CN203660530U - Equipotential lightning arrester for optical transmitter and receiver - Google Patents

Abstract

The utility model discloses an equipotential lightning arrester for an optical transmitter and receiver. The equipotential lightning arrester comprises a power source system surge overvoltage equipotential processing circuit connected between a live wire and a zero wire of a power source, a signal system surge overvoltage equipotential processing circuit connected between a cable core and a shielding layer of a signal line, and a fault alarming indication circuit. The power source system surge overvoltage equipotential processing circuit includes a gas discharge tube and a pressure-sensitive resistor. Through the equipotential surge protection technology, difficulties about line protection for cable television optical transmitter and receivers are solved and technical challenges are overcome. Direct matching during application is achieved. The equipotential lightning arrester is convenient and fast to install and maintain. Large areas needed for ground excavation can be saved for surge protection of optical transmitter and receivers, costs of grounding resistors are reduced, steel resources are saved, and repeated waste is avoided.

Description

A kind of optical transmitter and receiver equipotential arrester

Technical field

The utility model relates to a kind of optical transmitter and receiver equipotential arrester.

Background technology

Broadcasting and TV cable TV network circuit covers rural area, city every family, cable TV optical transmitter and receiver application quantity in video line is very large, but its mounting condition is limited, is mostly arranged in stairs port, in wall rainproof box, road limit, community, rural area are mainly placed under eaves, electric pole etc.There is no good shielding protection, how nearby its supply line power taking, and from stairs port or in the majority from electric pole power taking, electricity consumption is also lack of standardization, and circuit does not have shielding measure yet.The protective earthing of optical transmitter and receiver is simultaneously mostly unsettled, because in community, city, road surface sclerosis cannot be excavated, rural area electric pole hangs ground connection difficulty.Grounding requirement resistance that the most difficult is will arrive 4 ohm of Anti-surging effects could be more obvious, so be badly in need of a equipotential arrester that does not rely on earth resistance, this equipotential arrester can address the above problem.

Utility model content

The deficiency existing for solving prior art, the utility model discloses a kind of optical transmitter and receiver equipotential arrester, by equipotential carrying out surge protection technology, realizes a difficult problem for cable TV optical transmitter and receiver line protection, the technical barrier of capturing.

For achieving the above object, concrete scheme of the present utility model is as follows:

A kind of optical transmitter and receiver equipotential arrester, comprises the power-supply system overvoltage surge equipotential treatment circuit being connected between power firestreak, zero line, is connected to the signal system overvoltage surge equipotential treatment circuit between cable core and the screen of holding wire;

When surge produces, optical transmitter and receiver electric supply system enters the power interface of lightning arrester, power-supply system overvoltage surge equipotential treatment circuit is realized between phase line and zero line, full guard between phase line and protection ground wire, adopted multistage varistor device all to press, making does not have potential difference between the phase line of electric power system and zero line;

Simultaneously; optical transmitter and receiver vision signal is through signal system overvoltage surge equipotential treatment circuit; between circuit screen and coaxial core, the vision signal of process is realized to multi-stage protection, adopt gas discharge tube all to press, allow and there is no potential difference between screen and cable core.

Described power-supply system overvoltage surge equipotential treatment circuit comprises piezo-resistance and gas discharge tube, between power circuit L and N, between power circuit N and PE and between PE and power circuit L, be provided with equalizer circuit, described equalizer circuit includes gas discharge tube, and gas discharge tube and multiple piezo-resistance being in parallel are in series.

Described signal system overvoltage surge equipotential treatment circuit comprises inductance, piezo-resistance, gas discharge tube and electric capacity, two signal ends are divided into two-way, one tunnel is connected with inductance, another road is connected with electric capacity, between two inductance, be also in series with another one inductance, between adjacent two inductance, be also provided with equalizer circuit, equalizer circuit comprises two piezo-resistances that are in parallel, piezo-resistance is also in parallel with electric capacity, and the common port of two equalizer circuits is connected with gas discharge tube.

On described equipotential arrester, be also provided with aluminium alloy guard shield.

Discharge voltage 70V-3KV, the discharging current 5KA-50KA of described gas discharge tube.

Power-supply system overvoltage surge equipotential treatment circuit operation principle: when surge voltage invasion power circuit L or N, piezo-resistance R in high-impedance state and gas discharge tube GDT transient switching are realized all pressures to N and PE, forming equipotential all presses, simultaneously between live wire and zero line, between live wire and ground wire, between zero line and ground wire, all adopt equal circuit all to press, realize the equilibrium of moment, so just do not become potential difference, just can not produce large electric current.Therefore can protect the normal operation of rear end equipment.

