DE1246024B - Multivibrator for generating pulses with variable frequency - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

-PATENT OFFICE

EDITORIAL

Int. Cl .:

H03k

German class: 21 al - 36/02

Number: 1246 024

File number: U11413 VIII a / 21 al

Filing date: February 2, 1965

Open date: - August 3, 1967

The invention relates to a multivibrator for generating pulses with a variable frequency, consisting of two transistors, the emitter of which is connected to the one pole of a direct current source and whose Collectors are each connected to the other pole of the direct current source via a resistor and of which the base of one transistor has an optional one of a group of capacitors switchable capacitor is connected to the collector of the other transistor, its base electrode via a capacitor that can be selected from a further group of capacitors is connected to the collector of one transistor.

In a known multivibrator of the aforementioned type for generating more constant pulses Repetition frequency can change the pulse duty factor by connecting appropriate capacitors will.

There is also one already equipped with two amplifier tubes. Multivibrator circuit known in which the circuit of an output electrode of each of the tubes through a capacitor to the Control grid circle is coupled to the other tube. Between the control grids of the two tubes is a Resistor switched on, from which an adjustable tap point to change the duty cycle is connected to a point common to the cathode lines of the two tubes. To change the frequency regardless of the set duty cycle, this resistance is another Resistance bridged with adjustable size. The frequency of this multivibrator circuit can be IedigHch change within a frequency range specified by the size of the capacitors.

The invention is based on the object of providing a multivibrator of the type mentioned at the outset to design that the frequency within several adjustable, widely spaced frequency bands can be changed.

This object is now achieved in that a variable resistor is installed in parallel with each capacitor lies, the taps of two variable resistors, one of which is a capacitor of the one group and the other is assigned to a capacitor of the same size in the other group, are mechanically connected in such a way that the same resistance is parallel to each capacitor, Capacitor pair assigned to each of two variable resistors with mechanically connected taps can be switched on with the help of its own switch and the base of one transistor via a resistor

Multivibrator for generating pulses
with variable frequency

Applicant:

United States Steel Corporation,
Pittsburgh, Pa. (V. St. A.)

Representative:

Dipl.-Ing. M. Licht, Dr. R. Schmidt,
Dipl.-Wirtsch.-Ing. A. Hansmann
and Dipl.-Ph.ys. S. Herrmann, patent attorneys,
Munich 2, Theresienstr. 33

Named as inventor:

Vincent Salvatore Borsattino,

Chursel Eugene Marker,

Jesse WiUiam Shalla, Gary, Ind. (V. St. A.)

Claimed priority:

V. St. of America of February 3, 1964 (341938)

and the base of the other transistor through a resistor to one pole of the direct current source connected is. In particular, there is a further variable resistor in series with each variable resistor, and the Taps assigned to a steep resistance pair with mechanically connected taps further variable resistors are also mechanically connected to one another.

When the multivibrator according to the invention, the different frequency bands can be easily Shifting a switch assigned to each frequency band can be set. Within a set Frequency band can adjust the frequency of the multivibrator by moving the mechanically interconnected taps of the variable resistor pair assigned to the frequency band are set will.

The multivibrator according to the invention can advantageously be used to control several motors each of which responds to control signals within a certain frequency range, for example to control the various motors of a crane system.

709 619/576

The drawing shows a circuit diagram of an embodiment of a multivibrator according to the invention.

The positive terminal of a low voltage DC power source, e.g. B. a battery 2, is connected to the emitters 4 E and 6 E of two transistors 4 and 6 , which are the pattern 2 N1404 or an equivalent pattern. The collectors 4 C and 6 C are connected to the negative terminal of the direct current source 2 via a resistor 8 and 10, respectively. The base 4 B is connected to the positive terminal of the battery 2 via a resistor 12 serving to limit the current and via a bias resistor 14 . The base 6 B is connected to the positive terminal of the battery 2 via a resistor and a bias resistor 16 . A contact 20 C of a multiple switch 20 is connected to the collector 6 C by a line 18. The base AB is connected via a resistor 24 by a line 22 with a contact 20C1 of the switch 20, ao The base 6 B is connected via a biasing resistor 28 by a line 26 to a contact 20 of the switch C 2 twentieth The collector 4 C is connected by a line 30 to a contact 20 C 3 of the switch 20 . The transistors and their associated switching elements and connections form a first unit.

The contacts 20C, 20C1, 20C2 and 20C3 are usually in the position indicated by solid lines, but can be switched to the position shown in dash-dotted lines. If the contact 20 C assumes the position shown in solid lines, then it is connected by a line 32 to a contact 34 C of the multiple switch 34 . The contacts 20C1, 20C2 and 20C3 are shown by the solid line position by lines 36, 38 and 40 to contacts 34 Cl _j 2 34 C and 34 C 3 of the switch 34 is connected. Usually the contacts 34 C, 34 Cl, 34 C 2 and 34 C 3 are in the position shown by solid lines; however, they can be switched to the position shown in dash-dotted lines. If they assume the position shown in solid lines, then the contacts 34C, 34C1, 34C2 and 34C3 are connected by lines 42, 44, 46 and 48 to contacts 50C, 50Cl, 50C2 and 50C3 of a multiple switch 50 . These contacts are usually open, as shown in solid lines; however, they can be switched to the dot-dash position.

