SU1056172A1 - Stabilized power source - Google Patents

Description

The invention relates to electrical engineering and is intended for use in the implementation of secondary power supply systems of direct current with increased output voltages and their deep adjustment. A stabilized power supply is known that contains a mains transformer, the secondary winding of which is connected to the input of the rectifier and multiply unit, a feedback loop with a regulating element made in the form of a controlled AC switch, introduced into the primary winding circuit of the network transformer and consisting of diode bridge, in one of the diagonals of which a bipolar transistor l is connected. The disadvantages of this device are associated with significant design complexity and considerable size, mainly due to the need to calculate the AC key for the full voltage, and taking into account possible emissions, the closest to the invention is a stabilized power source containing a network and volts additional transformers, the secondary power windings of which are connected in series and connected to the rectifier input, the filter, the input of which is connected to the rectifier output, the circuit with a regulating element connected between the auxiliary secondary winding, the mains primary winding of the booster transformers and the made one; in the form of an inverter 2j controlled by the output voltage. The disadvantages of the known device are structural complexity as the controlled inverter must consist of at least two transistors, and low operational reliability, limited, in particular, by the presence of mechanical phase switches in the inverter control circuits. In practical application of the known device, there are certain difficulties in increasing its output voltage. The purpose of the invention is to simplify the design of the power supply and increase its reliability in operation. The goal is achieved by the fact that in a stabilized power source containing a network and booster transformers, the power secondary windings of which are connected in series and connected to the rectifier input, the filter whose input is connected to the output of the rectifier bodies, the feedback loop is connected between the auxiliary secondary winding of the mains and the primary winding of booster transformers, the regulating element is designed as an AC controlled switch. In addition, the AC switch consists of a diode bridge and a field-effect transistor, switched on by the drain-source transition to one of its diagonals. The drawing shows a functional diagram of the proposed stabilized power source. The device contains a mains 1 and booster 2 transformer, the power secondary windings of which are connected in series and connected to the input of the rectifier 3. The output node of the source is a capacitor filter 4, the input of which is connected to the output of the rectifier 3. The feedback loop is composed of series-connected resistive a divider- 5 output voltage of the source, an error signal amplifier b and an AC controlled switch connected between the auxiliary secondary winding of the network 1 and the primary coil booster transformer 2 and consisting of a diode bridge 7 and a field-effect transistor 8 connected by a drain-source junction to one of the diagonals of bridge 7 and shunted by a protective zener diode 9. The power supply and the reference voltage for the error signal amplifier 6 are generated by additional rectifier 10, the input of which is connected to another auxiliary secondary winding of the network transformer 1, stabilizer 11, the input of which is connected to the output of rectifier 10, as well as installed at the output of the stabilizer 11, the capacitor filter 12 and the resistive divider 13 (14) voltage. The device works as follows. The voltage at the terminals of the secondary power (in the particular case of high voltage) windings of the mains transformer 1, when folded with the voltage at the terminals of the power secondary winding of the booster transformer 2, is rectified by rectifier 3, smoothed by the filter 4 and is supplied to the source load (not shown). The output voltage level is stabilized by comparing the part of the output voltage taken from divider 5 with the reference voltage produced by divider 13 (14), amplifying the error signal of the amplifier b and controlling the amplified signal by the field-effect transistor 8. The feature of the proposed power source is in the booster transformer 2 with deep regulation. If you need a sni: lower output voltage from the maximum value to the minimum, it is required, as is well known, to reduce the current in the transistor 8. This leads to a decrease in the current in the primary winding of the transformer 2, which, in turn, would lead to a decrease in the voltage its secondary winding, and at the source of the source of the transistor 8, is equal to zero. However, in this case, when the current through the transistor 8 disappears, the voltage on the secondary winding of the transformer 2 turns out to be almost maximum, but is reversed in phase by about 180 relative to its initial angular position. In other words, the secondary voltage of the booster transformer 2, when the current of the primary winding changes from maximum to zero, changes from maximum to zero (at some non-zero value of primary current) and then increases to almost the maximum value, but with a phase rotation of 180 This is due to the fact that at currents in the primary coupling of the transformer 2, close to the zero value, the latter begins to work as a variable in magnitude inductance. As the primary current decreases, the inductance begins to increase, which accordingly leads to an increase in the voltage drop across the secondary winding of the booster transformer 2 and the rotation of the voltage vector relative to the voltage on the power secondary winding of the mains transformer 1. Consequently, using the secondary winding of the booster transformer 2 as a variable inductance, it is possible to obtain a double voltage regulation. The Zener diode 9 protects the field-effect transistor 8 from overvoltages that occur on the secondary winding of the booster transformer 2 during non-stationary processes. Thus, along with - with a simplified construction, proposed is stable. The lysed power supply is also characterized by increased operational reliability. The reduction in the required control power achieved with the invention makes it possible to reduce control losses and increase the overall efficiency of the source.

Claims (2)

1. STABILIZED POWER SUPPLY, containing network and voltage transformers, the power secondary windings of which are connected in series and connected to the input of the rectifier, the filter, the input of which is connected to the output of the rectifier, a feedback loop with a control element connected between the auxiliary secondary winding of the network and primary winding. booster transformers, characterized in that, in order to simplify and improve reliability in operation, the control element is made in the form of a controlled key AC line current. 2. The stabilized source on π. 1, with the fact that the AC key consists of a diode bridge and a field transistor connected by the drain - source transition to one of its diagonal’s. ®