Signal system overvoltage surge equipotential treatment circuit operation principle: when surge voltage invasion signal line coaxial cable, mutual inductor L produces induction reactance Xl for high frequency surge, suppress the conducting speed of high frequency voltage, remainder high voltage is all pressed through the achieve a butt joint conducting equipotential in place of the transient switching of piezo-resistance R, gas discharge tube GDT punctures conducting simultaneously, cable core, screen and the device interior earth point of signal line form same current potential, realize the equilibrium of moment, so just do not become potential difference, just can not produce large electric current.Therefore can protect the normal operation of rear end equipment.

Power failure warning system comprises power supply input, then carries out common mode protection and differential mode protection, then power supply output, last lightning protection device fault detect.After power circuit suffers high seas bore bad, power-supply system cannot be exported by normal power supply, normal run indicator dump, and green indicating lamp extinguishes, and switches and has battery powered red led, when red simultaneously.

The beneficial effects of the utility model:

The feature of the utility model patented product is: 1 realizes light pick power-supply system and signal system composite type full protection, 2 protection principles adopt " all pressing " equipotential technology, realize multistep treatment mode, 3 its protection effects do not rely on earth resistance, whether there is ground connection can both well play protection effect, 4 performances: the strong residual voltage of protective capacities is low, 5 easy for installation, safeguard simple.

By equipotential carrying out surge protection technology, realize a difficult problem for cable TV optical transmitter and receiver line protection, the technical barrier of capturing.Directly supporting in application, convenient for installation and maintenance quick, saving optical transmitter and receiver protection surge needs dig on a wide area ground, reduces the cost of earth resistance, has saved steel resources, avoids repetition and waste.

Accompanying drawing explanation

Fig. 1 the utility model overall structure schematic diagram;

Fig. 2 signal system overvoltage surge equipotential treatment system circuit diagram;

Fig. 3 power-supply system overvoltage surge equipotential handling principle figure;

Fig. 4 fault warning systematic schematic diagram.

Embodiment:

Below in conjunction with accompanying drawing, the utility model is elaborated:

As shown in Figure 1, a kind of optical transmitter and receiver equipotential arrester, comprise the power-supply system overvoltage surge equipotential treatment circuit being connected between power firestreak, zero line, be connected to the signal system overvoltage surge equipotential treatment circuit between cable core and the screen of holding wire;

When surge produces, optical transmitter and receiver electric supply system enters the power interface of lightning arrester, power-supply system overvoltage surge equipotential treatment circuit is realized between phase line and zero line, full guard between phase line and protection ground wire, adopted multistage varistor device all to press, making does not have potential difference between the phase line of electric power system and zero line;

Simultaneously; optical transmitter and receiver vision signal is through signal system overvoltage surge equipotential treatment circuit; between circuit screen and coaxial core, the vision signal of process is realized to multi-stage protection, adopt gas discharge tube all to press, allow and there is no potential difference between screen and cable core.

As shown in Figure 3, power-supply system overvoltage surge equipotential treatment circuit comprises piezo-resistance and gas discharge tube, between power circuit L and N, between power circuit N and PE and between PE and power circuit L, be provided with equalizer circuit, described equalizer circuit includes gas discharge tube, and gas discharge tube and multiple piezo-resistance being in parallel are in series.

As shown in Figure 2, described signal system overvoltage surge equipotential treatment circuit comprises inductance, piezo-resistance, gas discharge tube and electric capacity, two signal ends are divided into two-way, one tunnel is connected with inductance, and another road is connected with electric capacity, between two inductance, is also in series with another one inductance, between adjacent two inductance, be also provided with equalizer circuit, equalizer circuit comprises two piezo-resistances that are in parallel, and piezo-resistance is also in parallel with electric capacity, and the common port of two equalizer circuits is connected with gas discharge tube.

On equipotential arrester, be also provided with aluminium alloy guard shield.Discharge voltage 70V-3KV, the discharging current 5KA-50KA of gas discharge tube.

Power-supply system overvoltage surge equipotential treatment circuit operation principle: when surge voltage invasion power circuit L or N, piezo-resistance R in high-impedance state and gas discharge tube GDT transient switching are realized all pressures to N and PE, forming equipotential all presses, simultaneously between live wire and zero line, between live wire and ground wire, between zero line and ground wire, all adopt equal circuit all to press, realize the equilibrium of moment, so just do not become potential difference, just can not produce large electric current.Therefore can protect the normal operation of rear end equipment.

Signal system overvoltage surge equipotential treatment circuit operation principle: when surge voltage invasion signal line coaxial cable, mutual inductor L produces induction reactance Xl for high frequency surge, suppress the conducting speed of high frequency voltage, remainder high voltage is all pressed through the achieve a butt joint conducting equipotential in place of the transient switching of piezo-resistance R, gas discharge tube GDT punctures conducting simultaneously, cable core, screen and the device interior earth point of signal line form same current potential, realize the equilibrium of moment, so just do not become potential difference, just can not produce large electric current.Therefore can protect the normal operation of rear end equipment.

