● 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;
The best wholesale video and TV cable with high sensitivity. Low-power infrared receiver products are supplied from the MYS/YSH factory. ODM/OEM customization is available.
In today's era of smart homes, digital cables play a pivotal role, seamlessly connecting various intelligent devices and enhancing our lives with unparalleled convenience and efficiency. As an industry leader, Shenzhen Yishenghua Electronics Co., Ltd. has been at the forefront of innovation and development in the realm of digital cables, providing customers with superior solutions.
With 16 years of extensive experience, Yishenghua Electronics holds a leading position in the design, production, and sales of infrared receivers and digital cables. The company's renowned "MYS" and "YSH" brands encompass a comprehensive range of products, including infrared receivers, infrared emitters, infrared receiver cables, infrared transmitter cables, infrared control extension cables, and HDMI remote control digital cables. These products find widespread application across various domains, such as air conditioners, kitchen exhaust hoods, electric fans, lamps, set-top boxes, advertising machines, robotic vacuum cleaners, and TV displays.
Digital cables are a crucial component of Yishenghua's product lineup, enabling high-speed and stable digital signal transmission, ensuring seamless interconnectivity and efficient communication between smart home devices. Whether it's HDMI cables, USB cables, or Ethernet cables, Yishenghua offers premium solutions tailored to meet the specific needs of diverse customers.
With a 3,000-square-meter cleanroom facility and a team of over 200 professionals, Yishenghua rigorously controls product quality, ensuring every digital cable undergoes stringent testing to deliver exceptional performance and reliable operation. Additionally, the company offers OEM and ODM customization services, crafting bespoke digital cable products to meet the specific requirements of its clients.
As technology continues to evolve, digital cables are also experiencing continuous performance enhancements. In the future, digital cables will progress toward higher bandwidths, longer transmission distances, and lower power consumption, meeting the ever-increasing demands for data transmission. Concurrently, emerging technologies such as 5G and artificial intelligence will present new opportunities for the development of digital cables.
As an industry leader, Yishenghua recognizes the importance of innovation. The company invests heavily in research and development, creating high-performance, eco-friendly digital cable products that deliver superior experiences for customers. Furthermore, Yishenghua collaborates closely with internationally renowned brands, integrating its premium products into various smart home devices, driving industry progress and enabling truly intelligent living.
Looking ahead, digital cables will continue to be an indispensable infrastructure for smart homes. As technology advances and consumer demands evolve, Yishenghua will remain at the forefront, leading industry developments and providing users with increasingly intelligent, convenient, and environmentally friendly solutions, ushering in a new era of smart home living.
Digital cables are specialized cables designed explicitly for transmitting digital signals, distinct from analog cables. Their key characteristics and functions include:
1. Digital Signal Transmission: Digital cables are engineered to transmit digitized signals, such as video, audio, and data, faithfully conveying digital bit streams rather than analog signals.
2. High Bandwidth: Digital cables typically feature broader bandwidths, capable of carrying high-resolution, high-bitrate digital signals to meet the demands of high-definition video and high-speed networks.
3. Strong Anti-Interference Capabilities: Digital cables often incorporate robust shielding designs and twisted pair cores, effectively shielding against external electromagnetic interference and ensuring signal integrity.
4. Low Signal Loss: The design of digital cables minimizes signal loss during transmission, ensuring that signal quality remains uncompromised over longer distances.
1) HDMI Cables: Transmitting high-definition video and audio digital signals.
2) DVI Cables: Transmitting digital video signals.
3) Displayport Cables: Transmitting video, audio, and USB digital signals.
4) USB Cables: Transmitting digital data signals.
5) Ethernet Cables: Transmitting digital network data.
These digital cables find widespread application in televisions, computers, home theaters, surveillance systems, industrial automation, and more, interconnecting various digital devices and enabling efficient and reliable digital signal communication. In the era of smart homes, digital cables play an increasingly vital role.
