Blue LED Chips

  Product Typ. Wavelength Wavelength Unit Typ. Brightness Brightness Unit Measurement Current Size Typ. Chip Height Polarity Data Sheet Inquiry
C450TR2227 51 C450TR2227
450 nm 24 mW 20 mA 270 µm 50 µm n+p side up
C450TR2432 51 C450TR2432
450 nm 33 mW 20 mA 320 µm 115 µm n+p side up
C450TR2436 51 C450TR2436
450 nm 35 mW 20 mA 360 µm 115 µm n+p side up
C450TR260 51 C450TR260
450 nm 37 mW 20 mA 480 µm 115 µm n+p side up
C450UT170 51 C450UT170
450 nm 14 mW 20 mA 170 µm 50 µm p side up
C450UT190 50um 51 C450UT190 (50µm)
450 nm 16 mW 20 mA 190 µm 50 µm p side up
C450UT190 85um 51 C450UT190 (85µm)
450 nm 18 mW 20 mA 190 µm 85 µm p side up
C450UT190 85umGen1 51 C450UT190 (85µm) Gen 1
450 nm 12 mW 20 mA 190 µm 85 µm p side up
C4L D10G3 50 C4L-D10G3
450 nm 25 mW 20 mA 260 µm 120 µm n side up
C4L D13X2 50 C4L-D13X2
450 nm 30 mW 20 mA 335 µm 120 µm p side up
C4L D20X2 51 C4L-D20X2
450 nm 250 mW 140 mA 500 µm 120 µm p side up
C4L D30X2 51 C4L-D30X2
450 nm 500 mW 350 mA 720 µm 120 µm p side up
C4L D40G2 50 C4L-D40G2
450 nm 550 mW 350 mA 1000 µm 120 µm n side up
C4L D40X2 51 C4L-D40X2
450 nm 600 mW 350 mA 1000 µm 120 µm p side up
C4L D47X2 51 C4L-D47X2
450 nm 1400 mW 1000 mA 1185 µm 120 µm p side up
LA HB0620FP1 300 LA HB0620FP1
450 nm 15 mW 20 mA 165 µm 100 µm n+p side down
LA HB12FP1 50 LA HB12FP1
450 nm 28 mW 20 mA 150 µm 80 µm n+p side down
450 nm 200 mW 120 mA 560 µm 150 µm n+p side up
LA HB43WP6 50 LA HB43WP6
450 nm 700 mW 350 mA 1080 µm 170 µm p side up
C452SA3280 50 C452SA3280
452 nm 180 mW 150 mA 320 µm 150 µm n+p side down
LA HB0712FP1 50 LA HB0712FP1
452 nm 9 mW 5 mA 170 µm 90 µm n+p side down
LA HB43FP6 50 GD VJLPE1.14
453 nm 1140 mW 700 mA 1075 µm 120 µm n+p side down
C460DA2432 51 C460DA2432
460 nm 36 mW 20 mA 320 µm 140 µm n+p side down
C460EZ1000 51 C460EZ1000
460 nm 420 mW 350 mA 980 µm 170 µm n side up
C460EZ1350 p 51 C460EZ1350
460 nm 620 mW 350 mA 1330 µm 170 µm p side up

LED chips over a broad wavelength spectrum


For white LED chips, we do not speak of wavelength ranges, but of color temperatures, typically specified in Kelvin for white. The warm white temperature is 2200K or 3000K, neutral white is around 4000K, followed by cool white from 5000K. White LED chips and components are mainly known from general lighting applications such as spotlights, luminaires and lamps. For luminaires, the unit in lumens is a measure of how much light a light source emits. The unit watt, on the other hand, indicates how much electrical power is consumed. Lumen to watt is thus a measure of the efficiency of a light source. In addition to the applications already mentioned, white LED chips can also be used as indicators in industry. A high proportion of warm white LEDs can still be found in lamps for general lighting.

  • Color temperature
  • Warm white
  • Cold white
  • Neutral white
  • RGB
  • Lumen

The UV wavelength range extends from about 100 nm to 400 nm and is significantly higher in energy compared to the visible range of light. Indium gallium nitride (InGaN) has proven suitable as LED semiconductor materials for generating long-wave UV radiation around 400 nm, and aluminum gallium nitride (AlGaN) for short-wave UV radiation. The wavelength of UV radiation from UV LEDs is typically between 400 nm and 250 nm. Interesting application fields are exposure, spectroscopy, curing, printing, coating, medical instruments, industrial imaging, disinfection systems, sterilization, chemical and biological analysis, UV inspection systems.


Blue light not only glows blue, but is an integral part of the color spectrum. Without blue, there is no white.
Blue-emitting LED chips based on indium gallium nitride (InGaN) are combined with a yellowish luminescent layer (converter) located in front of the LED chip, which acts as a wavelength converter, resulting in a white-emitting LED.

