Initial Start-up Setting

1.When setting up DT3 for the first time, press key for more than 3 seconds till the screen display and select according to your temperature sensor type. Please be aware that a selection of wrong model would cause PV temperature display error. (Refer to the chart below)

2.When setting up the temperature sensor type by using RS-485, write your value (range 0~19) into register 1004H.

3.When setting up the current input method, remove the temperature controller cover and set JP8 to short. (Refer to the chart below)

zTemperature Sensor Type & Temperature Range Chart

Input Temperature

Register Value

Temperature Range

Input Temperature Sensor Type

Register Value

Temperature Range

Sensor Type

 

 

 

 

 

Thermocouple K type

0

-200 ~ 1300°C

Thermocouple TXK type

10

-200 ~ 800°C

Thermocouple J type

1

-100 ~ 1200°C

Platinum Resistance (JPt100)

11

-20 ~ 400°C

Thermocouple T type

2

-200 ~ 400°C

Platinum Resistance (Pt100)

12

-200 ~ 850°C

Thermocouple E type

3

0 ~ 600°C

Platinum Resistance (Ni120)

13

-80 ~ 300°C

Thermocouple N type

4

-200 ~ 1300°C

Platinum Resistance (Cu50)

14

-50 ~ 150°C

Thermocouple R type

5

0 ~ 1700°C

Analog Voltage Input (0~5V)

15

-999~9999

Thermocouple S type

6

0 ~ 1700°C

Analog Voltage Input (0~10V)

16

-999~9999

Thermocouple B type

7

100 ~ 1800°C

Analog Voltage Input (0~20m A)

17

-999~9999

Thermocouple L type

8

-200 ~ 850°C

Analog Voltage Input (4~20m A)

18

-999~9999

Thermocouple U type

9

-200 ~ 500°C

Analog Voltage Input (0~50m V)

19

-999~9999

zHow to Set Up Current Input

Remove the temperature controller cover and set JP8 to short. JP8 jumper locates near the sensor input area on PCB board.

Normal Iniput (Factory Setting)

Current Input (4 ~ 20mA, 0 ~ 20mA)

 

 

Display Unit Setting

Use following parameter to change the PV and SV display unit, select decimal point and switch between /F.

¾In Operation Mode : SP=1 displays decimal place (ex: 25.5 degree); SP=0 displays integral number (ex: 25 degree).

¾In Initial Setting Mode : Select temperature display unit /. (=* 9 / 5 + 32)

Set Value and the Upper/Lower Limit of Input Value Setting

¾Set the Upper Limit of Input Value: This parameter can be set in the Initial Setting Mode , the upper limit input value must be set within the range shown in the chart “Temperature Sensor Type & Temperature Range”.

¾Set the Lower Limit of Input Value: This parameter can be set in Initial Setting Mode , the lower limit input value must be set within the range shown in the chart “Temperature Sensor Type & Temperature Range”.

¾Set the SV: This parameter can be set in Operation Mode, SV value must be set within the range of upper/lower limit input value. SV can not be set in In “Program Mode” or in “Remote Mode”.

Digital Filter and Linear Compensation Setting

In “Regulation Mode”,

and

parameters can be used to ajust the filter status and to avoid interferences on input signal.

¾: Filter Factors (setting range=0~50; factory setting=8). Digital Filter Calculation equation: PV=(Last displayed PV * n + Measure Value)/ (n+1). When the parameter value is small, the PV display is close to the Measured Value. When the parameter value is large, the PV response is slow.

¾: Filter Range (setting range=0.10~10.00/). If factory setting = 1, it means the controller will begin Digital Filter Calcaulation when the Measure Value lies within the range of “Last displayed PV + / - 1.00/”. Therefore, it is recommended to

set a larger value when noise interferences is serious.

When PV display value is different than user’s expectation, Linear Compensation function can be set by and parameters in“Regulation Mode”.

¾: Linear Compensation Value (setting range= -99.9 ~ +99.9). Linear Compensation Calculation equation: PV = Measure Value + Compensation Value.

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Delta DT3 Initial Start-up Setting, Display Unit Setting, Set Value and the Upper/Lower Limit of Input Value Setting