1210 RGB SMD LED, RGB COLOR
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Harnessing the Power of 1210 RGB SMD LEDs: A Game Changer in Tri-Color Technology
In the vibrant world of electronics, the 1210 RGB SMD LED is redefining the boundaries of color and efficiency. Known as a tri-color LED, this component combines red, green, and blue in a single package to offer endless color possibilities. This capability is not just a technical enhancement—it’s a transformative feature that broadens the scope of applications for LEDs. This comprehensive article will explore the myriad features, applications, and benefits of the 1210 RGB SMD LED, backed by case studies and testimonials from industry professionals.
Unpacking the Features of the 1210 RGB SMD LED
The 1210 RGB SMD LED, commonly referred to as the tri-color LED, stands out for its compact design and powerful color output. Each LED integrates three distinct chips that can be controlled independently or in combination to produce a wide spectrum of colors. This versatility makes it an ideal choice for high-definition displays, mood lighting, and signal lights, where nuanced color differentiation is crucial.
Broad Spectrum of Applications
The tri-color capability of the 1210 RGB SMD LED lends itself to a variety of applications:
- Consumer Electronics: From backlighting LCDs to status indicators on devices, these LEDs provide vibrant visuals and clear communications.
- Automotive Lighting: Used in dashboard illumination and accent lighting, enhancing both functionality and aesthetics.
- Decorative Lighting: Powers solutions for both commercial and residential spaces, allowing for dynamic color changes and atmospheric effects.
The Advantages of Implementing RGB LEDs
Choosing 1210 RGB SMD LEDs for your projects comes with numerous benefits:
- Enhanced Color Control: Offers precise control over color settings, enabling customized solutions for any application.
- Energy Efficiency: Despite their output capabilities, these LEDs maintain a low power consumption, contributing to energy-saving initiatives.
- Longevity and Reliability: Designed to last longer than traditional lighting solutions, reducing the need for frequent replacements and maintenance.
Case Studies: RGB LEDs in Real-World Applications
One compelling case study involves a leading smartphone manufacturer that utilized 1210 RGB SMD LEDs to create a more dynamic user interface. By integrating these LEDs, the company was able to develop a phone that not only looked impressive but also interacted with users in a more engaging way, leading to a significant boost in market reception.
User Testimonials: Praise from Professionals
Feedback from engineers and designers who have used the 1210 RGB SMD LEDs consistently highlights their satisfaction with the product’s performance and versatility. One product designer mentioned, “The tri-color LEDs allowed us to drastically reduce the complexity of our circuit designs while delivering superb color quality.”
Exploring the Potential of Tri-Colored LEDs
Beyond their current applications, 1210 RGB SMD LEDs are also being explored for use in medical devices and advanced communication technologies where precise color rendering is necessary. Their ability to operate efficiently across a range of temperatures and conditions makes them ideal for innovative applications in challenging environments.
Conclusion: Embrace the Future with 1210 RGB SMD LEDs
The 1210 RGB SMD LED is more than just a component; it’s a cornerstone for next-generation electronic designs. Its tri-color capabilities allow for unparalleled flexibility and creativity in applications ranging from simple indicators to complex, color-driven displays. Whether you’re an engineer, a designer, or a purchaser, integrating these LEDs can elevate your projects and provide a competitive edge in the market. Consider adopting 1210 RGB SMD LEDs today and color your world with endless possibilities.
