CN110505538B - Intrinsic safety type 8-port kilomega dual-frequency high-power wireless switch - Google Patents

Abstract

The invention belongs to the technical field of Ethernet equipment, and discloses an intrinsic safety type 8-port kilomega dual-frequency high-power wireless switch, which comprises: the system comprises a power supply slow start module, an intrinsic safety type DC-DC power supply module, an intrinsic safety secondary protection module, a power supply management and control module, an ARM framework SoC module, a double-frequency wireless baseband radio frequency module, a storage module, a clock module, an optical interface power supply management and control module, a kilomega switching chip module, an optical fiber interface module and an RJ45 interface module. The invention realizes high transmission rate and meets the requirement of modern underground communication.

Description

Intrinsic safety type 8-port kilomega dual-frequency high-power wireless switch

Technical Field

The invention belongs to the technical field of Ethernet equipment, and particularly relates to an intrinsic safety type 8-port gigabit dual-frequency high-power wireless switch.

Background

The coal mine comprehensive automation is the guarantee of high yield, high efficiency and safe production of the coal mine, and the coal mine underground network platform is the basis for realizing the coal mine comprehensive automation; at present, industrial Ethernet is established in many coal mines in China and is used for monitoring underground coal mining equipment and underground environmental parameters; most schemes adopt a mode of underground wired Ethernet, are arranged in a main roadway and cannot cover the whole underground; the monitoring of moving electromechanical equipment, such as coal mining machines, locomotives and the like, cannot be realized; the coal mine comprehensive automation projects in China cannot cover a fully mechanized coal mining working face and cannot realize remote monitoring of fully mechanized coal mining equipment, so that a wireless switch scheme is provided to replace a wired switch mode, and a hundred-megabyte single-frequency wireless network mode (hundred-megabyte uplink + wireless hundred-megabyte downlink) is adopted.

The shortcomings of the existing underground wireless switch are mainly reflected in the following points:

the transmission rate is not high, uplink communication is carried out on a 100-megaport, and downlink is realized by only supporting IEEE802.11b/G single-frequency 2.4G wireless equipment to be connected to a camera or communication control equipment with a wireless transceiving function.

The theoretical transmission rate of IEEE802.11b/G single-frequency 2.4G is 54Mbps, an uplink port is only 100 Mbps, the maximum throughput is 20Mbps with unidirectional transmission and 26Mbps with bidirectional transmission, the data volume to be transmitted is also increased sharply along with the development of underground communication monitoring technology and the increase of equipment, and the traditional wireless switch cannot meet the requirement of modern underground communication.

The intrinsic safety power supply used underground has clear requirements (GB3836.4 intrinsic safety explosion-proof standard) on the power consumption of the whole machine and the starting impact current, the power consumption of load equipment is generally not allowed to exceed 18W, and the requirement limits the underground use of most common wireless switches.

Disclosure of Invention

The embodiment of the invention aims to provide an intrinsic safety type 8-port gigabit dual-frequency high-power wireless switch which is high in transmission rate and meets the requirement of modern underground communication.

The embodiment of the invention is realized as follows:

an 8 mouth giga dual-frenquency high-power wireless switches of this ampere of type includes: the system comprises a power supply slow start module, an intrinsic safety type DC-DC power supply module, an intrinsic safety secondary protection module, a power supply management and control module, an ARM framework SoC module, a dual-frequency wireless baseband radio frequency module, a storage module, a clock module, an optical interface power supply management and control module, a kilomega switching chip module, an optical fiber interface module and an RJ45 interface module;

the system comprises a power supply slow start module, an external power supply, an intrinsic safety type DC-DC power supply module, a power supply management and control module, an optical interface power supply management and control module, an intrinsic safety type DC-DC power supply module, an intrinsic safety type secondary protection module, a kilomega switching chip module, an optical fiber interface module, an RJ45 interface module, a power supply management and control module and an ARM SoC architecture module, wherein the power supply slow start module is connected with the intrinsic safety type DC-DC power supply module;

