Observation of LEDs Using a Digital Microscope
Having low power consumption and long service lives, LEDs are used extensively in lighting devices. However, in recent years there has been a focus on mini LEDs and micro LEDs as display devices to replace OLED displays. This section provides an overview of LEDs and introduces examples of their observation using a digital microscope.
- Characteristics of LEDs
- What Are Mini LEDs and Micro LEDs?
- Example Observations of LEDs Using a Digital Microscope
Characteristics of LEDs
The main characteristics of LEDs are as follows.
- Long service life
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Incandescent light bulbs have service lives of approximately 1000 to 2000 hours. In comparison, LEDs have service lives of approximately 40000 hours. (Service life refers to the time until the device’s light intensity drops to approximately 70%.)
- Energy saving
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Because incandescent light bulbs convert electricity into heat energy, they have low energy efficiency. However, LEDs are light-generating semiconductors, so they require low amounts of energy. They also generate almost no infrared or ultraviolet rays.
- High-speed response
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Being able to light and blink at high speeds, LEDs are well-suited to use in display devices.
- Express various colours
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Changing the type of compound semiconductor allows LEDs to express various colours by combining light in the three primary colours.
- Vibration- and shock-resistant
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Because LEDs do not use glass or filaments, they are resistant to vibrations and shocks.
- Compact and lightweight
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Because they are semiconductors, LEDs make compact designs possible. This characteristic is being put to use in mini LEDs and micro LEDs, which have become popular in recent years.
Types and emitted light colours of compound semiconductors
LEDs use compound semiconductors. The emitted light colour of a compound semiconductor is determined by its combination of multiple elements.
| Type of compound semiconductor | Emitted light colour | Wavelength |
|---|---|---|
| Indium gallium nitride (InGaN) | Blue, purple, green | 370 to 500 nm |
| Aluminium gallium indium phosphide (AlGaInP) | Orange, yellow | 500 to 600 nm |
| Aluminium gallium arsenide (AlGaAs) | Red | 600 to 780 nm |
What Are Mini LEDs and Micro LEDs?
A liquid crystal display (LCD) uses an RGB colour filter to display colour. On the other hand, the colours that appear on an OLED display come from its organic materials. A micro LED is a self-emitting display that uses LEDs in place of organic materials.
The definitions of mini LEDs and micro LEDs are ambiguous, but generally, mini LEDs have a size of 0.1 mm or more and micro LEDs are smaller than 0.1 mm.
Also, mini LEDs and micro LEDs have different applications. Micro LEDs are mainly used in displays. Mini LEDs are used to replace the backlights of LCDs.
- A: Colour filter
- B: Liquid crystal shutter
- C: Backlight
Micro LED benefits
Compared to LCDs
- High contrast
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LCDs express black by using a liquid crystal to block the light from the backlight, but they cannot fully express black because some light leaks through. In comparison, micro LEDs are self-emitting, so they can fully express black.
- Wide viewing angle
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Clear images can be obtained up to angles of approximately 180 degrees.
- High-speed response, low power
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It is said that the power consumption is roughly half that of liquid crystals.
Compared to OLED displays
- High intensity
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The brightness allows for outdoor use even during the day.
- Long service life
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The long service life comes from the fact that light is not emitted from organic materials. Furthermore, micro LEDs do not suffer from the problem of ghost images.
Example Observations of LEDs Using a Digital Microscope
This section introduces the latest examples of observation of LEDs using KEYENCE’s VHX Series 4K Digital Microscope.
