Difference between revisions of "Wiring Smart Pixels"
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== Wiring Methods == | == Wiring Methods == | ||
| − | By far the least expensive method to drive smart pixels is with a large power supply powered through your controller. The only other components required is a power cable to the pixels. It is recommended that you use 16AWG | + | '''Direct Power''' |
| + | |||
| + | By far the least expensive method to drive smart pixels is with a large power supply powered through your controller. The only other components required is a power cable to the pixels. It is recommended that you use 16AWG extension wire in lengths of 10-15 feet, which is cheaper bought as an extension cord. The only cost for this layout is the controller, large power supply and the wire. | ||
[[File:Wiring_Direct_Power.PNG|600px|Left]] | [[File:Wiring_Direct_Power.PNG|600px|Left]] | ||
| − | If the pixels are further away from your controller, it is best to use a local power supply and Ethernet cable for the control lines. If you use Ethernet cable to drive the control signals, with 100 ohm source termination, it has been demonstrated to work at 100 feet. The drive chip used was an 74ACT541 versus the standard 74HCT541. The ACT parts have more current drive, which will improve your ability to drive the signal further. | + | '''Local Power Supply''' |
| + | |||
| + | If the pixels are further away from your controller, it is best to use a local power supply and Ethernet cable for the control lines. If you use Ethernet cable to drive the control signals, with 100 ohm source termination, it has been demonstrated to work at 100 feet. The drive chip used was an 74ACT541 versus the standard 74HCT541. The ACT parts have more current drive, which will improve your ability to drive the signal further. The local power supply adds some additional cost for power. | ||
[[File:Wiring_Local_Power.PNG|600px|Left]] | [[File:Wiring_Local_Power.PNG|600px|Left]] | ||
| + | |||
| + | '''Local Power Supply with Pixel Extender''' | ||
| + | |||
| + | In electronic engineering, best practice for signals that go more than a couple feet is to add a differential driver/receiver pair (RS-422/485). These drivers make the signal more immune to noise and allow the signal to be driven further. For pixel data rates (approximately 1MHz), the expected distance is 1000 feet. This adds additional cost for the buffer/receiver boards. | ||
[[File:Wiring_Local_Pixel_Extender_.PNG|600px|Left]] | [[File:Wiring_Local_Pixel_Extender_.PNG|600px|Left]] | ||
| + | |||
| + | '''Power Over Ethernet''' | ||
[[File:Wiring_POE.PNG|600px|Left]] | [[File:Wiring_POE.PNG|600px|Left]] | ||
| − | + | '''Power Over Ethernet with Pixel Extender''' | |
[[File:Wiring_POE_Pixel_Extender.PNG|600px|Left]] | [[File:Wiring_POE_Pixel_Extender.PNG|600px|Left]] | ||
Revision as of 21:26, 3 June 2015
The most important part of your show is the wiring. This heavily affects the cost, ease of setup/take down, and how easy it is to fix problems. It is important that you thoroughly understand wiring, before you choose how you want to layout your show.
How Many Pixels?
First, let me list some of the basic guideline that you should follow to ensure that you do not have issues with your hardware. These are guidelines which can be violated, but ensure that you clearly understand what you are doing.
1) Only drive fifty 5Vdc pixels without power injection.
2) Only drive one hundred 12Vdc pixels without power injection.
3) Do not use ground loops in your power.
Wiring Methods
Direct Power
By far the least expensive method to drive smart pixels is with a large power supply powered through your controller. The only other components required is a power cable to the pixels. It is recommended that you use 16AWG extension wire in lengths of 10-15 feet, which is cheaper bought as an extension cord. The only cost for this layout is the controller, large power supply and the wire.
Local Power Supply
If the pixels are further away from your controller, it is best to use a local power supply and Ethernet cable for the control lines. If you use Ethernet cable to drive the control signals, with 100 ohm source termination, it has been demonstrated to work at 100 feet. The drive chip used was an 74ACT541 versus the standard 74HCT541. The ACT parts have more current drive, which will improve your ability to drive the signal further. The local power supply adds some additional cost for power.
Local Power Supply with Pixel Extender
In electronic engineering, best practice for signals that go more than a couple feet is to add a differential driver/receiver pair (RS-422/485). These drivers make the signal more immune to noise and allow the signal to be driven further. For pixel data rates (approximately 1MHz), the expected distance is 1000 feet. This adds additional cost for the buffer/receiver boards.
Power Over Ethernet
Power Over Ethernet with Pixel Extender
