DE1947032C3 - Controlled, astable multivibrator - Google Patents

Description

Action elements are set or changed η only on the basis of P ^faktIs ^ ^ ^e ™ ^ _{ff also other} aspects.

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Invention thus begged in circuit technology Line general meaning; So it has a favorable effect wherever via a multivibrator is switched, even if only occasionally «in the load circuit, especially high power, sounded will. But also with pulse controls and in control circuits with the inventive individual features or their combination of sound achieves another considerable advantage, because the multivibrator works properly. For this purpose, the invention also suggests that the duty cycle and the frequency of the multivibrator can be selected and easily adjusted within certain limits is. According to the invention, there is a variable capacitor in the transmission and in the feedback branch of the multivibrator provided.

The only achieved with the multivibrator according to the invention Technical progress therefore lies in both a considerable improvement in the switching accuracy as well as in achieving complete freedom from reflux, because with the sudden cessation of the output pulse, the multivibrator is completely blocked he follows.

Here, the waveform of individual Meh ^r times pulse is arbitrary. Both rectangular and different shapes are possible.

E) he invention can in this respect also be used for very special purposes, such as in particular in the production of ignition pulses for the contactless control of converters via fast switching thyristors.

Since the invention also allows the use of transistors, power converter controls can also be used for robust operation, such as for railcars of rail vehicles, with the proposed Multivibrator can be equipped.

An embodiment of the invention will now be explained in more detail with reference to the single figure of the drawing explained.

(This figure shows a three-stage multivibrator with transistors 1, 2 and 3 Transistors 1 and 2 are provided to generate oscillation, while transistor 3 provides the output signal should only reinforce. The multivibrator is on three rails 4,5 and 6 with a positive, connected to a negative and a zero potential. It also has an input 7 for the Site control or input signal and an output or 8 'for the output signal to be used further on.

The input 7 is connected to the base of the first transistor 1 via a Trcnnwiderstanc Collector made up of the second capacitor 9 and a third resistor connected in series with it 10 existing transmission branch 11 leads to the base of the second transistor 2. The basic Emitler route the transistors 1 and 2 are bridged with an additional diode 19 and 20, respectively.

In the feedback branch 12 leading from the collector of the second transistor 2 to the base of the first transistor 1, a first diode 13 is arranged which, in the case shown, is polarized so that it can only block the transistor 1. The first diode 13 is connected in series with the first resistor 14 and the first capacitor 15, which together form a series element between the collector of the second transistor 2 and the base of the first transistor 1. From the junction point of 14 and 15 mt zero potential rail is 5 · leading cross member 16 from which consists of a second diode 17 having an upstream second resistor this eighteenth The second diode 17 is in the forward direction

switched and is used to charge the first capacitor 15.

The output stage connected to the oscillating stages with transistors 1 and 2 contains the transistor, which works in a collector circuit. the

ίο Base of transistor 3 is under Vorcbalrung one Resistance driven directly from the collector of transistor 2. The output 8 'of this stage and so that the entire multivibrator fold is at the emitter of transistor 3.

»5 All transistors of the npn type are shown in the figure. They receive their collector direct voltages from the working rail 6 with the positive potential. The base of transistor 1 and the emitter of the transistor 3 earths each via a high-resistance

stood out of the working rail ί with negative potential! provided. The emitters of the transistors 1 and 2 are connected to the rail 5 with zero potential.

The input signal is applied to input 7 against the zero railS. While the entrance

aj signal is present here, the multivibrator oscillates. This state is the working state.

In the idle state, when there is no signal, the transistor 2 is conductive and the first capacitor is 15 is discharged here. Meanwhile, the first transistor 1 is blocked and the second capacitor 9 loaded.

If an input signal is now applied to input 7, first transistor 1 becomes conductive. It starts the reciprocal loading and unloading of the

both stages. First, the second capacitor 9 discharges through the base path of the second transistor 2 and locks it. This state of affairs lasts for so long. until the second capacitor 9 is discharged. During this time, the first capacitor 15 is across the collector load resistance of the second Transistor 2 and the second diode 17 are charged.

When the second capacitor 9 is discharged, the second transistor 2 becomes conductive again. Here can the first capacitor 15 discharges via the first diode 13 and thereby blocks the first transistor 1. This state lasts until the first capacitor 15 is discharged.

The two additional diodes 19, 20, parallel to the base-emitter path of the two transistors 1 and 2. only serve to reliably prevent overdriving of the multivibrator. Such as the input signal at the input 7 is removed, the second transistor 2 becomes conductive. In order to there is no longer any output signal at output 8 or 8 '. The removal of the input signal can now both when the second transistor 2 is conducting or just blocking. In both cases the conductive state of the second transistor 2 is maintained or brought about.

In the circuit shown, for the duration of an input pulse, a sequence of amplified Received pulses of the same polarity at output 8 or 8 '. In the present case, they are positive Impulses. The residual voltage that may occur at the output in the idle or blocked state is of no importance, so that the multivibrator described in terms of its switching function as is an ideal switch to look at.

