● 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…
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;
Model : MYS-056 The product design of shape is beautiful and delicate, and the length and plug can be customized according to customers' requirements. Widely used in network digital set-top box, car audio, TV, multimedia, etc.
Best photodiode and phototransistor with high sensitivity. Wholesale low-power infrared photoelectric switch supply from MYS factory. ODM/OEM customization is available.
In the rapidly evolving field of optoelectronics, photodiodes and phototransistors stand as fundamental components driving innovation across multiple industries. These sophisticated sensors form the backbone of modern photoelectric detection systems, enabling precise light measurement and control in applications ranging from industrial automation to consumer electronics.
Photodiodes represent the cornerstone of light detection technology, offering unparalleled precision in converting light into electrical signals. The MYS-6808-G-Z-B series exemplifies the latest advancements in photodiode technology, featuring:
Peak wavelength operation at 940nm, Ultra-fast response time, Enhanced analytical capabilities, Superior sensitivity ratings, and Full RoHS compliance.
Our photodiodes operate within carefully optimized parameters:
The phototransistor component of the MYS-6808-G-Z-B introduces advanced amplification capabilities, dramatically improving detection sensitivity. Built on silicon-based technology, these phototransistors deliver:
Collector Current (IC): 0.2mA minimum, Dark Current: Maximum 100nA, Rise/Fall Time: 15μs typical, Saturation Voltage: 0.4V maximum.
Extensive testing validates the durability: Temperature cycle resistance: 300 cycles, Thermal shock tolerance: 300 cycles, Extended operating life: 1000 hours, High humidity resistance: 85°C/85% RH.
The integration of photodiode and phototransistor technologies enables sophisticated applications: Industrial Automation, High-precision object detection, Assembly line monitoring, Quality control systems and Position sensing.
Consumer Electronics: Optical switches, Remote control systems, Ambient light sensing, Display brightness control.
Security Systems: Motion detection, Perimeter monitoring, Access control, Presence sensing.
For optimal implementation, consider these critical factors:
Operating temperature range, Ambient light interference, Moisture exposure and Dust protection requirements.
Power supply requirements, Signal conditioning needs, Noise reduction techniques, Output signal processing.
Our comprehensive quality control process includes Solder heat resistance testing, Temperature cycle evaluation, Thermal shock assessment, Storage condition verification and Operating life validation.
To ensure successful implementation, we provide Detailed technical documentation, Application notes, Circuit design guidelines, Implementation support, and Performance optimization guides.
The photodiode and phototransistor field continues to evolve with Enhanced sensitivity ranges, Improved response times, Reduced power consumption, Expanded application possibilities, and Advanced integration options.
The MYS-6808-G-Z-B represents the culmination of advanced photoelectric detection technology, combining high-performance photodiodes and phototransistors in a single, efficient package. This integration delivers superior detection capabilities while maintaining reliable operation across diverse applications.
MYS/YSH is China Wholesale Emitting Diode Factory Manufacturer Supplier , who provides infrared control extension cable and HDMI remote control cable, infrared transmitter cable, infrared receiver and infrared emission.
ISO90001 Quality management system Become one of the enterprises through ISO90001 quality management system certification. The implementation of ISO90001 international standardized management, steadily improve product quality.
MYS/YSH is a Best Semi-Circular Shell Infrared Receiver Cable suppliers & factories, information for Semi-Circular Shell Infrared Receiver Cable: Model:MYS-023 The product design of shape is beautiful and delicate, and the length and plug can be customize...
●Features
․Fast response time
․High analytic
․Peak wavelength λp=940nm
․High sensitivity
․Pb free
․This product itself will remain within RoHS compliant version.
●Descriptions
The 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 object comes closer, the radiation is reflected by the object and phototransistor receives the more radiation as closer the object comes.
For additional component information, please refer to IR and PT.
●Applications
․Mouse Copier
․Switch Scanner
․Floppy disk driver
․Non-contact Switching
․For Direct Board
●Device Selection Guide
| Device No. | Chip Material | LENS COLOR |
| IR | GaAlAs | Blue |
| PT | Silicon | Black |
●PackageDimensions
Notes:
1.All dimensions are in millimeters. 2.Tolerances unless dimensions ±0.25mm.
3.Lead spacing is measured where the lead emerge from the package.
4.Above specification may be changed without notice. MYS will reserve authority on material change for above specification.
5.These specification sheets include materials protected under copyright of MYS corporation . Please don’t reproduce or cause anyone to reproduce them without MYS’s consent.
