Shinko SE series Instruction Manual

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Page 1

PLUG-IN TYPE

PROGRAMMABLE SIGNAL CONDITIONER

SE SERIES

INSTRUCTION MANUAL

Page 2

Preface

Thank you for purchasing the SE series Programmable Signal Conditioner. This manual contains instructions for the mounting, functions, operations and notes when operating the SE series. To prevent accidents arising from the misuse of this instrument, please ensure the operator receives this manual.

Notes

• This instrument should be used in accordance with the specifications described in the manual. If it is not used according to the specifications, it may malfunction or cause a fire.

• Be sure to follow the warnings, cautions and notices. If they are not observed, serious injury or malfunction may occur.

• Specifications of the SE series and the contents of this instruction manual are subject to change

without notice.

• Care has been taken to assure that the contents of this instruction manual are correct, but if there

are any doubts, mistakes or questions, please inform our sales department.

• This instrument is designed to be installed on a DIN rail within a control panel. If it is not, measures

must be taken to ensure that the operator does not touch power terminals or other high voltage sections.

• Any unauthorized transfer or copying of this document, in part or in whole, is prohibited.

• Shinko Technos CO., LTD. is not liable for any damages or secondary damages incurred as a

result of using this product, including any indirect damages.

SAFETY PRECAUTIONS (Be sure to read these precautions before using our products.)

The safety precautions are classified into categories: “Warning” and “Caution”. Depending on the circumstances, procedures indicated by Caution may cause serious results, so be sure to follow the directions for usage.

Warning

• To prevent an electric shock or fire, only Shinko or other qualified service personnel may handle the inner assembly.

• To prevent an electric shock, fire or damage to the instrument, parts replacement may only be undertaken by Shinko or other qualified service personnel.

Safety precautions

• To ensure safe and correct use, thoroughly read and understand this manual before using this

instrument.

• This instrument is intended to be used for industrial machinery, machine tools and measuring

equipment. Verify correct usage after consulting purpose of use with our agency or main office. (Never use this instrument for medical purposes with which human lives are involved.)

• External protection devices such as protective equipment against excessive temperature rise, etc.

must be installed, as malfunction of this product could result in serious damage to the system or injury to personnel. Also proper periodic maintenance is required.

• This instrument must be used under the conditions and environment described in this manual.

Shinko Technos Co., Ltd. does not accept liability for any injury, loss of life or damage occurring due to the instrument being used under conditions not otherwise stated in this manual.

Caution with respect to Export Trade Control Ordinance

To avoid this instrument from being used as a component in, or as being utilized in the manufacture of weapons of mass destruction (i.e. military applications, military equipment, etc.), please investigate the end users and the final use of this instrument.

In the case of resale, ensure that this instrument is not illegally exported.

Caution

Procedures which may lead to dangerous conditions and cause

death or serious injury, if not carried out properly.

Procedures which may lead to dangerous conditions and cause

superficial to medium injury or physical damage or may degrade or damage the product, if not carried out properly.

Page 3

11.

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Caution

This instrument is intended to be used under the following environmental conditions (IEC61010-1): Overvoltage category , Pollution degree 2 Ensure the mounting location corresponds to the following conditions:

• A minimum of dust, and an absence of corrosive gases

• No flammable, explosive gases

• No mechanical vibrations or shocks

• No exposure to direct sunlight, an ambient temperature of -5 to 55 (23 to 131 ) that does not change rapidly, and no icing

• An ambient non-condensing humidity of 35 to 85%RH

• No large capacity electromagnetic switches or cables through which large current is flowing

• No water, oil or chemicals or where the vapors of these substances can come into

direct contact with the unit

• When installing this unit within a control panel, take note that the ambient temperature

of this unit as well as the control panel must not exceed 55 (131 ). Otherwise the life of electronic components (especially electrolytic capacitors) may be shortened.

Note: Avoid setting this instrument directly on or near flammable material even

though the case of this instrument is made of flame-resistant resin.

22..WWiirriinnggpprreeccaauuttiioonns

Caution

• Do not leave wire remnants in the instrument, because they could cause a fire and/or a malfunction.

• When wiring terminals, use a solderless terminal with an insulation sleeve in which an M3 screw fits.

• Tighten the terminal screw within the specified torque.

If excessive force is applied to the screw when tightening, the screw may be damaged.

• This instrument has no built-in power switch, circuit breaker or fuse. It is necessary to install them near the instrument.

(Recommended fuse: Time-lag fuse, rated voltage 250V AC, rated current 2A)

• For wiring of AC power source, be sure to use exclusive terminals as described in this manual. If AC power source is connected to incorrect terminals, the unit will burn out.

• For a 24V DC power source, do not confuse polarity.

• Do not apply a commercial power source to the sensor connected to the input terminal nor allow the power source to come into contact with the sensor, as the input circuit may burn out.

• Use a thermocouple, compensating lead wire and 3-wire system RTD according to the

sensor input specifications of this unit.

• When using DC voltage and current input, do not confuse polarity when wiring.

• Keep the input/output wires and power line separate.

33..OOppeerraattiioonnaannddmmaaiinntteennaanncceepprreeccaauuttiioonns

Caution

• Do not touch live terminals. This may cause electric shock or problems in operation.

• Turn the power supply to the instrument OFF when retightening the terminal and cleaning. Working on or touching the terminal with the power switched ON may result in severe injury or death due to Electric Shock.

• Use a soft, dry cloth when cleaning the instrument.

(Alcohol based substances may tarnish or deface the unit.)

• As the display section is vulnerable, do not strike or scratch it with a hard object or

press hard on it.

Page 4

Model explanation

Indication Model

SE2 SE2U, SE2E, SE2R, SE2A, SE2V, SE2P

SE1 SE1U, SE1E, SE1R, SE1A, SE1V, SE1P, SE1D, SE1D-F

SE series

SEW SEWU, SEWD

Characters used in this manual

Indication

Number, / -1 0 1 2 3 4 5 6 7 8 9

Indication

Alphabet A B C D E F G H I J K L M

Indication

Alphabet N O P Q R S T U V W X Y Z

means that no character is indicated (unlit) on the display.

