Ks0274 keyestudio Current Sensor Current Detection Sensor: Difference between revisions
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Revision as of 13:14, 31 July 2017
Introduction
Keyestudio current detection sensor is mainly composed of a current sensor TA12-200, which can convert large current into a small amplitude of voltage output. This product can be applied to the AC current detection, and its maximum detectable current is up to 5A. Current sensors can be used in a variety of microcontroller controllers, especially on the Arduino controller, which can be connected to the Arduino dedicated sensor expansion board with the 3P sensor cable, easily achieving interactive works related to environmental awareness.
Specification
- Working voltage:5V
- Detecting current:up to 5A
- Working frequency: 20Hz~20KHz
- Data type: analog input
- Flame retardant conforms to UL94-VO
- Dielectric strength 6000V AC/1min
- Usage: electrical load remote monitoring; as an electronic control system of input signals;lack of phase indication, power measurement; motor running state monitoring.
Connection Diagram
Sample Code
#define ELECTRICITY_SENSOR A0 // Analog input pin that sensor is attached to float amplitude_current; //amplitude current float effective_value; //effective current void setup() { Serial.begin(9600); pins_init(); } void loop() { int sensor_max; sensor_max = getMaxValue(); Serial.print("sensor_max = "); Serial.println(sensor_max); //the VCC on the RobotBase interface of the sensor is 5v amplitude_current=(float)sensor_max/1024*5/800*2000000; effective_value=amplitude_current/1.414;//minimum_current=1/1024*5/800*2000000/1.414=8.6(mA) //Only for sinusoidal alternating current Serial.println("The amplitude of the current is(in mA)"); Serial.println(amplitude_current,1);//Only one number after the decimal point Serial.println("The effective value of the current is(in mA)"); Serial.println(effective_value,1); } void pins_init() { pinMode(ELECTRICITY_SENSOR, INPUT); } /*Function: Sample for 1000ms and get the maximum value from the SIG pin*/ int getMaxValue() { int sensorValue; //value read from the sensor int sensorMax = 0; uint32_t start_time = millis(); while((millis()-start_time) < 1000)//sample for 1000ms { sensorValue = analogRead(ELECTRICITY_SENSOR); if (sensorValue > sensorMax) { /*record the maximum sensor value*/ sensorMax = sensorValue; } } return sensorMax; }
Result
Install the above wiring, burn the code, and then turn on the serial monitor after power-on to display the magnitude of current (not connected to the current), as the graph shown below.
Resources
Datasheet: http://www.keyestudio.com/files/index/download/id/1500602045/
Get One Now
http://www.keyestudio.com/keyestudio-current-detection-sensor.html