TW201128896A - Portable positive charge transmitter - Google Patents

Abstract

A Portable Positive Charge Transmitter comprises a DC Power Source, a Positive Charge Generator, and a Positive Charge Output Terminal. The function of said device is to transmit the positive charge to the object. The characteristic of the said device is to transmit the positive charge to the object by way of the single positive charge output terminal without a physical negative connection terminal.

Description

201128896 ί6, invention description: [Technical field to which the invention belongs] is an electron conduction conducted by the negative negative charge end of the Air Negative Ion or Earth, and then the positive charge output is positively charged. The target, and the formation of a work circuit 'is a technical field and feature of single-ended positive charge transfer' and its DC high voltage acquisition method is the application of high frequency pulse frequency modulation (PFM) control technology. [Prior Art] • Prior art teaching of non-portable single-ended positive charge transfer; conventional DC voltage acquisition has half-wave rectification circuit, full-wave rectification circuit, voltage doubling circuit (V〇ltage Doubler Circuit) » Cascaded rectifier unit with Generator »

Cockciroft-miton Voltage Multiplier Circuit (CVMC) and Electrostatic Machines Vande Graaff Generator

Electrostatic Generator, and there has never been a technique of applying high frequency pFjy [control method to generate high voltage] so the present invention can be called the first. SUMMARY OF THE INVENTION In order to achieve the purpose of early positive power transmission, the present invention has the following features: • L first self-oscillating half-bridge driving integrated circuit (Self 〇sciiiating

Half Bridge Driver 1C) and Cockcroft-Walton Voltage

The Multiplier Circuit or other voltage doubling circuit is coupled to form a positive charge generator. 2. The first positive charge output with fixed length or length adjustable to achieve the principle of transmitting positive charge to the target. 3. The first portable positive charge transmitter can be carried around without being limited by space to achieve the functions of the present invention. 4. The present invention provides a preferred hardware circuit example and embodiment to demonstrate that the present invention achieves its purpose and efficacy in 201128896 and can be implemented accordingly. [Embodiment] As shown in Fig. 1, a circuit diagram of a positive charge transmitter of the present invention is composed of a DC power source 100, a positive charge generator 200 and a positive charge output terminal 300. As shown in Fig. 2, it is a circuit diagram of the first embodiment of the positive charge generator of the present invention. As can be seen from the figure, the ic uses a self-oscillating half-bridge driving integrated circuit (Self).

Oscillating Half Bridge Driver 1C), such as IR2153, IR2155, IR53H420, UBA2024, MC34066, MC33157 or UC1864, etc. The oscillation frequency is determined by the oscillation frequency relationship resistance Rf and the oscillation frequency relationship capacitance Q, and the self-oscillating half-bridge driving integrated circuit The 5th and 7th ends of ICl respectively send pulse waves to push the metal oxide field effect transistor ^p〇wer m〇sfet)M1 and Μ2, and the metal oxide field effect transistor Μι& m2 constitutes a group of metal oxidation field effect The transistor 'connects to the primary ring A, 'A2 end of the high frequency and high voltage transformer Frequency Hugh Voltage^ransformer', becomes a half bridge connection', and its resonant frequency is determined by the resonant capacitor C and the resonant inductor L. In practical applications, the variable resistor VR connected in series with the frequency relationship resistor Rf is used as the output frequency adjustment, and is applied to the change control of the output frequency, and the second end of the high frequency high voltage transformer Tr is b! The high and low voltage of the Sinusoidal Wave, hence the variable resistance Vr is the voltage controller' and supplied to the Cockcroft Walton Vbltage Multiplier CuOmt (CVMC) 220 or other dust (V〇itage D〇ubler

Circuit) 'In order to obtain a stable high-voltage output, the present invention can also use a self-oscillating full-bridge driving integrated circuit without self-limiting.

As shown in Figure 2, in the high-frequency high-voltage transformer is the secondary ring &, &, the sine wave voltage is supplied to the CVMC 220, and the number of times of voltage multiplication can be 疋's as required by four times the voltage Pressure 'seven times pressure, etc., but not self-limiting, except for CVMC 220, such as Delon-Greinacher Circuit, Villard eireuit, 201128896 and SChemkd Circuit, etc.