Page 5

--- CONTENTS ---

1. Model Page

1.1 Model ---------------------------------------------------------------------------- 6

1.2 How to read the model label ----------------------------------------------- 6

2. Name and functions of sections -------------------------------------------- 7

3. Mounting

3.1 External dimensions (Scale: mm) ----------------------------------------- 8

3.2 Mounting to a DIN rail -------------------------------------------------------- 8

3.3 Removal from a DIN rail --------------------------------------------------- 10

4. Wiring

4.1 Lead wire solderless terminal -------------------------------------------- 12

4.2 Terminal arrangement, circuit configuration -------------------------- 13

4.3 Wiring of terminals

4.3.1 Power source wiring ---------------------------------------------------- 16

4.3.2 Output wiring ------------------------------------------------------------- 16

4.3.3 Input wiring --------------------------------------------------------------- 17

5. Operation flowchart ------------------------------------------------------------ 18

6. Setup

6.1 Indication after power-on -------------------------------------------------- 21

6.2 Basic operation of setup --------------------------------------------------- 22

6.3 Setup of the unit

6.3.1 Function group ---------------------------------------------------------- 24

6.3.2 CH2 function group ----------------------------------------------------- 27

6.3.3 Special function group ------------------------------------------------- 27

6.3.4 Using this unit as a standard signal converter ------------------ 28

6.3.5 Using the Reverse function ------------------------------------------ 28

6.3.6 Using the first order lag filter function ----------------------------- 28

7. Adjustment

7.1 Basic operation of adjustment ------------------------------------------- 29

7.2 Adjustment

7.2.1 Output adjustment group --------------------------------------------- 30

7.2.2 CH2 output adjustment group --------------------------------------- 31

8. Operation

8.1 Indication after power-on -------------------------------------------------- 32

8.2 Unit operation ---------------------------------------------------------------- 34

9. Specifications ------------------------------------------------------------------- 35

10. Troubleshooting

10.1 Indication -------------------------------------------------------------------- 38

10.2 Key operation -------------------------------------------------------------- 38

10.3 Operation -------------------------------------------------------------------- 39

11. Character table ----------------------------------------------------------------- 39

Page 6

1. Model

1.1 Model SE series

S E -

2 U 2ch Universal/DC (*1) (*2) 2 E 2ch Thermocouple/DC 2 R 2ch RTD/DC 2 A 2ch DC current/DC(*2) 2 V 2ch DC voltage/DC 2 P 2ch Potentiometer/DC

1 U 1ch Universal/DC (*1) 1 E 1ch Thermocouple/DC 1 R 1ch RTD/DC 1 A 1ch DC current/DC (*2) 1 V 1ch DC voltage/DC 1 P 1ch Potentiometer/DC 1 D 1ch Current loop supply/DC

1 D F

1ch Current loop supply/DC (Suitable for Field communicator usage)

WU 2-output Universal/DC (*1)

Signal conditioner type

WD 2-output Current loop supply/DC

Finger-safe, screw fall prevention (for Y terminal)

Socket

2 For ring terminal

0 100 to 240V AC

Power supply

1 24V AC/DC

(*1) SE2U, SE1U and SEWU accept universal (all types of) inputs and outputs.

Input : Thermocouple, RTD, DC current, DC voltage Output : DC current, DC voltage

(*2) For DC current input, a shunt resistor (sold separately) is required.

(e.g.) SE2U-1-0

Type : 2ch Universal transmitter Socket : Finger-safe, screw fall prevention (for Y terminal) Power supply: 100 to 240V AC Default value : Input : 1 to 5V DC (for CH1 and CH2)

Output : 4 to 20mA DC (for CH1 and CH2)

1.2 How to read the model label

The model label is attached to the left side of the case.

(Fig. 1.2-1)

Model (e.g. SE2U-1-0) CH1 input (Enter a range selected during Input range selection.) CH2 input (Enter a range selected during Input range selection.) CH1 output (Enter a range selected during Output type selection.) CH2 output (Enter a range selected during Output type selection.)

Serial number

Page 7

2. Name and functions of sections

SE2

(Fig. 2-1)

SE1 , SEW

(Fig. 2-2)

Notice

When setting the specifications and functions of this instrument, connect terminals 13 and 14 for a power source first, then set them referring to “5.Operation flowchart” and “6. Setup” before performing “3. Mounting” and “4. Wiring”.

(1)

Power indicator

(Green)

Lights when the power to the instrument is turned on.

(2) CH1 indicator (SE2 ) (Yellow)

Lights when CH1 input value and output value are indicated.

(3) CH2 indicator (SE2 ) (Yellow)

Lights when CH2 input value and output value are indicated.

(4) Input display (Red)

Indicates the input value during RUN mode. Indicates characters of setting or adjustment item during Setup and Adjustment mode.

(5) Output display (Red)

Indicates the output value (%) during RUN mode. Indicates the set or adjusted value during Setup and Adjustment mode.

(6) UP Key ( )

Increases the numeric value, or switches the selection items.

(7) DOWN Key ( )

Decreases the numeric value, or switches the selection items.

(8) MODE Key ( )

Selects or switches groups, and registers the set (or selected) value.

(9) SUB-MODE Key

Turns the displays ON again when they are in OFF status. (The UP, DOWN or MODE Key also turns the displays ON again when they are in OFF status.)

(10) Console connector

By connecting to the USB communication cable (CMB-001, sold separately), the following operations can be conducted from an external computer using the SWS-SE001M Console software: Reading and setting of various set values, Reading of input values and action status

(11) Light sensor

Automatically measures and controls brightness of the Input and Output displays.

(1)

(2)

(3)

(4)

(5)

(6)

(7)

(10)

(8)

(9)

(11)

(1)

(4)

(5)

(6)

(7)

(8)

(9)

(11)(10)

Page 8

3. Mounting

3.1 External dimensions (Scale: mm)

(Fig. 3.1-1)

3.2 Mounting to a DIN rail

(1) Hook the upper part of the socket on the DIN rail, and mount it.

(A clicking sound is heard.)

(Fig. 3.2-1)

Caution

Wire the instrument before inserting the unit into the socket. For wiring, refer to Section “4. Wiring”.

Hook the upper part of the socket on the DIN rail.

108

3.3

DIN rail

(29)

Socket (sold separately)

Page 9

(2) Confirm that the Lock Release is lowered.

(Fig. 3.2-2)

(3) Insert the SE series into the socket.

(Fig. 3.2-3)

When inserting, be careful about the position of pins and slots.

Lock Release

Page 10

(4) Fix the SE series and the socket by pushing the Lock Release up.

(Fig. 3.2-4)

3.3. Removal from a DIN rail

(1) Turn the power supply to the unit OFF. (2) Pull the Lock Release down, and release the SE series from the socket.

(Fig. 3.3-1)

Lock Release

Check that the SE series and the socket are locked by pushing the Lock Release up.

Lock Release

Check that the SE series and the socket are unlocked by pulling the Lock Release down.

Page 11

(3) Separate the SE series from the socket.

(Fig. 3.3-2)

(4) Remove the socket from the DIN rail by pulling the Socket Lock Release (at the

bottom of the socket) down.

(Fig. 3.3-3)

Page 12

4. Wiring

Warning

Turn the power supply to the instrument off before wiring. Working on or touching the terminal with the power switched on may result in severe injury or death due to Electric Shock.

4.1 Lead wire solderless terminal

Use a solderless terminal with an insulation sleeve in which an M3 screw fits as follows. For the sockets with finger-safe & screw fall prevention functions, the ring terminals are unusable. The torque should be 0.63N•m.

