CN202267725U - Static discharge generator - Google Patents

Abstract

The utility model discloses a static discharge generator, which comprises a power supply, a high voltage module, two charge-discharge circuits and a high voltage relay. The two charge-discharge circuits are respectively connected to the positive output end and the negative output end of the high voltage module, and the high voltage relay is arranged between the output ends of the two charge-discharge circuits and the static discharge output ends. By means of matching of the high voltage relay and the output ends of the two charge-discharge circuits, the static discharge polarity can be directly changed and output. The static discharge generator is simple in polarity switch, convenient to control, high in reliability, low in power consumption and the like.

Description

A kind of electro-static discharging generator

[technical field]

The utility model relates to electromagnetic compatibility (EMC) field tests, relates in particular to a kind of electro-static discharging generator that is easy to control.

[background technology]

Electrostatic Discharge be meant have different electrostatic potentials object each other near or directly the electric charge that causes of contact shift, its process can form high voltage, highfield, transient high-current, and is attended by strong electromagnetic radiation.When the static discharge phenomenon takes place, or consumer (EUT) is when being exposed in the electrostatic field, and most of consumers (EUT) all can be damaged.Therefore; The antistatic interference performance of consumer (EUT) is an important indicator of estimating its performance; This evaluation of indexes normally with electro-static discharging generator requirement according to the rules, is implemented the static discharge of different brackets to EUT, investigate then whether the duty of EUT normally realize.

The main circuit diagram of existing electro-static discharging generator comprises power supply shown in accompanying drawing 1, high-pressure modular, two high-voltage relays and a charging and discharging loop.During work, break off high-voltage relay S2 earlier, more according to actual needs, switching high-voltage relay S1 is connected with the high-pressure modular positive-negative output end, thereby changes the polarity of output static, and then closed high relay S2 realizes static discharge.Adopt the electro-static discharging generator of this structure; Owing to need successively control two high-voltage relays and could realize the switching of static polarity and the output of static; Be awkward, and, in case there is the contact of a high-voltage relay to go wrong; Entire circuit all can be malfunctioning, causes the poor reliability of instrument; Simultaneously, high-voltage relay also has volume big with respect to components and parts such as resistance, electric capacity, and power consumption is big, the shortcoming that price is high.Therefore, it is complicated that existing electro-static discharging generator exists polarity to switch, and reliability is low, and power consumption is big, and volume is big, the shortcoming that production cost is high.

[utility model content]

In order to solve the problems referred to above that exist in the prior art, the utility model provides a kind of electro-static discharging generator, to reach convenient control, improves instrument reliability, reduces generator volume and power consumption, the purpose that reduces production costs.

For achieving the above object; The technical scheme that the utility model adopts is: comprise power supply, high-pressure modular, CPU; It is characterized in that, comprise the first charging and discharging loop, the second charging and discharging loop; High-voltage relay and static discharge output terminal; The described first charging and discharging loop is connected on the positive output end of high-pressure modular, and the described second charging and discharging loop is connected on the negative output terminal of high-pressure modular, and described high-voltage relay is connected between the output terminal and static discharge output terminal in the first charging and discharging loop and the second charging and discharging loop.

The utility model utilizes two charging and discharging loops and a high-voltage relay to substitute two high-voltage relays of the prior art and a charging and discharging loop; Only need control a high-voltage relay during work and just can accomplish the switching of static polarity and the output of static; Control is convenient, and reliability is high.Charging and discharging loop in the utility model is by charging resistor, and energy-storage capacitor and discharge resistance are formed, and with respect to high-voltage relay, it is little, low in energy consumption that resistance, electric capacity have a volume, advantages of cheap price.Therefore, the utility model not only is convenient to control the polarity of output static, improves the reliability of instrument, has also reduced the volume of whole electro-static discharging generator, has reduced production cost and power consumption.

The utility model can also be done further qualification and perfect through following technical characterictic:

The first above-mentioned charging and discharging loop is by first charging resistor, and first energy-storage capacitor and first discharge resistance are formed; The second charging and discharging loop is by second charging resistor, and second energy-storage capacitor and second discharge resistance are formed.Described first energy-storage capacitor, first discharge resistance, second energy-storage capacitor and second discharge resistance are integrated in the same separate chamber, and the capacitance-resistance external member that promptly is used to discharge is integrated in the separate chamber.The utility model is furnished with various separate chamber according to the characteristics of various static discharge models, when utilizing the utility model to carry out simulation test; Only need to change different separate chamber; Just can realize the replacing of discharge capacitance-resistance external member, thereby realize the electrostatic discharge simulation test of different models, easy to operate.

Above-mentioned electro-static discharging generator; Comprise the discharge examination unit; Described discharge examination unit is arranged between high-pressure modular and the CPU, and its sensitivity can be by the discharge examination needs free adjustment of user according to reality, thereby reach the correct purpose of judging whether instrument discharges; Prevent to cross the low or too high maloperation that causes because of instrument discharge examination element sensitivity, reliability is high.

Above-mentioned electro-static discharging generator comprises power supply, and described power supply can be the civil power input, also can be the built-in battery of instrument.Civil power just often, instrument is to battery charge, when civil power interrupted, instrument started powered battery automatically, can keep the instrument operate as normal and protect load not to be damaged, and simultaneously, is not having under the environment of electrical network, instrument also can be worked, and is easy to use.

