DE2019100A1 - Astable multivibrator clock with transistors - Google Patents

Description

"Astable multivibrator clock with transistors'1 The invention relates to an astable multivibrator clock with transistors for controlling the Switch-on and switch-off times of circuits with a large pulse ratio which the output is between the collector terminals of two transistors, which an RC element is assigned to each and its base potential depends on the voltage of the capacitor of the assigned RC element depends.

Such a multivibrator clock is considered to be a specific type of circuit arrangements used in control and pulse technology as generators required and used for the generation of square-wave output signals by which the astable level vibrator is a possible one Circuit arrangement represents with the property that two amplifier elements are capacitive in the way are fed back to each other that alternately one of the both amplifier elements are fully connected and the other is completely blocked.

Known astable multivibrators with transistors as amplifier elements are not for the purpose of controlling the switch-on and switch-off times of circuits, also with a large clock ratio, set up, but only for delivery square-wave control pulse signals of low power. With these astable level vibrators is the ratio of the pulse-free duration and the pulse duration (rakt ratio) generally more immutable through the use of resistors and capacitors Size fixed. With resistors and capacitors of the appropriate size you can a clock ratio of up to about 100 can be achieved, but a further increase is set higher-ohmic resistances ahead of those in the known circuit arrangements the current amplification of the transistors is too low and therefore the breakdown behavior of the Multivibrator is impaired in a nultivibrator circuit according to the invention these limits are an increase in the clock ratio up to extremely large values not set. Such a circuit is also suitable for controlling the on and switch-off time of a circuit according to a predetermined cycle ratio in the rhythm of the tilting frequency.

The multivibrator clock circuit according to the invention consists in that in the control circuits of the amplifier element transistors, the capacitor of the RC element assigned in parallel and the emitter-base I switching path one each via base resistors to the DC voltage of the multivibrator clock generator connected UJ transistor are connected in series and the clock transistors mutually connected between collector and base via coupling resistors are.

According to one embodiment of the multivibrator clock circuit are the capacitors of the RC elements used as step capacitors and the resistors the RC elements are designed to be adjustable, so that the clock ratio in a large Range can be changed in stages without adding resistors and capacitors need to be replaced.

With such a circuit, the advantage is achieved that the switching-determining Elements of the two RC elements, which separate the amplifier element transistor are assigned1 can be changed independently of one another, an essential Prerequisite for setting a large clock ratio of the nultivibrator clock generator. There is also the advantage that the multivibrator clock generator starts to oscillate in a completely safe manner guaranteed when switching on the DC operating voltage.

The multivibrator clock generator circuit is used to set extremely large clock ratios according to the invention by one the discharge time of the capacitor one of the used RC elements shortening additional transistor further developed, which one Condenser shunt forms and the at as a result of the capacitor discharge switched through amplifier element transistor is controlled low resistance.

According to a further embodiment of the invention is for Achievement of an exactly square-wave operation of the nultivibrator clock and a greater load capacity of its output the transistor in the shunt of the capacitor controlled at a voltage divider with low resistance, which is controlled by means of a Transistor is connected to the DC voltage of the multivibrator clock generator, which in turn from part of the voltage on the collector resistor of the switched through Amplifier element transistor is controlled. This voltage divider are useful the collector resistance of the transistor switching to the DC voltage and that RC element of the respective blocked amplifier element transistor connected in parallel.

On the basis of the exemplary embodiments shown in FIGS. 1 and 2 the invention is explained in more detail below.

Fig. 1 shows the basic circuit of an astable multi-vibrator clock according to the invention.

Fig. 2 shows the basic circuit developed according to the invention of the level vibrator clock, which has an extremely large clock ratio and an accurate Has rectangular and resilient output voltage.

According to Fig. 1 contains the basic circuit of an astable level vibrator clock generator according to the invention two amplifier element transistors 1 and 2 in emitter circuit, which are connected in parallel via a collector resistor 3 and 4 in known Way are connected to a DC voltage U. With the circuit shown The amplifier element transistors 1 and 2 are npn transistors. The transistors 1 and 2 are each assigned a time-determining RC element 3, 5, 6 and 4, 7, 8 separately. However, these RC elements are not between the collector of one and the base of the other amplifier element transistor as in known astable multivibrator circuits switched, but every RC-.

