Delta DT3 instruction sheet

Page 10

If the setting control is in running mode, the program will start running from the initial pattern and initial step, and carry out commands one by one.

When the setting control is in end mode, the program will stop running and give out an output disable.

When setting control is in stop control and temperature is controlled at the setting value before the stop, by re-selecting the start status, the program will start running from the initial pattern and initial step.

When setting control is in pause control and temperature is controlled at the setting value before the stop, by re-selecting the start status, the program will start running from the step where the program was paused and carry out the remaining part.

¾Set parameter to In Initial Setting Mode

¾Set initial pattern: Set parameter to initial pattern in Operation Mode.

¾

Set initial step: Set parameter

to initial step inOperation Mode

¾Select edit pattern: Set parameter in Initial Setting Modeto set the pre-edit pattern, assume selection is ‘x’.

Press

key

to

select

the

patterns

including

“SP‘x’0”,

”tM‘x’0”,

”SP‘x’1”,

”tM‘x’1”…

“SP‘x’F”, ”tM‘x’F”,

”PSY‘x’ ”, ”CYC‘x’ ”, ”LiN‘x’ ”, where ‘x’ is the selected pattern, which can be 0, 1, …, E,

F. ”SP‘x’0””SP‘x’1”…”SP‘x’F” are temperature settings of this step; ” tM‘x’0”

” tM‘x’1”… ” tM‘x’F” are time

settings of this step; ”PSY‘x’ ” is the maximum effective procedure; ”CYC‘x’ ” is the number of loops for executing the loop, ”LiN‘x’” is the number of the subsequent patterns to be linked after executing this pattern.

¾Set initial slope: Set initial slope by parameter in Initial Setting Mode(unit: 0.1/min. or 0.1/s)

¾Set wait temperature: Set wait temperature by parameter in Initial Setting Mode.

¾Set wait time: Unit min., set wait time by parameter in Initial Setting Mode.

¾Set unit of program edit time: Set value corresponding to Y position of parameter in Initial Setting Mode, e.g., xxYx (Y is 0 or 1; 0/min., 1/s)

zRemote Mode: Input of setting value can be dynamic, an analog value (voltage or current) can be converted into a dynamic input

value. Two methods can be used for the conversion: positive slope or negative slope, they are depicted as follows:

aPositive slope Remote setting: Display of Remote analog input is in positive proportion with setting input, e.g.: Remote input type is selected as 1~5 V analog voltage, Remote higher limit of input is set as 5000, Remote lower limit of input is 1000, decimal display is set as 0; when Remote input is 5V, the screen shows 5000; when Remote input is 2V, the screen show 2000; this is the dynamic setting of the screen display. (Dynamic setting value =(Remote higher limit of input – Remote lower limit of input)*(Remote input value - lower limit of Remote input)/( higher limit of Remote input - lower limit of Remote input)+ Remote lower limit of input)

bNegative Slope Remote setting: Display of Remote analog input is in negative proportion with setting input, e.g.: Remote input type is selected as 1~5 V analog voltage, Remote higher limit of input is set as 5000, Remote lower limit of input is 1000, decimal display is set as 0; when Remote input is 5V, the screen shows 1000; when Remote input is 2V, the screen show 4000; this is the dynamic setting of the screen display. (Dynamic setting value =(Remote higher limit of input – Remote lower limit of input)*(Remote input value - lower limit of Remote input)/( higher limit of Remote input - lower limit of Remote input) – Remote lower limit of input)

¾Set parameter to in Initial Setting Mode

Note: This option is only available when a Remote board is inserted. If the Remote type is of analog current, the JP in the Remote board must be shorted (using a short cap). If the Remote type is of analog voltage, ensure the JP is open.

¾Remote type setting: Set type of the Remote input (including analog current 0~20 m A,4~20m A; analog voltage 0~5V, 1~5V,

0~10V)Set Remote input type by parameter in Initial Setting Mode

¾Remote positive/negative slope setting: Set corresponding value of Y position by parameter inInitial Setting

Mode, e.g.: xYxx (Y can be 0 or 1; 0: positive; 1: negative).

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Contents DT3 Series Temperature Controller Instruction Sheet Display, LED & Pushbuttons Odering InformationRUN OperationOFF PID ConsAscii MA4TUNE=AT = 1mV END StopSet Value and the Upper/Lower Limit of Input Value Setting Initial Start-up SettingDisplay Unit Setting Digital Filter and Linear Compensation SettingApplications of Analog Voltage & Current Input Disable the Cold Junction FunctionRetransmission and Compensation Adjusting Analog Output CompensationSelection for Heating/Cooling/Alarm/Dual Loop Output Control Check the Firmware Version and Output TypeSV Control Mode Setting Page Control Mode Setting IOFSetting of multiple PID sets Limits controlling the output range Tune FunctionSet Reverse Output CT FunctionEvent Function Limits of temperature rangesUser Setting of F1, F2 function keys Edit a self-defined Menu ScreenRestore Factory Settings Key Lock FunctionAlarm Outputs AL-HRS-485 Communication 999 ~ 9,999 Programmable Waiting Setting range 0~1000100.0 Temeprature CMD STXADR LRCPanel Cutout