1 sheet of drawings

Claims (3)

i.e., different from one another, "* bjt multivibrator known, the 1. Controlled, astable multivibrator with two ™ ^ Äm contains whose collectors over each id Kllctors as well as over each S ^ ^e J ™ ££ ^C hliti with the base of the 1. Controlled, astable multivibrator with two ^ Äm contains, whose collectors over each Transistors whose collectors are sowonl over each S ^ ^e J ™ ££ T _or ^C mutually with the base of a capacitor mutually with the BASTS ™ ^ 2? W _"verbw to the emitter both other transistor as well as via resistance w * ™ ^l ™ _Roit a Nullpotenttalschiene and articles having a positive Potentialscbiene and transistors ^. ^ _Tr8nsis doors over wid ^ rderen emitter with a Nullpotentialscbiene comparable dte Jf "^. ™, _sitive n-potential rail are verbunbunden, wherein the base of the first Tran - «aanoeroi g ^ ^^ _{def Transi} storen is a ii Sili lgt is thus «en suw. * u ^. _{&& χτ} ^^ t ^ _Anord _ Slm ^ßa ng g S are bound, being at the base of the first Tr g ^ ^^ _{def Transi} storen is a sistor a signal input is placed, thereby «en suw. * u ^. _{&& χτ} ^^ t ^ _Anord _ in that a signal output to S ^ ^a lem ^SSA ng g S _{esentlichen damn1t} voltage Xastverden _the collector of the second transistor (2) down gen _istoren to change beüebig, is and the base of the first transistor (1) via ^^ '/ JSannt effect of an astable multivibraic resistor with a negative potential- 15 ^ n ^e Jf. , _a continuous pulse is connected to its rail (4) that in the connection gate, _d «ι« us ^^ _{At each} DC voltage base of the first transistor (1) via an accurate _output pulse to get a capacitor (15) to the collector of a voltage _{eillf NachteU that the} astabiie Muiuzweiten transistor of the ER- th (2) between the base ^scnl1 ^ _{bi) s} have switching state. It flips most of the transistor (1) and the first capacitor ao vibrato ^ j- ¹ _any influence from the outside (15) the series connection of a first resistor » ⁿ ^ ^h ^ | ^Ig _{in a} certain rhythm ^B _n between (14) and a first diode (13) s ^ ¹ in JSF _{n Ch "Uch} switching states. Forward direction to the collector of the second ^den . ^ f, "of _the present invention is to a transistor (2) is connected and between the ™ f £ _astable multivibrator with two transi-connection from the first diode -, 13) with the» 5 gf ™ "'.' . _nem signalc ^: jigang at the bas.s one of the he: · ,, Kc: .- nsator (15) and the NuUpotentud- ston * and e nem ^ gn <J ^ ^. ^^. _Αη] ^ rail (5) a cross member (16) which consists of a series of two, 1 "" SB ¹ signal input, a multitude of circuitry of a second resistor (18) ^^ "^ _se T a ^ signal output and one in Durc" -! aßrichtung to zero potential- from output in F »be _present when the rail (5) connected second diode (17) is 3 <> un ^ Uju ^^« _{m signaling} ang is pending, is, is arranged. kciiil. ^fc r Λ _w : _rd according to the invention thereby 2. Controlled, astable multivibrator according to ^Dlc f " ^Au -f" * 'SiSanR to the collector of Ansp -uch J, marked! That the solves that a Sjna ^ output to _s ^^ ste capacitor (15) and the second condensa- ^ "J / ^;" ^ resistance can be adjusted with a negatitor (9). 35 Trans.s or J ^ ^ε _rf j, _{that in the Ve} r- 3. Controlled, astable multivibrator according to ^ ^e " ^Pote " i7R _q 'f _{s of the} first transistor via a claim 1, characterized in that between the B ^ ^d «.J ™ _{Kollekwr of the} second see the emitter and the bases of the bulge »Enten Kondtensa ^ mtt _{the /; first transistor} transistors (1, 2) in the reverse direction to the emit- ^T ™ ^ns ' ^st ° ^rs J * ' ^s ' ^ capacitor the series connection tern the transistors (1, 2) blocking diodes (19. 20) ♦ * »^ ^" ^^ "„ „« ΐ of a first diode, arranged smd ^ Kllkt of the second j () p ^ ^^^ "" «ΐ a first, arranged smd. ^ _{Forward direction to the} collector of the second Transistor is connected, and between the \ binding from the first diode to the first condenser _4S sator and the zero potential rail a> cross member that from a series connection of a second contradiction and one in the forward direction to the zero potential The invention relates to a controlled, astable rail-connected second diode, an angeord multivibrator with two transistors whose collecton is. , Ausleeeschrift 1208 351 is ren both over a capacitor alternately ₅ o Aus de putsche A «^ * ^ _Multivi . with the base of the other transistor as well as on principle litli cm ÄO geKo ^. ^^ Resistors with a positive Potentia.schieneund bra ^ f ^^ _n ^ t Sgs member a diode whose emitter with a Nullpotent.alschiene veioun- ^R f ^k Pfgl, _{ünd cinem} ^B capacitor in the are at the base of the first Trans.s.ors jn, c. "™ ^^ ™ ^ ^ but not a signal input is set _here. ^ Re he ^ scnane _f . _{jbi Schallung> with their} Multivibrators are known m s> ch ruckge- a s "^ SF _n L ^ g-imposed task coupled amplifier whose gain two hats the fcrnn in this ^ S £ _A Levels is distributed. The reinforcing elements may st AusgangsiniP "j £ ^ u ^ m W electron tubes or semiconductors such as HM» »^ ^ SSSnübe» e which He indung an astable TransiMpren be. In each case one of the two stages 6o ^ B ^e ff " ^u ~ [^ m has a fundamental advantage, the signal polarity for the other stage is reversed . It multivibrator mi -.Osm green c ^ Ä ^ sasz SSSSSs: i £ s: