The universal 3-pin JR/Futaba connector ensures the servo can be plugged into almost any standard RC receiver or microcontroller, from Arduino boards to Raspberry Pi.
The EMAX ES08MA II is a widely used micro metal-geared servo designed for radio-controlled models, robotics, and hobby electronics where compact size, moderate torque, and precise control are required. It offers an upgraded metal gear train, improved durability, and reliable performance for micro applications such as small airplanes, helicopters, multirotors, RC cars, and miniature robot joints. Emax Es08ma Ii Datasheet
The EMAX ES08MA II is a compact, high-torque brushless motor that offers exceptional performance and reliability. With its advanced design and high-quality materials, this motor is ideal for applications that require precise control, high efficiency, and long lifespan. The universal 3-pin JR/Futaba connector ensures the servo
The ES08MA II’s mechanical stops allow approximately 200° of total travel, but the linear control range is 180° (1000-2000 μs). Do not send pulses below 800 μs or above 2200 μs to avoid damaging the internal potentiometer. The EMAX ES08MA II is a compact, high-torque
The "II" version uses a dual-ball bearing system on the output shaft, drastically reducing gear backlash and play over time.
void loop() // Sweep from 0 to 180 degrees for (int angle = 0; angle <= 180; angle++) myServo.write(angle); delay(15); // Wait for servo to reach position (speed: 0.10 sec/60° = ~10ms per 10°)
The performance of the servo scales directly with the supplied operating voltage: Stall Torque: Operating Speed: at no load At 6.0V: Stall Torque: Operating Speed: at no load Detailed Specifications Table Specification Parameter Value / Metric Source Reference Model Number ES08MA II (V2) Servo Type Weight Dimensions Gear Material Full Metal Spline Count Operating Current Maximum/Stall Current (at 4.8V) to Dead Band Width Control System PWM (Pulse Width Modulation) Cable Length Connector Type Futaba / JR Universal Mechanical Dimensions & Form Factor The structural footprint of the