Brainchild E62 PID Temperature Controller Instruction Manual

E62 PID Temperature Controller

Specifications

  • Model: E62 Ver: QS0E620C
  • Controller Type: PID Temperature Controller
  • Display: LED Display
  • Input: Thermocouple, RTD, Voltage, Current
  • Output: Relay, SSR, Analog
  • Power Supply: 100-240V AC


Overview & Appearance

The Economy PID Temperature Controller Model E62 Ver QS0E620C
features a user-friendly interface and a clear LED display for easy
operation.

Keys and Displays

Keypad Operation

  • SCROLL KEY: Used to select a parameter to be viewed or
    adjusted.
  • UP/Increase KEY: Increases the value of the selected
    parameter.
  • DOWN/Decrease KEY: Decreases the value of the selected
    parameter.
  • SHIFT KEY: Used for moving to the digit of the selected
    parameter and changing the value.
  • RESET: Pressing two keys simultaneously reverts the display to
    the home screen or stops manual control mode.
  • ENTER KEY: Press and hold for 5 seconds to perform calibration
    of a selected parameter.

Menu Flowchart

The menu is divided into 5 groups: User Menu, Auto-Tuning Mode
Menu, Manual Mode Menu, Setup Menu, and Calibration Mode Menu. Each
group contains specific parameters and functions for easy
navigation.

FAQ

How do I access the User Menu?

To access the User Menu, press the corresponding key on the
controller.

How do I activate Auto-Tuning Mode?

To activate Auto-Tuning Mode, press and hold a specific key for
5 seconds.

How do I enter Manual Control Mode?

To enter Manual Control Mode, press the designated key for 3
seconds.

How do I perform calibration?

To calibrate a parameter, press and hold the ENTER key for 5
seconds during the calibration procedure.

“`

Quick Operation Manual
For Economy PID Temperature Controller Model: E62 Ver: QS0E620C
1. Overview & Appearance

3.1 User Menu

Use key to enter basic menu parameters, and

press again to select SP1, SEL1~SEL8.

Press

to return to the previous.

PV,SV

3.4.4 User Select Menu (SEL)

Use or key get SEL in the lower display then use key to enter to select the user menu parameters.

SET

SEL

Process Unit
Lock Indicator Output Indicator Alarm Indicator Communication Manual Mode

PV: Process Value, Menu Symbol, Error Code, Auto-Tuning
SV: Set Point or Control Output

SCROLL/ENTER

UP/Increase

SHIFT DOWN/Decreaese

Front Panel and Function

2. Keys and Displays

KEYPAD OPERATION

SCROLL KEY:

This key is used to select a parameter to be viewed or adjusted.

UP/Increase KEY:

This key is used to increase the value of the selected

parameter.

DOWN/Decrease KEY:

This key is used to decrease the value of the selected

parameter.

SHIFT KEY:

This key is used to:

– Move to the digit of the selected parameter and change the

value by using up or down key to increase or decrease the

value.

Scroll Up: +

Two keys pressed synchronously are used to:

– Go to the previous parameter

RESET: +

Two keys pressed synchronously are used to:

– Revert the display to the home screen.

– Reset a latching alarm once the alarm condition is removed.

– Stop manual control mode, Auto-Tuning mode or calibration

mode.

– Clear an Auto-Tuning or communication error message.

– Enter the manual control menu if a failure mode occurs.

Scroll Down: +

Two keys pressed synchronously directly go to the Manual

control mode

ENTER KEY:

Press and hold for 5 seconds or longer to:

­ Enter the Auto-Tuning mode.

The display will show.

­ Enter the manual control mode.

The display will show.

­ Enter the setup menu mode.

The display will show.

