RU210555U1 - Adjustable DC Voltage Stabilizer - Google Patents

Abstract

The utility model relates to the field of electrical devices and can be used to stabilize the DC voltage in various secondary power sources. Achievable technical result of the proposed solution is to achieve the ability to stabilize the voltage and reduce the level of ripple in a wide range of output voltages by jointly adjusting the values of the reference voltage and the level of the deviation signal of the output voltage. To achieve the specified technical result, the adjustable DC voltage stabilizer contains a regulating element (1), a control device (2), a controlled reference voltage source (3), a first adjustable voltage divider (4), a second adjustable voltage divider (5). 3 w.p. f-ly, 1 ill.

Description

The utility model relates to the field of electrical devices and can be used to stabilize the DC voltage in various secondary power sources.

Known "Voltage Stabilizer" [RU 138547, published 03/20/2014, IPC G05F 1/00 (2006.01)]. The voltage stabilizer contains a power transformer, a rectifier with a filter, a measuring element, a control device, a rectifier bridge, a control element based on an n-p-n-type bipolar transistor, a control transformer, the primary winding of which is connected to the alternating current network through the primary winding of the power transformer. The secondary winding of the power transformer is connected to the input of the rectifier with a filter, its output is connected to the output of the voltage stabilizer and to the input of the measuring element, the output of which is connected through the control device to the input of the regulating element on an n-p-n-type bipolar transistor. In the diagonal of the bridge rectifier, in series with the control element on an n-p-n-type bipolar transistor, a current limiter is additionally introduced, implemented on the basis of an N-channel MOS transistor, the output of which is connected to the collector of the transistor of the n-p-n-type control element.

The disadvantage of this device is its complexity due to the presence of transformers and a large number of elements.

The closest in technical essence is the "Compensation Voltage Stabilizer" [RU 112786, published on January 20, 2012, IPC G05F 1/00 (2006.01)]. The compensation voltage regulator contains a regulating element, a differential amplifier, a voltage divider, a reference voltage source and an additional amplifier. The output of the control element is connected to the input of the voltage divider and the input of the reference voltage source, the output of the voltage divider is connected to the first input of the differential amplifier, the output of the reference voltage source is connected to the second input of the differential amplifier, the second input of the control element is connected to the first output of the differential amplifier. The first input of the additional amplifier is connected to the first input of the regulating element, the second input of the additional amplifier is connected to the second output of the differential amplifier, the output of the additional amplifier is connected to the second input of the regulating element.

The disadvantage of this device is a small range of output voltages and, accordingly, powers, which requires the selection of the element base of the circuit for each specific load.

The technical result of the proposed utility model is to achieve the ability to stabilize the voltage and reduce the level of ripple in a wide range of output voltages for different loads, by jointly adjusting the values of the reference voltage and the level of the output voltage deviation signal.

The essence of the proposed adjustable DC voltage stabilizer is that it contains a control element, the first voltage divider, a reference voltage source. The first input of the regulating element is an external input of an adjustable DC voltage stabilizer, and the output of the regulating element is an external output of an adjustable DC voltage stabilizer, the input of the first voltage divider is connected to the output of the regulating element.

What is new in the proposed solution is that the first voltage divider is adjustable, the reference voltage source is controlled, in addition, a control device and a second adjustable voltage divider are additionally introduced. The first output of the first adjustable voltage divider is connected to the first input of the control device, the second output of the first adjustable voltage divider is connected to the input of the second adjustable voltage divider and the second input of the control device, the second output of the second adjustable voltage divider and the second input of the controlled reference voltage source are connected to a common output . The first output of the second adjustable voltage divider is connected to the first input of the controlled reference voltage source, the output of which is connected to the second input of the control device, and the output of the control device is connected to the second input of the control element. The first adjustable voltage divider is made of three resistors connected in series, one of which is a trimmer. The second adjustable voltage divider is made of three resistors connected in series, one of which is a trimmer. The control element is made in the form of a field effect transistor.

The figure shows a structural diagram of an adjustable DC voltage stabilizer.

The adjustable DC voltage stabilizer contains a regulating element (1), a control device (2), a controlled reference voltage source (3), the first adjustable voltage divider (4), consisting of three series-connected resistors (6), (7), (8) , the second adjustable voltage divider (5), consisting of three series-connected resistors (9), (10), (11). Resistors (7), (10) placed between two resistors (6), (8) and (9), (10), respectively, are tuned.

The first input of the regulating element (1) is the external input of the adjustable DC voltage stabilizer, and the output of the regulating element (1) is the external output of the adjustable DC voltage stabilizer. The input of the first adjustable voltage divider (4) is connected to the output of the regulating element (1). The first output of the first adjustable voltage divider (4) is connected to the first input of the control device (2), the second output of the first adjustable voltage divider (4) is connected to the input of the second adjustable voltage divider (5) and the second input of the control device (2). The first output of the second adjustable voltage divider (5) is connected to the first input of the controlled reference voltage source (3), and the second output of the second adjustable voltage divider (5) and the second input of the controlled reference voltage source (3) are connected to a common output. The output of the controlled reference voltage source (3) is connected to the second input of the control device (2). The output of the control device (2) is connected to the second input of the regulating element (1).

