JP2021521661A - T-NET full-spec single-line multi-source data collection and transmission system - Google Patents

Abstract

The present invention relates to the field of industrial buses, and particularly to a T-NET full-spec single-line, multi-source data collection and transmission system. The T-NET full-spec single-line multi-source data collection and transmission system is a high-performance Internet of Things bus system, developed and designed based on the highly integrated chip of the Internet of Things ad hoc network technology. , Two Internet of Things Internet Communication Modules with Highly Integrated Chips, CCO Internet of Things Central Control Device, and STA Communication Node. The T-NET full-spec single-line multi-source data acquisition and transmission system can effectively eliminate the adverse effects caused by channel changes and signal distortions caused by various connection topology structures, and can be achieved by various devices in the line. The generated time-varying noise and interference can be effectively filtered and removed, the or-switch can be increased or decreased freely, the network can automatically detect and update, and intelligent collection. , Analysis and feedback are realized to realize reliable encrypted transmission. [Selection diagram] Fig. 1

Description

The present invention relates to the field of industrial buses, and particularly to T-NET full-spec single-line, multi-source data collection and transmission systems.

Conventional wired communication is divided into baseband communication and carrier wave communication. Baseband communication is a communication transmission format with binary or multi-level (PAM3, PAM5, etc.) time domain pulse symbols as the basic information unit, typically Ethernet, 485 and similar control bus transmissions. The format. Carrier wave communication is a multi-channel communication technology developed based on frequency division multiplexing technology, and is generally divided into a narrow band carrier wave and a wide band carrier wave.

The connection type of the wired channel is basically a bus type and a point-to-point type, and a star type, a tree type, a daisy chain type, a mesh type, and the like are derived. The bus type is a type in which all communication nodes are connected to the same physical line, and simply, one main line and its branches connect each node in the vicinity. In the point-to-point type, one communication line connects only two endpoints, typically Ethernet, and each port of the switch connects to only one terminal device via one dedicated line. Will be done.

In the case of the Internet of Things, where there are many nodes in the local area, the bus topology structure is the best wiring method because it is simple and direct, and the star connection greatly increases the total length of the cable and the wiring is complicated. Broadband carrier technology is also an effective way to solve the relationship between complex circuits and connection topologies.

Bus and point-to-point baseband communications cannot meet the current trends in the development of the Internet of Things.

With point-to-point connections, baseband communication can reach very high speeds, but is not suitable for the Internet of Things. Ethernet is a prime example, as Gigabit Ethernet can reach transmission speeds of 1000 Mbps over a distance of 100 meters, leveraging technologies such as equalization compensation, clock recovery and adaptive filtering. However, the point-to-point type has very large limitations and can only support point-to-point transmission, and the bus type circuit has many branches and connectors, the change of line impedance is complicated, and the complex reflection. And baseband filtering and equalization technology cannot effectively respond to the generation of multipath signals, which is why Ethernet, which communicates point-to-point, cannot operate on a one-point-to-multipoint bus. ..

In the case of bus type connection, baseband communication can only be transmitted at low speed. Baseband bus communication includes 485, Can, 1553B, Modbus, and Profit-Bus, and has the following restrictions.
1) High demand for signal-to-noise ratio when receiving: Baseband communication requires distinction of step levels as a reception judgment condition, and demand for signal-to-noise ratio is high, with a signal-to-noise ratio of 40 dB or more. is necessary.
2) Short communication distance: Since the threshold value of the signal-to-noise ratio is high for reception, it is sensitive to the attenuation of signal transmission, the transmission distance is limited, and it is usually within a distance of 100 meters.
3) Low communication speed: Insufficient support for bus topology and high demand for signal-to-noise ratio due to reception greatly limits the communication bandwidth and connects multi-nodes within a range of several tens of meters. In this case, a communication speed of less than 1 Mbps is usually provided.

The current application status of conventional buses is as follows. In the case of industrial control, bus technology such as RS-485, MOD-BUS, PROFI-BUS is generally applied, and when in-vehicle and real-time control is required, CAN bus technology is used, and in the munitions industry, it is mainly used. 1553B bus technology will be used.