­

Perform calibration of a selected parameter during the

calibration procedure. The display will show

3. Menu Flowchart

The Menu has been divided into 5 groups. They are as follows: 1. User Menu 2. Auto-Tuning Mode Menu 3. Manual Mode Menu 4. Setup Menu 5. Calibration Mode Menu

User Manual Auto-Tuning Mode Manual Mode Setup Menu Calibration Mode

PV Value

ATP

HAND

SET

CALI

3.1 Sec

4.2 Sec

5.3 Sec

6.4 Sec

7.5 Sec

To access parameter In the User Menu,

To start Auto-Tuning Mode,

To start Manual Control Mode,

To access parameterTo access in the Setup Menu, Calibration Mode,

Press for the next parameter ; Press and key to return to the previous parameter. Press and hold for 3.1 seconds, then let go to select auto tuning mode. Press and hold for 4.2 seconds, then let go, to select manual control mode. Press and hold for 5.3 seconds, then let go to select setup mode. Press and hold for 6.4 seconds, then let go to select calibration mode.

SP1

SEL1

SEL1

SEL2

SEL2

SEL3

SEL3

SEL4

SEL4

SEL5

SEL5

SEL6

SEL6

SEL7

SEL7

SEL8

SEL8

3.2 Auto-Tuning Mode

Press key 5 seconds to activate Auto-Tuning

Mode

A-t

3.3 Manual Mode Menu

Press key 3 seconds to execute the selected

default program

HANd

Enter Manual Control Mode; refer

3 Sec

to Manual 6.1 & 6.8.2~6.8.4

Query 06

00 H’48

Slave Function Code Register Address

MV1

Query H’68 H’27 HI LO

Slave Data Hi /Lo CRC16

3.4 Setup Menu

The setup menu has been categorized into eight categories. They are listed as below. 1. Basic Menu (bASE) 2. Output Menu (oUT) 3. Communication Menu (CoMM) 4. User Select Menu (SEL)

3.4.1 Basic Menu (bASE)

Use or key to get bASE in the lower display then use key to enter to basic menu parameters.

or

SET

bASE

LOCK INPT UNIT DP SP1L SP1H FILT PB
TI TD SHIF CICF
3.4.2 Output Menu (oUT)
Use or key to get oUT in the lower display then use key to enter to output menu parameters.

3.5 Calibration Mode

CALI

2 sec minimum 3 sec maximum

ADLO ADHI RTDL RTDH CJLO

Press key for 2 seconds or longer (not more than 3 seconds) ; then release it to enter calibration Mode. Press key for 5 seconds to perform calibration

* Please note that it is required to use specialized equipment to apply calibration, attempting to change will affect device accuracy

Note: · Using Manual, Auto-Tuning, Calibration modes
will break the control loop and change some of the previous setting data. Make sure that the system is allowable to apply these modes. · The flow chart shows a complete list of all parameters. For actual application, the number of available parameters will vary depending on the setup and model of the controller and will be less than that shown in the flow chart. · The user can select up to 8 parameters to put in the user select menu by using the SEL1~SEL8 parameters in the setup menu

Before you Start, Setup Input/Output

After power-up, press and hold

for 5.3

seconds, then let go to enter Setup Menu.

Complete Parameter setting, INPT, UNIT, DP,

O1TY, O1L and O1H.

-Enter the Setup Menu. Press for 5 seconds

to enter Basic Menu (bASE). Finish setting for

INPT, UNIT and DP. Exit the level.

-Return to the Setup Menu. Press for 5

seconds to enter Output Menu (oUT). Finish

setting for O1TY, O1L and O1H. Press and

hold

and return to homepage.

