iScrtAznMan
Member
I hate to make a new thread about drivers, but I find conflicting or older information when searching about thermal runaway and I'm sure it could help a lot of new users too (or at least me).
Can you help me settle the advantages and disadvantages of low voltage (parallel) vs high voltage (series) drivers? I've been searching all over as to why @CobKits sells the MW hlg-***-48a for parallel wiring when most people run constant current drivers. The only good reasoning I could come up with are, safety (electrocution), cost and flexibility for people that can't afford to run their cobs soft or will add cobs later.
But isn't thermal/current runaway still an issue? The only cobs that could be okay are ones where the forward voltage is close to the driver limit since the increase in temperature will increase voltage requirements, turning the cob off and allowing the current to redistribute assuming the other cobs can handle the current. If you use a lower forward voltage cob, it won't be safe anymore. You also can't upgrade to higher voltage cobs so you're locked in at that specific voltage. In that case, wouldn't a dimmable constant current driver, like an hlg-***-c****b offer more flexibility for a specific wattage range, since you could just dim the driver if it's too strong? (I guess some drivers have pretty limited current ranges)
I guess you could employ techniques to distribute current evenly, but that would ruin any cost advantages that a high voltage driver wouldn't require. It also makes installation harder for low voltage cobs depending on the method used (I guess resistors aren't too bad but reduce efficiency. A current mirror could quickly get complicated if used in setups with a lot of cobs per driver. Resettable Fuses seem like the best option, but could result in all the lights shutting off for a bit if they don't reset quickly enough. Larger fuses (~50V 3A+) take 5+ seconds to trip too).
Edit: For the low voltage drivers that offer constant voltage, I thought I read somewhere on here that they only limit voltage until it gets up to temp or it hits max voltage. Just to clear up why I thought lower voltage cobs won't work with something like a hlg-185h-48a.
Can you help me settle the advantages and disadvantages of low voltage (parallel) vs high voltage (series) drivers? I've been searching all over as to why @CobKits sells the MW hlg-***-48a for parallel wiring when most people run constant current drivers. The only good reasoning I could come up with are, safety (electrocution), cost and flexibility for people that can't afford to run their cobs soft or will add cobs later.
But isn't thermal/current runaway still an issue? The only cobs that could be okay are ones where the forward voltage is close to the driver limit since the increase in temperature will increase voltage requirements, turning the cob off and allowing the current to redistribute assuming the other cobs can handle the current. If you use a lower forward voltage cob, it won't be safe anymore. You also can't upgrade to higher voltage cobs so you're locked in at that specific voltage. In that case, wouldn't a dimmable constant current driver, like an hlg-***-c****b offer more flexibility for a specific wattage range, since you could just dim the driver if it's too strong? (I guess some drivers have pretty limited current ranges)
I guess you could employ techniques to distribute current evenly, but that would ruin any cost advantages that a high voltage driver wouldn't require. It also makes installation harder for low voltage cobs depending on the method used (I guess resistors aren't too bad but reduce efficiency. A current mirror could quickly get complicated if used in setups with a lot of cobs per driver. Resettable Fuses seem like the best option, but could result in all the lights shutting off for a bit if they don't reset quickly enough. Larger fuses (~50V 3A+) take 5+ seconds to trip too).
Edit: For the low voltage drivers that offer constant voltage, I thought I read somewhere on here that they only limit voltage until it gets up to temp or it hits max voltage. Just to clear up why I thought lower voltage cobs won't work with something like a hlg-185h-48a.
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