6.When using this product , please observe the absolute maximum ratings and the instructions for use outlined in these specification sheets. MYS assumes no responsibility for any damage resulting from use of the product which does not comply with the absolute maximum ratings and the instructions included in these specification sheets.
●Absolute Maximum Ratings (Ta=25℃)
| Parameter | Symbol | Ratings | Unit | |
| Input | Power Dissipation at(or below) 25℃ Free Air Temperature | Pd | 100 | mW |
| Reverse Voltage | VR | 5 | V | |
| Forward Current | IF | 50 | mA | |
| Peak Forward Current (*1) Pulse width ≦100μs, Duty cycle=1% |
IFP | 1 | A | |
| Output | Collector Power Dissipation | PC | 100 | mW |
| Collector Current | IC | 50 | mA | |
| Collector-Emitter Voltage | B VCEO | 30 | V | |
| Emitter-Collector Voltage | B VECO | 5 | V | |
| Operating Temperature Topr | Topr | -25~+85 | ℃ | |
| Storage Temperature Tstg | Tstg | -40~+100 | ℃ | |
|
Lead Soldering Temperature (*2)(1/16 inch form body for 5 seconds) |
Tsol | 260 | ℃ | |
(*1) tw=100 μsec. , T=10 msec. (*2) t=5 Sec
●Electro-Optical Characteristics (Ta=25℃)
| Parameter | Symbol | Min. | Typ. | Max. | Unit | Conditions | |
| Input |
Forward Voltage |
VF1 | — | 1.2 | 1.5 | V | IF=20mA |
|
VF2 |
— | 1.4 | 1.85 |
IF=100mA,tp=100μs,tp/T=0.01 |
|||
|
VF3 |
— | 2.6 | 4.0 |
IF=1A,tp=100μs,tp/T=0.01 |
|||
|
Reverse Current |
IR |
— | — | 10 |
μA |
VR=5V |
|
|
Peak Wavelength |
λP |
— | 940 | — |
nm |
IF=20mA |
|
|
View Angle |
2θ1/2 |
— | 60 | — |
Deg |
IF=20mA |
|
|
Output |
Dark Current |
ICEO | — | — | 100 |
nA |
VCE=20V,Ee=0mW/cm2 |
|
C-E Saturation Voltage |
VCE(sat) |
— | — | 0.4 |
V |
IC=2mA Ee=1mW/cm2 |
|
|
Transfer Characteristics |
Collect Current |
IC(ON) | 0.2 | — | — | mA |
VCE=5V IF=20mA |
|
Rise time |
tr |
— | 15 | — |
μsec |
VCE=5V IC=1mA RL=1KW |
|
|
Fall time |
tf |
— | 15 | — |
μsec |
||
●Typical Electrical/Optical/Characteristics Curves for IR
●Typical Electrical/Optical/Characteristics Curves for PT
●Reliability Test Item And Condition
The reliability of products shall be satisfied with items listed below.
|
NO. |
Item |
Test Condition |
Test Hours/ Cycle |
Sample Size |
Failure Judgement Criteria |
Ac/Re |
|
1 |
Solder Heat |
TEMP : 260℃ ± 5 ℃ |
10 sec |
22 PCs |
Attenuation of Light Current value>20% |
0/1 |
|
2 |
Temperature Cycle |
H : +100℃ 15 mins
L : -40℃ 15 min |
300 cycle |
22 PCs |
0/1 |
|
|
3 |
Thermal Shock |
H : +100℃ 5 min
L : -10℃ 5 min |
300 cycle |
22 PCs |
0/1 |
|
|
4 |
High Temperature Storage |
TEMP. : +100℃ |
1000 hrs |
22 PCs |
0/1 |
|
|
5 |
Low Temperature Storage |
TEMP. : -40℃ |
1000 hrs |
22 PCs |
0/1 |
|
|
6 |
DC Operating Life |
VCE=5V IF=20mA |
1000 hrs |
22 PCs |
0/1 |
|
|
7 |
High Temperature / High Humidity |
85℃ / 85% R.H. |
1000 hrs |
22 PCs |
0/1 |
Confidence level:90%
LTPD:10%
●Packing Quantity Specification
500 pcs/1bag,5 bags/1box,10 boxes/1carton
Notes
1.Above specification may be changed without notice. MYS will reserve authority on material change for above specification.
2.When using this product, please observe the absolute maximum ratings and the instructions for using outlined in these specification sheets. MYS assumes no responsibility for any damage resulting from use of the product which does not comply with the absolute maximum ratings and the instructions included in these specification sheets.
