Industrial Motion Control Excellence

The OMRON R88M-H30030 is a highly reliable AC Servo Motor designed for demanding industrial applications requiring precise position, speed, and torque control. Operating as a critical component in automated manufacturing environments, this motor translates electronic control signals into exact mechanical movements. It is specifically engineered to provide high dynamic response and exceptional torque stability across its entire operational speed range, making it a foundational element in advanced motion control architectures.

Core Technical Architecture

Built with advanced electromagnetic design, the R88M-H30030 minimizes cogging torque and current ripple, ensuring smooth rotation even at very low speeds. The unit features a robust rotor construction and high-grade stator insulation, which allows it to withstand significant thermal cycling without degrading performance. Its internal feedback mechanism delivers high-resolution positional data back to the servo drive, enabling sub-millimeter accuracy for positioning tasks. The motor is enclosed in an industrial-grade housing that protects internal windings and bearings from environmental contaminants.

System Integration and Applications

This servo motor integrates seamlessly with Omron's extended family of servo drives and programmable logic controllers (PLCs). By utilizing standard industrial communication protocols, the R88M-H30030 can be incorporated into complex, multi-axis synchronized systems. It is widely utilized in packaging machinery, textile manufacturing, CNC routers, and robotic assembly lines. The physical footprint of the motor is optimized for space-constrained machine designs, offering a high power-to-weight ratio that simplifies mechanical installation.

Operational Reliability

Durability is at the forefront of the R88M-H30030's design. The use of premium bearings ensures a long mechanical lifespan under continuous duty cycles. Thermal management is handled efficiently through its structural design, preventing overheating during aggressive acceleration and deceleration phases. System engineers rely on this motor for its deterministic performance, which significantly reduces machine downtime and maintains high throughput in continuous production facilities.

500CSP04 | Multifunctional communication and signal processing module | 500AIM02

500ITM02 | PLC automation | 500CSP04

500BOM01 | Programmable Logic Controller | 500ITM02

500CPU03 | 1HDF700003R5122 | CPU module

500MBA02 | PLC automation module | 500CPU03

500SCM01 | 1MRB200059/C | 1MRB15004R0001 | frequency converter control unit

500BIO01 | 1MRB150005R1/J | frequency converter control unit |500SCM01

500BIM01 | ABB | PLC circuit control board

500MTM02 | 1MRB150020R0111 | power module

500PSM02 | 1MRB150015R1 | power module

500PSM03A | 1MRB150038R1 | 500PSM03 | power module

500PSM03 | 1MRB150038R0001 | Power Supply module

8106-TI-RT | 4-channel Analog Input | PAC8000 4-channel RTD input

AO01 | ABB | AO module 16-CH High Level

AI04 | ABB | AI module 16-CH, TC / mV

PI01 | pulse input module | Pulse/Frequency Input module 8-CH

DO01 | ABB | digital output module | DO module 16-CH 24 / 48 VDC max 250mA

DI03 | ABB | digital input module | DI module 16-CH 24 VDC

DI01 | ABB | DI module 16-CH 24 / 48 VDC SOE

AI03 | ABB | Analog Input module | RTD Analog Input

AI05 | ABB | AI Module 8-CH Galv. isol. HART

PM810V2 | 3BSE013220R1 | PM810V2 S800 Processor

PU519 | 3BSE018681R1 | PU516 RTA Board with Dual Ch. MB300

8I74T401500.010-1 | ACOPOSinverter P74 | integrated EMC filter and brake chopper

839-019090-611 | 12inch electrostatic chuck (ESC/E chuck)

01A302-00 | VMEbus 6U | 128-bit binary I/O controller

IC697CMM742-CA | Ethernet Interface for Series 90-70 | IC697CMM742

PQMII-T20-C-A | PQMII Power Quality Meter | PQMII-T20-A

0100-01363 | Signal Conditioning Board | PCB ASSEMBLY

3CP360.60-1 | B&R | 2005 Modules CPUs CP340 CP360 CP380 and CP382