Power Up

SET

OUT

PV SV

5.3 sec

OUT1 CYC1 O1TY OP1L OP1H O1FT OFST O1HY PL1L PL1H A1FN A1MD A1HY A1DL A1FT A1SP A1DV A2FN A2MD A2HY A2DL A2FT A2SP A2DV
3.4.3 Communication Menu (CoMM)

bASE

oUT

5 sec

5 sec

INPT

O1TY

UNIT

OP1L

DP

OP1H

Exit

OP1L/ OP1H Table
Range OP1L
OM9A-3 4-20 20.0 OM9A-3 0-20 0.0 OM9A-5 0-5V 0.0 OM9A-5 1-5V 10.0

PV SV

OP1H
100.0 100.0 50.0 50.0

*When O1TY as DC.MA or DC.Vo, set the value based on usage requirement

OM9A-5 0-10 0.0 100.0

Terminal Connection

Use or key to get CoMM in the lower display then use key to enter to communication menu parameters.

SET

CoMM

* Please note that confirm

PTA

A2FN set to CoMM when ADDR

TC +

using communication.

BAUD

PT B

DATA

PARI

TC –

PT B

4. Parameter Notation 4.1 User Menu Parameter

Modbus Parameter Description

Range

Default Access

0

SP1

Set Point 1

Low: SP1L High: SP1H

64

PV

Process value

Low: -19999 High: 45536

65

SV

Current set point value

Low: SP1L High: SP1H

0 NONE

1 A1SP

44

SEL1

Select 1st parameter for user menu

2 A2SP 3 LOCK 4 INPT

5 PB

6 TI

7 TD 8 SHIF 9 OFST 10 O1HY 11 A1HY 12 A2HY 13 ADDR

25.0 °C

R/W

(77.0 °F)

R

——

R

——

R/W

45

SEL2

Select 2nd parameter Select 2nd parameter for user manual. Same as the SEL1

0

R/W

46

SEL3

Select 3rd parameter Select 3rd parameter for user manual. Same as the SEL1

0

R/W

47

SEL4

Select 4th parameter Select 4th parameter for user manual. Same as the SEL1

0

R/W

48

SEL5

Select 5th parameter Select 5th parameter for user manual. Same as the SEL1

0

R/W

49

SEL6

Select 6th parameter Select 6th parameter for user manual. Same as the SEL1

0

R/W

50

SEL7

Select 7th parameter Select 7th parameter for user manual. Same as the SEL1

0

R/W

51

SEL8

Select 8th parameter Select 8th parameter for user manual. Same as the SEL1

0

R/W

4.2 Manual Mode Parameter

Modbus Parameter Description

Range

Default Access

66

MV1

Output 1 %Value

Low: 0.00 High: 100.00 %

—–

R (R/W, Manual)

4.3 Basic (bASE) Parameter

Modbus Parameter Description

Range

Default Access

0 None: No parameter is locked

3

LOCK

Select parameters to be locked

1 SEt: Setup data are locked 2 uSEr: Setup data and user data are locked. SetPoint are unlocked.

0

R/W

3 ALL: All data are locked 0 J_tC: J type Thermocouple

1 K_tC: K type Thermocouple

4

INPT

Input sensor selection

2 t_tC: T type Thermocouple 3 R_tC: R type Thermocouple 4 S_tC: S type Thermocouple

1

R/W

5 Pt. dN: PT 100 DIN

6 Pt.JS: PT 100 JIS

5

UNIT

Input unit selection

0 oC: °C unit 1 oF: °F unit

0

R/W

6

DP

Decimal point selec- 0 No.dP: no decimal point

tion

1 1-dP: 1 decimal point

Low:

J_TC: -120.0°C (-184.0°F)

K_TC: -200.0°C (-328.0°F)

9

SP1L

Low limit of set point value

T_TC: -250.0°C (-418.0°F) R_TC: 0.0°C ( 32.0°F) S_TC: 0.0°C ( 32.0°F)

PTDN: -200.0°C (-328.0°F)

PTJS: -200.0°C (-328.0°F)

High: SP1H

Low: SP1L

High:

J_TC: 1000.0°C (1828.0°F)

10

SP1H

High limit of set point value

K_TC: 1370.0°C (2498.0°F) T_TC: 400.0°C ( 752.0°F) R_TC: 1767.7°C (3214.0°F)

S_TC: 1767.7°C (3214.0°F)

