SU1504645A1 - Secondar power source - Google Patents

Abstract

The invention relates to electrical engineering and can be used to power devices containing Schottky barrier field effect transistors. The purpose of the invention is to provide a certain sequence of supply and discharge of the supply voltage of negative and positive polarity to the inputs of the consumer, as well as his protection in case of emergency disconnection of the input voltage of negative polarity. To achieve the goal, a divider 6 of the input voltage, a zener diode 8, an integrating element 9, a protection transistor 5, a second input 10 and a second output 12 terminals are introduced into the device. When the supply voltage is supplied to the positive polarity, the transistor 5 opens and shunts the input of the regulating transistor 1 until a negative polarity appears at the output of the integrating element 9. When the negative polarity of the input voltage drops, the voltage across the collector of transistor 2 decreases gradually and when it reaches the threshold value, transistor 5 opens, and transistor 1 closes, and the voltage at the positive-polarity power supply does not flow. 2 Il.

Description

3150

The invention relates to electrical engineering and can be used to power devices containing Schottky barrier field effect transistors.

The purpose of the invention is to provide a certain sequence of supply and discharge of the supply voltages of negative and positive polarity at the input of the consumer, as well as his manager during emergency shutdown of the input voltage of negative polarity.

FIG. 1 is a schematic of a secondary power source; in FIG. 2, time diagrams of operation.

The device contains a control-transistor 1, the base of which is connected to the collector of transistor 2 of the feedback amplifier, the base of which is connected to the middle of the transistor.

the output voltage divider 3, the reference voltage source 4 is connected to the emitter of the transistor 2 feedback amplifier, the protection transistor 5 connected to the middle terminal of the input voltage divider 6, and the collector through the resistor 7 to the first extreme terminal

input voltage divider 6, v „„

The swarms, the outermost terminal of which is connected via the Zener diode 8 to the output of the integrating element 9, the first input terminal 10, the second input terminal 11, the first output terminal 12 and the second output terminal 13 "

The device works as follows.

If, when it is turned on, the power supply is first supplied to the input of the negative polarity of the source, and then to the power input of the positive polarity of the source, then the voltage supply sequence required for reliable operation of the consumer, for example, a Schottky barrier transistor. The power supply output of the positive polarity of the source and the power supply output of the negative polarity of the source are performed automatically. If, when the secondary power supply is turned off, the removal of the input supply voltages occurs in the opposite of the switching sequence, then the sequence of voltage removal from the outputs of the secondary power supply is also automatic, if the supply voltage is switched off when the secondary power supply is turned on

its inputs are simultaneously supplied with the sludge first being supplied to the power input of the positive polarity of the source and then to the power supply input of the negative polarity of the source, then the secondary power supply provides the necessary power for reliable operation (is the sequence of voltage supply to the outputs of the secondary power supply ( i.e., voltage is first applied to the power supply output of the negative polarity of the source, and then to the power supply output of the positive polarity of the source).

When applying a voltage to the power supply input of the positive polarity of the source (Fig. 2), it enters the base of the protection transistor 5, opening it. At the same time, the base of the regulating transistor 1 is shunted and it is in a bridging state, preventing the supply of voltage from the power input of the positive polarity of the source to the power supply output of the positive polarity of the source. When voltage is applied to the input power of the negative polarity of the source, it enters the input of the integrating element 9, at the output of which the voltage gradually increases with time (for example, according to the exponential law). As long as the magnitude of this voltage is insufficient to open the Zener diode 8, the current does not flow through it, the protection transistor 5 is open, the transistor 1 is closed, and the voltage to the power supply output of the positive polarity of the source does not flow. When the voltage at the output of the integrating element 9 reaches 2 times the threshold voltage (Unop) at which current appears through the input voltage divider 6, the voltage at the base of the protection transistor 5 decreases and it closes, and the transistor 1 opens and the voltage enters the power output of the positive polarity of the source.

The magnitude of this voltage is stabilized by a circuit containing a transistor 1, a transistor 2, a voltage divider 3, a resistor 7, and a voltage source 4. The integrating element 9 also performs the functions of a low-pass filter applied to the voltage supply of the negative polarity of the source. When turning off the secondary power source

the supply voltages are removed simultaneously or first the voltage is removed from the power supply input of the negative polarity of the source, and then from the power supply input of the positive polarity of the source, as well as in case of emergency disconnection of the voltage from the power supply input of the negative polarity of the source for reliable operation of the consumer, the sequence of disconnecting the voltages from the outputs of the power supply of the source (i.e., the voltage from the power supply positive voltage code is first disconnected and then output from the negative polarity power supply).

When the voltage is disconnected from the input power of the negative polarity of the source, the voltage at the output of transistor 2 of the feedback amplifier decreases gradually with time. When it reaches the threshold value (Ufiop), transistor 2 is open, S. transistor 1 is closed and the voltage to the positive output of the source is not supplied. Since the time constant of the switching circuit of transistor 1 is substantially less than the time constant of the integrating element, and during the switching time of the transistor 1, the voltage at the power output of the negative polarity

On the basis of voltage stabilization, the voltage should be chosen as high as possible.

The time constant of the integrating element 9 determines the time delay for switching on and off of the voltage of the power output of the positive polarity of the source.

Claims (1)

Invention Formula The secondary power source, containing the first input and output terminals, controls the transistor connected by power leads between the first input and output terminals, and the base to the collector of the transistor feedback amplifier, the emitter of which is connected to the common bus through a voltage source base - to the middle output of the output voltage divider. The extreme outputs of which are connected to the first output terminal and the common bus, a resistor connected between the base of the control transistor and the first input terminal, is different in that in order to provide a certain priority filing and deprotection supply voltages of positive and negative polarities on consumer input and providing protection during emergency shutdown input voltage nega These secondary sources of food are of a practical, f polar polarity; It does not change. In the event of an emergency shutdown of the negative polarity input voltage, the secondary power source operates in a similar way. The magnitude of the threshold voltage is determined by the voltage divider 6. The selection of the voltage to stabilize the Zener diode is carried out 40 second input and output terminals, an integrating element, an input voltage divider and a zener diode, the first input of the integrating element is connected to the second input terminal, the second input is connected to the common bus, and the output to the second output the terminal, the input voltage divider is connected to the coarse by the first extreme voltage, and the selection of the ratio of 45 45 {a shervoy input terminal, the second extreme of the divider 6 resistors by output through the zener diode f to the output - precise adjustment of the integrated element, and the medium threshold The output of the switch is to the base of the switching speed transistor, which emitter is connected to the voltage supply of the positive output power of the bus, and the collector is connected to the base of the polarity of the switching source transistor. second input and output terminals, an integrating element, an input voltage divider and a zener diode, the first input of the integrating element is connected to the second input terminal, the second input is connected to the common bus, and the output to the second output %; r I one