SU741389A1 - Ac voltage regulator - Google Patents

Description

one

The invention relates to electrodes. It can be used in electrical equipment in electrical installations to test the electrical strength of the insulation.

A device is known in which a smooth change in the test voltage is produced by a saturation choke, including in series with the load Co.

However, this device has significant dimensions — and weight, low efficiency, and a distorted output voltage.

Closest to the invention in its technical essence is a device that contains two devices in series with a load transistor; The collectors of which are connected to the input pins, and the emitters to the output pins, are two strong diodes connected in parallel to the control transitions of the transistors in the reverse C2J.

A disadvantage of the known regulator is the presence of a control transformer and a special source for controlling the voltage on the load, which complicates the circuit and reduces the efficiency.

The purpose of the invention is to increase the efficiency of the device and simplify it.

This goal is achieved by the fact that in the regulator of alternating voltage, there are two transistors, the collectors of which are connected to the input terminals, and the emitters to the terminals for connecting the load, and the control transitions are bridged by diodes connected in the opposite direction,

15 base of each transistor through a limiting resistor, a metering capacitor and a bias resistor, parallel to which through a normally closed contract three-pole switch

Claims (2)

20 is connected to the time of the master resistor, connected to the collector of its transistor and through a rectifying diode and a storage capacitor, shunted. 374 {by a resistor and a limiting diode connected in the opposite direction to the collector of another transistor, which in turn is connected to the common point of the indicated limiting resistor and the posing capacitor through the charging diode, and the common connection point of the indicated storage capacitor and rectifying diode is through These diodes and resistors are connected to normally open switch contacts, the middle pole of which is connected to the corresponding input terminal. FIG. 1 is a schematic diagram of the device; in fig. 2 - stress diagrams for the slave. The device contains input pins 1 and 2 and output pins 3 and 4 for connecting load 5, between which transistors 6 and 7 are connected, the control transitions of which are bridged by diodes 8 and 9. Accordingly, the bases of each of the transistors through limiting resistors 10 and 11 metering capacitors 12 and 13 and bias resistors 14 and 15, which in parallel are connected via the opening contacts of switches 16 and 17, the time setting resistors 18 and 19 are connected to the collectors of their transistor and through rectifying diodes 20 and 21 and accumulative capacitors 22 and 23, shunted by diodes 24 and 25 and resistors 26 and 27, are connected to collectors of other transistors, which are connected to limiting resistors and metering capacitors 12 and 13 through charging diodes 28 and 29, and the points of the rectifying diodes 20 and 21 and storage capacitors 22 and 23 through the discharge diodes 30 and 31 and the resistors 32 and 33 are connected to the contacts of the switches 16 and 17, the middle plus of which is connected to the input terminals 1 and 2. The device operates as follows. ftycTb at the position of the switches indicated in FIG. 1, a variable supply voltage U. (Fig. 2a) is applied to the input of the device, and c. The first moment of a positive half-wave is applied to pin 1. A storage capacitor .22 is charged in this half-period through the circuit pin 1 - resistors 14 and 18 connected in parallel, capacitor 12, resistor 10, diode 20 - capacitor 22 pin 2. Since load 5 is on in the emitter-follower circuit on the transistor 6, and the transistor 7 is positively open at the expense of the collector-base circuit 7, the diode, then the voltage across the load (J (Fig. 2c) is positive half-periods in the time interval when U is repetition et .time and y |, and when UU is an ohtor em C.2 g t- ® voltage U and the load follows the law U, -U, with Uc27 -l U.LL the charge of the capacitor 22 is shown on ng 26, for a period of time - t., the length of this segment depends on The constant time of the circuit is the capacitance of the capacitor 22; R is the resistance of the resistors 10, 14 and 18. Respectively, in the negative semi-voltage of the voltage and between points 1 and 2, the transistor 6 is fully opened by the current in the circuit diode 8 - base-to-collector junction 6. The diode 20 is closed by reverse voltage, the capacitor 22 retains its charge, since the resistance of the resistor 26 is selected Significantly more resistance (Capacitor 12 is recharged in polarity, shown in FIG. 1 along the output circuit 2 — diode 28 — capacitor 12 parallel connection of resistors 14 and 18 — pin 1. In the same half-period, the capacitor 23 is charged and the voltage of the negative half-wave voltage U is applied to the load by analogy with the described capacitor charge 22 and the formation of a positive half-wave voltage U. In the next half-period, the charge of the capacitor 22 is already carried out by the total voltage on the capacitor 12 and the amplitude value of the voltage and. The capacitor 22 at each period is recharged to an ever-increasing value, and after a time t o) determined by the circuit parameters, the voltage across it will be greater than the maximum amplitude value of the voltage Uj, J the transistor 6 will fully open at a positive half-wave voltage and voltage at the output U in amplitude (minus the voltage drop across the transistor in the saturated mode) and - the input voltage U is repeated in form; . Similar processes occur in the other side of the circuit (transistor 7, capacitors 23 and 13) with a negative voltage half-wave. If the switches 16 and 17 are transferred to a second position at some Time t, then the capacitor 22 during the negative half-wave is recharged along the circuit of the display 2 - the capacitor 22, the diode 30 "resistor 32 - output 1. The discharge passes with a constant time . which is chosen such that the decay time. - 2 would correspond to the required value. During a positive half-wave, the amplitude of the voltage U at the emitters of the transistors does not exceed the voltage that occurred on capacitor C by the end of the negative half-wave and is maintained at this level by the bias current flowing through the circuit pin 1 resistor 14 - capacitor 12 - resistor 1O is the base of the transistor 6. To obtain long-term rise and fall times, the high-capacity storage capacitors, mainly polar electrolytic, are used. To protect it against reverse voltage, limiting diodes 24 and 25 are installed. Composite transistors are used to reduce the power dissipated in the control circuit. The AC voltage regulator allows for fairly simple control (two switching groups of contacts) to carry out a smooth rise and descent of the alternating voltage on the load. Claims An alternating voltage regulator containing two transistors, whose collectors are connected to the input terminals, emitters to the terminals for connecting the load, and the control transitions are bounded by diodes connected in the opposite direction, so as to simplify and increase efficiency , the base of each transistor through the limiting resistor, the dosing capacitor and the bias resistor. parallel to which, via a normally closed contact of a three-pole switch, the pinned time is a master resistor, connected to the collector of its transistor and through a rectifying diode and a storage capacitor, which is connected by a resistor and a limiting diode connected in the opposite direction, to the collector of another transistor, which in turn The charge diode is connected to the connection point of the indicated limiting resistor and the metering capacitor, and the connection points of the indicated storage capacitor capacitor and rectifying diode through the discharge diode and resistor are connected to the normally open contacts of the corresponding switch, the middle poles of which are connected to the corresponding input pins. Sources of information taken into account during the examination 1. USSR author's certificate M 469938, cl. G O1R 31/14, 1974. 2. USSR author's certificate hfb 49575О, cl. H 02 M 5/12, 1975. l jjf /