Rl and R2 'its LEDs are connected to both ends of R2, the purpose is to monitor = and 1 is the supply of ' and the brightness of the LED is 0, there is electricity, its Cl ' C2, C3 ' c4.. c2ni, Cd Di , ^ original 'D2n hybrid cvmc 220 high voltage capacitor and high > 1 - pole body, the principle of operation is known, without repeating. Falling one, as shown in Figure 2, 'positive charge wheel end 300 is made of metal conductive characteristics. 'It can be fixed length or length scalable according to requirements. 3 can transmit the positive charge of CVMC 220 to the target ( 〇bject) β, (10) If the 狂3Λ is transferred to the mad 2 circuit diagram, έ10-two~, the sine wave generator 210 is still more frequently used, and it is still shouting Wei n, Treasure Tl, 2 and Tn, _ into, τ into a group of high-frequency high-voltage transformers, which are characterized by τ 丨, 丁 2 and ": and the series in series, and Τι '丁2 and Τν secondary ring Also connected in series, then two 220 will be pressed to obtain a flat transformer and increase the total output voltage of the secondary winding of the high-frequency voltage transformer, because of the output of the EH

The total series voltage of the voltages of the D and A and TN & rims is totaled to be CVMC 220. The electric 8 catching supply ^ 4th riding show is the positive charge of the invention of the positive compensation 3 circuit diagram, Figure ^ can be seen in the sine wave generation | | 21 〇 high-frequency high-voltage transformer [change to use multi-frequency S care, it has Τι ' τ2, TnW4 into, the heart is a group or a high-pressure _ instrument, which is characterized by the combination of Τι, 1 and Tn, and the secondary circles of τ丨, T2 and τΝ, respectively, connected to CVMC 220, ¢1 ΊSecondary ring 2CVMC 220 positive charge output terminal 300 is terminated by [@400' and its L is terminated at the end of tn, while TN2L· is terminated with T2 end 2 and L2 is terminated by CVMC At the low voltage end of 220, the total DC output voltage of CVMC 220 is T1, the series voltage of CMVC 22〇201128896 of the secondary circle of D2, Tn and τ2. For example, the embodiment of the self-contained device shows that the side device has = two = device 2, the device has a door closing device on the outer side of the edge body 510, and the device has a direct current in the insulated positive charge wheel body 510. Power supply 100, X-terminal connector 其 'its insulated positive positive charge output terminal 300, its physical (four) insulation material H circuit 2 'part description as shown

Get the desired positive charge potential, which = whole =: ; do not need the road 'when the positive charge 3 output end 〇〇 touch: :::1, its applications include agriculture, biology, environmental protection, Charging or other positive charge should be wilderness: ^fro:w The whole electricity is charged when the positive charge is charged to the capacitor 410, and the capacitor is negatively charged', that is, the portable _ single-ended positive charge is transmitted to the target, and the new chick is improved. Sexuality, and the use of the industry, the shape and structure of the characteristics and the spirit of the equal change and repair, should include 201128896 within the scope of the patent application of the present invention. [Simplified illustration of the illustration] Fig. 1 is a block diagram of the circuit domain of (4) positive charge transfer ϋ. Figure 2 is a circuit diagram of an embodiment of a positive charge generator of the present invention. Figure 3 is a circuit diagram of Embodiment 2 of the positive charge generator of the present invention. Figure 4 is a circuit diagram of Embodiment 3 of the positive charge generator of the present invention. • Figure 5 is a schematic diagram of an embodiment of a (four) positive charge transmitter of the present invention. Figure 6 is an explanatory diagram of the operation principle of the portable positive charge transmitter of the present invention. [Main component symbol description] 100 DC power supply. 200 positive charge generator. 210 sine wave generator. 220 Cockcroft-Walton Voltage Multiplier Circuit or other voltage doubler circuit. , W 300 positive charge output. 400 goals. 500 portable positive charge transmitter device. 510 insulation entity. 600 atmosphere negative ion group or conductive material object. S switch Vr voltage controller LED . Indicator light K DC power supply external connector ic, self-oscillating half-bridge drive integrated circuit. Rf frequency relationship resistance. 201128896 cf Frequency relationship capacitance. , M2 metal oxide field effect transistor. C Resonant capacitor. L resonant inductor.