Features: 1210 RGB SMD LED, RGB Color
- Compact size: 3.2mm x 2.7mm SMD, 1.1mm thickness
- RGB Color type
- Compatible with automatic placement equipment
- Wide viewing angle for versatile visibility
- Ideal for backlighting and indicator applications
- Package includes 3000 pieces per reel
- RoHS Compliance
Application:
- Colorful backlighting in electronic displays
- Indicator lights with dynamic color changes
- Decorative lighting in various electronic devices
- RGB color mixing for creative lighting effects
- Backlighting in automotive interiors
- Consumer electronics with color display needs
- Versatile color lighting solutions in different applications
Electrical-optical characteristics:
Article No | color | material | wavelength | apperance | v_typ | v_max | luminous_min | luminous_typ | degree |
---|---|---|---|---|---|---|---|---|---|
BL-LS3227A0E3RGBC |
Red |
GaAlAs |
660 |
Water Clear |
2.2 |
5 |
10 |
120 |
|
BL-LS3227A0E3URUGUBC |
Red |
GaAsP |
640 |
Water Clear |
2.6 |
40 |
55 |
120 |
Package configuration & Internal circuit diagram
Partno description:
More Information
Lens Color:
Code | D | T | C | W | E | |
Meaning | color Diffused | Color Tinted | Water Clear | Water Diffused | Orange diffused |
Absolute maximum ratings (Ta=25°C)
Parameter | SR | LR | UR | UE | UY | UG | PG | BG | B | UB | UV | W | Unit |
Forward Current I F | 25 | 25 | 25 | 30 | 30 | 30 | 30 | 30 | 30 | 30 | 30 | 30 | mA |
Power Dissipation P d | 60 | 60 | 60 | 65 | 65 | 75 | 110 | 110 | 120 | 120 | 120 | 120 | mW |
Reverse Voltage V R | 5 | 5 | 5 | 5 | 5 | 5 | 5 | 5 | 5 | 5 | 5 | 5 | V |
Peak Forward Current I PF (Duty 1/10 @1KHZ) | 150 | 150 | 150 | 150 | 150 | 150 | 150 | 100 | 100 | 100 | 100 | 100 | mA |
Operation Temperature T OPR | -40 to +80 | °C | |||||||||||
Storage Temperature T STG | -40 to +85 | °C | |||||||||||
Lead Soldering Temperature T SOL | Max.260+-5°C for 3 sec Max. (1.6mm from the base of the epoxy bulb) | °C |
Related Information
Applied for:
The LEDs described here are intended to be used for ordinary electronic equipment (such as office equipment,
communication equipment and household applications). Consult Betlux’s Sales in advance for information on
applications in which exceptional reliability is required, particularly when the failure or malfunction of the LEDs
may directly jeopardize life or health (such as in aviation, transportation, traffic control equipment, medical
and life support systems and safety devices).
CAUTIONS for Through-Hole LED Lamps
1. Application
The LEDs described here are intended to be used for ordinary electronic equipment (such as office equipment, communication equipment and household applications). Consult Betlux’s Sales in advance for information on applications in which exceptional reliability is required, particularly when the failure or malfunction of the LEDs may directly jeopardize life or health (such as in aviation, transportation, traffic control equipment, medical and life support systems and safety devices).
2. Storage
The storage ambient for the LEDs should not exceed 30℃ temperature or 70% relative humidity. It is
recommended that LEDs out of their original packaging are used within three months
For extended storage out of their original packaging, it is recommended that the LEDs be stored in a sealed
container with appropriate desiccant or in a desiccator with nitrogen ambient.
3. Cleaning
Use alcohol-based cleaning solvents such as isopropyl alcohol to clean the LED if necessary
4. Lead Forming & Assembly
During lead forming, the leads should be bent at a point at least 3mm from the base of LED lens. Do not use
the base of the leadframe as a fulcrum during forming.
Lead forming must be done before soldering, at normal temperature.
During assembly on PCB, use minimum clinch force possible to avoid excessive mechanical stress.
Soldering
When soldering, leave a minimum of 2mm clearance from the base of the base of the lens to the soldering point. Dipping the lens into the solder must be avoided.
Do not apply any external stress to the lead frame during soldering while the LED is at high temperature.
Recommended soldering conditions:
IR Reflow Soldering (for SMD display) | Wave Soldering | Soldering Iron | |||
Pre-Heat | 150-180°C | Pre-Heat | 100°C Max. | Temperature | 300°C Max. |
Pre-Heat Time | 120sec Max. | Pre-Heat Time | 60sec Max. | ||
Peak Temperature | 260°C Max. | SolderWave | 260°C Max. | Soldering Time | 3sec Max.(one time only) |
Soldering Time | 10 sec Max. | Soldering Time | 5sec Max. |
Note: Excessive soldering temperature and/or time might result in deformation of the LED lens or failure of the LED
ESD(Electrostatic Discharge)
Static Electricity or power surge will damage the LED.
Suggestions to prevent ESD (Electrostatic Discharge):
n Use a conductive wrist band or anti-electrostatic glove when handling these LEDs
n All devices, equipment, and machinery must be properly grounded
n Work tables, storage racks, etc. should be properly grounded
n Use ion blower to neutralize the static charge which might have built up on surface of the LED’s
plastic lens as a result of friction between LEDs during storage and handling
ESD-damaged LEDs will exhibit abnormal characteristics such as high reverse leakage current,
low forward voltage, or “no light on” at low currents. To verify for ESD damage, check for “light on”
and Vf of the suspect LEDs at low currents.