1. HDMI Cables: HDMI (High Definition Multimedia Interface) cables are fully digital cables capable of transmitting uncompressed high-definition video and multi-channel audio digital signals. They are commonly used to connect televisions, Blu-ray players, and gaming consoles within digital home entertainment systems.
2. DVI Cables: DVI (Digital Visual Interface) cables are pure digital video cables primarily used to transmit digital video signals from computers to LCD displays or digital projectors.
3. Displayport Cables: Displayport cables are an emerging type of fully digital interface cable that can transmit high-resolution video, audio, and USB data, typically used to connect computers and displays.
4. SDI Cables: SDI (Serial Digital Interface) cables are professional-grade cables used for transmitting uncompressed digital video and audio signals, widely employed in television broadcasting and film production.
5. Fiber Optic Cables: While not technically cables, fiber optic cables transmit fully digitized optical signals and serve as the primary transmission medium for modern communication networks.
These fully digital cables eliminate the need for digital-to-analog conversion, enabling end-to-end digital signal transmission, avoiding distortion and attenuation associated with analog signals, and ensuring high fidelity and reliability of digital signals.
1. Coaxial Digital Cables: Coaxial digital audio cables use a coaxial cable structure to transmit uncompressed digital audio signals, such as Dolby Digital and DTS Digital Surround Sound. Interfaces are typically labeled "Coaxial" or feature a round connector port.
2. Optical Digital Audio Cables: Optical digital audio cables utilize fiber optic strands as the transmission medium, capable of transmitting over longer distances without signal degradation. Interfaces are typically labeled "Optical" or "Lightpipe" and feature square or miniature connectors.
3. HDMI Cables: HDMI (High-Definition Multimedia Interface) cables can transmit both high-definition digital video and digital audio, including multi-channel surround sound, making them the most common cable for home theater setups.
4. USB Audio Cables: USB audio cables leverage the USB interface to transmit digital audio and audio control signals, commonly used to connect computers or mobile devices to speakers or headphones.
5. AES/EBU Cables: AES/EBU cables are professional-grade balanced digital audio cables primarily used to interconnect equipment in recording studios and television broadcast facilities, transmitting dual-channel digital audio.
Matching the appropriate digital audio cable with the respective digital audio interface and device is crucial for achieving high-quality digital audio transmission and optimal audio experiences.
While expensive digital cables can offer certain benefits in specific scenarios, in most consumer applications, reasonably priced quality digital cables can sufficiently meet basic requirements. The primary advantages of expensive digital cables include:
1. Improved Signal Quality: premium digital cables feature superior shielding designs, purer conductor materials, and precise manufacturing processes, minimizing signal loss and external interference, ensuring data transmission integrity and purity.
2. Support for Higher Bandwidths: High-end digital cables often employ more complex conductor designs and better insulation materials, enabling higher bandwidths capable of supporting ultra-high-resolution video, such as 8K, and high-bitrate audio transmission requirements.
3. Extended Transmission Distances: Some expensive digital cables incorporate specialized compensation techniques to maintain signal quality over longer transmission distances, catering to the long-distance connection needs of audiophiles and home theater enthusiasts.
4. Enhanced Anti-Interference Capabilities: Expensive digital cables typically feature multi-layer shielding designs, offering stronger resistance to electromagnetic interference, suitable for environments with poor electromagnetic conditions.
5. Increased Durability and Stability: premium digital cables utilize more robust outer jackets and connector materials, resulting in a more sturdy overall structure, longer service life, and improved signal stability.
6. Fulfilling Audiophile pursuits: For some audiophiles, investing in expensive digital cables to achieve marginal signal quality improvements is a matter of individual pursuit.
However, for most consumer-grade audio/video and digital connections, reasonably priced quality cables can adequately meet basic requirements, without the need to pursue excessively expensive digital cables. A balanced and rational approach to cable selection is the optimal choice.
Shenzhen Yishenghua was established In 2006, Mr. Ma Yi, chairman of the board, established Shenzhen Yishenghua Electronics Co., LTD., and launched the independent receiving head brand MYS. Independent R&D, independent design. Production and sales as one.
