● DescriptionThe MYS-IRM-7607 is a small SMD IR receiver module for infrared remote control systems.The PIN diode and preamplifier are assembled on a PCB, and the epoxy package includes an IR filter.The demodulated output signal can be directly connected to a microprocessor for decoding.The data signal may be suppressed when transmitted continuously. ● FeaturesUltra-thin SMD…
●Features․Fast response time․High analytic․Peak wavelength λp=940nm․High sensitivity․Pb free․This product itself will remain within RoHS compliant version. ●DescriptionsThe MYS-6808-G-Z-B consist of an infrared emitting diode and an NPN silicon phototransistor, encased side-by-side on converging optical axis in a black thermoplastic housing .The phototransistor does not receive radiation from IR LED in normal situation, but when an…
Product : 20-56kHz WidebandModel : MYS-016Shell Dimensions :18*13*7mm(approx.)Operating Voltage : 2.7-5.5VPlug : 2.5mm/3.5mmCable length : 500-5000mmCompatible IR Frequency : 20-56kHz/38kHzProduct description : Customized products according to requirementsApplications: Cable Boxes, HD DVR’s,DVR’s & STB’s MODEL;:MYS-016●Wide voltage adaptation、low power consumption、high sensitivity、Excellent anti-interferencecharacteristics;●Applications:TV, set-top box, VTR, audio, digital photo frame, household electrical appliance, airconditioner, toy,lamp, and all appliances…
● DescriptionThe MYS-7608 is miniaturized infrared receivers for remote control andother applications requiring improved ambient light rejection.The separate PIN diode and preamplifier IC are assembled on a single lead frame.The epoxy package contains a special IR filter.This module has excellent performance even in disturbed ambient lightapplications and provides protection against uncontrolled output pulses. ● Features●…
Model:MYS-3461 Wide voltage adaptation、low power consumption、high sensitivity、Excellent anti-interference characteristics; Applications:TV, set-top box, VTR, audio, digital photo frame, household electrical appliance, air conditioner, toy,lamp, and all appliances that require infrared remote controlling;
Best remote control and infrared photography with high sensitivity. Wholesale low-power spherical receiver supply from MYS factory. ODM/OEM customization is available.
Welcome to the comprehensive guide on integrated infrared remote control and IR photography solutions. Our cutting-edge MYS series products represent the latest advancement in infrared technology, offering versatile solutions for both remote control applications and infrared imaging systems. Whether you're developing consumer electronics, industrial controls, or specialized imaging equipment, our technology provides the reliability and performance you need.
Modern remote control systems demand precision, reliability, and flexibility. Our MYS series infrared receivers are designed to meet these requirements through advanced signal processing and robust environmental interference rejection. The technology operates within the optimal 20-56kHz frequency range, ensuring compatibility with major control protocols while maintaining excellent signal integrity.
Home Automation Integration: Smart home device control, Environmental system management, Entertainment system integration and Lighting control solutions.
Industrial Control Systems: Manufacturing process control, Automated equipment operation, Safety system integration, Remote monitoring solutions.
Automotive Applications: Vehicle security systems, Interior control systems, Entertainment system integration, Climate control management.
Our infrared receivers feature: Ultra-wide voltage adaptation (2.7V-5.5V). Minimal power consumption. Enhanced sensitivity for reliable operation. Superior interference rejection. Compatibility with major control protocols.
Our infrared sensors and receivers provide the foundation for sophisticated imaging applications. Operating at the optimal 940nm peak wavelength, these components deliver exceptional sensitivity and accuracy for various imaging requirements.
Security and Surveillance: Night vision systems, Motion detection, Perimeter security and Access control systems.
Industrial Imaging: Quality control inspection, Temperature monitoring, Process verification, Material analysis.
Scientific Applications: Research and development, Environmental monitoring, Medical imaging, Spectral analysis.
Our products are designed for seamless integration into your applications: Direct microprocessor compatibility, Minimal external component requirements, Flexible mounting options and Comprehensive technical support.
For optimal performance in your applications: Maintain proper operating voltage ranges, Consider environmental factors in installation, Follow recommended circuit designs and Implement appropriate filtering solutions.
Operating Voltage: 2.7V-5.5V. Reception Range: Up to 15 meters. Peak Wavelength: 940nm. Response Time: Ultra-fast for real-time control. Operating Temperature: -25°C to 85°C.
Each product undergoes rigorous testing to ensure: Consistent performance, Environmental stability, Long-term reliability and Specification compliance.
Technical Documentation: Comprehensive datasheets, Application notes, Integration guides and Circuit examples.
Development Support: Sample code libraries, Reference designs, Implementation guidelines and Technical consultation.
A: What is the optimal operating voltage for maximum sensitivity?
