DE1807573U - SEMICONDUCTOR ELEMENT FOR ELECTRICAL LIGHTING SYSTEMS IN MOTOR VEHICLES. - Google Patents

Description

ίΑ.032 599 * 1/15/60 2-

Robert Bosch (MWl, Stuttgart 14.1.6ο

Lighting systems for vehicles, in particular Motor vehicles

The innovation relates to one for vehicles, in particular Motor vehicles specific electrical lighting system of approximately constant voltage, with direct current generator, on its Excitation acting fast regulator and battery »

It is already known in Ladetafein for charging batteries Instead of reverse current relays, dry rectifier cells are to be connected upstream of the accumulators in such a way that the charging current of the dry rectifier is allowed to pass, while in the opposite direction if there is no mains voltage, there is continuity of current blocked and thereby a discharge of the accumulators is avoided «It is also known that semiconductor elements, which are a contain blocking zone formed by a p-n transition, can be used instead of dry rectifier elements.

The particular difficulty in using cal lead rectifiers instead of the otherwise common magnetic return oil switch in lighting systems of vehicles, in particular of motor vehicles, is that the rectifier as a result of the limited Space conditions that arise in vehicles, only may have small dimensions »but must be able to to carry the full load current of the vehicle alternator · This current is, for example, with a 6.5 V lighting system with a Power of 250 M about 40 amps, that at full load of the alternator result in a considerable development of heat in the rectifier. This difficulty is particularly increased by that the ambient temperature available under the hoods of motor vehicles for cooling the rectifier up to Can reach 80 ° C and more and therefore with the cooling fins otherwise used in rectifiers, a heat radiation of noteworthy Scope is not to be expected "

According to the innovation, these difficulties can be remedied by using a known semiconductor valve with a thick connection bolt, which, together with an extension piece, forms a Peltier element as a non-return valve between the battery and the generator.In lighting systems, the fast regulator has a non-linear bridge connected to the alternator voltage and a diagonal branch in the latter contains transistor arranged with its control path, which influences the excitation of the field winding of the alternator, it is recommended, according to a further suggestion of the innovation, to connect the attachment of the semiconductor valve as a load resistor in the connecting line between the branches via a non-linear bridge.

In the drawing, a lighting system is shown as an exemplary embodiment of the innovation, the control device of which is a semiconductor valve with a thick connecting bolt which, together with an extension piece, forms a Feitierelement.

It shows:

1 shows the semiconductor valve in longitudinal section, FIG. 2 shows the lighting system including the control device in its electrical maintenance scheme.

The semiconductor diode according to FIG. 1 has a pot-shaped base body 10 made of copper, which on its outer bottom side 11 has an attachment 1? carries »The thread is intended to receive a clamping screw, not shown, for connecting a supply cable, also not shown. A disc 15 made of n-Oennanium is attached by soldering to the inner bottom surface of the base body with a layer of tin. On this is seated copper bolt 16 serving as the lead electrode, which has its one end face through an intermediate layer 13 made of indium, which also serves as an alloy metal, on which germanium

ROBERT BOSCH GMBH R, -No. 6789 Lr / Ko

Stuttgart 2.7.195?

disk is soldered on. On its other end face it carries an extension piece 20 fastened with a solder layer 19 made of bismuth tellurite, which together with the copper bolt Peltier element forms.

When current flows through the connecting piece 20 and the copper bolt 16 to the base body in the direction of the arrow indicated in FIG. It is therefore possible _{9 to} install the rectifier together with further switching elements (not shown) in a housing 23 indicated by broken lines in FIG. 1 and to dissipate the resulting heat to the outside. In order to facilitate the connection of further switching elements, for example the control device according to FIG. 2 described below, the copper bolt 1.6 is provided with a pressed-on flattening 24 which provides a suitable seat for the connection means required but not shown in the drawing. In this case, the flattened section is expediently provided with a threaded bore 25 running transversely to the bolt axis. The line resistance of the extension piece can now be used as an electrical switching element. Since one can easily influence the electrical line resistance of the extension piece 20 by suitably selected length and thickness dimensions, the arrangement shown can be adapted to its respective purpose.

A particularly expedient use of the arrangement described results in an electrical control device for a motor vehicle alternator »whose circuit diagram is shown in FIG.

ROBERT BOSCH GMBH R.-No, 6789 Ir / Ko

Stuttgart 2.7.195?

