T: +86-15800900153
E: songwenyan@windouble.com.cn
E: songwenyan@windouble.com.cn
No.1230, Beiwu Road, Minhang District,Shanghai,China
| Quantity: | |
|---|---|
J200XFS6411M01
Windouble
Main Parameters
| Model | J200XFS6411M01 |
| Pole Pairs | 1:64 |
| Input Voltage | AC 15 Vrms |
| Input Frequency | 1000 Hz |
| Transformation Ratio | 0.333 ±10% |
| Accuracy (of coarse resolver) | ±15' max |
| Accuracy (of fine resolver) | ±10" max/ ±20" max |
| Phase Shift (of coarse resolver) | 0° ±20° |
| Phase Shift (of fine resolver) | 0° ±40° |
| Input Impedance (of coarse resolver) | (6200 ±930) Ω |
| Input Impedance (of fine resolver) | (200 ±30) Ω |
| Output Impedance (of coarse resolver) | (1200 ±180) Ω |
| Output Impedance (of fine resolver) | (1200 ±180) Ω |
| Dielectric Strength | AC 500 Vrms 1min |
| Insulation Resistance | 250 MΩ min |
| Maximum Rotational Speed | 200 rpm |
| Operating Temperature Range | -55℃ to +155℃ |
About Aerograde Dual-Speed Resolver
A high-precision angle measuring device widely used in aerospace, shipbuilding, weaponry, and precision machinery. Composed of a single-pole pair resolver and a multi-pole pair resolver, typically designed within the same set of stator and rotor cores.
Key Features
High reliability and precision, capable of accurately measuring the angular displacement and angular velocity of rotating machinery.
Design Considerations
Precision and Stability: The resolver must have high precision and stability.
Environmental Adaptability: Capable of withstanding harsh conditions like extreme temperatures and humidity.
Analog-digital Conversion: Involves the working principles of analog-to-digital conversion chips.
Peripheral Circuit Design: The design of the surrounding circuits that support the operation of the resolver.
Application
Industrial Control: Widely used in industrial control systems for precision measurements. High reliability, long lifespan, and the ability to adapt to extreme environments such as high temperatures, cold, and humidity.
Aerospace and Military: Essential in aerospace for spacecraft control and in weapon systems for precise aiming. Particularly important in aerospace due to the control precision of modern spacecraft's follow-up systems reaching arcsecond levels.
Main Parameters
| Model | J200XFS6411M01 |
| Pole Pairs | 1:64 |
| Input Voltage | AC 15 Vrms |
| Input Frequency | 1000 Hz |
| Transformation Ratio | 0.333 ±10% |
| Accuracy (of coarse resolver) | ±15' max |
| Accuracy (of fine resolver) | ±10" max/ ±20" max |
| Phase Shift (of coarse resolver) | 0° ±20° |
| Phase Shift (of fine resolver) | 0° ±40° |
| Input Impedance (of coarse resolver) | (6200 ±930) Ω |
| Input Impedance (of fine resolver) | (200 ±30) Ω |
| Output Impedance (of coarse resolver) | (1200 ±180) Ω |
| Output Impedance (of fine resolver) | (1200 ±180) Ω |
| Dielectric Strength | AC 500 Vrms 1min |
| Insulation Resistance | 250 MΩ min |
| Maximum Rotational Speed | 200 rpm |
| Operating Temperature Range | -55℃ to +155℃ |
About Aerograde Dual-Speed Resolver
A high-precision angle measuring device widely used in aerospace, shipbuilding, weaponry, and precision machinery. Composed of a single-pole pair resolver and a multi-pole pair resolver, typically designed within the same set of stator and rotor cores.
Key Features
High reliability and precision, capable of accurately measuring the angular displacement and angular velocity of rotating machinery.
Design Considerations
Precision and Stability: The resolver must have high precision and stability.
Environmental Adaptability: Capable of withstanding harsh conditions like extreme temperatures and humidity.
Analog-digital Conversion: Involves the working principles of analog-to-digital conversion chips.
Peripheral Circuit Design: The design of the surrounding circuits that support the operation of the resolver.
Application
Industrial Control: Widely used in industrial control systems for precision measurements. High reliability, long lifespan, and the ability to adapt to extreme environments such as high temperatures, cold, and humidity.
Aerospace and Military: Essential in aerospace for spacecraft control and in weapon systems for precise aiming. Particularly important in aerospace due to the control precision of modern spacecraft's follow-up systems reaching arcsecond levels.