The first adjustable voltage divider (4) is made of three resistors (6), (7), (8) connected in series. The first output of the resistor (6) is the input of the first adjustable voltage divider (4), the third output (control contact) of the tuning resistor (7) is the first output of the first adjustable voltage divider (4), and the second output of the resistor (8) is the second output of the first adjustable voltage divider (4). The second adjustable voltage divider (5) is made of three resistors (9), (10), (11) connected in series. The first output of the resistor (9) is the input of the second adjustable voltage divider (5), the third output (control contact) of the tuning resistor (10) is the first output of the second adjustable voltage divider (5), and the second output of the resistor (11) is the second output of the second adjustable voltage divider (5).

Adjustable DC voltage stabilizer works as follows.

The input of an adjustable DC voltage stabilizer is connected to the positive output of a DC voltage source, for example, to the positive output of an AC-to-DC converter, and the positive input of a load, for example, a power amplifier, is connected to the output of the stabilizer.

The input voltage is supplied to the first input of the regulating element (1), made, for example, in the form of a field-effect transistor 2PE210V1, connected according to the common gate circuit. From the output of the regulating element (1), voltage is supplied to the load and to the first adjustable voltage divider (4), made, for example, of three resistors (6), (7), (8) connected in series, and the resistor (7) is made trimmer. From the second output of the first adjustable voltage divider (4), the voltage is supplied to the input of the second adjustable voltage divider (5), made, for example, of three resistors (9), (10), (11) connected in series, and the resistor (10) is made trimmer . The connection point of the first and second adjustable voltage dividers (4), (5), connected to the second input of the control device (2) provides a common point with a potential different from the potential of the common output, relative to which the control device (2) and the first adjustable voltage divider ( 4). The connection point of the negative output of the converter and the negative input of the load is taken as a common output. The second adjustable voltage divider (5) generates a control signal, which is fed from its first output to the first input of the controlled reference voltage source (3). The controlled reference voltage source (3) can be made on the basis of the 142EN3 microcircuit, the functionality of which makes it possible to form an output reference voltage based on the level of the input control signal. The value of the control signal is regulated by changing the division ratio of the second adjustable voltage divider (5) by adjusting the resistor (10). In this case, the resistance of the divider arms (5) changes as follows: from R9 of the upper arm and R10 + R11 of the lower arm, to R9 + R10 and R11, respectively, where R9, R10, R11 is the resistance value of resistors (9), (10), (11 ). And thus, the required level of the output voltage of the controlled reference voltage source (3) is set for a specific load.

After adjusting the second adjustable voltage divider (5), an operating point is formed at the output of the controlled reference voltage source (3), which has a potential. Relative to this point, the first adjustable voltage divider (4) is adjusted. The voltage from the first output of the first voltage divider (4) sets the level of the output voltage deviation signal from the required value, caused by ripples and other input voltage instabilities. The level of the deviation signal is selected by changing the division ratio of the first adjustable voltage divider (4) by adjusting the resistor (7). In this case, the resistance of the divider arms (4) changes as follows: from R6 of the upper arm and R7 + R8 of the lower arm, to R6 + R7 and R8, respectively, where R6, R7, R8 is the resistance value of resistors (6), (7), (8 ).

Further, during the operation of the stabilizer, the control device (2) compares the voltage levels supplied to its first and second inputs and, depending on the mismatch, generates an output voltage supplied to the second input of the regulating element (1) and shifts its operating point. The control device (2) can be made, for example, on a 142EP3U chip. So, when the voltage decreases below the permissible limit at the output of the regulating element (1) and at the output of the first adjustable voltage divider (4), respectively, the control device (2) increases the voltage level at the second input of the regulating element (1) and the regulating element (1) restores the level stabilizer output voltage. When the control element (1) is made in the form of a field-effect transistor, an increase in the voltage at its gate shifts its operating point, the transistor opens slightly and restores the output voltage level. When the output voltage of the stabilizer increases, the control device (2) shifts the operating point in the opposite direction, and the transistor reduces the output voltage.

Thus, an adjustable DC voltage stabilizer stabilizes the voltage and reduces the level of ripple in a wide range of output voltages, which makes it possible to use this stabilizer for a wide range of loads without changing the circuit elements, but only by changing the division coefficients of the first and second adjustable voltage dividers (4), ( 5).

Claims (4)

1. An adjustable DC voltage stabilizer, containing a regulating element, a first voltage divider, a reference voltage source, the first input of the regulating element is an external input of an adjustable DC voltage stabilizer, and the output of the regulating element is an external output of an adjustable DC voltage stabilizer, the input of the first voltage divider is connected to control element output, characterized in that the first voltage divider is adjustable, the reference voltage source is controlled, in addition, a control device, a second adjustable voltage divider are additionally introduced, the first output of the first adjustable voltage divider is connected to the first input of the control device, the second the output of the first adjustable voltage divider is connected to the input of the second adjustable voltage divider and the second input of the control device, the second output of the second adjustable voltage divider and the second input of the controlled reference voltage source are connected to a common terminal, the first output of the second adjustable voltage divider is connected to the first input of the controlled reference voltage source, the output of which is connected to the second input of the control device, and the output of the control device is connected to the second input of the regulating element. 2. Adjustable DC voltage stabilizer according to claim 1, characterized in that the first adjustable voltage divider is made of three series-connected resistors, one of which is made trimmer. 3. Adjustable DC voltage stabilizer according to claim 1, characterized in that the second adjustable voltage divider is made of three resistors connected in series, one of which is tuned. 4. Adjustable DC voltage stabilizer according to claim 1, characterized in that the control element is made in the form of a field effect transistor.

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