Dacor UL750 LED conversion - DIY
*****Warning: As the title of this forum states, the following is DIY. Try this at YOUR OWN RISK**** (ie. NEVER A BAD IDEA TO CARRY A SPARE LIGHT (or 2) WHEN DIVING)
Summary
---------
Rather than dole out a couple hundred bucks for a new high-output/super-bright LED underwater light i decided to try and replace the existing halogen GE 7550 bulb in my Dacor UL 750 dive light. The stock bulb is a 8w 6-volt Par 36 halogen bulb. Retails for around $10 but is prone to breakage every time you open the light and average life expectancy (approx. 50hrs according to GE). I have no idea what lumens a GE 7550 8w halogen bulb delivers. If I remember correctly i would get anywhere from 18-24 hrs of burn time with a single alkaline 6-volt lantern battery. The battery this light is designed to use.
GE 7550 6-volt halogen screw terminal;
Operating Voltage - 6 volts
Watts - 8w
Amperage - 8w / 6volts = 1.33amps
Life expectancy - approx. 50hrs
LED replacement bulb
--------------------
If you do some searching online there are loads of Par 36 bulbs out there but not many choices when it comes to ultra-bright LED (also known as WhiteLight) in DC voltage...especially 6-volt. This project uses the Grote 12v 'Trilliant' 36 bulb. Recently purchased here in Toronto, Ontario for $120 on sale at a local auto-parts store. Comes in a standard 'Tractor-beam' or 'Wide-angle' projection. I bought the 'Tractor-beam' version (Grote part #63821-5) Grote makes all kinds of automotive/tractor/utility vehicle stuff so i figured they are a reliable source for quality LED products. Not all LED lights are equal. These are the specs for the 'Trilliant' 36 bulb;
Diameter - 4.39" (111.63mm)
Depth - 1.42" (49.29mm)
Operating Voltage - 10 to 30 volts (this is important as you don't want the LED to shut off during normal battery operation - ie. inevitable drop in voltage)
Amperage - 1.4A at 12 volts / 1.44A at 12 volts
Other stuff
-----------
2 qty. 4 C-cell battery holders with solder tabs
3 or 4 packs of quick connectors (depending if you want to keep your old setup/bulb & 6-volt power source)
Some wire
soldering iron
solder
Voltage/Batteries
-----------------
Now, of course you're probably thinking...12-volt? how do you run that with a 6-volt lantern battery? Good question. In fact, a lot of 6-volt batteries are simply 4 individual 1.5-volt batteries packed into the square metal shell. Often they are 'F-cells'. Not readily available in stores or online (I suppose if you're a hard-core battery person you can find these no problem) It's relatively straightforward building your own battery 'pack' as long as the combination of cells totals 12-volts
8 x 1.5-volt AA
8 x 1.5-volt C
8 x 1.5-volt D (doubt i could fit 8 of these in this lamp shell)
Battery Holder
--------------
I chose to go with 8 C-cell batteries. This battery is relatively cheap and easy to find in various stores (hardware, pharmacy, grocery etc.)
This DIY project could very easily use rechargeable C cells but i don't own any (yet). I think alkaline has longer amp hours than rechargeables though (in general at least)
I built the battery holder using a combination of 2, 4 C-cell holders as you'll see below. Fortunately for me they came with plastic snaps on their backs so i could simply 'click' them together and voila, instant 8-cell cartridge. Each holder has battery solder 'tabs' so it was quite easy to solder the 2 in series (also commonly referred to as 'daisy-chain') to get the required 12-volts.
Fitting
------
The Grote LED bulb is designed as a direct replacement for normal 12 volt Par 36 bulbs. Used a lot on tractors apparently?
Therefore it 'should' fit the Dacor UL750 no problem. It does, but make sure you line up the bump on the back of the bulb with the correct location on the Dacor UL750 housing (see picture below)
Performance
------------
I'm no expert but I'm pretty sure that flashlight performance is largely related to the current draw (amps) of the bulb(s) AND the capacity of the battery(ies) supplying the power.
