Super Strip: Difference between revisions
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<BR>The next common value up is '''470 ohms''' so the actual current is 8.9v / 470 = '''18.9mA''' | <BR>The next common value up is '''470 ohms''' so the actual current is 8.9v / 470 = '''18.9mA''' | ||
<BR>P = V x I = 8.9 x 18.9mA = 168mW so again you need a 1/4W - you can use Mouser 291-470-RC | <BR>P = V x I = 8.9 x 18.9mA = 168mW so again you need a 1/4W - you can use Mouser 291-470-RC | ||
<BR><BR>Note that if you fully populate the board that you will require eighteen resistors for EACH color so in all you will need seventy-two resistors for each strip - - it's a lot of soldering! | |||
== Using the Super Strip == | |||
The Super Strip can have an RJ45 installed at each end of the strip. The connections are identical for either end so it doesn't matter which side is plugged in. Note that if you are not planning to daisy-chain the strips, that you can get away with installing just one connector. A fully populated strip draws up to 360mA per color (18 LEDs x 20mA = 360mA) so it is not advised that you daisy-chain the strips since the current draw would be too much for Cat5 cabling. | |||
<BR>The pinout of the strip is as follows: | |||
<BR>Pin 1, 3, 5 and 7 are physically tied together and are typically connected to the +DC output of the power supply that is being used. | |||
<BR>Pin 2 drives the Red LED path | |||
<BR>Pin 4 drives the Green LED path | |||
<BR>Pin 6 drives the Blue LED path | |||
<BR>Pin 8 drives the White LED path | |||
'''NOTE - Regarding the RGB LEDs, the actual color lit may be different than the path color - it is important that you verify this BEFORE installing the LEDs and resistors on the strips.''' This is due to different manufacturers not using standardized pinouts for the colors used. The first group buy had the Green and Blue colors swapped while the latest group buy had the Red and Green swapped. You may want to monitor the forum closely to ensure which layout is correct. | |||
Revision as of 07:23, 29 May 2011
Kostyun RGB+W LED Super Strip Flood
- NOTE - THIS PAGE IS A WORK IN-PROGRESS - IT IS NOT COMPLETE YET *
What is the Super Strip Flood? The strip was designed and is sold by Frank Kostyun and is available on his web store at http://store.kostyun.com/product.php?id_product=34 as a pack of three strips. The Super Strip Flood is a 3/4" x 18" long strip that can hold up to eighteen RGB SuperFlux LEDs and an additional eighteen White SuperFlux LEDs (hence the RGB+W moniker).
Typically the RGB LEDs are common anode to support typical usage with DCSSRs or other DC controllers that implement switched grounds and common positive voltage. The circuitry has each LED/color with a series current limiting resistor and all LED/resistors are in parallel for each color. While this increases the number of resistors required, it does allow operation with just 5v as well as allowing you to partially populate the strip. The strips are usually run with either 5v or 12v as these are common DC power supply voltages. The use of 5v supplies allows smaller resistors (1/8W) to be used whereas the use of 12v supplies requires larger (1/4W) resistors.
The values of the limiting resistors can be calculated using Ohm's Law:
When usng 5vdc:
R = V / I or (5v - Vf) / .02
Assumption is 20mA for the LEDs (this is what they are from the group buy)
Assumption is Vf of 2v for Red and 3.1v for Green, Blue and White
Red - (5v - 2v) / .02 = 3v / .02 = 150 ohms
150 ohms is a common value so the actual current is 3v / 150 = 20mA
P = V x I = 3 x 20mA = 60mW so a 1/8W will work fine - you can use Mouser 299-150-RC
Green/Blue/White - (5v - 3.1v) / .02 = 1.9 / .02 = 95 ohms
The next common value up is 100 ohms so the actual current is 1.9v / 100 = 19mA
P = V x I = 1.9 x 19mA = 36mW so again you can use a 1/8W - you can use Mouser 299-100-RC
When using 12vdc:
R = V / I or (12v - Vf) / .02
Assumption is 20mA for the LEDs (this is what they are from the group buy)
Assumption is Vf of 2v for Red and 3.1v for Green, Blue and White
Red - (12v - 2v) / .02 = 10v / .02 = 500 ohms
Next common value up is 510 ohms so the actual current is 10v / 510 = 19.6mA
P = V x I = 10 x 19.6mA = 196mW so you must use 1/4W - you can use Mouser 291-510-RC
Green/Blue/White - (12v - 3.1v) / .02 = 8.9 / .02 = 445 ohms
The next common value up is 470 ohms so the actual current is 8.9v / 470 = 18.9mA
P = V x I = 8.9 x 18.9mA = 168mW so again you need a 1/4W - you can use Mouser 291-470-RC
Note that if you fully populate the board that you will require eighteen resistors for EACH color so in all you will need seventy-two resistors for each strip - - it's a lot of soldering!
Using the Super Strip
The Super Strip can have an RJ45 installed at each end of the strip. The connections are identical for either end so it doesn't matter which side is plugged in. Note that if you are not planning to daisy-chain the strips, that you can get away with installing just one connector. A fully populated strip draws up to 360mA per color (18 LEDs x 20mA = 360mA) so it is not advised that you daisy-chain the strips since the current draw would be too much for Cat5 cabling.
The pinout of the strip is as follows:
Pin 1, 3, 5 and 7 are physically tied together and are typically connected to the +DC output of the power supply that is being used.
Pin 2 drives the Red LED path
Pin 4 drives the Green LED path
Pin 6 drives the Blue LED path
Pin 8 drives the White LED path
NOTE - Regarding the RGB LEDs, the actual color lit may be different than the path color - it is important that you verify this BEFORE installing the LEDs and resistors on the strips. This is due to different manufacturers not using standardized pinouts for the colors used. The first group buy had the Green and Blue colors swapped while the latest group buy had the Red and Green swapped. You may want to monitor the forum closely to ensure which layout is correct.