wingfootedgodhead
Active member
Implemented a T5HO setup during February in my 80 x 40 x 16 pole barn. Very pleased with the results.
I must acknowledge the great advice I received from the Garage Journal board when I posted questions in May 2013 'T5HO orientation inquiry'. Particularly the suggestion that I go with the 8', 4 lamp fixtures.
http://www.garagejournal.com/forum/showthread.php?t=200616
There are two separate circuits - the first is a line of 100W equivalent CFL's down the center of the pole barn, all on 120V. The second circuit is a total of 14, 8 foot T5HO fixtures, 4 lamps per fixture spaced 10 feet apart that branch off the main line and are on 240V. Temperature specification on the T5HO bulbs is 5000K. The circuits are individually wired on their own breakers, all AWG 12 inside 1/2" EMT except I did take 10 AWG on the 240V from the breaker box to the start of the 1/2" EMT run to reduce voltage drop.
All the lights are 16 feet off the deck.
Lighting circuits are individually controlled via a wireless LAN network and Elk M1 panel / iPad app via a pair of relays. A standard Elk relay for the 120V circuit and a DPST relay rated 40 amps with a secondary relay controlling the energizing coil for the 240V circuit powering the T5HO installation.
240V DPST relay specifications:
http://www.automationdirect.com/adc/Shopping/Catalog/Relays_-z-_Timers/Electro-Mechanical_Relays/Power_Relays,_Open-Style,_40A_(AD-PR40_Series)/AD-PR40-2A-12D
T5HO lighting specifications:
http://www.warehouse-lighting.com/industrial-strip-lights/8-foot-industrial-strip-light-fixture-4-lamp-t5ho-flourescent-light-120-volt-95-enhanced-miro-4-reflector.aspx
Here is the general layout of the lighting - 4 inch round junction boxes with box extension used to hold the wire nuts and anchor the CFL bulb base and the T5HO fixtures flush mounted beneath the trusses.
'Before' shot showing the main line installed with 100W CFL's. The varying K values of the CFL's are rather distracting - for future 'fix'. The scissors lift was a recent acquisition, you can pick up the 19' lift models for around $2500 used and owning sure beats the hassle of renting as I always seem to have a project that requires a lift.
It's cold in here ! Propane burner used to ward off the chill. Not the greatest as there is way too much air infiltration into my machine shed to get much more than a 20 degree heating boost from the outside.
'After' shot with the 8' T5HO fixtures blazing bright.
General layout, all fixtures were wired using 1/2" EMT. Time consuming but makes for a rock solid installation.
Light intensity measured at ground level in lumens (100W CFL's only).
Light intensity measured at ground level in lumens (100W CFL's + 8' T5HO fixtures). Warehouse lighting is anywhere from 300 to 700 lumens, so this the scheme now implemented is squarely in the middle of the warehouse range.
As mentioned, overall I am happy with the results. It could always be 'better' and the next improvement would be to replace the 100W equivalent CFL's with a higher output model plus reflectors, standardize all the bulbs to 5000K and add a manual on/off option to control at least the main trunk in case of network / iPad failure.
I must acknowledge the great advice I received from the Garage Journal board when I posted questions in May 2013 'T5HO orientation inquiry'. Particularly the suggestion that I go with the 8', 4 lamp fixtures.
http://www.garagejournal.com/forum/showthread.php?t=200616
There are two separate circuits - the first is a line of 100W equivalent CFL's down the center of the pole barn, all on 120V. The second circuit is a total of 14, 8 foot T5HO fixtures, 4 lamps per fixture spaced 10 feet apart that branch off the main line and are on 240V. Temperature specification on the T5HO bulbs is 5000K. The circuits are individually wired on their own breakers, all AWG 12 inside 1/2" EMT except I did take 10 AWG on the 240V from the breaker box to the start of the 1/2" EMT run to reduce voltage drop.
All the lights are 16 feet off the deck.
Lighting circuits are individually controlled via a wireless LAN network and Elk M1 panel / iPad app via a pair of relays. A standard Elk relay for the 120V circuit and a DPST relay rated 40 amps with a secondary relay controlling the energizing coil for the 240V circuit powering the T5HO installation.
240V DPST relay specifications:
http://www.automationdirect.com/adc/Shopping/Catalog/Relays_-z-_Timers/Electro-Mechanical_Relays/Power_Relays,_Open-Style,_40A_(AD-PR40_Series)/AD-PR40-2A-12D
T5HO lighting specifications:
http://www.warehouse-lighting.com/industrial-strip-lights/8-foot-industrial-strip-light-fixture-4-lamp-t5ho-flourescent-light-120-volt-95-enhanced-miro-4-reflector.aspx
Here is the general layout of the lighting - 4 inch round junction boxes with box extension used to hold the wire nuts and anchor the CFL bulb base and the T5HO fixtures flush mounted beneath the trusses.
'Before' shot showing the main line installed with 100W CFL's. The varying K values of the CFL's are rather distracting - for future 'fix'. The scissors lift was a recent acquisition, you can pick up the 19' lift models for around $2500 used and owning sure beats the hassle of renting as I always seem to have a project that requires a lift.
It's cold in here ! Propane burner used to ward off the chill. Not the greatest as there is way too much air infiltration into my machine shed to get much more than a 20 degree heating boost from the outside.
'After' shot with the 8' T5HO fixtures blazing bright.
General layout, all fixtures were wired using 1/2" EMT. Time consuming but makes for a rock solid installation.
Light intensity measured at ground level in lumens (100W CFL's only).
Light intensity measured at ground level in lumens (100W CFL's + 8' T5HO fixtures). Warehouse lighting is anywhere from 300 to 700 lumens, so this the scheme now implemented is squarely in the middle of the warehouse range.
As mentioned, overall I am happy with the results. It could always be 'better' and the next improvement would be to replace the 100W equivalent CFL's with a higher output model plus reflectors, standardize all the bulbs to 5000K and add a manual on/off option to control at least the main trunk in case of network / iPad failure.
