TWM457360U - Surge protection module for Ethernet and transmission circuit thereof - Google Patents

Abstract

A surge protection module for Ethernet and a transmission circuit thereof are provided. The surge protection module comprises an input interface, an output interface, a protection component and the transmission circuit. The transmission circuit includes four transmission component sets. Each of the transmission component sets is connected to the input interface, the output interface and the protection component.

Description

Surge protection module for Ethernet and its transmission circuit

This creation is about a surge protection module for Ethernet and its transmission circuit. More specifically, the transmission circuit of the present invention includes four transmission element groups, each of which is connected to a protection element and includes two capacitors and four inductors.

Due to the rapid development of Ethernet technology, a wide variety of Ethernet devices have become a necessity in people's lives. However, most of the Ethernet devices do not contain surge protection components. Therefore, when the erection environment of the Ethernet device is caused by lightning strikes, static electricity or power switches, it will cause Ethernet. The device is damaged.

In view of this, how to provide a surge protection module that can be connected to an existing Ethernet device through a simple external connection to provide surge protection is an urgent problem to be solved in the industry.

In order to solve the aforementioned problems, the purpose of the present invention is to provide a surge protection module and its transmission circuit. The surge protection module is installed between the Ethernet devices by connecting the newly designed transmission circuit to a protection component so that the glitch introduced by the input interface can be filtered out to avoid connection to the output interface. The network device is affected by the glitch.

To achieve the above objective, the present invention discloses a surge protection module for an Ethernet network, which includes an input interface, an output interface, at least one protection component, and a transmission circuit. The transmission circuit has four transmission element groups. Each of the transmission element groups is coupled to the input interface, the output interface, and the at least one protection element. Each of the transmission component groups includes a first capacitor, a second capacitor, a first inductor, a second inductor, a third inductor, a fourth inductor, a first transmission line, a second transmission line, A third transmission line and a fourth transmission line are connected to a fifth transmission line. The first capacitor of each of the transmission component groups is connected between the first transmission line and the second transmission line, and is connected to the input interface through the first transmission line and to the output interface through the second transmission line. The second capacitor of each of the transmission component groups is connected between the third transmission line and the fourth transmission line, and is connected to the input interface through the third transmission line and to the output interface through the fourth transmission line. The first inductor of each of the transmission element groups is connected in series with the second inductor and is connected between the first transmission line and the second transmission line to be connected in parallel with the first capacitor. The third inductor of each of the transmission element groups is connected in series with the fourth inductor and is connected between the third transmission line and the fourth transmission line to be connected in parallel with the second capacitor. a connection between the first inductor and the second inductor of the transmission element group and between the third inductor and the fourth inductor is connected to the fifth transmission line for connecting through the fifth transmission line To the at least one protection component, the protection component is connected to a ground terminal.

In addition, the present disclosure further discloses a transmission circuit for a surge protection module of an Ethernet network, which includes four transmission component groups. Each of the transmission component groups includes a first capacitor, a second capacitor, a first inductor, a second inductor, a third inductor, a fourth inductor, a first transmission line, a second transmission line, a third transmission line, a fourth transmission line, and a fifth transmission line. The first capacitor of each of the transmission element groups is connected between the first transmission line and the second transmission line. The second capacitor of each of the transmission element groups is connected between the third transmission line and the fourth transmission line. The first inductor of each of the transmission element groups is connected in series with the second inductor and is connected between the first transmission line and the second transmission line to be connected in parallel with the first capacitor. The third inductor of each of the transmission element groups is connected in series with the fourth inductor and is connected between the third transmission line and the fourth transmission line to be connected in parallel with the second capacitor. a connection between the first inductor and the second inductor of the transmission element group and between the third inductor and the fourth inductor is connected to a fifth transmission line

The above objects, technical features, and advantages will be more apparent from the following description.

The content of this creation will be explained by the following examples, but the embodiments of the present invention are not intended to limit the creation of the present invention to any specific environment, application or manner as described in the following embodiments. Therefore, the following description of the embodiments is merely illustrative of the present invention and is not intended to limit the present invention. In the following embodiments and drawings, elements that are not directly related to the present invention have been omitted and are not shown, and the dimensional ratios between the elements in the drawings are only for ease of understanding, and are not intended to be limited to The actual implementation ratio.

