Actuators

Simple breakout that allows access to standard 2.4 mm pins of a DC connector.

Did you ever wanted to turn on and off a device that needs large current or voltage? Whether operating on DC or AC, a relay is what you need. A relay is actually an electronic switch that is activated by a signal we send from a Dasduino or Arduino. This module further simplifies the whole process because it contains everything you need for the relay to work, and you just have to connect it to the microcontroller and power supply. You don’t have to think about voltages and currents, insulation between high and low voltage or grounding, everything is already taken care of on the board.

This board has easyC connector. Thanks to easyC ecosystem, this board can be connected using off-the-shelf cables, without soldering. Controlling the is as simple as it gets, too.

Sg90 servo is the type of motor that can turn the lever that is hitched to it very precisely and in that way control different things. This little servo motor is great for education and demonstration, but can also be used for real things that do not need great power for circumvolution (for example small vents).

MG995 servo is a powerful servo motor that is capable of spinning and controlling things that a small hobby servo motor could never accomplish doing. It comes with a bunch of accessories so you could connect it easily with the outer world, and it’s being controlled like every other servo motor, via PWM.

• RPM: 0.20s/60 degrees (4.8V), 0.16s/60 degrees (6V)
• Voltage: 4.8V – 6.6V
• Torque: 9.4kg/cm (4.8V) – 11kg/cm (6V)
• Angle: 180 degrees
• Dimensions: 40mm x 20mm x 43mm
• Weight: 55g

MG995 is a powerful servo motor that is capable of spinning and controlling things that a small hobby servo motor could never accomplish doing. It comes with a bunch of accessories so you could connect it easily with the outer world, and it’s being controlled like every other servo motor, via PWM.

• RPM: 0.20s/60 degrees(4.8V), 0.16s/60 degrees(6V)

• Voltage: 4.8V – 6.6V

• Torque: 9.4kg/cm(4.8V) – 11kg/cm(6V)

• Angle: 360 degrees

• Dimensions: 40mm x 20mm x 43mm • Weight: 55g

MG995 is a powerful servo motor that is capable of spinning and controlling things that a small hobby servo motor could never accomplish doing. It comes with a bunch of accessories so you could connect it easily with the outer world, and it’s being controlled like every other servo motor, via PWM.

If You ever wanted to make something with a stepper motor, this is an excellent thing for the beginning. Stepper is kind of a motor that can very precisely control its turns, so it can be used for accurate controls and positioning.

In this set is a small stepper engine with a driver for it. Namely, the stepper engine should be controlled on the determined way in order to get what You want from it(and that is a precise turn), and this is where the driver helps You. Also, the driver gives enough current so that the engine can turn.

If you’ve ever wanted to make something with a stepper motor, this is a great place to start. A stepper motor is a type of motor that can control its revolutions very precisely, so it is used for precise control and positioning.

This set comes with a small stepper motor and a driver for it. Namely, the stepper motor needs to be controlled in an exact way in order to get what you want from it (which is a precise turn), so the driver helps us with that. Also, the driver provides enough current to turn the motor.

This stepper motor driver enables the control of a stepper motor that does not need more than 800mA of current and operates at a voltage of up to 14V. In addition to the driver, it also has built-in LEDs that indicate which phase of the motor is currently active.

NEMA17 is a smaller stepper motor with high precision. Often we find it in 3D printers and small CNC machines since it has sufficient power to move small items. You will also use it in the 3D printer, CNC, robot or for the accurate control of anything which turns or moves.

We recommend the A4988 stepper motor driver.

This driver for stepper motor enables control over a stepper motor that does not require more than 800mA of current and works at up to 14V voltage. Except for the driver, it has built-in LED lights that indicate which phase of the motor is currently active. Connecting with microcontroller is easy, and control is directly through the library.