the power supply converts proper voltage through the power supply slow start module, the intrinsic safety type DC-DC power supply module, the power supply management and control module and the intrinsic safety secondary protection module through the intrinsic safety type DC-DC power supply module to respectively supply power to the ARM architecture SoC module, the storage module, the clock module, the double-frequency wireless baseband radio frequency module, the optical interface power supply management and control circuit and the kilomega switching chip module; after the circuits of the ARM architecture SoC module, the storage module, the clock module, the double-frequency wireless baseband radio frequency module and the kilomega switching chip module are powered on and started, the circuits sequentially supply power to each optical fiber interface module through the optical port power supply management and control circuit; the optical fiber interface module or the RJ45 interface module is connected with the gigabit exchange chip module and is respectively used for processing RJ45 electric signals or optical fiber optical signals, the RJ45 electric signals or the optical fiber optical signals processed by the gigabit exchange chip module are converted into wireless radio frequency signals through the ARM architecture SoC module and the dual-frequency wireless baseband radio frequency module so as to complete the conversion of wired and wireless data, and the dual-frequency wireless baseband radio frequency module is connected with an antenna for receiving or transmitting the wireless radio frequency signals;

the optical fiber interface module comprises 8 gigabit Ethernet interfaces, the RJ45 interface module comprises 8 interfaces, the gigabit exchange chip module supports the communication of the wired 8 gigabit Ethernet interfaces and the RJ45 interface module, the dual-frequency wireless baseband radio frequency module supports the wireless downlink communication of IEEE802.111a/b/G/n/ac dual-frequency 2.4G and 5G, the highest 2.4G is 200Mbps of unidirectional transmission, the highest 5G is 500Mbps of unidirectional transmission, and the highest 5G is 600Mbps of bidirectional transmission; the roaming switching time of the dual-frequency wireless baseband radio frequency module is less than 0.5 millisecond.

The switch has high transmission rate, 1000 Mbps port uplink communication supports IEEE802.11a/b/G/n/ac dual-frequency 2.4G and 5G wireless downlink communication, the theoretical transmission rate of 2.4G is 300Mbps, the theoretical transmission rate of 5G is 867Mbps, and the uplink port is 1000 Mbps, so the maximum throughput of 2.4G is 200Mbps of unidirectional transmission at most, 220Mbps of bidirectional transmission and 500Mbps of 5G of unidirectional transmission at most, 600Mbps of bidirectional transmission are realized, and the data volume to be transmitted is also increased rapidly along with the development of underground communication monitoring technology and the increase of equipment; in addition, the wireless switch is arranged to realize the monitoring of the electromechanical equipment of the movement underground, such as a coal mining machine, a locomotive and the like, the roaming, data acquisition, video signal transmission, wireless positioning and the like can be realized among the wireless switches in a wireless mode, the roaming switching time is less than 0.5 millisecond, the transmission of voice, video and the like cannot be influenced, and the effect of seamless roaming is achieved; the method has the advantages of high transmission speed, stable performance, high reliability, stable signal transmission, wide coverage range, convenience in networking, convenience in maintenance, software upgrading and the like.

Drawings

Fig. 1 is a schematic diagram of an intrinsically safe 8-gigabit dual-band high-power wireless switch according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description of specific implementations of the present invention is provided in conjunction with specific embodiments:

as shown in fig. 1, an intrinsically safe 8-gigabit dual-band high-power wireless switch includes: the system comprises a power supply slow start module, an intrinsic safety type DC-DC power supply module, an intrinsic safety secondary protection module, a power supply management and control module, an ARM framework SoC module, a dual-frequency wireless baseband radio frequency module, a storage module, a clock module, an optical interface power supply management and control module, a kilomega switching chip module, an optical fiber interface module and an RJ45 interface module;

the system comprises a power supply slow start module, an external power supply, an intrinsic safety type DC-DC power supply module, a power supply management and control module, an optical interface power supply management and control module, an intrinsic safety type DC-DC power supply module, an intrinsic safety type secondary protection module, a kilomega switching chip module, an optical fiber interface module, an RJ45 interface module, a power supply management and control module and an ARM SoC architecture module, wherein the power supply slow start module is connected with the intrinsic safety type DC-DC power supply module;

