A temperature controller, as the name implies, is a device used to control and monitor temperature but is also used to control flow, pressure, speed, and other process variables in an industrial setting such as in ovens, fridges, or freezers.
To implement an accurate temperature control process, a controller is used to take input from a temperatur...
0 → +1300 (K Type Thermocouple) °C, 0 → +1700 (R Type Thermocouple) °C, 0 → +1700 (S Type Thermocouple) °C, 0 → +400 (T Type Thermocouple) °C, 0 → +600 (J Type Thermocouple) °C
0 → +1300 (K Type Thermocouple) °C, 0 → +1700 (R Type Thermocouple) °C, 0 → +1700 (S Type Thermocouple) °C, 0 → +400 (T Type Thermocouple) °C, 0 → +600 (J Type Thermocouple) °C
+100 → +1824 (termopar tipo B) °C, 0 → +1399 (termopar tipo N) °C, 0 → +1762 (termopar tipo S) °C, 0 → +1795 (termopar tipo R) °C, 0 → +2320 (termopar tipo C) °C, 0 → 762 (termopar tipo L) °C, -199 → +800 (PT100) °C, -200 a
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LED doble de 4 dígitos
IP20, IP65
Solo Función PID
Analogue, B Type Thermocouple, C Type Thermocouple, J Type Thermocouple, K Type Thermocouple, L Type Thermocouple, N Type Thermocouple, PT100, R Type Thermocouple, S Type Thermocouple, T Type Thermocouple
+100 → +1824 (termopar tipo B) °C, 0 → +1399 (termopar tipo N) °C, 0 → +1762 (termopar tipo S) °C, 0 → +1795 (termopar tipo R) °C, 0 → +2320 (termopar tipo C) °C, 0 → 762 (termopar tipo L) °C, -199 → +800 (PT100) °C, -200 a
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-
LED doble de 4 dígitos
IP20, IP65
Solo Función PID
Analogue, B Type Thermocouple, C Type Thermocouple, J Type Thermocouple, K Type Thermocouple, L Type Thermocouple, N Type Thermocouple, PT100, R Type Thermocouple, S Type Thermocouple, T Type Thermocouple