Solderless

terminal

Manufacturer Model

Y type Nichifu Terminal Industries CO., LTD. TMEV1.25Y-3S

Nichifu Terminal Industries CO., LTD. TMEV 1.25-3

Ring type

Japan Solderless Terminal MFG CO., LTD. V1.25-3

(Fig. 4.1-1)

Page 13

CH1 input

circuit

-+-

RTD

mA DC

-+-

RTD

mA DC

CH1

CH2

CPU

V DC( 10V)

mV DC( 1V)

V DC( 10V)

mV DC( 1V)

CH2

input

circuit

Display/Setting

key circuit

Insulation circuit Insulation circuit

Insulation circuit

CH1 output circuit

CH2 output circuit

Power

circuit

Power supply

CH1 output

CH2 output

Insulation circuit

Ch1

input

circuit

CPU

Ch1

Ch2

input

circuit

Ch2

Ch1 output circuit

Ch2

output

circuit

Power

circuit

Insulation circuit

Display/Setting

key circuit

Potentiometer

Power supply

Ch1 output

Ch2 output

4.2 Terminal arrangement, circuit configuration

SE2U, SE2E, SE2R, SE2A, SE2V

DC voltage input:

mV DC( 1V) : 0 to 10mV DC, -10 to 10mV DC, 0 to 50mV DC, 0 to 60mV DC,

0 to 100mV DC, 0 to 1V DC

V DC( 10V) : 0 to 5V DC, 1 to 5V DC, 0 to 10V DC

(Fig. 4.2-1)

SE2P

(Fig. 4.2-2)

Page 14

CPU

mA DC

Output

Power supply

Power

circuit

Display/Setting

key circuit

Insulation circuit

Input

circuit

Output

circuit

24V DC

Power

circuit

Power supply for

2-wire transmitter

Input

circuit

++-+

T C

RTD

mA D C

CPU

Display/ Setting

key circuit

Power supply

V DC(? 10V)

mV DC(? 1V)

Insulation circuit

Power

circuit

Output

circuit

Output

Potentiometer

SE1U, SE1E, SE1R, SE1A, SE1V, SE1P

DC voltage input:

mV DC( 1V) : 0 to 10mV DC, -10 to 10mV DC, 0 to 50mV DC, 0 to 60mV DC,

0 to 100mV DC, 0 to 1V DC

V DC( 10V) : 0 to 5V DC, 1 to 5V DC, 0 to 10V DC

(Fig. 4.2-3)

SE1D

(Fig. 4.2-4)

Page 15

CPU

mA DC

240

Insulation circuit

Power supply

Output

Display/Setting

key circuit

Input

circuit

Power

circuit

Output

circuit

24V DC

Power

circuit

Power supply for

2-wire transmitter

T C

CPU

-AB

RTD

mA DC

mV(

≦

1V)

≦

10V)

Insulation circuit

Output

circuit

Output 1

Power supply

Power circuit

Display/Setting

key circuit

Input

circuit

Output

circuit

Output 2

SE1D-F

(Fig. 4.2-5)

SEWU

DC voltage input:

mV DC( 1V) : 0 to 10mV DC, -10 to 10mV DC, 0 to 50mV DC, 0 to 60mV DC,

0 to 100mV DC, 0 to 1V DC

V DC( 10V) : 0 to 5V DC, 1 to 5V DC, 0 to 10V DC

(Fig. 4.2-6)

Page 16

CPU

Power supply

Output 1

Output 2

Output

circuit

Output

circuit

Power circuit

Insulation circuit

24V DC

Power

circuit

Input

circuit

Display/Setting

key circuit

Power supply for

2-wire transmitter

mA DC

SEWD

(Fig. 4.2-7)

4.3 Wiring of terminals

Warning

• For 100 to 240V AC, if AC power source is connected to incorrect terminals, this instrument will burn out.

• For a 24V DC power source, do not confuse polarity when wiring.

4.3.1 Power source wiring

Use terminals 13 (+) and 14 (-) for the power supply to the instrument.

4.3.2 Output wiring

SE2 : Use terminals 9 (+) and 10 (-) for CH1 output wiring.

Use terminals 11 (+) and 12 (-) for CH2 output wiring.

SE1 : Use terminals 9 (+) and 10 (-) for the output wiring.

SEW : Use terminals 9 (+) and 10 (-) for Output 1 wiring.

Use terminals 11 (+) and 12 (-) for Output 2 wiring.

Page 17

Input

circuit

2-wire

transmitter

24V DC

power circuit

Input

circuit

24V DC

power circuit

240

Input

circuit

24V DC

power circuit

2-wire

transmitter

240

Input

circuit

24V DC

power

circuit

4.3.3 Input wiring Terminals for wiring differ depending on the input specifications.

Refer to (Fig. 4.2-1) to (Fig. 4.2-7).

SE2U (DC current input), SE2A:

For CH1, use terminals 1 (+), 2 (-) for input wiring and shunt resistor connection. For CH2, use terminals 5 (+), 6 (-) for input wiring and shunt resistor connection. (See Table 4.3.3-1.)

SE1U, SE1A, SEWU (DC current input):

Use terminals 1 (+), 2 (-) for input wiring and shunt resistor connection. (See Table 4.3.3-1.)

(Table 4.3.3-1)

Shunt resistor

Input

Model

(for Y terminal)

Model

(for ring terminal)

Specification

4 to 20mA DC, 0 to 20mA DC, 0 to 16mA DC

RES-S06-050 RES-S01-050 50 0.1%

2 to 10mA DC, 0 to 10mA DC RES-S06-100 RES-S01-100 100 0.1% 1 to 5mA DC RES-S06-200 RES-S01-200 200 0.1% 0 to 1mA DC RES-S06-01K RES-S01-01K 1k 0.1%

SE1D, SE1D-F, SEWD: When using as a current loop supply or as an isolator, be sure

to wire the unit as follows.

SE1D, SEWD

As a current loop supply As an isolator

(Fig. 4.3.3-1) (Fig. 4.3.3-2)

SE1D-F

As a current loop supply As an isolator

(Fig. 4.3.3-3) (Fig. 4.3.3-4)

Page 18

5. Operation flowchart

POWER ON

The Input display indicates CH1 input characters & unit, and the Output display indicates CH2 input characters & unit for 3 sec after power is turned on. See (Table 5-1).

RUN mode

CH1 output adjustment group

CH2 output adjustment group

CH1 function group

Output zero adjst.

-5.00 to 5.00%

Output zero adjst.

-5.00 to 5.00%

Output span adjst.

-5.00 to 5.00%

Output span adjst.

-5.00 to 5.00%

Input type

: Thermocouple : RTD : DC current : DC voltage

Input range

See (Table 5-1).

Decimal point place (*2)

:No decimal point :1dgt after point :2dgts after point :3dgts after point

Output 0% value

Input range low limit to

Output 100% value

DC input: -1999 to

Output 100% value

Output 0% value to

Input range high limit DC input: Output 0% value to 9999

Filter time constant

0.0 to 10.0 sec

Sensor correction

-100.0 to 100.0 ( )

-1000 to 1000 (DC input)

Output type

See (Table 5-2).