Currently, the bottlenecks of various bus applications in China are communication distance <100 meters, communication speed <1 Mbps, and number of networking nodes <128.

Chinese Patent Application Publication No. 108259288

The present invention relates to a one-master-multi-slave bus type wired data collection network communication protocol, where the master station is located at the end of the bus type wired network and the slave stations are evenly distributed over the bus type wired network. And any adjacent station on the bus can receive the signal and decode the message correctly.

An object of the present invention is to provide a T-NET full-spec single-line multi-source data collection / transmission system in order to solve a problem when a conventional wired communication technology is applied to the Internet of Things.

The technical proposals used by the present invention to solve the above technical problems are as follows. The T-NET full-spec single-line multi-source data collection and transmission system is a high-performance Internet of Things bus system, developed and designed based on the highly integrated chip of the Internet of Things ad hoc network technology. The purpose is to solve the problems when the conventional wired communication technology is applied to the Internet of Things.

The T-NET full-spec single-line, multi-source data collection and transmission system includes two Internet of Things communication modules with highly integrated chips, a CCO Internet of Things central controller, and an STA communication node.

Internet of Things Communication Module CCO Internet of Things Central Controller and STA Communication Node
The communication transmission speed is 0.5M to 3Mbps, the maximum transmission distance of the communication distance reaches 2000m, the network capacity is large, and it can support up to 65536 nodes.
Receiving sensitivity reaches -85dBm, has excellent adaptability and noise suppression capability for various complex channels.
AC and DC power supply lines can be shared as transmission channels, no wiring is required, wiring costs can be saved and convenient construction can be performed, and as cable types, power supply twisted pair, coaxial line, telephone line, etc. are supported.
Supports ad hoc network technology, has automatic node detection and automatic network access functions,
Leverage multi-hop relay routing technology to support dynamic routing management and further improve networking communication capabilities
It has a 32-bit MCU processor, 64MB memory, supports Linux operating system,
Supports AES-128bit encryption, supports cloud management, remote diagnostics, online upgrades,
It has the feature that it can correspond to various complicated line topology scenes including bus type, tree type, star type, mesh type and so on.

The length * width * height of the CCO Internet of Things central controller is 111.5 mm * 96.4 mm * 18 mm, and the length * width * height of the STA communication node is 71.9 mm * 40.6 mm * 18 mm. be.

Highly integrated chips are highly integrated and highly reliable Internet of Things and new control bus chips based on wideband high-speed communication with 2-core cables, such as analog front-end transmission / reception, baseband modulation and demodulation, digital signal processing, and MCU core. Integrated control and peripheral interface functions can provide a complete communication solution for physical layer, media access layer, application layer, etc., reliable, secure and efficient for all interconnection It provides a physical connection channel for communication and control.

Developed a bus-type, tree-type, etc. topology scene, that is, a T-NET full-spec single-line multi-source data collection and transmission system, based on the CCO mono Internet of Things central controller equipped with a highly integrated chip and the STA communication node. It researches and develops physical layer, link layer and network layer protocols suitable for the application of the Internet of Things and industrial control buses, and researches and develops production-related communication and network chips and SoC systems. It makes it possible to provide applied solutions and services for various scenes and industries.

The T-NET full-spec single-line multi-source data collection and transmission system realizes communication between nodes using conventional or dedicated wiring, has a considerable bandwidth, and has a large amount of information in real time. It supports transmission, can effectively cope with the actual situation of variable circuit quality, and effectively eliminates the adverse effects caused by channel changes and signal distortion caused by various connection topology structures. It can effectively filter and eliminate time-varying noise and interference generated by various devices in the line, communicate and automatically configure a network where all nodes can communicate with each other, directly. Create a communication path through another intermediate node that communicates with any two nodes that do not have a specific path. Its core can connect the node to any position on the feeding line according to the user's needs, can freely increase or decrease the or switch, and can be automatically detected and updated by the network. It enables automatic collection, analysis and feedback of terminal information, and intelligentization including user access and control over the Internet and mobile terminals anytime and anywhere. Due to the wide range of communication, networking and intelligent characteristics of the Internet of Things as described above, its security must be ensured, the identities of network nodes and users are confirmed to prevent forgery, and communication contents are stolen or tampered with. It protects from the world and realizes reliable encrypted transmission by 128-bit AES, which is a security mechanism.

