DE2337825A1 - VOLTAGE CONTROLLED PULSE GENERATOR - Google Patents

Description

24 267

Gamma Müvek, Budapest / Hungary

Voltage controlled pulse generator

The invention relates to a voltage-controlled pulse generator with two transistors opposite one another Type built and connected to a power source amplifier stages, with between the output circuit one of the amplifier stages and the control calls through inductive coupling, a winding of a transformer causing positive feedback is connected. It concerns in particular

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special a two-digit voltage-controlled pulse generator, which at a certain input voltage a series of pulses constant frequency generated.

There is a circuit to operate a two-digit stepper motor necessary, which emits a pulse series of constant frequency at a certain value of an increasing input voltage. A similar circuit is required to control controlled diodes, e.g. thyristors. In this case, the control circuit generates Ignition pulses. For this purpose, a pulse generator is generally used, the signals of which are passed through a gate and this gate is controlled by the input voltage.

The known solutions have the disadvantage that the switching level is indeterminate, which is why the pulses - if the control signal approaches the opening value - can get through in the locked position of the gate. Interference voltages that the control signal will inevitably be superimposed, cause the uncertainty of the switching level. To avoid this disadvantage, will the gate is not controlled directly by the control signal, but by means of a bistable trigger circuit.

The operation of the bistable multivibrator generally requires a large control voltage, but not available says: The control voltage must be increased there. The resulting circuits are involved and costly.

The aim of the invention is to create a two-digit circuit arrangement which consists of only two amplifier stages The output signal is a series of impulses, showing how they work is bistable and its input sensitivity is greater than that of the usual bistable trigger circuits.

This goal is achieved with a pulse generator that was

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described type achieved according to the invention in that between the output electrode of the first amplifier stage and the current source a voltage divider is connected, the control electrode of the first amplifier stage with the starting point of a per se known addition circuit is connected to two inputs, between the output electrode of the second amplifier stage and the current source is connected to the primary winding of the transformer, the control electrode of the second amplifier stage via the series connection of a capacitor, the secondary winding of the transformer, a diode and a voltage source more constant Voltage is connected to the output electrode of the first amplifier stage, the capacitor via resistors to the starting point of the voltage divider, and the output electrode of the second amplifier stage via the series connection of a per se known rectifier and a per se known integrating circuit connected to an η input of the addition circuit is, to whose other input an input voltage source is connected.

Appropriate embodiments or extensions of the invention result from the claims.

Embodiments of the invention are shown in the drawing and are described in more detail below. Show in the drawing

Fig. 1 shows an embodiment of the invention Pulse generator,

Fig. 2 shows another embodiment of the invention Pulse generator, and

J shows a further embodiment of the invention Pulse generator.

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In the circuit arrangement according to FIG. 1, there are two amplifier stages, which consist of transistors j and 4 of opposite types (npn-pnp) connected in the emitter circuit, with connected to a current source Z with the corresponding polarity. The working resistance of the transistor 3 forms a voltage divider 5, and that of the transistor 4 is formed by the primary winding of a transformer 7. Between the collector of transistor 3 and the base of transistor 4 are a voltage source 10 with constant voltage (e.g. a Zener diode), a diode 9 »the secondary winding of the transformer and a capacitor 8 connected in series. The two poles of the capacitor 8 are connected to the tap of the voltage divider 5 via resistors 11 and 12, respectively. The outcome of a Adding circuit 6 is to the base of transistor 3, one Its inputs are via an integrating circuit 14 and one. Rectifier 13 n »with the collector of transistor 4, and be the other input is connected to an input voltage source 1. A load resistor 15 is on a separate winding of the transformer 7

The circuit according to the invention shown as an example works as follows:

If the voltage of the input voltage source 1 is below a certain threshold value, only a small voltage was applied to the voltage divider 5 and only a small current flows through the transistor 4. An increase in the voltage of the input voltage source 1 will also increase the voltage at the voltage divider 5, as a result of which a base current flows via the resistor 11 to the transistor 4. As a result, the transistor 4 is brought from the blocked state to an operating point in which it can amplify. If one increases the voltage continues, ^j dis voltage at the voltage divider 5 is reach the SpannungsweiH the Spannimgsquelle 10, whereby the diode 9 becomes conductive, the base current of transistor 4 rises and

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a voltage is generated in the winding of the transformer f , which increases the base current even further. So the base current of the transistor 4 is increased like an avalanche to the maximum.

