DE2135538A1 - FLASHERS FOR MOTOR VEHICLES - Google Patents

Description

2Ί35538

R. 4-25
15-7-1971 Ka / Dr

Attachment to
Additional patent application

ROBEPJ 'BOSCH C-HBH, 7 Stuttgart 1

Flasher units for motor vehicles

Addition to patent .... (patent application P 19 31 235.7)

Me invention relates to a device for dispensing Blj.n3vsigxj.al.cn when a flasher switch is operated, in particular: for indicating the direction of travel of motor vehicles by means of liliiilrlair.pon, boi the to trigger the flashing signals alarmed, zv; ei transistors on v / iron, emitter copied gate astable multivibrator is provided, the tilting frequency of which depends on the number of

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Robert Bosch GmbH E. 425 Ka / Br

Stuttgart

through the flashing lights. Shifting the collector potential of the first transistor is changeable and in which in particular a transistor as a current amplifier in the connecting line from the collector of the second transistor of the astable multivibrator connected to the base of the first transistor according to patent ... (patent application P 19 31 235.7)

When using electronic switching devices in Motor vehicles occur frequently in these switching devices Disturbances that have the most diverse causes, for example triggering the ignition or the acoustic warning device.

The object of the invention is to take appropriate measures to counteract the effects of glitches in the device to suppress flashing signals, \ tfobei however, influencing the switching device, for example a change in the * frequency, is largely avoided or completely switched off shall be.

This task can expediently be achieved by that according to the invention between the collector of the second transistor and a common supply line a capacitor is switched to suppress interference signals.

The invention is explained using an exemplary embodiment shown in the drawing, the drawing showing a Flasher unit for motor vehicles designed in integrated circuit technology shows.

A known emitter-coupled, astable liultivi-

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Robert Bosch GmbH R. 425 Ka / Dr

Stuttgart

brator v / eis a first transistor 10 and a second Transistor 11 on. The emitters of the two transistors 10 and 11 are connected to one another via a capacitor 12. Hit the emitter of the first transistor 10 is still a timing resistor 13 and with the emitter of the second "Transistor" 11 is connected to a timing circuit resistor 14. Both timing circuit resistors are connected with their other end to one common ilinus line 15 connected. The collector voltage of the first transistor 10 is connected by one between a plus line 16 and the outgoing line 15 Voltage divider generated from resistors 17 and 18. The switching path is in series with the resistors 17 and 18 a switching transistor 4-2.

Two example left on a motor vehicle mounted parallel Bl ink lamp en 24 and 25, and two, for example, the right vehicle-mounted _t likewise parallel Blinklanpen 26 and 27 lie with their one connection to the Hinusleitung 15 · The other terminal of Blinklainpenpaare 24,25 and 26 , 27 can be connected to the Plusleitimg 16 via a control resistor 41 via a flasher switch 28 designed as a changeover switch and via contacts 29 and JO connected in series with this flasher switch, but parallel to one another. The contacts 29 and 30 are in the RuIi eau et and open, so that the power supply to the flashing flanges 24, 25-bzvr. 26.27 is interrupted. The contacts 29 and 50 have been actuated by a relay 31, the winding of which is connected to the collector of an amplifier 32 via an output terminal 36, the winding being used as a working voltage. ^r resistance of the amplifier transistor 32 is used. To suppress induction voltage peaks that occur at

- 4 -2 0 9 8 8 A / 0 1 6 5

Robert Bosch GMBH . ■ R. 425 Ka / Dr

Stuttgart

operation of the relay can arise is the winding of the Relay 31 a diode 33 connected in parallel in such a way that its cathode is connected to the positive line 16. Of the Amplifier transistor 32 is the final amplifier stage one two other amplifiers stage with transistors 34 and 35 having amplifier circuit. This amplifier circuit is via the collector of the second transistor 11 of the astable Multivibrators and controlled via a coupling transistor 37 complementary to this first transistor 10, wherein A current amplifying transistor 53 is connected between the collector of the transistor 11 and the base of the transistor 10 is. Finally, a transistor 54- is provided, its base with the emitter of the Stronverstarkungstransiütors

53 and its collector with the base of the coupling transistor

37 is connected. The advantage of this insertion of the transistor

54 is due to the fact that the resistors 13 »14 and 23 have a higher resistance can be designed, whereby vri.ederum the capacity of the Capacitor 12 can be kept small even with a small current gain of the coupling transistor 37.