The element is the amplifier element transistor to which it is assigned, connected in parallel. The capacitor 6 or 8 of each RC element is in the control circuit of the associated amplifier element transistor 1 or 2 and has a base resistance 11 or 12 and the emitter-base I path of a UJ transistor 9 or 10, which is via Base resistors 13 and 14 or 15 and 16 also connected to the direct voltage U. is connected in series. The collector of one is with the base of the other Amplifier element transistor connected via a coupling resistor 17 and 18, respectively The capacitors 6 and 8 of the RC elements are step capacitors, namely rather coarse, but executed with several stages. The RC element resistors 6 and 7 can be designed to be high-resistance and accordingly finely variable.

The operation of the nultivibrator clock is easy to follow. When the amplifier element transistor 1 is switched on, the amplifier element transistor is 2 blocked, and it is connected to the base of transistor 1 via a coupling resistor 17 positive potential of the collector of transistor 2, whereby the transistor 1 remains connected.

Meanwhile, the capacitor is connected via the RC element resistors 4 and 7 8 loaded. With a correspondingly high resistance 7 and large capacitance of the capacitor 8, the charging time constant is large. Eventually reaches the voltage on the capacitor 8 the emitter breakdown voltage of the UJ transistor 10, so this switches through, and the capacitor 8 discharges via the control circuit of the amplifier element transistor 2. With a correspondingly low-resistance control circuit, the discharge time is short.

However, as soon as the amplifier element transistor 2 is switched on, the potential falls at its collector and at the base of the amplifier element transistor 1 abruptly, whereby the transistor 1 is blocked. Through the raised Potential at the collector of the transistor 1 becomes the transistor via the resistor 18 2 get connected, while via the RC element resistors 3 and 5 the capacitor 6 is now loaded. With a correspondingly small charging time constant of the RC element 3, 5, 6, the voltage across the capacitor 6 reaches the breakdown voltage after a short time of the UJ transistor 9, so that it is turned on and the capacitor 6 via the Control circuit of the amplifier element transistor 1, also switching it through, is discharged. Thus the assumed initial state is reached again and a full clock period of the multivibrator clock is detected. According to the above Described is the amplifier element transistor for almost a whole clock period 1 switched through and the amplifier element transistor 2 blocked. Only in one great way short period of time at the end of the clock period is the amplifier element transistor 2 switched through and the amplifier element transistor 1 blocked.

At the collector terminal A of the transistor 1 is almost during one negative DC voltage UA over the entire clock period, followed by a short positive Voltage pulse. In the circuit of the multivibrator clock according to the invention it is, for example, when using two transistors of the type 2N1711 as amplifier element transistors and from UJ transistors of type 2N1671A possible, the changeable Resistance with a maximum of 5 MOhm and the variable resistance 5 with a minimum of about 6 KOhm to be measured. It can also have a maximum capacitance of the capacitor P 10 / uF, the capacitor 6, however, has a minimum capacitance of 0.1 / um.

The resistors 3 and 4 are only a few hundred ohms. With this dimensioning of the circuit elements, the negative voltage UA lasts for 50 s, while the DC voltage UB at collector terminal B is positive. The short positive voltage pulse at A, which exists at the same time as a short negative voltage pulse at B, only takes about 0.6 ms, i.e. H. the clock ratio is about 80,000. The specified Of course, the dimensioning also applies if the corresponding changes are made Circuit elements, so that a positive voltage UA is then present at the output A for a long time and a short negative voltage pulse, also with a duty cycle of 80,000 follows.

The preferred use of a multivibrator clock generator according to the invention, however, is not the generation of voltage pulses as Control signals for information technology equipment can be used, but rather Control of the switch-on and switch-off times with the pulse ratio that can be changed up to large values electrical circuits including power circuits. As examples of this are called the periodic control of long current blocks and short otrom pauses and vice versa the control of short current pulses and long current breaks, such as in cycle welding.

