Choosing an LED technology is like choosing the right winter coat to wear: there are different models that provide more or less features depending on what you might need. Once you decide the features you want from your LED, you can easily choose the package type accordingly. The “package type” refers to the way an LED’s semiconductor die–similar to the filament in an incandescent–is packaged inside LED devices for different applications. The LED package can be very basic, like with the DIP LEDs, or it can be very versatile to handle lots of different needs, such as with the SMD package. Modern LED technology as we know it was developed in 1962 by Nick Holonyak with his invention of the DIP LED, and the LED industry has been innovating it ever since. The following article is meant to be a brief overview of the major types of LED package technology that are commercially available today.
DIP LED Diagram and anatomy
Dual In-Line Package LED technology has been around for more than 50 years, and is likely what you think of when you picture an LED. Though it is old, DIP LEDs are far from outdated as they are still used extensively today for large signs and displays. The widespread use of DIP LEDs came about due to their long life-span and intense brightness. DIP LEDs are highly recognizable by their “pill” or “bullet” shaped design (≤5mm wide), and the long contacts that extend from the bottom of the LED which can be easily soldered or inserted into a bread board. The LED’s plastic and epoxy casing actually serves as a lens that can focus the light coming from the diode. The shape of the outer casing also includes a flat edge on one side that always indicates the cathode side of DIP LEDs.
These lights, when used for residential or home use, are typically found in electronics as indicator lights because of their low cost, high brightness, and ease of install. DIP Diodes can be bought in bulk by electronics manufacturers to fulfill many purposes; and because of their plug-and-play nature, can be easily soldered to any kind of circuit board. This gives electronic devices the ability to send information to the user without the need for an actual display on the device.
These LEDs will typically produce between 3 and 4 lumens per LED. They typically run at between 5v to 24v, with 12v being the most common voltage. They individually pull between 0.05 and 0.08 watts. This generates between 35 and 80 lumens per watt, depending on the actual LED.