In series with a resistor 23, which is connected to the collector of the transistor 11, the switching path of a switching transistor 38 complementary to this transistor 11, which is connected to the positive lead 16 with its emitter is. The base of the switching transistor 38 is at the junction point two resistors 39 and 40 connected, from whom the resistance 39; the collectors of the amplifier transistors 32 and 34 and the resistor 40 iait the flasher switch 28 is connected. The base of transistor 38 is through a resistor 60 and the emitter of transistor 38 connected directly to the common positive line 16.

209884/0165

Robert Bosch GmbH 'R. 425 Ka / Dr

Stuttgart

The base of the switching transistor 42 is with the collector a control transistor 43, the emitter of which is connected to one connection of a control resistor 41 in the lamp circuit is connected, the other terminal of which is connected to the positive battery voltage + U-g. The basis of this Control transistor 43 is connected to the negative battery voltage -Ut, lying resistors 50,51 and 52 sovri.e one Resistor connected to the positive line 16 via a diode 45 46, on the other hand, is held at a fixed potential. At the connection point of resistors 50 and 51 is connected to the resistor 49, which over the series-connected diodes 47 and 48 with the positive lead 16 is connected. At the junction of the cons. 51 and 52 is the base of the second transistor 11 and the emitter of the transistor 54 is connected via a resistor 55.

Between the base of transistor 53 and the common supply line 15, an interference suppression capacitor 70 is connected.

The mode of operation of the circuit arrangement described is as follows. The astable one comprising the transistors 10 and 11 The multivibrator flips when the transistor 38 becomes conductive, i.e. when the collector of the second transistor 11 and over the transistor 53, the base of the first transistor 10 is connected to the common plus lead 16. The first Transistor 10, the collector of which is practically applied to the entire positive battery voltage + U ", as the time circuit resistors 13 »14 are much higher-olimens than the resistor 17, so it has one at its base compared to its Emitter voltage positive voltage and becomes conductive, while the second transistor 11 is blocked because its emitter is over

209884/0165 - 6 -

Robert Bosch GmbH E. 4-25 Ka / Dr

Stuttgart

the collector-emitter path of the conductive first transistor 10 and via the capacitor 12 on one opposite to his Base potential is brought positive potential. While the right connected to the emitter of the transistor 10 Coating of the capacitor 12 remains at a constant high positive potential as long as the transistor 10 is conductive, the left coating connected to the emitter of the transistor 11 is charged continuously more negatively via the time circuit resistor 14 on and until the emitter potential of the transistor 11 is sufficiently negative with respect to its base potential has become. The transistor 11 thus becomes conductive; its collector current now flowing through resistor 23 lowers its collector potential and thus the base potential of the transistor 10 below its emitter potential, the Transistor 10 is now blocked. If the transistor 11 is conductive, the left side of the capacitor 12 is positive Potential held while its right coating is negatively charged via the time circuit resistor 13; is now that If the emitter potential of the blocked transistor 10 has become sufficiently negative with respect to its base potential, the transistor 10 becomes conductive again and the process begins again.

'The astable multivibrator is controlled as already indicated about the switching transistor 38. When open Flasher switch 28 is the base of the switching transistor 38 via the resistor 39 and the relay winding on the emitter potential of this transistor, so that it remains blocked and the astable multivibrator works not. If the flasher switch 28 is closed, the base of the switching transistor 38 via the resistor 40 is the

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Robert Bosch GMBH . R. 425 Ka / Dr