PTDN: 850.0°C (1562.0°F)

PTJS: 600.0°C (1112.0°F)

0 0: 0 sec time constant

1 0.2: 0.2 sec time constant

2 0.5: 0.5 sec time constant

3 1: 1 sec time constant

12

FILT

Filter damping time 4 2: 2 sec time constant constant of PV 5 15: 5 sec time constant

6 10: 10 sec time constant

7 20: 20 sec time constant

8 30: 30 sec time constant

9 60: 60 sec time constant

14

PB

Proportional band Low: 0.0

value

High: 500.0°C (900.0°F)

15

TI

Integral time value Low: 0, High: 3600 sec

1

R/W

-17.8 °C

(0.0 °F)

R/W

537.8 °C (1000.0 °F) R/W

2

R/W

10.0 °C (18.0 °F)

R/W

60

R/W

16

TD

Derivative time value Low: 0, High: 360.0 sec

30.0

R/W

11

SHIF

PV shift (offset) value

68

CICF

CIC filter switch

4.4 Output (oUT) Parameter

Low: -200.0°C (-360.0°F) High: 200.0°C (360.0°F) 0 OFF 1 ON

0.0 °C (0.0 °F)

R/W

0

R

Modbus Parameter Description

Range

Default Access

17

OUT1

Output 1 function

0 REVR: Reverse (heating) control action 1 dIRt: Direct (cooling) control action

0

R/W

21

CYC1

Output 1 cycle time

Low: 0.1; High: 90.0 sec.

0 RELY: Relay output

18

O1TY

Output 1 signal type

1 SSrd: Solid state relay drive output 2 DC.MA: DC current

3 DC.Vo: DC voltage

18.0

R/W

0

R/W

7

OP1L

OP1 linear output low limit value

0.0 ~ OP1H

0.0

R/W

8

OP1H

OP1 linear output high limit value

OP1L ~ 110.0 %

100.0

R/W

19

O1FT

Output 1 failure transfer mode

0~1000: 0.0 ~ 100.0 % to continue output 1 control function if the sensor fails, or select OFF (0) or ON (1) for ON-OFF control

0.0

R/W

22

OFST

Offset value for P Low: 0

control

High: 100.0 %

25.0

R/W

20

O1HY

Output 1 ON-OFF Low: 0.1 control hysteresis High: 50.0 °C (90.0°F)

0.5 °C (0.9 °F)

R/W

23

PL1L

MV1 power value Low: 0

limit low

High: 50 % or PL1H

0

R/W

24

PL1H

MV2 power value Low: PL1L

limit high

High: 100 %

100

R/W

0 NoNE: No alarm function

1 dE.HI: Deviation high alarm

25

A1FN

Alarm 1 function for alarm 1 output

2 dE.Lo: Deviation low alarm 3 db.HI: Deviation band out of band alarm 4 db.Lo: Deviation band in band alarm

5 PV.HI: Process value high alarm

6 PV.Lo: Process value low alarm

1

R/W

Modbus Parameter Description

Range

0 NoRM: Normal alarm action

26

A1MD

Alarm 1 operation 1 LtCH: Latching alarm action

mode

2 HoLd: Hold alarm action

3 Lt.Ho: Latching & Hold action

29

A1HY

Alarm 1 Hysteresis Low: 0.1

control

High: 50.0°C (90.0°F)

34

A1DL

Alarm 1 delay

Low: 0; High: 5999 sec

28

A1FT

Alarm 1 failure trans- 0 oFF: OFF if sensor fails

fer mode

1 oN: ON if sensor fails

1

A1SP

Alarm 1 set point

A1FN=PVHI/PVLO Low: SP1L High: SP1H

13

A1DV

Alarm 1 deviation A1FN=DEHI/DELO/DBHI/DBLO

value

Low: 0.0 High: 500.0°C (900.0°F)

