DE2508923A1 - Control and supply circuit for fluorescent tube - has dimmer coupled via frequency dependent pulse separator, rectifier and switch to control transformer - Google Patents

Abstract

The control and supply circuit, for a flourescent tube, has the control output of the brightness setting device (dimmer) (11) connected to the lamp heating transformer via an additional circuit consisting of a frequency-dependent pulse separator (I), a rectifier (iie and a switching stage with triac (III). If a touch plate switch is used, the output is connected to the input of the additional circuit. More than one such additional circuit can be connected to the electronic setting device. The advantage of this arrangement lies in its having greater flexibility than e.g. controls with mechanical on/off switches.

Description

Additional electronic circuit arrangement The invention relates to a additional electronic circuit arrangement, in particular for control devices with Phase angle control for controlling fluorescent tube lamps.

There are electronic brightness control devices, so-called dimmers for Fluorescent lamps known that have a mechanical on-off switch and have a switched supply line to the fluorescent lamp system (DT-PS 2 053 874 and DT-OS 2 057 87v.

The use of such brightness control devices is required in usually a mechanical switch, as well as a supply line and two discharge lines. There is a retrofitting of those equipped with a mechanical or electronic switch Switching to Dismer operation without changing the supply lines to the brightness control device is not possible, the use of these devices is severely restricted.

The object of the invention is the use of fluorescent lamp dimmers to expand and dimmer without switched derivation, e.g. electronic touch controls, as described in patent applications P 24 18 238.5 and P 24 18 239.6, to enable the operation of fluorescent lamps Limited use of electronic touch switches (e.g. according to DT-OS 2 9 313 3 941).

The object is achieved in that the controlled Output of the actuating device via an additional switching device consisting of a frequency-dependent pulse separation stage, a subsequent rectifier stage and a switching stage with triac with the filament transformers for the to controlled fluorescent lamps is connected.

The invention also provides that when using electronic Touch switches with phase control of the switched output with the input the additional switching device is connected to the further one exceeding a limit load additional loads can be connected.

Finally, an electronic control device or

Touch switch device more than an additional switch device connectable.

The object of the invention is shown in the drawing in several circuit configurations shown.

Fig. 1 shows the additional circuit arrangement for an electronic Adjusting device.

FIG. 2 shows a block diagram for FIG. 1.

Fig. 3 shows a block diagram for switching additional loads, and FIG. 4 shows a block diagram with several additional switching devices.

As shown in Fig. 1 with reference to a circuit diagram, is which was changed by the phase control by means of a brightness setting device 11 Mains voltage via the controlled output on the series connection of the capacitor 2 and resistance 1 of a frequency-dependent pulse stage I, the resistance 1 is connected to the neutral conductor. The series circuit is parallel to resistor 1 consisting of the diode 3 and the capacitor 4, which the variable resistor 5 in parallel is switched. The latter three parts form the rectifier stage II. Parallel the gate-source path of the N-channel field effect transistor is connected to the variable resistor 5 6th

The drain-source path of the field effect transistor 6 is the gate-anode path of the triac 8 in parallel, the cathode of which is in series with the radio interference suppression choke 9 and is connected to the switched neutral. The resistor 7 is parallel to the Gate-cathode path of the triac 8. Between the neutral conductor and the switched neutral conductor is the radio interference suppression capacitor 10. The elements 6-10 form the switching stage III. The load IV is through the fluorescent tube lamp 14 and the associated filament transformers 13 shown.

Instead of an electronic brightness control 11 (dimmer with mechanical or electronic on-off switch) can also be an electronic touch switch 12 with phase control, can be connected to the additional device. Can also be a electronic touch switch 12 (Fig. 3) in connection with the additional switching device further loads 16, 17 6, i 7 and 18 switch than just the limit load 15 that could only be switched with the touch switch 12.

Finally, FIG. 4 shows that both an electronic Adjusting device 11 as well as an electronic touch switching device 12 with more than one additional switching devices I ', II', III 'can be connected. the Additional switching device works as follows: If the mains voltage is sinusoidal on the series connection of resistor 1 and capacitor 2, then is the impedance of the capacitor 2 so high that the resistor 1 only drops a voltage that is below the threshold voltage of the diode 3 is. This means that almost all of the mains voltage drops at capacitor 2. The capacitor 4 is not charged and the negative field effect transistor 6 remains in the conductive state, as a result of which the triac 8 does not have a gate current through the resistor 7 and therefore remains switched off.

If the curve shape of the mains voltage changes due to the phase angle, the impedance of capacitor 2 changes and resistor 1 drops a pulse-shaped voltage. This voltage is rectified by the diode 3 and smoothed by the capacitor 4. One switching voltage can be applied to resistor 5 to adjust; In addition, it limits the voltage on the capacitor 4. This is now the pinch-off voltage reached at the N-channel field effect transistor 6, it is blocked and the current through the resistor 7 flows into the gate of the triac 8, causing it to ignite and conducts the load current.

If there is no phase-angle voltage fed in, it is discharged the capacitor 4, wherein the N-channel field effect transistor 6 is conductive again and the gate current of the triac 8 can no longer flow. With that the triac goes 8 returns to the locked state.

Claims (3)

Claims /> -Electronic additional circuit arrangement especially for Actuating devices with phase control for controlling fluorescent tubes, characterized in that the controlled output of the adjusting device (11) via an additional switching device consisting of a frequency-dependent pulse separation stage (I), a subsequent rectifier stage (II) and a switching stage with triac (III) with the Neiz transformers for the fluorescent tube lamps to be controlled (IV) is connected. 2) Circuit arrangement according to claim 1, characterized in that when using electronic touch switches (12) with phase control of the The switched output is connected to the input of the additional switching device (I, II and III) to which additional loads (16,17,18) exceeding a limit load (15) are connectable. 3) circuit arrangement according to claim 1 or 2, characterized in that that to an electronic control device (11) or touch switching device (12) more than one additional switching device (I, II, III; I ', II', III ') can be connected.