverse flow measurement

02

Automatic two range switching

03

Alarm output at low flow limit

04

Totalization switch

05

Content

Default : 1.0000

Default: 10%

Forward second range can be set by calling up parameter
No. “b33”.
Setting restrictions: First range ≤ 2nd range.

Further second range span should be set in the same
number of places of decimals as first range span in
parameter No. “b03”.
Example: First range : 1.000 then second range should be

4.000

Hysteresis width at switching range can be set in
parameter No. “b34”.
It is the rate (%) of first range span.

Output

100%

0 %

1st range: OFF
2nd range: ON

Status Output ON

Hysteresis (%)

Status Output

2nd range1st range

Flow Rate

5-14

When using reversed status (ON/OFF) is required,
it can be set in “N02 Output Mode”.

IM 1E10C1-E

5.5.10 Alarm Output at Low Flow Limit (Flow Switch)

• In case flow rate decrease under set level, an status signal is output.

PLS/ALM+, PLS/ALM– terminals are for common use with pulse, alarm and other

NOTE

status output functions. Therefore, in case this function is used, other functions are not
available to use.

Display Description

Alarm output at low flow limits can be selected “04” in
parameter No. “b10”.

Defalt : 00

Defalt : -10(%)

Code

00
01
02
03
04
05

The Low Limit value can be set in parameter No. “b36”
as parcentage for 4 to 20 mA.

5. FUNCTION AND DATA SETTINGS

Content

Pulse output
Alarm output
Forward / reverse flow measurement
Automatic two range switching
Alarm output at low flow limit
Totalozation switch

Default : 5(%)

Hysteresis width is set in parameter No. “b37”.

Output

low flow
limits
value.

Hysteresis

Status
Output

On

When using reversed status (ON/OFF) is required,
it can be set in “N02 Output Mode”.

5-15

IM 1E10C1-E

5.5.11 Totalization Switch Output

• In case the Internal Totalization Value increase over set level, an alarm signal is
output.

PLS/ALM+, PLS/ALM– terminals are for common use with pulse, alarm and other

NOTE

status output functions. Therefore, in case this function is used, other functions are not
available to use.

Display Description

Default : 00

5. FUNCTION AND DATA SETTINGS

Totalization switch can be selected as “05” in parameter
No. “b10”.

Code

00

Pulse output

01

Alarm output

02

Forward / reverse flow measurement

03

Automatic two range switching

04

Alarm output at low flow limit

05

Totalization switch

Content

Default : 0

Switch level can be selected by calling up parameter No.
“E06”.

Totalization

999999

Setting value
10000

Status
Output

ON

When using reversed status (ON/OFF) is required,
it can be set in “N02 Output Mode”.

Input

5-16

IM 1E10C1-E

5.5.12 Alarm Output

• This function is for status output from PLS/ALM+, PLS/ALM– terminals, when an

PLS/ALM+, PLS/ALM–terminals are for common use with pulse, alarm and other

NOTE

status output functions.
Therefore, in case this function is used, other functions are not available to use.

• All of the alarms are able to output except empty pipe detection function that can be

• The status goes from close to open (OFF) during alarming.

alarm occurs.

selected in parameter No. “n07” as out of selection.

Display Description

The alarm output can be selected “01” in parameter No.
“b10” and P+, P– terminals are only for alarm output.

Default: 00

Code

00

Pulse output

01

Alarm output

02

Forward / reverse flow measurement

03

Automatic two range switching

04

Alarm output at low flow limit

05

Totalization switch

5. FUNCTION AND DATA SETTINGS

Content

* Item “n” can be called up in setting “55” in parameter No. “L02”.

5.5.13 Data Settings Enable / Inhibit

• This function can inhibit to change all data except parameter No. “ L01”.
However, auto zero adjustment function can work, if it has been set in parameter No.
“C01”.
And the preset totalization value function also can work, if it has been set in param­eter No. “E04”.

Displayed Description

Default: 01

Default: 01

The empty pipe output selection can be set in parameter
No. “n07”.

Code

00
01

The data settings inhibit item can be set “00” in
parameter No. “L01”.

Code

00
01

Content

ALARM
NO ALARM

Content

INHIBIT
ENABLE

5-17

IM 1E10C1-E

5.5.14 Procedure of Selecting Special Application Items

• Only the special application (“n” items) shipped being unpublished.
In case the “n” items should be used, it can be set “55” in parameter No. “L02”.

Displayed Description

The “n” items can be set “55” in parameter No. “L02”.

5. FUNCTION AND DATA SETTINGS

5.5.15 Rate Limit

Default: 00

Code

00
55

Content

Accessible up to L parameters.
Accessible up to n parameters.

• This function is used to remove noise that cannot be removed by increasing the
damping time constant.

•In case unexpected noise from step signal or slurry is entered, a basis is set to
recognize that signal is flow rate or noise.
The recoginition depends on rate limit value (upper and lower limit) and dead time
(sampling time).

• Determination of rate limit value and dead time.

Rate limit value:

Determine the level to reduce output
fluctuation.
For example, reducing 2% or more
fluctuation by setting as 2% to
reduce.

2%
2%

Dead time T0:

Please determine the dead time
depending on ouput fluctuation width.
In case of noise of which is longer
than the dead time, please set the
dead time longer.

T

0

T

0

• Signal processing procedures:

The function sets a certain upper and lower limit (rate limit value) for first order
delay response values of flow rate data obtained in a previous sampling. If currently
sampled flow rate data exceeds or goes below the limit is regarded as current flow
rate value. Signals whose protruding portions show the same trends during a certain
number of sampling times (dead time) are identified as flow rate signals.

5-18

IM 1E10C1-E

Example 1: Step Input

5. FUNCTION AND DATA SETTINGS

10%

1%

Dead time: 3 sec. (Sampling 80 ms × 18 times)

1

Step Signal

Flow rate value
after rate limiting

➀

➁

9

Shows 1% response cause of excessive signal beyond the rate limit. However, actual
output is under damping that described by a solid line.
Shows the flow rate signal (1%) of just after damping calculation ( 1 ) and rate limit

2

value.
This signal is recognized as a flow rate signal since it does not return to within the

3

rate limit value within the dead time.
The output signal follows the damping curve and tracks the step signal.

4

Example 2: Slurry Noise

Slurry Noise

Flow rate value after
rate limiting

+1%

Input: 0 to 10%
Damping time constant: 3 sec.
Dead time: 3 sec.
Rate limit value: 1%

63.2%

➂

➃

Flow rate value after
damping

18

Input: 0 to 10%
Damping time constant: 1 sec.
Dead time : 1 sec.
Rate limit value: 1%

–1%

The left figure shows that the slurry
noise is not a flow rate signal.

Flow rate value after rate limiting and damping.

Dead time: 1 sec.

Displayed Description

The rate limit value can be set in parameter No. “n03”.
Setting Range: 0 to 10%

Default: 5(%)

The dead time can be set in parameter No. “n04”.
Setting Range: 0 to 15 sec.

Default: 0(%)

(Rate limit function halt at 0)

5-19

IM 1E10C1-E

6. OPERATION VIA BRAIN TERMINAL

6. OPERATION VIA BRAIN TERMINAL (BT200)

Products come equipped with a BRAIN communication function communicate with
dedicated BRAIN terminals (BT200) or computer system. In the BRAIN Series commu­nications system, modulated signal is superimposed onto the 4 to 20 mA DC analog
signal for data transmission. Since the modulated wave is an AC signal superimposed on
the analog signal will cause no error in the DC component of the analog signal. In this
way, monitoring can be performed via communications while the ADMAG SE is online.

This section describes the operation procedures using BRAIN terminal. For details on
the functions of the ADMAG SE, see Chapter 5, “Function and Data Settings.” And
also, see the “BT200 Instruction Manual” (IM 1C0A11-01E) for more detailed
information.

6.1 BT200 Connections

(1) Connecting BT200 to 4 to 20 mA DC Transfer Line

The communication signal of the ADMAG SE with BRAIN communication function is
superimposed onto the 4 to 20 mA DC analog signal to be transferred.

4 to 20mA DC signal

transfer line

ADMAG SE

Intermediate

terminals

CUR+

CUR–

Figure 6.1 Interconnection Diagram

Control room

Receiver

Terminal board

Receiver resistance,

250Ω to 600Ω

BT200BT200 BT200

6-1

IM 1E10C1-E

6.2 BT200 Keypad Layout

Figure 6.2 shows the key pad layout of BT200.

Power

ON/OFF key

6. OPERATION VIA BRAIN TERMINAL

LCD

8 lines with 21 characters each

Function keys

Executes the commands displayed at the bottom
of the screen.

Arrow keys

• Selects an item.

• Moves the cursor.

• Page feeding.

ENTER key

• Goes to the selected item.

• Sets the entry data to the object
communication instrument.

• Executes the BT200 functions.

Entry cursor
(Inverse video)

Menu panel Parameter panel

MENU BATTERY
A: DISPLAY
B: SET
C: ADJUST
D: DISP SEL
E: TOTAL SET
F: PULSE SET

HOME SET ADJ ESC

Major parameters items

A maximum of six items are displayed.

Message

PARAM
A10:FLOW RATE(%)

0.6%
A20:FLOW RATE

0.06 m3/h
A30:TOTAL
0

DATA DIAG PRNT ESC

Function commands

Alphanumeric keys

• Enters a number.

• Enters letters when pressed together with the
shift key.

SHIFT keys

Parameter data

A maximum of three items
are displayed.

Figure 6.2 Key Layout and Functions

6-2

IM 1E10C1-E

6.3 BT200 Key Functions

(1) Entry of Alphanumeric Characters

Numbers, codes and letters can be entered in combinations of the alphanumeric keys and
the SHIFT key.

• Entry of numbers, codes and a space (0 to 9, ., -, )
Entering of them is possible by using the alphanumeric keys.

Example of Entry Key Operation

6. OPERATION VIA BRAIN TERMINAL

[

–4.3

1 –0.3

XW

–

NM

1

HG

4

ZY

SPACE

VU

.

XW

–

• Entry of letters

Press an alphanumeric key while one
of the SHIFT keys is pressed and the
letter on the same side of the key as
the SHIFT key that is pressed can be
entered. Press the SHIFT key each
time when entering a letter.

Example of Entry Key Operation

WIC

J. B

■

SHIFT

–

■

5

The letter on the left
side of the
alphanumeric key is
entered.

■

XW

SHIFTSHIFT

JI

■

SHIFT

VU

.

3
0

5

SHIFT

RQ

BA

VU RQ

.

3

TS

7

■

SHIFT

The letter on the
right side of the
alphanumeric key is
entered.

■

JI

SHIFT

■

BA

DC

8

7

• Selection of capital/small letters

Capital and small letters can be selected alternately by pressing the function key [F2]
(CAPS).

Entry of capital letters

CODE CAPS CLR ESC

F2

F1 F3 F4 F1 F2 F3 F4

Entry of small letters

CODE caps CLR ESC

• Entry of codes

Codes can be entered by pressing the function key [F1] (CODE). Every time [F1]
CODE is pressed, the codes are displayed at the cursor position in the order shown
below.

/ . - , + * ) ( ' & % $ ” !
To enter characters after the above codes, move the cursor using the [>] key before
entry.

Example of Entry Key Operation

l/m

F2 F1

■

SHIFT

LW

6

>

■

SHIFT

( m )( / )( l )(Small letter)

XW

1

6-3

IM 1E10C1-E

(2) Function Keys

6. OPERATION VIA BRAIN TERMINAL

The functions of the function keys vary with the commands being displayed on the
display panel.

MENU
A: DISPLAY
B: SET
C: ADJUST
D: DISP SEL
E: TOTAL SET
F: PULSE SET

HOME SET ADJ ESC

F2F1 F3 F4

Function keys

*The command is available only for BT200-P00.

6.4 Displaying Flow Rate Data

Flow rate data can be displayed on the BT200 panel according to the following proce­dure.

Command

ADJ

CAPS/caps

CLR

CODE

COPY*

DAT A

DEL

DIAG

ESC
FEED*
HOME

LIST*

NO
OK

PARM

PON/POFF*

PRNT*

SET

SLOT

GO*
STOP*

UTIL

Calls up the zero-adjustment menu.

Description

Changes the capital/small letter mode.
Clears entered data/deletes all data.
See the above “Entry of code.”
Prints parameters on the panel.
Updates parameter data.
Deletes one character.
Calls up the self-check panel.
Returns to the previous panel.
Paper feed.
Calls up the home menu (A:DISPLAY).
Prints all parameters of the menus.
Setting stop/re-setting. Returns to the previous panel.
Goes to the next panel.
Parameter number setting mode.
Printer output of data whose setting was changed Mode on/off.
Changes to the print mode.
Calls up the setting menu. (B:SETTING)
Returns to the slot selection panel.
Starts print out.
Stops printing.
Calls up the utility panel.

Display Description

ON/OFF

--WELCOME-­BRAIN TERMINAL
ID:BT200

Check cable connection
and press the ENT key.

UTIL FEED

ENTER

PARAMETER
01:MODEL
SE14-A00
02:TAG NO.

03:SELF CHECK
GOOD

or

F4

Inverse video bar

MENU
A:DISPLAY
B:SET
C:ADJUST
D:DISP SEL
E:TOTAL SET
F:PULSE SET

HOME SET ADJ ESC

ENTER

PARAM
A10:FLOW RATE(%)

0.6 %
A20:FLOW RATE

0.06 m3/h
A30:TOTAL
0

DATA PRNTDIAG ESC

Turn the power on and the panel as shown on the left appears after
“Please wait...” is displayed for a few seconds.

Pressing the ENTER key causes the initial data panel as shown on
the left to be displayed.

The tag number specified upon ordering has been entered.

OK

Pressing the F4 key [OK] or the ENTER key causes the menu panel

ENTER

as shown on the left to be displayed.
Select “A:DISPLAY” on the menu screen with the inverse video bar

and press the ENTER key to make the flow data panel appear.

● A maximum of three data items can be displayed on one panel.

● Data are updated at an interval of 5 seconds.

● The arrow keys, [∧], [∨], [<] or [>], are used for page feeding or

item selection.

6-4

IM 1E10C1-E

6.5 Setting Parameters

The three parameters must be set to obtain a correct signal.

NOTE

6.5.1 Setting Nominal Size

Nominal size, flow span and meter factor must be set.

Example: Nominal Size 2.00 inch

Display Description

6. OPERATION VIA BRAIN TERMINAL

ON/OFF

--WELCOME-­BRAIN TERMINAL
ID:BT200

CHECK CABLE CONNECTION
AND PRESS THE ENT KEY.

UTIL FEED

ENTER

PARAM
01:MODEL
SE14-A00
02:TAG NO.

03:SELF CHECK
GOOD

or

ENTER

MENU
A:DISPLAY
B:SET
C:ADJUST
D:DISP SEL
E:TOTAL SET
F:PULSE SET

HOME SET ADJ ESC

ENTER

PARAM
B01:TAG NO

B02:DAMPING

3.0 s
B03:FLOW SPAN

1.00 m/s
DATA DIAG ESC

Turn the power on and the panel as shown on the left appears after
“Please wait...” is displayed for a few seconds.

