DE20214320U1 - Electronic transformer dimmer device for use in a remote controlled halogen lamp - Google Patents

Description

Dimmer device for electronic transformer for use in a remote controlled halogen lamp

The invention relates to the field of dimming devices and, in particular, to a dimming device for an electronic transformer for use in a remotely controlled halogen lamp.

As shown in Fig. 1, a conventional electronic transformer for a halogen lamp comprises a bridge rectifier BR, a transformer Tl, the magnetic induction coils LA, LB, LC, the transistors Qa, Qb and a high frequency oscillation circuit including the bidirectional thyristor diode DIAC. The sinusoidal oscillation of the available current is output by a bridge rectifier BR as a sinusoidal pulse, and when the voltage changes from O to A, the current from the resistor Ra to the capacitor Ca is slowly increased until the capacitor Ca is fully charged to the preset voltage, whereupon the bidirectional thyristor diode DIAC is triggered. In this case, the base terminal of the transistor Qb is also triggered, the voltage of the capacitor Ca flows through the transformer Tl and the magnetic induction coil LC and the transistor Qb to ground, forming a loop so that the coil LA senses a positive voltage at the base terminal of the transistor Qb, while at the same time the voltage of the capacitor Ca is discharged as current through the diode.

In the conventional dimmer device, the current through the transformer Tl produces a positive and negative change, outputting a low voltage AC which is applied to the halogen lamp. The disadvantage of the conventional dimmer is that when the halogen lamp is to be adjusted or dimmed, the resistor Ra must be replaced by a variable resistor to adjust the current flow time of the halogen lamp. As a result, the electronic transformer or variable resistor is located on the side of the halogen lamp, where-

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where such an arrangement is inappropriate.

The invention is therefore based on the object of creating a dimmer device for an electronic transformer which does not have the above-mentioned disadvantages.

This object is achieved according to the invention by a dimmer device for an electronic transformer according to claim 1. Further developments of the invention are specified in the dependent claims.

Further features and advantages of the invention will become clear from reading the following description of preferred embodiments, which refers to the drawings, in which:

Fig. 1 shows the already mentioned circuit diagram of a conventional electronic transformer for a halogen lamp;

Fig. 2 is a comparison diagram for the output and input voltage waveforms of a conventional electronic transformer for a halogen lamp;

Fig. 3 is a block diagram of the dimmer device according to the invention;

Fig. 4 is a circuit diagram of the dimmer device; and

Fig. 5 is a comparison diagram for the output waveform of the dimmer device.

In Figs. 3 and 4 there is shown an electronic transformer dimmer device for use with a remote-controlled halogen lamp, which comprises a receiving unit 1 for a wirelessly transmitted signal, a synchronous signal retrieval unit 2, a control unit 3, a power unit 4, a triggering unit 5, an oscillator unit 6 and an output transformer unit 7. The output transformer unit 7 is connected to a halogen lamp 8. In accordance with the invention, the output of the receiving unit is

The wireless signal retrieval unit 1 is connected to the frequency signal input terminal 32 of the CPU of the control unit to appropriately rectify and amplify the wireless signal of the external transmitter, and the source of the signal can be determined through the internal CPU 31 and a built-in coding circuit 34 to carefully eliminate the interference of the controlled signal and prevent the occurrence of errors. The output terminal of the synchronous signal retrieval unit is connected to the synchronous signal input terminal 33 of the CPU 31, the unit 2 is provided with a comparator 21, and the AC signal input terminal Pl forming a potential reduction network via the partial potential resistance Rl, R2 and the capacitor Cl is connected to the sine wave input/output terminal P3 of the power unit 4. The other input end is connected to the reference potential connection point P2, whereby the pulse signal generated by the oscillation source 35 and the output source pulse signal of the power unit 4 can be synchronized by means of the power pulse signal rectified for the CPU 31. The CPU 31 is connected to the base terminal of the transistor 51 of the trigger unit 5 via the signal output wire 36 to control the activation of the transistor 51. The transistor 51 can control the opening or turning off of the oscillator unit 6 via a bidirectional thyristor diode 52.