The beneficial effects of the present invention are as follows. The T-NET full-spec single-line multi-source data acquisition and transmission system can effectively eliminate the adverse effects caused by channel changes and signal distortions caused by various connection topology structures, and can be achieved by various devices in the line. The generated time-varying noise and interference can be effectively filtered and removed, the or-switch can be increased or decreased freely, the network can automatically detect and update, and intelligent collection. , Analysis and feedback are realized to realize reliable encrypted transmission.

It is a principle block diagram of the Internet central control device of CCO mono of the T-NET full-spec single-line multi-source data collection and transmission system. It is a principle block diagram of the STA communication node of the T-NET full-spec single-line multi-source data collection and transmission system. It is a typical application schematic diagram of the T-NET full-spec single-line multi-source data collection and transmission system. It is a feasible bus type topology diagram of the T-NET full-spec single-line multi-source data collection and transmission system. It is a feasible tree type topology diagram of the T-NET full-spec single-line multi-source data collection and transmission system.

Example 1
Hereinafter, examples of the present invention will be described with reference to FIG.

The T-NET full-spec single-line multi-source data collection and transmission system is a high-performance Internet of Things bus system, developed and designed based on the highly integrated chip of the Internet of Things ad hoc network technology. The purpose is to solve the problems when the conventional wired communication technology is applied to the Internet of Things.

The T-NET full-spec single-line, multi-source data collection and transmission system includes two Internet of Things communication modules with highly integrated chips, a CCO Internet of Things central controller, and an STA communication node.

Internet of Things Communication Module CCO Internet of Things Central Controller and STA Communication Node
The communication transmission speed is 0.5 Mbps, the maximum transmission distance of the communication distance reaches 2000 meters, the network capacity is large, and it can support up to 65536 nodes.
Receiving sensitivity reaches -85dBm, has excellent adaptability and noise suppression capability for various complex channels.
AC and DC power supply lines can be shared as transmission channels, no wiring is required, wiring costs can be saved and convenient construction can be performed, and as cable types, power supply twisted pair, coaxial line, telephone line, etc. are supported.
Supports ad hoc network technology, has automatic node detection and automatic network access functions,
Leverage multi-hop relay routing technology to support dynamic routing management and further improve networking communication capabilities
It has a 32-bit MCU processor, 64MB memory, supports Linux operating system,
Supports AES-128bit encryption, supports cloud management, remote diagnostics, online upgrades,
It has the feature that it can correspond to various complicated line topology scenes including bus type, tree type, star type, mesh type and so on.

The length * width * height of the CCO Internet of Things central controller is 111.5 mm * 96.4 mm * 18 mm, and the length * width * height of the STA communication node is 71.9 mm * 40.6 mm * 18 mm. be.

Highly integrated chips are highly integrated and highly reliable Internet of Things and new control bus chips based on wideband high-speed communication with 2-core cables, such as analog front-end transmission / reception, baseband modulation and demodulation, digital signal processing, and MCU core. Integrated control and peripheral interface functions can provide a complete communication solution for physical layer, media access layer, application layer, etc., reliable, secure and efficient for all interconnection It provides a physical connection channel for communication and control.

Example 2
Hereinafter, examples of the present invention will be described with reference to FIG.

The T-NET full-spec single-line multi-source data collection and transmission system is a high-performance Internet of Things bus system, developed and designed based on the highly integrated chip of the Internet of Things ad hoc network technology. The purpose is to solve the problems when the conventional wired communication technology is applied to the Internet of Things.

The T-NET full-spec single-line, multi-source data collection and transmission system includes two Internet of Things communication modules with highly integrated chips, a CCO Internet of Things central controller, and an STA communication node.

