DE1250487B - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY ^^ nt. Cl .: H03k / ^ ⁰ ^ / ^^ / ^

C.

UTSCHES WTW ^ PATENT OFFICE German cl .: 21 al-36/18

CircuIeer

USLEGATE

Number: 1 250 487

File number: V 29526 VIII a / 21 al

1 250 487 filing date: October 15, 1965 ..

Opened on: September 21, 1967

The invention relates to a circuit arrangement for bistable multivibrators that are used in devices for Remote control or remote monitoring can be used for frequency division and made of rectangular ferrite and transistors exist.

There are circuit arrangements for bistable multivibrators with rectangular ferrite and transistors known (German Auslegeschrift 1164 474), in which the bistable behavior is brought about by the interaction of two transistors in a corresponding feedback circuit arrangement.

All of these circuit arrangements have the disadvantage that they have at least two transistors and thus require greater expenditure on semiconductors and, as a result, compared to the use of rectangular ferrite are less reliable. Furthermore, these circuit arrangements require a Continuous current and thus ongoing energy to maintain the bistable state, both when the bistable multivibrators work frequency-dividing, as well as when these, used as a counter, with a The counting result is in a fixed switching position, possibly over a long period of time.

In a known circuit arrangement for bistable multivibrators with two rectangular ferrite cores and a transistor, when used as a binary divider stage, the pulse train to be halved is the Input windings of the two square ferrites fed together. Both cores are switched to the remanence position L by these input pulses.

The second core has a further winding which is phase-shifted to the input pulse train Intermediate clock pulse sequence is supplied, which switches the second core back into the remanence position 0. This ensures that after a first input pulse both cores are in the L state, then the following intermediate clock pulse switches the second core to 0, and the following second input pulse only switches this second core into the State L around. Further secondary windings on these cores are like that along with the transistor linked that when the second input pulse switches only the second core, thereby the first core is switched back to the remanence position 0. The two cores are now in place again in the initial switching position, and the second core has half the switching frequency compared to the input pulse train.

With precise dimensioning, the circuit arrangement mentioned works for bistable multivibrators perfect. However, the arrangement is sensitive to input pulses with a long pulse duration.

Circuit arrangement

for bistable multivibrators

with rectangular ferrite and transistors

Applicant:

VEB Rafena works, Television and communications technology, Radeberg (Sa.), Fritz-Ebert-Str. 70 Named as inventor: Helmut Hünich, Friedewald (district of Dresden)

As a rule, additional measures must be taken to ensure that a maximum permissible Duration of the input pulses is not exceeded. There are also known bistable multivibrators with transfluxors and transistors. Is disadvantageous here the use of special magnetic cores.

The purpose of the invention is to

parts to avoid.

The invention is based on the object of a circuit arrangement for bistable multivibrators with rectangular ferrite and transistors for frequency division to find, those without magnetic cores special

Type of construction.

According to the invention, this object is achieved in that a first winding of a rectangular ferrite magnetic core in series with a first winding an inductance core between an input terminal and the negative pole of the operating voltage is arranged. A second winding of the magnetic core is in series with a second winding of the Inductance core between the base connection of a transistor and the zero potential. The emitter of the transistor is connected to zero potential. The collector of the transistor is connected to the negative pole of the operating voltage via a capacitor and furthermore in series with a third winding of the magnetic core and an ohmic resistor connected to an output terminal. The polarity of the windings of the magnetic core is chosen so that the magnetic core is switched to the remanence state L by an L signal arriving via the input terminal on the first winding of the magnetic core, that the magnetic core flips back into the remanence state 0 due to an L signal generated in the third winding and that when the magnet

709 648/311

(7h.

