HEDS-9711#R50 Overview
The HEDS-9711#R50 is a high-precision incremental optical encoder designed for accurate position and speed sensing in industrial automation and motion control systems. This device features dual digital outputs with A and B channels, enabling quadrature output for precise directional sensing. Its compact design and reliable optical sensing technology provide consistent performance in demanding environments. Suitable for applications requiring high resolution and dependable feedback, it supports seamless integration with a variety of motor control and robotics systems. For detailed technical information and sourcing, visit IC Manufacturer.
HEDS-9711#R50 Technical Specifications
| Parameter | Specification |
|---|---|
| Encoder Type | Incremental optical encoder |
| Output Channels | 2 (Quadrature A and B) |
| Counts per Revolution (CPR) | 500 |
| Supply Voltage | 5 V ?? 10% |
| Output Format | Push-pull digital outputs |
| Operating Temperature Range | -40??C to +100??C |
| Output Frequency | Up to 100 kHz |
| Package Type | Compact, through-hole mount |
| Power Consumption | Typical 30 mA |
HEDS-9711#R50 Key Features
- High-resolution output: The 500 CPR provides precise position feedback, enabling accurate speed and position control in motion systems.
- Quadrature signals: Dual-channel output with 90?? phase difference supports direction detection, essential for bidirectional motor control.
- Robust optical sensing: Ensures reliable performance in industrial environments, resisting dust and vibration effects better than mechanical encoders.
- Wide temperature range: Operates effectively from -40??C to +100??C, suitable for harsh and variable temperature conditions.
- Low power consumption: With a typical current draw of 30 mA, it supports energy-efficient designs in embedded and automation systems.
- Compact form factor: The through-hole package eases integration into existing assemblies, saving board space and simplifying installation.
HEDS-9711#R50 Advantages vs Typical Alternatives
This encoder offers superior sensitivity and resolution compared to standard mechanical encoders, delivering more accurate position feedback with minimal signal noise. Its optical sensing technology reduces wear and extends operational life, improving reliability. Additionally, low power consumption and robust environmental tolerance make it preferable for industrial automation systems requiring consistent performance and long-term stability.
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Typical Applications
- Industrial motor feedback: Provides precise shaft position and speed signals for closed-loop motor control in robotics and CNC machinery, enhancing accuracy and efficiency.
- Automation equipment: Supports position sensing in conveyors and assembly lines to synchronize operations and improve process control.
- Robotics: Enables accurate joint position feedback for robotic arms and automated guided vehicles, essential for precise motion control.
- Medical devices: Used in diagnostic and therapeutic machines requiring reliable position sensing to ensure safety and effectiveness.
HEDS-9711#R50 Brand Info
The HEDS-9711#R50 is part of a trusted series of optical encoders known for precision and durability in industrial applications. Manufactured with high-quality optical components and stringent quality control, this product line has established a reputation for reliable incremental encoding solutions. It is widely adopted by engineers seeking consistent performance in harsh environments, offering ease of integration and stable output signals to support advanced motion control and automation systems.
FAQ
What type of output signals does the HEDS-9711#R50 provide?
The device outputs two digital signals, commonly referred to as channels A and B, arranged in quadrature. This means the signals are phase-shifted by 90 degrees, which allows detecting both position increments and direction of rotation accurately.
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Can this encoder operate in extreme temperatures?
Yes, it is designed to function reliably within a wide temperature range from -40??C up to +100??C. This makes it suitable for various industrial environments, including those with significant temperature fluctuations.
What is the maximum rotational speed supported by this encoder?
The encoder supports output frequencies up to 100 kHz, which corresponds to high rotational speeds depending on the counts per revolution. This ensures it can be used in fast-moving motor applications without signal loss or distortion.
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How is the device powered and what is its power consumption?
It operates on a 5 V supply voltage with a tolerance of ??10%. The typical current draw is approximately 30 mA, making it energy-efficient for continuous operation in embedded or industrial systems.
What installation options are available for this encoder?
The product uses a compact through-hole package suitable for direct mounting on printed circuit boards. This form factor simplifies integration and mechanical alignment within assemblies requiring precise shaft position feedback.






