Detail Stc-3018 Pengontrol Suhu Ac 110v-220v Dc 12v 24v Dengan Sensor Probe
【Friends Welcome to #OlahragaOutdoorElektronik# store , If you love our products, please click and give me five-star✧✧✧✧✧thanks. My product is very good quality, my price is also very Cost-effective, my friends】 Specfications: ● Power supply: AC 110V-220V/ DC 12V / DC 24V ● Measurement temperature range: -50°C ~ +120°C / -58°F~248°F ● Resolution: 0.1°C ● Accuracy: ±1°C ● Relay output contact capacity: heating: 10A/240VAC, cooling: 10A/240VCA ● Sensor h type: imported NTC sensor, line length 1 meter ● Shell material: gray ABS flame retardant plastic shell ● Net weight 120g, Gross weight 140g
Instruction: Normal mode: The red digital tube on the left shows the real-time temperature, the blue digital tube on the right shows the set temperature. Setting mode: The red digital tube on the left displays the setting mode, the blue digital tube on the right displays the setting contents.
Code Instruction: Code Function Default Set Range Start or Stop Temperature 0°C/68°F -50~120°C/-58~248°F P0 Working mode H H/C P1 Difference set value 2 0.2-10 P2 High temperature alarm value 80°C/176°F -50~120°C/-58~248°F P3 Low temperature alarm value -50°C/-58°F -50~120°C/-58~248°F P4 Temperature calibration value 0 -10.0°C~10.0°C P5 Compressor delay time 0 0-60Min P6 Display mode C C/F
P0: working mode This setting is mainly set to the value when the thermostat is used for the first time. If it is used for heating, it should be set to H. If it is used for cooling, it should be set to C. P1: hysteresis setting The hysteresis is the difference required when the thermostat reaches the set temperature and stops working again. For example, if we set the heating mode to a temperature of 37-40 degrees, then the difference is 3 P2: high temperature alarm value When the temperature reaches the set value, there will be an alarm action and stop working. P3: low temperature alarm value When the temperature is lower than the set value, there will be an alarm action and stop working. P4: temperature correction These functions are used for temperature calibration. If there is a deviation between the detected temperature and the actual temperature, some functional effects can be used. The positive value = measured value + corrected value. For example, we measure the temperature at 25.6 degrees and actually 25.8 degrees. P4 can be used. Set to 0.2 then the final temperature is 25.6+0.2=25.8