SU720635A1 - Current supply source - Google Patents

Description

The invention relates to electrical engineering and is intended to power a relay protection device ..

Current power sources used in protective AC power systems are known to maintain a stable output voltage over a wide range of primary current 1 The current power source is also known, containing at least one current transformer and a rectifier connected in series, to the output of which a storage element, an output for connecting the load, and a voltage limiter and a parametric voltage regulator connected in parallel with each other, and Also, the output for connecting power supply circuits and shifting load control circuits. 2.

Due to the large capacity of the smoothing capacitor necessary for providing small ripples, as well as due to the presence of a resistor in the charging circuit of the storage capacitor connected between the negative output of the storage capacitor and the common source C1, the device has a long time to establish voltage on the control circuit power supply . In the steady state mode when charging the sinking capacitor, there is a power loss on the parametric stabilizer resistor. The storage capacitor of the device has a large capacity and, consequently, a significant overall dimensions, and it works in the waiting

mode, giving cumulative energy only when discharged to the coil of an electromagnet.

The aim of the invention is to reduce the voltage setting times of the supply channels of the source load, to increase the efficiency, as well as to improve the overall size and characteristics of the source.

For this, the current source

a controlled nonlinear element is introduced,

Claims (3)

unmanaged nonlinear element and a parallel RC chain, with a controlled nonlinear element connected between the free terminal of the storage element and the common source bus, and its control input is connected to the exact output connection of the output rectifier through the serially connected noncontrolled nonlinear element and RC chain with output for connecting the load and with the storage element and through the first additionally inserted diode in the opposite direction - to the common source bus, while the parametric stabilizer The voltage is computed on a series-connected chain of a resistor, and a zener diode, the connection point of which through the second additionally inserted diode is connected to the connection point of the storage element with the control of the nonlinear element, and the capacitor is used as the signal element for connecting the load, and negative - through the third additionally introduced diode - to the common power supply bus, in addition, as a controlled nonlinear element A thermistor is used for the Conductivity, and the uncontrollable nonlinear element is a Zener diode, with the emitter junction of the specified transistor: included between the cumulative element and the total length of the source: The drawing shows the principle Ma of the c-source power source. The power source contains a current transformer 1, a rectifier 2, a voltage suppressor 3, a controlled non-linear element (transistor) 4, in which a storage element (capacitor) 5 is switched on. The parametric voltage regulator, consisting of a Zener diode 7 and a limiting resistor 8, is connected to a co-capacitor 5 through a diode 9. In the base circuit of the transistor 4, in series with an uncontrolled non-linear element (Zener diode) 10, a parallel RC circuit is connected, A capacitor 11 and a resistor 12. A diode 13 provides a discharge for the capacitor 11 and protects the base transition of the transistor 4 when the capacitors discharge through the electromagnet power channel. The parametric stabilizer output is bridged by capacitor 14. The power supply operates as follows. The secondary current of current transformer 1 is rectified by rectifier 2, it charges capacitor 5 and 14 through diode 9. Transistor 4 is locked. As the capacitor 13 charges, the load current of the control circuit power supply channel increases. This current will be equal to the rated load current by the time when the voltage on the capacitor 14 reaches the voltage of the breakdown of the Zener diode 7. The voltage on the capacitor 5 at the time of the breakdown of the Zener diode 7 will be small. The ratio of the voltages on the capacitors 5 and 14 is determined by the value. inverse to their capacitances. The charge of the capacitor 5 continues along the indicated circuit until the moment of the breakdown of the zener diode 10. After the breakdown of the zener diode 10, the transistor 4 opens and enters saturation. The saturation mode of transistor 4 is determined by the equality of the ratio of the capacitors 5 and 11 to the minimum gain of transistor 4. The breakdown times of Zener diode 10 and the saturation of transistor 4 practically coincide. The same moment determines the output of the voltage regulator (Zener diode 7 and resistor 8) to the nominal load current of the power supply channel of the control circuits and the beginning of the charge of the capacitor 5 through the transistor 4. The diode 9 is closed at this moment. From the moment described above, the process of operating the power supply does not change until the limiter 3 trips. At those moments of half-periods when the secondary current is less than the current-load of the control supply channel of the control circuits, capacitor 5 is discharged into this load through diode b, and capacitor 11 is goes through diode 13 and resistor 12. Transistor 4 is closed at this moment. When the circuit of the disconnecting electromagnet connected to output I is assembled, capacitor 5 is discharged along this circuit through diode 6. Transistor 4 is closed in the mode described above. The use of a transistor enables the use of a storage capacitor for both the load supply channel and the control supply channel, which allows a significant reduction in the capacity of the smoothing capacitors. As a result, the time for establishing voltage across the power supply circuit of control circuits and the overall dimensions of the source are reduced. Since there is no resistor in the charge capacitor 5 charge circuit, this reduces the time needed to establish the voltage across the supply channel of the load and the loss, i.e., an increase in efficiency. This current source of power contributes to improving the speed of efficiency, compactness of relay protection systems. Claim 1. A current source of power, containing in series at least one current transformer and rectifier, to the output of which a storage element is connected, an output for connecting the load and a voltage limiter and a parametric voltage regulator connected in parallel to each other, output for connecting power supply circuits and bias load control circuits, characterized in that, in order to reduce the time for setting the voltage of the power supply channels of the power supply source, Improving the efficiency, as well as improving the weight and size characteristics, a controlled nonlinear element, an uncontrolled nonlinear element and a parallel RC chain are introduced in it, the controlled nonlinear element being connected between the free terminal of the storage element and the common source bus, and its control input. through serially connected indicated uncontrolled nonlinear element and RC-chain is connected to the point of connection of the output of the rectifier with an output for connecting the load with the storage element and through the first additional tionary inputted diode in the opposite direction - to obsh, s source bus. 2. The current source according to claim 1, characterized in that the parametric voltage regulator is made on a series-connected chain of a resistor and a zener diode, the connection point of which through the second additionally inserted diode is connected to the connection point of the storage element with a controlled non-linear element, and as the storage element used is a capacitor, the positive lining of which is connected to the output to connect the load, and the negative through the third additionally inserted diode to the open, it no source. 3. A current source according to claim 1, characterized in that a pn-type transistor is used as a controllable nonlinear element, and a zener diode is used as an unmanaged nonlinear element, the collector-emitter junction of said transistor being connected between the cumulative element and a common tire source. Information sources, taken into account in the examination 1.Mogilevsky G.V. et al. Non-contact overcurrent release for selective AC circuit breakers. Works VNIIelektroapparat. M., “Energie, 1970, p. 17-22, fig. I. 2. The complete device of maximum current protection is of types KMT 3-50 and KMTZ-404 "Technical Description and Operating Instructions, 1973, OLH 140.020, sheet 12, fig. 1 and 2.  I Output