SU940277A1 - Multi-phase generator - Google Patents

Description

(5) MULTI-PHASE GENERATOR

one

The invention relates to a pulse technique and can be used as a device for distributing a control signal in various industries, for example, in mechanical engineering technology and, in particular, in EDM processing.

A multiphase ring oscillator is known that contains cascades included in an annular circuit, the number of which is determined by a given number of phases and each of which contains a cell on two transistors of different conductivity and a switch key on two transistors, as well as a driver time circuit containing a series-connected resistor and time specifies a capacitor, one plate of which is connected to the housing, and the second through the diode - to the communication keys of all stages l.

The disadvantage of this generator is that it does not provide high reliability and stability of the pulse frequency in the conditions of destabilizing factors. In addition, in a known generator, it is not possible to independently adjust the pulse duration of each phase and use transistors of different conductivity types.

Closest to the proposed technical entity is a multiphase phase generator containing Vi cascades performed on multivibrators with collector-base and emitter connections and included in the ring circuit 2}.

Claims (2)

15 The disadvantages of the known multiphase generator are low stability of the pulse frequency under the conditions of destabilizing factors, in particular under conditions of changing ambient temperature, and the absence of independent adjustment of the duration of the pulses of each phase, which limits its applicability. The aim of the invention is to increase the stability of the frequency of impulse following and to provide independent adjustment of the pulse duration of each phase. The goal is achieved by the fact that an emitter follower, a trigger and a logic element AND are introduced in a multiphase generator containing I cascades, executed by multivibrators and included in a ring circuit, and the output of the emitter repeater is connected to the control bus of the multivibrator, and the output is connected to the output of the trigger The input is connected to the output of the AND gate, one input of which is connected to the output of the multivibrator, and the other to the input of the trigger and the output of the trigger of the previous stage Each multivibrate p contains time elements defining a chain emitte ra one of the transistors and the control bus is connected to the emitter of transistor fl. FIG. 1 is a schematic diagram of the proposed generator; in fig. 2 shows time diagrams of voltage at x, the actual points of the device. The multiphase generator contains cascades where and is the specified number of phases. Each i-th cascade contains a multivibrator 2-i, an emitter repeater, a trigger 4-i and an element. And the Multivibrator 2-i contains time specifying elements - a resistor and a capacitor 8- in the emitter circuit of transistor 6-i. The emitter follower is made on a transistor 9-1, the emitter of which is connected to the capacitor 8-i and the resistor 7 i and the base is connected to the output of the trigger -i. The trigger input -i, which is set to one, is connected to the output of the element I, one input of which is connected to the output of the multivibrator 2-i, and the second to the input of the trigger -i, which sets it to the zero state, and to the direct output trigger C-I of the previous cascade 1-1-1. Multi-phase ring generator operates as follows. Suppose that when a power source is connected to it, it turns out that the trigger of cascade 1 is set to state O. This creates a condition for locking the emitter follower 3 connected to it 4 which ensures the resolution of the auto-oscillatory mode of the multivibrator 2. When this occurs, the time of the driving capacitor 8 is discharged through the time connected to it of the driving resistor 7 which are located in the emitter circuit of the transistor 6 of the multivibrator Zj, and a first phase is formed at the output of the multiphase ring oscillator (Fig. 26). At the end of the formation of the first phase, at the output of the multivibrator 2, a si-nal (Fig. 2a) is formed, which passes through the element 5 of the cascade 1 (trigger 4, the last cascade 1 is in the unit state, and the element i. Of the cascade 1 connected to the pr The output of this trigger, k, is prepared to pass the output signal from the multivibrator 2 and sets the trigger k to state 1, which prohibits the self-oscillation of the multivibrator 2. At the same time, at the transition edge of the trigger to state 1, it determines the end of the formation of the first phase at the output It is simultaneously with the same signal from the output of multivibrator 2, the trigger kij of the subsequent cascade is set to O, which, by locking the emitter follower 3 connected to it, allows the multivibrator 2 to operate. the time connected to it is a master resistor 7 located in the emitter circuit of the transistor 6 of the multivibrator 2, and a second phase is formed at the output of the multiphase ring oscillator (Fig. 2d). At the end of the formation of the second phase at the output of the multivibrator 2, ..., a signal is formed (Fig. 2c), which passes through the AND S circuit of the cascade 12 (trigger k of cascade 1. is in the unit state, and the AND 5 element of the 2. cascade is connected to direct output of this trigger 1, prepared to pass the output signal from the multivibrator 2) and sets the trigger 2 to state 1, prohibiting the self-oscillation mode of the multivibrator 2-. In this case, the transition time of the flip-flop 2 to state 1 determines when the second phase forms at the output of the multiphase ring oscillator (FIG. 2d). At the same time, the same signal from the output of the multivibrator 2 triggers ij to the next stage locking the emitter follower 3 connected to it permits the operation of the multivibrator 2. In this case, the time of the driving capacitor 3 is discharged; from the time connected to it, the driving resistor 7 i is located in the transistor emitter circuit Stora 6 multivibrator 2 ,, and the third phase is formed at the outlet of the multiphase annular multivibrator, etc. In the subsequent process, the formation of each subsequent phase occurs in a similar way and is entirely determined by the end of the formation of the phase in the previous cascade. Each phase pulse allows for a sufficient duration and by varying the resistance of the timing resistor of any of the multivibrators, independent adjustment of the phase pulse width over a wide range, as well as each phase being formed has a high stability of duration in the range of ambient temperature variation. Stability The duration of the phases when the ambient temperature varies in the range - kQ-70 ° is of the order, which is less than 1. The use of the trigger and elements And greatly increases the noise immunity and reliability of the device as a whole. The working state of one of the cascades during the formation of the corresponding phase ensures the blocking of the remaining cascades. At the same time, work 9–7 of the subsequent cascade is spreaded by the end of the work of the previous one. involves the use of transistors of the same conductivity type. Claim 1. A multi-phase generator containing V) cascades performed on multivibrators and included in an annular circuit, characterized in that, in order to improve the stability of the pulse frequency and to ensure independent adjustment of the pulse duration of each phase, an emitter follower is inserted into it, the trigger and the logic element I, the output of the emitter follower connected to the control bus of the multivibrator, and the input connected to the output of the trigger, the input of which is connected to the output of the logic element I, one input of which is connected to the output of the multivibrator, and the other to the trigger input and to the trigger output of the previous stage. 2. The generator according to claim 1, which is based on the fact that in it each multivibrator contains time specifying elements in the emitter circuit of one of the transistors, and the control bus is connected to the emitter of this transistor. Sources of information taken into account during the examination 1. USSR author's certificate No. 635598, cl. H 03 K 3/281, U.d8.7. 2. Author's certificate of the USSR (G 50U66, class H 03 K 3/282, 03/23/73 (a prototype). fieL and I n-jf (uzall fi8.g