2500P8 L6-5V TS5214N8566 2500PPR Tamagawa Rotary Encoder
The TS5214N8566 is a model of rotary encoder manufactured by Tamagawa, which is known for producing high-quality encoders for industrial applications. The encoder model 2500P8 L6-5V TS5214N8566 including its key features and specifications
Key Specifications and Features:
-
- 2500P8: This likely indicates the encoder’s resolution and output type.
- 2500P: This stands for 2500 pulses per revolution (PPR), meaning the encoder generates 2500 pulses for each complete 360-degree rotation of its shaft.
- L6-5V: This indicates the electrical characteristics of the encoder.
- L6: This might refer to the line driver type or interface specification.
- 5V: This indicates the operating voltage, which is 5 volts.
- TS5214N8566: This is the specific model number within the Tamagawa product lineup.
- 2500P8: This likely indicates the encoder’s resolution and output type.
Features:
- Incremental Encoder: Provides pulses in response to shaft rotation, which can be counted to determine position and speed. The direction of rotation is typically determined by the phase difference between the A and B channels.
- High Resolution: With a resolution of 2500 PPR, the encoder is capable of delivering precise position and speed measurements, suitable for high-precision applications.
- Output Signals: Likely provides quadrature output signals (A and B) which are 90 degrees out of phase. This configuration allows for accurate detection of rotational direction and can double the resolution through quadrature decoding.
- Electrical Interface: Designed to operate at 5V, which is common for industrial encoders. The specific ‘L6’ designation could indicate a line driver output, which is typically used for long cable runs and noise immunity.
Applications:
- Motor Feedback: Provides precise position and speed feedback for motor control applications.
- CNC Machinery: Ensures precise control and measurement in CNC machines, critical for high-precision manufacturing.
- Industrial Automation: Suitable for various automation tasks where reliable and accurate position feedback is essential.
Installation and Usage:
- Mechanical: Typically involves mounting the encoder to a motor or machinery shaft.
- Electrical: Involves connecting the encoder’s output channels (A, B, possibly Z for the index pulse) and power supply (5V) to the control system or PLC.