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Lightning protection overvoltage protection device

A technology of overvoltage protection devices and varistors, which is applied in the field of power supplies, can solve problems such as the decline in the ability to withstand surge shocks, the failure of varistors, and the failure of protection circuits, so as to improve safety, reliability, and failure rate The effect of reducing and improving safety

Inactive Publication Date: 2018-11-13
CHENGDU TIEDA ELECTRONICS CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] But this scheme still has some serious defects, at first because of the current-limiting effect of the positive temperature coefficient ceramic thermistor sheet 12, no matter how badly the piezoresistor sheet 11 deteriorates, the heating temperature is only maintained at the center of the thermistor sheet 12. Near the middle point temperature, it will not be disconnected from the grid and quit working until the varistor voltage value of the varistor sheet 12 deteriorates to about 1 / 2 of the peak value of the grid operating voltage. After the connection, the too low varistor voltage value clamps the grid current that is constantly following, so that the gas discharge tube 13 cannot return to the disconnected state, and the thermistor sheet 12 will be short-circuited, and the protection circuit will fail. At this time, the varistor sheet 11 will Immediate breakdown short circuit, causing serious short circuit fault
Theoretically, most varistors will fail in this way if there are no other protective measures
The other failure process is similar to the situation of scheme 1, that is, when the varistor sheet 11 deteriorates to a certain extent, even if it has not entered the accelerated deterioration zone, but because its internal structure has been severely damaged, its ability to withstand surge shocks The ability has been greatly reduced. At this time, a surge can break it down or nearly break it down. At this time, the gas discharge tube 13 is also in the conduction state, and the piezoresistor sheet 11 that is broken down or near the breakdown is also lost. The ability to clamp off the following current of the grid leads to the failure of the protection circuit of the thermistor sheet 12, resulting in a serious short-circuit fault

Method used

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  • Lightning protection overvoltage protection device
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Examples

Experimental program
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Effect test

Embodiment 1

[0046] Such as Figure 3-Figure 5 As shown, a lightning protection overvoltage protection device includes a first varistor sheet 4, a second varistor sheet 1, a positive temperature coefficient thermistor sheet 2, a gas discharge tube 3 and a lead-out terminal 5, the gas The discharge tube 3 is connected in series with the first piezoresistor 4 in parallel with the positive temperature coefficient thermistor 2, and the series-parallel branch is connected in series with the second piezoresistor 1 to form a single port A combined circuit, wherein the performance of the first piezoresistor sheet 4 and the gas discharge tube 3 against surge impact is higher than that of the second piezoresistor sheet 1 .

[0047] At least one of the two lead-out terminals 5 of the single-port combined circuit is a low thermal resistance heat conduction terminal, the second varistor sheet 1 is thermally coupled with the positive temperature coefficient thermistor sheet 2, and the low thermal resist...

Embodiment 2

[0054]Such as Figure 6-Figure 7 As shown, the difference between this embodiment and Embodiment 1 is that the first piezoresistor sheet 4 is formed by parallel connection of two square piezoresistive ceramic sheets (40K201x2) with a nominal diameter of 40mm, and after parallel connection, it is equivalently replaced by To reduce the installation area, the parallel connection method is a conventional method used in this industry to reduce the installation area. The voltage of the first varistor sheet 4 is 200 volts, and the maximum discharge current Imax is 80KA. The second piezoresistor piece 1 is a square piezoceramic piece 40K391 with a nominal diameter of 40 mm, the piezoresistive voltage is 390 volts, and the maximum discharge current Imax is 40KA. The maximum discharge current Imax of the gas discharge tube 3 is 50KA, and the pulse breakdown voltage is 450V. The positive temperature coefficient thermistor 2 is a disc with a Curie temperature point of 160° C., a resistan...

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Abstract

The invention discloses a lightning protection overvoltage protection device comprising a first varistor, a second varistor, a positive temperature coefficient thermistor, a gas discharge tube and lead-out terminals. The gas discharge tube is connected in series with the first varistor and then connected in parallel with the positive temperature coefficient thermistor. Then the series-parallel branch is connected in series with the second varistor so as to form a single port combination circuit. The surge withstand performance of the first varistor and the gas discharge tube is higher than that of the second varistor. At least one of the two lead-out terminals of the single port combination circuit is the low thermal resistance heat conduction terminal. The second varistor is coupled withthe positive temperature coefficient thermistor. The low thermal resistance heat conduction terminal is simultaneously and mutually thermally coupled with one or two of the second varistor and the positive temperature coefficient thermistor.

Description

technical field [0001] The invention relates to the field of power supplies, in particular to a lightning protection and overvoltage protection device. Background technique [0002] Surge protector (SPD for short), as a standard low-voltage electrical appliance, is widely used in low-voltage transmission and distribution lines. Quality and ensuring the safety of electrical appliances have obvious effects. [0003] The core component of the SPD is a surge suppression component, the most commonly used is a varistor ceramic chip. Due to the long transmission distance of power transmission and distribution lines and their exposure to the open air, they are more likely to suffer from high-energy surge pulses than indoor electrical equipment. During the design life of the SPD, the varistor ceramic chips are more likely to be damaged beyond the rated specifications The multiple impacts of the high-energy surge caused the deterioration and failure of the varistor. Since the varis...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02H9/04H02H5/04
CPCH02H9/042H02H5/042
Inventor 张治成叶磊詹俊鹄章俊石小龙
Owner CHENGDU TIEDA ELECTRONICS CORP
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