Stuttgart

negative battery voltage -Ug applied. The switching transistor 38 becomes conductive as a result, and the resistor 23 is connected to the positive conductor 16. As a result, the first transistor 10 of the astable multivibrator, the complementary coupling transistor 37 and the amplifier transistors 35> 3 ^ and 32 become conductive. The base of the switching transistor 38 is now connected to the negative operating voltage -U ^ via the parallel connection of the resistors 39 and ^ O. The relay 31 picks up and the blinkers 24, 25 and 26, 27 light up. Although the resistor 40 is connected to the positive battery voltage + Ug via the contacts 29 and 30 and a coiitroll \ ^r ider 41, the switching transistor 38 remains conductive, since its base is via the resistor 39 and the collector-btnitter path of the Amplifier transistor 32 is connected to the negative line. The light phase of the flashing lamps is ended when, after the capacitor 12 has been charged, the first transistor 10 of the astable multivibrator and thus the coupling transistor 37 and the amplifier transistors 35> 34 and 32 become non-conductive. The base of the switching transistor 38 is briefly applied during the delay time of the relay 31 via the resistors and 40 and the control resistor 41 to the positive battery voltage + U ", whereby the switching transistor 38 and the second transistor 11 of the astable multivibrator are blocked after the drop Contacts 29 and 30, however, the base of the switching transistor 38 is connected to the negative operating voltage -Un again via the resistor 40, the flasher switch 28 and one of the flasher lamp pairs. As a result, the switching transistor 38 and the second transistor become conductive again. However, Kui-ze interruption of the current through the switching transistor 38 and the zx ^ nits transistor 11 is completely "meaningless because during this time (ie, the AbfaA ¹ delay time of the relay 31) of the first transit

209884/0165

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Robert Bosch GmMI. R. 425 Ka / Dr

Stuttgart

sistor 10 of the multivibrator, the coupling transistor 37, the amplifier transistors 35 »34- and 32 anyway in non-conductive Condition are. After the capacitor 12 has been discharged, the first transistor 10 becomes the astable Multivibrators.xd. the conductive, and the one just described The process is repeated.

Normally, ie when both flashing lamps of a pair of flashing lamps 24, 25 and 26, 27 light up, the control transistor 43 and the control transistor 42 are blocked during the light phase of the lamps; they then have no influence on the rest of the circuit. The two transistors 43 and 42 become conductive during the light phase of the lamps when the voltage drop across the control resistor 41 falls below a certain value. This can happen in two cases: firstly during the dark phase of the flashing lamps 24, 25 or 26, 27 and secondly if one flashing lamp (or both) of one of the two flashing lamp pairs 24, 25 or 26, 27 fails during the bright phase. The former case is meaningless because of the property of the multivibrator already described. In the second case mentioned, however, the tilt frequency of the astable multivibrator is increased. The frequency of the tilting process is determined by the time constants for the light time of the flashing lamps T ^ «C 12 * R14 and for the dark time ¹ Cj ₃ = C 12 * R 13 Kolüektorspannuiigspotential of the first transistor 10 is reduced by the amount of the voltage drop across the resistor 17, in that the continuous transformer 43 is controlled into the conductive state as a function of the voltage drop across the control resistor 41. The switching function of the control transistor 43 is approximately the non-linear one

209884/0165 .- " ⁹ "

Kobert Bosch GmbH R. 425 Ka / Dr

Stuttgart

PTC thermistor characteristics of the flashing lamps 24.25 and 26.27 one two diodes 47 and 48 and two resistors 49 and 50 adjusted having correction member.

The switching device described xtfird by in the motor vehicle influences occurring glitches. In order to eliminate these disruptive influences and in particular from the time circuit capacitor 12 interfering impulses, i.e. impulses that would change the Kj ppfrequency of the astable multivibrator, to keep away is the suppression capacitor 70 between the Collector of transistor 11 and the common minus line 15 connected.

209884/0165

Claims (1)

Kobert Bosch GmbH R. 425 Ka / Dr Stuttgart claim Device for issuing flashing signals when a Indicator switch, especially for Motor vehicles by means of flashing lights when to trigger of the flashing signals a known per se, two transistors (10,11) exhibiting, emitter-coupled astable multivibrator V03? Is seen, its sweep frequency as a function on the number of flashing blinkers (24.25 or 26 27) can be changed by shifting the collector potential of the first transistor (1C) and in particular a transistor (53) as a current amplifier in the connecting line from the collector of the second transistor (11) of the astable multivibrator is connected to the base of the first transistor (10) according to patent ... (patent application P 19 31 235.7) 5 characterized in that between the Collector of the second transistor (11) and a common supply line (15) a capacitor (70) sur suppression is switched by interfering signals. 20S884 / 0165