SU1575160A1 - Electric source of power with protection from overload - Google Patents

Abstract

The invention relates to electrical engineering and can be used in sources of secondary power supply of electronic equipment. The goal is to increase efficiency, reliability and temperature stability. The device contains a regulating element 1, a measuring and amplifying unit 2, an overload protection unit consisting of a DC amplifier 3 and a controlled current source 4 with a control signal source. Connecting the source of the control signal to the output of the device, the output circuit of the controlled current source to the power flow circuit directly or through the matching node with pulse regulation, and the control input of the amplifier 3 parallel to the output circuit of the controlled current source allows obtaining a higher efficiency due to reducing the power loss in the current sensor, increase reliability by simplifying the protection circuit and temperature stability of the overload protection threshold due to the large slope Signals in the output circuit of a controlled current source when it goes from saturation mode to amplification mode at the time of overload. 3 hp ff, 4 ill.

Description

The invention relates to electrical engineering and can be used in sources of secondary power supply of electronic equipment.

The purpose of the invention is to increase efficiency, reliability and temperature stability.

FIG. Figure 1 shows the functional diagram of the device, Figure 2 shows the electrical diagram of the device when the controlled current source and the control signal source are executed in the form of a current mirror circuit; in fig. 3 - the same, with pulse control when the output circuit of the controlled current source is switched on in the current flow circuit through the current transformer, FIG. 4 - the same $ when performing a controlled current source and a control signal source on a resistor and a diode.

The device (Fig. 1) contains the regulating element 1 connected to the flow circuit of the power current, the control input of which is connected to the output of the measuring and amplifying node 2, the input connected to the output terminals for connecting the load, the overload protection node 3 and a controlled current source with a control signal source. Moreover, the output circuit of the controlled current source is included in the current flow circuit of the regulating element 1, and the input control circuit through the source pack Aulus actuating signal is connected to the output terminals directly, or via a current sensor. The output of the amplifier 3 is connected to the control input of the regulating element 1, and the input is connected in parallel to the output of the controlled current source G

In Fig.2, the regulating element and the amplifier are made on transistors 1 and 3, respectively, the controlled current source and the control signal source are combined and made in the form of a current mirror circuit on the input transistor 41G, the input transistor g and the resistor 4 j.

On. FIG. 3, the power supply is pulse controlled. The control transistor 1 is connected to the primary circuit of the power transformer 5, the secondary winding of which is connected to the output terminals through the rectifying and filtering circuit 6.

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The output circuit of the controlled current source is connected to the current flow circuit of the regulating element for 1 hour, the current transformer 7, and the diode 8 is turned off.

FIG. C device according to FIG. 3 contains a complement of the output terminal with the opposite voltage, to which the combined circuit of the current source and the control signal source, connected to the series-connected resistor 43 and diode Lg, is connected.

The power source is slave as follows.

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provide a stabilized voltage at the output. As long as the nag current is less than the current to which you tune the controlled current source, the voltage at the output of the controlled current source is not enough to pass the amplifier 3 from the closed state to the gain mode. As soon as the load resistance in the monitored circuit decreases, the preset value of the controlled current source begins to increase, the voltage across it increases, which transfers amplifier 3 to the amplification mode, the result will be a decrease in the regulating element and therefore the current in the output circuit. Further reduction of the load resistance will decrease the output voltage of the control signal source, which will reduce the output current of the controlled current source and, consequently, the output current of the device.

As a result, the output load characteristic has a knee image.

The operation of the devices of FIG. 2 is similar.

When performing a controlled nick current and a source of control signal according to the current mirror circuit, the transition areas of the transistors r are chosen to provide a small input control current.

The introduction of the transformer 7 then diode 8 into the power supply source

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Claims (4)

Claim 1. Power supply with protection against overload, containing a control element in the circuit of the current flow, the control input of which is connected to the output of the measuring and amplifying unit, the input of which is connected to the output terminals of the overcurrent protection unit, consisting of a constant amplifier output connected to the control input of the regulating element, from the current sensor in the circuit for the flow of power current, from the source of the control signal, the input connected to the output terminals, characterized in that, for the purpose increase the reliability efficiency, temperature stability, the current sensor is made in the form of a controlled current source, the output power circuit of which is included in the current flow circuit, the input control circuit 20 is connected to the output of the control signal source, and the control input of the DC amplifier is connected in parallel with the output of the controlled current source. 25 2. Power supply by p. 1, characterized in that when pulsed control of the regulatory element, the output of the controlled current source is included in the circuit 30 the passage of the power pulse current through the introduced current transformer and a rectifying diode. 3. The power supply according to paragraphs. 1 and 2, characterized 35 in that the controlled current source and the source of the control signal are combined and implemented in. in the form of a current mirror circuit. 4. Power supply at d0 tin. 1 and 2, characterized in that the controlled source of current and the source of the control signal are combined and made on a series-connected resistor and diode, 45 connected to an additional output terminal opposite in polarity. Phi a 2