SU416825A1 - - Google Patents

Description

one

The invention relates to an impulsive TopopaiM and can be used in automation devices and impulse technology.

A transistor impulse generator is known, which contains two times of the driving bridge element, diodes and a transformer, the ends of the primary current are connected to the collectors of the transistors, and the middle (OUTPUT is connected to the common connection point of the power supply and lamella resistors of both bridge elements, opposite shoulders .which installed a variable resistor.

However, the known generator has an exponential dependence of the frequency of the output pulses on the control voltage and the lack of reliability of the start when it is turned on.

The aim of the invention is to increase the linearity of the dependence of the output frequency of the output and; M1 pulses on the control voltage and increase the reliability of the start of the generator when it is turned on.

For this, additional windings are introduced into the transformer, the first of which is connected between the resistor and the shoulder capacitor of the first bridge element, the second between the resistor and the shoulder capacitor of the second bridge element, one terminals of the third and fourth windings are combined and

connected to the movable contact of the variable resistor, and the second terminals of these windings are connected to the corresponding disconnecting diodes. Invented 1 sec. By drawing.

The drawing shows a circuit diagram in principle.

The pulse generator contains switching transistors 1, 2, time specifying bridge elements composed of: the first from resistor 3 and capacitor 4, the second from ff resistor 5 and capacitor 6, disconnecting diodes 7, 8, diodes 9, 10, shunt junctions base-emitter transistors, variable resistor II, limiting resistors 12, 13, transformer 14, power source connected to terminals 15, 16 and diodes 17, 18. The ends of the primary winding of transformer 14 are connected to the collectors of transistors 1, 2, and the middle terminal is connected to a common point source connections and power resistors and the shoulder 3 and 5 both of bridge elements in opposite shoulders which .peremenny resistor 11 is mounted,

connected through limiting resistors 12 and 13 to the power supply. Transformer 14 also has four additional windings, the first of which is connected between the resistor 3 and the capacitor 4 of the first bridge element, the second between the resistor 5 and the capacitor 6 of the second bridge element; The ONE pins of the third and -invertal windings are combined and connected to the moving contact of the AC variable resistor, the second output of the third winding is connected to the disconnecting diode 7, and the second output of the fourth winding is connected to the disconnecting diode 8. The load is connected to the secondary winding of the transformer. The pulse generator is operating as follows. Let the capacitor 4 be charged from a power supply circuit, including the base-emitter junction of transistor 1, the first additional winding of the transformer 14 and the resistor 3. The charging current of the capacitor 4 will be determined not only by the voltage of the power supply, but also by the first additional winding connected according to the voltage of the power source. Transistor 1 is unlocked, goes into saturation mode, and the entire voltage of the power supply is applied to half of the primary winding of the transformer 14 connected to the collector of this transistor and the middle terminal. On the OUTPUT (secondary) winding of the transformer, one of the half-waves of the generated oscillation period is formed, the duration of which is determined by the charging time of the capacitor 4 to the magnitude of the clamp voltage applied to the anode of the breaking diode 7 and equal to the voltage drop on the resistors 11, 13 and according to the voltage connected to it on the third additional winding. Until the voltage on the capacitor 4 is equal to the clamping voltage, the disconnecting diode 7 is locked and the level of the clamping voltage does not affect the charging process of the capacitor 4. Since these voltages are equal, the charge current of the capacitor 4 becomes zero and the transistor 1 is locked. The capacitor 4 begins to discharge in two circuits: through diode 9, resistor 13, part of variable resistor And, the third additional winding, disconnecting diode 7, which make up the first circuit, and through diode 9, starting to open transistor 2, diode 17, first additional winding that form the second circuit. This ensures reliable locking of the transistor 1 and, as a result of this, is clearly unlocked by transistor 2 due to the charge current of the capacitor 6, which was previously charged in the opposite direction of the power supply voltage. Further, the dynamics of the process that generates the second half-wave of the output voltage repeats and the whole process becomes periodic. The pattern of voltage variation on capacitors 4 and 6 is exponential. To exclude exponentiality, the initial linear portion of this curve is used. Since this section is small, it is neo: stretchable, for which additional transformer windings are used, which play the role of higher voltage sources. At the same time, this contributes to an increase in the stability of the pulse frequency of the generator with a wide range of voltage supply sources. The subject of the invention A transistor impulse generator containing two times of the driving bridge element, deactivating diodes, diodes, shunting base-emitter transistors, and a transformer, the ends of the primary winding of which are connected to the collector transistor, and the middle output is connected to the common point of connection of the power source and shoulder resistors both bridge elements, in the opposite arms of which there is a variable resistor connected through a limiting resistor to a power source, differing from that, in order to increase the linearity of the output pulse frequency dependence on the control voltage and increase the generator start up reliability when it is turned on, additional windings are introduced into the transformer, the first of which is connected between the resistor and the shoulder capacitor of the first bridge element, and the second between the resistor and the capacitor of the shoulder of the second bridge element, with one of the conclusions of the third and fourth windings combined and connected to the moving contact of the variable resistor, another conclusion of the third The coil is connected to the first disconnecting diode, and the other end of the fourth winding is connected to the second disconnecting diode.

LA.4.W

, 14CD