TR201818832T2 - SYSTEM FOR PROVIDING DATA COMMUNICATION OVER A COAXIAL NETWORK - Google Patents

Abstract

The system for providing data communication via a MoCA network in a building complex (1) with a coaxial network (2) includes a network management device (10) that can be connected to an external data channel (3) for connection with the coaxial network and a control unit (11). and at least one MoCA network end device (100, 101) that connects to the coaxial network, including a first MoCA chip (110) and a network access unit that connects to a bus on the first MoCA chip; wherein the control unit includes a second MoCA chip (12) and is configured to provide an access function establishing a control channel (20) over the coaxial network to a particular or each MoCA end device.

Description

Description FOR PROVIDING DATA COMMUNICATION OVER A COAXIAL NETWORK Field to which the invention relates The present invention is a device for providing data communication over a coaxial network. architecture of the system and a network endpoint for connection to a coaxial network in such a system It's about the device. More specifically, the invention is a MoCA (over Coaxial Association) It is about improvements in the spread of [multimedia] network.

infrastructure As television has become a commodity in homes, hotels, offices and other structures, coaxial (coax for short) networks have been regularly implemented in such locations. A large proportion of these places built in developed countries over at least the last 50 years are This is provided by coaxial networks. Providing signal access to a structure is a local From the old solution provided by the antenna receiver to the cable TV connection and then optical fiber It has been carried out in different ways over the years, until ancient times. But again, local coax There is a need to distribute access within the building where the network can be used.

Multimedia over Coaxial Association (MoCA), the industry standard for the connected home It is an evolving technology of the agreement. MoCA technology allows digital content to be distributed throughout the home. It is carried out over the existing in-house coaxial cabling that enables distribution. MoCA, home It provides the framework for a digital entertainment network and supports data streaming media such as standard television. supports and supports computers or gaming devices in many rooms where existing cabling is used. It allows the connection of the set-top box to other entertainment devices such as consoles.

MoCA is designed and used to provide data access within a home. An external network A MoCA end device is required to run and access the provider. MoCA end device, at least one coaxial connector for connection to the coaxial network and one Ethernet It could be a MoCA adapter or modem that has a network output such as a button. end device Additionally, in homes that are wired in accordance with one or more MoCA specifications A MoCA chip or chip configured to control media sharing Contains the set. However, each such MoCA edge device requires a relatively high complexity. This situation causes high production and configuration costs.

Brief description An improved system for providing data communication over a MoCA network and A MoCA end device configured for operation in such a system shall comply with the appended claims. It is presented accordingly.

In current MoCA end device designs, a microcontroller or microprocessor device A host device containing is always available. Configuration messages received and various network A device for communication with devices and other circuits on the printed circuit board (PCB). It functions as a translator. In this case, in order for the main device to function, it must be installed on the PCB. requires complexity and requires code for host device functionality to be developed for each specific MoCA It requires independent development for the modem variant. In this case, design and production It causes costs related to marketing and increases marketing time.

In the system provided here, MoCA technology uses multiple networks connected to a common coaxial network. It is used to provide data access to the independent user unit. Thus, for example already existing in a multi-family home, a hotel, etc. a coaxial network to an external physical broadband data channel, such as an optical fiber cable It can be used to provide access. A network management device supports an external data channel. It connects to the coaxial network and the management device is configured with a MoCA chip. one or more Multiple connected MoCA end devices are connected to the coaxial network, each of which is connected to a MoCA chip. Contains. In this case, multiple modems on the same channel use the same access medium, other In other words, it shares the coaxial network. Configuration of each MoCA modem, external access Providing access to the network, ensuring network traffic isolation of each access modem, Providing Quality of Service (QoS) and network monitoring normally found in network chip devices You can access this MoCA to configure other functionalities related to its parameters. is important in its application. In the proposed solution, MoCA is installed on the network management device. A control unit containing the chip provides coaxial access to each connected MoCA end device. In order to provide an access function by creating a control channel over is configured. In MoCA end devices, a network access unit is a device on the MoCA chip. connected to the data bus. Thus, hardware signals activated by the access function, MoCA network access at the MoCA end device as input/output on and via a bus. It is supplied directly to the unit. This makes it much more cost-effective MoCA Access It enables the production and design of modems. Gains, reduced component number and reduced development time.

