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How IR LED Voltage Drop Effects LED Performance and Life ...

Author: Muriel

Dec. 02, 2024

12 0 0

How IR LED Voltage Drop Effects LED Performance and Life ...

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My first introduction to an LED was in my local Radio Shack during a component quest for my science project. The goal was to create an AT-AT that walked, and the finishing touch was the LED lights in the cockpit.

Needless to say, I have been a fan of LEDs ever since. However, I am not alone, especially with the millions of TV remotes in constant use. In fact, I have witnessed a certain sibling that was so addicted to a remote that she literally forgot how to turn on the TV without it.

Not to mention the fact that on occasion, I would pull out my trusty black electrical tape and use it to block the IR LED signal from the remote. Don&#;t judge, that is what happens to older sisters who try to boss their little brother around when our parents weren&#;t looking. With all seriousness, the LED is a versatile, application friendly, and widely used component. Therefore, it is essential that designers understand the parameters that affect their functionality and performance.

What are Infrared Light-Emitting Diodes?

An infrared light-emitting diode (IR LED) is a solid-state light-emitting (SSL) device that produces light in the infrared band or range of the electromagnetic radiation spectrum. IR LEDs allow for cost-effective and efficient production of infrared light, which is electromagnetic radiation in the 700 nm to 1mm range.

The various IR LEDs may produce infrared light of differing wavelengths, just like different LEDs produce light of different colors. IR LEDs are also useful in many types of electronics, such as remote controls for televisions and numerous other electronics. They are even in use in cameras; these infrared cameras use IR LEDs like a spotlight while remaining invisible to the naked eye.

The demand for IR LEDs is due to their versatility. For example, IR LEDs, in conjunction with several different types of sensors, are commonly in use in machine-to-machine environments and Emitting Internet of Things (IoT) applications.

How Do IR LEDs Work?

In summary, an IR LED is a special type of diode or simple semiconductor. As I am sure you recall, electric current only flows in one direction in diodes. As the current flows, the electrons fall from one area of the diode into holes in another area. This is made possible by the electrons shedding energy in the form of photons, and this process produces light (electroluminescence).

It is also necessary to modulate the emission from an IR LED to use it in electronic applications to prevent spurious triggering. The modulation makes the signal from an IR LED stand out above the noise.

Furthermore, infrared diodes have a package that is opaque to visible light but transparent to infrared. Overall, with the extensive use of IR LEDs in remote controls, safety alarm systems, and just about every other electronic device, has made them extremely cost-effective.

The Principle Operation of an IR LED?

Schematically speaking, the symbol for an LED is a regular diode shape inside of a circle, with two small arrows pointing away, which indicates light emission.

LEDs are made of different chemical substances than say silicon diodes, and their forward voltage drops will be different. Generally speaking, LEDs have much larger forward voltage drops than that of a rectifying diode. Their voltages range from 1.2 volts (IR&#;s) to over 3.4 volts (UV or White), depending on the color. For example, an IR LED has a forward voltage of 1.2 volts at 20 mA forward current.

Also, the usual or typical operating current for a standard-sized LED is around 20 mA. Furthermore, when operating an LED from a DC voltage source higher than the LED&#;s forward-voltage, a series-connected (dropping) resistor needs to be utilized to prevent full source voltage from damaging the LED.

LEDs will need particular attention for their voltage sourcing needs.

 

IR LED Voltage Drop Example Circuit

So, let&#;s consider these two example circuits, with one using a 6-volt source and the other using a 24-volt source, both with a set LED current of 20 mA.

In our first example, the (red) LED is dropping 1.6 volts; therefore, there will be 4.4 volts dropped across the resistor. Also, sizing the resistor for an LED current of 20 mA is as easy as taking its voltage-drop (4.4 volts) and dividing it by the circuit current (20 mA), following Ohm&#;s Law (R=E/I), thus giving us a figure of 220 Ω.

When calculating power dissipation for this 220 Ω resistor, we take its voltage drop and multiply by its current (P=IE), and the result is 88 mW, well within the rating of a 1/8-watt resistor.

Now in our second example, we explore the effects of an increase in the voltage source. The higher battery voltage will require a higher resistance in our dropping resistor and possibly a higher power rating as well.

If you are looking for more details, kindly visit IR LEDs for Machine Vision.