Q: Our receivers perform optimally at 5V DC, though they maintain excellent performance across the entire 2.7V-5.5V range.
A: How can I maximize the reception range in my application?
Q: For optimal range, ensure proper power supply filtering, maintain clear line-of-sight, and minimize environmental interference sources.
A: What protocols are supported by your receivers?
Q: Our receivers support all major IR protocols, including NEC, RC5, RC6, and custom protocols within the 20-56kHz range.
A: How do I integrate the receiver with my microcontroller?
Q: Our receivers provide a demodulated output that connects directly to any microcontroller's digital input pin, simplifying integration.
Our integrated infrared solutions provide the perfect combination of performance, reliability, and ease of integration for your remote control and imaging applications. With comprehensive technical support and proven reliability, you can trust our products to meet your most demanding requirements.
MYS/YSH is China Wholesale infrared Semiconductor Factory Manufacturer Supplier , who provides infrared emission, infrared receiver, infrared control extension cable and HDMI remote control cable and infrared transmitter cable.
As a manufacturer in China, YSH provides high-quality mini IR LED USB infrared extension cables to extend remote control connectivity for various electronics and displays. Customization available.
As a wholesale centralized control signal transponder extension cable manufacturer & factory in China, we offer a wide selection of top-grade receivers at competitive prices, with custom options and rapid delivery. with over 16 years industry experience, we are a leading China manufacturer & factory.
Model:MYS-68B
1、Limit Parameter:
| Supply Voltage | VCC (v) | 6.0 | Operation Temperature | TOPR (℃) | -25 — 85 |
| Consumption | PD(mw) | 30 | Storage Temperature | TSTG (℃) | -40 — 125 |
2、Optoelectronic Parameter: (T=25℃ VCC=5V f0=37.9KHZ)
| Parameter | Symbol | Test Conditions | Min | Type | Max | unit |
| Operating Voltage | Vcc | 2.7 | 5.5 | V | ||
| Receive Distance | L | L5IR5 IF =300mA(test signal) | 8 | 15 | M | |
| Peak Wavelength | λp | – | 940 | – | nm | |
| Carrier Frequency | f0 | 37.9k | HZ | |||
| Receiving Angle | θ1/2 | distance attenuation1/2 | +/-45 | Deg | ||
| BMP Width | fBW | -3Db Bandwidth | 3.5 | 5.0 | 6.0 | kHz |
| Quiescent Current | Icc | no signal input | 0.25 | 0.30 | 0.40 | mA |
| Output Voltage Low | VOL | Vin=0V Vcc=5V | 0.2 | 0.4 | V | |
| Output Voltage High | VOH | Vcc=5V | 2.7 | 3.0 | – | V |
| Level Output Pulse Width | PWL | Vin=500μVp-p | 400 | 600 | 800 | μS |
| TPWH | Vin=50mVp-p | 400 | 600 | 800 | μS | |
※:Test on the optical axis with a width of 600/900 μ S is the transmitted pulse, taking the average of 50 received pulses within a receiving range of 5CM (see test waveform)。
3、Test Waveform:
4、Electrical Principle Block Diagram:
5、Receiving angle diagram:
6、Application circuit diagram:
7、Photoelectric characteristic diagram
8、IRMExternal dimensions and pin formation
8.1 External dimensions and pin formation:
9、Product packaging
9.1 Packaging method: bagged.
9.2 Inner packaging: Use anti-static plastic bags for packaging, with each bag containing 500 pieces/bag.
9.3 Outer packaging: Use cardboard boxes for packaging, placing 20 bags with a total of 10000 pieces per box.
Spherical shape infrared receivers are designed to offer a 360-degree reception capability, which is a significant improvement over traditional flat or directional receivers. This spherical design allows for omnidirectional signal detection, making it ideal for applications where the infrared source may not be directly in line with the receiver. The latest innovations in this technology focus on enhancing sensitivity, reducing noise, and improving overall performance in various environments.
The popularity of spherical shape infrared receivers is on the rise due to their versatility and efficiency. They are particularly useful in smart home systems, automotive applications, and industrial automation, where reliable and consistent signal reception is crucial. The spherical design eliminates the need for precise alignment, reducing installation complexity and improving user experience. Additionally, advancements in materials and manufacturing processes have made these receivers more durable and cost-effective.
Spherical shape infrared receivers operate by capturing infrared signals from all directions. Here’s a step-by-step breakdown of how they function:
Recent innovations have introduced advanced algorithms and microprocessors that improve signal accuracy and reduce latency.
Yes, spherical shape infrared receivers can be seamlessly integrated with other technologies to enhance functionality. For example, they can be combined with IoT devices to enable remote control and monitoring. In automotive applications, they can work alongside sensors and cameras to improve safety features. The spherical design also allows for easy integration into existing systems without the need for extensive modifications.