Ri » R2 proportional resistor.

Ci ’ C2 ’ C3 ’ C4., C2n-i ’ C2n 13⁄4 voltage capacitor.

Di, D2 ' D3 ' D4...D2n-i ' D2n ifj pressure diode.

Tr Ίι Ί2 * 高频 High-frequency high-voltage transformer.

Claims (1)

201128896 VII. Patent application scope: 1·=Portable positive charge transmitter' It includes at least: machine power supply, which can supply DC power supply required by positive charge generator; Insulation entity, its insulated real coffee unit has positive storage The circuit of the device, the external device of the insulator has a switch or / and indicator light / / and voltage controller or / and DC power supply end connector or / and conductive material; and the positive charge wheel outlet, a part of which is insulated Inside the entity, a portion of the device is external to the insulating body and can be of a fixed length or a length scalable type to transfer the positive charge generated by the positive charge generator to the target. f is characterized by the ability to carry positive charges generated by the positive charge generator to the target by the positive charge output. 2. The transmitter of claim 1, wherein the positive charge generator comprises a sine wave generator and a Cockcroft-Walton Voltage Multiplier Circuit or other voltage doubling circuit. 3. If applied, the transmitter of the second category, where the sine wave generator includes a self-oscillating half-bridge or full-bridge driver integrated circuit? P0WER M〇SFET and horse frequency two-voltage transformer. 4. If the transmitter of the patent application scope 1 'the positive charge generator eoekeiroft-AValton Voltage Multiplier Circuit or other voltage doubler circuit, can be electrically connected to the secondary ring of one or more sets of high frequency and high voltage transformers respectively The two ends of the series are characterized by the input ends of the Cockcroft-Walton Vpltage Multiplier Circuit or other voltage doubling circuits, and one or more of the voltages are the total voltages of the secondary rings of the high frequency and high voltage transformers connected in series. 5. The transmitter of claim 2, wherein the positive charge generator 201128896 Cockcroft-Walton Voltage Multiplier Circuit or other voltage doubling circuit can be respectively connected to the secondary ring of one or more sets of high frequency high voltage transformers It is characterized in that the total voltage of the DC output voltage is the total voltage of the Cockcroft-Walton Voltage Multiplier Circuit of one or more sets of high frequency and high voltage transformers or the DC output voltage of other voltage doubler circuits connected in series. 6. The transmitter of the third phase of the patent application of the Shishen e-month, in which the primary and secondary coils of the high-frequency rolling transformer of the positive charge generator can be connected in series using one or more sets to flatten the function of the transformer. 7. The transmitter of claim 3, wherein the oscillation frequency of the sine wave generator is determined by the relationship between the oscillating frequency and the oscillating frequency, and the frequency of the high frequency high voltage transformer is controlled by the frequency modulation. The effect of the output voltage of the loop 0 8 · A positive charge transmitter, which at least includes: DC power supply: DC power supply required to supply a positive charge generator. Positive generators: include sine wave generators and Cockcroft-Walton Voltage Multiplier Circuit or other waste circuits. Positive output: The positive charge generated by the positive charge generator can be transmitted to the target. The iff^ charge output transmits positive charge to the target positive terminal' and the target is negative. Earth or conductive material is connected to the object. The sine generator includes high frequency and high voltage. €路, PC) FET and its transmitter, among which the positive charge generator oltage Multiplier Circuit or other voltage doubler circuit, 201128896 They can be electrically connected to the two ends of the secondary ring of one or more sets of high-frequency high-voltage transformers respectively, which are characterized by the input ends of the Cockcroft-Walton Voltage Multiplier Circuit or other voltage doubler circuits, and one or more voltages thereof. The group is the total voltage of the secondary ring of the high-frequency high-voltage transformer after being connected in series. -11-