I have minimal knowledge of battery current discharge 'curves' so i'll leave the exact math up to you. Here's a brief (rough guess) overview of what i would expect from this LED bulb;
17 watts / 12 volts = 1.4amps (matches manufacturers specs)
A typical alkaline C battery can deliver up to 8000mAh (8 amps for 1 hour, 4 amps for 2 hours ...you get the idea)
8 C batteries x 8amps each = 64amps (In reality probably less but again, these are ROUGH calcs)
64amps / 1.4amps (draw) = 45hrs
Therefore this LED bulb in theory could operate for up to 45hrs on 8 C batteries (Alkaline). Now, i know what you're thinking...45hrs, no way.
Results
-------
I have yet to do an actual test using C batteries however i did build a 8 AA battery pack as well for fun. Installed it, turned on the light and walked away.
After checking every 30 minutes or so i found the light stayed lit for just under 12hrs.
NOTE: The intensity decreased significantly after 2 hours but levelled off for the remaining 10.
I don't think AA can maintain the 12volt output for very long but i have to admit i was surprised how long the light stayed on. Most likely something to do with the electronics of the LED driver/board? maybe someone more knowledgeable can shed some 'light' on this topic
Pictures
--------
A picture is worth a thousand words, so here you go;
(Experience is worth a thousand pictures)
Old bulb - New bulb
Housing locator 'bump' (old bulb)
Housing locator 'bump' (new bulb)
4 C-cell battery holders
8 C-cell battery pack after soldering (in series)
Old bulb, 6-volt power supply with quick connector. New bulb, 12-volt power with quick connector
(i can easily convert back to 6-volt halogen setup if i don't like the LED)
The new power pack installed (a little tight but that keeps it from moving around)
actually, i was amazed that it fit near perfect!
All closed up, ready to throw the switch...facemask on, safety gloves, fire extinguisher at the ready...
(just kidding)
Seems to work, nothing melting, no black smoke
Along side my backup torch (Dorcy 180 lumen w/Cree XRE-Q4 ultra-bright)
From another angle
All done. Now all that's left to do is GET WET!
Will try to post some follow-up pics of nighttime tests
(in shallow water of course...just in case of a malfunction/failure)
*****Warning: As the title of this forum states, the following is DIY. Try this at YOUR OWN RISK**** (ie. NEVER A BAD IDEA TO CARRY A SPARE LIGHT (or 2) WHEN DIVING)
Summary
---------
Rather than dole out a couple hundred bucks for a new high-output/super-bright LED underwater light i decided to try and replace the existing halogen GE 7550 bulb in my Dacor UL 750 dive light. The stock bulb is a 8w 6-volt Par 36 halogen bulb. Retails for around $10 but is prone to breakage every time you open the light and average life expectancy (approx. 50hrs according to GE). I have no idea what lumens a GE 7550 8w halogen bulb delivers. If I remember correctly i would get anywhere from 18-24 hrs of burn time with a single alkaline 6-volt lantern battery. The battery this light is designed to use.
GE 7550 6-volt halogen screw terminal;
Operating Voltage - 6 volts
Watts - 8w
Amperage - 8w / 6volts = 1.33amps
Life expectancy - approx. 50hrs
LED replacement bulb
--------------------
If you do some searching online there are loads of Par 36 bulbs out there but not many choices when it comes to ultra-bright LED (also known as WhiteLight) in DC voltage...especially 6-volt. This project uses the Grote 12v 'Trilliant' 36 bulb. Recently purchased here in Toronto, Ontario for $120 on sale at a local auto-parts store. Comes in a standard 'Tractor-beam' or 'Wide-angle' projection. I bought the 'Tractor-beam' version (Grote part #63821-5) Grote makes all kinds of automotive/tractor/utility vehicle stuff so i figured they are a reliable source for quality LED products. Not all LED lights are equal. These are the specs for the 'Trilliant' 36 bulb;
Diameter - 4.39" (111.63mm)
Depth - 1.42" (49.29mm)
Operating Voltage - 10 to 30 volts (this is important as you don't want the LED to shut off during normal battery operation - ie. inevitable drop in voltage)
Amperage - 1.4A at 12 volts / 1.44A at 12 volts
Other stuff
-----------
2 qty. 4 C-cell battery holders with solder tabs
3 or 4 packs of quick connectors (depending if you want to keep your old setup/bulb & 6-volt power source)
Some wire
soldering iron
solder
Voltage/Batteries
-----------------
Now, of course you're probably thinking...12-volt? how do you run that with a 6-volt lantern battery? Good question. In fact, a lot of 6-volt batteries are simply 4 individual 1.5-volt batteries packed into the square metal shell. Often they are 'F-cells'. Not readily available in stores or online (I suppose if you're a hard-core battery person you can find these no problem) It's relatively straightforward building your own battery 'pack' as long as the combination of cells totals 12-volts
8 x 1.5-volt AA
8 x 1.5-volt C
8 x 1.5-volt D (doubt i could fit 8 of these in this lamp shell)
Battery Holder
--------------
I chose to go with 8 C-cell batteries. This battery is relatively cheap and easy to find in various stores (hardware, pharmacy, grocery etc.)