As shown in Fig. 1, it is a schematic diagram of the surge protection module 1 of the present invention. The surge protection module 1 is used for an Ethernet network. More specifically, the protection module 1 is installed between the Ethernet devices to filter out voltage surges caused by lightning strikes, static electricity or power switches. The surge protection module 1 includes an input interface 11, a transmission circuit 13, a protection component 15, and an output interface 17.

The transmission circuit 13 has four transmission element groups 13a, 13b, 13c, 13d connected to the input interface 11, the protection element 15, and the output interface 17, respectively. The Ethernet signal can be transmitted from the input interface 11 to the output interface 17 through the transmission circuit 13. Each of the transmission element groups 13a, 13b, 13c, and 13d includes a first capacitor C1, a second capacitor C2, a first inductor L1, a second inductor L2, a third inductor L3, and a fourth inductor. L4, a first transmission line T1, a second transmission line T2, a third transmission line T3, and a fourth transmission line T4 are connected to a fifth transmission line T5.

Since the circuit structures of the transmission element groups 13a, 13b, 13c, and 13d are the same as each other, and the connection relationship with the input interface 11, the protection element 15, and the output interface 17 is similar, for simplification of description, only the transmission element group 13a is used hereinafter. for example.

The first capacitor C1 of the transmission element group 13a is connected between the first transmission line T1 and the second transmission line T2, and is connected to the input interface 11 through the first transmission line T1 and to the output interface 17 through the second transmission line T2. The second capacitor C2 of the transmission element group 13a is connected between the third transmission line T3 and the fourth transmission line T4, and is connected to the input interface 11 through the third transmission line T3 and to the output interface 17 through the fourth transmission line T4.

The first inductor L1 of the transmission element group 13a is connected in series with the second inductor L2 and is connected between the first transmission line T1 and the second transmission line T2 to be connected in parallel with the first capacitor C1. The third inductor L3 of the transmission element group 13 is connected in series with the fourth inductor L4 and is connected between the third transmission line T3 and the fourth transmission line T4 to be connected in parallel with the second capacitor C2.

a junction P between the first inductor L1 and the second inductor L2 of the transmission element group 13a and between the third inductor L3 and the fourth inductor L4 is connected to the fifth transmission line T5 to be connected to the fifth transmission line through the fifth transmission line Protection element 15. The protection element 15 is connected to a ground terminal. In this way, when the surge protection module 1 receives a glitch from the input interface 11, the spur wave can be filtered through the protection component 15 to avoid the Ethernet device at the back end (ie, the B connected to the output interface). The network device is damaged by the surge.

It should be noted that the protection component 15 can be a diode, a varistor or other electronic component having a clamping or switching function, and in other embodiments, the surge protection module of the present invention can include multiple protections. The component, for example, is shown in the surge protection module 2 of FIG. The surge protection module 2 includes four protection elements 15, and a fifth transmission line T5 of the transmission element groups 13a, 13b, 13c, 13d is connected to one of the four protection elements 15, respectively.

In addition, the input interface and the output interface of the present creation may be an RJ45 interface, which includes 8 pins, but is not limited thereto. As those skilled in the art can easily understand how the transmission lines of the transmission element groups 13a, 13b, 13c, and 13d are correspondingly connected to the pins of the RJ45 interface of the input terminal and the output terminal to transmit the Ethernet signal, It will not be repeated here.

In summary, the created surge protection module transmits the Ethernet signal through the newly designed transmission circuit, and at the same time filters out the surge by connecting the transmission circuit to the protection component. Furthermore, the surge protection module of the present invention has the advantages of low cost and easy installation, and can be connected to the Ethernet device through the network route to provide surge protection.

The above embodiments are only used to exemplify the implementation of the present invention, and to explain the technical features of the present invention, and are not intended to limit the scope of protection of the present invention. Any changes or equivalences that can be easily accomplished by those skilled in the art are within the scope of this creation. The scope of protection of this creation shall be subject to the scope of the patent application.