3.These specification sheets include materials protected under copyright of MYS corporation. Please don’t reproduce or cause anyone to reproduce them without MYS’s consent.
Infrared photoelectric switch-reflective technology is evolving rapidly, driven by advancements in automation and IoT integration. Here are some key trends shaping its future:
This technology is gaining traction due to its versatility and reliability in various industries. Here’s why:
Understanding the working principle is essential to appreciate its potential. Here’s a step-by-step breakdown:
Yes, the integration of AI is revolutionizing this technology. Here’s how:
Absolutely, this technology is a cornerstone of Industry 4.0. Here’s its role:
An infrared photoelectric switch-reflective is a type of sensor that uses infrared light to detect the presence or absence of an object. It consists of an emitter that sends out infrared light and a receiver that detects the reflected light from the object. When an object is within the detection range, the light is reflected back to the receiver, triggering the switch. This type of sensor is widely used in industrial automation, security systems, and various electronic devices for object detection and positioning.
There are several reasons to choose an infrared photoelectric switch-reflective for your application:
Choosing the right infrared photoelectric switch-reflective involves several steps:
Yes, many infrared photoelectric switch-reflective sensors are designed to operate in harsh environments. They are often built with rugged materials and protective coatings to withstand extreme temperatures, moisture, and dust. Some models are also equipped with advanced filtering techniques to minimize interference from ambient light or other sources of infrared radiation. However, it's essential to check the specifications of the sensor to ensure it meets the environmental conditions of your application.
Infrared photoelectric switch-reflective sensors generally require minimal maintenance due to their non-contact nature. However, periodic checks are recommended to ensure optimal performance:
By following these simple maintenance steps, you can prolong the lifespan and reliability of your infrared photoelectric switch-reflective sensor.
Infrared photoelectric switch-reflective devices are advanced sensing tools that use infrared light to detect the presence or absence of objects. These devices consist of an emitter that sends out infrared light and a receiver that detects the reflected light. When an object interrupts the light beam, the switch triggers a response, making it ideal for automation and safety systems.
Regular maintenance ensures the accuracy and longevity of these devices. Dust, dirt, or misalignment can affect their performance, leading to false readings or failure. Proper maintenance reduces downtime, prevents costly repairs, and ensures consistent operation in critical applications like manufacturing, packaging, and security systems.
Yes, environmental factors like extreme temperatures, humidity, or exposure to direct sunlight can impact performance. To mitigate these effects:
Absolutely. Regular maintenance prevents the accumulation of dirt and debris, reduces wear and tear, and ensures optimal performance. By following a consistent maintenance schedule, you can extend the lifespan of these devices, saving costs and maintaining operational efficiency.
An Infrared Photoelectric Switch-Reflective is a type of sensor that uses infrared light to detect the presence or absence of an object. It operates by emitting an infrared beam towards a reflector, which then bounces the beam back to the sensor. When an object interrupts this beam, the sensor detects the change and triggers a response. This technology is widely used in automation, security systems, and industrial applications due to its reliability and non-contact detection capabilities.
There are several reasons to opt for an Infrared Photoelectric Switch-Reflective:
The operation of an Infrared Photoelectric Switch-Reflective can be broken down into the following steps:
Yes, Infrared Photoelectric Switch-Reflective sensors are designed to withstand harsh environments. They are often built with robust materials and protective coatings to resist dust, moisture, and temperature fluctuations. Additionally, their non-contact nature makes them less susceptible to damage from physical interactions, ensuring reliable performance even in challenging conditions.
Infrared Photoelectric Switch-Reflective sensors are generally low-maintenance. However, to ensure optimal performance, periodic checks are recommended:
Infrared photoelectric switch-reflective devices are widely used in automation and sensing applications due to their reliability and efficiency. However, they can encounter several issues that affect their performance. Common problems include misalignment, environmental interference, and sensor degradation. Understanding these issues is crucial for troubleshooting and maintaining optimal functionality.
Infrared photoelectric switch-reflective devices may fail due to various reasons. Environmental factors such as dust, moisture, and extreme temperatures can interfere with the infrared beam, leading to inaccurate readings. Additionally, improper installation or misalignment of the sensor and reflector can cause the device to malfunction. Over time, the sensor's components may degrade, reducing its sensitivity and reliability.
