Come scegliere tra correnti parassite, Isteresi & Magnetic Powder Dynamometers
A complete technical comparison to help engineers select the right dynamometer for motor, EV, e test sul gruppo propulsore.
Punti chiave
- Eddy current dynamometers excel at high speed (fino a 50,000 giri al minuto) but cannot produce braking torque at zero speed.
- Hysteresis dynamometers deliver full torque from 0 RPM — the right choice for small motors and locked-rotor tests (0.1–30 Nm).
- Magnetic powder dynamometers provide high, smooth torque at low speed (2–2.000 Nm, typically up to 5,000 giri al minuto).
- Match the dynamometer to your torque–speed envelope and accuracy target (±0.2%–±0.5% FS) rather than choosing by price.
Introduction: Why Dynamometer Type Matters
Choosing the wrong dynamometer type is one of the most costly mistakes in motor and powertrain testing. Each technology—eddy current, isteresi, and magnetic powder—operates on fundamentally different physical principles, which directly determines the test parameters it can accurately measure, its response speed, and its suitability for specific applications.
This guide provides a technical breakdown of all three types to help engineers and procurement teams make the right decision for their specific test requirements.
High-power, wide speed range
Precisione, low-speed torque
Zero-speed, factory EOL testing
⚡ Eddy Current Dynamometer
How It Works
Eddy current dynamometers use electromagnetic induction to generate braking torque. A conductive rotor spins within a magnetic field produced by DC coils; induced currents create opposing forces that resist rotation. Torque is controlled by adjusting field current.
Key Specifications
| Gamma di velocità | 100–15,000+ RPM |
| Assorbimento di potenza | Fino a 2,000+ KW |
| Precisione della coppia | ±0.2–0.5% |
| Response Time | Fast (10–100 ms) |
| Zero-Speed Torque | ❌ Not available |
Best Applications
- EV motor & E-Axle performance testing
- High-power industrial motor validation
- Automotive powertrain & transmission testing
- Efficiency mapping across wide speed/load range
🔵 Hysteresis Dynamometer
How It Works
Hysteresis dynamometers use a slotted stator and a hysteresis disk rotor. As the rotor passes through alternating magnetic poles, the material’s hysteresis loss generates heat and braking torque. Critically, torque is speed-independent — making it ideal for near-zero-speed testing.
Key Specifications
| Gamma di velocità | 0–30,000+ RPM |
| Assorbimento di potenza | Fino a 200 KW (typical) |
| Precisione della coppia | ±0.1–0.25% (alta precisione) |
| Response Time | Very fast (<10 SM) |
| Zero-Speed Torque | ✅ Full rated torque |
Best Applications
- Small motor R&D and precision testing
- Servo motor and stepper motor evaluation
- High-speed spindle and dental drill testing
- Harmonic drive and precision reducer testing
🟠 Magnetic Powder Dynamometer
How It Works
Magnetic powder dynamometers use ferromagnetic powder between rotor and stator. When the coil is energized, powder particles align and form chains, creating shear force that resists rotation. Torque is nearly linearly proportional to excitation current, enabling precise control including at zero speed.
Key Specifications
| Gamma di velocità | 0–3,000 RPM |
| Assorbimento di potenza | <50 KW (continuous) |
| Torque Linearity | Excellent (<1% hysteresis error) |
| Response Time | Moderate (100–500 ms) |
| Zero-Speed Torque | ✅ Full rated torque at stall |
Best Applications
- Motor production line end-of-line testing
- Torque sensor calibration
- Conveyor motor and pump motor testing
- Low to medium speed applications (<3,000 giri al minuto)
Quick Comparison: All Three Types at a Glance
Which Dynamometer is Right for You?
Choose Eddy Current if:
- Testing EV motors or E-Axles
- Power requirements exceed 100 KW
- Wide speed range needed
- Automotive powertrain or transmission
Choose Hysteresis if:
- Testing servo motors or small motors
- Need high-speed range (>10,000 giri al minuto)
- Precision torque at near-zero speed
- R&D lab applications
Choose Magnetic Powder if:
- Production line end-of-line (EOL)
- Stall torque testing required
- Low power (<50 KW)
- Torque sensor calibration
Need Help Selecting the Right Dynamometer?
EconoTest engineers help you match the right technology to your test requirements. Get a customized recommendation within 24 ore.
Domande frequenti
Can an eddy current dynamometer hold torque at zero speed?
NO. Eddy current braking requires rotation. For zero-speed or locked-rotor torque testing, use a hysteresis or magnetic powder dynamometer instead.
What torque range do magnetic powder dynamometers cover?
EconoTest ECF series covers 2 A 2,000 Nm with air or water cooling, at speeds typically up to 5,000 RPM — ideal for servo motors, geared motors and gearboxes.
Which dynamometer suits high-speed e-motor testing?
Eddy current models (Serie ECW, fino a 50,000 giri al minuto) or dedicated high-speed motor test benches reaching 100,000 giri al minuto.
What accuracy can I expect from these dynamometers?
Torque accuracy ranges from ±0.2% to ±0.5% of full scale depending on the series and frame size.
Can different dynamometer types be combined in one test bench?
SÌ. Multi-dynamometer solutions pair hysteresis, eddy current and powder brakes on one platform to cover a wide torque–speed range.
