KR100705358B1 - Phase control device of neon sign flasher and its method - Google Patents

Abstract

The present invention allows the neon sign flasher to be operated / executed only at the optimum phase condition according to the type of load at all times, thereby fundamentally and simply solving the output circuit damage and other circuit defects caused by the impact current applied during the ON / OFF operation of the existing flasher. In addition, the present invention relates to a circuit device and a phase control method thereof, which are not only very simple but also can be selectively used in addition to a normal flasher.

That is, in the conventional neon sign flasher composed of an oscillator (Timer) → an address decoder (ROM) → an ROM (a) output circuit (Triac), a load current value between the oscillator (Timer) and the address decoder (Address Decoder). It is an additional installation / configuration of the flasher phase control circuit that controls the address decoder to change and the ROM and output circuit (Triac) can be turned on / off / switched at the phase where the voltage is minimized (zero volt phase).

Phase (zero volt phase), neon sign flasher, D flip-flop element, voltage drop resistor R, zener diode

Description

Phase control device and method for an on-off switch neon light of a neon sign flasher

1 is a typical neon sign flasher circuit

2 is a circuit diagram showing a preferred embodiment of the present invention

3 is an exemplary diagram showing current waveforms and output changes.

The present invention allows the neon sign flasher to be operated / executed only at the optimum phase condition according to the type of load at all times, thereby fundamentally and simply solving the output circuit damage and other circuit defects caused by the impact current applied during the ON / OFF operation of the existing flasher. In addition, the present invention relates to a circuit device and a phase control method thereof, which are not only very simple but also can be selectively used in addition to a normal flasher.

In the past, the neon sign flasher used a magnetic neon transformer, which is a boost method by a coil, as a load of the flasher, but there was no problem. However, recently, a miniaturized and output-powered electronic transformer has been commercialized.

However, when the above-mentioned electronic transformer is used as a load of the existing flasher, it may be ON / OFF flashing / executed at any phase, causing output circuit damage and trans-fault due to the shock current generated during flashing / operation, as well as malfunction of other circuit devices. There was a considerable problem.

The above problems are the cause of the failure of the neon sign flasher is a situation that is urgently needed to improve such as loss of all costs due to repair / inspection, as well as shortening the life of the flasher.

In order to solve this problem, Mi-Com can be installed and solved, but this is not only expensive due to the high cost, but also requires programming and writing of Mi-Com and malfunctions due to leakage of moisture and high voltage. This is also a situation that is not a preferred phase control method.

Accordingly, the present invention was devised to eliminate the above problems, and it is considered that the minimum current phase of the electronic transformer is close to the zero bolt phase, so that the flasher can be always executed only in the zero bold phase during the ON / OFF operation of the flasher. In order to provide an optimal phase control method that greatly reduces the impact current, which is essential when using an electronic transformer as a load, and furthermore, to provide a desirable circuit device for implementing the optimum phase control method, the present invention has been completed. will be.

In order to achieve the above technical problem, the present disclosure will be described in detail with reference to the accompanying drawings.

The present invention, as shown in Figure 1 in the existing neon sign flasher consisting of an oscillator (Timer) → Address Decoder (Address Decoder) → ROM → output circuit (Triac),

The address decoder is changed in phase (zero volt phase) between the oscillator (Timer) and the address decoder (Address Decoder) so that the ROM and the output circuit (Triac) can be turned on / off and controlled. The phase control circuit of the neon sign flasher as shown in FIG. 2 is additionally installed / configured.

The phase control circuit includes a D input terminal connected to an oscillator circuit (Timer), a CK clock pulse input terminal connected to a transformer, a diode, and an amplification Tr, and a D flip-flop device (DF / F) each having a Q output terminal. As a voltage drop resistor R is additionally installed between the diode connected to the CK clock pulse input terminal and the amplification Tr.

When detecting the oscillation output generated by the oscillator (Timer) at a period of 120Hz, a negative edge occurs in the phase of the position close to zero volt, which changes the address decoder connected to the Q output terminal. This allows ROM and Triac to always be turned on / off at the minimum current level.
In other words, the D flip-flop device (DF / F), which is the additional circuit proposed in the present invention, has a phase detection output of 120 HZ used as a clock (CK), and an output of an oscillator circuit (Timer), that is, DF / F. The D input of is only a few HZ depending on the speed setting of the flasher, so the output Q of the DF / F is switched by comparing the "High" or "Low" state of the Timer at negative edges at 120HZ. The decoder (Address Decoder) and ROM and Triac switching is always performed at 0 ° or 180 ° of the minimum current flow.

In addition, when a zener diode of proper voltage is applied / installed instead of the resistor R installed between the diode and the amplification Tr, the magnetic transformer current waveform shown in FIG. 3 is used as a load. As the current is minimized at a phase of about 45 °,

If a Zener diode is installed instead of the resistor R, the ROM and Triac can always be turned on / off at the minimum current value even when the magnetic transformer is used as the load.

In this way, if the on / off operation is accurately controlled at the minimum current value phase, it does not cause a large impact current as in the past, so it is possible to fundamentally solve the damage / damage / defect of the output circuit of the flasher and the transformer.

Furthermore, the phase control circuit presented here is not only a very simple and inexpensive circuit element, but also can be simply installed in an existing device, thereby ensuring the convenience of installation and the significant cost saving effect and safety of the flasher. ,

In particular, there is a greater expectation that even a device that is 10 times cheaper than the method using Mi-Com can exhibit higher phase control.

Hereinafter, the detailed circuit operation description will be described in detail. If the above-described phase control circuit is additionally installed between the oscillator and the address decoder, as shown in FIG.

A pulse wave waveform of 120 Hz is formed by the diode D, and the amplified Tr is formed into a square wave like the Tr output waveform of FIG. 3, and when used as a clock input of the DF / F, the oscillation generated in the oscillation circuit. The output is detected at 120 Hz and the output Q changes.

In this case, when the resistor R is used, a negative edge is generated at a phase close to zero volt as shown in the Tr output waveform of FIG. 3 to change the address decoder to always turn on / off the ROM and Triac at a phase where the load current is minimum. off is executed.

The phase control apparatus and method of the neon sign flasher of the present invention described in detail as described above are always executed only in the phase of the minimum current value, as is well known for the on / off operation of the neon sign flasher. And stable operation at all times without problems such as high voltage leakage, malfunction due to shock current, damage to circuit equipment, failure, etc., and the phase control circuit can be applied / configured when new flashers are manufactured or additionally applied to existing flashers. In case of additional installation, it is simple and has the advantage that it can be easily installed / applied at very low cost (approximately 10 times cheaper than using mi-com). to be.

Claims (3)

In the conventional neon sign flasher which consists of an oscillator (Timer) → an address decoder (Address Decoder) → a ROM → an output circuit (Triac), A D flip-flop element (DF / F) for controlling the phase between the oscillator (Timer) and the address decoder (Address Decoder) is additionally configured, and the D flip-flop element (DF / F) has its input and output sides. And a D input terminal and a Q output terminal, while the other side is provided with a CK clock pulse input terminal connected in the order of a transformer, a diode, and an amplification Tr. delete delete

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