MYS/YSH is a Best Dual Head Infrared Emitter Cable supplier & manufacturer, information for Dual Head Infrared Emitter Cable: Model : MYS-003-2 The product design of shape is beautiful and delicate, and the length and plug can be customized according to c...
Shenzhen Yishenghua Electronics Co.Ltd founded in 2006,is located in the beautiful city of Shenzhen,Guangdong. Our main products including infrared receiver, infrared control extension cable and HDMI remote control cable, infrared emission and infrared receiver cable, etc.
Model : MYS-056
Shell Dimensions : 47*19.5*12mm
Operating Voltage : 3.0-5.5V
Plug : mini5p/mini8P
Cable length : 500-5000mm
Product description : Customized products according to requirements
Model:MYS-056
1、Limit Parameter:
| Supply Voltage | VCC (v) | 6.0 | Working temperature | TOPR (℃) | -20 — 40 |
| Power Waste | PD(mw) | 350 | Storage Temperature | TSTG (℃) | -25 — 50 |
2、Optoelectronic Parameter: (T=25℃ Vcc=5V f0=37.9KHZ)
| Parameter | Symbol | Test Conditions | Min | Type | Max | unit |
| Operating Voltage | Vcc | 3.0 | 5.5 | V | ||
| Receive Distance | L | L5IR5 IF =300mA(test signal) | 8 | 15 | M | |
| Carrier Frequency | f0 | 38k | HZ | |||
| Receiving Angle | θ1/2 | distance attenuation1/2 | +/-45 | Deg | ||
| BMP Width | fBW | -3Db Bandwidth | 5 | kHz | ||
| Quiescent Current | ICC | no signal input | 0.3 | 0.35 | 0.5 | mA |
| Output Voltage Low | VOL | Vin=0V Vcc=5V | 0.2 | 0.4 | V | |
| Output Voltage High | VOH | Vcc=5V | 4.5 | Vcc | V | |
| Level Output Pulse Width | TPWL | Vin=500μVp-p | 450 | 600 | 750 | μS |
| TPWH | Vin=50mVp-p | 400 | 600 | 800 | μS | |
3、Test Waveform:
4、Electrical Principle Block Diagram:
5、Receiving angle diagram:
6.Product display:
When using LED display infrared receiver cables, it's essential to be aware of potential risks. These cables are designed to transmit signals between devices, but improper use can lead to electrical hazards, signal interference, or even damage to the devices. For instance, using cables with incorrect specifications or exposing them to extreme temperatures can compromise their functionality and safety.
Proper installation is a key safety consideration. Incorrectly installed cables can lead to short circuits, overheating, or even fires. Here are some steps to ensure safe installation:
Regular maintenance can significantly enhance the safety and lifespan of these cables. Here’s how:
Yes, environmental factors play a significant role in the safety of LED display infrared receiver cables. Exposure to moisture, extreme heat, or direct sunlight can degrade the cable's insulation and lead to malfunctions. Always ensure that the cables are used in a controlled environment and protected from harsh conditions.
Using certified cables is a critical safety measure. Certified products undergo rigorous testing to meet industry standards, ensuring they are safe and reliable. Always look for certifications such as UL, CE, or RoHS when purchasing LED display infrared receiver cables to minimize risks and ensure optimal performance.
An LED Display Infrared Receiver Cable is a crucial component in modern LED display systems. It is designed to receive infrared signals from a remote control and transmit them to the LED display unit. This cable ensures seamless communication between the remote control and the display, enabling users to adjust settings, change content, and control the display from a distance.
Selecting the appropriate LED Display Infrared Receiver Cable is essential for optimal performance and longevity of your LED display system. The right cable ensures reliable signal transmission, minimizes interference, and enhances the overall user experience. Additionally, a compatible cable reduces the risk of technical issues and extends the lifespan of your equipment.