The Vf of “good” LEDs should be>2.0V@0.1mA for InGaN product and >1.4V@0.1mA for AlInGaP
product.
Drive Method
An LED is a current-operated device. In order to ensure intensity uniformity on multiple LEDs connected in
parallel in an application, it is recommended that a current limiting resistor be incorporated in the drive circuit,
in series with each LED as shown in Circuit A below.
When selecting power for LED systems, it’s essential to understand several key parameters to ensure safe operation, longevity, and optimal performance. Here are some steps and considerations for LED power selection:
- Determine the Forward Voltage (Vf) of the LED(s):
Each LED has a forward voltage, which is the voltage at which the LED operates when the current is flowing through it. This value can typically be found in the LED’s datasheet.
- Determine the Forward Current (If) of the LED(s):
The forward current is the current at which the LED is designed to operate. Running an LED at higher than its rated current can reduce its lifespan and increase the heat it produces.
- Decide on the Configuration:
Series Configuration: When LEDs are connected in series, the forward voltages add up, but the current remains the same.
Parallel Configuration: When LEDs are connected in parallel, the forward voltage remains the same, but the currents add up. This configuration can be risky because if one LED fails or has a slightly lower forward voltage, it can cause the other LEDs to draw more current.
Calculate Total Power Requirements:
Power (W) = Total Forward Voltage (V) x Total Forward Current (A)
For example, if you have three LEDs connected in series, each with a forward voltage of 3V and a forward current of 20mA, the total power requirement would be:
Power = (3V + 3V + 3V) x 20mA = 9V x 0.02A = 0.18W
- Select an Appropriate Power Supply:
- Voltage Rating: The power supply voltage should match or slightly exceed the total forward voltage of your LED configuration.
- Current Rating: The power supply’s current rating should meet or exceed the total forward current of your LED configuration.
- Safety Margin: It’s a good practice to select a power supply that can provide at least 20% more power than your calculated requirement. This ensures the power supply isn’t operating at its maximum capacity, which can extend its life and ensure safer operation.
- Consider Additional Features:
- Dimming Capability: If you want to control the brightness of your LEDs, choose a power supply with dimming capabilities.
- Overcurrent and Overvoltage Protection: To protect your LEDs, select a power supply with built-in protection mechanisms.
- Thermal Management: Ensure that the power supply has adequate cooling, especially if it will be enclosed or in a location with limited airflow.
- Regulation and Efficiency:A power supply with good regulation will maintain a consistent voltage output despite variations in the load. High efficiency ensures minimal power is wasted as heat.
- Physical Size and Form Factor:Depending on where you plan to place the power supply, its size and shape may be critical factors.
In summary, when selecting power for LED systems, understanding your LED’s requirements and the configuration you plan to use is essential. Then, pick a power supply that meets those needs with some added safety margin, keeping in mind any additional features or constraints relevant to your project.
Here are some well-regarded brands in the industry:
- Mean Well: One of the most recognized brands in the LED power supply industry, Mean Well offers a wide range of products suitable for both indoor and outdoor applications. Their units often come with features like overcurrent protection, dimming capabilities, and high efficiency.
- Tridonic: A global leader in lighting technology, Tridonic offers LED drivers and power supplies that cater to various lighting solutions, from simple setups to advanced smart lighting systems.
- Philips Advance Xitanium: Philips is a well-known brand in the lighting industry, and their Xitanium series of LED drivers are known for reliability and performance. They cater to both indoor and outdoor LED applications.
- Osram: Another giant in the lighting industry, Osram offers a range of LED drivers and power supplies suitable for various applications, including architectural and street lighting.
- LIFUD: Specializing in LED drivers, LIFUD is known for its high-quality products that cater to both commercial and residential LED lighting solutions.
- MOSO: This brand offers a variety of LED drivers, especially for outdoor and industrial applications. Their products are known for durability and performance.
- TDK-Lambda: With a history in power electronics, TDK-Lambda offers a range of power supplies and LED drivers suitable for various applications, emphasizing reliability and advanced features.