For example, the dropping resistor must be increased to a size of 1.12 kΩ to drop the necessary 22.4 volts at 20 mA so that the LED still receives only 1.6 volts. That increase also means a higher resistor power dissipation of 448 mW. Therefore, it is evident that a resistor rated for 1/8-watt power dissipation or even ¼-watt dissipation will overheat if used here.

The Overall Effects of Dropping Resistors in IR LED Circuits

Dropping resistors in IR LED circuits are vital to the life cycle and overall functionality of the LED. However, circuit behavior is very predictable in relation to the subtle increases and decreases in resistance.

Also, dropping resistor values do not need to be exact for your LED circuit, as long as you understand what this means in terms of LED performance. For example, let's say we were to use a 1 kΩ resistor in our earlier simulation model rather than the 1.12 kΩ resistor. The overall result would be a slightly higher circuit current and LED voltage drop.

This, of course, will result in brighter light emissions from the LED and a slightly reduced life cycle (burn-out). Conversely, a dropping resistor with a value of 1.5 kΩ instead of the 1.12 kiloohms, this will result in less circuit current, less LED voltage, and lower light emissions from the IR LED. In summary, LEDs are quite tolerant of the variations in applied power; therefore, you may not need to strive for perfection when sizing the dropping resistor unless your design demands it.

Accounting for voltage drop starts from the very beginning of your designs.

 

IR LEDs, like all LEDs, are a part of almost every electronic device. Their cost-effectiveness and efficiency make them one of the most widely used components in the field of electronics. Therefore, understanding how they function and interact with the various circuits they are in is vital. I know that most of us do not readily think of IR LEDs until our remotes do not work, or our alarms are sounding.

Finally, in terms of functionality, voltage drops of IR LEDs effects, functionality, performance, and life cycle.

Have your designers and production teams working together towards implementing strategies for proper IR LED voltage drops in all of your PCB designs with Cadence&#;s suite of design and analysis tools. Allegro PCB Designer is the layout solution for LED circuit design in your current and future PCB designs. 

If you&#;re looking to learn more about how Cadence has the solution for you, talk to us and our team of experts. 

How Do LED Infrared Lights Work?

An Infrared (IR) LED light emits light not visible to the naked human eye. Infrared lights detect and emit infrared rays depending on the amount of ambient light available to increase visibility. Infrared LEDs are used with night vision optics or infrared cameras and often used for security cameras, hunting, and other stealth applications and nighttime operations.

The most common wavelengths of infrared light are 850nm and 940nm. 850nm may have a slight glow to it compared to 940nm because it is closer to the wavelength visible to the human eye.

What IR LEDs are Available?

We offer off road light pods and a light bar with IR LEDs. Our IR light pods are available in either 850nm or 940nm, with flood and spot beams available. IR light pods are available individually or in a two-pack. Our infrared LED light bar is 10.75 inches long and available as a flood beam and 850nm.

Which IR light should I use: 850nm or 940nm? 

The wavelength of the infrared light you choose to use depends on your intended use. 940nm wavelength IR LED lights are typically used for stealth and surveillance purposes. 850nm wavelength IR LED lights are used for hunting.

How Do I See with IR LED Lights?

In order to be able to use IR LED lights, you will either need a night vision optic such as a scope or a camera. The IR light will be visible when looking through the camera or other night vision optic tool. You will be able to see your surroundings as if you were shining a typical light. However, the view will look monochromatic with a green glow.

Are IR LED Flood and Spot Lights Safe?

Yes, IR LED flood and spot lights are safe. However, just as with any light source, you should avoid looking directly at the source or the light. In terms of IR flood and spot lights, if used properly, there should be no need to be concerned about eye damage or other harm.

What is the Best IR Light for Hunting?

IR lights with a wavelength of 850nm are best for hunting over 940nm. 850nm IR lights offer a longer range of vision by throwing more light out. You will be able to see a slight red glow when looking at the light directly, but that shouldn&#;t affect your encounters with wildlife. Our LED light pods come in spot and flood beam patterns. For hunting, a flood beam may be best because of a wide area of illumination compared to a more focused spot beam.

What is the Difference Between Infrared Night Vision and Night Vision?

Traditional night vision simply uses existing light, such as moonlight or starlight, and amplifies it for a brighter image when viewing through a lens or camera. Infrared LED night vision emits a beam of light that is not visible to the naked eye and illuminates the view through a night vision optic.

Contact us to discuss your requirements of UV LEDs for 3D Printing. Our experienced sales team can help you identify the options that best suit your needs.

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