HEDS-5540#I11 Overview
The HEDS-5540#I11 is a high-precision optical encoder designed to deliver accurate incremental position feedback for industrial automation and motion control systems. Featuring a compact package and reliable photodetection technology, it provides robust performance in demanding environments. This encoder is optimized for seamless integration into rotary and linear motion applications, offering consistent output signals critical for precise speed and position monitoring. The device is engineered to meet stringent industrial standards, making it a trusted choice for engineers and sourcing specialists seeking dependable incremental encoders. For more details and sourcing options, visit IC Manufacturer.
HEDS-5540#I11 Technical Specifications
| Parameter | Specification |
|---|---|
| Encoder Type | Incremental Optical Encoder |
| Resolution | 500 pulses per revolution (PPR) |
| Supply Voltage | 5 V ??5% |
| Output Type | Line Driver (differential) |
| Maximum Response Frequency | 100 kHz |
| Operating Temperature Range | -40??C to +100??C |
| Incremental Output Channels | Channel A, Channel B, and Index (Z) channel |
| Package Type | Compact 10-pin DIP |
| Output Waveform | Square wave with 90?? phase shift |
| Current Consumption | 30 mA typical |
HEDS-5540#I11 Key Features
- High resolution of 500 PPR: Enables precise position sensing, essential for accurate speed control and positioning in automation systems.
- Differential line driver outputs: Provide improved noise immunity and signal integrity over long cable runs, ensuring consistent data transmission in industrial environments.
- Wide operating temperature range: Ensures reliable performance under harsh environmental conditions, supporting applications in diverse industrial settings.
- Compact 10-pin DIP package: Facilitates easy integration into existing designs with limited space, reducing overall system footprint.
- Built-in index (Z) channel: Offers a single reference point per revolution, improving system calibration and repeatability.
- Low current consumption: Minimizes power draw, contributing to energy-efficient system designs.
- Robust optical sensing technology: Delivers long-term reliability and consistent output, reducing maintenance needs.
HEDS-5540#I11 Advantages vs Typical Alternatives
This optical encoder excels in delivering high-resolution feedback with low power consumption and robust noise immunity through differential outputs. Compared to typical alternatives, it offers enhanced reliability over wide temperature ranges and a compact footprint for integration flexibility. The inclusion of an index channel improves system accuracy, making it a superior choice for precision motion control applications requiring consistent and dependable performance.
🔥 Best-Selling Products
Texas Instruments BQ24075 Linear Battery Charger IC – 5mm x 4mm QFN Package
Texas Instruments INA219 Current Sensor Module – SOIC Package, Precision Monitoring
Texas Instruments LM4041 Precision Voltage Reference – SOT-23 Package
Texas Instruments OPA2134 Audio Op Amp – Dual, High-Performance, SOIC-8 Package
Typical Applications
- Industrial automation and robotics: Provides precise position and speed feedback crucial for motion control systems in manufacturing and assembly lines.
- Motor feedback systems: Enables accurate rotor position sensing for brushless DC and servo motors to optimize performance and efficiency.
- Printers and scanners: Supports accurate paper feed and positioning mechanisms requiring reliable incremental encoding.
- Elevator and conveyor controls: Delivers dependable position monitoring to ensure smooth and safe operation.
HEDS-5540#I11 Brand Info
This incremental encoder is part of a well-established product line known for precision and reliability in optical sensing solutions. Manufactured under stringent quality controls, it reflects the brand??s commitment to delivering components suited for demanding industrial applications. The design and production adhere to industry standards, ensuring compatibility and performance that engineers and sourcing specialists can trust when developing or maintaining motion control systems.
FAQ
What type of output signals does this encoder provide?
The encoder provides differential line driver outputs for Channel A, Channel B, and an index (Z) channel. These signals are square waves with a 90?? phase shift between channels A and B, which allows for direction detection and high noise immunity in signal transmission.
🌟 Featured Products
“Buy MAX9312ECJ+ Precision Voltage Comparator in DIP Package for Reliable Performance”
QCC-711-1-MQFN48C-TR-03-1 Bluetooth Audio SoC with MQFN48C Package
0339-671-TLM-E Model – High-Performance TLM-E Package for Enhanced Functionality
1-1415898-4 Connector Housing, Electrical Wire-to-Board, Receptacle, Packaged
What is the maximum operating temperature for this device?
The encoder is designed to operate reliably within a temperature range from -40??C to +100??C. This allows it to function effectively in harsh industrial environments where temperature variations are common.
How does the index channel benefit system performance?
The index channel generates a single pulse per revolution, providing a precise reference point for system calibration and synchronization. This feature enhances repeatability and accuracy in position control applications by enabling the system to reset or confirm the shaft position.
📩 Contact Us
Is the device suitable for long cable runs in industrial settings?
Yes, the differential line driver outputs improve noise immunity and signal integrity, making the encoder well-suited for use in environments with electrical noise and over extended cable lengths without signal degradation.
What is the typical current consumption of this optical encoder?
The device typically consumes around 30 mA during operation, which helps minimize power requirements in embedded systems and contributes to overall energy efficiency in motion control applications.