Internet of Things Communication Module CCO Internet of Things Central Controller and STA Communication Node
The communication transmission speed is 2 Mbps, the maximum transmission distance of the communication distance reaches 2000 meters, the network capacity is large, and it can support up to 65536 nodes.
Receiving sensitivity reaches -85dBm, has excellent adaptability and noise suppression capability for various complex channels.
AC and DC power supply lines can be shared as transmission channels, no wiring is required, wiring costs can be saved and convenient construction can be performed, and as cable types, power supply twisted pair, coaxial line, telephone line, etc. are supported.
Supports ad hoc network technology, has automatic node detection and automatic network access functions,
Leverage multi-hop relay routing technology to support dynamic routing management and further improve networking communication capabilities
It has a 32-bit MCU processor, 64MB memory, supports Linux operating system,
Supports AES-128bit encryption, supports cloud management, remote diagnostics, online upgrades,
It has the feature that it can correspond to various complicated line topology scenes including bus type, tree type, star type, mesh type and so on.

The length * width * height of the CCO Internet of Things central controller is 111.5 mm * 96.4 mm * 18 mm, and the length * width * height of the STA communication node is 71.9 mm * 40.6 mm * 18 mm. be.

Highly integrated chips are highly integrated and highly reliable Internet of Things and new control bus chips based on wideband high-speed communication with 2-core cables, such as analog front-end transmission / reception, baseband modulation and demodulation, digital signal processing, and MCU core. Integrated control and peripheral interface functions can provide a complete communication solution for physical layer, media access layer, application layer, etc., reliable, secure and efficient for all interconnection It provides a physical connection channel for communication and control.

Developing a bus-type topology scene, that is, a T-NET full-spec single-line multi-source data collection and transmission system, based on the Internet of Things central controller and STA communication node of CCO mono equipped with a highly integrated chip is a mono. Research and development of physical layer, link layer and network layer protocols suitable for Internet and industrial control bus applications, research and development of production-related communication and network chips and SoC systems, wandering scenes And make it possible to provide applied solutions and services to the industry.

The T-NET full-spec single-line multi-source data acquisition and transmission system can effectively eliminate the adverse effects caused by channel changes and signal distortions caused by various connection topology structures, and can be achieved by various devices in the line. The generated time-varying noise and interference can be effectively filtered and removed, the or switch can be increased or decreased freely, the network can automatically detect and update, intelligent collection, Achieve analysis and feedback to ensure reliable encrypted transmission.

Example 3
Hereinafter, examples of the present invention will be described with reference to FIG.

The T-NET full-spec single-line multi-source data collection and transmission system is a high-performance Internet of Things bus system, developed and designed based on the highly integrated chip of the Internet of Things ad hoc network technology. The purpose is to solve the problems when the conventional wired communication technology is applied to the Internet of Things.

The T-NET full-spec single-line, multi-source data collection and transmission system includes two Internet of Things communication modules with highly integrated chips, a CCO Internet of Things central controller, and an STA communication node.

Internet of Things Communication Module CCO Internet of Things Central Controller and STA Communication Node
The communication transmission speed is 3 Mbps, the maximum transmission distance of the communication distance reaches 2000 meters, the network capacity is large, and it can support up to 65536 nodes.
Receiving sensitivity reaches -85dBm, has excellent adaptability and noise suppression capability for various complex channels.
AC and DC power supply lines can be shared as transmission channels, no wiring is required, wiring costs can be saved and convenient construction can be performed, and as cable types, power supply twisted pair, coaxial line, telephone line, etc. are supported.
Supports ad hoc network technology, has automatic node detection and automatic network access functions,
Leverage multi-hop relay routing technology to support dynamic routing management and further improve networking communication capabilities
It has a 32-bit MCU processor, 64MB memory, supports Linux operating system,
Supports AES-128bit encryption, supports cloud management, remote diagnostics, online upgrades,
It has the feature that it can correspond to various complicated line topology scenes including bus type, tree type, star type, mesh type and so on.

The length * width * height of the CCO Internet of Things central controller is 111.5 mm * 96.4 mm * 18 mm, and the length * width * height of the STA communication node is 71.9 mm * 40.6 mm * 18 mm. be.

Highly integrated chips are highly integrated and highly reliable Internet of Things and new control bus chips based on wideband high-speed communication with 2-core cables, such as analog front-end transmission / reception, baseband modulation and demodulation, digital signal processing, and MCU core. Integrated control and peripheral interface functions can provide a complete communication solution for physical layer, media access layer, application layer, etc., reliable, secure and efficient for all interconnection It provides a physical connection channel for communication and control.

