DE1185221B - Pulse-controlled electronic switch - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H 03 k

German KL: 21 al - 36/18

Number: 1185 221

File number: B 69829 VIII a / 21 al

Filing date: December 1, 1962

Opening day: January 14, 1965

The invention relates to a pulse-controlled electronic switch that alternately from the conductive to the blocked state passing power transistor with a in its collector circuit arranged consumer and one acting on the power transistor and held by a feedback in an operating state that is opposite to this in each case Has control transistor and also a to protect the power transistor against impermissibly high Has load currents serving switching device with an input and an output transistor, wherein the input transistor connected to a resistor located in the emitter lead of the power transistor is.

There are already electronic switches of this type become known in which to protect the Power transistor a bistable multivibrator circuit is provided, which when the occurrence Inadmissibly high load current values of the power transistor are switched to an operating state, in which it blocks the power transistor immediately. Here, however, the problem arises that at the same time the load current-dependent control variable for the tipping device disappears and therefore only through a bistable design of the tilting device can be prevented that this is immediately back in his may tilt back to its original state. To retrieve the tilting device is known in the art Switches a manually operated button provided.

The invention was based on the object of providing a protective device in a pulse-controlled electronic switch to provide for the power transistor, which allows the power transistor during of a still running control pulse in its blocking state as soon as and as long in its Load circuit a short circuit or some other malfunction resulting in an excessively high load current is present.

Of such a safety device against overload is also required that it increases of the load current in the power transistor responds by only a few percent and thus takes effect quickly it is ensured that the load current is not impermissibly high within the response time, even in the event of a short circuit Can assume values.

To solve this problem, the invention provides that the tilting device is monostable and that its output transistor is connected to the base of the control transistor.

As a result of the inventive design of the pulse-controlled electronic switch

Applicant:

Robert Bosch G. m. B. H.,

Stuttgart 1, Breitscheidstr. 4th

Named as inventor:

Dipl.-Ing. Dr.-Ing. Hermann Scholl, Stuttgart - -

Tilting device as a monostable multivibrator has the advantage that the power transistor for one subsequent control impulse already after a very short delay time following the disappearance of the malfunction is automatically ready for operation and not only through the usual, known ones

zo bistable safety multivibrators provided return buttons switched back into the operating position must become.

The invention is described below with reference to three exemplary embodiments shown in the drawing described and explained in more detail. It shows

F i g. 1 the circuit diagram of a monostable electronic Switch with monostable fuse multivibrator,

F i g. 2 the circuit diagram of a bistable safety multivibrator for connection to the electronic switch according to Fig. 1 and

F i g. 3 the circuit diagram of a bistable electronic switch with a monostable fuse multivibrator.

The electronic switch of Fig. 1 includes an input transistor Tl and a final transistor Γ 2, which together with a coupling capacitor 10 and a feedback resistor 11, a monostable multivibrator.

The input transistor Π is its emitter connected to a leading to the positive pole of a DC voltage source, not shown, positive lead 12 and at its collector through a resistor 13 to a negative conductor 14. Its base is coupled through a resistor 15 to the positive line 12 via a run in the forward direction diode 16 and a resistor 17 connected to the negative line 14 and via a capacitor 18 to an input terminal 19 for the control pulses of the monostable multivibrator.

The output transistor Γ 2, like the input transistor Tl, is of the pnp type. In its emitter line

409 768/348

3 4

there is a resistor 20 and release pulses in the collector line. This ensures that the

a load resistor 21. electronic switches during a trigger pulse

To monitor that the transistor Γ 2 cannot be actuated twice, but is ready for operation again with a new trigger pulse for each flowing load current. The broken lines framed monostable multi-5 is particularly advantageous if a predominantly vibrator 22, which performs the function of an electronic short-term interference or short-circuit on the load fuse for the output transistor Γ 2 and the resistance 21 is expected,
is half referred to as a backup multivibrator. If the fuse should switch off the electronic switch in the shows the well-known structure of monostable multivibra damage cases until the damage gate is repaired with an input transistor Γ3 and an io and the fuse is reset again by a signaling device operated by hand, output transistor Γ4, a coupling capacitor, 23, the base resistors 24 and 25 and the KoI- so the safety multivibrator has to be designed bistable lektorwistors 26 and 27. The emitters of both. Such an embodiment is shown in FIG. 2 in their transistors Γ3 and Γ 4 are shared across a circuit diagram.