The stepper motor driver enables very precise control of the stepper motor. The DRV8825, located on this board, enables microstepping of a bipolar motor with an adjustable current limit, overcurrent and overtemperature protection. Controls steps up to 1/32 step. It has a potentiometer for setting the desired current.

• Voltage: 8.2V – 45V
• Current: 1.5A per phase without heatsink, 2.2A per phase with heatsink
• Dimensions: 38 x 22mm

This driver for stepper motor enables control over a stepper motor that does not require more than 500mA of current and works at 5V-12V voltage. Except for the driver, it has built-in LED lights that indicate which phase of the motor is currently active. Connecting on Croduino/Arduino is simple, and control is directly through the library.

Stronger driver for stepper motor which has more options than the classical ULN2003. It comes in small packaging and you could easily control the size of its steps.

This TMC2208 module can be used to control stepper motors up to 2 A for 3D-Printing, Cameras, Scanners and other equipment.

• Power supply: 4.75 … 29 V
• Current: 2 A
• Maximum current: 2.8 A
• Communication: UART

We all know these Mini DC motors, especially if you ever took apart any kind of toy. They’re everywhere, now and on Soldered as well. You can use it to make something useful or just reminisce about the times when you were younger.

We all know these little DC motors, especially if you’ve ever disassembled any toy. They are everywhere, and now at the Soldered.com.

DC motors can be inconvenient to use on low speed. With the help of mechanic and transfer using sprockets speed of this motor is slowed to a remarkably small speed. It is used for precise control over many mechanisms from robot wheels to precise mechanics.

• Voltage: 3V
• Axle diameter: 3mm
• Dimensions: 12mm x 10mm x 36mm

DC motors can be inconvenient to use on low speed. With the help of mechanic and transfer using sprockets speed of this motor is slowed to a remarkably small speed. It is used for precise control over many mechanisms from robot wheels to precise mechanics.

• Voltage: 3V
• Axle diameter: 3mm
• Dimensions: 12mm x 10mm x 36mm

DC motors can be inconvenient to use on low speed. With the help of mechanic and transfer using sprockets speed of this motor is slowed to a remarkably small speed. It is used for precise control over many mechanisms from robot wheels to precise mechanics.

• Voltage: 3V
• Axle diameter: 3mm
• Dimensions: 12mm x 10mm x 36mm

DC motors can be inconvenient to use on low speeds. With the help of mechanics and transfer using sprockets speed of this motor is slowed to a remarkably small speed. It is used for precise control over many mechanisms from robot wheels to precise mechanics.

DC motors can be inconvenient to use on low speed. With the help of mechanic and transfer using sprockets speed of this motor is slowed to a remarkably small speed. It is used for precise control over many mechanisms from robot wheels to precise mechanics.

• Voltage: 3V
• Axle diameter: 3mm
• Dimensions: 12mm x 10mm x 36mm

DC motors can be inconvenient to use on low speed. With the help of mechanic and transfer using sprockets speed of this motor is slowed to a remarkably small speed. It is used for precise control over many mechanisms from robot wheels to precise mechanics.

• Voltage: 3V
• Axle diameter: 3mm
• Dimensions: 12mm x 10mm x 36mm

In a buzzer speaker, current is run through a coil of wire that produces a magnetic field. The flexible ferromagnetic disc is attracted to the coil when current is flowing through it and returns to a “rest” position when current is not flowing through the coil. The sound from the buzzer speaker is produced by moving a ferromagnetic disc in a similar way to a cone in a speaker.

The USB Type-C is ubiquitous. We always wanted to add it to our electronics projects, and we’re sure you did too. Adding a USB Type-C connector to your projects is easier than ever thanks to this USB Type-C breakout board. It will allow you to send data to your device, as well as add power to the circuit.

The USB Type-C connector’s GND, CC2, SBU2, D-, D+, SBU1, CC1, and VUSB pins are broken out to the plated through-holes.

Product usage tips:

Male headers that are included need to be soldered to the board. The breakout board has two mounting holes and can be placed on any surface.