Pressing the ENTER key causes the initial data panel to be displayed.

OK

Pressing the F4 key or ENTER key causes the menu panel to be

F4

displayed.

Use the arrow key to select “B:SET” with the arrow key and press
the ENTER key.

Then, the parameter panel is displayed.

PARAM
B04:FLOW UNIT
m
B05:TIME UNIT
/S
B06:SIZE UNIT
mm

DIAG

DATA

SET
B06:SIZE UNIT
mm
< mm >
< inch >

ENTER

Select “B06:SIZE UNIT” by feeding the page with the arrow key
and press ENTER key to call up the following data setup panel.

ESC

Press ENTER key on the parameter panel to display the data setup
panel as shown on the left.
(If the security panel appears, enter the security code.*)

ESC

Select “inch” using the arrow keys. Default:mm

* For entry of the security code, see IM1C0A11-01E.

6-5

IM 1E10C1-E

Display Description

SET
B06:SIZE UNIT
mm
< mm >
< inch >

ENTER

SET
B03:SIZE UNIT
inch

ESC

Press ENTER key twice at an interval of a few seconds.

×2

The display as shown on the left appears.

6. OPERATION VIA BRAIN TERMINAL

NO OK

PARAM
B04: FLOW UNIT
m
B05: TIME UNIT
/S
B06: SIZE UNIT
inch

DATA DIAG ESC

PARAM
B05: TIME UNIT
/S
B06: SIZE UNIT
inch
B07: NOMINAL SIZE

10.00 inch

DIAGDATA ESC

ENTER

SET
B07:NOMINAL SIZE

10.00 inch

002.00

ESC

“2.00”

ENTER

SET
B07:NOMINAL SIZE

2.00 inch

If the data is correct, press F4 key [OK].

F4

The parameter panel is displayed again.

Select “B07:NOMINAL SIZE” by feeding the page with the arrow
key.

Press ENTER key to display the data setup panel.

Enter “2.00” using the alphanumeric keys and press ENTER key
twice at an interval of a few seconds.

×2

Default:10.00(for inch) 100.00(for mm)
(If the security panel appears, enter the security code.*)

NO OK

If the data is correct, press the F4 key [OK].

F4

PARAM
B05: TIME UNIT
/S
B06: SIZE UNIT
inch
B07: NOMINAL SIZE

2.00 inch
DIAGDATA ESC

The parameter panel appears again.
The setting is completed.

* For entry of the security code, see IM1C0A11-01E.

6-6

IM 1E10C1-E

6.5.2 Setting Flow Span

Example: Flow span 30.0 m3/h

6. OPERATION VIA BRAIN TERMINAL

Display Description

ON/OFF

--WELCOME-­BRAIN TERMINAL
ID:BT200

CHECK CABLE CONNECTION
AND PRESS THE ENT KEY.

UTIL FEED

ENTER

PARAM
01:MODEL
SE14-A00
02:TAG NO.

03:SELF CHECK
GOOD

or

ENTER

MENU
A:DISPLAY
B:SET
C:ADJUST
D:DISP SEL
E:TOTAL SET
F:PULSE SET

HOME SET ADJ ESC

ENTER

PARAM
B01:TAG NO

B02:DAMPING

3.0 s
B03:FLOW SPAN

1.00 m/s
DATA DIAG ESC

ENTER

SET
B03:FLOW SPAN

1.0000 m/s

0

Turn the power on and the panel as shown on the left appears after
“Please wait...” is displayed for a few seconds.

Pressing the ENTER key causes the initial data panel to be displayed.

OK

Pressing the F4 key or ENTER key causes the menu panel to be

F4

displayed.

Use the arrow key to select “B:SET” with the arrow key and press
the ENTER key.

Then, the parameter panel is displayed.

Select “B03:FLOW SPAN” using the arrow key and press ENTER
key to call up the following data setup panel.

Press ENTER key on the parameter panel to display the data setup
panel as shown on the left.
(If the security panel appears, enter the security code.*)

DEL CLR ESC

Enter “30.0” using the alphanumeric keys. Default:1.0000(m/s)

“30.0”

(This “B03: FLOW SPAN” is for entering the value, not units.)

* For entry of the security code, see IM1C0A11-01E.

6-7

IM 1E10C1-E

Display Description

SET
B03:FLOW SPAN

1.00 m/s

30.0

DEL CLR ESC

ENTER

SET
B03:FLOW SPAN

30.0 m/s

6. OPERATION VIA BRAIN TERMINAL

Press ENTER key twice at an interval of a few seconds.

×2

The display as shown on the left appears.

NO OK

PARAM
B01: TAG NO

B02: DAMPING

3.0 S

B03: FLOW SPAN

30.0 m/s

DATA DIAG ESC

PARAM
B02: DAMPING

3.0 S

B03: FLOW SPAN

30.0 m/s

B04: FLOW UNIT
m

DIAGDATA ESC

ENTER

SET
B04:FLOW UNIT
m
< km3 >
< m3 >
< l >
< cm3 >

ESC

ENTER

SET
B04:FLOW UNIT
m3

If the data is correct, press F4 key [OK].

F4

The parameter panel is displayed again.

Select “B04:FLOW UNIT” by feeding the page with the arrow key.

Press ENTER key to display the data setup panel.

3

3

3

: 10

Xm

*km

3

cm : (10-2Xm)

Select “m
interval of a few seconds. Default:m

×2

(If the security panel appears, enter the security code.*)

3

3

” with the arrow key and press ENTER key twice at an

NO OK

If the data is correct, press the F4 key [OK].

F4

* For entry of the security code, see IM1C0A11-01E.

6-8

IM 1E10C1-E

6. OPERATION VIA BRAIN TERMINAL

Display Description

PARAM
B02: DAMPING

3.0 S

B03: FLOW SPAN

30.0 m3/s

B04: FLOW UNIT
m3

DATA DIAG ESC

PARAM
B03: FLOW SPAN

30.0 m3/s

B04: FLOW UNIT
m3
B05: TIME UNIT
/s

DIAGDATA

SET
B05:TIME UNIT
/s
< /s >
< /d >
< /h >
< /m >

SET
B05:TIME UNIT
/h

ESC

ENTER

ESC

ENTER

The parameter panel appears again.

Select “B05:TIME UNIT” by feeding the page with the arrow key.

Press the ENTER key to call up the data setup panel.

Select “/h” with the arrow key and press ENTER key twice at an
interval of a few seconds. Default:s

×2

NO OK

PARAM
B03:FLOW SPAN

30.0 m3/h

B04:FLOW UNIT
m3
B05:TIME UNIT
/h

HOME SET ADJ ESC

If the data is correct, press the F4 key [OK].

F4

The parameter panel appears again.
The setting is completed.

6-9

IM 1E10C1-E

6.5.3 Setting Meter Factor

The meter factor is engraved on the data plate of the combined flow tube.

Example: set “1.1200” as meter factor.

6. OPERATION VIA BRAIN TERMINAL

Display Description

ON/OFF

--WELCOME--

BRAIN TERMINAL
ID:BT200

CHECK CABLE CONNECTION
AND PRESS THE ENT KEY.

UTIL FEED

ENTER

PARAM
01:MODEL
SE14-A00
02:TAG NO.

03:SELF CHECK
GOOD

or

ENTER

MENU
A:DISPLAY
B:SET
C:ADJUST
D:DISP SEL
E:TOTAL SET
F:PULSE SET

HOME SET ADJ ESC

ENTER

PARAM
B01:TAG NO

B02:DAMPING

3.0 s

B03:FLOW SPAN

1.00 m/s

DATA DIAG ESC

Turn the power on and the panel as shown on the left appears after
“Please wait...” is displayed for a few seconds.

Pressing the ENTER key causes the initial data panel to be displayed.

OK

Pressing the F4 key or ENTER key causes the menu panel to be

F4

displayed.

Use the arrow key to select “B:SET” with the arrow key and press
the ENTER key.

Then, the parameter panel is displayed.

PARAM
B06:SIZE UNIT
inch
B07:NOMINAL SIZE

2.00 inch

B08:MF

1.0000

DATA

DIAG

ESC

Select “B08:MF” by feeding the page with the arrow key and press
ENTER key to call up the following data setup panel.

Press ENTER key on the parameter panel to display the data setup
panel as shown on the left.
(If the security panel appears, enter the security code.*)

ESC

Select “1.1200” using the alphanumeric keys. Default:1.0000

SET
B08:MF

1.0000

0

ENTER

CLRDEL

“1.1200”

* For entry of the security code, see IM1C0A11-01E.

6-10

IM 1E10C1-E

Display Description

SET
B08: MF

1.0000

1.1200

6. OPERATION VIA BRAIN TERMINAL

DEL

SET
B08: MF

1.1200

PARAM
B06: SIZE UNIT
inch
B07: NOMINAL SIZE

2.00 inch

B08: MF

1.1200

DATA DIAG ESC

CLR

ENTER

NO OK

ESC

Press ENTER key twice at an interval of a few seconds.

×2

The display as shown on the left appears.

If the data is correct, press F4 key [OK].

F4

The parameter panel is displayed again.
The setting is completed.

6.5.4 Power Frequency (For DC version only)

IMPORTANT

In case of DC power supply version, setting power frequency is required.

Display Description

PARAM
B10: OUTPUT FUNC
PULSE OUT
B11: 4-20 ALM OUT

21.6mA OR MORE

B12: POWER FREQ

50.00Hz

DATA DIAG ESC

Set the value in areas where the frequency differs in “B12:POWER
FREQ”.

Default: 50.00Hz

6.6 Other Functions

Please set other needed parameters. For detail on the functions, see Chapter 5, “Func­tions and Settings” except “User-Defined Units” function. For “User-Defined Units”
function, see 6.6.1 below.

6.6.1 User-Defined Units

This function displays the instantaneous flow rate indicated in “A20 FLOW RATE” in
user-defined units.

(1) User-Defined Unit for Instantaneous Flow Rate

Example 1:Displaying the flow rate of a fluid (its specific gravity is 2) in weight (kg)

in a flow rate span of 10 m3/h. When the flow rate is 100%, 20,000 kg/h is
displayed.

6-11

IM 1E10C1-E

6. OPERATION VIA BRAIN TERMINAL

Display Description

PARAM
D02:FL USER SEL
PROVIDED
D03:FL USER SPAN

20000.0

D10:FL USER UNIT
kg/h

DATA DIAG ESC

PARAM
A10:FLOW RATE(%)

100.0 %

A20:FLOW RATE

20000.0 kg/h

A30:TOTAL

0

DIAGDATA

PRNT

(2) User-Defined Unit for Totalization Value

User-defined unit can be added to the totalization display in “A30 TOTAL”

Display Description

PARAM
E04:TOTAL SET
INHIBIT
E05:TL SET VALUE
0
E10:TL USER UNIT
kg

DATA DIAG ESC

Select “PROVIDED” in “D02:FL USER SEL.”
Default:NOT PROVIDED

In “D03:FL USER SPAN” set the value of 100% flow rate to be
displayed in “A20:FLOW RATE” The user-defined unit is set in
“D10:FL USER UNIT” Default:100.0

Set the user-defined unit in “D10:FL USER UNIT”

The instantaneous flow rate in user-defined unit can be displayed in
“A20:FLOW RATE”

ESC

Set the user-defined unit in “E10:TL USER UNIT”

PARAM
A10:FLOW RATE(%)

100.0 %

A20:FLOW RATE

20000.0 kg/h

A30:TOTAL

40000kg

DIAGDATA

The totalization value in user-defined unit can be displayed in
“A30:TOTAL”

ESC

6.7 Other Important Points

(1) The automatic power-off function turns the BT200 off automatically with no key

access for about 5 minutes or more. However, this function does not operate when
the BT200 is displaying “A10:FLOW RATE (%)” or “A20:FLOW RATE”

(2) When “A10:FLOW RATE (%)” or “A20:FLOW RATE” is displayed, the data are

updated every 5 seconds.

(3) UPLOAD/DOWNLOAD functions which can copy the setting date between

ADMAG SE and BT200 are provided. (For details, see the “BT200 Instruction
Manual IM 1C0A11-01E.”)
Parameters that can be copied are as follows:

B02 DAMPING, B03 FLOW SPAN, B04 FLOW UNIT, B05 TIME UNIT,
B06 SIZE UNIT, B07 NOMINAL SIZE, B10 OUTPUT FUNC, B11 4-20 ALM OUT,
D01 DISP SELECT, D02 FL USER SEL, D03 FL USER SPAN,
D10 FL USER UNIT, E01 TOTAL UNIT, E02 TOTAL SCALE,
E03 TOTAL LOWCUT, E04 TOTAL SET, E05 TL SET VALUE,
E10 TL USER UNIT, F01 PULSE UNIT, F02 PULSE SCALE,
F03 PULSE LOWCUT, F04 PULSE WIDTH, G01 4-20 LOW CUT,
G02 4-20 LOW LMT, G03 4-20 H LMT

6-12

IM 1E10C1-E

7. OPERATION VIA HART COMMUNICATOR

7. OPERATION VIA HART COMMUNI­CATOR

Matching of communicator DD and instrument DD

CAUTION

Before using model 275 HART communicator, check that the DD(Device Description)
installed in the communicator matches to that of instruments to set up. To check the DD
in the instrument or the HART communicator, follow the steps below. If the correct DD
is not installed in the communicator, you must upgrade the DD at the HART official
programming sites. For communication tools other than Model 275 HART communica­tor, contact vendors of each for upgrade information.

[Example]

1. Checking the DD in the instrument

1) Connect the communicator to the instrument to set up.

ADMAG SE
Review
Fld dev rev
2

2) Call “Device setup” and press [→].

3) Call “Review” and press [→].

4) By pressing [NEXT] or [PREV], find “Fld dev rev” to
show the DD of the instrument.

2. Checking the DD in Model 275 HART communicator.

1) Turn on the communicator alone.

HELP PREV NEXT EXIT

“The instrument DD is Version 2”

[Example]

HART Communicator
Fld dev rev
1 Dev v1 , DD v2
2 Dev v2 , DD v1

2) Call “Utility” from main menu and press [→].

3) Call “Simulation” and press [→].

4) Select “YOKOGAWA” from manufacturers list by
pressing [↓] and press [→] .

“The communicator DD
supports Version 1 and 2.”

5) Select the model name of the instrument (i.e. ADMAG
SE) by pressing [↓] and press [→] to show the DD of the communicator.

Version
1 and 2

7.1 Conditions of Communication Line

7.1.1 Interconnection between ADMAG SE and HART Communicator

The HART Communicator can interface with the ADMAG SE from the control room,
the ADMAG SE site, or any other wiring termination point in the loop, provided there is
a minimum load resistance of 230Ω between the connection and the receiving instru­ment. To communicate, it must be connected in parallel with the ADMAG SE, the
connections are non-polarized. Figure 7.1.1 illustrates the wiring connections for direct
interface at the ADMAG SE site. The HART Communicator can be used for remote
access from any terminal strip as well.

