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DS-S001 3.7g Plastic Gear Airplane Fixed-Wing Micro Mini Servo

Dimension 20.2*8.5*20.2mm
Voltage 4.8-6.0V DC
Operation torque ≥0.16kgf.cm (0.016N.m)
Stall torque ≥0.4kgf.cm at3.7V,≥0.45kgf.cm at4.2V
No load speed ≤0.06s/60°
Angel 145°±10°
Operation current   ≤50mA at3.7V, ≤60mA at4.2V
Stall current ≤ 0.55A
Weight 4.3±0.2g
Communication Digital servoPosition sensor:VR (200°)
Protect Without
Motor Coreless motor

Product Detail

Product Tags

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Product Detail

DSpower DS-S001 3.7g digital servo is a compact and lightweight servo motor designed for applications where space and weight constraints are critical. Despite its small size, this servo delivers impressive performance, making it a versatile choice for various projects requiring precise motion control.

Key Features and Functions:

Compact Design: The 3.7g digital servo is engineered to be incredibly small and lightweight, making it suitable for projects where size limitations are a consideration.

Digital Control: It features digital control technology, which offers higher precision and more accurate positioning compared to analog servos.

Fast Response: This servo is known for its rapid response time, ensuring swift and precise reactions to control signals.

High Torque for Size: Despite its small dimensions, the servo is capable of generating a notable amount of torque, making it appropriate for a variety of lightweight mechanical applications.

Plug-and-Play Compatibility: Many 3.7g digital servos are designed to be easily integrated into microcontroller-based systems, offering plug-and-play compatibility.

Position Feedback: The servo often incorporates a built-in position feedback sensor, such as an encoder or potentiometer, ensuring accurate and repeatable positioning.

Energy-Efficiency: Due to its small size and efficient design, the servo is often energy-efficient, making it suitable for battery-powered devices.

Precision in Tight Spaces: It excels in applications where precision movement is required within confined spaces, such as small robotic platforms, micro RC models, and miniature automation systems.

Applications:

Micro RC Models: The 3.7g digital servo is ideal for micro radio-controlled models, such as tiny airplanes, helicopters, and cars, where lightweight components are crucial for optimal performance.

Nano Robots: It's commonly used in nano-sized robotic systems and experiments that require precise control in an incredibly compact form factor.

Wearable Devices: The servo can be integrated into wearable electronics, like smart clothing or accessories, where small size and energy efficiency are essential.

Micro-Automation: In miniature automation systems, the servo assists in controlling small mechanisms like grippers, conveyors, or tiny assembly lines.

Educational Projects: The servo is frequently used in educational projects to teach students about robotics, electronics, and motion control.

The 3.7g digital servo's unique combination of small size, lightweight design, and precise control capabilities makes it an attractive option for various projects across robotics, microelectronics, and beyond.

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Product parameters

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Features

FEATURE:

--The first practical micro servo

--High-precision metal gears for smooth action and durability

--Tiny gear clearance

--Good for CCPM

--Coreless motor

--Mature circuit design scheme,quality motors and

electronic components makes the servo stable,accurate and reliable

Programmable Functions

End Point Adjustments

Direction

Fail Safe

Dead Band

Speed (Slower)

Data Save / Load

Program Reset

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Application

DSpower S001 3.7g digital servo, due to its compact size and lightweight design, finds applications in scenarios where space constraints and precision movement are crucial. Here are some common application scenarios for the 3.7g digital servo:

Micro RC Models: This servo is perfect for micro radio-controlled models, including tiny airplanes, helicopters, drones, and small RC cars. Its small size and precise control contribute to the optimal performance of these miniature models.

Nano Robotics: In the field of nanotechnology and microrobotics, the 3.7g digital servo is used to manipulate and control tiny robotic components with high accuracy.

Wearable Devices: Wearable electronics, such as smartwatches, fitness trackers, and electronic accessories, often incorporate the 3.7g digital servo for mechanical movements or haptic feedback in a compact space.

Micro-Automation Systems: Miniature automation systems, commonly found in laboratories or research settings, utilize this servo to control small robotic arms, conveyors, sorting mechanisms, and other precise movements.

Educational Projects: The servo's small size and ease of integration make it an excellent choice for educational projects focused on robotics and electronics, allowing students to experiment with precise control mechanisms.

Medical Devices: In the medical field, the servo might be used in the development of small-scale medical devices or equipment, such as precision-controlled tools used in minimally invasive procedures.

Micro Manufacturing: Applications requiring intricate movements within confined spaces, such as micro-assembly in electronics manufacturing or delicate product assembly, can benefit from this servo.

Aerospace and Aviation: In miniature aerospace models, such as small UAVs or experimental drones, the servo can control critical functions like wing flaps or stabilizers.

Experimental Research: Researchers might employ this servo in experimental setups that demand precise movement control at a micro scale, supporting various scientific investigations.

Art and Design: Artists and designers sometimes use this servo in kinetic sculptures, interactive installations, and other creative projects that involve small-scale mechanical movements.

The 3.7g digital servo's ability to provide accurate motion control within tight spaces makes it an ideal choice for applications that require intricate movements and compact design. Its versatility extends across a wide range of industries, from hobbyist activities to cutting-edge technological fields.


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