SU849466A1 - Pulse shaper - Google Patents

Description

(54) PULSE FORMER

I

The invention relates to automation devices that ensure the formation of stable frequency sawtooth or rectangular pulses, as an amplitude controlled sawtooth generator, and to devices that divide the frequency by a factor of.

Pulse drivers are known based on an unstable multivibrator, an electronic chopper, and an input source whose frequency is to be divided. This device also contains a capacitor connected between the common ground point and the junction point of the choppers: capacitor 1.

A disadvantage of this device is its low stability when changing the duration and amplitude of the input signal due to the fact that the capacitor is charged only during the duration of the input pulses. In addition, the known device has a low stability with large times between pulses due to the discharge of charge from the capacitor for a specified time.

Also known pulse shaper, made on the basis of the waiting multivibrator with time driving circuit in the emitter circuit 2.

A disadvantage of the known device is the low frequency stability of the output pulses when the amplitude of the clock pulses changes and the functionality is insufficient.

The purpose of the invention is to extend the functionality.

The goal is achieved by the fact that in a pulse generator containing three transistors of different conductivity types, a current stabilizer and a storage capacitor, the input transistor is connected according to a common emitter circuit, its collector is connected to one of the plates of the storage capacitor and current stabilizer, the input base the transistor is directly connected to the input pulse source, its collector is connected to the connection point of the current stabilizer and one of the capacitor plates through a resistor, to the said The junction of the transistor is connected to the collector with the same type of conductivity, the base of this transistor is connected to the common bus, and the emitter is connected to the emitter of the opposite conduction type transistor, the base of which is connected to the other side of the storage capacitor and connected to the common side bus, and the collector of the last transistor is connected to the output terminal of the device and through a resistor - with the power supply. The drawing shows a schematic diagram of a pulse former. The device contains transistors 1-3, a current stabilizer 4, a storage capacitor 5, a source of 6 input pulses, a diode 7, resistors 9. The device operates as follows. The source of 6 pulses generates pulses of short duration with a large duty cycle, which controls the key on the transistor 1. This key from each pulse is triggered and connects the resistor 8 during the duration of the pulse to the common bus. The charge of the capacitor 5 comes from the current stabilizer 4 through the separation element (diode 7). At the same time, a voltage drop occurs on the separating element, the cottage key of the transistors 2 and 3 is securely closed (in our example, a positive voltage). When the resistor 8 is connected to the common bus, the discharge current decreases by the value of l1 Ijop - 15 -H (, (t) / Rg due to the flow of discharge current 1p through the resistor 8. When the voltage on the capacitor 5 reaches the specified value at which the value of L1 becomes negative, because the current Ipaj is above the current, the key will operate on transistors 2 and 3 and the capacitor 5 is completely discharged, as a result of which the voltage on the base of transistor 2 becomes equal to zero and under the action of zero potential the key on transistors 2 and 3 returns to the initial state, and the capacitor 5 will start charging again from the current stabilizer 4. Due to the fact that the pulse duty cycle is large, their duration does not affect the degree of pulse division, i.e. the charge time of the capacitor 5 to a predetermined level The amplitude of the pulses also does not affect the degree of division, since the signal level can be any, as long as it performs a reliable switch on the key on the transistor 1. The division ratio can be adjusted by the amount of current from the current regulator 4, or, most simply , and by varying the resistance of the resistor 8. The latter is a very great advantage of the scheme, because simply allows the most varied level (threshold) actuation of the discharge device (key). This device can be used as a saw generator (the output signal is removed from the top plate of the capacitor 5) with its amplitude adjustable by the value of the resistor 8, and we have a direct dependence of the saw amplitude on the conductivity of the resistor 8, for example, reducing the resistance of the resistor 8 by half amplitude sawtooth direction twice. The proposed device can be used as a pulse generator, the frequency of which is synchronized by the frequency of the source of 6 input pulses, can be adjusted by the resistance of the resistor 8, which can be used in analog computing devices. If a different frequency generator is used as the source of pulses 6, a. a constant division factor is required in this case, then a current frequency converter is used as a current stabilizer 4, the input of which is connected to the output of the source of 6 pulses. At the same time, when the frequency is changed, for example, by a decrease of three times, the current of the stabilizer 4 is tripled, and consequently, the charging time of the capacitor to the specified value increases threefold, i.e. the division ratio does not change. If it is required to change the saw amplitude without changing the frequency of the pulses, then the current stabilizer 4 is used synchronously controlled with the change of the resistor 8 to the generator current. In this case, when the resistor 8 is changed (for example, by a factor of two), the current from the stabilizer 4 changes proportionally (in our example, it is also reduced by a factor of two), thus the frequency is simply stabilized while adjusting the saw amplitude. If we use the base-emitter junction of an additional transistor connected according to a common emitter or common base circuit as a separating element (diode 7), we will have square-shaped pulses at the output of the driver that is removed from the collector of the specified transistor Yes, this additional transistor is saturated and the voltage on the switch is zero, and during the discharge time of the capacitor 5 the transistor is closed and the voltage on its collector becomes equal to the power supply. If you use an additional trigger with a counting input connected to you

Claims (1)

Claim A pulse shaper containing three transistors of different types of conductivity, Order 6116/76 VNIIPI current stabilizer and storage capacitor, and the input transistor is connected according to the scheme with a common emitter, its collector is connected to one of the plates of the storage capacitor and a current stabilizer, characterized in that, in order to expand the functionality, the base of the input transistor is directly connected to the source input pulses, its collector connected to the point of current stabilizer compound and one of the electrodes ¹⁰ con capacitor through a resistor, to the junction point of said connected collector tranzis an ora with a similar type of conductivity, the base of this transistor is connected to a common bus, and the emitter is connected to an emitter 15 of a transistor of the opposite type of conductivity, the base of which is connected to another lining of the storage capacitor and through the diode connected in the forward direction to the common bus, and the collector of the last transistor connected to the output terminal ^{20 of the} device and through a resistor to the power bus.