KR890006469Y1 - Power "on" circuit of electronic manufactured goods - Google Patents

Abstract

No content.

Description

Automatic power-on "on" circuits when cords are inserted into power lines in electronics

1 is a block diagram according to the present invention.

2 is a concrete circuit diagram of FIG.

* Explanation of symbols for main parts of the drawings

10: power supply unit 20: rectification unit

30: pulse generator 40: switching unit

50: switching detector

The present invention relates to a power "on" circuit of electronic products, and more particularly to a circuit that can automatically "on" when the cord is inserted into the outlet of the power line in electronic products using a microcomputer.

In general, as the functions of the existing electronic products are diversified and gradually automated, the performance of the operation by the machine itself is increasing.

Conventionally, when operating a product, there is an inconvenience of having to insert a cord into an outlet of a power line and turn on a power switch.

Accordingly, an object of the present invention is to provide a circuit that automatically turns on a power switch when a cord is inserted into an outlet of a power line in all products using a microcomputer.

Hereinafter, the present invention will be described in detail with reference to the drawings. 1 is a block diagram of the present invention, the power supply unit 10 for converting the voltage of the power supply line to a voltage that can supply the product, and the rectifying unit 20 for rectifying by inputting the output of the power supply unit 10 to remove noise And a switching circuit for inputting the output of the rectifier 20 and generating a pulse for a predetermined time, and a switching circuit for inputting the output of the pulse generator 30 and turning on and off according to the input result thereof. 40 and a switching sensing unit 50 that performs a function of turning on the power switch according to the result of the switching circuit 40.

Based on the above-described configuration will be described the present invention in detail. In the electronic device using a microcomputer, the power supply unit 10 inserts a cord of an electronic product into an outlet of a power line, converts an incoming voltage into a voltage in an electronic product, and inputs an output of the transformed power supply unit 10 ( 20 removes and rectifies the noise generated during the transformation of the power supply unit 10.

The pulse generator 30 generates a predetermined pulse by the output of the rectifier 20, and the switching unit 40 is turned on and off by the output of the pulse generator 30, and the switching unit 40 is turned on. By inputting the off signal, the switching detector 50 obtains the same result as that of operating the power switch.

FIG. 2 is a detailed circuit diagram of FIG. 1 according to the present invention. The power supply unit 10 includes a fuse, a power transformer T ₁ , and a power supply unit P · S, a diode D ₁ , and a resistor R _1. ) And a rectifier 20 composed of capacitors C ₁ -C ₂ , a pulse generator 30 composed of capacitors C ₃ , resistors R ₂ to R ₄ , and transistors Q ₁ , and transistors Q ₁ . ₂ to Q ₃ ) when the switch 40 and the scan type micom are used, the scan pulse key composed of the switches SW ₁ to SW ₆ and the microcomputer 51 uses the matrix and the level sensing type micom. The level sensing key composed of the resistors R ₅ to R ₁₀ , the switches SW ₇ to SW ₁₀ , and the microcomputer 52 is composed of a switching sensing unit 50 composed of a matrix.

Based on the above-mentioned structure, it demonstrates in detail with reference to drawings.

Inserting the codes of electrical and electronic equipment to an outlet of the power line, the power line voltage in the primary coil of the power transformer (T ₁₎ is induced in the secondary coil of the power transformer (T ₁₎ to a voltage that can be used for each electronics Transformed

Since the power source induced in the secondary coil is an AC component and must be rectified as a DC component, the power supply is rectified through the diode D ₁ , the resistor R ₁ , and the capacitor C ₂ , and the nod component is passed through the capacitor C ₁ . To prevent malfunction of the set.

The rectified voltage turns off the transistor Q ₁ until the voltage of the capacitor C ₃ becomes 0.6 V by the time constant of the resistor R ₂ and the capacitor C ₃ , and the capacitor C ₃ is 0.6. When V is over, transistor Q ₁ is "on", and while capacitor C ₃ is being charged, it is output "high" to the collector terminal of transistor Q ₁ through resistor R ₄ to switch transistor Q _2. Turn on Q ₃ ).

Therefore, when the microcomputer of the product to be switched according to the "on" of the transistors Q ₂ to Q ₃ is a scanning method, the scan pulse through the microcomputer 51 is transmitted through the emitter at the collector of the transistor Q ₂ . It returns to the microcomputer and becomes the same state that the power key is "on". When the microcomputer 52 is in the level sensing method, the transistor Q ₃ is "on" and the collector side becomes the ground potential. The same result as the power key is "on".

Later, when the charge voltage of the capacitor C ₃ exceeds 0.6V, the transistor Q ₁ is "on" and the transistors Q ₂ to Q ₃ are turned off to maintain the power "on" state of the product.

As described above, the electronic device using the scan pulse type microcomputer 51 or the level sensing microcomputer 52 can be powered "on" when the product cord is inserted into a power outlet, and the user can start the product. Operation can be simplified during operation, and the convenience of use can be improved, and after the initial power "on", the power switch can be turned on and off through the power supply (P · S), which can contribute to the automation of the product. There is an advantage.

Claims (1)

In the power "on" circuit of an electronic product, when the cord of the product is inserted into the power line, the power supply unit 10 is transformed to the product voltage, and the output voltage of the power supply unit 10 is rectified to remove noise. The rectifier 20 and the pulse generator 30 for inputting the output of the rectifier 20 to generate a predetermined time pulse, and the switching unit 40 to be turned on and off by inputting the output of the pulse generator 30 And a switching sensing unit 50 configured to “on” the scan pulse type product and the level sensing type product by the output of the switching unit 40. Automatic power "on" circuit when the cord is inserted.