0 NoNE: No alarm function

1 dE.HI: Deviation high alarm

2 dE.Lo: Deviation low alarm

33

A2FN

Alarm 2 function for 3 db.HI: Deviation band out of band alarm

alarm 2 output

4 db.Lo: Deviation band in band alarm

5 PV.HI: Process value high alarm

6 PV.Lo: Process value low alarm

7 COMM: RS485 0 NoRM: Normal alarm action

35

A2MD

Alarm 2 operation 1 LtCH: Latching alarm action

mode

2 HoLd: Hold alarm action

3 Lt.Ho: Latching & Hold action

36

A2HY

Hysteresis control of Low: 0.1°C

alarm 2

High: 50.0°C (90.0°F)

38

A2DL

Alarm 2 delay

Low: 0; High: 5999 sec

37

A2FT

Alarm 2 failure 0 oFF: Alarm output OFF if sensor fails forced transfer mode 1 oN: Alarm output ON if sensor fails

2

A2SP

Alarm 2 set point

A2FN=PVHI/PVLO Low: SP1L High: SP1H

43

A2DV

Alarm 2 deviation A2FN=DEHI/DELO/DBHI/DBLO

value

Low: 0.0 High: 500.0°C (900.0°F)

Default Access

0

R/W

0.1 °C (0.2 °F)

R/W

0

R/W

1

R/W

100.0 °C (212.0 °F)

R/W

10.0 °C (18.0 °F)

R/W

2

R/W

0

R/W

0.1 °C (0.2 °F)

R/W

0

R/W

1

R/W

100.0 °C (212.0 °F)

R/W

10.0 °C (18.0 °F)

R/W

4.5 Communication (CoMM) Parameter

Modbus Parameter Description

Range

39

ADDR

Address assignment of digital communi-
cation

Low: 1 High: 255

0 2.4: 2.4 Kbits/s baud rate

1 4.8: 4.8 Kbits/s baud rate

2 9.6: 9.6 Kbits/s baud rate

40

BAUD

Baud rate of digital communication

3 14.4: 14.4 Kbits/s baud rate 4 19.2: 19.2 Kbits/s baud rate 5 28.8: 28.8 Kbits/s baud rate