With such applications, output A or B of the Nultivibrator clock generator According to the invention, the control circuit of the electrical circuit on and to connect switching element switching off, so that the required in the control circuit Control energy taken from the DC operating voltage U of the P1ultivibrator clock generator will.

The circuit shown in Fig. 1 of a multivibrator clock generator according to the invention, as can be seen from FIG. 2, can still be designed in the manner that even larger clock ratios are achieved, and that also the temporal Course of the output pulses exactly square-wave and the output of the clock becomes more resilient. To achieve extremely large clock ratios is the capacitors 6 and 8 each have an additional transistor 19 and 20 connected in parallel. about these Transistors can use the two capacitors 6 and 8 after their discharge is over the respective through-connected UJ transistor has come into operation, swell and completely discharged, so that the charging time of the two RC elements is the same Dimensioning of R and C is extended and thus the pulse ratio can be increased can, and that the discharge time of the capacitors is shorter than the intended shortest Loading time. The additional transistors 19 and 20 are each connected to a voltage divider 21 or 22 controlled, to which a further transistor 23 or 24 gate is switched and a collector resistor 25 or 26 of this transistor and the RC element of the each blocked amplifier element transistor are connected in parallel. The collector resistances 3 and 4 of the amplifier element transistors 1 and 2 are designed as voltage dividers, to control the transistors 23 and 24. The additional transistors 19 and 20 are opened each time the amplifier element transistors 1 and 2 are switched through, by the transistors 23 and 24 controlled at the collector resistors 3 and 4 switched through and the voltage dividers 21 and 22 to the DC voltage U be switched. Since the collector resistors 25 and 26 must be dimensioned with low resistance can, can in this further developed multivibrator clock circuit higher resilient output pulses at branch points A 'or B', which are now form the output of the circuit. Furthermore, since at the Junction point, which the current conducting controlled transistor 23 or 24 is connected upstream, the positive potential of the DC voltage U is, exactly rectangular output pulses can be picked up without a sloping roof.

Claims (4)

Sponsorship claims stable level vibrator clock with transistors to control the Switch-on and switch-off times of circuits with a large pulse ratio which the outputs at the collector connections of two transistor amplifier elements which are each assigned an RC element and their base potential depends on the voltage of the capacitor of the associated RC element depends, characterized in that in the control circuits of these transistors (1,2) the capacitor (6,8) of the in Parallel connection of the RC element (3,5,6; 4,7,8) and the emitter-base I-switching path one each via base resistors (13, 14; 15, 16) to the direct voltage (U) of the multivibrator clock connected UJ transistor (9, 10) are connected in series and the amplifier element transistors (1,2) mutually between the collector and the base via coupling resistors (17, 18) are connected. 2) Astable level vibrator clock generator according to claim 1, characterized in, that the capacitors (6, 8) of the RC elements used as step capacitors and the resistors (5, 7) of the RC elements are adjustable. 3) Astable multivibrator clock generator according to claims 1 and 2, characterized by the discharge time of the two capacitors (6b8) used RC elements shortening additional transistor (19, 20), which has a shunt of Capacitor forms and when the amplifier element transistor is switched through as a result of the capacitor discharge (1 or 2) is controlled with low resistance, to specify an extremely high clock ratio. 4) Astable multivibrator clock according to claims 1 to 3, characterized in that the additional transistor (19, 20) is connected to a voltage divider (21, 22) is controllable with low resistance, which by means of a when switching through the Amplifier element transistor (1, 2) from part of the voltage to its collector resistance (3, 4) electrically controlled transistor (23, 24), whose wool gate resistance (25, 26) is low-resistance and connected in parallel to the voltage divider, to the DC voltage (U) of the multivibrator clock is switchable, and that to achieve exactly rectangular and resilient output pulses of the clock, the RC element (7,8; 5,6) of each Blocked amplifier element transistor (2,1) connected to the voltage divider (21, 2?) paalleI is. Blank page