Not all infrared receiver cables are created equal. Using an incompatible or low-quality cable can lead to signal loss, interference, and even damage to your LED display. It is crucial to select a cable that is specifically designed for your LED display model and meets the necessary technical specifications.
Yes, the quality and compatibility of the infrared receiver cable directly impact the performance of your LED display. A high-quality cable ensures reliable signal reception, allowing for smooth operation and precise control of the display. Conversely, a subpar cable can cause delays, signal drops, and other operational issues.
LED Display Infrared Receiver Cables are critical components in modern display systems, enabling seamless communication between remote controls and LED displays. These cables ensure accurate signal transmission, which is vital for controlling brightness, color, and other display settings. Without them, the functionality of LED displays would be significantly limited.
As technology advances, the demand for higher performance and reliability in LED displays grows. Innovations in Infrared Receiver Cables address challenges such as signal interference, durability, and compatibility with newer display technologies. These advancements ensure that LED displays can meet the evolving needs of industries like advertising, entertainment, and home automation.
Absolutely! The latest innovations in LED Display Infrared Receiver Cables directly enhance user experience by providing faster response times, greater reliability, and easier installation. For example, improved signal accuracy ensures that commands are executed instantly, while compatibility with IoT devices allows users to control their displays from anywhere.
Yes, the future of LED Display Infrared Receiver Cables looks promising. Emerging technologies like AI and machine learning could further optimize signal processing, while advancements in materials science may lead to even more durable and efficient cables. As LED displays continue to evolve, so will the components that power them.
Proper maintenance of LED display infrared receiver cables is crucial for ensuring the longevity and optimal performance of your display system. These cables are responsible for transmitting signals from the remote control to the display, and any damage or malfunction can lead to operational issues. Regular maintenance helps prevent signal loss, reduces the risk of hardware failure, and ensures a seamless user experience.
Here are some step-by-step best practices for maintaining LED display infrared receiver cables:
Yes, proper storage can significantly extend the life of your LED display infrared receiver cables. When not in use, store the cables in a cool, dry place, preferably coiled loosely to prevent tangling and stress on the cable. Using cable ties or Velcro straps can help keep them organized and protected from physical damage.
Regular testing is essential to ensure that your LED display infrared receiver cables are functioning correctly. Periodically test the cables by using the remote control to check for any delays or failures in signal transmission. If you notice any issues, it may be time to inspect or replace the cables to maintain optimal performance.
LED display infrared receiver cables are crucial for transmitting signals between the remote control and the display. Common issues include:
Understanding the reasons behind cable failure can help in effective troubleshooting:
Follow these steps to identify and resolve issues with your LED display infrared receiver cable:
Yes, you can take preventive measures to extend the lifespan of your cable:
Yes, the length of the cable can impact signal strength and quality. Longer cables may experience signal attenuation, leading to weaker or inconsistent signals. It's essential to use the appropriate cable length for your setup to ensure optimal performance.
Signal interference is one of the most common issues with LED display infrared receiver cables. This can occur due to several reasons:
Understanding these causes can help in troubleshooting and improving the performance of the infrared receiver cables.
Infrared receiver cables can fail over time due to various factors:
Regular maintenance and timely replacement of worn-out components can extend the lifespan of these cables.
Diagnosing issues with infrared receiver cables involves a step-by-step approach:
Following these steps can help identify and resolve common issues with infrared receiver cables.
In some cases, infrared receiver cables can be repaired, but it depends on the nature of the issue:
However, in many cases, replacing the entire cable or receiver module is the most effective solution.
The length of the cable can indeed impact the performance of infrared receiver cables:
Choosing the appropriate cable length and ensuring it is of high quality can mitigate these issues.
An LED Display Infrared Receiver Cable is a specialized component used to connect an infrared (IR) receiver to an LED display. This cable allows the display to receive signals from a remote control, enabling users to operate the display without direct physical interaction. The cable typically consists of a connector that attaches to the display and an IR receiver module that captures the remote control signals. This setup is commonly used in TVs, monitors, and other display devices to enhance user convenience.