Claims (1)

kernes in the remanence state L in the second winding of the magnetic core generated the O signal Transistor locks. The winding direction for the two windings of the inductance core is chosen so that an L-signal arriving at the first winding of the inductance core in the second winding of the inductance core generates an L-signal, which opens the transistor and thus a at its collector Causes L signal. An exemplary embodiment is intended to explain the concept of the invention. In the drawing is the circuit arrangement of a bistable multivibrator according to the invention. A first winding 1 of a rectangular ferrite magnetic core 2 lies in series with a first winding 3 of an inductance core 4 between an input terminal 5 and the negative pole of the operating voltage. A second winding 6 of the magnetic core 2 is in series with a second winding 7 of the inductance core 4 between the base connection of a transistor 8 and the zero potential. The emitter of transistor 8 is connected to zero potential. The collector of the transistor 8 is connected via a capacitor 9 to the negative pole of the operating voltage and also in series with a third winding 10 of the magnetic core 2 and an ohmic resistor 11 with an output terminal 12 . The polarity of the windings 1, 6, 10 of the magnetic core 2 are chosen so that the magnetic core 2 tilts by an incoming to the first coil 1 of the magnetic core 2 through the input terminal 5 L signal in the remanent state L, that the magnetic core 2 by a generated in the third winding 10 L signal back tilts in the remanent state 0 and that the O-signal generated during the overturning of the magnetic core 2 in the remanent state L in the second coil 6 of the magnetic core 2 turns off the transistor. 8 The winding sense of the two windings 3, 7 of the Induktivitätskernes 4 is selected so that an incoming at the first winding 3 of the Induktivitätskernes 4 L signal generated in the second winding 7 of the Induktivitätskernes 4, an L-signal which opens the transistor 8 and so that it causes an L signal at its collector. The mode of operation is as follows: In an arrangement with bistable multivibrators serving for frequency division, the output 12 of a preceding multivibrator is connected to the input 5 of such a bistable multivibrator and the input 5 of a subsequent multivibrator is connected to the output 12. If an L signal arrives at input terminal 5 , magnet core 2 is tilted into remanence position L. In the base circuit 6, 7 of the transistor 8 there is almost simultaneously an 0 signal via the second winding 6 of the magnetic core 2 and an L signal via the second winding 7 of the inductance core 4 , so that the transistor 8 remains blocked. With a subsequent second L signal at input 5 , the magnetic core 2 remains in the already existing remanence position L. In the base circle 6, 7 of the Transistor 8 is thus only the L signal via the second winding 7 of the inductance core 4 effective, the transistor 8 opens and emits an L signal at the collector. Via the switching elements capacitor 9, resistor and first winding 3 of the inductance core 4 of the following stage, acting as delay elements, this L signal switches the magnet core 2 back to the remanence position 0 with a delay via the third winding 10 and delivers the L signal to the output terminal 12 Controlling the next level. The L signal appears at the output 12 of the bistable multivibrator after every second L signal at the input 5 of the bistable multivibrator, which corresponds to a desired frequency division. Claim: Circuit arrangement for bistable multivibrators with square ferrite and transistors for frequency division, characterized in that a first winding (1) of a square ferrite magnetic core (2) in series with a first winding (3) of an inductance core (4) between an input terminal (5) and the negative pole of the operating voltage, a second winding (6) of the magnetic core (2) in series with a second winding (7) of the inductance core (4) between the base connection of a transistor (8) and the zero potential, the emitter of the transistor ( 8) is connected to zero potential and the collector of the transistor (8) via a capacitor (9) with the negative pole of the operating voltage and also in series with a third winding (10) of the magnetic core (2) and an ohmic resistor (11) an output terminal (12) is connected, wherein the polarity of the windings (1, 6, 10) of the magnetic core (2) are chosen so that the magnetic core (2) by an over he the input terminal (5) on the first winding (1) of the magnetic core (2) incoming L-signal to the remanence state L flips that the magnetic core (2) by an L-signal generated on the third winding (10) in the remanence state 0 tilts back and that an O signal generated when the magnetic core (2) flips over into the remanence state L in the second winding (6) of the magnetic core (2 ) blocks the transistor (8) , whereby the winding direction for the two windings (3, 7 is selected) of the Induktivitätskernes (4) so that an incoming at the first winding (3) of the Induktivitätskernes (4) L-signal generated in the second winding (7) of the Induktivitätskernes (4) a low level signal, the transistor ( 8) opens and thus causes an L signal at its collector. Documents considered: German Auslegeschrift No. 1 075 150; U.S. Patent Nos. 2,850,646, 3,093,745. 1 sheet of drawings