SU618828A1 - Input dc voltage converter for dc amplifier - Google Patents

Description

(54; PERMANENT INLET TRANSFORMATOR

VOLTAGE FOR DC POWER AMPLIFIER

The ability to fully unlock the circuits of the two signals being compared.

The goal is achieved by the fact that the input converter is equipped with an additional transformer with an additional switch connected to the primary winding of the additional transformer, and the secondary lodMotKH of both transformers are connected in series and counter. The middle point of the additional transformer can be connected to the common point of the additional switching device either directly through a resistor or through external circuits, for example, through a comparison signal source. The cores of the p1 transformers are spaced in parallel planes.

The drawing shows a constant voltage converter circuit.

The converter contains transformers I and 2, switches 3 and 4 and the control generator 5. The converter has two inputs — the main input 6 and the auxiliary input 7 and one output 8.

In the absence of an input signal, for example, when both inputs are shorted, as a result of the synchronous operation of the keys, the right or left half windings of the transformers are alternately closed. Due to the contact potential differences and the thermopower in the circuits and the passage of the generator signal to the output 5, the currents in the closed half of the windings are not zero. Due to the uniformity of the circuit elements and the same thermal conditions, the signal levels will be close between Qpdoft for transformers) and 2. Due to the fact that the secondary windings are connected, at the same time, their output signals are subtracted, and the total signal turns out to be close to zero. If one of the inputs is connected to a., Source of direct current voltage, and the second is loaded to a resistance equal to the internal resistance of this source, the deduction of spurious signals occurs as in the case of the shorted inputs, and the useful signal arising on the secondary winding of one of the transformers goes to the exit. Finally, if we connect the voltage sources to the inputs, then the output voltage is AC, which is proportional to the voltage difference between the sources connected to the inputs. It follows from the circuit that inputs 6 and 7 may not have a galvanic connection between themselves, therefore the compared signals may have any polarity. If the transformer cores are located in parallel planes, i.e., are equally oriented with respect to the external magnetic field, the induced EMF in the windings are subtracted at the output of the device.

The application of the described converter allows reducing the level of the parasitic signal at the output, arising from both the internal properties of the converter and magnetic fluxes, which provides an increase in sensitivity, and also makes it possible to compare two DC voltages without including them in a common circuit. This expands the range of application of the converter.

Claims (3)

1. An input DC voltage converter for a DC amplifier, comprising a transformer and a switch connected to the transformer primary winding, characterized in that, in order to reduce the parasitic output signal, it is provided with an additional transformer and an additional switch connected to the primary winding of an additional transformer, and the secondary windings of both transformers are connected in series and opposite. 2. The transducer according to claim 1, characterized by a jeM that, in order to reduce the effect to the output signal of external magnetic fields, the transformer cores are located in parallel planes. 3. The converter according to claim 1, characterized in that the purpose of reducing the mutual influence of the circuits when operating in the comparison mode of two signals, the sources of the compared signals are connected to the primary windings of different transformers. Sources of information taken into account in the examination: 1. Handbook of semiconductor electronics. Ed. Haitera LP, M., Mashinostroenie, 1975, p. 125, fig. 2-8. 2. The same figure. 2-8 a.