Installing an LED Display Infrared Receiver Cable is crucial for seamless operation of your display device. Without it, the display cannot receive commands from a remote control, limiting its functionality. Proper installation ensures that the IR receiver is positioned correctly to capture signals effectively, avoiding issues like signal loss or delayed responses. Additionally, a well-installed cable reduces the risk of damage to the display or the IR receiver, ensuring long-term reliability and performance.
Follow these steps to install an LED Display Infrared Receiver Cable correctly:
Yes, you can install an LED Display Infrared Receiver Cable yourself if you follow the proper steps and precautions. The process is straightforward and does not require advanced technical skills. However, if you are unsure or uncomfortable working with electronic components, it is advisable to seek professional assistance. Incorrect installation can lead to malfunction or damage to the display device.
Yes, the installation process for an LED Display Infrared Receiver Cable can vary depending on the model and brand of the display. Some displays may have specific port locations or additional features that require unique installation steps. Always refer to the user manual provided by the manufacturer for detailed instructions tailored to your specific device. This ensures compatibility and avoids potential issues during installation.
LED Display Infrared Receiver Cables are essential components in modern display systems, enabling seamless communication between remote controls and LED displays. These cables are designed to transmit infrared signals accurately, ensuring reliable operation and enhanced user experience.
The key features of LED Display Infrared Receiver Cables directly impact the performance and reliability of LED display systems. High signal accuracy ensures that commands from the remote control are executed without delay or error, while durability and flexibility simplify installation and maintenance. Compatibility with various devices makes these cables a cost-effective solution for diverse setups.
Step by step, these features contribute to a seamless user experience:
Yes, many manufacturers offer customization options for LED Display Infrared Receiver Cables. Users can choose specific lengths, connector types, or shielding materials to meet their unique requirements. This flexibility ensures that the cables can be tailored to fit various applications, from home entertainment systems to commercial displays.
An LED Display Infrared Receiver Cable is a specialized component used in electronic devices, particularly in LED displays, to receive infrared signals from remote controls. It acts as a bridge between the remote control and the display, enabling users to control the device wirelessly. The cable typically consists of an infrared receiver module and a connecting cable that links the receiver to the display's control board.
The infrared receiver cable is crucial for seamless user interaction with LED displays. Without it, remote controls would be ineffective, forcing users to rely solely on manual controls. This cable ensures that commands such as power on/off, volume adjustment, and menu navigation are transmitted accurately and instantly, enhancing the overall user experience.
While primarily designed for LED displays, the infrared receiver cable can also be adapted for use in other devices that support infrared remote control functionality. Examples include televisions, home theater systems, and even some smart home devices. However, compatibility depends on the device's control board and the specific infrared signal protocols it supports.
The infrared receiver cable is generally low-maintenance, but certain factors can affect its performance. Dust or obstructions on the receiver module may interfere with signal reception, so periodic cleaning is recommended. Additionally, ensuring the cable is securely connected to the control board prevents signal loss or malfunction.
An LED Display Infrared Receiver Cable is a specialized component used in electronic devices, particularly in LED displays, to receive infrared signals from remote controls. It acts as a bridge between the remote control and the display, enabling seamless communication and control. This cable typically consists of an infrared receiver module and a connecting cable that links the receiver to the display's control board.
The LED Display Infrared Receiver Cable plays a crucial role in ensuring that users can operate their LED displays remotely. Without it, the display would not be able to interpret the signals sent by the remote control, rendering the remote useless. This component is essential for:
The working mechanism of an LED Display Infrared Receiver Cable involves several steps:
Yes, an LED Display Infrared Receiver Cable can be replaced or upgraded if it becomes faulty or if you want to enhance the functionality of your LED display. Replacement is often necessary when:
When replacing or upgrading, it's important to ensure compatibility with your specific LED display model to avoid any issues.
● 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…
Professional production of infrared receivers for the first 20 years! 
