ត្រឡប់ទៅកាន់ទំព័រមុន
Robotic
T-Gear motor set with battery package
$4.00
In Stock (7 available)
T-Gear Motor & Battery Power Kit
This kit provides a complete, low-cost solution for mobile robotics, educational projects, and small motorized mechanisms. Featuring the reliable DC T-Gear Motor paired with a dedicated battery holder, it offers an immediate and accessible way to introduce motion into your designs.
Key Components
- T-Gear Motor (TT Motor): A compact DC motor integrated with a durable plastic reduction gearbox (typically 1:48 gear ratio).1 This combination converts the motor's high speed and low torque into high torque and manageable low speed, ideal for driving wheels on a mobile platform.2
- Battery Package/Holder: A dedicated case (often for 2xAA or 4xAA batteries) that provides the necessary DC voltage to power the motor, ensuring portability and eliminating the need for an external power supply.
- Wheels (Optional/Commonly Included): Often includes matched plastic wheels with rubber tires designed for the motor's output shaft, providing good traction for various surfaces.3
Core Features & Applications
| Feature | Benefit | Application |
|---|---|---|
| High Torque | The gear reduction allows the small motor to drive a robot or vehicle over small obstacles and inclines. | Robotics (2WD/4WD Chassis), Line Follower Robots. |
| Simple DC Operation | Easily controlled using basic motor drivers (like the L298N or TB6612) and most microcontrollers (Arduino, Raspberry Pi, etc.). | STEM Education, DIY Enthusiasts, Proof-of-Concept Models. |
| Integrated Power | The included battery holder ensures a straightforward and portable power source (e.g., $3 \text{V}$ or $6 \text{V}$ output). | Mobile Toys, Small Displays, Automated Mechanisms. |
| Dual-Shaft Design | The output shaft often extends from both sides of the gearbox, allowing for the attachment of wheels, encoders, or other mechanisms. | Speed Sensing (with an encoder disk), Dual-wheel drive. |
Technical Specifications (Typical)
- Rated Voltage: 4$3 \text{V}$ to 5$6 \text{V} \text{ DC}$
- Gear Ratio: 6$1:48$ (Common)7
- No-Load Speed (at $6 \text{V}$): $\approx 100 \text{ to } 250 \text{ RPM}$
- No-Load Current: 8$\approx 150 \text{ to } 200 \text{ mA}$
- Stall Torque (at 9$6 \text{V}$): 10$\approx 0.8 \text{ kg} \cdot \text{cm}$
Note: A separate motor driver module (H-Bridge) is required to control the speed and direction of the motor via a microcontroller.11