MEDIUM VOLTAGE POWER TRANSMISSION LINE ALTERNATIVE
First Claim
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1. An electrical power system for powering quasi-remote loads comprising;
- an AC power source coupled to a step-up transformer coupled to a power transmission cable coupled to a step-down transformer coupled to a rectifier coupled to a DC charge controller coupled to a battery coupled to a DC-to-AC power converter wherein;
AC power is transferred from the AC power source to a lower voltage winding of the step-up transformer and wherein;
AC power is transferred from a higher voltage winding of the step-up transformer to the power transmission cable and wherein;
AC power is transferred from the power transmission cable to a higher voltage winding of the step-down transformer and wherein;
AC power is transferred from a lower voltage winding of the step-down transformer to the rectifier and wherein;
DC power is transferred from the rectifier to the DC charge controller and wherein;
DC power is transferred from the DC charge controller to the battery and wherein;
DC power is transferred from the battery to the DC-to-AC power converter wherein;
AC power is transferred from DC-to-AC power converter to an AC load.
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Abstract
The invention is an electrical power system for powering quasi-remote loads wherein local electric utility power is stepped up in voltage and transmitted to a remote battery bank via a low cost, two-conductor, direct burial cable. The system is configured such that current in is this cable is relatively low and constant. The battery bank is used to buffer the low power feed from the electric utility source and the high power, high crest factor remote loads. An inverter, like the type used with off-grid solar power systems, converts the DC battery power to AC power to supply the remote loads.
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Citations
12 Claims
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1. An electrical power system for powering quasi-remote loads comprising;
- an AC power source coupled to a step-up transformer coupled to a power transmission cable coupled to a step-down transformer coupled to a rectifier coupled to a DC charge controller coupled to a battery coupled to a DC-to-AC power converter wherein;
AC power is transferred from the AC power source to a lower voltage winding of the step-up transformer and wherein; AC power is transferred from a higher voltage winding of the step-up transformer to the power transmission cable and wherein; AC power is transferred from the power transmission cable to a higher voltage winding of the step-down transformer and wherein; AC power is transferred from a lower voltage winding of the step-down transformer to the rectifier and wherein; DC power is transferred from the rectifier to the DC charge controller and wherein; DC power is transferred from the DC charge controller to the battery and wherein; DC power is transferred from the battery to the DC-to-AC power converter wherein; AC power is transferred from DC-to-AC power converter to an AC load. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- an AC power source coupled to a step-up transformer coupled to a power transmission cable coupled to a step-down transformer coupled to a rectifier coupled to a DC charge controller coupled to a battery coupled to a DC-to-AC power converter wherein;
Specification