Brief description of the figures The embodiments are further described below with reference to the accompanying figures, wherein: Figure 1 provides data communication over a MoCA network in a building complex. It schematically shows the spread of a targeted system.

Figure 2 schematically shows a basic view of a system according to Figure 1.

Figure 3 shows a system for providing data communication over a MoCA network. Schematically shows a network management device for use.

Figure 4 schematically shows a MoCA end device such as a network adapter according to the state of the art. It shows as .

Figure 5 is a diagram for data communication over a MoCA network according to Figure Z. Schematically shows a MoCA end device for use in the system.

Detailed description The invention is hereby incorporated with reference to the accompanying drawings showing embodiments of the invention. It will be explained in more detail below. However, this invention took many different forms. regulated and limited to the regulations set forth herein. should not be construed as such, these regulations are designed and prepared in such a way that this specification is complete and complete. in such a way that the scope of the invention is fully understood by those skilled in the art is provided.

If an element is referred to as "connected" to another element, it It may be directly connected to another element or there may be intervening elements. It will be understood. Conversely, an element is "directly connected" to another element. If referenced, there is no intervening element. Same numbers, every Time refers to the same elements. Also, first, second and similar expressions are used here. Although used to describe various elements, these elements are not described with these expressions. It will be understood that he will not be angry. These expressions are used only to distinguish one element from another. It is used as. For example, a first element may be called a second element and Similarly, without departing from the scope of the present invention, a second element It can be called the first element. As used herein, the expression "and/or" means any and all of one or more of the relevant elements listed includes combinations.

Well-known functions or structures are presented in detail for conciseness and/or clarity. It may not be disclosed. Unless otherwise stated, all terms (technical and scientific) used herein including terms) by a person skilled in the art to which this invention belongs. It has the same meaning as commonly understood. Also in widely used dictionaries Terms such as those used have their meaning in the context of this specification and in the relevant art. must be interpreted to have a consistent meaning and is stated herein. It will be understood that it will not be interpreted in an idealized or overly formal sense.

Embodiments of the invention refer to schematic descriptions of ideal embodiments of the invention. is explained here. At the same time, especially the production techniques and/or As a result of their tolerances, the legends may differ depending on their shape and relative size. Variations are anticipated. Therefore, embodiments of the invention can be implemented in certain ways and are not to be understood as limited to the relative sizes of the areas described herein, but due to, for example, different operational and/or production limitations It will include welded shapes and/or studs of relative sizes. Because The elements described in the figures are schematic in nature and shape and are a It is not intended to represent the actual shape of an area of the device and does not extend beyond the scope of the invention. It is not intended to be limiting.

Figure 1 shows by way of example a building complex 1 in the form of a single building. Integrity In terms of, as explained herein, the invention is connected to a common coaxial network or to each other. can be used in a building complex containing a large number of buildings with coaxial networks can be specified. The building complex (1) can be, for example, apartment blocks or a hotel. Structure The complex contains many separate buildings such as apartments, hotel rooms, offices and the like. units are indicated by dashed lines. Like a coaxial network (2), building units (4 and 5) in a building complex with sockets in all or many of the different building units (1) is provided. Apartment buildings and hotels are normally used for entire TV signal distribution purposes. It has a coaxial network that covers apartments or hotel rooms. These cables also high-speed Internet access, IPTV, VoIP, Web-TV without affecting signal quality can be used for services and the like. In the intended solution, a network management unit (10) is connected to the coaxial network (2) and connected to an external cable such as a feed data cable or an optical fiber. It connects to the data channel (3).The network management device (10) is used as shown, for example, in a basement. can be installed on the first floor or in the attic of the building (1) and can be installed after a TV amplifier can be connected. The network management device (10) uses regular TV cables on coaxial cables for data transmission. previously unused frequency spectrum on the spectrum ( uses. Network management device (10) via external data channel, if applicable (3) and to combine a data stream from a TV signal with the same cable and It is configured to send along the coaxial network (2). Other of coaxial network (2) signals at one end, such as an access modem operating under a MoCA specification. The device is divided by (100, 101). Separate frequency spectrums of the data stream and the TV signal Because of its use, the TV signal is effectively isolated from the data stream.

