Micro Servo Electric Cylinder

ZHR-MEC-DE-FS-10-100-13

ZHR-MEC-DE-FS-10-100-13 is a 12 V RS485 micro servo actuator for dexterous robotic finger mechanisms. It provides 10mm stroke, 100N rated force, 150N maximum force, and +/-0.05mm repeatability for compact robotic hands, end effectors, and force-aware manipulation modules.

Stroke
10mm
Rated Force
100N
Max Force
150N
Repeatability
+/-0.05mm
ZHR-MEC-DE-FS-10-100-13 product photo
Product Information

Product features and selection notes

Search-intent fit

ZHR-MEC-DE-FS-10-100-13 is a 12 V RS485 micro servo actuator for dexterous robotic finger mechanisms. It provides 10mm stroke, 100N rated force, 150N maximum force, and +/-0.05mm repeatability for compact robotic hands, end effectors, and force-aware manipulation modules.

Compact precision actuation

Integrated motor, screw transmission, guided output, communication, and short-stroke control help reduce external transmission parts in compact machines.

High-force small-format output

100N rated force and 150N maximum force support direct comparison for coating adjustment, push-pull tooling, or robotic hand force sizing.

Integration checkpoints

Use these four values as the first reference for controller, wiring, body envelope, and installation fit.

Reference
01Control
RS485
02Wiring
Model-specific lead
03Body / Envelope
Finger mechanism
04Installation Fit
10mm stroke / 100N rated force
Parameters

Technical specifications

Stroke10mm
Rated Voltage12V
Repeatability+/-0.05mm
Operating Temperature-10~60°C
Rated Force100N
Maximum Force150N
Rated Current800mA
Peak Current2200mA
CommunicationRS485
ScrewT screw
GearboxPlanetary gearbox
MotorCoreless brushless DC motor

Use these values to compare stroke, force, repeatability, current draw, and integration fit.

Selection Guidance

Use this model when the fit is right

This guidance is written for engineering selection. Confirm duty cycle, mounting stiffness, thermal conditions, and controller integration before production use.

Recommended fit

Use this model when

  • Dexterous robotic finger or thumb modules need short-stroke electric actuation.
  • The design needs RS485 communication and a compact 12 V actuator envelope.
  • The mechanism benefits from repeatable force-controlled or position-controlled grasp motion.
Engineering check

Check alternatives when

  • The hand architecture requires long tendon routing from a remote motor pack.
  • The joint requires a longer stroke or higher continuous force than this model is rated for.
  • The project needs certified medical, prosthetic, or outdoor protection ratings without further qualification.
Model FAQ

Questions about ZHR-MEC-DE-FS-10-100-13

Use these answers for model-level selection, integration review, and comparison with other compact linear actuators.

What is ZHR-MEC-DE-FS-10-100-13 best used for?

ZHR-MEC-DE-FS-10-100-13 is a 12 V RS485 micro servo actuator for dexterous robotic finger mechanisms. It provides 10mm stroke, 100N rated force, 150N maximum force, and +/-0.05mm repeatability for compact robotic hands, end effectors, and force-aware manipulation modules.

What are the key specifications of ZHR-MEC-DE-FS-10-100-13?

Key specifications include 10mm stroke, 100N rated force, 150N maximum force, +/-0.05mm repeatability, 12V rated voltage, and RS485 communication.

When should I avoid selecting ZHR-MEC-DE-FS-10-100-13?

Avoid this model when the mechanism requires a longer stroke, outdoor environmental sealing, a higher continuous load than the rated force, or a speed and duty-cycle profile that has not been checked against the machine requirement.

Why use a compact actuator in a robotic hand?

Dexterous hands are constrained by finger space, wiring, heat, and moving mass. A compact electric actuator helps place controlled motion close to the finger or thumb while preserving space for sensors, structure, and cable routing.

2D Drawing

Dimension drawing

ZHR-MEC-DE-FS-10-100-13 dimension drawing

Evaluate ZHR-MEC-DE-FS-10-100-13 for your mechanism

Share stroke, force, duty cycle, installation space, and quantity requirements for model confirmation.

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