Short-circuit protection for forward-phase-control AC power controller
First Claim
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1. A system for controlling AC power delivery to a load, said AC power defining an AC voltage, said AC voltage defining a series of AC voltage cycles, each of said AC voltage cycles having zero crossings, said system comprising:
- an activation input for receiving an activation signal;
a switch for selectively coupling a load to AC power, said switch having a switch-control input, said switch in normal condition coupling said load to AC power in response to a coupling command received at said switch-control input;
threshold circuitry for detecting when a current-parameter value of a current parameter associated with a current through said load exceeds a threshold value, said threshold circuitry including a sensor for sensing said current parameter;
phase tracking means for determining the phase of said AC voltage; and
a controller for controlling said switch by sending said coupling command to said switch-control input, said controller in response to receiving said activation signal leaving said load uncoupled from AC power during the first half of a voltage half cycle and then sending at least a first coupling command to said switch at a short-circuit-test phase angle within the second half of said half cycle, said controller being coupled to said phase tracking means, said controller determining whether or not a short-circuit criterion is met, said short-circuit criteria requiring that said current-parameter value exceed said threshold value during at least one short-circuit-test AC voltage cycle, said controller withholding coupling commands during succeeding voltage cycles if said short-circuit criterion is met.
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Abstract
A thyristor-based forward phase control (FPC) system for controlling the power delivered to a load from an AC power source employs a short-circuit test cycle to protect the thyristor from damage. Upon activation of the FPC system, the thyristor is triggered at a phase less than one-twelfth cycle before a zero crossing so that, if there is a short, the resulting peak current will be insufficient to damage the thyristor but will exceed a predetermined threshold current corresponding to a repetitive overload current. If during the test cycle, the threshold current value is crossed, the FPC system does not trigger the thyristor again and does indicate that a short exists. The threshold current value is selected to correspond to the thyristor'"'"'s steady-state load rating. If it is exceeded during normal (including warm-up and request-based) operation, steps can be taken to address an overload condition. Accordingly, the same circuitry used for general overload protection can be used as well for short-circuit protection.
105 Citations
16 Claims
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1. A system for controlling AC power delivery to a load, said AC power defining an AC voltage, said AC voltage defining a series of AC voltage cycles, each of said AC voltage cycles having zero crossings, said system comprising:
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an activation input for receiving an activation signal;
a switch for selectively coupling a load to AC power, said switch having a switch-control input, said switch in normal condition coupling said load to AC power in response to a coupling command received at said switch-control input;
threshold circuitry for detecting when a current-parameter value of a current parameter associated with a current through said load exceeds a threshold value, said threshold circuitry including a sensor for sensing said current parameter;
phase tracking means for determining the phase of said AC voltage; and
a controller for controlling said switch by sending said coupling command to said switch-control input, said controller in response to receiving said activation signal leaving said load uncoupled from AC power during the first half of a voltage half cycle and then sending at least a first coupling command to said switch at a short-circuit-test phase angle within the second half of said half cycle, said controller being coupled to said phase tracking means, said controller determining whether or not a short-circuit criterion is met, said short-circuit criteria requiring that said current-parameter value exceed said threshold value during at least one short-circuit-test AC voltage cycle, said controller withholding coupling commands during succeeding voltage cycles if said short-circuit criterion is met. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
a short-circuit indicator for providing a short-circuit indication when said short-circuit criterion is met, said short-circuit indicator being coupled to said controller; and
an overload indicator for providing an overload indication when said overload condition is met, said overload indicator being coupled to said controller, said overload indication being distinct from said short-circuit indication.
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9. A method of controlling the power delivered to a load from an AC power source, said method using forward phase control, said method comprising the steps of:
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receiving an activation command;
during a short-circuit-test voltage half cycle, leaving said load uncoupled from said AC source during a first half of said half cycle and then triggering a switch so as to couple said load to said AC power source at a short-circuit-test phase during a second half of said half cycle;
determining whether a resulting current-parameter value of a current parameter associated with a current through said load during a short-circuit-test voltage cycle exceeds a threshold value;
determining whether a short-circuit criterion is met, said short-circuit criterion requiring at that said threshold value be exceeded during at least one short-circuit-test voltage cycle; and
if said short criterion is met, not coupling said load to said AC power source during immediately subsequent voltage cycles. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
if said short-circuit condition is met, providing a human-readable short-circuit indication that said short-circuit condition is met; and
if said overload condition is met, providing a human-readable overload indication that said overload condition is met, said overload indication being distinct from said short-circuit indication.
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Specification
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Current AssigneePower Innovations Incorporated
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Original AssigneePower Innovations Incorporated
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InventorsBillig, Richard R., Carlson, Steven B.
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Primary Examiner(s)Wong, Peter S.
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Assistant Examiner(s)Laxton, Gary L.
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Application NumberUS09/425,504Time in Patent Office452 DaysField of Search323/237, 323/235, 323/238, 323/239, 323/299, 323/300, 323/905, 323/241US Class Current323/239CPC Class CodesH05B 39/044 continuously H05B39/042 tak...H05B 47/25 Circuit arrangements for pr...H05B 47/28 Circuit arrangements for pr...Y02B 20/00 Energy efficient lighting t...Y02B 20/30 Semiconductor lamps, e.g. s...
