Method of optimizing control of plural switched electric loads to reduce switching transients
First Claim
1. A method of controlling a plurality of clocked loads controllable individually and independently of each other, more particularly electrical heating loads of an electric oven, for minimizing the demand on an alternating current mains due to switching transients, the loads being fed from a common phase of the alternating current mains and being switched on each time at the beginning of a clock period, the clock periods of the various loads being of the same length, the improvement comprising:
- sequentially connecting to the mains all loads neither switched off nor switched to full power in a switching cycle so as to be interlinked in time in such a manner that, when a preceding load is switched off, a next load is switched on, andstarting again such as a switching cycle each time at the beginning of a common clock period independently of the length of the switching cycle.
1 Assignment
0 Petitions
Accused Products
Abstract
A method of controlling several clocked loads controllable individually and independently of each other, more particularly heating loads of an electric oven, for minimizing the demand on an alternating current mains due to switching transients. More particularly, the loads are energized in sequence to prevent flickering when the loads are coupled to a common phase of the alternating current mains are switched on each time at the beginning of their clock period. The clock periods of the various loads are of equal length. All loads neither switched off nor switched to full power in a switching cycle are connected to the mains so as to be interlinked in time in a manner such that, when the preceding load is switched off, the next load is switched on. Such a switching cycle is started again each time at the beginning of a common clock period independently of the length of the switching cycle.
46 Citations
16 Claims
-
1. A method of controlling a plurality of clocked loads controllable individually and independently of each other, more particularly electrical heating loads of an electric oven, for minimizing the demand on an alternating current mains due to switching transients, the loads being fed from a common phase of the alternating current mains and being switched on each time at the beginning of a clock period, the clock periods of the various loads being of the same length, the improvement comprising:
-
sequentially connecting to the mains all loads neither switched off nor switched to full power in a switching cycle so as to be interlinked in time in such a manner that, when a preceding load is switched off, a next load is switched on, and starting again such as a switching cycle each time at the beginning of a common clock period independently of the length of the switching cycle. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
-
-
13. An electric heating apparatus for a plurality of clocked electric heating loads controllable individually and independently of each other, said apparatus comprising:
-
relay means for selectively coupling said loads to a common phase of a source of AC supply voltage, a microprocessor for controlling the operation of said relay means so as to sequentially connect the loads to the AC supply voltage in a switching cycle in which the loads are interlinked in time so that when one load is switched off a next load is switched on, a switching cycle being started again each time at the beginning of a common clock period independently of the length of the switching cycle whereby the clock periods of the loads are all equal, and a keyboard connected to the microprocessor to supply thereto under user operation data related to the desired power levels of individual ones of the electric heating loads such that the time period a load is connected to the AC supply voltage varies with the power level of the load whereby the length of a switching cycle is variable.
-
-
14. Apparatus for supplying power to a plurality of loads in sequence from a common source of AC supply voltage where the power to each load is selectable individually and independently of the other loads comprising:
- a plurality of controlled switching devices for coupling respective ones of said loads to said common source of AC supply voltage, means for operating said switching devices in sequence such that when a first load in the sequence is switched off a second load in the sequence is switched on and so on through a complete switching cycle, means for adjusting the length of time each switching device is switched on so that the on time of its respective load is determined by the desired power level individually set for such load and independent of the power level set for other loads in the sequence whereby a switching cycle is variable and is determined by the sum of the individual power levels set for the individual loads, and means for clocking said operating means to periodically start a new switching cycle independent of whether or not a preceding switching cycle has been completed.
- View Dependent Claims (15)
-
16. A method of sequentially applying power from a common source of AC supply voltage to a plurality of loads having power levels settable individually and independently of each other and in a manner so as to minimize transient loading on said common source of AC supply voltage, the method comprising:
- connecting the loads to the common source of AC supply voltage in sequence in a repetitive switching cycle such that when a first load in the sequence is switched off a second load is switched on and so on through each switching cycle, where each load is connected to the common source of AC supply voltage for a period of time determined by the desired power level set for such load and independent of power levels set for other ones of the loads whereby the length of the switching cycle is variable as a function of the individual power settings of the plurality of loads, and periodically starting a new switching cycle at regular time intervals independently of the length of the switching cycle.
Specification