SU943684A1 - Protected dc voltage power supply source - Google Patents

Description

(5Y POWER SUPPLY CONSTANT VOLTAGE WITH PROTECTION

Claims (3)

The invention relates to electrical engineering, in particular to stabilized voltage converters, and can be used in power sources of computer aids and electronic equipment. A device is known that excludes current spikes in power transistors and an overvoltage at the output of the converter when the power is turned on. The disadvantage of this device is the transfer of the power transistors from the key to the linear mode when the power is turned on, which will decrease the reliability of the power source. A DC switching voltage regulator is known which is provided with an additional capacitor connected in parallel with the Zener diode of the voltage source 2. The disadvantage of this device is that when the power is turned on until the voltage appears at the output of the power source, the power transistors are completely open and they have current collector spikes. The closest in technical essence to the invention is a power supply with protection against interruption. and voltage drop, which contains a voltage converter connected between the input and output terminals, with a control unit including a master oscillator, a feedback amplifier, a pulseless modulator, as well as a switch-on control unit, made on an optocoupler Key connected to output terminals, connected by outputs to the corresponding output of the control unit, the nodes are protected from decreasing and output voltage voltage, made on the key elements, and included in the two-phase output circuits gaining on molecular sources stable voltage common bus associated with the negative output terminal 31Nedostatkami known ustroyst wa are circuit complexity and the presence of shots when the source object of the invention is to increase reliability by eliminating the overvoltages at the output. The goal is achieved by introducing a transistor into the power supply with protection in the power supply circuit of the feedback amplifier, a collector connected to the output of a stable positive voltage source, an emitter to the power supply circuit of the feedback amplifier, and the base through the input of the first resistor the input of the source of a stable voltage of positive polarity and through the successively connected second resistor and capacitor - with the output of the source, a stable voltage of negative polarity, protection nodes Reduction and increase of the output voltage are made on two transistors of different types of conductivity and two limiting resistors, and the divider of the reference for voltage of the undervoltage protection unit, consisting of two series-connected resistors, is connected parallel to the input of the feedback amplifier on the power supply circuit. The midpoint of the divider of the reference voltage is connected to the cathode of the inserted diode and the emitter of the pnp transistor of the undervoltage protection node oj, the base of which is through the first limiting resistor oedinena positive output terminal of the diode anode connected to the negative output terminal and whose emitter is an n-p-ptranzistora ny through the second restrictor resistor connected to the input node disconnecting inputted pulse-width modulator output is connected to the control input of the latter. The drawing shows a diagram of the proposed device. The device contains an input rectifier with a filter 1, a voltage converter 2, a control unit, which includes the master oscillator 3, a feedback amplifier, and a latitude 14 but a pulse modulator 5 | switch-on control unit 6, overvoltage protection 7 and drop-down 8 output voltage, cut-off unit of a pulse-width modulator E, inserted transistor 10, stable voltage sources negative 11 and positive 12 polarities, obtained respectively from unstable voltage sources 13 and 1, a chain consisting of series-inserted first 15 and second 16 resistors and a capacitor 17. The undervoltage protection circuit consists of a voltage divider 18, a pn-transistor 19 transistor, a transistor 20 pp-conduction diode 21 and limiting resistors 22 and 23. The device operates as follows. When the input AC voltage is applied, the master oscillator 3 is turned on and provides at its output an unstable voltage of negative 13 and positive C polarity. At the first instant of time, the capacitor 17 is discharged at the emitter of the transistor 10. A small negative potential is provided relative to the common wire. This leads to the fact that at the output of the pulse-width modulator 5 there are no pulses and the voltage converter 2 is turned off. As the capacitor 17 is charged from a source of positive H, the potential of the emitter also increases. This leads to the appearance at the output of a pulse width modulator of pulses gradually expanding in duration. The gradual expansion of the pulse duration leads to a smooth start-up of the voltage converter 2 and eliminates its overload. As soon as the output voltage of the power source reaches a predetermined value, it is further maintained within the specified limits by means of a feedback amplifier 4. The switch-on unit 6 provides information to the consumer about the appearance of voltage at the output of the power source. The overvoltage protection node 7 is ready for operation immediately after the occurrence of voltages 13 and I ,, the undervoltage protection node 8 cannot be triggered at the first time, because the reference voltage received from voltage divider 18, turns off for the transistor 19. As the capacitor 17 charges, it rises on the voltage on the divider 18. The voltage on the voltage divider 18 is delayed for some time compared to the output one. This phenomenon is explained by the fact that at half power supply voltage The feedback loop C provides the nominal output voltage, and the undervoltage protection node 8 is prepared for operation only after the capacitor 17 is fully charged. Diode 21 is in the initial state closed. In an emergency situation, in the event of a decrease in the voltage at the output of the power supply, the transistor 19 opens. This leads to the opening of the transistor 20. The current flowing through the transistors 19 and 20 leads to a sharp decrease in the voltage on the emitter of the transistor 19. This leads to the diode 21 being struck, while the voltage divider 18 does not affect the amount of current, transistor 19 and 20 flow. To eliminate the effect on tpaH of the resistor 19, limiting resistors 22 and 23 are used. The overvoltage protection nodes lower and lower the voltage affect the pulse-width modulator disconnecting node, which in turn turns off latitude im ulsny modulator 5 and incorporating a control unit that issues the user information on the availability of the output voltage. Thus, the device allows to eliminate output overvoltage and thereby increase the reliability of the device. Claim 1. A DC power supply with protection comprising a DC voltage converter connected between the input and output terminals, with a control unit including a master oscillator, a feedback amplifier, a pulse-width modulator, and a switch-on control unit, made on the optronic key and connected to the output terminals, connected by outputs to the corresponding output of the control unit, protection, lowering and raising units of the output voltage, made on the key elements and included in Output circuits of two different polarized sources of stable voltage, common bus connected to a negative output terminal, characterized in that, in order to increase reliability by eliminating output overvoltages, a transistor is inserted into the power supply circuit of the feedback amplifier with a collector connected to the output source of a stable voltage positive pole, emitter - with a power supply circuit of the feedback amplifier, and the base through the first resistor introduced - with the input of a stable voltage source of positive polarity and input through series-connected second resistor and a capacitor - a yield stable source voltage of negative polarity. ;. ,,. „.. 2. The power supply according to claim 1, characterized in that, for about 1 simplification, the protection units for reducing and increasing the output voltage are made on two transistors of different conductivity types. And two limiting resistors, and a divider of reference voltage A voltage protection node consisting of two series-connected resistors is connected in parallel to the input of a feedback amplifier along the power supply circuit; the midpoint divides the bodies connected to the cathode of the inserted diode and the emitter of the pnp-transistor of the lower protection node The voltage across the base of the first limiting resistor is connected to the positive output terminal, the diode anode is connected to the negative output terminal, and the emitter of the pnp transistor is connected to the input of the disconnected pulse width modulator node via the second limiting resistor , the output connected to the control input of the latter. Sources of information taken into account during the examination 1. USSR author's certificate No. 680120, cl. H 02 M 3/335, 1979. 2. USSR author's certificate number 535559, cl. G 05 F 1/56, 1977. 3. Authors certificate of the USSR N- 7Sh87, cl. G 05 F 1/58, 1980. hh lift