Another method to achieve white light is to mix red, green and blue as additive color mixing. Since red and green LED chips were available first, they alone could not be used to produce white LED light. With the development of blue, the third basic color is available. Now the three colors can be overlapped to white light, the RGB mixed white.
Thus, 2 fundamentally different methods are available to generate white light: blue with converter and RGB mixing, which are more suitable depending on the application.

General application fields of blue LED chips are general lighting, projection, high current operation, architectural lighting, outdoor lighting, sensing and many more...


Cyan or turquoise LED chips or also called Verde, are like the blue LED chips from the material group InGaN. Due to their properties, just like blue LED chips, they are particularly suitable for applications in medicine, lighting and displays or also for backlights. Cyan is particularly suitable for improving the color quality of white. This requires an LED package in which several chips in cw/ww/cyan/red are integrated.


Like the white and blue LED chips, green LED chips are from the InGaN material group. Their properties make them particularly suitable for applications in medicine, lighting, backlights or displays. Green light sources in particular are used in smart watches with a function for measuring vital signs and thus also have many potential applications in sensing technology.


Yellow LED chips from the aluminum gallium indium phosphide (AlInGaP) material group are particularly suitable for applications in medicine, lighting for luminaires and displays, backlights and in the automotive sector for one of the main applications in turn signals.


At the latest with the mass production of red LEDs in the 1970s, the advance of this technology into many applications could no longer be stopped. All other developments around the wavelength spectrum are based on this foundation. Red LED chips or LEDs are widely used in automotive lighting, general lighting, architecture, indication lighting, sensor technology, ...


The range of non-visible light plays a decisive role for sensor technology. IR LEDs are used in simple data transmission systems such as infrared remote The range of non-visible light plays a decisive role for sensor technology. Original areas of application for IR LEDs were in simple data transmission systems such as infrared remote controls or the infrared interface IrDA. Other areas of application include alarm and security technology, for example in light barriers, motion detectors, night vision devices and surveillance cameras, cell phones, encoders, precise length and angle measurement, MachineVision, Industry 4.0, robotics, mechanical engineering.

Optoelectronics is our expertise

  • Offer of miniaturized light sources
    Special requirements, for example in sensor technology or medicine, often require particularly small light sources such as point light sources. We have an idea.

  • Specification for your project
    In our range of extensive optoelectronic components we will find the right solution for you together.

  • Sorting according to customer specifications
    At Chips 4 Light, we have the equipment to precisely sort the required quantity in the required specification on film, gel or waffle pack with our LED chip sorters.

  • Long-term storage
    In our dry storage cabinet we store LED chips professionally in gel- or waffle-pack for a longer period of time to support the project runtimes of our customers.


Inquiry for Optoelectronics

LED Chip Umsortierung auf Gel und Wafflepack small

We will gladly advise you!

Contact Us

Frequently asked questions

LED Chip

What is a LED chip?

We at Chips 4 Light work with optoelectronic semiconductors and distinguish on the one hand in LED chips or as a synonym for chip bare die, die or dice and LED components on the other hand. LED chip defines the pure semiconductor without substrate, encapsulation material or optics. The contacted chip is the actual light emitting source. The LED chip is a semiconductor crystal consisting of layers of differently doped semiconductor materials.
In one semiconductor layer there is an excess of positive charge carriers, while in the other layer the negative charge carriers are in the majority. The chip is installed in a package. This so-called LED package leads the electrical contacts to the outside and contains the conversion layer (phosphor) for generating white light. The package also accommodates other functions, such as protective circuits, optical lenses or elements for heat dissipation.

LED Component

What is a LED component?

If the chip is contacted on a carrier (ceramic, FR4, pre-molded leadframe...) and encapsulated, installed in a housing, then we speak of an LED component. The component, called a light emitting diode, is the quasi finished component, which can then be soldered onto a circuit board or built into modules or luminaires. Here, various parameters such as heat generation in the component, radiation characteristics, luminous flux, ... must be taken into account to ensure that the service life of the diode is not negatively affected. We are happy to advise you on the correct handling or packaging of LED chips and on the development of chip on board (COB) solutions, SMD or radial components.

Chip, SMD or Chip on Board

Only a LED chip, SMD or chip-on-board (COB) device?

The unmouned LED chip allows, among other things, to keep the design very small or to realize different functions on one board by combining several chips in, for example, RGB modules. Do you have to fulfill one or all requirements with your applications? We meet your challenges with an extensive LED chip portfolio for specific applications in high-resolution sensor technology or medicine. The focus is on miniaturizing the light source to keep the complete system as small as possible. Regardless of these applications, our portfolio includes LED bare dice that are designed for

  • General Lighting
  • Signage
  • Automotive
  • Consumer applications