Shinko SE series Instruction Manual Download Page 5 | Manualshive

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CONTENTS

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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

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Summary of Contents for SE series

Page 1: ...PLUG IN TYPE PROGRAMMABLE SIGNAL CONDITIONER SE SERIES INSTRUCTION MANUAL ...

Page 2: ...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 inte...

Page 3: ... 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 ...

Page 4: ...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: ...p 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 adjust...

Page 6: ... 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 ...

Page 7: ...d 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 stat...

Page 8: ...per 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 30 79 108 3 3 DIN rail 85 29 Socket sold separately 3 ...

Page 9: ...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: ...urn 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: ...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: ...erminal 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 ...

Page 13: ...CH2 output Insulation circuit Ch1 input circuit 1 2 3 4 5 6 7 8 CPU 13 14 9 10 11 12 Ch1 Ch2 input circuit Ch2 Ch1 output circuit Ch2 output circuit Power circuit Insulation 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 ...

Page 14: ...nsmitter 1 2 3 4 Input circuit A B B T C RTD mA DC 5 6 7 8 CPU Display Setting key circuit 13 14 9 10 11 12 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 ...

Page 15: ...ansmitter T C 1 2 3 4 5 6 7 8 CPU 13 14 9 10 11 12 A B B RTD mA DC mV 1V V 10V Insulation circuit 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 ...

Page 16: ...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...

Page 17: ...t 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...

Page 18: ...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...

Page 19: ...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 Inp...

Page 20: ... 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 SE2...

Page 21: ... 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: ...oves 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 percen...

Page 23: ...oup 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: ...lects 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 K J 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 ...

Page 25: ... 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 Decimal point place No decimal point IN 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...

Page 26: ...SE2A SE2V SE2P SE1U SE1A SE1V SE1P SE1D SE1D F SEWU SEWD 0 0 SE2E SE2R SE1E SE1R IN 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 IN OUT 4 to 20mA...

Page 27: ...ress 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 IN 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 ...

Page 28: ...t 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 Reve...

Page 29: ...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 adjustmen...

Page 30: ...he 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 v...

Page 31: ... 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 IN OUT Adjusts Potentiometer input zero SE1P SE2P Set the potentiometer to the MIN side and press the key once Potentiometer input ze...

Page 32: ...s 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...

Page 33: ...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 ...

Page 34: ...ation 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 IN Flashes Lights after power on Indicates the input value Indicates the output value in a percentage form Ou...

Page 35: ...e 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 RT...

Page 36: ...le 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 1...

Page 37: ...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 ...

Page 38: ...eck 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 Th...

Page 39: ...ction 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 t...

Page 40: ... 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 abo...

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