Control room

ADMAG SE

4 to 20 mA DC signal line

CUR+

+

–

CUR-

Communicator

Model 275

HART

Relaying

terminals

HART

Communicator

Model 275

Figure 7.1.1 Interconnection Diagram

Terminal board

Receiving instrument
load resistance:

HART

Communicator

Model 275

230Ω to 600Ω

7-1

IM 1E10C1-E

7.1.2 Communication Line Requirements

Specifications for Communication Line:

Load resistance: 230 to 600Ω (including cable resistance)

When multidrop mode, see Figure 7.1.2.
Minimum cable size: 24 AWG, (0.51 mm diameter)
Cable type: Single pair shielded or multiple pair with overall shield
Maximum twisted-pair length: 6,500 ft (2,000 m)
Maximum multiple twisted-pair length: 3,200 ft (1,000 m)
Use the following formula to determine cable length for a specific application;

7. OPERATION VIA HART COMMUNICATOR

(R×C)

6

(Cf+10,000)

C

65×10

L = –

where: L = length in feet or meters

R = resistance in ohms, current sense resistance
C = cable capacitance in pF/ft or pF/m
Cf = 50,000 pF

Load

Resistance

(Ω)

800

600

400

200

0

12 345678910 11 12 13 14 15

* Maximum Load Voltage: 600Ω × 25 mA = 15 V

230

571

500

444

400

363

333

Q’ty of connected field devices

307

Figure 7.1.2 Load Resistance and Quantity of Devices in Multidrop Mode

285

266

NOTE

The above graph shows the load resistance in case that each current output of all
connected transmitters is 4 mA.

7-2

IM 1E10C1-E

7. OPERATION VIA HART COMMUNICATOR

7.2 Basic Operation of the HART Communicator (Model 275)

7.2.1 Keys and Functions

Communication Cable

LCD (Liquid crystal display)

(21 characters×8 lines)

Function keys

Functions of the keys are indicated on the
display.

Power ON/OFF

Shift keys

Use to enter
alphabetic characters.

Move the inverse video bar (cursor) on the
display for selecting the desired item.

Hot key

Call up Hot Key Menu as follows:

1. Span

2. Enable Write

3. New Password

1. Change the display contents.

2. Move the position where a number or
character is to be entered.

Example

Pressing calls up the display
corresponding to the item pointed with the
cursor.

Pressing returns to the previous
display. (See 7.2.3 Calling up Menu

Alphanumeric keys

1.Enter numbers and characters.

2.Select the desired menu item with the
corresponding number. (See 7.2.4 Entering,
Setting and Sending Data)

Example

Pressing single key enters the number.
Pressing the key with shift key enters the
alphabetic character.

(Press) (ENTER)

To enter “7”,

To enter “C”,

ABC

7

ABC

7

‘7’

‘C’

Figure 7.2.1 HART Communicator

7-3

IM 1E10C1-E

7.2.2 Display

7. OPERATION VIA HART COMMUNICATOR

The HART Communicator automatically searches for ADMAG SE on the 4 to 20 mA
loop when it is turned on. When the HART Communicator is connected to the ADMAG
SE, it displays “Online” menu as shown below.
(If ADMAG SE is not found, the communicator displays the message “No Device

Found. Press OK....” Press the OK ‘F4’ function key and the main menu appears. Please

retry after confirming the connection with the ADMAG SE.)

Manufacturer’s Field Device
Type Code

<2>

<3>

<4>

<5>

Tag (8 Characters) <1>

appears when the voltage

level of the battery is low

The arrow mark corresponding
to the pressed key appears.

Inverse video bar

Function keys

Figure 7.2.2 Display

<1> appears and flashes during communication between the HART Communicator

and the ADMAG SE. At Burst mode*, appears.
<2> The current display menu title appears.
<3> Each item in menu of <2> appears.

<4> and/or appear when the items are scrolled out of the display.
<5> On any given menu, the label appearing above a function key indicates the function

of that key for the current menu.
Note: Refer to “7.3.4 Setting Parameters (7) Burst Mode”.

7.2.3 Calling Up Menu Addresses

7.3.3 Menu Tree shows the configuration of Online Menu which is needed for the
operation with HART Communicator. The desired item can be displayed with ease by
understanding the menu configuration.

When the HART Commnicator is connected to the ADMAG SE, “Online” menu will be
displayed after the power is turned on (See figure 7.2.2). Call up the desired item as
follows:

7-4

IM 1E10C1-E

Key operation

7. OPERATION VIA HART COMMUNICATOR

There are two choices to select the desired menu item.

1. Use the or key to select the desired item, and then press the key.

2. Press the number key displayed for the desired item.

Device setup
PV
PV AO
Span

Display Operation

ADMAG SE : FI-100

1

Online
1 Device setup
2 PV
3 PV AO
4 Span

DEL SET ESC ENTER

• To return to the previous display, press the

key, EXIT (F4), ESC (F3) or

ABORT (F3).

Example: Call up the “Tag” to change the tag number.

Check where “Tag” is located in the menu configuration. Then, call up “Tag” on the
display according to the menu configuration.

process variables
Diag/Service
Basic setup
Detailed setup
Review

STU

or

1

:
Line size
PV Damp
Tag

ADMAG SE : FI-100
Tag
FI-100
FI-100

Descriptor
:

Display appears when the HART Communicator is turned

1

HELP DEL ESC ENTER

on.
Select “Device setup”.

ADMAG SE : FI-100

2

Device setup
1 Process variables
2 Diag/Service
3 Basic setup
4 Detailed setup
5 Review

DEL SAVE HOME ENTER

ADMAG SE : FI-100

3

Basic setup
1 PV Unit
2 Span
3 Nominal size
4 PV Damp
5 Tag

HELP SAVE HOME ENTER

ADMAG SE : FI-100

4

Tag
FI-100
FI-100

HELP DEL ESC ENTER

or

YZ /

3

or

MNO

5

×2

Select “Basic setup”.

Select “Tag”.

×4

The display for Tag setting appears.
(The default value of “Tag” is blank.)

7-5

IM 1E10C1-E

7.2.4 Entering, Setting and Sending Data

The data which are input with the keys are set in the HART Communicator by pressing
ENTER (F4). Then, by pressing SEND (F2), the data are sent to the ADMAG SE. Note
that the data are not set in the ADMAG SE if SEND (F2) is not pressed. All the data set
with the HART Communicator is held in memory unless power is turned off, so every
data can be sent to the ADMAG SE at one lot.

Operation

Entering data on the “Tag” setting display.
On alphabetic characters, only capital letters can be used for setting Tag No. with HART
Communicator.

Example: Set “FIC-1A”.

Call up “Tag” setting display.

1. Device setup 3. Basic setup 5. Tag

ADMAG SE :

1

Tag

7. OPERATION VIA HART COMMUNICATOR

5. Tag

HELP DEL ESC ENTER

On the setting display shown above, enter the data as follows:

Character to

Operation Display

be entered

DEF

8

I

C

: +

-

1

*

–

STU

1

A

GHI

9

ABC

7

ABC

7

FF

F I

F I C

F I C -

F I C - 1

F I C - 1 A

7-6

IM 1E10C1-E

Display Operation

ADMAG SE :

1

Tag
FIC-1A

HELP DEL ESC ENTER

F4

(ENTER)

7. OPERATION VIA HART COMMUNICATOR

Press ENTER (F4) to set the data in the HART Communicator
after entering the data.

ADMAG SE :

2

Basic setup
1 PV Unit
2 Span
3 Line size
4 PV Damp
5 Tag FIC-1A

HELP SEND HOME ENTER

ADMAG SE : FIC-1A

3

Basic setup
1 PV Unit
2 Span
3 Line size
4 PV Damp
5 Tag FIC-1A

HELP SAVE HOME ENTER

NOTE

F2

Press SEND (F2) to send the data to the ADMAG SE.
* is flashing during communication.

(SEND)

SEND SAVE

label changed to label, and the transmission

is completed.
Press HOME (F3), and return “Online Menu”.

Parameter setting on the indicator of ADMAG SE is prohibited during HART Com­munication.

7-7

IM 1E10C1-E

7.3 Parameters

7.3.1 Parameters Configuration

Parameters of HART Communicator is constructed hierarchically. The menu tree for
Online menu is shown in 7.3.3 Menu Tree.

See “Chapter 11. Parameter List” about the usage of each parameter. Note the differ­ences between parameters on ADMAG SE display and those on HART Communicator.

The Online menu summary is shown below.

Table 7.1.3 Online Menu Summary

No. Display Item Contents

1

Device setup
2
3
4

7.3.2 Data Renewing

PV

PV AO

SPAN

7. OPERATION VIA HART COMMUNICATOR

Set parameters for ADMAG SE.
Display process value in engineering unit.
Display analog output in mA.
Display set span in engineering unit.

NOTE

There are two methods to load the data of ADMAG SE from/to HART Communicator,
periodic data renewing and discretionary data renewing.

(1) Periodic Data Renewing

The follwing data are renewed in 0.5 to 2 seconds cycle.

PV, PV AO, PV % rnge, Totl, Reverse total, Diff. total, Power freq, Velocity
check

(2) Discretionary Data Renewing

The following data can be loaded from/to ADMAG SE. Up load can be done with
SAVE (F2) on any online menu, and down load can be done on Saved Configuration
menu in Offline menu. (Refer to HART Communicator Manual.)

Descriptor, Message, Date, Tag, Span, Line size, Size unit, PV Damp, Base vol
unit, Base time unit, Disp select, Fl user sel, Fl user span, Total unit, Total scale,
Total low cut, Tl set value, Total set, Analog low cut, Analog low lmt, Analog hi
lmt, Analog alarm out, Output function, Pulse unit, Pulse scale, Pulse low cut,
Pulse width.

The changed data with HART Communicator is sent to ADMAG SE by pressing
SEND (F2) of HART Communicator.

7-8

IM 1E10C1-E

7.3.3 Menu Tree

7. OPERATION VIA HART COMMUNICATOR

Online Menu

1 Device setup
2 PV [r]

3 PV AO [r]
4 Span [r]

1 Process

variables

2 Diag/Service

3 Basic setup

1 PV [r]
2 Totl [w]

1 Test device

2 Loop test [sel]

3 Status out [sel]

1 PV Unit [sel]

2 Span [w]
3 Line size [w]
4 PV Damp [w]
5 Tag [w]
6 Descriptor [w]
7 Message [w]
8 Date [w]

1 Sensor

1 Status [r]

1 Test/Status

2 Auto zero [exe]
3 Zero tuning [sel]
4 Output trim

4mA, 20mA, Other, End

Normal, Closed(on), Open(off)

gal/min
L/min
Cum/h
m/s
ft/s
Spcl

1 PV [r]
2 Flow units

2 Self test [exe]

Inhibits, Enable

1 D/A trim
2 Scaled D/A trim

1 Base vol unit [sel]

Status group 1
Status group 2
Status group 3

k Cum, Cum, L,
Cucm, M gal, k gal,
gal, m gal, k bbl, bbl,
m bbl, u bbl, m, ft

4 Detailed

setup

2 Input

to be continued to next page

3 Velocity check [r]

4 Sensor config

1 PV% rnge [r]
2 Span [w]
3 PV Damp [w]

4 Signal

processing

2 Base time unit

[sel]

1 Size unit [sel]
2 Line size [w]

3 MF [w]
4 Auto zero [exe]
5 Flow dir [sel]

1 Rate limit [w]
2 Dead time [w]

3 Power synch [sel]
4 Power freq [w]

d, h, min, s

mm, in

Forward, Reverse

Yes, No

[r] : read
[w] : write
[sel] : select
[exe] : execute

7-9

IM 1E10C1-E

7. OPERATION VIA HART COMMUNICATOR

Online Menu

1 Device setup
2 PV [r]

3 PV AO [r]
4 Span [r]

4 Detailed

setup

3 Totalizer

4 Outputs

1 Totl [w]
2 Total unit [sel]
3 Total scale [w]

4 Total low cut [w]
5 TI set value [w]

6 Total set [sel]
7 Total switch [w]

8 Reverse total [w]
9 Diff. total [r]

1 Analog set

2 Analog output

n UNIT/P, u UNIT/P,
m UNIT/P, UNIT/P,
k UNIT/P, M UNIT/P,
PULSE/s

Inhibit, Enable

1 Analog low cut [w]
2 Analog low lmt [w]
3 Analog hi lmt [w]

1 PV AO [r]
2 PV AO Alrm typ [r]

3 Loop test [sel]
4 Output trim

5 Analog alarm out

[sel]

4mA, 20mA, Other, End
1 D/A trim

2 Scaled D/A trim

2.4mA or less

4.0mA
Hold

21.6mA or more

to be continued to next page

3 HART output

4 Function set

5 Pulse output

1 Poll addr [w]
2Num req preams [r]

3 Burst mode [sel]

4 Burst option [sel]

1 Output function [sel]
2Reverse span [w]

3Bi direction hys [w]
4 Forward span2 [w]
5Auto range hys [w]
6 Low alarm [w]
7 Low alarm hys [w]

1 Pulse unit [sel]
2 Pulse scale [w]

3 Pulse low cut [w]
4 Pulse width [sel]

Off
On

PV
% range/current
Process vars/crnt

Pulse out
Alarm out
Bi direction
Auto 2 ranges
Low alarm
Total switch

n UNIT/P, u UNIT/P,
m UNIT/P, UNIT/P,
k UNIT/P, M UNIT/P,
PULSE/s

50% Duty,

0.5 ms, 1 ms,
20 ms, 33 ms,
50 ms, 100 ms

[r] : read
[w] : write
[sel] : select
[exe] : execute

7-10

IM 1E10C1-E

Online Menu

1 Device setup
2 PV [r]

3 PV AO [r]
4 Span [r]

4 Detailed

setup

4 Outputs

6 Disp output

7. OPERATION VIA HART COMMUNICATOR

PV % rnge
PV

1 Disp select [sel]

Totl
Rev.totl
Diff.totl
PV % rnge/Totl
PV/Totl
PV % rnge/PV
PV % rnge/Rev.totl
PV/Rev.totl
PV %rnge/Diff.totl
PV/Diff.totl

5 Reivew

5 Device info

1 Review 1
2 Review 2
3 Review 3

7 Appl set

1 Manufacturer [r]
2 Tag [w]
3 Descriptor [w]
4 Message [w]
5 Date [w]
6 Dev id [r]
7Write protect [r]

8 Revision #’s

2 FI user sel [sel]

3 FI user span [w]

1 Total/pulse [sel]
2 Output mode [sel]

3 Empty pipe [sel]

1 Universal rev [r]
2 Fld dev rev [r]
3 Software rev [r]

Not provided
Provided

No damp, Damp

On active
Off active

Alarm, No alarm

Hot key Span [w]

Wrt protect menu

Write protect [r]
Enable wrt 10min [w]
New password [w]
Software seal [r]

7-11

[r] : read
[w] : write
[sel] : select
[exe] : execute

IM 1E10C1-E

7. OPERATION VIA HART COMMUNICATOR

7.3.4 Setting Parameters

The three parameters must be set to obtain a correct signal.

