This is an overly complex pure sine wave inverter backup solution. The cheap generator is used to run a HP DPS-600PB server power supply rated at 12.15V 47A. I intend on stepping the power supply voltage up to its limit of 13.6V, and running it through a .1Ohm high power resistor to effectively limit its output and 'soften' the demands placed on it to help give the generator time to recover. The power supply dumps power into the battery bank which is used to supply temporary power under higher demands so large loads can be run for short periods of time, and then the power supply will recharge the battery bank when the load is removed. Should be capable of 600W continuous, and is capable of a bit over 2kW until the battery bank drops to 10-11V. Very clean output power, more stable than inverter generators, and it happened to be really cheap.
Thursday, December 13, 2012
Sine Wave Inverter Backup Solution
Sine Wave Inverter Backup Solution Video Clips. Duration : 5.53 Mins.
This is an overly complex pure sine wave inverter backup solution. The cheap generator is used to run a HP DPS-600PB server power supply rated at 12.15V 47A. I intend on stepping the power supply voltage up to its limit of 13.6V, and running it through a .1Ohm high power resistor to effectively limit its output and 'soften' the demands placed on it to help give the generator time to recover. The power supply dumps power into the battery bank which is used to supply temporary power under higher demands so large loads can be run for short periods of time, and then the power supply will recharge the battery bank when the load is removed. Should be capable of 600W continuous, and is capable of a bit over 2kW until the battery bank drops to 10-11V. Very clean output power, more stable than inverter generators, and it happened to be really cheap.
This is an overly complex pure sine wave inverter backup solution. The cheap generator is used to run a HP DPS-600PB server power supply rated at 12.15V 47A. I intend on stepping the power supply voltage up to its limit of 13.6V, and running it through a .1Ohm high power resistor to effectively limit its output and 'soften' the demands placed on it to help give the generator time to recover. The power supply dumps power into the battery bank which is used to supply temporary power under higher demands so large loads can be run for short periods of time, and then the power supply will recharge the battery bank when the load is removed. Should be capable of 600W continuous, and is capable of a bit over 2kW until the battery bank drops to 10-11V. Very clean output power, more stable than inverter generators, and it happened to be really cheap.
Subscribe to:
Post Comments (Atom)
0 comments:
Post a Comment