SU296139A1 - DC CONVERTER TO TIME INTERVAL - Google Patents

Description

The device relates to systems of automatic control of direct current.

There are DC-to-DC converters in the time interval, the content of magnetic conductors with windings, sensors with signal and magnetising windings, located in the gaps of the magnetic circuits, the source of reference current and the source of sawtooth current.

The described converter is characterized in that the windings of the magpipelines are connected in series to the reference current source, and the windings of the magnetisation of the keys to the sensors are connected to the source of the sawtooth current.

This embodiment improves the accuracy of the conversion.

Pa figs. 1 shows the basic scheme of the device; in fig. 2 is a diagram, which is taken as a whole.

The converter contains two identical magnetors 1 and 2, which cover current-ledium wire 3 and have windings of the reference current W: rn and aet2 with a different number of turns; two permalloy probe 4 and 5 with signal windings Wci and Wcz and windings node magnetizing li-m and Wn2, the reference current source 6 and the source 7 sawtooth current.

The measured current U ,,, which flows through the current path to the wire 3, equally magnetizes both the magnetic and / and 2. The windings of the current or the current are connected in series to the source 6 of the reference current, and the current /: t creates a compensating field in both the magnetic cores 1 and 2, moreover, the difference between the amperages of the reference and measurable currents is chosen so that on each magical conductor it is equal in size and provides zero in the gaps of the magnetowires 4-5 times the coercive force of the core of the sensors 4 and 5, and is opposite to the sign. Dates are exchanged in the gaps of the magnetic circuits.

The windings of the nodomagnetics of sensors 4 and 5 are connected in series and are powered by a sawtooth source 7. A sawtooth zero I ,: (O (see Fig. 2) is directed oppositely to the resultant field in the magneton n gap and should be sufficient to re-magnetize the sensors. As a result, non-magnetization on the signal windings and 1C ,,. 2 induces power pulses. it is kept strictly inconsistent, the pulses from sensors 4 and 5 arrive at the same time moment / 0. With a change in the measured current of 11 and in the gap of one magnetic core, the absolute value decreases (for example, L), and the other increases

same value. In this case, the pulse from sensor 4 corresponds to the time t, and the pulse from sensor 5 - / 2. The time interval is 2-A of the irradiation ratio and the change in the measured current. This interval can be converted to a binary digital code by known methods and can serve as an error signal in a closed digital system of automatic DC regulation, which tends to combine both pulses in time, thereby maintaining a constant current at a given level. The order of the pulses from the sensors indicates the sign of the change in the measured current.

Subject invention

A constant-current-to-time converter comprising magnetic cores with windings, sensors with signal and biasing windings located in the gaps of the magnetic cores, a reference current source and a sawtooth source, characterized in that, in order to improve the accuracy of the conversion, the magnetic cores are connected in series to the source the reference current, and the windings of the magnetisation sensors are connected in series to the sawtooth source,

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FIG I