seed, adjustable resistor 28 with the plus 15 The safety multivibrator 40 according to FIG. 2 subline 12 connected. The input transistor Γ 3 is separated from the fuse multivibrator 22 with its base via a resistor 29 to the one according to FIG. 1 essentially in that the coupling emitter of the end transistor Tl and the output capacitor 23 of the first embodiment transistor Γ 4 with its collector via a resistor replaced by two coupling resistors 41 and 42 stood 30 at the base of the electronic switch 20 . As a result, the multivibrator 40 has two stable input transistors T1 connected to it. Switching states. The other equivalent switching

The electronic switch and the fuse elements have the same reference numerals as

multivibrator according to FIG. 1 act as follows in the case of the securing multivibrator 22 according to FIG. 1 ver

together: see.

After switching on the operating voltage, the 25 In order to ensure that when the transistors T1 and Γ 4 are switched on, the output transistor Γ 4 of the safety transistors T2 and Γ 3 are always blocked as a result. Approximately multivibrator reaches 40 conducts current and a relative to the potential of the positive line positive 12 input transistor Γ remains blocked 3, is between tiver pulse to the input terminal 19 of the electromagnetic the connection point of the resistors 41 and 42 ruffles switch, the transistor is blocked Tl, 30 and the negative line 14, a capacitor 43 is arranged and the one consisting of the transistors T1 and Γ 2 is arranged. Then, when the device is switched on, the monostable multivibrator switches to its unstable switching state at the connection point of the resistors 41 and 42. During the dwell time in the unstable immediately the full operating voltage, so that the base state, the length of which by the time constant of the current through the transistor Γ 4 is stronger than that through the resistor 17 and the capacitor 10 35 those through the transistor Γ3.
formed i? C element is determined, is the load current through the terminal transi the full operating voltage at the load resistor 21.stör Γ2 of the electronic switch according to Fig. At the maximum permissible load current, the multivibrator 40 in its other, also just not yet sufficient, to control the transistor Γ 3 in 40 stable operating state, in which the input is conducting its current state. Over-transistor Γ 3 conducts current and the output transistor paces when the load Γ 4 flowing through transistor Γ 2 is blocked. By coupling with the outflow, z. As a result of a short circuit at the load output transistor Γ4 via the resistor 30, the resistor 21, its allowable maximum value, so comparable transistor Tl of the electronic switch equal pushes the emitter potential of the transistor Γ 2 ₄₅ momentarily conduct current and thus the output transistor Γ 2 to more negative Values. Then a base current can be blocked. In this state the circuit remains flowing through the transistor Γ 3. The transistor Γ 3 so long until the safety multivibrator 40 is conductive and the safety multivibrator a manually operated signal device in its toggles into its unstable switching state. This occurs at the original switching state and the collector of the now blocked transistor T 4 is a 50 so the electronic switch for receiving a voltage jump in the negative direction, which is ready via a new trigger pulse at the input terminal 19, the resistor 30 to the base of the transistor Π.

is directed. Regardless of the respective discharge In F i g. 3 is finally the combination of a state of the IC element 10 to 17, the transistor bistable electronic switch with a mono Tl immediately conducts current through this pulse, so that 55 stable fuse multivibrator 50 is shown in its stable state in its switching of the electronic switch . Insofar as here also tilts back with the same effect and the output transistor Γ 2 is de-energized. Switching elements as in the first exemplary embodiment. The blocking of the output transistor Tl takes place within are used, they are provided with the reference there a few microseconds after the sign is exceeded.