The field winding of the DC generator marked with F » that of a drive motor, not shown in the drawing, intended for the port movement of a motor vehicle can be set in rotation, is shunted to the alternator armature G. It is with one of its winding ends connected to the negative brush a of the alternator, while its other end to the collector electrode 01 one Plächentransdstora 30 is connected, which together with a second transistor 40 forms the control device. The emitter electrode E1 of transistor 30 is connected to the positive brush the alternator. The excitation current flowing through the field winding P, which is required to excite the alternator, goes therefore through the transistor 30. The size of this current and thus the level of the induced in the armature G and the brushes a and b the voltage decreased depends on the magnitude of the base current flowing through the base electrode BI of the transistor 30 Jb, which is led to ground or to the negative brush a via a resistor 31 of approximately 100 ohms.

The second transistor used to control transistor 30 40 is connected so that it generates a self-excited electrical oscillation. For this purpose, a transformer is provided in its output circuit, the iron circuit of which is 41 three windings in the same direction of winding 42 «43 * wearing. The middle winding 43 has about 90 turns at 20 mHy and its one end is on the one with the negative one Brush a connected ground line? her other end is with the collector electrode Cg of the transistor 40 is connected. In the Connection from the plus brush b of the alternator to the transmitter electrode E2 of this transistor, two series rectifiers 45 and 46 are switched on. These form together with a resistor 47 the non-linear branch of a bridge, which supplies the comparison voltage for the control application. Of the

ROBERT BOSCH GMBH R.-ETr. 6789 Lr / Ko

Stuttgart July 2nd, 1957

other branch of this bridge is controlled by an adjustable resistor 48 of about 10 ohms and a resistor 49 of about 80 Olim formed. The control route is on the diagonal of the bridge of the transistor 40V with its base B2 to the connection point of the resistors 48- and 49 and with its Emitter E2 is connected to resistor 47 and to rectifier 46.

From the low-resistance winding 44 of the transformer, which is connected to ground branches off a rectifier 51, which together with a second rectifier 52 connected to the winding 42 of the transformer 41 at the base electrode B1 of the transistor 30 lies.

In the connection line 55 from the plus brush b of the alternator to the battery labeled 57 is a germanium rectifier 60 from Pig. 1 type shown so that its _s switched in Pig. 1 with 20 designated extension piece as a load resistance R according to FIG. 2 acts. The extension piece is dimensioned in such a way "that it forms a resistance of 10 milli-ohms for the consumer current Jv" which flows from the alternator to the battery 57 and to the consumers of the lighting system that can be connected to it (indicated by 58) "The rectifier 60 _{s as} * ¹ must be dimensioned for the full load current of the alternator. instead of the usual mechanical reverse current switch, prevents the battery from discharging via the alternator if the alternator cannot excite itself to the battery voltage when its drive motor is at a standstill or because of the low speed of the driving internal combustion engine.

The operation of the control device can easily be overlooked ^ if one assumes that the voltage U of the alternator taken from brushes a and b was increasing

- 6

HOBERT BOSCH GMBH R.-Hr. 6789 Lr / Ko

Stuttgart July 2nd, 1957

and the resistor 48 is set so that the partial voltage drop across the resistor 48 when the target voltage is reached brings the base B2 to the same potential as the negatively biased emitter electrode E2 of the transistor 40. Through this the transistor 40 becomes conductive and a collector current J2 flowing through the winding part 43 sets in, the in the winding part 44, a voltage indicated by the arrow U2 induced.

This voltage U2 generated in the winding 44 is directed in such a way that it makes the base B2 of the transistor 40 even more negative than the emitter electrode E2 and therefore a sharply increasing base current (its maximum value due to the size of the induced voltage U2 and the size of the resistors 48 and 49 is given) and consequently also generates a rapidly increasing collector current J2. The voltage U2 induced by the collector current J2 during its rise changes only slightly. However, the collector current soon reaches its maximum value, which is determined by the maximum value of the base current and the construction data of the transistor. When this maximum value has been set, the voltage U2 induced in the windings disappears and the potential of the base electrode B2 jumps back to a higher value, so that the base current Jb can no longer be maintained at the previous level. Characterized the collector current J2 is throttled _f The inductance of the winding 43 acts, however, this change of the collector current against and generated in the winding 44 a voltage pulse, which is indicated in the drawing by a program executed in phantom arrow voltage U'2. This voltage pulse completely controls the transistor 40 into the non-conductive state, in which it is held until the voltage pulse ü ^f 2 has decayed. Then the game described can begin again as soon as the machine voltage U reaches its setpoint again.

