SU526865A1 - DC Voltage Stabilizer - Google Patents

Claims (1)

The control unit 5 has exits, each of which is connected by a corresponding cell. Works stabilizer as follows. If the input voltage t / sx is equal to the nominal value of the load voltage LjjH, the control unit 5 acts on the additional cells 2 in such a way that all of them are disconnected. In this case, the input voltage through both half windings of the output transformers and both diodes of the driver 3 goes to the filter 4 and the load 6. Thus, the nominal voltage is established on the load. When the input voltage is lowered, and consequently also / „, the control device 5 includes the required number of main boost cells 2, which, in synchronous and common-mode operation, induce a rectangular alternating voltage of the voltage booster in both half-windings of output transformers. When rectified by a full-wave rectifier 3, it folds into the input voltage and enters filter 4 and load 6. Since the width of the impedance voltage modulation is not present in this case, the rectified voltage has a small ripple value, which by means of small capacitive filter: can be reduced to millivolts. If, the control disconnects the extra cells and thereby reduces the voltage of the voltage boost so that t / H f / iiH is met. The accuracy of maintaining the load on the load is determined by the voltage of the voltage boost of one converter cell. In all cases, the circuit requires the condition to be met. When one of the working cells fails, the voltage on the load decreases, therefore, the control unit will turn on another unused cell and the output voltage will become equal to the nominal value. Thus, the functions of stabilizing the output voltage and replacing the faulty cells 1 are mixed in one device. For normal disconnection of faulty cells from the nitapi circuit, they are connected through fuses. The converter fully maintains operation when the k-cells fail. Subsequent failures of the cells narrow the allowable range of input voltage or the stabilization error increases with the previous range. If all cells fail, the load is turned on to the input voltage, i.e. Q. does not remain without power supply, which is very important for some cases. If we consider the failure of the adjustable converter to fail the k-backup cells, then its probability of failure-free operation (the main unreliable circuit element) is determined by the formula (0 2 cn +, Pi (о "- -Ч1-РМ where P (t) is the regulatory work; Pi (t) is the failure-free operation of the booster cell. Calculations show that even with unreliable cells .Р (/) can reach a very high value with relatively small k (, 2). Overall design power n regulatory authority is determined by the maximum value By varying the load current, the range of input voltage variation and the required number of backup cells k .: r,, n.maxS and inmin.min) (+) P - I, and ALMOST does not depend on the number of main cells. Formula of constant voltage regulator containing a regulator consisting of n main and k standby booster cells, each of which contains an output transformer, but the input is connected to a control device connected to the output of the stabilizer, the output rectifier and the filter, characterized in that goal of hope NOSTA, magnetic tranformatorov all cells covered obotkoy general, the average output of which is connected with a clamp Khodnev and extreme conclusions through iody rectifier connected to the output Agim. Information sources accepted in the examination: 1 Aut. St. No. 148116, cl. G 05f 1/56, 1960. 2 Ed. St. No. 29130, cl. G 05f 1/14, 1969.