NL1021528C1 - Dimmer for remote controlled halogen lamp, includes wireless receiver, synchronized signal receiving unit, oscillation frequency unit, trigger unit and transformer unit - Google Patents

Abstract

The dimmer comprises a wireless receiver unit (1), a power supply unit (4) for the dimmer, a synchronized signal receiving unit (2), an oscillation frequency unit (6) with at least one pair of oscillation initiating components which can produce alternating high-frequency oscillations, a trigger unit (5) with transistors for detecting a trigger signal from a control unit and a two-way diode for detecting a control signal from the control unit and a transformer unit (7) with a high voltage side and lower voltage side connected in series with the oscillation frequency unit and halogen lamp (8) respectively. The receiver unit has an output connected to a frequency signal input connection for the CPU in the control unit, in order to rectify and amplify the wireless signal from an external transmitter. The control unit sends a trigger or control signal to the CPU once the wireless signal has been suitably converted. The synchronized signal receiving unit has an output connected to a synchronized signal input in the CPU in order to send a suitable output power pulse signal to the CPU, which allows the pulse signal generated by an oscillation source to be synchronized with the power pulse signal from the power supply unit.

Description

Title: Dimmer device of an electronic transformer for use with a remote controlled halogen lamp

BACKGROUND OF THE INVENTION

Reference is made to FIG. 1. A conventional halogen lamp electronic transformer is shown there, comprising a bridge-type rectifier BR, a transformer T1, magnetic induction coils LA, LB, LC, transistors Qa, Qb and a high-frequency oscillation circuit formed with a two-way diode DIAC. The sine wave of the available current is delivered as a sinusoidal pulse by a bridge rectifier BR, wherein when the voltage rises from O to A, the current via resistor Ra will slowly charge capacitor Ca until the capacitor Ca is fully charged until the voltage on the preset voltage; the two-way diode DIAC is then triggered. At this time, the base terminal of the transistor Qb is also triggered and the charge of the capacitor Ca will flow through the transformer T1 through the magnetic induction coil LC, and the transistor Qb to ground to form a loop where the coil LA has a positive voltage detects on the base terminal of the transistor Qb, and at the same time will discharge the capacitor Ca through the diode.

In a conventional dimmer device, to provide a positive and negative change and a low alternating voltage, the current is supplied through the transformer T1 for energizing the halogen lamp. The disadvantage of the conventional dimmer device is that if the halogen lamp is to be controlled or dimmed, the resistor Ra is changed to a rheostat with adjustable resistor to adjust the current transit time of the halogen lamp. Consequently, the electronic transformer or variable resistor is placed on the side of the halogen lamp and therefore such an arrangement is unsuitable.

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BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a circuit layout of a conventional electronic transformer for a halogen lamp; FIG. 2 shows a comparative diagram for the output and input voltage waveform of a conventional halogen lamp electronic transformer;

FIG. 3 shows a block diagram of the dimmer device according to the present invention; FIG. 4 shows a circuit structure in accordance with the present invention;

FIG. 5 shows a comparative diagram for the output waveform according to the present invention.

15 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Reference is made to FIG. 3 and FIG. 4. There is shown a dimmer device with an electronic transformer used for a remote controlled halogen lamp comprising a wireless receiving unit 1, a synchronized signal receiving unit 2, a control unit 3, a power supply unit 4, a trigger unit 5, a frequency oscillation unit 6 and an output transformer unit 7. The output transformer unit is connected to a halogen lamp 8. According to the present invention, the output of the wireless receiver unit 1 is connected to the frequency signal input terminal 32 of the CPU of the control unit in order to properly rectify the wireless signal of the external transmitter and To amplify, and via the internal CPU 31 and an arranged coding circuit 34, the source of the signal is determined to thoroughly eliminate interference from the controlled signal, and to avoid errors. The

