SU1145328A2 - Controlled high-voltage source of dc power supply - Google Patents

Description

The invention relates to electrical engineering and is intended for use in powering electron beams with multi-layer phosphor tubes in colored indicator devices for various purposes. According to the main author. St. 575743 is known for its high-voltage DC power supply, which contains connectors shunted at the outputs by capacitors and connected in diagonally formed by keys, bridged by diodes, bridges, the other diagonals of which are connected in a series circuit connected at one end to a zero potential bus, the other end through a constant voltage source, not supplied with keys, but the same output-shunted output, with a terminal for connecting the potential load output 1. A disadvantage of the known device is associated with the lack of stabilization of output voltage levels, which significantly limits its scope. The purpose of the invention is to achieve stability of the output voltage levels. The goal is achieved by the fact that a controlled high-voltage DC power source containing n rectifiers shunted by the outputs of the capacitors and included in the diagrams formed by keys, bypass diodes, bridges, the other diagonals of which are included in the sequential circuit, soy, given by one End with a tire of zero potential, and the other end through a source of constant voltage, not supplied with keys, but also output-shunted capacitor — with a terminal for connecting a potential load output, a comparison node, voltage conversion and control, a voltage source, two resistor groups and a diode-resistive circuit, and the outputs of the comparison node, voltage conversion and voltage regulation for KJS04eHbi are introduced to individual inputs, p keyed rectifiers, and each of the control input pins is connected to one of the resistors of the corresponding group, the other p terminals of the first group of resistors Other terminals and resistors of the second group are connected to the positive poles of the rectifiers, another terminal of the (n + 1) -th resistor of the first group is connected to the zero potential bus directly, another terminal of the (n + 1) -th the resistor of the second group - through the source of the reference voltage, and the corresponding pole of the source of the constant voltage, not supplied by the keys through the diode-resistive chain. The drawing shows a functional diagram of the proposed controlled voltage source. The device contains rectifiers 1 and 2, shunted at the outputs by capacitors 3 and 4, keys 5-12, shunted by diodes 13-20, a constant voltage source 21, shunted at the output by a capacitor 22, resistors 23-28, reference voltage source 29 , a chain of diode 30 and resistor 31, a node 32 for comparison, conversion and voltage control with series-connected inputs of a transformer 33, a rectifier 34, a voltage regulator 35 connected by a control input to the output of the error signal amplifier 36, and a converter 37 voltage transformer equipped with primary vyhodnv4I 38 and 39 and, respectively, secondary br windings 40 and 41. Position 42 on the diagram marked the capacitor. Rectifiers 1 and 2 are included in the range of bridges formed by keys 5–8 and 9–12, the other diagonals of which are included in a series circuit connected at one end to a zero potential bus, and at the other end through a constant voltage source 21 to a terminal output load (electron tube). The secondary windings 40 and 41 of the output transformers of the comparison, conversion and control unit 32 are connected to the inputs of rectifiers 1 and 2, respectively. The first control input terminal of the error amplifier 36 of the node 32 is connected to one of the terminals of the resistors 23-25, and the second control input terminal to one of the terminals of the resistors 26-28. The other terminals of the resistors 23 and 24 are connected to the negative pins, and the other terminals of the resistors 26 and 27 are connected to the positive poles of the rectifiers 1 and The other terminal of the resistor 25 is connected to the zero potential bus directly, another terminal of the resistor 28 through the reference voltage source 29 and the negative pole of the constant voltage source 21 is across a diode-resistive-circuit 30 and 31. The proposed power source operates as follows. Depending on the position of the keys 5-12, the rectifiers 1 and 2 are connected according to either meet a constant voltage source 21 or are excluded from the circuit. So, if you include only even keys, all three sources are included according to. At the output there is a sum of their voltages. When the odd keys are turned on, the voltage of the rectifiers 1 and 2 is impressed from the voltage of the source 21. When the keys 6, 7, 10 and 11 are turned on, only the source 21 voltage is applied to the output. The capacitors 3, 4 and 22 reduce the output impedance of the sources when switching voltage however, not at the output capacitance 42, when it is necessary to transmit large power pulses. The node 32 controls the voltage at its output transformers and, therefore, at the codes of the rectifiers 1 and 2, depending on the signal at its control input. This signal is generated in resistors 23–25 and 26–28. Moreover, if pairwise the resistances of resistors 23 and 24, 26 and 27 are equal, and the ratio of the resistance of the resistor 23 to the resistance of the resistor 25 is equal to the ratio of the resistance of the resistor 26 to the resistance of the resistor 28 (a special case of this is when the resistance of the resistance resistors 25 and 28 is equal resistors 23, 24, 26 and 27 are also equal), then the total voltage of rectifiers-1 and 2 turns out to be stabilized with high accuracy with both even and odd keys turned on, as well as excluding these rectifiers from the output circuit wives This happens because current through the resistor 24 is proportional to the voltage at the negative pole of the rectifier 1 relative to the zero potential bus, through the resistor 23 is the current proportional to the voltage at the negative pole of the rectifier 2 relative to the tire of the zero potential. Thus, on the resistor 25, the voltage is proportional to the sum of the voltages on the negative poles of the rectifiers 1 and 2 relative to the zero potential bus. The addition error is insignificant, since the resistors 23 and 24 are much larger (- 1000 times) than the resistor 25. Similarly, the resistor 28 has a voltage on the same scale proportional to the sum of the voltages on the positive poles of the rectifiers 1, 2 with respect to the bus potential is zero, and the voltage difference across resistors 25 and 28 is proportional to the sum of the voltages on rectifiers 1 and 2. After subtracting the reference voltage of source 29 from it, the control input of node 32 is supplied with a voltage close to zero, and negative feedback loop Because of this, the voltage is maintained at this level, and the sum of the output voltages of drivers 1 and 2 is stabilized with high accuracy. Along with stabilization (in a known manner) of the voltage source. 21 this leads to the stabilization of all three levels of output load. If the output transformers of the node 32 are of the same type, the voltages of the rectifiers 1 and 2 differ by several percent. They may vary by the same amount relative to each other in the process. Transformers can have different transformation ratios, rectifiers 1 and 2 in this case have different voltages, however, regardless of this, their sum is stabilized. Through the diode 30 and the resistor 31, the device’s load current flows at a lower level of the output voltage, since it cannot flow through the diodes of the rectifiers 1 and 2 in the opposite direction. In other modes this current is blocked by the diode 30. The output voltage levels are stable and predetermines unchanged coordinates of points on the screen of the cathode-ray tube, which expands the functionality of the indicators (combination of multi-colored information, graphic works, etc.

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Claims (1)

CONTROLLED HIGH VOLTAGE POWER SUPPLY OF THE CONSTANT VOLTAGE on auth. St. ft 575743, characterized in that, in order to achieve stability of the output voltage levels, a comparison, conversion and voltage control unit, a voltage reference source, two groups of resistors and a diode-resistive circuit are introduced into it, and the outputs of the comparison, conversion and voltage control unit are connected to the individual inputs η of the keyed rectifiers, and each of the control input terminals is connected to one of the terminals of the resistors of the corresponding group, the other terminals η of the resistors of the first group yucheny negative poles, and the other terminals of the resistors of the second group η - to the positive pole of said rectifier, the other terminal of the (n + 1) -th group of the first resistor is connected to zero potential bus directly, the other terminal of the (n + 1) th secondary resistor _{Λ of the} swarm group - through a reference voltage source, and the corresponding potyos of a DC voltage source not supplied with keys - through a diode-resistive circuit. 4 ^ SP yo> 1145328 2