The spherical shape actually enhances the receiver's performance by providing omnidirectional coverage. This design ensures that the receiver can detect signals from any direction, which is particularly beneficial in dynamic environments where the infrared source may move. Additionally, the spherical shape helps to distribute heat more evenly, reducing the risk of overheating and extending the device's lifespan.
Spherical shape infrared receivers are widely used in various applications, such as remote controls, security systems, and automation devices. Proper maintenance ensures their optimal performance, longevity, and reliability. Neglecting maintenance can lead to reduced sensitivity, signal interference, or even complete failure of the device. Regular upkeep also helps identify potential issues early, preventing costly repairs or replacements.
Cleaning is a crucial part of maintaining spherical shape infrared receivers. Follow these steps:
Yes, environmental factors such as dust, moisture, and extreme temperatures can significantly impact the performance of spherical shape infrared receivers. To mitigate these effects:
Regular inspection is essential to ensure the receiver functions correctly. Here’s what to check:
If you notice any issues during inspection or testing, take the following steps:
A spherical shape infrared receiver is a device designed to capture infrared signals from remote controls or other IR sources. Its spherical design allows for a wider reception angle, making it more effective in environments where the signal might come from various directions. This type of receiver is commonly used in home entertainment systems, smart home devices, and industrial automation. Understanding its functionality is essential before proceeding with installation.
The spherical shape of the infrared receiver offers several advantages. Firstly, it provides a 360-degree reception range, ensuring that signals are captured regardless of the device's orientation. This is particularly useful in setups where the remote control might not always be pointed directly at the receiver. Additionally, its compact and aesthetically pleasing design makes it suitable for modern home and office environments. Choosing this type of receiver ensures reliable performance and seamless integration into your existing systems.
Installing a spherical shape infrared receiver is a straightforward process. Follow these steps to ensure proper setup:
Yes, a spherical shape infrared receiver is compatible with most devices that use IR signals, such as TVs, air conditioners, and sound systems. However, it is essential to check the receiver's specifications to ensure it matches the frequency and protocol of your device. Some receivers may require additional adapters or configuration to work seamlessly with specific equipment.
The spherical shape of the receiver does not negatively impact signal strength. In fact, it enhances it by providing a wider reception area. However, external factors such as distance, obstructions, and interference from other IR sources can affect performance. To maintain optimal signal strength, ensure the receiver is installed in a suitable location and tested thoroughly during setup.
The range of a spherical shape infrared receiver refers to the maximum distance at which it can effectively detect and receive infrared signals. This range is influenced by several factors, including the receiver's sensitivity, the power of the infrared transmitter, and environmental conditions. Understanding the range is crucial for applications such as remote controls, security systems, and communication devices.
The range determines the usability of the infrared receiver in various scenarios. For instance, in a home theater setup, the remote control must be able to operate the devices from a comfortable distance. In security systems, the receiver needs to detect intruders from a safe distance to ensure timely alerts. Therefore, knowing the range helps in selecting the right receiver for specific applications.
The range of a spherical shape infrared receiver is determined through a series of tests and measurements. Here is a step-by-step process:
Yes, the range of a spherical shape infrared receiver can be improved through several methods:
The spherical shape of the infrared receiver plays a significant role in its range. The spherical design allows for omnidirectional reception, meaning the receiver can detect signals from all directions without the need for precise alignment. This feature is particularly beneficial in applications where the transmitter's position may vary, such as in interactive toys or automated systems. However, the spherical shape may also introduce some limitations, such as reduced sensitivity in certain directions due to the curvature of the receiver.
Spherical shape infrared receivers are designed with a distinctive spherical geometry, which sets them apart from traditional flat or rectangular receivers. This unique shape allows for omnidirectional signal reception, meaning the receiver can detect infrared signals from any angle without the need for precise alignment. This feature is particularly beneficial in applications where the position of the transmitter is not fixed or where multiple transmitters are involved.
The spherical shape of these receivers offers several advantages:
Step by step, the process of signal reception in spherical shape infrared receivers involves:
Yes, spherical shape infrared receivers are often designed to withstand harsh environmental conditions. They can be built with materials that are resistant to dust, moisture, and extreme temperatures, making them suitable for outdoor or industrial applications. Additionally, their robust construction ensures reliable performance even in challenging environments.
While the spherical shape provides omnidirectional reception, it does not compromise the receiver's sensitivity. In fact, the design can enhance sensitivity by ensuring that the receiver captures signals from all angles, reducing the likelihood of signal loss. Advanced materials and precise engineering further optimize the receiver's sensitivity and overall performance.
