23km-c051-09v Datasheet
For hobbyists and professionals alike, sourcing a datasheet for a specific electronic component can quickly turn into a deep dive down an internet rabbit hole. This is particularly true for the , a popular NEMA 23 stepper motor that has garnered a strong following in the DIY CNC and 3D printing communities. While an official, unified datasheet from the manufacturer remains elusive, the motor's specifications have been meticulously documented by users, enthusiasts, and third-party suppliers across the globe. This article consolidates all available information to create a comprehensive, reliable reference guide for the 23KM-C051-09V stepper motor.
In the world of precision motion control, component selection is everything. One part number that frequently appears on BOMs (Bill of Materials) for CNC machines, 3D printers, robotics, and industrial automation is the . However, finding an authoritative, single-source datasheet for this specific variant can be challenging. This article compiles a comprehensive technical reference for the 23KM-C051-09V, covering electrical characteristics, mechanical drawings, wiring configurations, thermal performance, and application notes.
A: Yes, but set DIP switches for 0.5A current and 1/8 microstep. Set input voltage to 9–12V only.
Rated for operation between -20°C and +50°C, the motor can be used in unheated workshops, outdoor enclosures, or cold storage facilities without special heating or cooling measures. 23km-c051-09v datasheet
| Phase | Resistance (Ω) | Inductance (mH) | Rated Current (A) | Voltage (V) | | :--- | :--- | :--- | :--- | :--- | | A | 1.75 | 5.7 | 5.1 | 9.0 | | B | 1.75 | 5.7 | 5.1 | 9.0 |
The motor boasts an impressive . This is the force required to break the shaft's position when the motor is powered but stationary . For practical applications, a motor's dynamic torque is equally important. According to product listings, the 23KM-C051-09V maintains a torque of approximately 869 mNm at 600 pulses per second (pps) , which showcases its ability to maintain force at moderate speeds, an ideal characteristic for driving the leadscrews of a CNC router or the axes of a laser cutter .
Due to its high torque density, robustness, and precision, this Minebea motor is frequently found in: Reliable X-Y axis movement. Medical Equipment: Automated pumps and scanners. Office Automation: Printers and document scanners. For hobbyists and professionals alike, sourcing a datasheet
A: No. The 23KM series are hybrid steppers. If you see encoder ports on the back, it might be a closed-loop stepper – still not a true AC servo.
The physical structure adheres to strict industry standards, enabling seamless drop-in replacements for standard automation setups.
This long-form, engaging explanation unpacks the 23km-c051-09v datasheet so engineers, technicians, and curious readers can quickly understand the device, its capabilities, common pitfalls, and how to use it in real designs. I assume the part is a communications/transceiver module (the model-like string suggests radio/optical/serial hardware). If you meant a different device, tell me and I’ll adapt — otherwise, this cover aims to be broadly useful for a module with RF or serial I/O characteristics. durable ball-bearing structure
: Approximately 44mm to 56mm depending on the specific construction variant.
The electrical and mechanical parameters outlined in the reveal an optimization balanced between current density and inductive reactance. This makes it highly compatible with modern constant-current chopper drivers: Specification value Frame Size NEMA 23 (56.4 mm x 56.4 mm) Step Angle 1.8° per full step Rated Phase Current Phase Resistance Phase Inductance Minimum Holding Torque 980 mNm (9.99 kg·cm) Dynamic Torque (at 600 pps) Winding/Connection Type 6-pin terminal (supporting unipolar/bipolar) Shaft Dimensions 15/16" (~23.8 mm) length, typical 6.35mm or 8mm diameter Decoupling the Part Number Syntax
The details a high-performance NEMA 23 hybrid stepper motor engineered by MinebeaMitsumi (formerly NMB Technologies) . This industrial-grade actuator is widely recognized for its robust holding torque, durable ball-bearing structure, and precision engineering. It serves as a primary mechanical driver in high-load automated machinery like CNC routers, laser cutters, 3D printers, and specialized banking equipment (such as automated teller machines and bill validators).