Step by step, here’s how to troubleshoot common issues:
Yes, environmental factors can significantly impact the performance of infrared photoelectric switch-reflective devices. Dust and moisture can scatter or absorb the infrared beam, leading to false readings. Extreme temperatures can also affect the sensor's components, causing them to expand or contract, which may result in misalignment or reduced sensitivity. To mitigate these issues, it’s essential to install the device in a controlled environment or use protective enclosures.
Misalignment is a common issue that can lead to malfunctioning infrared photoelectric switch-reflective devices. When the sensor and reflector are not properly aligned, the infrared beam may not reach the reflector, or the reflected beam may not return to the sensor. This can result in the device failing to detect objects accurately. Regular maintenance and alignment checks are necessary to ensure the device operates correctly.
An infrared photoelectric switch-reflective is a type of sensor that uses infrared light to detect the presence or absence of an object. It consists of a transmitter and a receiver housed in a single unit. The transmitter emits infrared light, which is reflected back to the receiver by a reflector or the object itself. This technology is widely used in industrial automation, security systems, and various other applications where object detection is required.
Infrared photoelectric switches-reflective offer several advantages, including high accuracy, long detection ranges, and the ability to detect objects regardless of their color or surface texture. They are also resistant to environmental factors such as dust and moisture, making them suitable for use in harsh conditions. Additionally, these switches are easy to install and maintain, making them a popular choice for many applications.
Yes, you can install an infrared photoelectric switch-reflective yourself if you have basic electrical knowledge and the right tools. However, if you are unsure about any part of the installation process, it is always best to consult with a professional to ensure safety and proper functionality.
Installing an infrared photoelectric switch-reflective typically requires basic tools such as a screwdriver, wire strippers, and a voltage tester. Some models may come with specific mounting hardware, so it's important to check the manufacturer's instructions for any additional tools or materials needed.
Infrared photoelectric switch-reflective devices are widely used in industrial and automation applications due to their unique capabilities. These devices utilize infrared light to detect objects or measure distances, offering several advantages over other sensing technologies. Here are some of the key benefits:
When selecting a sensing solution, it’s essential to understand why infrared photoelectric switch-reflective stands out. Here’s a step-by-step comparison:
Understanding the working principle of these devices can help you maximize their potential. Here’s a breakdown of the process:
Yes, these devices are designed to perform reliably in challenging conditions. Here’s how they handle specific environmental factors:
Integration is a critical factor in sensor selection. Here’s why these switches are user-friendly:
Infrared photoelectric switch-reflective devices are widely used in various industries due to their ability to detect objects without physical contact. These devices emit an infrared beam and measure the reflection to determine the presence or absence of an object. Common applications include:
Infrared photoelectric switch-reflective devices offer several advantages that make them a preferred choice in many applications:
The operation of an infrared photoelectric switch-reflective involves a step-by-step process:
Yes, infrared photoelectric switch-reflective devices are designed to withstand harsh environments. Their robust construction and advanced technology enable them to function reliably in conditions such as:
Infrared photoelectric switch-reflective devices significantly enhance efficiency in various applications by:
An infrared photoelectric switch-reflective is a type of sensor that uses infrared light to detect the presence or absence of objects. It operates based on the principle of light reflection, making it highly effective in various industrial and automation applications. Here’s a step-by-step breakdown of how it works:
This type of sensor is preferred for its reliability, accuracy, and ability to detect objects regardless of their color or material. It is widely used in applications such as conveyor belt systems, packaging machines, and safety mechanisms where precise object detection is crucial.
Yes, an infrared photoelectric switch-reflective can detect transparent or reflective objects, although its effectiveness may vary depending on the object’s surface properties. For optimal performance, the sensor’s sensitivity can be adjusted to accommodate different materials.
The main components of an infrared photoelectric switch-reflective include:
By understanding how an infrared photoelectric switch-reflective works, you can better utilize its capabilities in your automation or industrial systems.
An Infrared Photoelectric Switch-Reflective is a type of sensor that uses infrared light to detect the presence or absence of an object. It operates by emitting an infrared beam towards a reflective surface. When an object interrupts this beam, the sensor detects the change in the reflected light and triggers a response. This technology is widely used in automation, security systems, and industrial applications due to its reliability and precision.
The working principle of an Infrared Photoelectric Switch-Reflective can be broken down into the following steps:
There are several reasons why this type of sensor is preferred in various applications:
Yes, an Infrared Photoelectric Switch-Reflective can be used outdoors, but certain considerations must be taken into account:
Installing an Infrared Photoelectric Switch-Reflective is straightforward, but here are some key steps to ensure proper setup:
● 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…
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●…
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