12/22/14
3
Rev.5 (EC 02.293.435)
Control Sensor
Proper placement of the sensor can eliminate many problems associated in the total operation of the system. The probe
should be placed so that it can detect any temperature change with little thermal lag. In a process that requires fairly
constant heat output, the probe should be close to the heating source. In processes where heat demand is variable, the
probe should be placed close to the work area. Experimenting with probe location should be tried to provide optimum
results for your particular process.
Specifications
Control Mode
- Microprocessor-based, single input, single output.
- PID parameters
Proportional band: 1 to 999
o
F
Reset: 0.00 to 99.99 repeats per minute.
Integral: 0.00 to 99.99 minutes per repeat.
Rate or Derivative: 0.00 to 9.99 minutes.
Operator Interface
- Advance, Infinity, Up and Down keys, and ON/OFF switch.
- (2) 4 character LED display.
- Thermocouple receptacle and 3 wire load receptacle.
Input
- Type J, K, and T thermocouple: Input grounded or ungrounded. (T/C type associated with the model number)
- Automatic cold junction compensation and break protection for sensor.
- Degrees F or degrees C display; user selectable (Factory set for °C)
Range Type J:
-200°C to 1200°C
Range Type K:
-200°C to 1370°C
Range Type T:
-200°C to 400°C
Primary Output (Heating or Cooling)
- 15 Amp, 120 Volts or 10 Amp, 240 Volts depending on model
Accuracy
- Calibration accuracy: 0.1% of span.
- Temperature stability: 0.2
o
F /
o
F rise in ambient maximum.
- Voltage stability: 0.01% of span / % of rated line voltage.
Power
- 50/60 Hz 5%
- Data retention upon power failure via nonvolatile memory.
Operating Environment
-
32 to 149
o
F / 0 to 65
o
C; 0 to 90% RH, non-condensing.