Power system using battery-charged capacitors
First Claim
Patent Images
1. A self-contained power system for powering a variable electrical load, comprising:
- a) a rechargeable battery pack of sufficient storage capacity to store substantially the total power required by said load between charges of said battery pack;
b) a capacitor bank so connected to said load as to drive it at a substantially constant voltage;
c) said capacitor bank being so connected to said battery pack as to be charged therefrom to a voltage substantially greater than the operating voltage of said load, the charging current of said capacitor bank being substantially less than the current required from said capacitor bank to drive said load.
0 Assignments
0 Petitions
Accused Products
Abstract
A self-contained power system for powering a variable load uses a capacitor bank to power the load during periods of high current demand by the load at a steady load voltage. The capacitor bank is recharged during periods of lesser demand from a battery pack which has a lesser current output capability than the maximum load demand. The battery pack in turn is periodically recharged from an only intermittently available power source.
114 Citations
5 Claims
-
1. A self-contained power system for powering a variable electrical load, comprising:
-
a) a rechargeable battery pack of sufficient storage capacity to store substantially the total power required by said load between charges of said battery pack; b) a capacitor bank so connected to said load as to drive it at a substantially constant voltage; c) said capacitor bank being so connected to said battery pack as to be charged therefrom to a voltage substantially greater than the operating voltage of said load, the charging current of said capacitor bank being substantially less than the current required from said capacitor bank to drive said load. - View Dependent Claims (2, 3, 4)
-
-
5. A capacitor-based energy storage and release system comprising:
-
a) capacitive energy storage apparatus having a capacitor voltage thereacross when charged; b) a voltage regulator arranged to produce an output at an output voltage which is a small fraction of said capacitor voltage as long as said capacitor voltage is higher than said output voltage; c) a switch for selectably connecting said energy storage means to a source of relatively high charging voltage, and to the input of said voltage regulator means; d) an inverter connected to said voltage regulator and arranged to convert said output voltage to a substantially higher load operating voltage; e) a battery for storing intermittently available electrical energy at a voltage substantially lower than said capacitor voltage; f) a current limiter connected to limit the current that can be drawn from said battery; and g) a power converter connected to convert said battery voltage to said capacitor voltage and to apply said capacitor voltage to said capacitive energy storage apparatus for charging the same.
-
Specification