Figure 2 shows the basic architectural structure of a system according to one embodiment, where network management device (10), connected between an external data channel (3) and a coaxial network (2) shown at the top. Multiple MoCA end devices (100-104), network management device (10) coaxial network (2) operable to gain access to the external data channel (3) via connects. For example, a MoCA end device 100 includes a set-top box (not shown). intended for output on a connected TV set 202, which may include or be connected through can receive television signals via coaxial network (2). Additionally, the MoCA end device (100) network access to a connected computer 201 that can be used to retrieve multimedia data can be configured to provide Additionally, the MoCA end device (100), computers, mobile MoCA from various portable radio communications devices such as phones, tablets and the like It may include a wireless access point for radio access to the end device (100).

Further configuration and operation of the system, by way of example, of the network management device respectively (10) and the drawings of the MoCA end device (100).

Figure 3 shows an external data carrier, such as an optical fiber or other physical carrier of broadband data. network in an embodiment, containing a connector (14) for connection with the channel (3). shows the management device (10) schematically. At the other end of the network management device (10), a A connector (13) is provided for connection with the coaxial network (2).A control unit (11), for controlling communication with MoCA end devices connected to the coaxial network (2). among others, it is provided in the network management device 10. For this purpose, the control unit (11), Contains the MoCA chip (12). A MoCA chip, MoCA protocol, and MoCA is the hardware chip that implements the HW to achieve the specification and such chips are commercially available. The hardware content in the MoCA chip is typically broadband radio/power amplifier 8: Low noise amplifier, jammers, RF switches, It includes microprocessors, clock circuitry, and an Ethernet packet bus of certain types.

MoCA chip manufacturers select the chip content required to implement the specification. Applies the MoCA specification to chip design. This situation is 1.0, 1.1, 2.0, 2.5 Versions may vary depending on the MoCA Specification available. network management In the device, the control unit (11) activates a MoCA chip in the connected MoCA end devices (100). to control and devices connected to the MoCA chip in these MoCA end devices (100). It is used to access. CATV and MoCA channels in the network management device (10), a frequency can be combined in a combiner with a band selector device (not shown). combiner, several MoCA channels and several CATV channels to be distributed on the same coaxial network (2) can combine. A network management device (10) connects with a coupler and connects to the coaxial network. (2) may have several MoCA channels of different frequencies distributed. CATV signals, a satellite system, terrestrial TV system, fiber optic CATV, distribution network or other CATV sources It may be out of place.

Figure 4 shows a MoCA device according to the state of the art, such as a MoCA modem or network adapter. shows the end device (40) schematically. Such a MoCA end device 40 is located in a housing (not shown) a plurality of components connected to one or more PCBs 114 Contains. A connector 112 is provided for connection with a coaxial network 2. coaxial connector (112) is connected to a MoCA chip (110). The MoCA chip also includes a management data clock. (MDC)/management data input/output (MDIO) interfaces (115) and General purpose input/output (GPIO) is connected to a host device (113) via an Ethernet bus (116). The main device (113) is a Double Data Rate (DDR) memory (1131), main clock circuit (1132), a boot memory 1133), an operating system memory 1134, and a device for main device components and filters. may be connected to one or more of the power supply 1135. This setup of your technique In this case, the master device 113 is a master and the MoCA device 110 is a slave. typically The host device, which is a microprocessor or microcontroller, transmits data from the MoCA device to a memory 117 connected via a Serial Peripheral Interface (SP1) via an IZC interface connected GPIO sensors (an Ethernet bus An Ethernet switch (111) and a Wi-Fi access point connected via All other connected devices such as the devices shown [111, 117-120], which may include (not shown) translates into hardware devices.

As mentioned, the configuration of MoCA end devices ensures that the host device is properly configured. causes a high level of complexity on the PCB (114) to function and code for device functionality is required independently for each specific MoCA end device type. requires development. This causes excess costs related to design and production. and marketing time increases. In addition, multiple end devices on the same channel, Figure In an installation as shown in Fig. 2, you can use the same access medium (coaxial cable trunking, another In other words, the network shares. The configuration of each MoCA end device depends on the external access network (3) Providing access requires network traffic isolation of each MoCA end device (100-104). provisioning, ensuring Quality of Service (QoS) and, for example, in an Ethernet switch Configuring other functionalities related to the Ethernet network parameters found in this MoCA is important in access enforcement.