Output Normal/Reverse

: Normal : Reverse

Burnout

: Upscale : Downscale

(Table 5-1)

Item Input type & range Item Input type & range

Thermocouple

K -200 to 1370 K -328 to 2498

K -200 to 200 (*1) K -328 to 392 (*1)

K 0 to 400 (*1) K 32 to 752 (*1)

J -200 to 1000 J -328 to 1832

J -200 to 200 (*1) J -328 to 392 (*1)

J 0 to 400 (*1) J 32 to 752 (*1)

R -50 to 1760 R -58 to 3200

S -50 to 1760 S -58 to 3200

B 0 to 1820 B 32 to 3308

E -200 to 800 E -328 to 1472

T -200 to 400 (*1) T -328 to 752 (*1)

N -200 to 1300 N -328 to 2372

PL- 0 to 1390 PL- 32 to 2534

W5Re/W26Re 0 to 2315 W5Re/W26Re 32 to 4199

W3Re/W25Re 0 to 2315 W3Re/W25Re 32 to 4199

RTD

Pt100 -200 to 850 Pt100 -328 to 1562

Pt100 -100 to 100 (*1) Pt100 -148 to 212 (*1)

JPt100 -200 to 500 JPt100 -328 to 932

DC current DC voltage

4 to 20mA DC -1999to 9999 0 to 10mV DC -1999to 9999

0 to 20mA DC -1999to 9999 -10 to 10mV DC -1999 to 9999

0 to 16mA DC -1999to 9999 0 to 50mV DC -1999to 9999

2 to 10mA DC -1999to 9999 0 to 60mV DC -1999to 9999

0 to 10mA DC -1999to 9999 0 to 100mVDC -1999to 9999

1 to 5mADC -1999 to 9999 0 to 1V DC -1999 to 9999

0 to 1mADC -1999 to 9999 0 to 5V DC -1999 to 9999

1 to 5V DC -1999to 9999

0 to 10VDC -1999 to 9999

(*1): “No decimal point” and “1 digit after the decimal point” can be selected. (*2): Indicates when DC current or DC voltage is selected or when an input type

marked (*1) from thermocouple and RTD is selected during Input type selection.

(Table 5-2)

Item Output type Item Output type

4 to 20mA DC 0 to 1V DC

0 to 20mA DC 0 to 5V DC

0 to 12mA DC 1 to 5V DC

0 to 10mA DC 0 to 10V DC

1 to 5mA DC

This flowchart is for the SE2U.

Depending on model and spec, some items do not appear.

For details, refer to

Sections 6. Setup and 7. Adjustment.

Page 19

CH2 function group CH1 & CH2

Special function group

Set value lock

: Unlock : Lock

Input type

: Thermocouple : RTD : DC current : DC voltage

Input range

See (Table 5-1).

Input sampling period (Response time)

: 25ms [65ms (typ.) (0 90%)] : 125ms [225ms (typ.) (0 90%)] : 250ms [425ms (typ.) (0 90%)]

Decimal point place (*2)

: No decimal point : 1dgt after point : 2dgts after point : 3dgts after point

Auto-light function

: Ineffective : Effective

Display selection

Input display Output display

CH1 input value CH1 output value CH2 input value CH2 output value

Output 0% value

Input range low limit to

Output 100% value

DC input: -1999 to

Output 100% value

CH1 input value CH2 input value CH1 output value CH2 output value No indication No indicationOutput 100% value

Output 0% value to

Input range high limit DC input: Output 0% value to 9999

Indication time

00.00 (Continuous)

00.01 to 60.00 (Minutes.Seconds)

Filter time constant

0.0 to 10.0 sec

Sensor correction

-100.0 to 100.0 ( )

-1000 to 1000 (DC input)

Output type

See (Table 5-2).

Output Normal/Reverse

: Normal : Reverse

Burnout

: Upscale : Downscale

[About setting items]

Output zero adjst.

-5.00 to 5.00%

• Upper left : Shows characters on the Input display.

• Lower left : Shows default value on the Output display.

• Right : Shows setting item and range.

[Key operation]

• , : This means that if the or key is pressed, the unit proceeds to the next setting setting mode.

• The or key sets (selects) setting items, and

the key registers the set value.

• By pressing the key for 3 seconds, it is

possible to return to RUN mode from any setting mode.

This flowchart is for the SE2U.

Depending on model and spec, some items do not appear.

For details, refer to

Sections 6. Setup and 7. Adjustment.

Page 20

6. Setup

Setup should occur before using this unit, to set the Input type (SE2U, SE1U, SEWU), Input range (SE2U, SE1U, SEWU), Output 0% value, Output 100% value, Output type etc. according to the users’ conditions. Setup is conducted in the CH1 function group, CH2 function group (SE2 , SEW ) and Special function group. If the users’ specifications are the same as the default value of the instrument, or if setup has already been completed, it is not necessary to set up the instrument. Proceed to Section “7. Adjustment”. Refer to Default values on (Table 6-1) and (Table 6-2).

(Table 6-1)

Function group

For the SE2 , CH1 and CH2 have respective setting items. For the SEW , Input/Output 1, Output 2 have respective setting items.

Setting item Default value

Input type DC voltage (Only available for the SE2U, SE1U, SEWU)

1 to 5V DC -1999 to 9999 (SE2U, SE1U, SEWU, SE2V, SE1V) 4 to 20mA DC -1999 to 9999 (SE2A, SE1A) K -200 to 1370 (SE2E, SE1E) Pt100 -200 to 850 (SE2R, SE1R)

Input range

Not available for the SE2P, SE1P, SE1D, SE1D-F, SEWD

Decimal point place No decimal point

-1999 (SE2U, SE2A, SE2V, SE2P, SE1U, SE1A, SE1V, SE1P, SE1D, SE1D-F, SEWU, SEWD)

Output 0% value

-200 (SE2E, SE2R, SE1E, SE1R)

9999 (SE2U, SE2A, SE2V, SE2P, SE1U, SE1A, SE1V,

SE1P, SE1D, SE1D-F, SEWU, SEWD)

1370 (SE2E, SE1E)

Output 100% value

850 (SE2R, SE1R)

Filter time constant 0.0 sec

0 (SE2U, SE2A, SE2V, SE2P, SE1U, SE1A, SE1V,

SE1P, SE1D, SE1D-F, SEWU, SEWD)

Sensor correction

0.0 (SE2E, SE2R, SE1E, SE1R)

Output type 4 to 20mA DC Output Normal/Reverse Normal Burnout Upscale (SE2E, SE2R, SE1E, SE1R)

(Table 6-2)

Special function group

For the SE2U, SE2P, these items are common to CH1 and CH2.

Setting item Default value

Set value lock Unlock Input sampling period (Response time)

250ms [425ms (typ.) (0 90%)]

Auto-light function Ineffective

CH1 Input/Output (SE2 )

Display selection

Input/Output (SE1 , SEW )

Indication time 00.00 (Continuous indication)

Page 21

6.1 Indication after power-on

After power-on, the unit moves to warm-up status for approx. 3 sec as shown below (Fig. 6.1-1) and (Fig. 6.1-2).

SE2

(Fig. 6.1-1)

SE1 , SEW

(Fig. 6.1-2)

Lights when power-on.

Indicates CH1 input range. Indicates when default value is 1 to 5V DC.

Indicates the input range.

Indicates when default value is 1 to 5V DC. The SE1D and SE1D-F indicate .

Indicates the output type

. Indicates when default value is 4 to 20mA DC.

Indicates CH2 input range. Indicates when default value is 1 to 5V DC.

Lights when power-on.

Page 22

After that, the unit switches to the RUN mode as shown below (Fig. 6.1-3), (Fig. 6.1-4).

SE2

(Fig. 6.1-3)

SE1 , SEW

(Fig. 6.1-4)

6.2 Basic operation of setup

Setup is conducted in each function group. In the function groups, CH1 and CH2 should be set respectively for the SE2 . In Special function group, setting items are common to CH1 and CH2 for the SE2 .