NOTE

(1) Nominal Size

Call up “Size unit” setting display.

1. Device setup 4. Detailed setup 1. Sensor 4. Sensor config 1. Size unit

ADMAG SE :

1

Size unit
mm
mm
in

Nominal size, flow span and meter factor must be set.

The nominal size is engraved on the data plate of the combined flow tube.

Example: Set “2 inch”.

1. Size unit

2. Line size

Select “in” (inch).

DEL DEL ESC ENTER

ADMAG SE :

2

Size unit
mm
mm
in

DEL DEL ESC ENTER

ADMAG SE :

3

Sensor config
1 Size unit in
2 Line size
3 MF
4 Auto zero
5 Flow dir

HELP SEND HOME ENTER

Call up “Line size” setting display.

4. Sensor config 3. Line size

ADMAG SE :

1

Line size

10.00 in

10.00

DEL DEL ESC ENTER

F4

(ENTER)

F2

(SEND)

‘2’

Press ENTER (F4).

Press SEND (F2) to set data to the ADMAG SE.

Enter “2” with alphanumeric keys.

ADMAG SE :

2

Line Size

10.00
2

DEL DEL ESC ENTER

ADMAG SE :

3

Sensor config
1 Size unit in
2 Line size
3 MF
4 Auto zero
5 Flow dir

HELP SEND HOME ENTER

F4

(ENTER)

F2

(SEND)

Press ENTER (F4).

Press SEND (F2) to set data to the ADMAG SE.
By pressing HOME (F3), the display returns to “Online
Menu.”

7-12

IM 1E10C1-E

7. OPERATION VIA HART COMMUNICATOR

(2) Span

Example: Set “20.0 Cum /h”.

1. Base vol unit

2. Base time unit

1. Span

Call up “Base vol unit” setting display.

1. Device setup 4. Detailed setup 1. Sensor 2. Flow units 1. Base vol unit

ADMAG SE :

1

Flow unit
m
m bbl
u bbl
m
ft

DEL DEL ESC ENTER

ADMAG SE :

2

Flow unit
m
Cum
L
Cucm
M gal

DEL DEL ESC ENTER

F4

(ENTER)

Select “Cum” (m3).

×11

Press ENTER (F4).

ADMAG SE :

3

Flow units
1 Base vol unit Cum
2 Base time unit s

(SEND)

HELP SEND HOME ENTER

Call up “Base time unit” setting display.

2. Flow units 2. Base time unit

ADMAG SE :

1

Base time unit
s
d
h
min
s

DEL DEL ESC ENTER

ADMAG SE :

2

Base time unit
s
d
h
min
s

DEL DEL ESC ENTER

ADMAG SE :

3

Flow units
1 Base vol unit Cum
2 Base time unit h

(ENTER)

(SEND)

F2

F4

F2

Press SEND (F2) to set data to the ADMAG SE.

Select “h”.

×2

Press ENTER (F4).

Press SEND (F2) to set data to the ADMAG SE.

HELP SEND HOME ENTER

7-13

IM 1E10C1-E

Call up “Span” setting display.

Hot key 1. Span

ADMAG SE :

1

Flow units
1 Flow unit Cum
2 Time unit h

DEL SAVE HOME ENTER

ADMAG SE :

2

Hot key
1 Span 1 Cum/h
2 Enable write
3 New password

DEL SAVE ESC ENTER

ADMAG SE :

3

Span
1 Cum/h
1

HELP DEL ESC ENTER

7. OPERATION VIA HART COMMUNICATOR

Press Hot key.

Select “Span”.

Enter “20.0” with alphanumeric keys.

‘20.0’

ADMAG SE :

4

Span
1 Cum/h

20.0

DEL DEL ESC ENTER

ADMAG SE :

5

Hot key
1 Span 20.0Cum/h
2 Enable write
3 New password

DEL SEND ESC ENTER

NOTE

F4

(ENTER)

F2

Press ENTER (F4).

Press SEND (F2) to set data to the ADMAG SE.
Return to the presious display by pressing or .

(SEND)

When the span is set in engineering units using the ADMAG SE front panel key
switches, consideration should be given to the least significant digit which is to be
displayed for all ranges on the rate indicator of the ADMAG SE (parameter A20
FLOW RATE). For example, if the flow rate value is to be displayed to three decimal
places, set the span as “20.000” as opposed to “20.”

7-14

IM 1E10C1-E

(3) Flow Units

(4) Meter Factor

7. OPERATION VIA HART COMMUNICATOR

For actual flow unit setting, the following parameters are provided.
<1> “PV Unit”

This parameter can be set only with HART Communicator. The selectable units are
shown below.

gal/min, Cum/h, L/min, m/s, ft/s

<2> Combination of “Base vol unit” and “Base time unit”

These parameters can be set with both ADMAG SE and HART Communicator. The
selectable units are shown below.

“Base vol unit”: k Cum, Cum, L, Cucm, M gal, k gal, gal, m gal, k bbl, bbl,

m bbl, u bbl, m*, ft*
* “m” and “ft” can be combined only with /s.

“Base time unit”: /d, /h, /min, /s
If the unit undefined in “PV Unit” is set in these parameters, the display of “PV
Unit” indicates “Spcl.”

The meter factor is engraved on the data plate of the combined flow tube.

Example: Set “1.2345” as meter factor.

3. MF

Call up “MF” setting display.

1. Device setup 4. Detailed setup 1. Sensor 4. Sensor config 3. MF

ADMAG SE :

1

MF

1.0000

1.0000

DEL DEL ESC ENTER

ADMAG SE :

2

MF

1.0000

1.2345

DEL DEL ESC ENTER

ADMAG SE :

3

Sensor config
1 Size unit in
2 Line size
3 MF 1.2345
4 Auto zero
5 Flow dir

HELP SEND HOME ENTER

‘1.2345’

F4

(ENTER)

F2

(SEND)

Enter “1.2345” with alphanumeric keys.

Press ENTER (F4).

Press SEND (F2) to set data to the ADMAG SE.

7-15

IM 1E10C1-E

7. OPERATION VIA HART COMMUNICATOR

(5) Power Frequency (For DC version only)

In case of DC power supply version, setting power frequency is required in area where

IMPORTANT

the frequency differs. The meter is set to 50.00Hz at the factory.

Example: Set “60.00”.

4. Power freq

Call up “Power freq” setting display.

1. Device setup 4. Detailed setup 2. Input 4. Signal procesing 4. Power freq

ADMAG SE :

1

Power freq

50.00

50.00

DEL DEL ESC ENTER

‘60.00’

Enter “60.00” with alphanumeric keys.

ADMAG SE :

2

Power freq

50.00

60.00

DEL DEL ESC ENTER

ADMAG SE :

3

Signal processing
1 Rate limit
2 Dead time
3 Power synch
4 Power freq 60.00

HELP SEND HOME ENTER

F4

(ENTER)

F2

(SEND)

Press ENTER (F4).

Press SEND (F2) to set data to the ADMAG SE.

7-16

IM 1E10C1-E

(6) Trim Analog Output

Fine output adjustment is carried out with “D/A trim” or “Scaled D/A trim”.

• D/A Trim
“D/A trim” is to be carried out if the calibration digital ammeter does not read 4.000
mA and 20.000 mA exactly with the output signal of 0% and 100%.

• Scaled D/A Trim
“Scaled D/A trim” is to be carried out if the output is adjusted using a voltmeter or
other types of meters with 0% to 100% scale.

Example 1: For the adjustment using an ammeter (±1uA is measurable.)

Call up “Output trim” display.

1. Device setup 2. Diag/Service 1. Test device 4. Output trim

ADMAG SE :

1

Output trim
1 D/A trim
2 Scaled D/A trim

HELP SAVE HOME ENTER

Select “D/A trim”.

7. OPERATION VIA HART COMMUNICATOR

ADMAG SE :

2

WARN-Loop should be
removed from
automatic control

DEL DEL ABORT OK

ADMAG SE :

3

Connect reference
meter

HELP SEND ABORT OK

ADMAG SE :

4

Setting fld dev
output to 4mA

DEL DEL ABORT OK

ADMAG SE :

5

Enter meter value

4.0000

HELP DEL ABORT ENTER

F4

(OK)

F4

(OK)

F4

(OK)

‘4.115’

F4

(ENTER)

Press OK (F4).

Connect the ammeter (±1µA is measurable.), and press OK
(F4).

Press OK (F4), and the ADMAG SE outputs the output signal
of 0%.

Ammeter reading: 4.115

Enter the read value “4.115” of the ammeter, and press
ENTER (F4).
(The output of the ADMAG SE changes.)

7-17

IM 1E10C1-E

ADMAG SE :

6

Fld dev output 4.000
mA equal to reference
meter?
1 Yes
2 No

HELP SAVE ABORT OK

F4

(ENTER)

7. OPERATION VIA HART COMMUNICATOR

Ammeter reading: 4.000

Because the reading on the ammeter is 4.000 mA, select “Yes”
and press ENTER (F4).
If the reading is not 4.000 mA, select “No”.
Repeat step until the ammeter reads 4.000 mA.

5

ADMAG SE :

7

Setting fld dev
output of 20mA

DEL DEL ABORT OK

ADMAG SE :

8

Enter meter value

20.000

HELP DEL ABORT ENTER

ADMAG SE :

9

Fld dev output 20.000
mA equal to reference
meter?
1 Yes
2 No

DEL DEL ABORT ENTER

ADMAG SE :

10

NOTE-Loop may be
returned to automatic
control

HELP DEL ABORT OK

F4

(OK)

‘19.050’

F4

(ENTER)

F4

(ENTER)

F4

(OK)

Press OK (F4), and the ADMAG SE outputs the output signal
of 100%.

Ammeter reading: 19.050

Carry out the same procedures as those described under .

5

Ammeter reading: 20.000

“Returning fld dev to original output” appears.

Press OK (F4).

ADMAG SE :

1

Trim analog output
1 D/A trim
2 Scaled D/A trim

HELP SAVE HOME ENTER

ADMAG SE :

2

WARN-Loop should be
removed from
automatic control

DEL DEL ABORT OK

Example 2: For the adjustment using a voltmeter

VWX

2

F4

(OK)

Select the “Scaled D/A trim”.

Press OK (F4).

7-18

IM 1E10C1-E

ADMAG SE :

3

Trim will be scaled
from 4.000 to 20.000
1 Proceed
2 Change

HELP SAVE ABORT ENTER

VWX

2

7. OPERATION VIA HART COMMUNICATOR

Select “Change”, and press ENTER (F4).
The same operations as for “D/A trim” are required when
selecting “Proceed”.

ADMAG SE :

4

Set scale- Lo output
value

4.000000

4.000000

HELP DEL ABORT ENTER

ADMAG SE :

5

Set scale- Hi output
value

20.000000

20.000000

HELP DEL ABORT ENTER

ADMAG SE :

6

Trim will be scaled
from 1.000 to 5.000
1 Proceed
2 Change

DEL DEL ABORT ENTER

ADMAG SE :

7

Connect reference
meter

HELP DEL ABORT OK

‘1’

F4

(ENTER)

‘5’

F4

(ENTER)

F4

(ENTER)

F4

(OK)

Enter the read value on the meter when the signal is 4 mA. In
this case, enter the value of the voltage across a 250Ω resistor
(1 V), and press ENTER (F4).

Enter the read value on the meter when the signal is 20 mA.
Then, enter “5” (5 V), and press ENTER (F4).

Select “Proceed” and press ENTER (F4).

Connect the voltmeter, and press OK (F4).

ADMAG SE :

8

Setting fld dev
output to 4mA

HELP SAVE ABORT OK

ADMAG SE :

9

Enter meter value

1.000000

1.000000

DEL DEL ABORT ENTER

ADMAG SE :

10

Scaled output: 1.000
equal readout
device?
1 Yes
2 No

DEL DEL ABORT ENTER

F4

(OK)

‘1.01’

F4

(ENTER)

F4

(ENTER)

Press OK (F4). The output signal of 0% is output.

Voltmeter reading: 1.010

Enter the reading of the voltmeter (1.010), and press ENTER
(F4).
(The output of the ADMAG SE changes.)

Voltmeter reading: 1.000

Because the reading on the voltmeter is 1.000, select “Yes” and
press ENTER (F4).
If the reading is not 1.000, select “No”.
Repeat step until the voltmeter reads 1.000 V.

9

7-19

IM 1E10C1-E

ADMAG SE :

11

Settting fld dev
output to 20mA

HELP SAVE ABORT OK

F4

(OK)

7. OPERATION VIA HART COMMUNICATOR

Press OK (F4). The output signal of 100% is output.

ADMAG SE :

12

Enter meter value

5.000000

5.000000

HELP DEL ABORT ENTER

ADMAG SE :

13

Scaled output: 5.210
equal readout
device?
1 Yes
2 No

HELP DEL ABORT ENTER

ADMAG SE :

14

NOTE-Loop may be
returned to automatic
control

DEL DEL ABORT OK

IMPORTANT

‘5.21’

F4

Voltmeter reading: 5.210

Enter the reading of the voltmeter (5.210), and press ENTER

(ENTER)

F4

(ENTER)

(F4).

Voltmeter reading: 5.000

Select “Yes” and press ENTER (F4).
“Returning fld dev to original output” appears.

F4

(OK)

Press OK (F4).

D/A trim should be executed only at single range mode. If D/A trim is executed at Bi
direction mode, it is feared that the current output becomes 108%.

7-20

IM 1E10C1-E

7. OPERATION VIA HART COMMUNICATOR

(7) Burst Mode

The ADMAG SE continuously sends the data stored in it when the burst mode is set
“On”. Either one of instantaneous flow rate, output in %, totalization values and current
output can be selected and sent. The data is sent intermittently as a digital signal when
the ADMAG SE is set in the burst mode.

Setting of Burst Mode

Call up “Burst option” display.

1. Device setup 4. Detailed setup 4. Outputs 3. HART output 4. Burst option

ADMAG SE :
Burst option
********
PV
% range/current
Process vars/crnt

HELP DEL ESC ENTER

Call up “Burst mode” display.

3. HART output 3. Burst mode

ADMAG SE :

1

Burst mode
Off
Off
On

DEL DEL ESC ENTER

ADMAG SE :

2

HART output
1 Poll addr 0
2 Num req preams 5
3 Burst mode On
4 Burst option PV

HELP SEND HOME ENTER

Releasing from Burst Mode

Call up “Burst mode” display, and set “Off”.

F4

(ENTER)

F2

(SEND)

F4

(ENTER)

F2

(SEND)

Set the data to be sent.

• Instantaneous flow rate (PV)

• Output in % and current output (% range/current)

• Instantaneous flow rate, totalization value* and current
output (Process vars/crnt)
* “Totl”, “Reverse total” or “Diff. total”

Set “ON” and press ENTER (F4).