6 38.4: 38.4 Kbits/s baud rate

7 57.6: 57.6 Kbits/s baud rate

8 115.2: 115.2 Kbits/s baud rate

41

DATA

Data bit count of dig- 0 7bIt: 7 bit ital communication 1 8bIt: 8 bit

42

PARI

The parity bit of digital communication

0 EVEN: Even parity 1 odd: Odd parity 2 NoNE: No parity bit

4.6 Calibration Mode Parameter

Modbus Parameter

Description

Range

52

ADLO

mV calibration low coefficient

Low: -1999 High: 1999

53

ADHI

mV calibration high coefficient

Low: -1999 High: 1999

54

RTDL

RTD calibration low coefficient

Low: -1999 High: 1999

55

RTDH

RTD calibration high Low: -1999

coefficient

High: 1999

56

CJLO

Cold junction calibra- Low: -5.00 tion low coefficient High: 40.00

Default Access

1

R/W

2

R/W

1

R/W

0

R/W

Default Access

—–

R/W

—–

R/W

—–

R/W

—–

R/W

—–

R/W

4.7 Other Parameter

Modbus Parameter

Description

Range

57

CJCT

Cold Junction Temperature

Low: -4000 High: 9000

58

DATE

Date

Low: 0; High: 65535

59

SRNO

Serial Number

Low: 0; High: 65535

63

CJCL

Cold junction low calibration voltage

Low: 0 High: 7552

69

EROR

Error code

Low: 0; High: 65535

70

MODE

Operation mode & alarm status

Low: 0 High: 65535

71

PROG

Device version, firmware version 67.XX

72

CMND

Command code

Low: 0; High: 65535

73

JOB1

Job code

Low: 0; High: 65535

Default Access

—–

R

—–

R

—–

R

—–

R

—–

R

—–

R

—–

R

—–

R/W

—–

R/W

5. Error Code

Error Display Code Symbol

Description & Reason

Corrective Action

10 ER10 Communication error: bad function code

Correct the communication software to meet the protocol requirements

11

ER11

Communication error: register address out of range

Do not issue an over-range address of the register to the slave

14

ER14

Communication error: attempt to write a read-only data

Do not write read-only data or protected data to the slave

15

ER15

Communication error: write a value which is out of range to a register

Do not write an over-range data to the slave register

Auto-Tuning Error: Failed to perform 26 ATER
Auto-Tuning function

1. The PID values obtained after Auto-Tuning process are out of range. Retry Auto-Tuning. Auto-Tuning process exceeds 3600 secs
2. Do not change the setpoint value during Auto-Tuning process. 3. Use manual tuning instead of Auto-Tuning process. 4. Do not set the value as zero for TI & PB.

29 EEPR EEPROM can’t be written correctly

Return to manufacturer for repair.

Cold junction compensation for 30 CJER
Thermocouple malfunction 39 SBER Input sensor break

Return to manufacturer for repair. Replace the input sensor

40

ADER

A to D converter malfunction

or

related

component(s)

Return to the original manufacturer for repair.

1.

E62 PID Model: E62 Ver: QS0E620C
PV:
SV:

/

2.

/ :

:

:

:

+ /

+ /

+

­ /

:

­

­

­

­

: ­ 3.1 ­ 4.2 ­ 5.3 ­ 6.4
,

5 5 5 ,

3.
: (1) (2) (3) (4) (5)

PV Value

ATP

HAND

SET

CALI

3.1

4.2

5.3

6.4

7.5

3.1 (User Manual)

, SP1, SEL1~SEL8,

PV,SV

3.4.4 (SEL) SEL

SET

SEL

SP1

SEL1 SEL2

SEL1

SEL3

SEL2

SEL4

SEL3

SEL5

SEL4

SEL6

SEL5

SEL7

SEL6

SEL8

SEL7

SEL8

3.2 (Auto-Tuning) 5
A-t

3.5 (CALI)

CALI

2 3

3.3 (Manual)

3

HANd 3
MV1

6.1 & 6.8.2~6.8.4

Query 06

00 H’48

Query H’68 H’27 HI LO Hi /Lo CRC16

3.4 (SET)

4 , 1) (bASE) 2) (oUT) 3) (CoMM) 4) (SEL)

3.4.1 (bASE)

bASE

or

SET

bASE

LOCK INPT UNIT DP SP1L SP1H FILT PB
TI TD SHIF CICF

ADLO ADHI RTDL RTDH CJLO

2 3 5 * : SEL1~SEL8 8 5.3 ­ (bASE)
INPT( )UNIT( )DP( ) ­ (oUT) O1TYOP1LOP1H

Power Up

PV SV

5.3 sec

3.4.2 (oUT)
oUT

SET

OUT

OUT1 CYC1 O1TY OP1L OP1H O1FT OFST O1HY PL1L PL1H A1FN A1MD A1HY A1DL A1FT A1SP A1DV A2FN A2MD A2HY A2DL A2FT A2SP A2DV

bASE

oUT

5 sec

5 sec

INPT

O1TY

UNIT

OP1L

DP

OP1H

Exit

PV SV
OP1L/ OP1H

OM9A-3 4-20 OM9A-3 0-20 OM9A-5 0-5V OM9A-5 1-5V OM9A-5 0-10

OP1L 20.0 0.0 0.0 10.0 0.0

OP1H 100.0 100.0 50.0 50.0 100.0

* O1TY DC.MA DC.Vo

3.4.3 (CoMM)

CoMM

PTA

SET

CoMM

TC + PT B

*

ADDR

TC –

A2FN COMM

BAUD

PT B

DATA

PARI

4.