The beneficial effect of the utility model: reduce the use of high-voltage relay, polarity is switched simple, is convenient to control, and reliability is high, and volume is little, and is low in energy consumption, cost is low.

[description of drawings]

Accompanying drawing 1 is the main circuit diagram of existing a kind of electro-static discharging generator.

Accompanying drawing 2 is the main circuit diagram of the electro-static discharging generator of the utility model.

[embodiment]

The embodiment main circuit diagram of the electro-static discharging generator of the utility model is as shown in Figure 2, comprises power supply 1, high-pressure modular 2; The first charging and discharging loop 3; The second charging and discharging loop 4, high-voltage relay 5, discharge examination unit 7; CPU 8 and static discharge output terminal 6, high-pressure modular 2 is made up of positive output end+HV and negative output terminal-HV.Power supply 1 links to each other with high-pressure modular 2 input ends; The first charging and discharging loop 3 directly is connected on the positive output end+HV of high-pressure modular 2; The second charging and discharging loop 4 directly is connected on the negative output terminal-HV of high-pressure modular 2; Be provided with high-voltage relay 5 between the output terminal in the first charging and discharging loop 3 and the second charging and discharging loop 4 and the static discharge output terminal 6; Described high-voltage relay 5 has two input ends and an output terminal, and two input ends link to each other with the output terminal in the first charging and discharging loop 3 and the second charging and discharging loop 4 respectively, and its output terminal links to each other with static discharge output terminal 6; Described discharge examination unit 7 is connected between high-pressure modular 2 and the CPU 8, and described CPU 8 also links to each other with high-voltage relay 5 with high-pressure modular 2.

When carrying out the atmospherical discharges test; If will carry out the positive polarity atmospherical discharges; The input end of high-voltage relay 5 is connected to the first charging and discharging loop, 3 output terminals (positive high voltage output terminal), regulates the output of high-pressure modular 2, after the first charging and discharging loop 3 reaches specified trial voltage; Can carry out the positive polarity atmospherical discharges; After discharge examination unit 7 detects discharge, the input end of high-voltage relay 5 is connected to the output terminal (negative voltage output terminal) in the second charging and discharging loop 4, and regulating high-pressure modular 2, to make its positive output end be zero; If will carry out the negative polarity atmospherical discharges; The input end of high-voltage relay 5 is connected to the second charging and discharging loop, 4 output terminals (negative high voltage output terminal), regulates the output of high-pressure modular 2, after the second charging and discharging loop 4 reaches specified trial voltage; Can carry out the negative polarity atmospherical discharges; After discharge examination unit 7 detects discharge, the input end of high-voltage relay 5 is connected to the output terminal (positive voltage output end) in the first charging and discharging loop 3, and regulating high-pressure modular 2, to make its negative output terminal be zero.

When carrying out contact discharge; If will carry out the positive polarity contact discharge: the output terminal (negative voltage output terminal) that the input end of high-voltage relay 5 is connected to the second charging and discharging loop 4; After the output of regulating high-pressure modular 2 makes the first charging and discharging loop 3 reach specified trial voltage; Again the input end of high-voltage relay 5 is connected to the output terminal (positive voltage output end) in the first charging and discharging loop 3, can carries out the positive polarity contact discharge.If will carry out the negative polarity contact discharge: the output terminal (positive voltage output end) that the input end of high-voltage relay 5 is connected to the first charging and discharging loop 3; After the output of regulating high-pressure modular 2 makes the second charging and discharging loop 4 reach specified trial voltage; Again the input end of high-voltage relay 5 is connected to the output terminal (negative voltage output terminal) in the second charging and discharging loop 4, can carries out the negative polarity contact discharge.

Claims (5)

1. electro-static discharging generator; Comprise power supply (1), high-pressure modular (2), CPU (8); It is characterized in that, comprise the first charging and discharging loop (3), the second charging and discharging loop (4); High-voltage relay (5) and static discharge output terminal (6); The described first charging and discharging loop (3) is connected on the positive output end of high-pressure modular (2), and the described second charging and discharging loop (4) is connected on the negative output terminal of high-pressure modular (2), and described high-voltage relay (5) is connected between the output terminal and static discharge output terminal (6) in the first charging and discharging loop (3) and the second charging and discharging loop (4).

2. electro-static discharging generator according to claim 1 is characterized in that, the described first charging and discharging loop (3) is by first charging resistor (3-1), and first energy-storage capacitor (3-2) and first discharge resistance (3-3) are formed; The described second charging and discharging loop (4) is by second charging resistor (4-1), and second energy-storage capacitor (4-2) and second discharge resistance (4-3) are formed.

3. electro-static discharging generator according to claim 2 is characterized in that, described first energy-storage capacitor (3-2), first discharge resistance (3-3), second energy-storage capacitor (4-2) and second discharge resistance (4-3) are integrated in the same separate chamber.

4. according to claim 1 or 2 or 3 described electro-static discharging generators; It is characterized in that; Comprise discharge examination unit (7), described discharge examination unit (7) is a detecting unit that sensitivity is adjustable, and is arranged between high-pressure modular (2) and the CPU (8).

5. according to claim 1 or 2 or 3 described electro-static discharging generators, it is characterized in that described power supply (1) is civil power input or the built-in battery of instrument.

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