Press SEND (F2).

7-21

IM 1E10C1-E

7. OPERATION VIA HART COMMUNICATOR

(8) Multidrop Mode

Field devices in multidrop mode refer to the connection of several field devices on a
communication single line. Up to 15 field devices can be connected when set in the
multidrop mode. To activate multidrop communication, the field device address must be
changed to a number from 1 to 15. This change deactivates the 4 to 20 mA output and
turns it 4 mA. Refer to Fig. 7.1.2 for the load resistance.

Setting of Multidrop Mode

Call up “Poll addr” display.

1. Device setup 4. Detailed setup 4. Outputs 3. HART output 1. Poll addr

ADMAG SE :
Poll addr
0
0

HELP DEL ESC ENTER

‘1’

F4

(ENTER)

F2

(SEND)

Set the polling address (a number from 1 to 15) and press
ENTER (F4).
Then, press SEND (F2) to send the data.

Call up “Auto Poll” display.

HART output Online Menu Main Menu 4. Utility 1. Configure Communication

ADMAG SE :

1

HART output
1 Poll addr 1
2 Num req preams 5
3 Burst mode On
4 Burst option PV

HELP SAVE HOME ENTER

ADMAG SE :

2

Online
1 Device setup
2 PV 20Cum/h
3 PV AO 20mA
4 Span 20Cum/h

HELP SAVE HOME ENTER

HART Communicator

3

1 Offline
2 Online
3 Frequency Device
4 Utility

HELP SEND HOME ENTER

HART Communicator

4

Utility
1 Configure Communic
2 system Information
3 Listen for PC
4 Storage Location
5 Simulation

HELP SEND HOME ENTER

F3

(HOME)

JLK

4

1. Polling

Return to “Online Menu” with HOME (F3).

Return to “Main Menu” with a “previous” key.

Select “Utility”.

Select “Configure Communication”.

HART Communicator

5

Configure Communicat
1 Polling
2 Contrast
3 Off Time
4 Ignore diagnostics

HELP SEND HOME ENTER

Select “Polling”.

7-22

IM 1E10C1-E

HART Communicator

6

Polling
Never Poll
Never Poll
Ask Before Polling
Always Poll
Digital Poll

HELP SAVE ESC ENTER

NOTE

HART Communicator

1

Online
1 1: FIC-1A
2 2: FIC-2A
3 3: PIC-1A

DEL DEL ESC ENTER

ADMAG SE:FIC-1A:

2

Online
1 Device setup
2 PV
3 PV AO
4 Span

HELP SAVE HOME ENTER

HART Communicator

3

1 Offline
2 Online
3 Frequency Device
4 Utility

7. OPERATION VIA HART COMMUNICATOR

Select “Digital Poll” and press ENTER (F4).

×3

F4

(ENTER)

1. If “Never Poll” is set in “Polling” when the address is set, “Online Menu” cannot
be called up and displayed. Be sure to set “Digital Poll” in “Polling” after setting
the polling address.

2. When the same polling address is set for two or more field devices in multidrop
mode, communication with these field devices is disabled.

Example: Communication when set in the multidrop mode.

(1) The HART Communicator searches for the field device is set in the

multidrop mode when the HART Communicator is turned on.
When the HART Communicator is connected to the field device, the tag
will be displayed (display ).

1

(2) Select desired field device. After that, normal communication with the

selected field device is possible. However, the communication speed is slow
in this case (display ).

(3) To communicate with another field device, call up display , and select

2

3

“Online”.

(4) Display will appear. Repeat the above operation.

1

HELP SAVE HOME ENTER

Releasing from Multidrop Mode

First, call up the “Poll addr” display, and set the address to 0.
Second, call up the “Polling” display, and set “Never Poll”.

If the above releasing method is carried out in the reverse order, “Online Menu” can

NOTE

not be called up.

7-23

IM 1E10C1-E

(9) Write Protection

Write protection function is used to prevent unauthorized data being written into the
device, ADMAG SE. This function becomes active by entering a password in “New
password”. Write protection status is released for 10 minutes by entering the password
in “Enable wrt 10min”.

When the write protection function is active, data setting changes in all parameters of

NOTE

the ADMAG SE are inhibited and cannot be changed using either the HART Commu­nicator or the ADMAG SE front panel key switches.

Setting Password

Example: Set the password to “1 2 3 4”

Call up “Wrt protect menu” in Hot key menu.

Hot key 2. Wrt protect menu2. Wrt protect menu

ADMAG SE :

1

Hot key
1 Span 1 m/s
2 Wrt protect menu

VWX

2

7. OPERATION VIA HART COMMUNICATOR

3. New password
Select “Wrt protect menu”.

HELP SAVE HOME ENTER

ADMAG SE :

2

Wrt protect menu
1 Write protect No
2 Enable wrt 10min
3 New password
4 Software seal Keep

HELP SAVE

ADMAG SE :

3

Enter new password to
change state of write
protect

HELP DEL ABORT ENTER

ADMAG SE :

4

Re-enter new password
within 30 seconds:
1234
1234

HELP DEL ABORT ENTER

ADMAG SE :

5

Change to New password

ABORT ENTER

YZ /

3

Select “New password”.

Set “1 2 3 4” and press ENTER (F4).

STU1VWX2YZ /3JKL

F4

(ENTER)

STU1VWX2YZ /3JKL

F4

(ENTER)

Set “1 2 3 4” again and press ENTER (F4).

“Write protect” status changes from “No” to “Yes”.

4

4

DEL DEL

ADMAG SE :

6

It changed the state
of protection related
password

HELP DEL OK

ABORT OK

ABORT

F4

(OK)

Press OK (F4).

7-24

IM 1E10C1-E

Changing Password

Example: Change the password from “1 2 3 4” to “6 7 8 9 A”.

Call up “Wrt protect menu” in Hot key menu.

Hot key 2. Wrt protect menu 2. Enable wrt 10min

ADMAG SE :

1

Enter current
password to enable to
write for 10
minutes:

HELP DEL ABORT ENTER

ADMAG SE :

2

Release the write
protection for 10
minutes.

DEL DEL ABORT OK

ADMAG SE :

3

If you wish to
release completely,
you have to change
password to all of
spaces.

HELP DEL ABORT OK

2. Wrt protect menu

“1 2 3 4”

(ENTER)

F4

F4

(OK)

F4

(OK)

Enter the password and press ENTER (F4).

Press OK (F4).
Write protect status is released for 10 minutes.

Press OK (F4).

7. OPERATION VIA HART COMMUNICATOR

ADMAG SE :

4

Wrt protect menu
1 Write protect No
2 Enable wrt 10min
3 New Password
4 Software seal Keep

HELP SAVE ABORT OK

ADMAG SE :

5

Enter new password to
change state of write
protect

HELP DEL ABORT ENTER

ADMAG SE :

6

Re-enter new Password
write 30 seconds:
6789A
6789A

HELP DEL ABORT ENTER

ADMAG SE :

7

Change to New password

HELP DEL

ABORT OK

YZ/

3

“6 7 8 9 A”

F4

(ENTER)

“6 7 8 9 A”

F4

(ENTER)

Select “New password”.

Set “6 7 8 9 A” and press ENTER (F4).

Set “6 7 8 9 A” again and press ENTER (F4).

ADMAG SE :

8

It changed the state
of protection related
password.

HELP DEL OK

ABORT

F4

(OK)

Press OK (F4).

7-25

IM 1E10C1-E

NOTE

7. OPERATION VIA HART COMMUNICATOR

1. “Enable wrt 10min” releases write protection status for 10 minutes. While write
protection status is released, it is possible to enter a new password in the “New
password”. It will not be possible when 10 minutes have elapsed.

2. To release write protection status completely, enter 8 spaces in the “New pass­word”. This causes “Write protect” status to change from “Yes” to “No”.

3. If both ADMAG SE and HART Communicator power off and on again within 10
minutes after releasing of write protection status, the enabled write protection
status becomes unavailable.

4. “L01:TUNING” which is the write protection for ADMAG SE front panel key
switches, can be set “00:INHIBIT” or “01:ENABLE” only when “Write Protect”
on HART Communicator shows “No”.

* “Joker password" and “Software Seal”

When you forget the password that has been registered, it is possible to release the
mode for 10 minutes by using a joker password. Enter YOKOGAWA to release
“Write protect” status for 10 minutes. If this joker password is used, the status
shown in the parameter “Software seal” is changed from “Keep” to “Break”. Press
Hot key and select “2. Wrt Protect menu”. Current status is shown in “4. Software
seal”. This status will be returned from “Break” to “Keep” by registering a new
password.

(10) Other Functions and Operation

Please set the other needed parameters with the same way. The following document is
useful for your operation.

Product Manual for the HART Communicator: MAN 4250

7-26

IM 1E10C1-E

8. ACTUAL OPERATION

After you have installed the flow tube into the process piping, wired the input / output
terminals, set up the required parameters and performed the pre-operation zero adjust­ment, the magnetic flowmeter should output an accurate flow signal from its terminals
as soon as the measured fluid begins to flow.
This section describes procedures of zero adjustment and alarms countermeasure.

8.1 Pre-Operation Zero Adjustment

This section describes three procedures for performing zero adjustment. Using the data
setting keys on the converter front panel, using a BT200 or using a Hart Communicator.
Zero adjustment is made to set the instrument output to 0% (4mA) when the flow rate is

0.

1. Zero adjustment should be done only when the fluid is filled in the flow tube and the

IMPORTANT

fluid velocity is completely zero by closing the valve.

2. Zero adjustment should be done prior to the other operation. For 20 seconds during
the zero adjustment, any setting cannot be accepted.

8. ACTUAL OPERATON

8.1.1 Zero Adjustment Using Data Setting Keys

Display Description

Call up “C01” (ZERO TUNING) on the setting mode and touch SET key to make
the data display.

SET

SET

SET

SET

Code

00

INHIBIT

01

ENABLE

×2

Call up “C02” (MAGFLOW ZERO) and touch SET key.

Touch SET key twice.

×2

“-ZEro-” is displayed for about 20 seconds.

Content

Set “01” and touch SET key twice.

It changes into the Flow Rate Display Mode after the zero adjustment is completed.

8-1

IM 1E10C1-E

8.1.2 Zero Adjustment Using BT200

Display Description

8. ACTUAL OPERATON

MENU
A: DISPLAY
B: SET
C: ADJUST
D: DISP SEL
E: TOTAL SET
F: PULSE SET

HOME SET ADJ ESC

ENTER

PARAM
C01: ZERO TUNING
INHIBIT
C02: MAGFLOW ZERO

0.05
C60: SELF CHECK
GOOD

DATA DIAG ESC

ENTER

SET
C01: ZERO TUNING
ENABLE

ENTER

PARAM
C01: ZERO TUNING
ENABLE
C02: MAGFLOW ZERO

0.05
C60: SELF CHECK
GOOD

DATA DIAG ESC

Call up the menu panel and select “C:ADJUST” with the arrow key.

Press ENTER key to call up the panel displaying the parameter
subitems.
Confirm the inverse video bar is on “C01:ZERO TUNING”.

Press ENTER key to call up the data setup panel and select
“ENABLE”.

Press the ENTER key to set the data and return to the parameter sub
items panel. Select “C02:MAGFLOW ZERO”with the arrow key.

ENTER

SET
C02: MAGFLOW ZERO

0.05
+00.05

CLR ESC

ENTER

SET
C02: MAGFLOW ZERO
AUTOZERO

FEED NO OK

F4

PARAM
C01: ZERO TUNING
ENABLE
C02: MAGFLOW ZERO

0.02
C60: SELF CHECK
GOOD

DATA DIAG ESC

Pressing the ENTER key causes the data setup panel to be displayed.

×2

While “C02:MAGFLOW ZERO” is displayed, press the ENTER
key twice at an interval of a few seconds.
Then, “AUTO ZERO” is now displayed.

After about 20 seconds, pressing the “F4” [OK] of the function key
causes the menu panel to be displayed. The zero correction is
displayed. Then the panel returns to data display mode.

8-2

IM 1E10C1-E

8.1.3 Zero Adjustment Using HART Communicator

Call up “Zero tuning” display.

1. Device setup 2. Diag/Service 1. Test device 3. Zero tuning

8. ACTUAL OPERATON

ADMAG SE :
Zero tuning
Enable
Inhibit
Enable

DEL DEL ESC ENTER

Call up “Auto zero” display.

1. Test device 2. Auto zero

ADMAG SE :

1

About to enter auto
zero

DEL DEL ABORT OK

ADMAG SE :

2

waiting for auto zero
to complete

DEL DEL ABORT ENTER

ADMAG SE :

3

Auto zero passed

F4

(ENTER)

F2

(SEND)

F4

(OK)

F4

Select “Enable” and press ENTER (F4) and SEND (F2).

Press OK (F4).

Wait for about 20 seconds.

Press OK (F4).

HELP SEND ABORT OK

IMPORTANT

(OK)

This parameter is only for execution.

1. Zero adjustment should be done only when the fluid velocity is completely zero by
closing the valve.

2. Do not turn off the power to the ADMAG SE immediately after zero adjustment.
Powering off within 20 seconds after zero adjustment will return adjustment to the
previous setting.

8-3

IM 1E10C1-E

8.2 Self-diagnostics Functions

 The self-diagnostics function displays instrument internal errors, input/output signal

abnormalities, setting errors, and other problems.

 When an alarm occurs, the alarm number that the error has occurred and normal data

are alternately indicated on the indicator of ADMAG SE.
However, alarms are only displayed during flow rate data display mode and when
parameter numbers are being changed in the setting mode. (Alarms are not displayed
when data items are being changed.)

 The current output during the alarm occurrence can be selected from among the

followings. See “8.2.1 Output Status during Alarm Occurence.”

• 2.4mA or less

• 4mA

• HOLD

• 21.6mA or more

 When the BT200 is used, alarms are displayed in “A60 to N60:SELF CHECK”

parameter.

 When the HART Communicator is used, alarms are displayed in “Status group 1 to

3” parameters. There are two methods for self-diagnostics, every transmission and

manually executing the “Self test” command. See “8.2.2 Self-diagnostics Using
HART Communicator.”

 When an error message appears, follow “8.2.3 Error Description and Countermea-

sure.”.

