Slow Speed Slow Release Servo Speed Reducer Delay Module- for Models 5-6V

Product Overview: Specifically designed to reduce the working speed of steering gear, this module is a must-have for model enthusiasts. The slow speed slow release servo speed reducer delay module is perfect for creating realistic and precise movements in your model creations. Compatible with models operating within the voltage range of 5-6V, this module ensures seamless integration with your existing setup. Key Features: 1. Precise Speed Reduction: Effectively reduces the rotation speed of steering gears, enabling smooth and controlled movements. 2. Adjustable Delay Time: The onboard potentiometer allows you to fine-tune the delay time, giving you complete control over the duration of each movement. 3. Enhanced Realism: By reducing the speed of steering gear, this module creates more realistic movements, enhancing the overall performance of your models. 4. Easy Installation: Designed with plug-and-play functionality, the module can be easily integrated into your existing model setup without any hassle. 5. Durable Construction: Built to withstand the rigors of model operation, this module is made from high-quality materials for long-lasting performance. Technical Specifications: - Input Voltage: 5-6V - Output Voltage: 5-6V - Dimensions: 25 x 12 x 7mm - Weight: 5g - Compatibility: 5-6V steering gears Benefits: 1. Improved Control: The precise speed reduction allows for enhanced control over steering gear movements, leading to smoother and more lifelike operation. 2. Realistic Effects: By slowing down the speed of steering gear, this module adds a touch of realism to your models, creating more immersive experiences. 3. Simplified Setup: The plug-and-play design makes installation a breeze, allowing you to quickly integrate this module into your model setup without any complexities. 4. Increased Precision: The adjustable delay time feature empowers you to tailor the module's performance to your specific needs, ensuring optimal precision in your model's movements.