Developing a tree-type topology scene, that is, a T-NET full-spec single-line multi-source data collection and transmission system, based on the Internet of Things central controller and STA communication node of CCO mono equipped with a highly integrated chip is a mono. Research and development of physical layer, link layer and network layer protocols suitable for Internet and industrial control bus applications, research and development of production-related communication and network chips and SoC systems, various scenes and It enables us to provide applied solutions and services to the industry.

The T-NET full-spec single-line multi-source data acquisition and transmission system can effectively overcome the adverse effects caused by channel changes and signal distortions caused by various connection topology structures, depending on the various devices in the line. The generated time-varying noise and interference can be effectively filtered and removed, the or switch can be increased or decreased freely, the network can automatically detect and update, intelligent collection, Achieve analysis and feedback to ensure reliable encrypted transmission.

The above is merely a preferred embodiment of the present invention, and the description of the above examples is for understanding the method of the present invention and its main purpose, and does not limit the scope of protection of the present invention. All modifications and equivalent substitutions made, etc., should be included in the scope of protection of the present invention, as long as they do not deviate from the gist and principles of the present invention.

Claims (2)

T-NET full-spec single-line multi-source data collection and transmission system
It is equipped with two Internet of Things communication modules equipped with highly integrated chips, an Internet of Things central controller for CCO Mono, and an STA communication node.
The Internet of Things Communication Module CCO Internet of Things Central Control Device
a) The communication transmission speed is 0.5M to 3Mbps, the maximum transmission distance of the communication distance reaches 2000m, the network capacity is large, and it can support up to 65536 nodes.
b) Receiving sensitivity reaches -85dBm, has excellent adaptability and noise suppression capability for various complex channels.
c) AC and DC power supply lines can be shared as transmission channels, no wiring is required, wiring costs can be saved and convenient construction can be performed, and power supply twisted pair, coaxial line, telephone line, etc. are supported as cable types. ,
d) Supports ad hoc network technology, has automatic node detection and automatic network access functions,
e) Utilize multi-hop relay routing technology to support dynamic routing management and further improve networking communication capabilities.
f) It has a 32-bit MCU processor, 64MB memory, supports Linux operating system,
g) Supports AES-128bit encryption, supports cloud management, remote diagnostics, online upgrades,
h) Supports various complex line topology scenes including bus type, tree type, star type, mesh type, etc.
i) Internet of Things Communication Module The length * width * height of the CCO Internet of Things central controller shall be 111.5 mm * 96.4 mm * 18 mm.
The Internet of Things communication module STA communication node is
a) The communication transmission speed is 0.5M to 3Mbps, the maximum transmission distance of the communication distance reaches 2000m, the network capacity is large, and it can support up to 65536 nodes.
b) Receiving sensitivity reaches -85dBm, has excellent adaptability and noise suppression capability for various complex channels.
c) AC and DC power supply lines can be shared as transmission channels, no wiring is required, wiring costs can be saved and convenient construction can be performed, and power supply twisted pair, coaxial line, telephone line, etc. are supported as cable types. death,
d) Supports ad hoc network technology, has automatic node detection and automatic network access functions,
e) Utilize multi-hop relay routing technology to support dynamic routing management and further improve networking communication capabilities.
f) It has a 32-bit MCU processor, 64MB memory, supports Linux operating system,
g) Supports AES-128bit encryption, supports cloud management, remote diagnostics, online upgrades,
h) Supports various complex line topology scenes including bus type, tree type, star type, mesh type, etc.
i) Internet of Things Communication Module The length * width * height of the STA communication node is 71.9 mm * 40.6 mm * 18 mm.
A T-NET full-spec single-line, multi-source data collection and transmission system. The highly integrated chip is a highly integrated and highly reliable mono-Internet and new control bus chip based on wideband high-speed communication in a 2-core cable, and includes analog front-end transmission / reception, baseband modulation and demodulation, digital signal processing, and MCU. It integrates core control and peripheral interface functions to provide a complete communication solution for the physical layer, media access layer, application layer, etc., ensuring, safe and efficient for all interconnections. The T-NET full-spec single-line multi-source data collection and transmission system according to claim 1, wherein the physical connection channel for communication and control is provided.

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