the power supply converts proper voltage through the power supply slow start module, the intrinsic safety type DC-DC power supply module, the power supply management and control module and the intrinsic safety secondary protection module through the intrinsic safety type DC-DC power supply module to respectively supply power to the ARM architecture SoC module, the storage module, the clock module, the double-frequency wireless baseband radio frequency module, the optical interface power supply management and control circuit and the kilomega switching chip module; after the circuits of the ARM architecture SoC module, the storage module, the clock module, the double-frequency wireless baseband radio frequency module and the kilomega switching chip module are powered on and started, the circuits sequentially supply power to each optical fiber interface module through the optical port power supply management and control circuit; the optical fiber interface module or the RJ45 interface module is connected with the gigabit exchange chip module and is respectively used for processing RJ45 electric signals or optical fiber optical signals, the RJ45 electric signals or the optical fiber optical signals processed by the gigabit exchange chip module are converted into wireless radio frequency signals through the ARM architecture SoC module and the dual-frequency wireless baseband radio frequency module so as to complete the conversion of wired and wireless data, and the dual-frequency wireless baseband radio frequency module is connected with an antenna for receiving or transmitting the wireless radio frequency signals;

the optical fiber interface module comprises 8 gigabit Ethernet interfaces, the RJ45 interface module comprises 8 interfaces, the gigabit exchange chip module supports the communication of the wired 8 gigabit Ethernet interfaces and the RJ45 interface module, the dual-frequency wireless baseband radio frequency module supports the wireless downlink communication of IEEE802.111a/b/G/n/ac dual-frequency 2.4G and 5G, the highest 2.4G is 200Mbps of unidirectional transmission, the highest 5G is 500Mbps of unidirectional transmission, and the highest 5G is 600Mbps of bidirectional transmission; the roaming switching time of the dual-frequency wireless baseband radio frequency module is less than 0.5 millisecond.

In fig. 1, an intrinsically safe 8-port gigabit dual-frequency high-power wireless switch includes a power slow start module, an intrinsically safe DC-DC power module, an intrinsically safe secondary protection module, a power management and control module, an ARM SoC module, a dual-frequency wireless baseband radio frequency module, a storage module, a clock module, an optical port power management and control module, a gigabit switch chip module, an optical fiber interface module, an RJ45 interface module, and the like, and the specific principle is as follows:

(1) the intrinsic safety type DC-DC power module, the power supply management and control module and the intrinsic safety secondary protection module convert proper voltage through the voltage conversion module and respectively supply power to the ARM framework SoC module, the storage module, the dual-frequency wireless baseband radio frequency module, the optical port power supply management and control circuit and the gigabit exchange chip module.

(2) After the circuits of the ARM architecture SoC module, the storage module, the clock module, the double-frequency wireless baseband radio frequency module and the kilomega switching chip module are powered on and started, power is sequentially supplied to each optical module through the optical interface power supply management and control circuit, and impact current influence of power-on of the optical modules on the intrinsic safety power supply is reduced as much as possible.

(3) The dual-frequency wireless baseband radio frequency module, the storage module, the clock module and the kilomega switching chip module are respectively connected with the ARM architecture SoC module; the optical fiber interface module or the RJ45 interface module is connected with the switching chip and is respectively used for processing RJ45 electrical signals or optical fiber optical signals, and then the signals are converted into wireless radio frequency signals through the ARM framework SoC module and the wireless baseband radio frequency module to complete the conversion of wired and wireless data, and the wireless baseband radio frequency module is connected with an antenna for receiving or transmitting the wireless radio frequency signals.

The gigabit dual-frequency high-power wireless switch provides 8 gigabit Ethernet interfaces at most, photoelectric interfaces can be flexibly configured (such as 4 electricity, 4 light, 6 electricity, 2 light and the like), the positioning of industrial field equipment and personnel is realized by utilizing a wireless positioning technology, data support is provided for industrial production automation, the positioning technology of the equipment is only a wireless data acquirer in the whole positioning system, the signal intensity from a wireless label is detected and received through multi-point positioning (a plurality of the equipment), the distance relation and the position of the wireless label are calculated through a software algorithm, and the wireless positioning precision reaches within several meters. By using a controllable step-by-step power-on circuit (a power supply control module), the function and the principle of the power supply control module are also the power supply process described above, each unit and each optical module are powered on step by step, so that the overcurrent protection of the intrinsic safety power supply caused by overlarge impact current of all the optical modules on the intrinsic safety power supply when the optical modules are powered on simultaneously is avoided, and the intrinsic safety start protection problem caused by overlarge mixed load of the kilomega double-frequency high-power wireless switching circuit and the plurality of optical modules is solved.