As shown in Figure 4, power failure warning system comprises power supply input, then carries out common mode protection and differential mode protection, then power supply output, last lightning protection device fault detect.After power circuit suffers high seas bore bad, power-supply system cannot be exported by normal power supply, normal run indicator dump, and green indicating lamp extinguishes, and switches and has battery powered red led, when red simultaneously.

Optical transmitter and receiver equipotential arrester comprises the power line lightning protection electrical pulse overvoltage circuit being connected between power firestreak, zero line, be connected to the netting twine lightning protection electrical pulse overvoltage circuit between cable core and the screen of holding wire, fault warning indicating circuit, relay indicating light, connecting interface and cable, aluminum alloy casing.By integrated, the communication and the compatibility of transmitting of various functions, realize the management upgrade of existing system (communication exchanges power unit), system reliability is increased greatly, reduce maintenance and construction cost, save space resources.This product object is a kind of reasonable in design to be provided, can to eliminate the differential mode induction lightening between power line and holding wire, and differential mode voltage is controlled to the equipotential lightning protection device within the scope that equipment bears.

Optical transmitter and receiver equipotential arrester, it is widely used in the electric equipments such as safety monitoring.Include power supply discharge tube 3, power supply piezo-resistance and first signal discharge tube 4, secondary signal discharge tube 5 and the 3rd signal discharge tube 6, after described power supply discharge tube 3 and the series connection of power supply piezo-resistance, be connected between two poles; After first signal discharge tube 4 and 5 series connection of secondary signal discharge tube, be connected between signal end and earth terminal; Between the common port of the common port of power supply discharge tube 3 and power supply piezo-resistance and first signal discharge tube and secondary signal discharge tube, be connected with the piezo-resistance that forms current potential bridge.

For different environment for use requirements, above-mentioned discharge tube can be selected discharge voltage 70V-3KV, discharging current 5KA-50KA, and piezo-resistance can be selected the Multiple Types such as 13D150K, 14D463K, 20D571K.

Key of the present utility model is the piezo-resistance R that forms current potential bridge setting up, and its major function is to eliminate the harm to electric equipment of overvoltage between power line and holding wire.

In the time that surge produces, optical transmitter and receiver electric supply system enters the power interface of lightning arrester.By powering to optical transmitter and receiver again after equipotential protection system.Power supply equipotential surge protection system, adopts the principle of differential mode and common mode full guard to realize, and the full guard between phase line and zero line, between phase line and protection ground wire has adopted multistage varistor device all to press simultaneously.Allow and there is no potential difference between the phase line of electric power system and zero line, just do not become momentary pulse electric current, thus play the effect of safeguard protection, when surge pulse recovers normal condition later.

Described optical transmitter and receiver vision signal equipotential surge protection system, realizes multi-stage protection between the vision signal circuit screen to process and coaxial core.Adopt gas discharge tube all to press, allow and there is no potential difference between screen and cable core, play safeguard protection effect, when surge pulse recovers normal condition later.

Equipment normal power supply run indicator shows green light, and in the time protecting former device to be damaged or circuit is obstructed, indicator light shows red.

Claims (3)

1. an optical transmitter and receiver equipotential arrester, it is characterized in that, comprise the power-supply system overvoltage surge equipotential treatment circuit being connected between power firestreak, zero line, be connected to the signal system overvoltage surge equipotential treatment circuit between cable core and the screen of holding wire;

Described power-supply system overvoltage surge equipotential treatment circuit comprises piezo-resistance and gas discharge tube, between power circuit L and N, between power circuit N and PE and between PE and power circuit L, be provided with equalizer circuit, described equalizer circuit includes gas discharge tube, and gas discharge tube and multiple piezo-resistance being in parallel are in series;

Described signal system overvoltage surge equipotential treatment circuit comprises inductance, piezo-resistance, gas discharge tube and electric capacity, two signal ends are divided into two-way, one tunnel is connected with inductance, another road is connected with electric capacity, between two inductance, be also in series with another one inductance, between adjacent two inductance, be also provided with equalizer circuit, equalizer circuit comprises two piezo-resistances that are in parallel, piezo-resistance is also in parallel with electric capacity, and the common port of two equalizer circuits is connected with gas discharge tube.

2. a kind of optical transmitter and receiver equipotential arrester as claimed in claim 1, is characterized in that, is also provided with aluminium alloy guard shield on described equipotential arrester.

3. a kind of optical transmitter and receiver equipotential arrester as claimed in claim 1, is characterized in that, discharge voltage 70V-3KV, the discharging current 5KA-50KA of described power supply discharge tube and signal discharge tube.

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