DE1076816B - Circuit arrangement for electronic flash units with transistors - Google Patents

Description

The invention relates to a further embodiment of the circuit arrangement for voltage regulation of the storage capacitor in electronic flash units with a transistor DC voltage converter, whose Oscillation amplitude through a further regulating transistor controlled by the current of a glow lamp is influenced, according to patent application L 28518VIIIc / 21 f.

The circuit arrangement mentioned for electronic flash units is an economy circuit, in which the transistor oscillation is canceled or deleted after the storage capacitor has been fully charged. is reduced to a small value until its voltage drops to one for the discharge of the electronic flash lamp with sufficient brightness, just enough value has dropped.

In the electronic flash device according to the invention, the reduction in transistor oscillation and so that the desired power savings are not achieved by damping the transformer, but by a Change in the base resistance of the oscillating transistor reached. The further training of the circuit arrangement for voltage regulation of the storage capacitor in electronic flash units is after Invention is that the additional control transistor in the base line of the oscillating transistor as a variable, adjustable resistor is arranged, its forward current by changing the base voltage causes a control of the magnitude of the oscillations of the oscillating transistor.

Circuits for regulating the voltage in transistor oscillating circuits are already known. At a Although this known transistor control circuits is with a change in the base voltage of the Oscillating transistor worked, but there is a fixed resistor in the base circuit of the control transistor to the battery available, on which the control transistor, which is to be thought of as a parallel resistor, acts and its Makes changes in resistance practically ineffective. So it is in contrast to the present arrangement the regulating transistor itself is not used as a variable regulating resistor.

In another transistor regulating circuit, the regulating transistor itself is also not considered to be variable Resistance used because a diode prevents this with its blocking resistance.

The advantage of the circuit arrangement according to the invention lies in a substantial simplification, because the additional control transistor in the base line of the oscillating transistor itself is more variable Serves rheostat and thus additional switching elements are saved.

There is also an improvement in the effect of the circuit arrangement according to the invention
for electronic flash units with transistors

Addition to patent application L 28518 VIII c / 21 f
(Auslegescarift 1 069 291)

Applicant:

Loewe Opta Aktiengesellschaft,
Berlin-Steglitz, Teltowkanalstrasse. 1-4

Dr. Paul Kapteyn, Berlin-Lichterfelde East,
has been named as the inventor

by switching on a capacitor of about 0.1 to 0.5 μΕ, possibly with the switching on of a Series resistance between the emitter and collector of the control transistor, the capacitor being a Short circuit or a bridging of the emitter-collector path of the control transistor, for which in the Base line represents flowing alternating currents of the oscillating transistor.

The regulation of the oscillating current and thus the current load on the battery and oscillating transistor takes place through a voltage divider or a resistor between the base of the control transistor and negative pole of the battery in connection with suitable dimensioning of the series resistance to the glow lamp in the charging capacitor circuit.

Further possible configurations of the flash device according to the invention are described in connection with

4.0 explained in more detail in the drawings.

1 and 3 show circuits with differently switched bias control loops for the Control transistor;

Fig. 2 shows the same circuit as in Fig. 1, only with the difference that an additional Mains connection is provided.

In Fig. 1, 1 denotes the oscillating transistor and 2 denotes the regulating transistor. L ₂ and L ₃ are the transformer coils in the circuit of the oscillating transistor 1, and L ₁ is a further winding which is in the circuit of the rectifier 3 and the glow lamp 4. The battery 5 serves as the energy source.

By means of the variable resistor 7, the transistors 1 and 2 are required for normal operation

909 755/226

Voltage set, in particular the bias voltage required at the base of the control transistor 2. This bias voltage of the base of the control transistor 2 is also regulated by the resistor 10, which is located in the circle of the glow lamp 4 and the rectifier 3 at the same time. The charging capacitor is denoted by 8, and to the right of this the actual ignition circuit with the flash lamp 9 and with the ignition switch contact S _{2 is} sketched.

If switch S _{1 is closed} when the device is started up, a normal voltage is applied from battery 5 to transistor 1 and control transistor 2.

By means of the firmly coupled coils L ₂ and L _3, the transistor circuit oscillates and also couples to L ₁ at the same time, so that the charging capacitor 8 is charged. If the minimum voltage required to discharge the flash lamp 9 with sufficient brightness is reached on the charging capacitor 8 and thus also on the ignition capacitor 11, the glow lamp 4 ignites in the circuit of the rectifier 3.This glow lamp current is now the bias voltage at the base of the control transistor 2 due to the voltage drop on Resistor 10 more positive, so that the current of the control transistor 2 is reduced. This reduction also influences the circuit of the transistor 1 in the sense of reducing or canceling the oscillations. The arrangement is now working in economy mode, but due to the sufficient charge on the charging capacitor 8, it is always ready to trigger the flash discharge.

If the lightning contact ^ is now closed, the ignition capacitor U is discharged via the Tesla transformer 12., 13 an ignition voltage surge is given to the flash lamp 9, which now ignites.

After the discharge, the glow lamp 4 is no longer conductive, since the charge on the capacitor 8 has flowed off. Therefore, the resistor 10 no voltage drop occurs, and the control transistor 2 is at its base again required for normal operation bias voltage across the resistor 7. The oscillating transistor 1 is therefore working back to normal, and the charging capacitor 8 is recharged via the WiCkIuHgL _first

A capacitor 6 of approximately 0.1 is expediently between the emitter and collector of the regulating transistor 2 up to 0.5 μΡ, if necessary with the inclusion of a Series resistance, switched on. This creates a short circuit or a bridging of the emitter-collector path of the control transistor 2 for the alternating currents of the oscillating transistor flowing in the base line 1 manufactured.