permissible load current value before the output transistor 60 The bistable switch contains the two transistor

can be damaged. renTl and TS. The coupling capacitor 10 of the

The dwell time of the fuse multivibrator in the monostable switch of FIG. 1 is by a

unstable switching state, which is replaced by the time constant coupling resistance 51. In the collector

of the ÄC element 23 to 25 is determined, the supply of the transistor Γ 5 is a resistor 52,

measure that they are on the one hand longer than the duration of the 65 in its emitter lead a resistor 53. Dem

The triggering bistable switch acting on the electronic switch is a power level after

pulse, on the other hand shorter than the smallest connected, which has a power transistor T 6, the in

increasing distance between two successive load resistances arranged from the collector supply line

21 and an emitter resistor 55 connected in series with a non-linear resistor 54. The base of transistor Γ 6 is directly connected to the emitter of transistor Γ 5. The Sicheningsmultivibrator 50 with its resistor 29 is connected to the emitter of the transistor T 6. In this exemplary embodiment, a germanium or silicon diode is provided as the non-linear emitter resistor 54. This has the advantage that the fuse multivibrator 50 responds largely independently of the temperature, since the resistor 54 and the transistor T3 have the same temperature characteristics.

The coupling of the output transistor Γ 4 the fuse multivibrator 50 to the input of the electronic switch transistor Tl is effected by a differentiator 56, 57 and a diode 58 connected with its anode to the base of transistor Tl. This coupling has the advantage over the resistor coupling according to FIGS. 1 and 2 that it operates without power.

The mode of operation of the circuit arrangement according to FIG. 3 corresponds to that of the first and second exemplary embodiments. The bistable electronic switch is alternately switched from its one stable switching state to the other by a positive or a negative trigger pulse. At the same time as the transistor Γ 5, the power transistor T 6 becomes conductive. The full operating voltage is then applied to the load resistor 21. Even if the maximum load current value is slightly exceeded, the fuse multivibrator 50 responds and switches to its unstable operating state in which the transistor TA is blocked. The potential jump at the collector of the transistor Γ 4 to more negative values is given via the capacitor 56 and the diode 58 to the base of the transistor Tl , so that the bistable switch assumes the operating state in which the transistor Γ 5 and with it the power transistor Γ 6 are de-energized. The next following positive trigger pulse at the input terminal 19 switches the load resistor 21 to the operating voltage again, since the fuse multivibrator 50 - as in the first embodiment - has meanwhile tilted back into its stable standby position. If the disturbance in the load circuit still persists, the safety multivibrator 50 switches the electronic switch back immediately in the manner just described.

Of course, the output transistors of all other switching and control devices can also be passed through Protect one of the safety multivibrators described here against overload.

Claims (4)

Patent claims: 1. Pulse-controlled electronic switch, which has a power transistor alternating from the conductive to the blocked state with a consumer arranged in its collector circuit and a control transistor that acts on the power transistor and is held by a feedback in an operating state opposite to this and also a control transistor to protect the Power transistor against impermissibly high load currents serving toggle device with an input and an output transistor, wherein the input transistor is connected to a resistor located in the emitter lead of the power transistor, characterized in that the flip-flop device (22, 40, 50) is monostable and that Output transistor (Γ4) is connected to the base of the control transistor (Tl) . 2. Switch according to claim 1, characterized in that the emitter resistor (55) of the Power transistor (T 6) a non-linear resistor (54) is connected in series. 3. Switch according to claim 1 and 2, characterized in that the collector of the output transistor (Γ4) connected to the base of the control transistor (Tl) via a capacitor is. 4. Switch according to claim 3, characterized in that the collector of the output transistor with the base of the control transistor (Tl) via a capacitor (56) and one with this series connected diode (58) is connected. Considered publications:
German Auslegeschrift No. 1065 460,
804, 1139 879, 1080 606. 1 sheet of drawings 409 768/348 1.65 © Bundesdruckerei Berlin