(e.g.) To enter the CH1 function group for the SE2U:

(1) Press the key 3 times in the RUN mode. (Fig. 6.2-1) (2) Press the key while CH1 function group characters are indicated. (Fig. 6.2-2) (3) The unit moves to the “Input type selection” in CH1 function group.

To set (select) each item, use the or key, and register the value with the

key. (Fig. 6.2-3) If the key is pressed at the last setting item of each group, the unit reverts to the RUN mode.

Lights when

power

on.

Indicates the input value.

Indicates the output value in a percentage form (%).

Indicates the output value corresponding to the input value in a percentage form (%).

Output

value

Input

value

Input

value

Output

value

Lights when

power

on.

The relevant indicator lights when the Input and Output displays indicate CH1 or CH2 value.

Indicates the input value.

Indicates the output value in a percentage form (%).

Indicates the output value corresponding to the input value in a percentage form (%).

Page 23

utput

value

Input

value

(1) RUN mode

(Fig. 6.2-1)

(2) CH1 function group

(Fig. 6.2-2)

(3) Input selection

(Fig. 6.2-3)

To set (or select) each item, use these keys.

Press the key while CH1 function group characters are indicated.

To proceed to each setting item or to register the set (selected) value, use this key.

Press the key 3 times in the RUN mode.

Page 24

6.3 Setup of the unit

6.3.1 Function group

For the SE2 , this is CH1 function group. For the SEW , this is Input/Output 1 function group. To enter the function group, follow the procedures below.

(1) Press the key in the RUN mode until the left characters appear. (2) Press the key. The Input type selection item appears.

Set up the unit referring to the explanation of each item.

Display Name, Function, Setting range Default value

Input type DC voltage input

OUT

Selects an input type. Only available for the SE2U, SE1U, SEWU.

: Thermocouple input : RTD input : DC current input

: DC voltage input Thermocouple input range K: -200 to 1370 Selects thermocouple input range. Available for thermocouple input

: K

: K (*)

: J

: J (*)

: R

: S

: B

: E

: T (*)

: N

: PL-

: W5Re/W26Re

: W3Re/W25Re

-200 to 1370

-200 to 200 0 to 400

-200 to 1000

-200 to 200 0 to 400

-50 to 1760

-50 to 1760 0 to 1820

-200 to 800

-200 to 400

-200 to 1300 0 to 1390 0 to 2315 0 to 2315

OUT

: K : K (*) : K (*) : J : J (*) : J (*) : R : S : B : E : T (*) : N : PL: W5Re/W26Re : W3Re/W25Re

-328 to 2498

-328 to 392

32 to 752

-328 to 1832

-328 to 392

32 to 752

-58 to 3200

-58 to 3200 32 to 3308

-328 to 1472

-328 to 752

-328 to 2372 32 to 2534 32 to 4199 32 to 4199

Page 25

Display Name, Function, Setting range Default value

RTD input range

Pt100: -200 to 850

Selects RTD input range. Available for RTD input

OUT

: Pt100 : Pt100 (*) : JPt100

-200 to 850

-100 to 100

-200 to 500

-328 to 1562

-148 to 212

-328 to 932

DC current input range

4 to 20mA DC: -1999 to 9999

Selects DC current input range. Available for DC current input

OUT

: 4 to 20mA DC : 0 to 20mA DC : 0 to 16mA DC : 2 to 10mA DC : 0 to 10mA DC : 1 to 5mA DC : 0 to 1mA DC

-1999 to 9999

DC voltage input range

1 to 5V DC: -1999 to 9999

Selects DC voltage input range. Available for DC voltage input

OUT

: 0 to 10mV DC : -10 to 10mV DC : 0 to 50mV DC : 0 to 60mV DC : 0 to 100mV DC : 0 to 1V DC : 0 to 5V DC : 1 to 5V DC : 0 to 10V DC

-1999 to 9999

Decimal point place

No decimal point

OUT

Selects the decimal point place. Available for DC current, voltage input When (*) range is selected during Thermocouple and RTD input range selection, “No decimal point” or “1 digit after decimal point” are selectable.

: No decimal point : 1 digit after decimal point : 2 digits after decimal point : 3 digits after decimal point

Output 0% value

-1999 (SE2U, SE2A, SE2V, SE2P, SE1U, SE1A, SE1V, SE1P, SE1D, SE1D-F, SEWU, SEWD)

-200 (SE2E, SE2R, SE1E, SE1R)

OUT

• Thermocouple, RTD input: Sets the temperature at 0% output. Setting range: Input range low limit to Output 100% value

• DC current, voltage input or SE1D, SE1D-F, SE2P: Sets the value (indicated on the Input display) at 0% output. Setting range: -1999 to Output 100% value

Page 26

Display Name, Function, Setting range Default value

Output 100% value

9999 (SE2U, SE2A, SE2V, SE2P,

SE1U, SE1A, SE1V, SE1P, SE1D, SE1D-F, SEWU, SEWD)

1370 (SE2E, SE1E) 850 (SE2R, SE1R)

OUT

• Thermocouple, RTD input: Sets the temperature at 100% output. Setting range: Output 0% value to Input range high limit value

• DC current, voltage input or SE1D, SE1D-F, SE2P: Sets the value (indicated on the Input display) at 100% output.

• Setting range: Output 0% value to 9999

Filter time constant

0.0 seconds

OUT

Sets the filter time constant. Reduces input fluctuation caused by noise. Setting range: 0.0 to 10.0 seconds

Sensor correction

0 (SE2U, SE2A, SE2V, SE2P,

SE1U, SE1A, SE1V, SE1P, SE1D, SE1D-F, SEWU, SEWD)

0.0 (SE2E, SE2R, SE1E, SE1R)

OUT

Sets the sensor correction value. Input value = Current input value + (Sensor correction value) Setting range:

Thermocouple, RTD input: -100.0 to 100.0 ( )

DC current, voltage, potentiometer input, current loop supply: -1000 to 1000

Output type

4 to 20mA DC

Selects the output type. For the SEW , this is Output 1 type.

OUT

: 4 to 20mA DC : 0 to 20mA DC : 0 to 12mA DC : 0 to 10mA DC : 1 to 5mA DC

: 0 to 1V DC : 0 to 5V DC : 1 to 5V DC : 0 to 10V DC

Output Normal/Reverse

Normal

OUT

Selects either Output Normal mode (0.0 to 100.0%) or Reverse mode (100.0 to 0.0%), corresponding to the input.

: Normal : Reverse

Burnout

Upscale

OUT

Selects Upscale (110.0%) or Downscale (-10.0%) output when input indicates burnout. Available for thermocouple, RTD input.

: Upscale : Downscale

Page 27

6.3.2 CH2 function group

Available only for the SE2 , SEW . For the SEW , this is Output 2 function group.

To enter CH2 function group, follow the procedures below. (1) Press the key until the left characters appear. (2) Press the key. CH2 Input selection item appears.

For the SEW , Output 0% value setting item will be indicated.

Setting items are the same as those of Section “6.3.1 Function group”. For the SEW , Output 0% value, Output 100% value, Output type, Output Normal/Reverse selection item will be indicated. Set up the unit referring to the explanation of each function group.

6.3.3 Special function group

For the SE2 , this is common to CH1 and CH2. To enter the Special function group, follow the procedures below.

(1) In the RUN mode, press the key until the left characters appear. (2) Press the key. Set value lock item appears.

Set up the unit referring to the explanation of each item.

Display Name, Function, Setting range Default value

Set value lock Unlock

OUT

Locks the set values to prevent setting errors.

: Unlock

: Lock (None of the set values or adjusted values can be changed.)

Input sampling period (Response time) 250ms [425ms(typ.)(0 90%)]

OUT

Selects input sampling period (Response time).

: 25ms [65ms (typ.) (0 90%)] : 125ms [225ms (typ.) (0 90%)] : 250ms [425ms (typ.) (0 90%)]

Auto-light function Ineffective

OUT

Selects Auto-light Effective/Ineffective.

: Ineffective

: Effective

Display selection CH1 Input/Output (SE2 )

Input/Output (SE1 , SEW )

OUT

Selects items to be indicated on the display SE2 :

: CH1 Input/Output : CH2 Input/Output : Input (CH1/CH2) : Output (CH1/CH2) : No indication (Only the power indicator is lit.)

SE1 , SEW :

: Input/Output : Input : Output : No indication (Only the power indicator is lit.)

Page 28

Display

Name, Function, Setting range Default value

Indication time 00.00 (Continuous indication)

OUT

Sets the indication time of the display after the final key operation. Available when any item except No indication is selected during Display selection. The displays turn OFF (The power indicator remains lit) after indication time has passed. If the , , or SUB-MODE Key is pressed while displays are in OFF status, or if the power is turned ON again, the displays will light again. Setting item:

00.00: Continuous indication

00.01 (1 sec) to 60.00 (60 minutes) (Minute.Second)

6.3.4 Using this unit as a standard signal conditioner

Set the filter time constant to 0.0 seconds, and set the Output Normal/Reverse to “Normal”.

6.3.5 Using the Reverse function

This function reverses the output (100 to 0%) that corresponds to the input (0 to 100%). Set the Output Normal/Reverse selection to “Reverse”.

6.3.6 Using the first order lag filter function

The value is outputted by performing the first order lag computation using the filter time constant “T”. (Fig. 6.3.6-1) Set the filter time constant to a random value (0.0 to 10.0 seconds).

(Fig. 6.3.6-1)

Time

Input

Output

Time

Page 29

Output

value

Input

value

7. Adjustment

Performs the output zero and span adjustments. For the SE2 , adjust CH1, CH2 respectively. For the SEW , adjust Output 1, Output 2 respectively. For the SE1P, adjust Potentiometer input zero and span. For the SE2P, adjust Potentiometer input zero and span for CH1, CH2 respectively.

Connect an mV generator or Dial resistor to the input terminals of this instrument. Connect a digital multimeter to output terminals.

7.1 Basic operation of adjustment

Perform adjustment in the Output adjustment group. To enter Adjustment mode, press the key in the RUN mode. (Fig. 7.1-1) Press the key while CH1 output adjustment group characters are indicated. (Fig. 7.1-2)

The unit will proceed to the “Output zero adjustment” in CH1 output adjustment group. For output adjustment, use the or key, and register the value with the key.

(Fig. 7.1-3)

Potentiometer input adjustment is for the SE1P or SE2P. Potentiometer input zero adjustment is automatically performed with the key. Pressing the key registers the value.

Potentiometer input span adjustment is automatically performed with the key. Pressing the key registers the value.

If the key is pressed at the last adjustment item, the unit will revert to the RUN mode.

(1) RUN mode

(Fig. 7.1-1)

Press the once in the RUN mode.

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(2) Output adjustment group

(Fig. 7.1-2)

(3) Output zero adjustment

(Fig. 7.1-3)

7.2 Adjustment

7.2.1 Output adjustment group

For the SE2 , this is CH1 output adjustment group. For the SEW , this is Output 1 adjustment group. To enter the Output adjustment group, follow the procedures below.

(1) In the RUN mode, press the key once. (2) Press the key. Output zero adjustment item appears.

Adjust the unit referring to the explanation of each item.

Press the key while the output adjustment group characters are indicated.

Please use these keys for adjustment.

To proceed to each adjustment item in the Adjustment mode and to register the adjusted value, please use this key.

Page 31

Display Name, Function, Setting range Default value

Output zero adjustment

0.00% Adjusts output zero. For the SE2 , this is CH1 output zero adjustment. For the SEW , this is Output 1 zero adjustment. Input the value corresponding to 0% output, then adjust the value with the

or key while viewing the output value (on the digital multimeter).

When the output range lower limit is zero, (even if zero adjustment results in a negative value), the output value will not be negative.

Setting range: -5.00 to 5.00% Effective range of adjustment differs depending on the output types.

OUT

4 to 20mA DC: -5 to 5% 0 to 20mA DC: 0 to 5% 0 to 12mA DC: 0 to 5% 0 to 10mA DC: 0 to 5% 1 to 5mA DC : -5 to 5%

0 to 1V DC : 0 to 5% 0 to 5V DC : 0 to 5% 1 to 5V DC : -5 to 5% 0 to 10V DC: 0 to 5%

Output span adjustment

0.00%IN

OUT

Adjusts output span. For the SE2 , this is CH1 output span adjustment. For the SEW , this is Output 1 span adjustment. Input the value corresponding to 100% output, then adjust the value with the or key while viewing the output value (on the digital multimeter). Setting range: -5.00 to 5.00%

Effective range of adjustment is 95 to 105%.

Potentiometer input zero adjustment

-1999

OUT

Adjusts Potentiometer input zero (SE1P, SE2P). Set the potentiometer to the MIN side, and press the key once.

Potentiometer input zero will be automatically adjusted.

Potentiometer input span adjustment

9999

OUT

Adjusts Potentiometer input span (SE1P, SE2P). Set the potentiometer to the MAX side, and press the key once.

Potentiometer input span will be automatically adjusted.

7.2.2 CH2 output adjustment group

Available only for the SE2 , SEW . For the SEW , this is Output 2 adjustment group. To enter the CH2 output adjustment group, follow the procedures below.

(1) In the RUN mode, press the key twice. (2) Press the key. CH2 output zero adjustment item appears.

Setting items are the same as those of Section “7.2.1 Output adjustment group”. Adjust the unit referring to the explanation of the Output adjustment group.

Page 32

8. Operation

8.1 Indication after power-on

After power-on, the unit moves to warm-up status for 3 seconds as shown below (Fig. 8.1-1) and (Fig. 8.1-2).

SE2

(Fig. 8.1-1)

SE1 , SEW

(Fig. 8.1-2)

Lights after power-on.

Indicates the input range. See (Table 8.1-1) on p.33. Indicates when default value is 1 to 5V DC.

SE1D, SE1D-F: Indicates .

Indicates the output type. See (Table 8.1-2) on p.33. Indicates when default value is 4 to 20mA DC.

Indicates CH1 input range. See (Table 8.1-1) on p.33. Indicates when default value is 1 to 5V DC.

Indicates CH2 input range. See (Table 8.1-1) on p.33. Indicates when default value is 1 to 5V DC.

Lights after power-on.