This DIY project could very easily use rechargeable C cells but i don't own any (yet). I think alkaline has longer amp hours than rechargeables though (in general at least)
I built the battery holder using a combination of 2, 4 C-cell holders as you'll see below. Fortunately for me they came with plastic snaps on their backs so i could simply 'click' them together and voila, instant 8-cell cartridge. Each holder has battery solder 'tabs' so it was quite easy to solder the 2 in series (also commonly referred to as 'daisy-chain') to get the required 12-volts.
Fitting
------
The Grote LED bulb is designed as a direct replacement for normal 12 volt Par 36 bulbs. Used a lot on tractors apparently?
Therefore it 'should' fit the Dacor UL750 no problem. It does, but make sure you line up the bump on the back of the bulb with the correct location on the Dacor UL750 housing (see picture below)
Performance
------------
I'm no expert but I'm pretty sure that flashlight performance is largely related to the current draw (amps) of the bulb(s) AND the capacity of the battery(ies) supplying the power.
I have minimal knowledge of battery current discharge 'curves' so i'll leave the exact math up to you. Here's a brief (rough guess) overview of what i would expect from this LED bulb;
17 watts / 12 volts = 1.4amps (matches manufacturers specs)
A typical alkaline C battery can deliver up to 8000mAh (8 amps for 1 hour, 4 amps for 2 hours ...you get the idea)
8 C batteries x 8amps each = 64amps (In reality probably less but again, these are ROUGH calcs)
64amps / 1.4amps (draw) = 45hrs
Therefore this LED bulb in theory could operate for up to 45hrs on 8 C batteries (Alkaline). Now, i know what you're thinking...45hrs, no way.
Results
-------
I have yet to do an actual test using C batteries however i did build a 8 AA battery pack as well for fun. Installed it, turned on the light and walked away.
After checking every 30 minutes or so i found the light stayed lit for just under 12hrs.
NOTE: The intensity decreased significantly after 2 hours but levelled off for the remaining 10.
I don't think AA can maintain the 12volt output for very long but i have to admit i was surprised how long the light stayed on. Most likely something to do with the electronics of the LED driver/board? maybe someone more knowledgeable can shed some 'light' on this topic
Pictures
--------
A picture is worth a thousand words, so here you go;
(Experience is worth a thousand pictures)
Old bulb - New bulb
Housing locator 'bump' (old bulb)
Housing locator 'bump' (new bulb)
4 C-cell battery holders
8 C-cell battery pack after soldering (in series)
Old bulb, 6-volt power supply with quick connector. New bulb, 12-volt power with quick connector
(i can easily convert back to 6-volt halogen setup if i don't like the LED)
The new power pack installed (a little tight but that keeps it from moving around)
actually, i was amazed that it fit near perfect!
All closed up, ready to throw the switch...facemask on, safety gloves, fire extinguisher at the ready...
(just kidding)
Seems to work, nothing melting, no black smoke
Along side my backup torch (Dorcy 180 lumen w/Cree XRE-Q4 ultra-bright)
From another angle
All done. Now all that's left to do is GET WET!
Will try to post some follow-up pics of nighttime tests
(in shallow water of course...just in case of a malfunction/failure)