4.1

Modbus

0

SP1

64

PV

65

SV

1

Low: SP1L; High: SP1H
Low: -19999 High: 45536
Low: SP1L High: SP1H

0 NONE

1 A1SP

2 A2SP

44

SEL1

3 LOCK

4 INPT

5 PB

6 TI

7 TD 8 SHIF 9 OFST 10 O1HY 11 A1HY 12 A2HY 13 ADDR

45

SEL2

2 2 , SEL1

46

SEL3

3 3 , SEL1

47

SEL4

4 4 , SEL1

48

SEL5

5 5 , SEL1

49

SEL6

6 6 , SEL1

50

SEL7

7 7 , SEL1

51

SEL8

8 8 , SEL1

25.0 °C (77.0 °F) (77.0 °F)
——

/

——

/

0

/

0

/

0

/

0

/

0

/

0

/

0

/

4.2

Modbus

66

MV1

OP1

Low: 0.00 High: 100.00 %

4.3 (bASE)

Modbus

3

LOCK

4

INPT

5

UNIT

6

DP

9

SP1L

10

SP1H

12

FILT

14

PB

15

TI

16

TD

11

SHIF

68

CICF

,

PV CIC

0 None: 1 SEt: 2 uSEr: SP(SetPoint) 3 ALL: 0 J_tC: J Thermocouple 1 K_tC: K Thermocouple 2 t_tC: T Thermocouple 3 R_tC: R Thermocouple 4 S_tC: S Thermocouple 5 Pt. dN: PT100 DIN 6 Pt.JS: PT100 JIS 0 oC: °C 1 oF: °F
0 No.dP: 1 1-dP: 1
Low: J_TC: -120.0°C (-184.0°F) K_TC: -200.0°C (-328.0°F) T_TC: -250.0°C (-418.0°F) R_TC: 0.0°C ( 32.0°F) S_TC: 0.0°C ( 32.0°F) PTDN: -200.0°C (-328.0°F) PTJS: -200.0°C (-328.0°F) High: SP1H Low: SP1L High: J_TC: 1000.0°C (1828.0°F) K_TC: 1370.0°C (2498.0°F) T_TC: 400.0°C ( 752.0°F) R_TC: 1767.7°C (3214.0°F) S_TC: 1767.7°C (3214.0°F) PTDN: 850.0°C (1562.0°F) PTJS: 600.0°C (1112.0°F) 0 0: =0 1 0.2: =0.2 2 0.5: =0.5 3 1: =1 4 2: =2 5 5: =5 6 10: =10 7 20: =20 8 30: =30 9 60: =60 Low: 0.0 High: 500.0°C (900.0°F) Low: 0 High: 3600 sec Low: 0 High: 360.0 sec Low: -200.0°C (-360.0°F) High: 200.0°C (360.0°F) 0 OFF: OFF 1 ON: ON

—–

( /
)

0

/

1

/

0

/

1

/

-17.8 °C (0.0 °F)

/

537.8 °C (1000.0 °F) /

2

/

10.0 °C (18.0 °F)
60
30.0 0.0 °C (0.0 °F)
0

/ / / / /

4.4 (oUT)

Modbus

17

OUT1

OP1

0 REVR: ( ) 1 dIRt: ( )

0

21

CYC1

OP1

Low: 0.1 High: 90.0 sec.

18.0

0 RELY:

18

O1TY

OP1 1 SSrd: SSR

2 DC.MA:

0

3 DC.Vo:

7

OP1L

OP1 0.0 ~ OP1H

0.0

8

OP1H

OP1 OP1L ~ 110.0 %

100.0

0~1000: 0.0 ~ 100.0 % OP1 On-Off

19

O1FT

OP1

0 OFF: OP1 OFF

0.0

1 ON: OP1 ON

22

OFST

(P) Low: 0

High: 100.0 %

20

O1HY

ON-OFF Low: 0.1

High: 50.0 °C (90.0°F)

