SU264459A1 - FREQUENCY DIVIDER - Google Patents

Description

The invention relates to computing equipment and discrete automation devices and can be used as a current generator for power supply circuits in push-pull and multi-cycle shift registers and other devices that use magnetic elements.

A device is known that serves to divide the frequency and is a two-terminal circuit, one arm of which contains a choke and a diode.

However, in this device, the dividing effect can be realized only with the appropriate choice of the amplitude of the input voltage and frequency, which allows using this device only for dividing a continuous sequence of pulses, for example, a sinusoidal voltage. In principle, this scheme cannot be used to divide a sequence of single imulses.

The proposed divider is characterized by the fact that the second ileo of the two-port device includes active resistance with a diode, the input of the two-pole device being connected to the sources of direct and reverse currents, with the connection of the source of reverse current to the divider after the source of direct current through a period of time, which provides the remagnetization of the chokes before the end diode recovery process. This allows division of a sequence of single pulses. When switched on, instead of the active resistance of the same throttle with BCP to the second arm, a trigger circuit is obtained, which can be used to power push-pull magnetic circuits.

When a two-pole is connected to one or both shoulders in parallel with the existing serial connection of the throttles with a diode of the same serial connection of the throttles with the BCP and a low-frequency diode, the third throttle with the BCP can be doubled in series with this parallel connection from the throttles.

In an oscillatory process, it is proposed to use a capacitance as a source of reverse current, the voltage at which at the time of the formation of the current pulse is higher than the voltage of the source.

Pa figs. 1 shows a frequency divider, made in the form of a two-port network with a series connection of the throttle and a diode in each arm; in fig. 2 shows a time diagram of the operation of the divider, shown in FIG. one; in fig. 3-o. Divider by four; in fig. 4-diagram of such a divider with a source of direct and reverse current.

cheni - / -4 throttles, made on the core with BCP; 5-S - low-frequency Dio; dy-9 shunt resistance; PP-input transformer. Diode 11 and dynistor 12, in combination with capacitor 13 and resistance 14, serve as sources of direct and reverse current.

The divider shown in FIG. 1, works as follows.

After the passage of the current pulse (about the two cores of the chokes / and 2) appear in a state of positive magnetization (the current passed through the core of the chokes 1). The duration of the blocking pulse is such that it is sufficient to translate the throttle core / into a state of negative magnetization. Then the next current pulse will go through the core of the throttles .2, and the coercive current (magnetic reversal current) will drop into the core of the throttles / branch. In this case, the diode 6 is saturated with minority carriers, and the blocking voltage will be applied to the core of the throttle 2 and will switch it to the state of negative magnetization. The next current impulse will pass along the core of the throttles /, etc.

The waveforms for this case are shown in FIG. 2

If you include in any shoulder of a two-pole parallel parallel to the serial connection of the throttles with a diode, a similar serial connection of the throttles on the core with the GPR and a diode, and in series with this parallel connection on the side of the chokes, turn on the third throttle on the core with the BCP, a splitter of the input pulses with a double factor can be obtained divided by and four (Fig. 3).

A schematic diagram of such a divider, together with direct and reverse current sources, is shown in FIG. four

The scheme works as follows.

When a current pulse arrives at the input 15 on the secondary winding of the transformer 10, a voltage arises, which through diode 8 is applied to the anode of the dynistor 12. The latter opens, and the capacitor 13 begins to charge.

Suppose that the cores of the chokes 3 and / are in a state of positive magnetization, and the cores of the chokes 4 and 2 are in the negative. In this case, most of the current will pass through the core of the throttle 3 and diode 6, and a coercive current will branch into the core of the throttle 2 and diode 7. By the end of the current pulse, the voltage on the capacitor 13 will be higher than the supply voltage due to the oscillatory nature of the formation process. The role of the reverse current source is that the discharge circuit of the capacitor 13 can be switched on in the form of a normal resistance 14. After the end of the current pulse, the blocking voltage through the diode // is applied to the load, switching the conducting cores to

negative magnetization. By the same principle, dividers of 8, 16, etc. can be constructed.

Subject invention

1. A frequency divider made in the form of a two-pole device, one arm of which contains a series-connected choke and a low-frequency diode, characterized in that, in order to extend the functionality, the choke is made on a core with a rectangular hysteresis loop, and the choke is connected in series to the second arm of the two-pole with a hysteresis square loop and a low frequency diode, with

a two-port input is connected to a forward and reverse current source.

2. Divider by n. 1, characterized in that, in order to increase the division ratio, a series-connected choke with a rectangular hysteresis loop and a low-frequency diode are also connected in parallel with the series circuit of the drossel with a diode, and a third choke is connected to the junction point of the two chokes

on the core with a rectangular hysteresis loop.

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