1‧‧‧ surge protection module

2‧‧‧ surge protection module

11‧‧‧Input interface

13‧‧‧Transmission circuit

15‧‧‧Protection components

17‧‧‧ Output interface

13a‧‧‧Transmission component group

13b‧‧‧Transmission component group

13c‧‧‧Transmission component group

13d‧‧‧Transmission component group

C1‧‧‧First Capacitor

C2‧‧‧second capacitor

L1‧‧‧First Inductor

L2‧‧‧second inductor

L3‧‧‧ third inductor

L4‧‧‧fourth inductor

T1‧‧‧ first transmission line

T2‧‧‧second transmission line

T3‧‧‧ third transmission line

T4‧‧‧ fourth transmission line

T5‧‧‧ fifth transmission line

P‧‧‧Contact

Figure 1 is a schematic diagram of the surge protection module 1 of the present invention;

Figure 2 is a schematic diagram of the surge protection module 2 of the present invention.

1‧‧‧ surge protection module

11‧‧‧Input interface

13‧‧‧Transmission circuit

15‧‧‧Protection components

17‧‧‧ Output interface

13a‧‧‧Transmission component group

13b‧‧‧Transmission component group

13c‧‧‧Transmission component group

13d‧‧‧Transmission component group

C1‧‧‧First Capacitor

C2‧‧‧second capacitor

L1‧‧‧First Inductor

L2‧‧‧second inductor

L3‧‧‧ third inductor

L4‧‧‧fourth inductor

T1‧‧‧ first transmission line

T2‧‧‧second transmission line

T3‧‧‧ third transmission line

T4‧‧‧ fourth transmission line

T5‧‧‧ fifth transmission line

P‧‧‧Contact

Claims (5)

A surge protection module for an Ethernet network, comprising:
An input interface;
An output interface;
At least one protection component; and a transmission circuit having four transmission component groups, each of the transmission component groups being coupled to the input interface, the output interface, and the at least one protection component;
among them:
Each of the transmission component groups includes a first capacitor, a second capacitor, a first inductor, a second inductor, a third inductor, a fourth inductor, a first transmission line, a second transmission line, a third transmission line and a fourth transmission line are connected to a fifth transmission line;
The first capacitor of each of the transmission component groups is connected between the first transmission line and the second transmission line, and is connected to the input interface through the first transmission line and to the output interface through the second transmission line;
The second capacitor of each of the transmission component groups is connected between the third transmission line and the fourth transmission line, and is connected to the input interface through the third transmission line and to the output interface through the fourth transmission line:
The first inductor of each of the transmission element groups is connected in series with the second inductor and is connected between the first transmission line and the second transmission line to be connected in parallel with the first capacitor;
The third inductor of each of the transmission element groups is connected in series with the fourth inductor, and is connected between the third transmission line and the fourth transmission line to be connected in parallel with the second capacitor; and the transmission element group a junction between the first inductor and the second inductor and between the third inductor and the fourth inductor is connected to the fifth transmission line to be connected to the at least one protection component through the fifth transmission line, The at least one protection component is coupled to a ground terminal. The surge protection module of claim 1, wherein the at least one protection component is one of a diode and a varistor. The surge protection module of claim 1, wherein the at least one protection component comprises four protection components, and the fifth transmission line of each of the transmission component groups is respectively connected to one of the four protection components, and each The protection element is one of a diode and a varistor. The surge protection module of claim 1, wherein the input interface and the output interface are an RJ45 interface. A transmission circuit for a surge protection module of an Ethernet network, comprising:
Four transmission component groups, where:
Each of the transmission component groups includes a first capacitor, a second capacitor, a first inductor, a second inductor, a third inductor, a fourth inductor, a first transmission line, a second transmission line, a third transmission line, a fourth transmission line, and a fifth transmission line;
The first capacitor of each of the transmission element groups is connected between the first transmission line and the second transmission line;
The second capacitor of each of the transmission element groups is connected between the third transmission line and the fourth transmission line:
The first inductor of each of the transmission element groups is connected in series with the second inductor and is connected between the first transmission line and the second transmission line to be connected in parallel with the first capacitor;
The third inductor of each of the transmission element groups is connected in series with the fourth inductor, and is connected between the third transmission line and the fourth transmission line to be connected in parallel with the second capacitor; and the transmission element group A junction between the first inductor and the second inductor and between the third inductor and the fourth inductor is connected to a fifth transmission line.