Ultrasonic Vibration Motor

by supercircuits in Circuits > Gadgets

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Ultrasonic Vibration Motor

Transistor Vibrator Kit 01 Device.jpg
Transistor Vibrator Kit 02 Step 01 Design the Circuit 1.jpg
Ultrasonic Vibration Motor 03 Step 01 Design the Circuit 2.jpg
Transistor Vibrator Kit (increase your volume)

This article shows you how to make an ultrasonic-controlled vibration motor.

The circuit turns ON the vibration actuator (vibration motor) when the ultrasonic signal enters the sensor.

The first circuit is the ultrasonic receiver. The second circuit is the vibration motor driver.

I used the ultrasonic receiver circuit from this article:

https://www.instructables.com/Ultrasonic-Alien

Supplies

Components: ultrasonic sensor - 3, high-frequency transistors - 5, general-purpose transistors - 5, power transistor/darlington pair - 2, heat sink - 1, matrix board - 1, insulated wires, metal wire - 1 mm or 0.9 mm, 100 ohm resistors (high power) - 10, 1 kohm resistors - 10, 470 nF capacitors - 10, 100 kohm resistors - 5, 470 uF capacitors - 5, ultrasonic transmitter (you can use certain ultrasonic senr).

Tools: USB Oscilloscope, pliers, wire stripper, ultrasonic signal generator.

Optional components: solder, encasement/box, LED/bright LED - 3.

Optional tools: soldering iron.

Design the Circuit

Transistor Vibrator Kit 02 Step 01 Design the Circuit 1.jpg
FRYT9GHLJWVLE5H.jpg

The minimum transistor collector voltage across for Darlington pair power transistor will be 0.9 V. Thus the maximum voltage across the LED will be 2.1 V.

If you replace the Darlington pair transistor with a power transistor (to reduce the cost of components) then you will need to connect a 100-ohm resistor in series with the LED because the minimum transistor collector voltage might fall to 0.2 V.

More information about the ultrasonic receiver can be found here:

https://www.instructables.com/Ultrasonic-Alien

Simulations

Transistor Vibrator Kit 02 Step 01 Design the Circuit 1.jpg
FRYT9GHLJWVLE5H.jpg
Ultrasonic Vibration Motor 04 Step 02 Simulations Circuit 1 Time Domain.jpg
Ultrasonic Vibration Motor 05 Step 02 Simulations Circuit 1 Frequency.jpg
Ultrasonic Vibration Motor 06 Step 02 Simulations Circuit 2.jpg

The ultrasonic receiver circuit seems to have a 100 ms delay. The trigger turns ON from 0.05 seconds (50 ms), representing the presence of an ultrasonic signal (red rectangle in the first graph). However, the circuit is producing an AC output 100 ms later.

In practice, there will be fewer transients because the "Sw" component (switch) is not an accurate method of modeling the sudden presence of an ultrasonic signal in the sensor at 0.05 seconds. In real life, the ultrasonic sensor is already connected. It is just that there is no signal in the sensor. I did my best to model this circuit with PSpice version 9.1 student edition software.

The frequency simulations show a small bandwidth because the old PSpice simulation software student edition does not have radio frequency transistors. However, the ultrasonic receiver might still work with general-purpose transistors.

The minimum Darlington pair collector voltage fell to about 0.9 V. That means the transistor model is inaccurate.

The maximum current across the vibration motor is about 24 mA. However, my model of the vibration motor (100-ohm resistor) could be inaccurate.

Make the Circuit

Transistor Vibrator Kit 08 Step 03 Make the Circuit 1.jpg
Transistor Vibrator Kit 09 Step 03 Make the Circuit 2.jpg
Transistor Vibrator Kit 02 Step 01 Design the Circuit 1.jpg
FRYT9GHLJWVLE5H.jpg

The making of the circuit was delayed for many weeks due to certain components not being available for the vibration motor driver.

Testing

Transistor Vibrator Kit 10 Step 04 Testing.jpg
Transistor Vibrator Kit (increase your volume)

I connected the ultrasonic transmitter component directly to my signal generator. You can make your own signal generator with a 555 timer and a 9 V power supply (9 V battery).

I also made a small hole in the receiver plastic bag to improve the propagation of ultrasonic waves.

The bright LED turns ON when the ultrasonic signal is applied to the sensor. You have to increase the volume to hear the vibration motor in the video.