8. ACTUAL OPERATON

8.2.1 Output Status during Alarm Occurrence

Display detail

Indicator

of SE

--- GOOD Self test OK ON Normal Normal

--- ERROR Error OFF Fixed* Stop
Err-02 uP FAULT uP fault OFF 21.6mA or more** Stop
Err-03 EEPROM FAULT EEPROM fault OFF 21.6mA or more** Stop
Err-05 A/D FAULT A/D fault OFF Fixed* Stop
Err-06 SIGNAL OVERFLOW Signal overflow OFF Fixed* Stop
Err-07 COIL OPEN Coil open OFF Fixed* Stop
Err-08 SPAN VEL.>10m/s V el. span>10m/s OFF Fixed* Stop
Err-09 SPAN VEL.<0.3m/s V el. span<0.3m/s OFF Fixed* Stop
Err-10 P.SPAN>1000p/s P.span>1000p/s OFF Fixed* Stop
Err-11 P.SPAN>500p/s P.span>500p/s OFF Fixed* Stop
Err-12 P.SPAN>25p/s P.span>25p/s OFF Fixed* Stop
Err-13 P.SPAN>15p/s P.span>15p/s OFF Fixed* Stop
Err-14 P.SPAN>10p/s P.span>10p/s OFF Fixed* Stop
Err-15 P.SPAN>5p/s P.span>5p/s OFF Fixed* Stop
Err-16 P.SPAN<.0001p/s P.span<.0001p/s OFF Fixed* Stop
Err-17 T.SPAN>1000p/s T.span>1000p/s OFF Fixed* Stop
Err-18 T.SPAN>.0001p/s T.span<.0001p/s OFF Fixed* Stop
Err-19 4-20 LMT ERROR Analog lmt error OFF Fixed* Stop
Err-20 EMPTY PIPE Empty pipe OFF Fixed* Stop
Err-21 MULTIRANGE ERROR Multi range err OFF Fixed* Stop
Err-22 COIL SHORT Excitation failure OFF Fixed* Stop
Err-23 EEPROM NO SET EEPROM no set OFF 21.6mA or more** Stop
Err-24 EEPROM DEFAULT EEPROM default OFF Fixed* Stop
Err-25 — Dev id not entered OFF Fixed* Stop

Note) *Depending on the setting in “4-20 ALM OUT (Analog alarm out)”.

**When optional code /C1 is selected, current output becomes 2.4mA or less.

BRAIN Terminal

HART

Communicator

Alarm

Contact

Output

Current Output

Total/Pulse

Output

8-4

IM 1E10C1-E

8.2.2 Self-diagnostics Using HART Communicator

Self-diagnostics of the ADMAG SE and check of incorrect data setting can be carried
out with the HART Communicator. There are two methods for self-diagnostics of the
ADMAG SE, self-diagnostics for every transmission and manually executing the “Self
test” command. When an error message appears, follow “8.2.3 Error Description and
Countermeasure.”

Call up “Test/Status” setting display.

1. Device setup 2. Diag/Service 1. Test device 1. Test/Status

ADMAG SE :

1

Test/Status
1 Status
2 Self test

HELP SAVE HOME ENTER

VWX

2

Select “Self test”.

8. ACTUAL OPERATON

ADMAG SE :

2

Self test OK

DEL DEL ABORT OK

ADMAG SE :

3

Test/Status
1 Status
2 Self test

HELP SAVE HOME OK

ADMAG SE :

4

Status
1 Status group 1
2 Status group 2
3 Status group 3

HELP SAVE HOME OK

ADMAG SE :

5

group 1
Error OFF
uP fault OFF
EEPROM fault OFF
A/D fault OFF
Signal overflow OFF

HELP DEL ABORT EXIT

F4

(OK)

STU

1

If there is no error detected, “Self test OK” will be displayed.
Press OK (F4).
When an error occurs, an error message appears and the results
of self-diagnostics appear in the “Status”.

Call up “Status”.

The status menu is separated 3 groups. About items of each
group, see “8.2.3 Error Description and Countermeasure”.

Select the desired group.
If there is no error, the result of diagnostics is indicated as

“OFF”. If “ON” is indicated, a countermeasure for that error is
necessary.

8-5

IM 1E10C1-E

8.2.3 Error Description and Countermeasure

Display detail

Indicator

BRAIN T erminal HART Communicator

of SE

--- GOOD

--- ERROR

Err-02 uP FAULT
Err-03 EEPROM FAULT
Err-05 A/D FAULT

Err-06 SIGNAL

OVERFLOW

Err-07 COIL OPEN

Err-08 SPAN VEL.>10m/s

Err-09 SPAN VEL.<0.3m/s

Err-10 P.SPAN>1000p/s

Err-11 P.SPAN>500p/s

Err-12 P.SPAN>25p/s

Err-13 P.SPAN>15p/s

Err-14 P.SPAN>10p/s

Err-15 P.SPAN>5p/s

Err-16 P.SPAN<.0001p/s

Err-17 T.SPAN>1000p/s

Err-18 T.SPAN>.0001p/s

Err-19 4-20 LMT ERROR

Err-20 EMPTY PIPE

Err-21

MULTIRANGE
ERROR

Err-22 COIL SHORT
Err-23 EEPROM NO SET

Err-24 EEPROM

DEFAULT

Err-25 ---

—

Status
group 1

Status
group 2

Status
group 3

Self test OK
Error

uP fault
EEPROM fault
A/D fault
Signal overflow

Coil open

Vel. span>10m/s

Vel. span<0.3m/s

P.span>1000p/s

P.span>500p/s

P.span>25p/s

P.span>15p/s

P.span>10p/s

P.span>5p/s

P.span<.0001p/s

T.span>1000p/s

T.span<.0001p/s

Analog lmt error

Empty pipe

Multi range err

Excitation failure
EEPROM no set

EEPROM default

Dev id not
entered

8. ACTUAL OPERATON

Description Countermeasure

Normal status
Alarm occurrence

(At occurrence of error
No.2 to 25)

Microprocessor failure
EEPROM failure
A/D converter failure
Excessive input signal

Flow tube coil open-circuit

Span velocity setting
exceeds 11m/s.

Span velocity setting is

0.2m/s or less.
Pulse output rate exceeds

1100p/s at 50% duty.
It exceeds 1000p/s at

0.5ms pulse width.
Pulse output rate exceeds

500p/s at 1ms pulse width.
Pulse output rate exceeds

25p/s at 20ms pulse width.
Pulse output rate exceeds

15p/s at 33ms pulse width.
Pulse output rate exceeds

10p/s at 50ms pulse width.
Pulse output rate exceeds

5p/s at 100ms pulse width
Pulse output rate is

0.00005p/s or less.
Totalization rate exceeds

1100p/s.
Totalization rate is

0.00005p/s or less.
Analog low limit setting

exceeds analog high limit
setting.

Pipe is not filled with
fluid or insulating material
attached to electrodes.

“Span” setting exceeds
“Forward span2” setting
at Auto 2 ranges.

Excitation circuit failure
Default values have not

been set in EEPROM.
EEPROM has been

initialized.
Device ID has not been

entered.

Contact the nearest
Yokogawa office or
service center.

Check the followings:

•

Mix of the signal, power
supply, excitation and
other cables

• Stray currents in the
measured fluid

•

Incorrect grounding

Contact the nearest
Yokogawa office or
service center.

Change settings.

Fill the flow tube with
fluid or clean the flow
tube inside.

Change settings.

Contact the nearest
Yokogawa office or
service center.

—
—

8-6

IM 1E10C1-E

9. MAINTENANCE

9.1 Loop Test (Test output)

This function enables you to set up any desired value, and to output it from the con­verter for test. Since this function corresponds to flow rate totalization display and pulse
output, this makes it possible to check operation of individual function.
The test functions of status output are also provided.

• Test outputs take priority of the flow signal.
Do not forget to return to the normal operation mode after the loop test.

• In case "BI DIRECTION" is set at OUTPUT FUNCTION (Parameter No. b10), the

IMPORTANT

setting range is available -108 to +108. Please set the loop test value in +/- percent­age based on the larger flow span within forward and reverse flow span.

• In case "AUTO 2 RANGES" is set at OUTPUT FUNCTION (Parameter No.b10),
the loop test setting value should be set in percentage based on the second range.

9. MAINTENANCE

9.1.1 Settings for Test Output Using Data Setting Keys

(1) Current Output (Corresponding to flow rate, totalization display and pulse output value)

Display Description

Call up “H01” (TEST MODE) on the setting mode and touch SET key to make the
data display.

SET

Set “01” and touch SET key twice.

SET

×2

SET

SET

×2

Setting value:

–8 (–108) to 108%

Code

00
01

Call up “H02” (OUTPUT VALUE) and touch SET key.

Set the value in % span. (The figure shows a 100% setting.)
Flow rate, totalization display and pulse output functions correspond to this set
value.

Content

Normal operation
Test output

9-1

IM 1E10C1-E

(2) Status Output (For status output, alarm output or pulse output )

Display Description

Call up “H01” (TEST MODE) on the setting mode and touch SET key to make the
data display.

SET

9. MAINTENANCE

Set “01” and touch SET key twice.

SET

Code

00
01

×2

Content

Normal operation
Test output

Call up “H03” (STATUS OUT) and touch SET key.

SET

Select the output status and touch
SET key twice.

SET

Code

Normal operation

00

Contact output status (ON)

01

Contact output status (OFF)

×2

02

Content

9.1.2 Setting for Test Output Using BT200

(1) Current Output (Corresponding to flow rate, totalization display and pulse output value)

Display Description

Select “TEST” in “H01: TEST MODE”.

PARAM
H01:TEST MODE
TEST
H02:OUTPUT VALUE
100 %
H03:STATUS OUT
NORMAL

DATA

DIAG ESC

Code

NORMAL

TEST

Set the value in % of span in “H02:OUTPUT VALUE”. (The figure
shows a 100% setting.)
Flow rate, totalization display and pulse output functions correspond
to this set value.

Content

Normal operation
Test output

(2) Status Output (For status output, alarm output or pulse output status)

Display Description

Call up “H01: TEST MODE” on the setting mode and select
“TEST”.

PARAM
H01:TEST MODE
TEST
H02:OUTPUT VALUE
100 %
H03:STATUS OUT
NORMAL

DATA

DIAG ESC

Code

NORMAL

TEST

Select the status to be output in “H03: STATUS OUT”.

Code

NORMAL

CLOSED(ON)

OPEN(OFF)

Content

Normal operation
Test output

Normal operation
Contact output status (ON)
Contact output status (OFF)

9-2

Content

IM 1E10C1-E

9.1.3 Setting for Test Output Using HART Communicator

(1) Loop Test

This feature can be used to output a fixed current from 2.72 mA to 21.28 mA for loop
check.

Setting of Loop Test

Example: Set “12mA (50%)” as test output.

2. Loop test

Call up “Loop test” display.

1. Device setup 2. Diag/Service 2. Loop test

ADMAG SE :

1

WARN-Loop should be
removed from
automatic control

DEL DEL ABORT OK

F4

(OK)

Set the control loop in manual mode, and press OK (F4).

9. MAINTENANCE

ADMAG SE :

2

Choose analog output
level
1 4mA
2 20mA
3 Other
4 End

DEL DEL ABORT ENTER

ADMAG SE :

3

Output

4.000

HELP DEL ABORT ENTER

ADMAG SE :

4

Fld dev output is
fixed at 12.000 mA

DEL DEL ABORT OK

F4

(ENTER)

‘1 2’

F4

(ENTER)

F4

(OK)

Select “Other”, and press ENTER (F4).

×2

1. 4mA:
Outputs a 4mA current signal

2. 20mA:
Outputs a 20mA current signal

3. Other:
Sets a desired output with the alphanumeric keys

4. End: Exits

Enter “12”, and press ENTER (F4).

Press OK (F4).
A fixed current of 12mA is output.

NOTE

1. In case “Bi direction” is set at “Output function”, the setting range is available
with –108 to +108%. Please set the loop test value in +/– percentage based on the
larger flow span within forward and reverse flow span.

2. In case “Auto 2 ranges” is set at “output function”, the loop test setting value
should be set in percentage based on the second range.

9-3

IM 1E10C1-E

Releasing from Loop Test:

On “Loop test” display.

ADMAG SE :

1

Choose analog output
level
1 4mA
2 20mA
3 Other
4 End

DEL DEL ABORT ENTER

ADMAG SE :

2

NOTE-loop may be
Returned to automatic
control

DEL DEL ABORT OK

9. MAINTENANCE

There are four methods which cause the simulated output to return to a normal flow
reading.

1. Wait 10 minutes to automatically release from the test mode.

2. Turn the power off to the ADMAG SE.

3. Execute “End”. (See the following for this procedure.)

4. Abort “Loop Test”. Press ABORT (F3).

To finish the loop test, select “End”, and press ENTER (F4).

×3

F4

(ENTER)

F4

(OK)

Press OK (F4).

(2) Status Output Test

ADMAG SE has one status output for alarm or other functions. It can be output for test.
After the status output test, return the status output parameter to “Normal”.

Call up “Status out” display.

1. Device setup 2. Diag/Service 3. Status out

ADMAG SE :

1

Status out
Normal
Normal
Close (on)
Open (off)

DEL DEL ESC ENTER

ADMAG SE :

2

Diag/Service
1 Test device
2 Loop test
3 Status out

DEL SEND HOME ENTER

NOTE

When the status output test is executed, the current output is fixed 4 mA.

F4

(ENTER)

F2

(SEND)

Select “Closed” (example) and press ENTER (F4).

Press SEND (F2).

9-4

IM 1E10C1-E

9.2 Trouble Shooting

Although magnetic flowmeters rarely require maintenance, failures occur when the
instrument is not operating correctly.
The following trouble shooting are described from the viewpoint of receiving instrument
indication.

Please avoid removing the converter unit from the case, replacing fuse and alter LCD

CAUTION

9.2.1 No Indication

orientation. When these procedures are needed, please contact the nearest Yokogawa
offce.

START

Examine the converter display flashing whether an error is displayed.

9. MAINTENANCE

Is an error displayed?

YES

Deal with the error
according to
"8.2.3 Error Description
and Countermeasure."

NO

Is other display appearing?

YES

Does the flow arrow

on flow tube agree with the

flow direction?

YES

Check that the flow tube is
filled with the liquid.

Is the flow

tube filled with the liquid?

YES

Check the resistance
between the meter signal
terminals A, B and C with a
multimeter.

NO

NO

NO

Contact the nearest
Yokogawa office or service
center.

Execute either of the
followings.
a. Install flow tube to make

flow arrow agree with the
flow direction.

b. Change the set value in

"B14: FLOW DIR".

Change the piping or
mounting to fill the flow tube
with the liquid.
Vertical mounting is effective.

Is the resistance 100MΩ

or more for each?

YES

Demount the flow tube and
check the inside.

Is foreign matter

sticking to the liner and

electrode?

YES

Remove foreign matter.

9-5

NO

NO

Contact the nearest
Yokogawa office or service
center.

IM 1E10C1-E

9.2.2 Unstable Zero

9. MAINTENANCE

START

Examine whether or not the
meter tube is filled with liquid
and the liquid does not contain
bubbles.

*1

Is the flow tube filled

with liquid completely?

YES

Are bubbles

contained in the liquid?

NONO

Examine whether or not the
valves leak.

Are valves leaking?

NO

• Confirm the flow tube

grounding.

• Confirm whether or not the

grounding wire is
disconnected from the earth
terminal.

Is grounding complete?

YES

Recheck liquid property.

NO

YES

YES

NO

It is better to provide a vent

*1

hole on the downstream
side of the flow tube to
check bubbles.

