The Futaba S3004 datasheet is the key to understanding and utilizing this popular standard servo motor. It’s a document that provides crucial technical specifications and performance characteristics, allowing users to effectively integrate the servo into a wide array of applications. Whether you’re a hobbyist building a remote-controlled car, a robotics enthusiast designing a sophisticated arm, or an engineer working on a precision automation system, the information contained within the Futaba S3004 Datasheet is indispensable.
Decoding the Futaba S3004 Datasheet
The Futaba S3004 datasheet is essentially a comprehensive reference guide. It details everything from the servo’s operating voltage and torque specifications to its physical dimensions and wiring configuration. Understanding the information presented in the datasheet is vital because it ensures you’re using the servo within its intended parameters, preventing damage and ensuring optimal performance. The datasheet typically includes:
- Operating Voltage: The acceptable voltage range for powering the servo.
- Operating Speed: The time it takes for the servo to rotate a specific angle.
- Torque: The rotational force the servo can exert.
- Weight: The physical weight of the servo itself.
- Dimensions: The physical measurements of the servo’s length, width, and height.
These datasheets find their application in diverse fields. In radio-controlled (RC) vehicles, the S3004 servos are often used for steering, throttle control, and other control surfaces. Robotics projects rely on them for precise joint movements. Even in educational settings, the S3004 serves as a reliable and cost-effective component for teaching basic servo control principles. A simplified example of information a datasheet might have is displayed below.
| Characteristic | Value |
|---|---|
| Operating Voltage | 4.8V - 6.0V |
| Operating Speed (6.0V) | 0.19 sec/60° |
| Torque (6.0V) | 44 oz-in (3.2 kg-cm) |
Therefore, correctly interpreting the Futaba S3004 datasheet prevents common pitfalls like overloading the servo, providing insufficient power, or misconfiguring its wiring. It’s a crucial step in the design and implementation process of any project using the S3004. The data outlined in the datasheet allows for informed decisions about servo selection and application. By understanding these specifications, you can design control systems that are both efficient and reliable.
For the most accurate and up-to-date specifications for the Futaba S3004, it is essential to consult the official Futaba documentation. You can find it at the official Futaba website for the S3004 servo.