Because of the inductance of the transformer located in the collector circuit of the transistor 4, the collector current can pass through accept the base current determined fourth only somewhat delayed. When the collector current has reached this value, it will increase the collector voltage of transistor 4, and the collector current reduce the same, which eliminates itself through the transformer 7 like an avalanche. In the meantime the The capacitor 8 is charged by the base current to a voltage which is greater than the voltage at the tap of the voltage divider so that the voltage of the capacitor 8 will keep the transistor 4 blocked until it is discharged through the resistors 11 and 12 is that the base current can flow again.

The voltage occurring at the collector of the transistor 4 when the pulse generator is switched on generates a current in the base-emitter circuit of the transistor 5 after rectification by the rectifier 1'3 and smoothing by the integrating circuit 14 via the addition circuit 6 the input a ¥> approach source 1 superimpose electricity generated. If the voltage of the voltage source 1 is reduced in this way, the switch-off takes place at a lower value than the switch-on, so the circuit has a hysteresis.

Pig. 2 shows another embodiment of the invention voltage controlled pulse generator. It differs from that shown in Fig. 1 in that the load resistance 15 not to a separate winding of the transformer 7, but is connected to the collector of transistor 4.

Fig. 3 shows a further embodiment of the invention voltage controlled pulse generator, which differs from the

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The example mentioned above differs in that the hysteresis effect generating current is taken from a separate winding of the transformer 7.

The voltage controlled pulse generator according to the invention is claimed only little effort, since it solves the task at hand with only two amplifier stages, and it also has a large one Input sensitivity. In the blocked state, the circuit is insensitive to interference signals and the 3-gate voltages do not cause any uncertainty when switching.

In brief summary, the invention includes a voltage controlled Pulse generator, at the output of which a series of pulses of constant frequency at a certain input voltage appears. The pulse generator according to the invention contains two amplifier stages constructed from transistors of opposite types. The working resistance of one of the amplifier stages is a voltage divider, an addition circuit is connected to the control electrode of the same amplifier stage, its output electrode is more constant via a series connection of the secondary winding of a transformer, a voltage source Voltage, a diode and a capacitor are connected to the control electrode of the other amplifier stage. The dem The direct voltage generated proportional to the output signal is added to the input voltage in the addition circuit.

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Claims (4)

Claims 1. Voltage s-controlled pulse generator, which contains two transistors of opposite types (npn-pnp) built up and connected to a power source amplifier stages, whereby between the output circuit of one of the amplifier stages and the control stage a winding of a transformer causing positive feedback by inductive coupling is connected is, characterized in that a voltage divider (5) is connected between the output electrode of the first amplifier stage (J) and the current source (2), the control electrode of the first amplifier stage (3) with the starting point of a known addition circuit (6) with two Inputs, the primary winding of the transformer (7) is connected between the output electrode of the second amplifier stage (4) and the current source (2), the control electrode of the second amplifier stage (4) via the series connection of a capacitor (8), the secondary winding of the transformer ( 7 ) s a diode (9) and a tension ung squeHe (10) constant voltage connected to the output electrode of the first amplifier stage (J) ii-.t, the capacitor (8) via resistors (11,12) to the starting point of the voltage divider (5), and the output electrode of the second amplifier stage ( 4) is connected via the series connection of a known rectifier (IJ) and a known integrating circuit (14) to one input of the addition circuit (6), to the other input of which an input voltage source (1) is connected. 2. Voltage controlled pulse generator according to claim 1, characterized in that a separate Winding of the transformer (7) a load resistor Pivl (15) connected lsi. 509807/0981 - 8 - 3. Voltage-controlled pulse generator according to claim 1, characterized in that t on the output electrode a load resistor (15) is connected to the second amplifier stage (4). 4. Voltage controlled pulse generator according to claim 2 or 3> characterized in that the rectifier (13) is not connected to the output electrode of the second amplifier stage (4), but is connected to a separate secondary winding of the transformer (7). 509807 / Ü951