25.0
0.5 °C (0.9 °F)

23

PL1L

MV1

Low: 0 High: 50 % or PL1H

0

24

PL1H

MV1

Low: PL1L High: 100 %

100

0 NoNE:

1 dE.HI:

2 dE.Lo:

25

A1FN

3 db.HI:

1

4 db.Lo:

5 PV.HI:

6 PV.Lo:

/ /
/ / / / / / / /
/

Modbus 26 29 34 28 1 13
33
35 36 38 37 2 43

A1MD A1HY A1DL A1FT A1SP A1DV
A2FN
A2MD A2HY A2DL A2FT A2SP A2DV

0 NoRM: 1 LtCH: 2 HoLd: 3 Lt.Ho: Low: 0.1
High: 50.0°C (90.0°F)
Low: 0; High: 5999 sec
0 oFF: OFF 1 oN: ON A1FN=PVHI/PVLO
Low: SP1L High: SP1H A1FN=DEHI/DELO/DBHI/DBLO
Low: 0.0 High: 500.0°C (900.0°F) 0 NoNE: 1 dE.HI: 2 dE.Lo: 3 db.HI: 4 db.Lo: 5 PV.HI: 6 PV.Lo: 7 COMM: RS485 0 NoRM: 1 LtCH: 2 HoLd: 3 Lt.Ho: Low: 0.1°C
High: 50.0°C (90.0°F)
Low: 0; High: 5999 sec
0 oFF: OFF 1 oN: ON A2FN=PVHI/PVLO
Low: SP1L High: SP1H A2FN=DEHI/DELO/DBHI/DBLO
Low: 0.0 High: 500.0°C (900.0°F)

0

/

0.1 °C (0.2 °F)
0
1
100.0 °C (212.0 °F) 10.0 °C (18.0 °F)

/ / / / /

2

/

0

/

0.1 °C (0.2 °F)
0
1
100.0 °C (212.0 °F) 10.0 °C (18.0 °F)

/ / / / /

4.5 (CoMM)

Modbus

39

ADDR

Low: 1

High: 255

0 2.4: 2.4 /

1 4.8: 4.8 /

2 9.6: 9.6 /

3 14.4: 14.4 /

40

BAUD

4 19.2: 19.2 /

5 28.8: 28.8 /

6 38.4: 38.4 /

7 57.6: 57.6 /

8 115.2: 115.2 /

41

DATA

42

PARI

0 7bIt: 7 bit
1 8bIt: 8 bit 0 EVEN: Even Parity 1 odd: Odd parity 2 NoNE: No parity bit

4.6

Modbus

52

ADLO

mV

Low: -1999 High: 1999

53

ADHI

mV

Low: -1999 High: 1999

54

RTDL

RTD

Low: -1999 High: 1999

55

RTDH

RTD

Low: -1999 High: 1999

56

CJLO

Low: -5.00 High: 40.00

1

/

2

/

1

/

0

/

———————

/ / / / /

4.7

Modbus

57

CJCT

58

DATE

Low: -4000 High: 9000
Low: 0; High: 65535

59

SRNO

Low: 0; High: 65535

63

CJCL

Low: 0

High: 7552

69

EROR

Low: 0; High: 65535

70

MODE

/

Low: 0 High: 65535

71

PROG 67.XX

72

CMND

Low: 0; High: 65535

73

JOB1

Low: 0; High: 65535

————————————-

/ /

5.

10 ER10

11 ER11

14 ER14

15 ER15
26 ATER
29 EEPR EEPROM 30 CJER 39 SBER SENSOR 40 ADER A~D

1. PID
3600 2. (SP) 3. 4. PB TI 0 SENSOR

Documents / Resources

Brainchild E62 PID Temperature Controller [pdf] Instruction Manual
E62, QS0E620C, E62 PID Temperature Controller, E62, PID Temperature Controller, Temperature Controller, Controller

References

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