Standby A-C power system with transfer compensation circuitry
First Claim
1. A circuit for compensating for the transients which arise in the output voltage of an A-C power system, said system of the type which provides to an external load connected to its output a regulated A-C voltage from an input A-C voltage when said system operates in the normal mode and from the output of a standby power system included therein when said system operates in the failure mode, only when said system transfers from said normal mode to said failure mode upon the occurrence of at least one of a predetermined number of undesirable conditions in said input A-C voltage said system including means for providing a signal which may be used to indicate the size of at least said external load when said system operates in the normal mode and means for controlling said standby output voltage at a predetermined amplitude when said system operates in the failure mode, said circuit comprising:
- (a) means responsive to said load indicating signal for generating a signal whose normal mode amplitude is indicative of at least said external load;
(b) means responsive to the transfer of said system from said normal mode to said failure mode for providing a signal to said generating means for changing said load indicative signal amplitude in a predetermined manner;
(c) means responsive to said system transfer for causing said standby power system output voltage amplitude to increase above said failure mode predetermined amplitude; and
(d) means responsive to said load indicative signal amplitude reaching a predetermined amplitude for terminating said increase of said standby power system output voltage amplitude said standby voltage amplitude returning to said predetermined amplitude.
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Accused Products
Abstract
A transfer compensation circuit for use in a standby A-C power system which compensates for the transient in system output voltage which occurs when the system transfers from the conventional A-C input voltage to the standby power system. The compensation is dependent on the total load on the system at the instant of transfer. The total load includes both the external load connected to the system load and the battery in the standby supply if the system normally functions to provide charging current to that battery.
42 Citations
16 Claims
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1. A circuit for compensating for the transients which arise in the output voltage of an A-C power system, said system of the type which provides to an external load connected to its output a regulated A-C voltage from an input A-C voltage when said system operates in the normal mode and from the output of a standby power system included therein when said system operates in the failure mode, only when said system transfers from said normal mode to said failure mode upon the occurrence of at least one of a predetermined number of undesirable conditions in said input A-C voltage said system including means for providing a signal which may be used to indicate the size of at least said external load when said system operates in the normal mode and means for controlling said standby output voltage at a predetermined amplitude when said system operates in the failure mode, said circuit comprising:
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(a) means responsive to said load indicating signal for generating a signal whose normal mode amplitude is indicative of at least said external load; (b) means responsive to the transfer of said system from said normal mode to said failure mode for providing a signal to said generating means for changing said load indicative signal amplitude in a predetermined manner; (c) means responsive to said system transfer for causing said standby power system output voltage amplitude to increase above said failure mode predetermined amplitude; and (d) means responsive to said load indicative signal amplitude reaching a predetermined amplitude for terminating said increase of said standby power system output voltage amplitude said standby voltage amplitude returning to said predetermined amplitude. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A power supply system having an input and an output connected by an A-C voltage transmission means for providing at said output a regulated A-C voltage to an external load connected to said output, which comprises:
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(a) sensing means to sense the A-C voltage waves in said transmission means on the input and output sides of said system, said sensing means being directly connected to said transmission means whereby there is no substantial phase shift between said transmission means and said sensing means; (b) means responsive only to said input A-C voltage wave for determining the occurrence in said input voltage wave of at least one of a predetermined number of undesirable conditions, said means generating a first signal of predetermined amplitude upon said occurrence and a second signal of predetermined amplitude upon the nonoccurrence of said undesirable conditions; (c) a switch means interposed in said transmission means between said input and output thereof, said switch means normally operating in a closed condition and being adapted to be selectively inhibited, upon the occurrence of said first signal, to thereby prevent transmission of said input A-C voltage wave to said output; (d) a standby power system including a bidirectional inverter connected between a battery and said output, said inverter adapted to supply from said battery an A-C voltage wave of predetermined frequency and amplitude to said output during periods when said switch means is inhibited and said inverter adapted to supply current to charge said battery as a load internal to said system when said switch means is operating normally; (e) a phase control means operating in a loop between said input and said output, said loop being the only loop in said system and fully closed when said switch means operates in a closed condition, said phase control means responsive when said loop is fully closed to said input and output voltage waves and said second signal for controlling the phase relationship between said voltage waves and for generating a signal which may be used to indicate the total load on said system when said switch means operates normally as the sum of said external load, said phase control means responsive to said first signal for fully opening said fully closed loop and for controlling said frequency and amplitude of said A-C voltage wave supplied by said standby power system; and (f) a circuit for compensating for the transients which arise in the output voltage when said switch means is inhibited including (i) means responsive to said total load indicating signal for generating a signal when said switch means operates normally whose amplitude is indicative of said total load; (ii) means responsive to said selective inhibiting of said switch means for providing a signal to said generating means for changing said load indicative signal amplitude in a predetermined manner; (iii) means responsive to said selective inhibiting of said switch means for causing said voltage supplied by said inverter when said switch means is inhibited to increase above said predetermined amplitude; and (iv) means responsive to said load indicative signal amplitude reaching a predetermined amplitude for terminating said increase of said voltage generated by said inverter said voltage returning to said predetermined amplitude. - View Dependent Claims (13, 14, 15)
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16. A method for compensating for the transients which arise in the output voltage of an A-C power system, said system of the type which provides to an external load connected to its output a regulated A-C voltage from an input A-C voltage when said system operates in the normal mode and from the output of a standby power system included therein when said system operates in the failure mode, only when said system transfers from said normal mode to said failure mode upon the occurrence of at least one of a predetermined number of undesirable conditions in said input A-C voltage said system including means for providing a signal which may be used to indicate the size of at least said external (the) load when said system operates in the normal mode and means for controlling said standby output voltage at a predetermined amplitude when said system operates in the failure mode, said method comprising the steps of:
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(a) generating from said load indicating signal a signal whose normal amplitude is indicative of at least said external system load; (b) changing said load indicative signal amplitude in a predetermined manner from said normal mode amplitude to a predetermined amplitude when said system transfers from said normal mode to said failure mode; (c) increasing said standby power system output voltage amplitude above said failure mode predetermined amplitude in response to said system transfer; and (d) terminating said increase of said standby system output voltage amplitude when said load indicative signal reaches a predetermined amplitude said standby voltage amplitude returning to said predetermined amplitude.
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Specification