A Spherical Shape Infrared Receiver is a specialized device designed to detect and receive infrared signals from remote controls or other IR sources. Its spherical shape allows for a wider reception angle, making it highly effective in various applications such as home entertainment systems, automotive electronics, and industrial automation. The receiver typically consists of an IR sensor, signal amplifier, and demodulator, which work together to convert infrared light into electrical signals that can be interpreted by electronic devices.
Choosing a Spherical Shape Infrared Receiver offers several advantages:
Selecting the right Spherical Shape Infrared Receiver involves several key considerations:
Yes, a Spherical Shape Infrared Receiver can be used in outdoor environments, provided it is designed to withstand the specific conditions of the application. Many receivers are built with weather-resistant materials and protective coatings to ensure reliable performance in outdoor settings. However, it's essential to verify the receiver's specifications to ensure it can handle factors such as temperature extremes, humidity, and exposure to sunlight.
The spherical shape of the receiver significantly enhances its performance by providing a wider reception angle. This design allows the receiver to capture IR signals from various directions, reducing the need for precise alignment with the IR source. Additionally, the spherical shape can help distribute stress more evenly across the device, potentially increasing its durability and lifespan. Overall, the spherical design is a key factor in the receiver's effectiveness and reliability.
Spherical shape infrared receivers are designed with a 360-degree reception capability, making them highly versatile in various applications. Unlike traditional flat or directional receivers, their spherical design allows them to capture infrared signals from all directions without the need for precise alignment. This feature is particularly beneficial in environments where the signal source may not be fixed or easily predictable.
Spherical shape infrared receivers find applications across a wide range of industries due to their unique design and functionality. Here are some key examples:
Yes, spherical shape infrared receivers can be tailored to meet specific application requirements. Customization options include:
The spherical design of infrared receivers contributes to energy efficiency in several ways:
The spherical shape of infrared receivers offers several unique benefits that make them superior to traditional flat or rectangular designs. Here are the key reasons:
The spherical design optimizes signal reception through its unique physical properties. Here's how it works step by step:
Spherical infrared receivers are particularly well-suited for challenging environments due to their robust design:
The unique advantages of spherical infrared receivers make them ideal for various applications:
A spherical shape infrared receiver is a specialized device designed to detect and process infrared signals from various sources. Unlike traditional flat or cylindrical receivers, its spherical design allows for omnidirectional signal reception, making it highly efficient in capturing IR signals from any angle.
Yes, the spherical shape infrared receiver is versatile and can be used in a wide range of environments. Its omnidirectional capability makes it ideal for both indoor and outdoor applications, including home entertainment systems, security systems, and industrial automation.
Maintenance is minimal. The spherical design not only enhances performance but also reduces the accumulation of dust and debris, which can interfere with signal reception. Regular cleaning with a soft cloth is usually sufficient to keep the receiver in optimal condition.
A Spherical Shape Infrared Receiver is a specialized device designed to detect and process infrared signals. Unlike traditional flat or rectangular receivers, its spherical shape allows for omnidirectional signal detection, making it highly efficient in various applications. This type of receiver is commonly used in remote controls, security systems, and even in some advanced robotics.
The spherical design offers several advantages:
The Spherical Shape Infrared Receiver operates through a series of steps:
Yes, the Spherical Shape Infrared Receiver is versatile and can be used in multiple environments:
Maintaining a Spherical Shape Infrared Receiver is straightforward:
● DescriptionThe MYS-IRM-7607 is a small SMD IR receiver module for infrared remote control systems.The PIN diode and preamplifier are assembled on a PCB, and the epoxy package includes an IR filter.The demodulated output signal can be directly connected to a microprocessor for decoding.The data signal may be suppressed when transmitted continuously. ● FeaturesUltra-thin SMD…
●Features․Fast response time․High analytic․Peak wavelength λp=940nm․High sensitivity․Pb free․This product itself will remain within RoHS compliant version. ●DescriptionsThe MYS-6808-G-Z-B consist of an infrared emitting diode and an NPN silicon phototransistor, encased side-by-side on converging optical axis in a black thermoplastic housing .The phototransistor does not receive radiation from IR LED in normal situation, but when an…
Product : 20-56kHz WidebandModel : MYS-016Shell Dimensions :18*13*7mm(approx.)Operating Voltage : 2.7-5.5VPlug : 2.5mm/3.5mmCable length : 500-5000mmCompatible IR Frequency : 20-56kHz/38kHzProduct description : Customized products according to requirementsApplications: Cable Boxes, HD DVR’s,DVR’s & STB’s MODEL;:MYS-016●Wide voltage adaptation、low power consumption、high sensitivity、Excellent anti-interferencecharacteristics;●Applications:TV, set-top box, VTR, audio, digital photo frame, household electrical appliance, airconditioner, toy,lamp, and all appliances…
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