Thus, when the receiving unit 1 receives a trigger signal, the CPU 31 can output a negative voltage to the base terminal of the transistor 51 of the trigger unit 5 through the signal sending wire 36 of the control unit 3, with the transistor 51 in a stationary state. In this case, the CPU 31 can use the base terminal and the terminal of the transistor to the bidirectional thyristor diode 52 through the output voltage of the signal output line 36. The bidirectional thyristor diode 52 can trigger the start of the transistors Q1, Q2 of the oscillator unit 6, so that it can change the cycle by means of the pulse of the power unit 4 and generate a high frequency AC oscillation through the oscillator unit 6 to output an appropriate AC voltage by sampling the output transformer unit 7, which can be applied to the halogen lamp 8.

Further, when the unit 1 receives a turn-off signal, the CPU 31 can output a positive voltage to the base terminal of the transistor 51 through the signal transmission line 36 so that this terminal and the emitter terminal of the transistor 5 are connected. That is, the current does not flow into the bidirectional thyristor diode 52, the bidirectional thyristor diode 52 does not receive a signal, so that the transistors Q1, Q2 do not cooperate mutually to generate the high frequency oscillation. Thus, the oscillator unit 6 stops.

Furthermore, the control unit 3 can be preset with a program so that it controls the timing of triggering the contact of the bidirectional thyristor diode 52 of the trigger unit 5. That is, the brightness of the halogen lamp (Fig. 5) can be changed as required, so that the control effect becomes more diversified.

Further, the related coding circuit 34 shown in Fig. 4 in the CPU 31 is either of the fixed coding type or the adjustable type. Thus, it can be determined whether the encoded characteristics of the receiving unit 1 correspond to the preset coding of the CPU, so that distortion noise can be avoided.

Claims (5)

1. Dimmer device for an electronic transformer for use in a remote-controlled halogen lamp, characterized by
a receiving unit ( 1 ) for a wirelessly transmitted signal, which is connected with an output to a frequency signal input terminal ( 32 ) of a CPU ( 31 ) of a control unit ( 3 ) which can rectify and amplify the wirelessly transmitted signal of an external transmitter, wherein the control unit ( 3 ) can cause the CPU ( 31 ) to generate a trigger signal or a control signal after suitable conversion of the wirelessly transmitted signal;
a power unit ( 4 ) capable of providing the required power for the dimmer device;
a synchronous signal fetching unit ( 2 ) having an output terminal connected to the synchronous signal input terminal ( 33 ) of the CPU ( 31 ) for rectifying the appropriate output power pulse signal for the CPU ( 31 ) so that the pulse signal generated by an oscillation source ( 35 ) and the power pulse signal of the power unit ( 4 ) can be synchronized;
an oscillator unit ( 6 ) provided with at least two oscillation starting elements (Q1, Q2) which can alternately generate a high frequency oscillation;
a trigger unit ( 5 ) provided with transistors ( 51 ) capable of sensing the trigger signal of the control unit ( 3 );
a bidirectional thyristor diode ( 52 ) capable of sensing the controlled signal; and
a transformer unit ( 7 ) with a high-potential side and a low-potential side, which are connected in series with the oscillator unit ( 6 ) and with the halogen lamp ( 8 ) respectively. 2. Dimmer device according to claim 1, characterized in that the control unit ( 3 ) can be preset with a program to control the initial trigger time of the oscillator unit ( 6 ) and thus to change the brightness of the halogen lamp ( 8 ). 3. Dimmer device according to claim 1 or 2, characterized in that the CPU ( 31 ) of the control unit ( 3 ) contains a coding circuit ( 34 ) which can determine whether the encoded properties of the receiving unit ( 1 ) for a wirelessly transmitted signal correspond to those of the CPU ( 31 ), so that noise interference can be avoided. 4. Dimmer device according to any preceding claim, characterized in that the initial oscillation element of the oscillator unit ( 6 ) is a transistor. 5. Dimmer device according to any preceding claim, characterized in that the coding circuit ( 34 ) is either a fixed coding circuit or a variable coding circuit.