DE1093408B - Multivibrator circuit with high frequency constancy and defined response time - Google Patents

Description

The known, formed from two transistors multivibrator circuits have the disadvantage that with increasing temperature the frequency changes, because with a temperature increase the transistors also let current through in the reverse direction. As a result, with these known arrangements, the response time is not constant.

The invention aims to provide a multivibrator circuit with a defined response time. You achieve this in that in a multivibrator circuit with two transistors, the base electrodes of which each have a capacitor connected to the collector of the each other transistor are coupled, the collector of one of the two current-permeable in the idle state A short-circuitable resistor is connected upstream of the transistors and has such a resistance value has that the multivibrator cannot oscillate while the resistor is switched on. The oscillation of the Multivibrators excited. The size of the here at the coupling point of the collector with the base of the other transistor occurring voltage jump and the time constant of the switching elements processing the voltage jump determines the Talk time of the multivibrator, d. H. the time until a pulse is received at the collector of the other transistor can be removed.

In the drawing, FIG. 1 shows a known multivibrator circuit. In this, the base of the transistor 7Yl is connected to the collector of the transistor 7V2 via a capacitor C1. The base of the transistor Tr2 is connected to the collector of the transistor TrI via the capacitor C 2 . With a suitable dimensioning of the resistors RK, RB , the frequency of this multivibrator is only determined by the time constants RBl · Cl and RB 2 · C 2 and is largely independent of the voltage U. However, the frequency rises with the temperature, because then the diode formed from the collector and base of each transistor and the diode formed from the emitter and base of each transistor draw current in the reverse direction.

In addition to the current iR through the resistor RB , a current iT then also flows, so that the capacitor C ⁴ ^ is discharged more quickly.

An embodiment of the invention is shown in FIG. This again shows a multivibrator circuit formed from the transistors TrI and Tr 2 and the resistors RK, RB and the capacitors Cl and C 2 . The collector of the right transistor Tr 2 is preceded by an adjustable resistor R , which can be bridged by the emitter-collector path of a transistor Tr 3.

Multivibrator circuit
with high frequency constancy
and defined response time

Applicant:

Friedrich Merk telephone construction

Corporation,
Munich 9, Warngauer Str. 32

Dipl.-Ing. Traian v. Onciul, Munich,
has been named as the inventor

The base of this transistor TrS can be connected to negative voltage via a switch s , so that the emitter-collector path becomes conductive.

As long as the transistor Tr 3 blocks and the resistance R is very large, the potential -U is present at the collector terminal K 2. The transistor Tr 1 is therefore also open, and the collector connection K1 is connected to the voltage OVoIt. Will the switch.? turned over and thus the transistor Tr 3 conducts current, then the potential at the collector connection K2 jumps to OVoIt; This voltage change is transmitted via the capacitor C 1 to the base of the transistor TrI, so that this transistor blocks and the collector terminal K1 carries the voltage - U. According to the time constant determined by the dimensioning of the resistor RB 1 and the capacitor C1 , the positive voltage of the base of the transistor Tr 1 decays, and this base becomes negative again, so that the transistor TrI is opened. The voltage OVoIt therefore occurs at the collector terminal Kl. This jump in the voltage of the collector connection K1 from -U volts to 0 volts can be tapped via a capacitor C 3 and a diode D at the connection / and used as a pulse. The duration of the time span by which the voltage jump at the collector terminal Kl is delayed from the closing of the switch j is determined by the size of the resistor R and the time constant of the circuit with the resistor RU1 and the capacitor C 1.

If the resistance R is very large and both the capacitors C1 and C 2 and the resistors RB1, RB2 are the same size, then the first pulse appears; at the connection / half a period

009 649/287

after turning on. This time can be shortened by giving the resistor R a smaller value. Then the height of the first potential jump at the terminal K2 is smaller than the voltage - U, because the transistor TrI and the resistor R are a voltage divider via the resistors RK 2. As a result, Cl does not acquire as much charge and is discharged more quickly.

The ratio of response time to period can be changed by unequal dimensioning of the capacitors C1 and C2 or the resistors RB1 and RB2 . The resistors RB are counted appropriately small compared with the resistance of the transistors diodes in the reverse direction at a temperature increase, so that the reverse-biased through the transistors current flowing iT is very small compared to the current iR and the speed of discharge of the capacitors Cl and C2 does not substantially Exerts influence.

Claims (4)

Patent claims: 1. Multi vibrator circuit with two transistors, the base electrodes of which are coupled via a capacitor to the collector of the respective other transistor, characterized in that to achieve a defined response time, the collector of one of the two transistors which are current-permeable in the quiescent state (Ti? 2) is short-circuited Resistor (R) is connected upstream, which has such a resistance that the multivibrator cannot oscillate while the resistor is switched on. 2. Multi vibrator circuit according to claim 1, characterized in that the resistor (R) connected upstream of the collector of the transistor (T 'RZ) which is current-permeable in the idle state is very large. 3. Multivibrator circuit according to claim 1, characterized in that to achieve an adjustable response time of the collector of the current- permeable transistor (TRZ) upstream of the resistor (R) is adjustable in size. 4. Multivibrator circuit according to claim 1, characterized in that to achieve an adjustable response time of the collector of the current- permeable transistor (TRZ) with the base of the other transistor (TRl) connecting the capacitor (Cl) and the series resistor (BRl) of the base of this Transistor (TrI) are adjustable. 1 sheet of drawings O 009 649/287 11.60