A capacitor 52 is connected in series with the contacts 20C and 20Cl when the contacts are in the dot-dash position. Two variable resistors 54 and 56 , which are arranged in series, are connected in parallel with the capacitor 52. If the contacts 20 C 2 and 20 C 3 are in their dash-dotted position, a capacitor 58 is connected in series with them. In turn, two variable resistors 60 and 62, which are arranged in series, are connected in parallel to this capacitor 58. The sliding contact arms 54 ^ 4 and 60 A of the two resistors 54 and 60 are mechanically connected to one another in such a way that the resistor 54 is always set to the same value as the resistor 60. The same applies to the resistors 56 and 62. Also their sliding contact arms 56 A and 62 ^ 4 are mechanically coupled in such a way that the resistor 56 is always set to the same effective value

like resistor 62. The capacitors, their associated switching elements and connections form a second unit.

A similarly constructed third unit is now provided for a frequency range that differs from the frequency range of the second unit. This third unit includes variable resistors 66 and 68 which are connected in series with one another and connected in parallel to a capacitor 64. This capacitor is connected in series with contacts 34C and 34 Cl when these are in the dashed position. A capacitor 70 is connected in series with the contacts 34 C 2 and 34 C 3 when these contacts assume their position in dashed lines. Parallel to the capacitor 70 two variable resistors 72 and 74 are connected in series, the sliding contact arms 66 A and 72 ^ 4 of which are mechanically coupled and therefore always set the resistor 66 to the same value as the resistor 72. The sliding contact arms 68 and 74 ^ 4 are coupled to one another so that they always set the resistor 68 to the same effective value as the resistor 74.

In the illustrated example, a fourth unit is also provided for a third frequency range. This includes a capacitor 76 which is connected in series with contacts 50C and 50C1 when these contacts are in the dashed position. Two variable resistors 78 and 80 in series are connected in parallel with the capacitor 76 . If the contacts 50 C 2 and 50 C 3 assume their dashed position, then a capacitor 82 is connected in series with them. Parallel to this capacitor 82 are two variable resistors 84 and 86 connected in series. The sliding contact arms 78 ^ 4 and 84 ^ 4 are mechanically coupled so that they always set the resistor 78 to the same effective value as the resistor 84. In a corresponding manner the sliding contact arms 80 ^ 4 and 86 ^ 4 coupled so that they always set the resistor 80 to the same effective value as the resistor 86.

The values of the resistors 14 and 24 are always the same as those of the resistors 16 and 28. The values of the switching elements 52, 54 and 56 are also the same as those of the elements 58, 60 and 62. Furthermore, the values of the elements 64, 66 and 68 are the same size as those of the elements 70, 72 and 74. Also, the values of the elements 76, 78 and 80 are sized as large as those of the elements 82, 84 and 86. However, the capacitances of the capacitors 52, 64 and differ 76 from each other, and the values of the resistors connected in parallel with them also differ from the values connected in parallel with the other capacitors.

If one now wants to obtain the output voltage, the frequency of which is in the range given by the size of the switching elements 52, 54, 56, 58, 60 and 62 , then the contacts of the switch 20 are switched to the dashed position. The output frequency then generated can be changed within the frequency range by moving the sliding contact arms 56 ^ 4 and 62 ^ 4. However, if you want to generate an output voltage whose frequency is in the range determined by the values of the elements 64 to 74 , then you have to

Claims (2)

Switch switch 20 so that its contacts assume the position shown in solid lines. The switch 34, however, is then switched to the dashed position. The output frequency can then be changed within this frequency range by adjusting the arms 68 ^ 4 and 74 ^ 4. If one wishes to obtain an output voltage, the frequency of which lies in that range which is determined by the values of the elements 76 to 86, then the switches 20 and 34 are set so that their contacts assume the position shown by solid lines while the Switch 50 sets so that its contacts are in the dashed position. The frequency then obtained can be changed by moving arms 80 A and 86 ^ 4. The purpose of resistors 54, 60, 66, 72, 78 and 84 is to compensate for any shift in the selected frequency that may be due to aging of the switching elements. You can of course generate additional output voltages in other frequency ranges by adding additional units, each consisting of capacitors and variable resistors and which can be switched on by additional switching contacts. The values of these additional capacitors and resistors would then of course differ from those of the units already described. 30 claims: 1. Multivibrator for generating pulses with variable frequency, consisting of two Transistors, their emitters with one pole of a direct current source and their collectors are each connected to the other pole of the direct current source via a resistor and of which the base of one transistor can be selected from a group of condensers capacitors connectable capacitor is connected to the collector of the other transistor, the base electrode of which is connected to the collector of one transistor via a capacitor that can optionally be connected from a further group of capacitors, characterized in that in parallel with each capacitor (52, 58, 64, 70 , 76, 82) a variable resistor (56, 62, 68, 74, 80, 86) lies, the grippers (56 ^ 4, 62 , 4 or 68 , 4, 74 , 4 or 80 A, 86 A) of two variable resistors (56, 62 or 68, 74 or 80, 86) of which one is a capacitor (52 or 64 or 76) of one group and the other is a capacitor (68, 70, 82) of the same size assigned to the other group, are mechanically connected to each other in such a way that the same resistor is parallel to each capacitor, each pair of capacitors (62, 58 or 64, 70 or 76, 82) assigned to two variable resistors with mechanically connected taps with the aid of its own Switch (20 or 34 or 50) bar and the base (4B) of one transistor (4) via a resistor (14) and the base (6B) of the other resistor (6) via a resistor (16) to one pole (+) of the direct current source (2) connected is 2. Multivibrator according to claim 1, characterized in that in series with each variable resistor (56, 62, 68, 74, 80, 86) another variable resistor (54, 60, 66, 72, 78, 84) harbors and the taps A variable resistor pair with mechanically connected taps are also mechanically connected to one another. Considered publications:
German Auslegeschrift No. 1084 756;
Swiss patent specification No. 230 975. 1 sheet of drawings 709 619/576 7.67 © BundesdruckereiBerIin