SU954881A2 - Dc to dc voltage converter - Google Patents

Description

(CONVERTER VOLTAGE CONVERTER TO PERMANENT

The invention relates to electrical measurement technology and is intended for use as a high-precision digital-analog conversion unit for various measurement transducers, instruments, and information measurement systems.

According to the main author. St. No. 599219 is known a constant-voltage-to-constant voltage converter, containing a generator of quanta of charge electricity, connected by its input to the converter input, a comparator connected by its input to the output of the converter, an averaging device, a software device, and an integrator connected by its output to the output of the converter, and the input - with the output of a quanta generator of the quantity of electricity, and the software device is connected with its outputs with a quanta generator and an integrator The comparing device is connected to the converter input by the second input, and the output through the averaging device to one of the inputs of the quanta generator l.

In this device, one conversion requires, among other things, m (c + k) transfer of charge quanta from a quanta generator to an integrator, where m is the number of charge quanta carried in one correction cycle of the converter's characteristic and determining its quantization error - the number of correction cycles; | (- the transfer coefficient of the converter.

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Claims (2)

The usual quantization error is less, since otherwise the device cannot be considered to be highly accurate. This gives mj.10. With the number of correction cycles (and there may be more of them), and, we get the number of transfers per transformation equal to 10. With such a number of transfers, even at a high frequency of 3-E f following charge quanta, it is difficult to obtain a satisfactory response rate. For example, at MHz, the time of one conversion is more than 1 s, and, taking into account the integrator’s discharge time and the comparator delay, it increases further. The purpose of the invention is to increase the speed of the converter. To achieve this goal, a quantizer of quantity of electricity was inserted into a constant-voltage converter into a constant voltage, connected between the output of a quanta generator of electricity and an input TerpaTopa, and a control input connected to the output of a software device. The drawing shows a functional diagram of a DC / DC converter. The device contains a generator of 1 quantums of electricity (charge), an averaging device 2, a comparison device 3, an integrator, a software device 5, and a quantifier of quantities of electricity (charge) 6. The purpose of divider 6 is to reduce the area of current pulses or voltage, generated by the generator 1 at a certain number of times set by software device 5 This can be done with the help of current dividers or voltage, and for right-angle pulses - with the help of a pulse width divider. The operation of the converter occurs in two stages: the first is the correction of the characteristics of the converter; The second is the stage at which the formation of the output voltage occurs. The first stage, in turn, consists of a series of identical cycles, each comprising three cycles. All this is provided by a software device, in particular, at the first stage, the latter sets the transfer coefficient of charge divider 6 to unity. In the first, the generator 1, controlled by the input voltage Uj, forms m identical charge quanta, which through the divider 6 enter the integrator 4. The parameters of the generator and the integrator are chosen so that at the end of this clock cycle the output voltage is approximately equal to the input voltage In the second cycle, the comparison device 3 determines the difference between the input and output voltages. The resulting difference is amplified and fed to the averaging device. 2. In the third cycle, zero conditions are set for the integrator and the cycle ends. When repeating cycles, the averaging device, averaging signals from the comparing device, acts on the quanta generator, changing the quantum parameters so that the second also maintains Ugjj equality. The accuracy of maintaining this equality is determined by the feedback depth in the circuit and can be quite high. As a result, at each charge transfer in the first cycle, the output voltage changes by an amount. The time constant of the averaging device is chosen such that during the execution of the second stage the quantum size does not significantly change. The operation of the converter at the second stage will be considered using a numerical example. Let the coefficient of output transfer set | After the signals from the software device, the transfer ratio of the charge divider is equal to 1, 132 quanta are transferred to the integrator, then the ratio is reduced to 0.1 and 5 quanta is transferred, and finally, when the coefficient is 0.01, transferred 6 quanta. This is where the conversion process ends. For one transformation in the proposed device with the Transmission Ratio selected above, 100 s + 132 + 5 + 6 transfers of charge quanta are necessary. In the device, on the main auth. St. 10000g + +13256 hyphenation is needed, i.e. more than 100 times more. With the number of transfers 100 times more. Thus, the proposed improvement of the known device allows to significantly increase its speed. Claims of the Inverter Constant Voltage Converter to Constantly Auth. St. If 599219, characterized in that, in order to improve speed, a divider of quanta of the amount of electricity is introduced into it, connected between the output of the quanta generator of the amount of electricity and the integrator's input, and the controller O-Shch 5 8816 input connected to the output of the software device. Sources of information 5 taken into account during the examination 1. USSR author's certificate No. 599219, cl. G 01 R 19/00, 1978.