Change the piping or
mounting to fill the flow
tube with the liquid.
Vertical mounting is
effective.

Mount a defoaming device
on the upstream side of the
flow tube.

Stop the leak by repairing
valves.

Complete grounding (The
resistance must be 100Ω or
less.) See “3.2.1 Protective
Ground”.

• Does the liquid
conductivity vary or
is it easy to change?

• Is liquid conductivity
sometimes below
5µS/cm?

NO

Is the liquid

likely to cause deposits?

NO

Is the flowmeter

located near motors,

transformers, or other

electric equipmets.

NO

Insulation deterioration is
suspected.
Contact the nearest Yokogawa
office or service center.

YES

YES

YES

a. Insure that the liquid

conductivity does not
change beyond fluid
limits.

b. Do not use the ADMAG

SE for liquid has
conductivity below
5µS/cm.

c. Decrease flow velocity

near the conductivity low
limit as much as possible.

• Remove dirt and scale on
near electrodes.

• Change to vertical
mounting.

Sufficiently shield the flow
tube.
Locate the flow tube as far
as possible from these
equipments.

9-6

IM 1E10C1-E

9.2.3 Disagreement of Indication with Actual Flow Rate

START

9. MAINTENANCE

Are parameters

correctly set?

YES

Examine filling with liquid in the flow tube, bubbles and correct
grounding.

Is zero adjustment

completed?

YES

Is the flow tube

completely filled with

liquid?

YES

Is the liquid free of

bubbles?

YES

Is grounding complete?

YES

Check whether or not the AM011 cable is used for the signal
cable, if there is contact between any two of the cable conductors
(A, B), inner shield (SA, SB), and outer shield (C), and that they
are securely connected to the terminal board.

NO

NO

NO

NO

NO

Set the parameters correctly.

Adjust zero when the flow tube is
completely filled with liquid and
the velocity is zero.

Change the piping or mounting to
fill the flow tube with the liquid.
Vertical mounting is effective.

Provide a defoaming device on the
upstream side of the flow tube.

Complete grounding. (The
resistance must be 100Ω or less.)
See “3.2.1 Protective Ground”

Is the signal

cable completely end-

treated?

YES

Recheck the liquid property.

Is the liquid

likely to cause deposits?

NO

Examine whether or not a valve
exists immediately before the
flow tube (on the upstream side).

Is a valve located

immediately upstream of

the meter?

NO

Check the operation with the
AM012/SE calibrator, and you
will be able to confirm the error of
the converter or of Flow Tube.

Contact the nearest Yokogawa
office or service center.

NO

YES

YES

Completely perform end­treatment of the signal cable with
PVC tubes or insulation tape so
that the conductors, inner shields,
and outer shield do not contact
each other or with the case.

a. Remove scales. Especially

clean the electrodes and their
vicinity.

b. Remove scales with a soft

brush or a piece of soft cloth.
Never claw or scratch the
lining.

a. If a valve located immediately

upstream of the flow tube is
used half opened, the indication
may be affected with flow
turbulency.

b. Move the valve downstream of

the flow tube.

c. If the valve must be located on

the upstream side, allow for a
minimum distance to the flow
tube of 10 times the flow tube
diameter or use the valve fully
open.

9-7

IM 1E10C1-E

10. OUTLINE

10. OUTLINE

■ STANDARD SPECIFICATIONS

Note •For models with no setting switches, a hand-

held terminal is necessary to set parameters.

•Pulse output, status output and alarm output
use commom terminals, therefore, these
functions are not av ailable at the same time .

Excitation method: Pulsed DC excitation
Output Signal:

Current Output: 4 to 20 mA DC

(Load resistance 600Ω maximum)

Transistor Contact Output(Open-collector):

Pulse, alarm or status output selected by
parameter setting (Contact rating : 30V
DC(OFF), 200mA*(ON))

* In case of FM-Nonincendive type, 135mA

Communication:

HART or BRAIN
(Superimposed on the 4 to 20mA DC signal)

Conditions of Communication Line:

Load Resistance: (including cable resistance)
HART:230 to 600Ω, depending on q’ty of field
devices connected to the loop (multidrop
mode)
BRAIN:250 to 600Ω
Load Capacitance: 0.22 µF maximum
Load Inductance: 3.3 mH maximum
Distance from Power Line: 15 cm(0.6 ft) or more

(Parallel wiring should be avoided.)
Input Impedance of Receiver Connected to the
Receiving Resistance: 10kΩ or larger (at 2.4kHz)

(only for HART)

Maximum Cable Length: 2 km* (6500 ft) (when

polyethylene-insulated PVC-sheathed

* In case of FM-Nonincendive type, 1.5km(4875ft)

Instantaneous Flow Rate Display Function:

Flow rate can be displayed either in engineering
units or in percent of span. (for models with
indicator)

Totalizer Display Function:

Totalized volume in engineering units can be
displayed by setting a totalizing factor. (for
models with indicator)

Span Setting Function:

Volumetric flow setting is available by setting
volume unit, time unit, flow rate value and flow
tube size.
Volume Unit: m
barrel(=158.987L)
Velocity Unit: m, ft
Time Unit: sec., min., hour, day
Flow Tube Size: mm, inch

Data Security During Power Failure:

Data storage in EEPROM - no back-up battery
required.

Damping Time Constant:

Settable from 0.5 second to 200 seconds. (63%
response time)

control cables (CEV cables) are used)

3

, l, cm3, gallon(US),

Pulse Output Function:

Scaled pulse can be output by setting a pulse
factor.
Pulse Width: Duty 50% or fixed pulse width (0.5,
1, 20, 33, 50, or 100ms) - user selectable.
Output Rate: 0.0001 to 1000pps (when pulse
output function is selected.)

Status Output Function:

One of the followings is selected by parameter
setting.

• Auto 2 Ranges Status Output :

Indicates the selected range for automatic

dual range function.

• Forward and Reverse Status Output :

Indicates the flow direction for forward and
reverse flow measurement mode.

• Totalization Status Output :

Indicates that the internal totalized value ex­ceeds the set value.

• Low Limit Alarm :

Indicates that flow rate under the low limit set
value.

Alarm Output Function :

Indicates that an alarm occurs (Normal Close
Fixed).

Self Diagnostics Function:

Converter failure, flow tube failure, erroneous
setting, etc. can be diagnosed and displayed (for
models with indicator).

Touch Control:

Parameter setting operation by infrared switches.
(for models with indicator and setting switches)

Electrical Connection:

ANSI 1/2NPT female, DIN Pg13.5 female,
ISO M20 X 1.5 female, JIS G1/2 female

Terminal Connection: M4 size screw terminal
Case Material: Aluminum alloy
Coating: Polyurethane corrosion-resistant coating

Deep sea moss green (Munsell 0.6GY3.1/2.0)

Protection: IP67, NEMA 4X, JIS C0920

water tight type

Mounting: 2-inch pipe mounting
Grounding: 100Ω or less

*In case of explosion proof type, the protective grounding
must be connected to a suitable IS grounding system.

■ STANDARD PERFORMANCE

SE***DJ/EJ+SE14(Up to 300m cable length)

Accuracy :

Size in mm

(inch)

15 to 400

(0.5 to 16)

Repeatability: 0.1% of flowrate (1mm/s minimum)

Span in m/s

(ft/s)

0.3 to 1
(1 to 3)

1 to 10

(3 to 33)

Accuracy

0.5% of span

0.25% of span
(at indications below 50% of
span)

0.5% of rate
(at indications 50% of span or
more)

T01.EPS

10-1

IM 1E10C1-E

10. OUTLINE

Maximum Power Consumption:

11W for SE***DJ/EJ+SE14

Insulation Resistance:

• 100MΩ between power terminals and ground
terminal at 500V DC.

• 100MΩ between power terminals and each
output terminal at 500V DC.

• 20MΩ between each output terminal (except
for EX1 and EX2) and ground terminal at 100V
DC.

• 20MΩ between (EX1 or EX2) and ground ter-
minal at 50V DC.

Withstand Voltage:

• 1500V AC between power terminals and
ground terminal for 1 minute. (for -A1/A2 power
supply)

• 500V AC between power terminals and ground
terminal for 1 minute. (for -D1 power supply)

CAUTION

When performing the Voltage Breakdown Test,
Insulation Resistance Test or any unpowered
electrical test, wait 10 seconds after the power
supply is turned off before removing the housing
cover. Be sure to remove the Short Bar at terminal
“G”. After testing, return the Short Bar to its correct
position. Screw tightening torque should be 1.18N­m(0.88ft-lb)or more, because the G-terminal is
thought as a protective grounding and should

conform to the Safety Requirements.

Safety Requirement Standard:

IEC1010, EN61010

EMC Conformity Standard:

EN61326
EN61000-3-2, EN61000-3-3
AS/NZS 2064

■ NORMAL OPERATING CONDITION

Ambient Temperature: -20 to 60 °C (-4 to 140 °F)
Ambient Humidity: 5 to 95%RH (no condensation)
Rated Power Supply Voltage:

100V AC/DC Version:
Range 80 to 127V AC, 47 to 63Hz

90 to 110V DC
230V AC Version: Range 180 to 264V AC
24V DC/AC Version:
Range 20.4 to 28.8 V DC/AC

Supplied Power and Max. Cable Length for 24V

DC version:

Allowable cable length m(ft)

1000(3300)

900(2970)
800(2640)
700(2310)
600(1980)
500(1650)
400(1320)

300(990)
200(660)
100(330)

0

20 22 24 26 28 (V)

Cable cross section area: 1.25 mm
Cable cross section area: 2 mm

2

2

F01.EPS

Altitude at installation side:

Max.2000m above sea level

Installation category based on IEC1010:

II (See Note)

Pollution level based on IEC1010: 2(See Note)

Note: • The “Installation category” implies the regulation f or

impulse withstand voltage. It is also called the
“Overvoltage category”.“II” applies to electrical
equipment.

• “Pollution lev el” describes the degree to which a
solid, liquid or gas which deteriorates dielectric
strength is adhering. “2” applies to a normal indoor
atmosphere.

Fuse: 2A 250V (Time-Lag type)

■ TERMINAL CONNECTION

Terminal
Symbols

PLS/ALM
OUT

CUROUT

POWER
SUPPLY

SA

SB

EX1
EX2

P+

P­I+

L/+
N/-

A
B

C

I-

G

Description

A shield

Flow signal input

B shield
Common

Excitation current output

Pulse, alarm or status output
Current output 4 to 20mA DC

Power supply and

Ground

Protective grounding

T03-1.EPS

■ ACCESSORIES

Data sheet 1

Unit labels sheet 1
Hexagonal wrench 1
(for special screw of terminal cover/display cover.)
Plug 1 (in case of DC power supply version)

Mounting bracket 1set

■ MODEL AND SUFFIX CODE

Magnetic Flow Converter:

Model

Suffix code Description

SE14

...........................

Aux.Cod -J.........................

Output D .....................

E .....................

Indicator

Power Supply -A1 .............

Electrical Connection
(Refer to Note1)

Optional Codes

Note1 : Only ANSI 1/2NPT electrical connection is available for FM or CSA explosion proof type.
JIS G1/2 electrical connection is not available for any explosion proof type.

NN ...............

H1 ................

H2 ................

-A2 .............

-D1 ............

Dedicated Signal Cable:

Model Suffix Code Description

AM011 ..............................

End
treatment

Cable length
Style code
Optional specification

Note 1 : A user provided two conductor cable is required for coil excitaiton.
Note 2 : The maximum temperature for the signal cable is 80ⴗC(176ⴗF).

-0 ..........................

-4 ..........................

Magnetic Flow Converter
Always J
4-20mA and Pulse or Alarm, Simultaneous 2-output (BRAIN)

4-20mA and Pulse or Alarm, Simultaneous 2-output (HART)

Non Indicator
With Indicator
With Indicator and Setting SW

80 to 127V AC / 90 to 110 VDC
180 to 264 V AC

20.4 to 28.8V DC/AC

0 ......

JIS G1/2 Female

2 ......

ANSI 1/2NPT Female

3 ......

DIN Pg 13.5 Female

4 ......

ISO M20X1.5 Female

/ ...

Dedicated cable for magnetic
flowmeter

Non termination
Terminated

-L .........

*A ............

Enter the length in m (Max 300m)
Style A
Number of end treatment parts

/C ..

T05.EPS

T10.EPS

10-2

IM 1E10C1-E

■ Optional Specification

10. OUTLINE

Item

Specification

Code

Waterproof Glands Waterproof glands are attached to all wiring ports. For JIS G1/2 only. /ECG
Waterproof Glands with Union Joints Waterproof glands (union joints) are attached to all wiring ports. For JIS G1/2 only. /ECU
DC Noise Suppression Eliminating DC Noise (Size 15mm(0.5in.) or larger; Conductivity 50µS/cm or higher) /ELC
Burn Out Down Current output at CPU failure is set to "Downward(2.4mA DC or less)"

Without /C1 : Upward(21.6mA DC or more) /C1

Lightning Protector Built-in Lightning Protector /A

Painting Color Change Black, Munsell code; N1.5 /P1

Jade Green, Munsell code; 7.5BG4/1.5 /P2

Metallic Silver /P7
Epoxy Coating Coating is changed to Epoxy coating. /X1

High Anti-corrosion Coating Coating is changed to three-layer coating.

(Urethane coating on two-layer Epoxy coating) /X2
Calibration Certificate Level 2: Declaration and Calibration Equipment List /L2

Level 3: Declaration and Primary Standard List /L3

Level 4: Declaration and YOKOGAWA Measuring Instruments Control System /L4
CENELEC ATEX (KEMA) Explosion proof EExdIICT6 ; Group II Category 2 G

Explosion Proof Type (only for size 15 to 200mm) /KF2
FM Explosion Proof Type Explosion proof/Nonincendive (only for size 15 to 200mm) /FF1/FN1

CSA Explosion Proof Type Explosion proof (only for size 15 to 200mm) /CF1
SAA Explosion Proof Type Explosion proof ExdIICT6 (only for size 15 to 200mm) /SF1
GOST Certificate Calibration Certificate for GOST (Only for products produced at YMF) /GOS

Note : In case of requirement of EN10204 3.1B for Material Certificate, contact YOKOGAWA office.

■ EXTERNAL DIMENSION

Magnetic Flow Converter

230 (9.1)

31

(1.2)

133 (5.2)

31

(1.2)

160 (6.3)

40

(1.6)

123 (4.8)

102(4.02)

48 (1.9)

51 (2.0)

Weight 2.8kg (6.16 lb)

170 (6.7)

240 (9.5)

SD8d.eps

10-3

IM 1E10C1-E

11. PARAMETER LIST

11. PARAMETER LIST

11.1 Parameters for ADMAG SE Indicator and BRAIN Terminal

This chapter describes ADMAG SE parameters for its indicator and BRAIN Terminal.