The adjustable series resistor 7 between the base of the control transistor and the negative battery pole enables adjustment of the oscillating current and thus the current load on the battery and Oscillating transistor. This variable resistor 7 can be replaced by a voltage divider 14 (cf. for example the circuit according to FIG. 3).

When using electrolytic capacitors, for example for the charging capacitor, after a longer period of time During a break in operation, reforming is necessary, as there are temporarily very high leakage currents after switching on again can occur in the condenser. With transistor flash units of small spatial dimensions with relatively small and weak batteries this is a heavy duty and therefore one Shortening the service life of the batteries.

It is therefore advisable to carry out the reforming by means of connection to the mains voltage, whereby the battery is switched off at the same time. The additional switching elements required for this and the cord can also be used to power the flash unit completely without batteries, just from the To operate the network. Because the oscillating transformer of the transistor circuit is designed for a high frequency it cannot be used to step up the line voltage. With a mains voltage of 220 volts is therefore the storage capacitor (charging capacitor) for a DC voltage of

ίο measured around 250 to 350 volts.

In Fig. 2, a circuit arrangement with a power supply is shown. It is in principle around the same circuit as in Fig. 1. The same switching elements are given the same numerals or Letters. Through the connector line 15 with the power plug 16 and the connecting device 17, the device can be fed via a plug connector with the plug 18 from the network will. As long as the contacts 17/18 are not

are connected to one another, the circuit operates exactly as described in connection with FIG. If, however, the plug connection 17/18 is made and plug 16 is connected to the mains, the contact 19 is automatically interrupted by a separator. At the same time, the contact 20 is interrupted, so that in any case, regardless of the position of the switch S ₁ , the resonant transistor circuit is also interrupted. The mains voltage is now present via the series resistor 21 on the rectifier 3 and on the charging capacitor 8, so that this capacitor 8 is now charged. Now the device can also be used for flashing. The discharge circuit with the flash tube 9 works when the switch 6 * 2 is actuated as described in connection with FIG.

ben. The series resistors 22 and 23 are used to protect against contact in order to operate the Device.

If the connector 17/18 is separated, the contacts 19 and 20 are closed, and the device can be operated again from the battery 5.

In Fig. 3, a further embodiment of the circuit arrangement of the transistor flash device according to the invention is shown. The bias voltage at the base of the transistor 2 is taken here by a voltage divider 14 and applied to the base via a series resistor 10. This series resistor 10 is also located in the glow lamp circuit of the glow lamp 4 and the rectifier 3. The upper end of resistor 10 becomes more positive than before, so that a more positive voltage is present at the base of control transistor 2, which in turn results in a reduction or cancellation of the oscillations in oscillating transistor circuit 1. Then the arrangement works as a power-saving circuit. After triggering the flash by actuating the switch S _2, the arrangement oscillates again until the charge on the capacitor 8 has become so great that the glow lamp 4 ignites and the oscillations are thus limited.

The advantage of the circuit arrangement described above according to the invention compared to the arrangements specified in the main patent application is that the amplitude control by a mere change in the working conditions of the Oscillating transistor is achieved instead of by damping the oscillations in the transition area

an additional power loss must be applied without any useful effect.

Claims (7)

Patent claims: 1. Circuit arrangement for voltage regulation of the spoke capacitor in electronic flash units with a transistor DC voltage converter, the oscillation amplitude of which is controlled by a further, is influenced by the current of a glow lamp controlled control transistor, according to Patent application L 28518 VIII c / 21f, characterized in that the additional control transistor in the base line of the oscillating transistor is arranged as a variable, controllable resistor, whose forward current controls the magnitude of the oscillations by changing the base voltage of the oscillating transistor causes. 2. Arrangement according to claim 1, characterized in that the emitter-collector path of the control transistor is bridged by a capacitor of soleher size, for example 0.1 to 0.5 μΈ, that this represents a short circuit for the alternating currents of the oscillating transistor. 3. Arrangement according to claim 1 and 2, characterized by a controllable resistor zwisehen Base of the control transistor and negative pole of the battery. 4. Arrangement according to one or more of claims 1 to 3, characterized by use an adjustable voltage divider parallel to the battery, its sliding contact or center tap connected to the base of the control transistor via the series resistor to the glow lamp is. 5. Arrangement according to one or more of claims 1 to 4, characterized by an additional Mains connection, which is caused by short-term, d. H. temporary or temporary feed-in the AC mains voltage enables reforming of the storage capacitor. 6. Arrangement according to claim 4 and 5, characterized by the feeding of the AC mains voltage between oscillating transistor and rectifier of the DC voltage converter, so that a Operation of the device from the mains without a battery is possible. 7. Arrangement according to claim 6, characterized in that when plugging in the network connection into the device through additional contacts automatically the supply line of the voltage of the Oscillating transistor interrupted and at the same time the battery is switched off. Considered publications:
German Patent Nos. 906 172, 876 038;
German Auslegeschriften Nos. 1 004291, 1 000 113; "Funkschau", 1956, issue 11, p. 438;
"Image and Sound", 1955, No. 7, pp. 193, 197, 199;
"Proceedings of the IE Ε.", 1955, pp. 775 to 784; "Wireless World", December 1955, pp. 582 to 586. 1 sheet of drawings © 309 758/226 2.60