Page 33

(Table 8.1-1)

Input display

Input

K K K J J J R S B E T N PLW5Re/W26Re W3Re/W25Re

: -200 to 1370 : -200 to 200 : 0 to 400 : -200 to 1000 : -200 to 200 : 0 to 400 : -50 to 1760 : -50 to 1760 : 0 to 1820 : -200 to 800 : -200 to 400 : -200 to 1300 : 0 to 1390 : 0 to 2315 : 0 to 2315

: -328 to 2498 : -328 to 392 : 32 to 752 : -328 to 1832 : -328 to 392 : 32 to 752 : -58 to 3200 : -58 to 3200 : 32 to 3308 : -328 to 1472 : -328 to 752 : -328 to 2372 : 32 to 2534 : 32 to 4199

: 32 to 4199 Pt100 Pt100 JPt100

: -200 to 850 : -100 to 100 : -200 to 500

: -328 to 1562

: -148 to 212

: -328 to 932 4 to 20mA DC

0 to 20mA DC 0 to 16mA DC 2 to 10mA DC 0 to 10mA DC 1 to 5mA DC 0 to 1mA DC

: -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999

0 to 10mV DC

-10 to 10mV DC

0 to 50mV DC 0 to 60mV DC

0 to 100mV DC

0 to 1V DC 0 to 5V DC 1 to 5V DC 0 to 10V DC

: -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999 : -1999 to 9999

(Table 8.1-2)

Output Output display

4 to 20mA DC 0 to 20mA DC 0 to 12mA DC 0 to 10mA DC 1 to 5mA DC

0 to 1V DC 0 to 5V DC 1 to 5V DC 0 to 10V DC

Page 34

Output

value

Input

value

Output

value

Input

value

8.2 Unit operation

The unit enters the RUN mode after 3-second warm-up. (Fig. 8.2-1), (Fig. 8.2-2) The input selected during Input type selection is converted to the output selected during Output type selection.

SE2

(Fig. 8.2-1)

SE1 , SEW

(Fig. 8.2-2)

• Indication when input value is -200.0 (-2000) or less When the range has a decimal point: For the indication of -200.0 or less (up to –10% output), the input value and the minus (-) sign are indicated alternately. For DC current or voltage input, the indication of -2000 or less is the same as the above.

(e.g.) Indication of -200.0

IN IN

• Indication when input value is 10000 or more When DC current or voltage input is selected: For the indication of 10000 or more (up to 110% output), the lower 4 digits of input value are flashing.

(e.g.) Indication of 10020

Flashes.

Lights after power-on.

Indicates the input value.

Indicates the output value in a percentage form (%). Output value corresponding to

the input value is indicated in a percentage form (%).

Lights after power-on.

CH1 or CH2 indicator lights when its I/O values are indicated respectively.

Indicates the output value in a percentage form (%). Output value corresponding to the input value is indicated in a percentage form (%).

Indicates the input value.

Page 35

• Underrange, Overrange and Sensor burnout indication The following will be indicated whatever setting item is selected during “Display selection”. Underrange: " " flashes on the Input display. Overrange : " " flashes on the Input display.

• Indication time setting If indication time is set, the displays will go off after the indication time has elapsed. (Only the power indicator remains lit.) If power is turned on again, or if any of the keys , , or the SUB-MODE Key is pressed while displays are unlit, the displays will light again.

9. Specifications

Input specifications

SE2U/SE1U/ SEWU (Thermocouple) SE2E, SE1E

Input resistance: 1M or more External resistance: 100 or less, However, B: 40 or less Burnout: Upscale, Downscale (Selectable by keypad) Input:

Thermocouple Input range

K -200 to 1370 -328 to 2498

J -200 to 1000 -328 to 1832

R -50 to 1760 -58 to 3200

S -50 to 1760 -58 to 3200 B 0 to 1820 32 to 3308 E -200 to 800 -328 to 1472 T -200 to 400 -328 to 752

N -200 to 1300 -328 to 2372

PL- 0 to 1390 32 to 2534 W5Re/W26Re 0 to 2315 32 to 4199 W3Re/W25Re 0 to 2315 32 to 4199

The minimum input span is 50 (100 ).

SE2U/SE1U/ SEWU (RTD) SE2R, SE1R

Input detection current: Approx. 0.2mA Allowable lead wire resistance: 10 or less per wire Burnout: Upscale, Downscale (Selectable by keypad) Input:

RTD Input range

Pt100 -200 to 850 -328 to 1562

JPt100 -200 to 500 -328 to 932

The minimum input span is 50 (100 ).

SE2U/SE1U/ SEWU (DC current) SE2A, SE1A

Input Shunt resistor 4 to 20mA DC

0 to 20mA DC 0 to 16mA DC

2 to 10mA DC 0 to 10mA DC

100

1 to 5mA DC 200 0 to 1mA DC 1k

Connect a shunt resistor (sold separately) between input terminals.

Page 36

SE2U/ SE1U/ SEWU (DC voltage) SE2V, SE1V

Input Input resistance

Allowable signal

source resistance

0 to 10mV DC 20 or less

-10 to 10mV DC 40 or less 0 to 50mV DC 0 to 60mV DC 0 to 100mV DC

200 or less

0 to 1V DC 2k or less 0 to 5V DC 1 to 5V DC 0 to 10V DC

1k or less

SE1D, SE1D-F SEWD

Input Shunt resistor

4 to 20mA DC 50 built-in

SE2P, SE1P Potentiometer

Total resistance: 100 to 10k Excitation: 1.0V DC

Output specifications

When the output range lower limit is zero, (even if zero adjustment results in a negative value), the output value will not be negative.

DC current

Output

Allowable load

resistance

Zero adjustment

range

Span adjustment

range

4 to 20mA DC 700 or less -5 to 5% 95 to 105% 0 to 20mA DC 700 or less 0 to 5% 95 to 105% 0 to 12mA DC 1.2k or less 0 to 5% 95 to 105% 0 to 10mA DC 1.2k or less 0 to 5% 95 to 105% 1 to 5mA DC 2.4k or less -5 to 5% 95 to 105%

DC voltage

Output

Allowable load

resistance

Zero adjustment

range

Span adjustment

range

0 to 1V DC 100 or more 0 to 5% 95 to 105% 0 to 5V DC 500 or more 0 to 5% 95 to 105% 1 to 5V DC 500 or more -5 to 5% 95 to 105%

0 to 10V DC 1k or more 0 to 5% 95 to 105%

Power supply for 2-wire transmitter (SE1D, SE1D-F, SEWD )

Output voltage

24 to 28V DC (when load current is 20mA DC)

Ripple voltage

Within 200mV DC (when load current is 20mA DC)

Max load current

25mA DC

Output impedance

(SE1D-F)

240 (Suitable for Field communicator usage)

Page 37

Performance

Accuracy (at 23 )

SE2U/SE1U/SEWU (thermocouple input), SE2E, SE1E:

Within 0.1% of each input span R, S input -50 to 200 (-58 to 392 ): Within 6 (12 ) B input 0 to 300 (32 to 572 ): Accuracy is not guaranteed. K, J, E, T, N input, less than 0 (32 ): Within 0.4% of each input span

SE2U/SE1U/SEWU (RTD input), SE2R, SE1R:

Within 0.1% of each input span SE2U/SE1U/SEWU (DC current, voltage input), SE2A, SE2V, SE1A, SE1V, SE2P, SE1P, SE1D, SE1D-F, SEWD: Within 0.1% Output: Within 0.1%

Cold junction compensation accuracy

Within 1 at -5 to 55 [SE2U/SE1U/SEWU (thermocouple input), SE2E, SE1E]

Indication accuracy

Within input accuracy 1 digit

Input sampling period

25ms, 125ms, 250ms (Selectable by keypad)

Response time 65ms (typ.) (0 90%) (Input sampling period 25ms)

225ms (typ.) (0 90%) (Input sampling period 125ms) 425ms (typ.) (0 90%) (Input sampling period 250ms)

Temperature coefficient

0.015%/ or less

Insulation resistance

Input – Output – Power: 10M or more, at 500V DC

Dielectric strength

Input – Output – Power: 2.0kV AC for 1 minute

General structure

Case Flame-resistant resin, Color: Light gray Front panel Membrane sheet Setting Setting by the front keypad

Console connector For the CMB-001 (USB communication cable)

Displays, Indicators

Input display : 7 segments Red LED display 4 digits

Character size:10 x 4.6mm (H x W)

Output display : 7 segments Red LED display 4 digits

Character size: 10 x 4.6mm (H x W) Power indicator: Green LED CH1 indicator : Yellow LED (SE2 ) CH2 indicator : Yellow LED (SE2 )

Installation specifications

Power supply

100 to 240V AC 50/60Hz, 24V AC/DC 50/60Hz

Allowable voltage range

85 to 264V AC，20 to 28V AC/DC

Power consumption

SE2 , SEW : Approx. 8VA SE1 : Approx. 6VA

Ambient temperature

-5 to 55 (23 to 131 )

Ambient humidity

35 to 85%RH (Non-condensing)

Weight SE2 , SE1 , SEW : Approx. 190g (socket included)

SE1D, SE1D-F : Approx. 180g (socket included)

Mounting

DIN rail mounting

Dimensions

30 (W) x 88 (H) x 108 (D) mm (socket included)

Page 38

Attached function

Auto-light function

Display brightness is controlled after measurement from the front light sensor. This saves energy.

Power failure countermeasure

The setting data is backed up in the non-volatile IC memory.

Self-diagnosis

The CPU is monitored by a watchdog timer, and if an abnormal status is found on the CPU, the controller is switched to warm-up status.

Cold junction temperature compensation

This detects the temperature at the connecting terminal between the thermocouple and the instrument, and always maintains it at the same status as if the reference junction location temperature was at 0 (32 ). Available for the SE2U/SE1U/SEWU (thermocouple input), SE2E, SE1E

10. Troubleshooting

10.1 Indication

Problem Presumed cause and solution

The Input display is flashing " " or " ".

• The sensor may be burnt out. Change each sensor.

• Check whether the sensor is securely connected to the input

terminals of the instrument. Ensure that the sensor terminals are securely connected to the input terminals of the instrument.

• Check the input signal source.

• Check whether polarity of thermocouple or compensating

lead wire is correct. Check whether codes (A, B, B) of the RTD match with the instrument terminals.

Ensure that they are wired properly. The indication of the Input display is irregular or unstable.

• Check whether the sensor input and temperature unit ( / ) setting are correct. Ensure that sensor type and temperature unit ( / ) are set properly.

• Check whether the sensor correction value is suitable. Set it to a suitable value.

• AC leaks into the sensor circuit. Use an ungrounded type sensor.

• There may be equipment that interferes with or makes noise near the unit. Keep equipment that interferes with or makes noise away from the unit.

10.2 Key operation

Problem Presumed cause and solution

Setting or adjustment is not possible.

• “Lock” is selected during Set value lock selection. Select “Unlock”.

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10.3 Operation

Problem Presumed cause and solution

Input value does not change.

• The sensor may be out of order. Change the sensor.

• Check whether input and output wires are securely connected

to the I/O terminals of the instrument. Ensure that input and output wires are securely connected to the I/O terminals.

• Check whether the wiring of input and output is correct.

No output • Check whether Output 100% and Output 0% value have been

set to suitable values.

• Check whether Output type has been selected correctly during Output type selection, and whether Output Normal/Reverse has been selected correctly during Output Normal/Reverse selection.

11. Character table

Default values are indicated in the following tables.

Function group

For the SE2 , CH1 and CH2 have respective setting items. For the SEW , Input/Output 1, Output 2 have respective setting items.

Display Setting item Default value Data

Input type DC voltage (SE2U, SE1U, SEWU)

Thermocouple input range K -200 to 1370 (SE2E, SE1E)

RTD input range Pt100 -200 to 850 (SE2R, SE1R)

DC current input range

4 to 20mA DC -1999 to 9999 (SE2A, SE1A)

DC voltage input range

1 to 5V DC -1999 to 9999 (SE2U, SE1U, SEWU, SE2V, SE1V)

Decimal point place No decimal point

Output 0% value

-1999 (SE2U, SE2A, SE2V, SE2P, SE1U, SE1A, SE1V, SE1P, SE1D, SE1D-F, SEWU, SEWD)

-200 (SE2E, SE2R, SE1E, SE1R)

Output 100% value

9999 (SE2U, SE2A, SE2V, SE2P,

SE1U, SE1A, SE1V, SE1P, SE1D, SE1D-F, SEWU, SEWD)

1370 (SE2E, SE1E) 850 (SE2R, SE1R)

Filter time constant 0.0 sec

Sensor correction

0 (SE2U, SE2A, SE2V, SE2P,

SE1U, SE1A, SE1V, SE1P, SE1D, SE1D-F, SEWU, SEWD)

0.0 (SE2E, SE2R, SE1E, SE1R)

Output type 4 to 20mA DC

Output Normal/Reverse Normal

Burnout

Upscale (SE2E, SE2R, SE1E, SE1R)

Page 40

SHINKO TECHNOS CO.,LTD.

OVERSEAS DIVISION

: : :

Reg. Office URL E-mail

2-5-1, Senbahigashi, Minoo, Osaka, Japan

http://www.shinko-technos.co.jp

overseas@shinko-technos.co.jp

Tel : Fax:

+81-72-727-6100 +81-72-727-7006

Special function group (For the SE2U, SE2P, common to CH1 and CH2.)

Display Setting item Default value Data

Set value lock Unlock Input sampling period

(response time)

250ms [425ms (typ.) (0 90%)]

Auto-light function Ineffective

Display selection

CH1 Input/Output (SE2 ), Input/Output (SE1 , SEW )

Indication time 00.00 (Continuous indication)

Output adjustment group

For the SE2 , CH1 and CH2 have respective adjustment items. For the SEW , Output 1 and Output 2 have respective adjustment items.

Display Setting item Default value Data

Output zero adjustment 0.00% Output span adjustment 0.00%

Potentiometer input zero -1999 (SE2P, SE1P) Potentiometer input span 9999 (SE2P, SE1P)

******* Inquiries *******

For any inquiries about this unit, please contact the vendor where you purchased the unit or our agency after checking the following.

(e.g.)

• Model ........................………. SE - -

• Serial number ….................... No. xxxxxx

In addition to the above, please let us know the details of malfunction, if any, and the operating conditions.

No.SE11E4 2010.09