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3 output terminal of the synchronized signal pickup unit is connected to the synchronized signal input terminal 33 of the CPU 31 and the unit 2 is provided with a comparator 21 and an AC signal input terminal P1 where a voltage reduction network is formed by the voltage divider resistors R1, R2 and a capacitor C1, and is connected to the sine wave input output terminal P3 of the power unit 4. The other input is connected to a reference potential terminal P2, and by means of the power pulse signal aligned to the CPU 31, the pulse signal is produced by the oscillation source 35 and the output source signal of the power unit 4 synchronized. The CPU 31 is connected to the base terminal of the transistor 51 of the trigger unit 5 via a signal output wire 36 to control the activation of the transistor 51. The transistor 51 controls the opening or switching off of the oscillation frequency unit 6 via a two-way diode 52.

Therefore, if the receiving unit 1 receives a trigger signal, the CPU 31 supplies a negative voltage via the signal transmission wire 36 of the control unit 3 to the base terminal of the transistor 51 of the trigger unit 5 and the transistor 51 is in a stationary state. At this time, the CPU 31 uses the base terminal and the transistor terminal connected to the bi-directional diode 52 via the output voltage of the signal output line 36. The bi-directional diode 52 triggers the transistors Q1, Q2 of the oscillation frequency unit 6 to initiate a cycle change by means of the pulse of the power supply unit 4 and to produce alternating high-frequency oscillations via the oscillation frequency unit 6 in order to provide a suitable alternating voltage via the output transformer unit 7 for energizing the halogen lamp.

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Furthermore, when the unit 1 receives a switch-off signal, the CPU 31 supplies a positive voltage via signal transmission line 36 to the base terminal of the transistor 51 so that the terminal and the emitter terminal of the transistor 5 are communicatively connected.

That is, the current will not flow to the bi-directional diode 52 and the bi-directional diode 52 will not obtain the signal and the transistors Q1, Q2 will not operate alternately to produce high frequency oscillations. Therefore, the oscillation frequency unit 6 does not become active.

Furthermore, the control unit 3 can be pre-programmed to control the timing of the trigger contact of the two-way diode 52 of the trigger unit 5. That is, the brightness of the halogen lamp (Fig. 5) can be changed as desired so that the control effect is more diversified.

Furthermore, as shown in FIG. 4, the associated coding circuit 34 within the CPU 31 is either of the fixed code type or of an adjustable type. Thus, it can be determined whether the coding properties of the receiving unit 1 are in accordance with the preset coding of the CPU, and distortion interference can be avoided.

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Claims (5)

A dimmer device of an electronic transformer for use with a remote-controlled halogen lamp comprising: a wireless receiving unit having an output connected to a frequency signal input terminal of a control unit CPU of a control unit to align and direct the wireless signal of an external transmitter amplifying, wherein the control unit causes the CPU to provide a trigger signal or a control signal after the wireless signal is appropriately converted; a power supply unit that supplies the required power to the dimmer device; a synchronized signal pickup unit having an output terminal connected to a synchronized signal input terminal of the CPU to align an appropriate output power pulse signal to the CPU so that the pulse signal produced by an oscillation source and the power pulse signal of the power supply unit are synchronized; an oscillation frequency unit provided with at least one pair of oscillation starting elements which can alternatively produce high frequency oscillations; 20 a trigger unit provided with transistors for detecting the trigger signal from the control unit; and a bi-directional diode for detecting the controlled signal; a transformer unit having a high-voltage side and a low-voltage side, which are connected in series with the oscillation frequency unit and the halogen lamp, respectively. An electronic transformer dimmer device according to claim 1, wherein the control unit is pre-programmed to control the initial triggering time of the oscillation frequency device to change the brightness of the halogen lamp. The dimmer device of an electronic transformer according to claim 1, wherein the CPU of the control unit has an encoding circuit 5 to determine whether or not the coded properties of the wireless receiving unit are similar to those of the CPU, in order to avoid noise interference. 4. An electronic transformer dimmer device according to claim 1, wherein the initial oscillation element of the oscillation frequency unit is a transistor. The electronic transformer dimmer device of claim 1, wherein the coding circuit is either a fixed coding circuit or a variable coding circuit.