ams OSRAM AS5132 High-Speed Magnetic Rotary Encoder IC
ams OSRAM AS5132 High-Speed Magnetic Rotary Encoder IC is a contactless magnetic rotary encoder for accurate angular measurement over a full turn of 360°. It is a system-on-chip, combining integrated Hall elements, analog front-end, and digital signal processing in a single device. To measure the angle, only a simple two-pole magnet, rotating over the center of the chip is required.
The absolute angle measurement provides an instant indication of the magnet's angular position with a resolution of 8.5-bit = 360 positions per revolution. This digital data is available as serial output over the interface and as a pulse width modulated (PWM) signal.
An additional U, V, W output can be used for a block commutation for a brushless DC motor. An incremental signal is available as an option. In addition to the angle information, the strength of the magnetic field is also available as a 5-bit code. A software programmable (OTP) zero position simplifies assembly as the zero position, and the magnet does not need to be mechanically aligned.
Features
- 360° contactless angular position sensing
- Two digital absolute outputs (8.5-bit): Serial interface and PWM output
- Incremental output with adjustable number of pulses
- BLDC Output UVW, selectable for 1,2,3,4,5,6 pole pairs
- Supports external PWM clock mode
- Static and dynamic pre-commutation feature
- User-programmable zero position and sensitivity
- High speed: up to 72,900rpm
- Direct measurement of magnetic field strength allows exact determination of vertical magnet distance
- Incremental outputs ABI quadrature: 90ppr, step direction: 180ppr, fixed pulse width 360ppr
- 9-bit multi-turn counter
- Wide magnetic field input range: 20-80mT (typical)
- -40°C to +150°C wide temperature range:
- Thin small Pb-free package: SSOP-20
Applications
- Contactless rotary position sensing
- Rotary switches (human machine interface)
- AC/DC motor position control
- Brushless DC motor position control
Block Diagram
Publicado: 2012-11-28
| Actualizado: 2022-03-11