● Description of Items

Indicator

BRAIN
Terminal

Name

Data Range,

Units

Decimal

Point

Default

Value

R/W

Description

Parameter number for ADMAG SE indicator

Parameter number for BRAIN terminal

Parameter name

The figure in ( ) shows the number for selecting
data on ADMAG SE indicator. The desired
number can be entered when ADMAG SE
indicator is in the setting mode.
Indicates the range of allowable settings and the
units used.16 alphanumerics can be entered when
“16 ASCII characters” is specified.

Numbers indicate the position of decimal point
and its range of movement within the data
display.

11-1

Example :
0 to 4 : Can be moved in the range 0 to 4
4 : Fixed at 4

Indicate initial set value (When shipped from the
factory)

R: Read only W: Write enabled

Describes the nature of the parameter

IM 1E10C1-E

List of Parameters for ADMAG SE Indicator and BRAIN Terminal

11. PARAMETER LIST

Indicator Name R/W DescriptionData Range, Units

— A00 DISPLAY R
A10 A10 FLOW RATE(%) –10.0 to 110.0% 1 R

A20 A20 FLOW RATE ±300.0 0 to 4 R

A30 A30 TOTAL 0 to 999999 0 W

A31 A31 REV.TOTAL 0 to 999999 W

A32 A32 DIF.TORAL –999999 to 999999 R

— A60 SELF CHECK GOOD R

BRAIN

Terminal

ERROR
µF FAULT
EEPROM FAULT
A/D FAULT
SIGNAL OVERFLOW
COIL OPEN
SPAN VEL.> 10 m/s
SPAN VEL.< 0.3 m/s
P.SPAN > 1000 p/s
P.SPAN > 500 p/s
P.SPAN > 25 p/s
P.SPAN > 15 p/s
P.SPAN > 10 p/s
P.SPAN > 5 p/s
P.SPAN < 0001 p/s
T.SPAN > 1000 p/s
T.SPAN < 0001 p/s
4 - 20 LMT ERROR
EMPTY PIPE
MULTIRANGE ERROR
COIL SHORT
EEPROM NO SET
EEPROM DEFAULT

Decimal

Point

Default

Value

Major outputs display functions.
Displays instantaneous flow rate in %.
Displays instantaneous flow rate in

egineering unit.
Displays and presets forward direction

totalized flow rate.
Displays and resets reverse direction

totalized flow rate.
Displays differential totalized flow rate

between forward and reverse.
(A32=A30–A31)

Displays self-check result.
See “8.2 Self-diagnostics Functions.”

11-2

IM 1E10C1-E

11. PARAMETER LIST

Indicator Name R/W DescriptionData Range, Units

BRAIN

Terminal

Decimal

Point

Default

Value

— B00 SET R
— B01 TAG NO ASC II 16 characters W
b02 B02 DAMPING 0.5 to 200 sec 1 3.0 W
b03 B03 FLOW SPAN 1 to 3.0000 0 to 4 1.0000 W

3Xm3

3

(10

(liter)
(10

)

-2

3

Xm)

b04 B04 FLOW UNIT (00) km

(01) m
(02) l
(03) cm

3

3

(04) M gal
(05) k gal
(06) gal
(07) m gal
(08) k bbl
(09) bbl
(10) m bbl
(11) µ bbl
(12) m
(13) ft

b05 B05 TIME UNIT (00) / d / s W

(01) / h
(02) / m
(03) / s

b06 B06 SIZE UNIT (00) mm mm W

(01) inch
b07 B07 NOMINAL SIZE 1 to 3000.0 1 100.0 W
b08 B08 MF 0.2500 to 3.0000 1.000 W

Major parameter setting.
Sets tag no. up to 16 characters.
Sets damping time constant of output.
Sets flow span in selected unit.
Selects volume unit of flow span.

m

Selects time unit of flow span.

Selects flow tube nominal size unit.

Sets flow tube nominal size in selected unit.
Sets meter factor.

b10 B10 OUTPUT FUNC (00) PULSE OUT PULSE W

(01) ALARM OUT OUT

(02) BI DIRECTION

(03) AUTO 2 RANGES

(04) LOW ALARM

(05) TOTAL SWITCH
b11 B11 4 - 20 ALM OUT (00) 2.4 mA OR LESS 21.6 mA W

(01) 4.0 mA OR

(02) HOLD MORE

(03) 21.6 mA OR MORE
b12 B12 POWER FREQ 47.00 to 63.00 Hz 2 50.00 W

Selects status output functions.

Selects current output during alarm
occurrence.

Sets AC power frequency for DC power

11-3

IM 1E10C1-E

11. PARAMETER LIST

Indicator Name R/W DescriptionData Range, Units

b13 B13 VELOCITY CHK 0 to 32.767 m/s 3 R
b14 B14 FLOW DIR (00) FORWARD

b30 B30 REV.SPAN 1 to 3.0000 0 to 4 1.0000 W
b31 B31 BI DIREC HYS 0 to 10% 2 W

b33 B33 FOR.SPAN2 1 to 3.0000 0 to 4 1.0000 W

b34 B34 AUTO RNG HYS 0 to 15% 10 W

b36 B36 LOW ALARM –10 to 110% –10 W
b37 B37 L. ALARM HYS 0 to 15% 5 W
— B60 SELF CHECK GOOD R

— C00 ADJUST R
C01 C01 ZERO TUNING (00) INHIBIT

C02 C02

— C60 SELF CHECK GOOD R

— D00 DISP SEL R
d01 D01 DISP SELECT (00) RATE(%)

d02 D02 FL USER SEL (00)NOT PROVIDED NOT W

d03 D03 FL USER SPAN 0 to 3000 0 to 4 100 W

— D10 FL USER UNIT

— D60 SELF CHECK GOOD R

BRAIN

Terminal

MAGFLOW ZERO

(01) REVERSE

to

EEPROM DEFAULT

(01) ENABLE
0 to ±99.99 2 0.00 W

to

EEPROM DEFAULT

(01) RATE
(02) FOR. TOTAL
(03) REV. TOTAL
(04) DIF. TOTAL
(05) RATE(%) / FOR. TTL
(06) RATE / FOR. TTL
(07) RATE / RATE(%)
(08) RATE(%) / REV. TTL
(09) RATE / REV. TTL
(10) RATE(%) / DIF.TTL
(11) RATE / DIF.TTL

(01) PROVIDED

to

EEPROM DEFAULT

Decimal

Point

ASCII 8
characters

Default

Value

FORWARD

ENABLE

RATE(%)

PROVIDED

Displays span in m/s.

W

Selects flow direction.

Sets span for reverse direction.
Sets hysteresis when change in flow

direction.
Sets the second span for forward

direction.
Sets hysteresis when change in Auto 2

ranges.
Sets low limit alarm.
Sets hysteresis for low limit alarm.
Displays self-check result.

Automatic zero adjustment functions.

W

Inhibits or enables automatic zero
adjustment.

Excecutes automatic zero adjustment
and displays zero correction value.

Displays self-check result.

Display functions.
Selects display items on flowmeter

W

indicator.

Selects whether “PV” is displayed with
user-defined unit.

Sets value displayed in “PV” at 100%
output when “Fl user sel” is provided.

Sets user-defined unit displayed in

W

“A20.”
Displays self-check result.

11-4

IM 1E10C1-E

11. PARAMETER LIST

Indicator Name R/W DescriptionData Range, Units

— E00 TOTAL SET R
E01 E01 TOTAL UNIT (00) n UNIT / P

E02 E02 TOTAL SCALE 0 to 3.0000 0 to 4 0 W
E03 E03
E04 E04 TOTAL SET (00) INHIBIT

E05 E05 TL SET VALUE 0 to 999999 0 W

E06 E06 TOTAL SWITCH 0 to 999999 0 W

— E10 TL USER UNIT ASCII 8 characters W
— E60 SELF CHECK GOOD R

— F00 PULSE SET R
F01 F01 PULSE UNIT (00) n UNIT / P

F02 F02 PULSE SCALE 0 to 30000 0 to 4 0 W
F03 F03
F04 F04 PULSE WIDTH (00) 50% DUTY

— F60 SELF CHECK GOOD R

BRAIN

Terminal

TOTAL LOWCUT

PULSE LOWCUT

(01) µ UNIT / P
(02) m UNIT / P
(03) UNIT / P
(04) k UNIT / P
(05) M UNIT / P
(06) PULSE / s

0 to 100% 3 W

(01) ENABLE

to

EEPROM DEFAULT

(01) µ UNIT / P
(02) m UNIT / P
(03) UNIT / P
(04) k UNIT / P
(05) M UNIT / P
(06) PULSE / s

0 to 100% 3 W

(01) 0.5 ms
(02) 1 ms
(03) 20 ms
(04) 33 ms
(05) 50 ms
(06) 100 ms

to

EEPROM DEFAULT

Decimal

Point

Default

Value

PULSE/s

INHIBIT

PULSE/s

50% DUTY

Totalization functions.
Selects totalization rate unit. (“UNIT”

in the selection on the left represents the
“Base vol unit” selected.)

Sets totalization rate.
Sets low cut width of totalization.
Inhibits or enables forward direction

W

totalization and reverse direction
totalization from being preset and reset,
respectively.

Sets forward direction totalization
present value.

Set switching level when using status
output function as totalization switch
function.

Sets user-defined unit displayed in “A30.”
Displays self-check result.

Pulse output functions.
Selects pulse rate unit. (“UNIT” in the

W

selection on the left represents the
“Base vol unit” selected.)

Sets pulse rate.
Sets low cut width of pulse output.
Selects pulse width.

W

Displays self-check result.

11-5

IM 1E10C1-E

11. PARAMETER LIST

Indicator Name R/W DescriptionData Range, Units

— G00 4 - 20 SET R
G01 G01 4 - 20 LOW CUT 0 to 10% 0 W
G02 G02 4 - 20 LOW LMT –20 to 100% –20 W
G03 G03 4 - 20 H LMT 0 to 120% 120 W
— G60 SELF CHECK GOOD R

— H00 TEST R
H01 H01 TEST MODE (00) NORMAL

H02 H02 OUTPUT VALUE –108 to 108 0 W
H03 H03 STATUS OUT (00) NORMAL

— H60 SELF CHECK GOOD R

— L00 OTHER R
L01 L01 TUNING (00)INHIBIT

L02 L02 KEY 00 0 W

— L60 SELF CHECK GOOD R

— N00 APPL SET
n01 N01 TOTAL / PULSE (00) NO DAMP DAMP W

n02 N02 OUTPUT MODE (00) ON ON W

n03 N03 RATE LIMIT 0 to 10% 5 W

n04 N04 DEAD TIME 0 to 15 s 0 W

n05 N05 POWER SYNCH (00) YES YES W

n07 N07 EMPTY PIPE (00) ALARM NO W

— N60 SELF CHECK GOOD

BRAIN

Terminal

to

EEPROM DEFAULT

(01) TEST

(01) CLOSED (ON)
(02) OPEN (OFF)

to

EEPROM DEFAULT

(01) ENABLE

55 << TO “N” >>

to

EEPROM DEFAULT

(01) DAMP

(01) OFF

(01) NO

(01) NO ALARM ALARM

to

EEPROM DEFAULT

Decimal

Point

Default

Value

NORMAL

NORMAL

ENABLE

Current output functions.
Sets low cut width of current output.
Sets low limit of current output.
Sets high limit of current output.
Displays self-check result.

Output circuit test mode.
Selects test mode.

W

Sets test output value.
Selects test status output.

W

Displays self-check result.

Data setting restriction functions.

W

Inhibits or enables data setting with
indicator switches or BT200.

Enables “N” items display. Sets “55”
for access to “N” items.

Displays self-check result.

Special application.
Selects whether instantaneous flow rate

values or damped ones are used for
totalization and pulse output.

Selects active level of status output set
in “B10.” (except “ALARM OUT”)

Sets the level to reduce output fluctua­tion.

Sets dead time to reduce output fluctua­tion. When “0” is set, “Rate limit” is not
available.

Selects synchronization between excita­tion frequency and power frequency.

Selects alarm effectiveness when flow
tube is not filled with fluid.

Displays self-check result.

11-6

IM 1E10C1-E

11.2 Parameters for HART Communicator

This chapter describes ADMAG SE parameters for HART Communicator. Note the
differences between parameters on ADMAG SE indicator and those on HART Commu­nicator.

● Description of Items

11. PARAMETER LIST

Name

Data Range,

Units

Default

Value

R/W Description

Indicator

of SE

Parameter name

For numeric values, settable ranges are shown.
For selection items, selectable items are shown.
The figure in ( ) shows the number for selecting
data on ADMAG SE indicator. The described
number can be entered when ADMAG SE
indicator is in the setting mode.

Default value is shown.
*As for “Span”, “Pulse unit”, “Pulse scale”,
“Total unit” and “Total scale”, the data specified
at order have been already set.

R: Read only W: Write enabled

Describes the nature of the parameter.

Equivalent ADMAG SE indicator parameter
number

11-7

IM 1E10C1-E

11. PARAMETER LIST

List of Parameters for HART Communicator

Name Data Range, Units

PV –32400 to 32400 R Displays instantaneous flow rate in engineering unit. A20
Totl 0 to 999999 0 W Displays and presets forward direction totalized flow rate. A30
PV AO 2.40 to 21.6 mA R Displays current output. —
Span 0.0001 to 30000 1.0000 W Sets flow span in selected unit. b03
Status group 1 Error R Displays self-diagnostics result. —

µP fault “ON” shows error status.
EEPROM fault “OFF” shows normal status.
A/D fault See “8.2 Self-diagnostics Functions.”
Signal overflow
Coil open
Vel. span> 10 m/s
Vel. span< 0.3 m/s

Status group 2 P. span> 1000p/s R Ditto —

P. span> 500p/s
P. span> 25p/s
P. span> 15p/s
P. span> 10p/s
P. span> 5p/s
P. span< .0001p/s
T. span> 1000p/s

Status group 3 T. span< .0001p/s R Ditto —

Analog lmt error
Empty pipe
Multi range err
Coil short
EEPROM no set
EEPROM default

Dev id not entered
Self test — — W Excecutes self-diagnostics. —
Auto zero — — W Executes automatic zero adjustment. C02

Zero tuning (00) Inhibit Enable W Inhibits or enables automatic zero adjustment. C01

(01) Enable
D/A trim ZERO: 3.2 to 5.6 mA W Performs fine adjustments of zero and span of current output. —

SPAN: 18.4 to 21.6 mA
Scaled D/A trim ZERO: 3.2 to 5.6 mA W Performs fine adjustments of zero and span of scaled analog —

SPAN: 18.4 to 21.6 mA output.
Loop test 4 mA 4 mA W Sets test output value. H02

20 mA

Other (2.72 to 21.28 mA)

End
Status out (00) Normal Normal W Selects test status output. H03

(01) Closed (on)

(02) Open (off)
PV Unit gal/min m/s W Selects engineering unit of “PV”. Displays “Spcl” in case of —

L/min setting unit except 5 units on the left.

Cum/h

ft/s

m/s

(Spcl)

Default

Value

R/W Description

Indicator

of SE

11-8

IM 1E10C1-E