Emax Es08ma Ii Datasheet ^hot^ Jun 2026
The "M" in its name stands for . The ES08A uses plastic gears, while the ES08MA II uses metal, providing enhanced strength and longevity for heavier loads.
If you are looking to buy the , it is available on sites like GetFPV and RaceDayQuads . If you want, I can help you find: A wiring diagram for an Arduino Troubleshooting tips for jittery servos Comparisons with other brands like TowerPro
Any project requiring precise angular control where light weight and metal gears are necessary. 5. Emax ES08MA II vs. ES08A (Comparison)
rail. While a microchip can supply enough current for an idle servo, the ES08MA II pulls up to Emax Es08ma Ii Datasheet
Do not power this servo directly from an Arduino or Raspberry Pi 5V pin. The stall current over 1A will brown out your microcontroller. Use a dedicated 5V UBEC (Battery Eliminator Circuit) or servo driver board with external power.
| Parameter | Value / Range | | :--- | :--- | | | 4.8V – 6.0V DC (6.0V recommended for max torque) | | Control Signal | Analog, PWM (Pulse Width Modulation) | | Pulse Range | 1000 µs (full counter-clockwise) to 2000 µs (full clockwise) | | Neutral Pulse | 1500 µs | | Signal Frequency | 50 Hz (20 ms period) – standard analog servo refresh rate | | Dead Band Width | ≤ 5 µs (allows precise centering) |
To understand its market position, it helps to compare the ES08MA II to similar servos: The "M" in its name stands for
The ES08MA II has found a home in a wide array of fields. Its combination of small size, low weight, and solid performance makes it an excellent choice for:
Controlling it with an Arduino is simple using the built-in Servo.h library:
| Feature / Model | ES08MA II (Analog) | ES08MD II (Digital) | ES3352 (Standard) | | :--- | :--- | :--- | :--- | | | Analog | Digital | Analog | | Weight | 12g | 12g | ~12.5g | | Torque @ 6V | 2.0 kg·cm | 2.0 kg·cm | 2.5 kg·cm (Higher) | | Gears | Metal | Metal | Metal | | Key Feature | Standard, durable analog servo | Smoother, precise digital servo | A "heavy duty" option for more demanding applications | | Best For | General purpose, budget builds | Applications requiring high precision and holding power | Slightly heavier models requiring more torque | If you want, I can help you find:
It uses standard 50Hz PWM signals, making it universally compatible with various RC receivers and microcontrollers like Arduino and Raspberry Pi.
Despite weighing only 12 grams, it provides up to 2.0 kg·cm of torque at 6V.