- 7th

ROBERT BOSCH GMBH R. «No. 6789

Stuttgart 2.7 »195?

Since the voltages generated in the coil 44 as a result of changes in the collector current J2 U2 and U'2 is formed to the potential of the base B2 and therefore on the input circuit of the transistor 40 in terms of a gain of these changes _f act a self-excited electrical wagging \ in which the Transistor 40 flips back and forth between an operating state with high and an operating state with low collector current J2 in the manner of a monostable blocking oscillator, as often as the rising generator voltage has risen to the setpoint value set at resistor 48.

The voltage pulses U2 and TJ ^e 2 are given via the rectifiers 51 and 52 to a charging capacitor 35 _? whose size is adapted to the time constant of the alternator. It has a value of "/ on about 50yu.F and is connected in parallel with the base resistor to the base B1 of the first transistor 30th Each of voltage surges caused _t that the potential of the base is raised briefly B1 and & en excitation current throttles The strong, whereby the The drop in the alternator voltage below the nominal value has the consequence that the transistor 40 remains blocked and therefore cannot give the transistor 30 any pulses that lower the alternator voltage, unless the alternator has excited itself to its nominal voltage.

Is reached by the resistance R of the extension piece 20? that the control device maintains a target voltage that decreases with increasing load. Depending on the size of the alternator This is because the load current Jv drawn off falls across the resistor R a voltage that is added to the voltage across resistor 48. The transistor 40 is therefore already conducting, before the alternator voltage has reached and is able to again reach its setpoint value that applies to small consumer loads

- 8th -

ROEERT BOSCH GMBH R. No. 6789 Lr / Ko

Stuttgart 2.7.195?

Via the transformer windings 43 and 44 or 42 Sperrim pulse to reduce the alternator excitation to give the power transistor 30 «This results in a with steep control characteristic decreasing according to the load »

A particular advantage of using the arrangement according to FIG. 1 in the circuit according to S ¹ Ig ₁ , 2 is that if: he resistance of the extension piece required for electrothermal cooling serves as a switching element at the same time. As long as the consumer current Jv flowing through the rectifier 60 is small, the iro rectifier generates only a little heat and the faermoelöktriuche cooling effect is only slight. However, the KiIhX effect increases as the consumer current increases. At the same time, the resistance R of the extension piece 20 causes the required lowering of the voltage.

It is of course possible to use the arrangement according to S ¹ Ig. 1 measure described, a bolt-shaped connection piece by soldering an attachment piece with high Tbermokrafi; on a Peltier element to ER all t even at Flächentranaiatoren with bolKenföraiigen to "schlu3elektroden v / a use? in order to thereby achieve an extensive cooling of the semiconductor body. These measures are particularly recommended for a flat transistor of the type described in the report B 40 996 VIIIo / 21g. In this case, a metal tube al "base is used, while, Awei to the metal tube arranged coaxially Kupf" rbolsen _s' of which one ala BMII; serves t3r ™ "the other as a collector electrode, with their mutually facing end faces at an OE at its periphery in? Drilling; of the tube soldered Genaaniumplättohen means of iridium, which are the same as tall Lötme-alloys and _s is fcsfeatigt "

RCB3K'D BOSCH GMBH

R.-Ir, (3789 Lr / Kc 2.7.195?

One can in this case on each of the two free bolt ends attach an appendix, but the V / erkstoff for a bolt a high positive Thermospanmmg "of ~ $ in ± & i for the · other bolts should have a high negative thermal voltage, so that the flowing in the forward current of the Working l'ransistors can dissipate the heat by two since on back ■ out from the semiconductor die off towards the Boiaendan.

Claims (2)

PA032 539-15.160 J ^ 111 Η # (βΜρ- 67δ9 Robert Bosch GmbH »Stutfeirt 14.1.6ο Claims 1. See certain electrical for vehicles, especially motor vehicles Lighting system of almost constant voltage * with direct current generator, on its excitation acting fast regulator and battery, characterized by the use of a known semiconductor valve with a thick connecting bolt, which together as an extension piece forms a Peltier element, as a backflow barrier between the battery and generator. 2. Lighting system according to claim 1, the fast regulator of which a non-linear bridge connected to the alternator voltage and a transistor arranged in the diagonal branch with its control path, which influences the excitation of the field winding of the alternator, characterized in that the extension piece (20) of the semiconductor arrangement as a load resistor (R) into the connecting line (55) between the branches of the non-linear bridge (45, 46, 47 or 48, 49, 44) switched on is.