The switch has high transmission rate, 1000 Mbps port uplink communication supports IEEE802.11a/b/G/n/ac dual-frequency 2.4G and 5G wireless downlink communication, the theoretical transmission rate of 2.4G is 300Mbps, the theoretical transmission rate of 5G is 867Mbps, and the uplink port is 1000 Mbps, so the maximum throughput of 2.4G is 200Mbps of unidirectional transmission at most, 220Mbps of bidirectional transmission and 500Mbps of 5G of unidirectional transmission at most, 600Mbps of bidirectional transmission are realized, and the data volume to be transmitted is also increased rapidly along with the development of underground communication monitoring technology and the increase of equipment; in addition, the wireless switch is arranged to realize the monitoring of the electromechanical equipment of the movement underground, such as a coal mining machine, a locomotive and the like, the roaming, data acquisition, video signal transmission, wireless positioning and the like can be realized among the wireless switches in a wireless mode, the roaming switching time is less than 0.5 millisecond, the transmission of voice, video and the like cannot be influenced, and the effect of seamless roaming is achieved; the method has the advantages of high transmission speed, stable performance, high reliability, stable signal transmission, wide coverage range, convenience in networking, convenience in maintenance, software upgrading and the like.

Description of the terms:

SoC: chip level System (System on Chip)

The above description is only exemplary of the present invention and should not be taken as limiting the invention, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (1)

1. The utility model provides an 8 mouth giga dual-frenquency high-power wireless switches of intrinsic safety type which characterized in that includes: the system comprises a power supply slow start module, an intrinsic safety type DC-DC power supply module, an intrinsic safety secondary protection module, a power supply management and control module, an ARM framework SoC module, a dual-frequency wireless baseband radio frequency module, a storage module, a clock module, an optical interface power supply management and control module, a kilomega switching chip module, an optical fiber interface module and an RJ45 interface module;

the system comprises a power supply slow start module, an external power supply, an intrinsic safety type DC-DC power supply module, a power supply management and control module, an optical interface power supply management and control module, an intrinsic safety type DC-DC power supply module, an intrinsic safety type secondary protection module, a kilomega switching chip module, an optical fiber interface module, an RJ45 interface module, a power supply management and control module and an ARM SoC architecture module, wherein the power supply slow start module is connected with the intrinsic safety type DC-DC power supply module;

the power supply converts proper voltage through the power supply slow start module and the intrinsic safety secondary protection module and the intrinsic safety type DC-DC power supply module to respectively supply power to the ARM architecture SoC module, the storage module, the clock module, the dual-frequency wireless baseband radio frequency module, the optical interface power supply management and control circuit and the gigabit exchange chip module; after the circuits of the ARM architecture SoC module, the storage module, the clock module, the double-frequency wireless baseband radio frequency module and the kilomega switching chip module are powered on and started, the circuits sequentially supply power to each optical fiber interface module through the optical port power supply management and control circuit; the optical fiber interface module or the RJ45 interface module is connected with the gigabit exchange chip module and is respectively used for processing RJ45 electric signals or optical fiber optical signals, the RJ45 electric signals or the optical fiber optical signals processed by the gigabit exchange chip module are converted into wireless radio frequency signals through the ARM architecture SoC module and the dual-frequency wireless baseband radio frequency module so as to complete the conversion of wired and wireless data, and the dual-frequency wireless baseband radio frequency module is connected with an antenna for receiving or transmitting the wireless radio frequency signals;

the optical fiber interface module comprises 8 gigabit Ethernet interfaces, the RJ45 interface module comprises 8 interfaces, the gigabit exchange chip module supports the communication of the wired 8 gigabit Ethernet interfaces and the RJ45 interface module, the dual-frequency wireless baseband radio frequency module supports the wireless downlink communication of IEEE802.111a/b/G/n/ac dual-frequency 2.4G and 5G, the highest 2.4G is 200Mbps of unidirectional transmission, the highest 5G is 500Mbps of unidirectional transmission, and the highest 5G is 600Mbps of bidirectional transmission; the roaming switching time of the dual-frequency wireless baseband radio frequency module is less than 0.5 millisecond.

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