While working on proximity sensors I have seen features related to automatic time and infrared signal detection. But I was in the search of something which can see beyond the boundaries of house walls. And I got my hands on this motion detection- Gravity: Digital 10.525GHz Microwave Sensor. A microwave sensor which works on 10GHz, can sense the motion of an object, can sense the speed of motion of an object and lastly it also works with non-humans (i.e non living things). This differs from the method used by a regular infrared (IR) sensor as the microwave is sensitive to a variety of objects that can reflect it's waveform, and its sensor readings are not affected by ambient temperatures.

The digital microwave sensor uses doppler radar to detect moving objects using microwaves. After seeing these many features in a sensor the applications like measuring a vehicle's speed, measuring liquid levels, automatic door motion detection, automatic washing, car reversing sensors, etc came into my mind. The microwave detection method has the following advantages compared with other detection methods:

  • Able to detect objects without physical contact
  • Readings not affected by temperature, humidity, noise, air, dust or light
  • Strong resistance to radio frequency interference
  • Low output, not harmful to the human body
  • Microwaves have a wide detection range and velocity equal to the speed of light
  • Supports non-life-class object detection

Let’s have a look how we can convert its reading into respective speed of motion readings. By the help of which we can measure the motion with a reference value above Zero, higher the values greater will be the speed of the object under detection.

Specifications:

Working Voltage: 5V +/- 0.25V

Working Current(CW): 60mA max., 37mA typical

Emission:

Detection Distance: 2-16M continuously adjustable

Emission Frequency: 10.525 GHz

Precision Frequency Setting: 3MHz

Output Power (Minimum): 13dBm EIRP

Harmonic Emission: < -10dBm

Average Current (5 ): 2mA typ.

Pulse Width (Min.): 5uSec

Load Cycle (Min.): 1>#/span###

Reception:

Sensitivity (10dB S/N ratio) 3Hz to 80Hz bandwidth: -86dBm

3Hz to 80Hz Bandwidth Clutter: 10uV

Antenna Gain: 8dBi

Vertical 3dB Beam Width: 36 degrees

Level 3dB Beam Width: 72 degrees

Detection mechanism of Microwave Sensor:

The following diagram demonstrates the working principle of the sensor module. It works by amplifying a tiny signal which is received by the microwave sensor, and then through the comparison circuit it converts the signal into a square signal with a digital output of 0 or 1 which an Arduino or other microcontroller can easily handle.

The angle of detection is 72 degrees with the antenna in a parallel direction (azimuth) The vertical (pitch) direction of the antenna is 36 degrees. So install the sensor according to the radiation pattern transmitted by the antenna.

Installing the Sensor:

The microwave sensor has a distance range of 2-16m. The detection distance can be adjusted using the potentiometer. Microwaves can penetrate through walls. So sometimes it has inaccuracies when microwaves penetrate through outside walls and detect moving objects in non-target areas. Be sure to choose an installation location to avoid this!

When the microwave sensor does not detect moving objects, the indicator LED remains off. When the sensor detects moving objects, the LED will turn on and the output level will be changed from HIGH to LOW. The LED will automatically turn off about after 0.5s and the output level will change from LOW to HIGH. If the microwave sensor detects continuously moving objects the LED will keep flashing on and off. The output level will fluctuate between HIGH and LOW until the object stops moving.

Components Required:

Gravity: Digital 10.525GHz Microwave Sensor

Arduino NANO

12C 16x2 LCD

Power Supply Unit

This project is sponsored by PCBWAY. I have tested this module with my own made Power supply and Arduino NANO. PCBWAY is the leading manufacturer...

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