CH615552A5 - Flash device - Google Patents

Description

The invention relates to a flash device, in particular The two electrodes of a flash discharge lamp 12 are connected to the flash flashers 8, 9 in order to heat-fix meltable toner onto copy media via conductor pieces 13 and 14 with the two flash capacitors in electrophotographic copying machines. By means of a monostable multivibrator 15, a capacitor for a flash discharge lamp, an ignition device 17 in the charging circuit via a conductor piece 16 can be controlled, and the charging resistor circuit, which is connected to the flashing capacitor via a conductor section 18 of the ignition electrode 19 and a charging current lamp 12 arranged in the charging circuit Ignition pulses for triggering the lightning-interrupting electronic circuit breaker. 35 feeds.

In the case of a flash device of this type, such as that used for switching the triac 3, a phase gating control

DE-OS 25 05 416 shows, for fast charging of the flash 20 of a known type (for example IC module type L120 of capacitors in the charging circuit, a low-resistance charging SGS-ATES) is provided. For this purpose, a resistor is arranged at one input. A circuit breaker disconnects the network comparator 21 from a generated synchronous sawtooth voltage during and shortly after the lightning discharge process by means of a ramp generator 22. Charging circuit from to extend the lightning discharge to The other input of the comparator is prevented via the conductor. piece 23 the tapped at the flash capacitor 9 and in the input

Such a device is, however, when a very 32 appropriately prepared instantaneous voltage is supplied,

Fast charging of the flash capacitor with high energy - The output of the comparator is required with the one input storage capacity of the flash capacitor, not 45 connected to a logic AND circuit 24, which is more suitable for the other, since at the beginning of each charging process the stable input of the rem input Output of the monostable multivibrator because of the very low impedance charging circuit is high current 15. The output of the UN D circuit leads to a peak which would result in strong surge-like mains voltage trigger pulse generators 25, which would result in voltage dips via a line section 26. Furthermore, the ignition electrode of the triac 3 would be actuated by Ver.

application of the ohmic charging resistance the network load 50 The basic mode of operation of the above-described, in addition to considerable losses in this resistor, the flash device is now as follows:

enlarged. The flash capacitors are charged from the

The invention is therefore based on the object of providing a lightning alternating current network via the rectifier diodes 10, 11 in a chip device of the type mentioned at the beginning, by means of a voltage doubler circuit. The lightning capacitors of high storage capacity arranged in the charging circuit can be charged in a short 55 nite low-loss, with an air gap provided 2 time without, however, the network acts as a current-limiting reactance and generates occurring current peaks intermittently unfavorable. therefore no heat loss, as is the case with an ohmic

According to the invention, therefore, the electronic state would occur.

Switch operated phase gating control for controlling The charging current is

of the charging current for the flash capacitor as well as a triac 3 controlled by a cut-in control depending on the device for varying the phase angle in dependence on the voltage already present on the flash capacitors from the current capacitor voltage. regulated.

In this case, the phase gating angle is corresponding to the one in each comparator 21

the respective charge state of the flash capacitor in the course of a voltage which is constantly reduced in the charging phase with a voltage in the charging phase such that mains-synchronous sawtooth-generated voltage generated at the charging resistor 65 ramp generator 22 essentially always compares the same driving AC voltage. The moment when nung yields. This results in charging current pulses of approximately the rising edge of the sawtooth voltage of the same amplitude at the moment, whereby an essentially value of the capacitor voltage or a voltage analog to it

3rd

voltage is reached, the output voltage changes suddenly. Since the capacitor voltage increases as the state of charge increases, this point in time shifts in accordance with the capacitor voltage, specifically in such a way that the point in time is advanced 5 as the capacitor voltage increases.

The voltage jump occurring at the comparator is converted into suitable control signals for the triac 3 in the trigger pulse generator 25. The ignition point of the triac 3 is therefore advanced according to the capacitor charge, or, 10 in other words, the phase angle of the phase control 20 is reduced with increasing capacitor voltage.

This constant reduction in the phase gating angle has the effect that the 15 driving voltage, which is effective for charging the capacitor, and thus also the amplitude of the charging current, is kept constant over a large part of a charging phase. The triac shifts with increasing

615 552

Capacitor voltage by ever larger voltage pulses, which, however, are increasingly compensated by the voltage already applied to the capacitors, so that the voltage difference effective for actual charging remains essentially constant for the entire charging phase.

The logic AND circuit connected between the comparator 21 and the trigger pulse generator 25 has the effect that the triac is only activated when the monostable multivibrator 15 is in its stable state. This is the case during the charging phase of the flash capacitors. To trigger the lightning discharge, the flip-flop 15 is supplied with a signal generated on the device side via line 27, which briefly converts the flip-flop into its metastable state. As a result, the charging circuit is interrupted and the ignition voltage for the ignition electrode 19 is generated in the ignition device 17.

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1 sheet of drawings

Claims (4)

615 552 1. Flash device, in particular for heat fixing is guaranteed. fusible toner on copy carriers in electrophotographic. According to another copying machine, with a flash capacitor for a flash invention feature, the phase gating angle is varied in a simple manner in that discharge lamp, a comparator comparing two input voltages in the charging circuit of the flash resistor and a charging resistor one is provided in the charging current circuit which, in the case of the equality of the two circuit-arranged electrical input voltages interrupting the charging current, outputs an output signal for actuating the African circuit breaker, characterized in that a circuit breaker delivers, and that at one input the electronic circuit breaker ( 3) actuating phase comparator circuit one of the gate control (20) present on the flash capacitor for controlling the charging current for the voltage and voltage at the other input and a device (21, 22, 23) on the one hand, a grid-synchronous ramp voltage is applied. Varying the phase gating angle depending on the invention is further provided as a charging resistance to the instantaneous capacitor voltage. Limitation of the charging current for the flash capacitors 2. Flash device according to claim 1, characterized in reactance, in particular in the form of an iron choke with net, that a two-input voltage comparing 15 air gap is provided. In this way, the perator circuit can be provided in the simplest way, which, in the case of the equalization of both input voltages arising when using an ohmic resistance, avoids an output signal for actuating heat loss and additionally supplies the circuit breaker with the mains, and that on the one input can be further reduced. gear of the comparator circuit one of the flash capacitor In the following the invention with reference to the drawing, existing voltage analog voltage and at the other 20 which is a basic circuit diagram of an embodiment of an input a grid-synchronous ramp voltage. flash device according to the invention shows, described in more detail. 2nd PATENT CLAIMS uniform network load during a charging phase 3. flash device according to claim 1 or 2, characterized in the charging circuit of a flash device are characterized in that a reactive resistor mains conductor 1 is provided as a charging resistor with the interposition of a low-loss Dros (2). be 2 and a triac 3 over conductor sections 4.5 and 6.7 two 4. flash device according to claim 3, characterized marked 25 flash capacitors 8.9 connected in the conductor section 4 or 6 net that as a reactance an iron choke with an air gap is a diode 10,11 each with opposite opposite is used. direction arranged. The two flash capacitors 8.9 are connected to a network conductor 31 via a conductor piece 30.