Figure 5 shows an embodiment for use in the system shown in Figures 1 and 2. indicates a MoCA end device 100. Also in this configuration, the coaxial connector (112), It is connected to a MoCA chip (110) which is connected to a host device (113). But this configuration, the MoCA chip (110), various connected devices, such as a Memory (SP1) (117), LED control (GPIO) (118), a temperature sensor (lZC-Bus) (119), an Ethernet switch and a Wi-Fi Access Point (120) or a bus (IZC, SPI, MDC/MDIO, GPIO) is the manager for any other device it is used with. Also MoCA chip 110, if necessary, in connection with the description of Figure 4. via MDC/MDIO, whose lines can be connected to various devices (1132-1135) as determined can be connected to a main device (113). (11) containing the network access device of the MoCA chip (110), This reverse configuration, in which it acts as a manager for bus-connected devices, specific to the device's MoCA chip (various This means that it can be produced with a lower level of complexity. Instead each can be addressed via a control channel in the coaxial network.

Returning to Figure Z, the connected MoCA end devices are connected via the network management device (10). control will be described herein for an embodiment of the system. stand out here The proposed solution successfully supports most hardware devices in the electronics market. Market standard hardware protocols required to configure and use definitions. General protocols used in the market are included in subparagraph IEEE802.3 - 222.4.5 MDIO Management Data Input/Output described in NXP-UM10204) IZC (Inter- Integrated Circuit) and originally developed by Motorola but de facto standard It is SPl (Serial Environmental Protection System) used by many chip manufacturers in the market. Interface). MDIO is mainly used for communication with Ethernet devices. IZC, It uses a two-wire bus and is generally used for sensors, real-time clocks, It is used for simpler devices such as analog-to-digital converters and the like. SPI, often used for memories and high-speed devices, but also for simpler devices It can also be used for. These three hardware protocols are used for communication with hardware devices. constitute the majority of standards applied in the current market.

In a preferred embodiment, an ACCESS function is provided by the control unit (11) for network management. The term access function includes three pieces of software. One of them is the management device (10) is performed on the MoCA chip (12) on it and one is on the MoCA end device (100). It is performed on the MoCA chip (110) on it. (12, 110) in MoCA chips The software application, via the communication channel (20), also referred to as the control channel, It provides bidirectional data transfer to all connected MoCA end devices (100, 40). Specifically On the MoCA chip 110, a software application interprets the received data and, for example, MDIO, There may be an existing control channel such as LZME already present in the specification, but data is also transmitted through various means within the MoCA protocol and in the form of Ethernet packets. transferable and this invention is based on the data transfer protocol between MoCA chips and/or will not be limited by method. A third piece of software, management device (10) It is an APl (Application Programming) implemented in the control unit (11) on the Provides direct access. Control unit (11) via MDIO or an Ethernet bus It communicates with the MoCA chip via API. A command argument The flag allows discrimination between each MoCA end device being communicated with. This The situation is determined by the MoCA end device that will be moved from the main device (113) to the control unit (11). It enables the configuration process. A MoCA end device (100) from the control unit (11) The availability of hardware buses on it will be uncertain, i.e. a In case of direct control, MoCA end device (100, 40) from the control unit (11) It can work by improving the hardware/software functions on it. A master device (113) software development for a MoCA end device (100) since it is not required, can only be addressed on the control unit (11).

The created channel 20 can be installed using an existing MoCA process. MoCA, MoCA To manage and monitor the so-called Level 2 Management Unit (LZME) It is a layer 2 communications protocol available and is an integrated version of the MoCA protocol. is part of it. Another tool that can be used to manage and monitor MoCA nodes is The layer-2 protocol is the IEEE 1905 standard. Other tested by the applicant In one embodiment, between a management device (10) and an end device (100) at regular intervals. Statistical word fields carrying raw data and unused MoCA management are used.

A customized communication protocol, configuration for end devices 100 It is implemented by moving this raw data carrying frames with commands. Configuration command, you can also use the Ethernet switch (111) or any of the other devices (117-120). It is interpreted via a master device on the configuring end device (100). An end device (100) also sends the current configuration status via the communication channel and It informs the unit (10).

hw signals activated by the ACCESS function are sent to the MoCA signal on the MoCA end device (100). These are the inputs/outputs on the chip. Preferably an application framework format, directly MoCA The chip (110) is implemented in the network management device (10) targeting the buses. Thus MoCA MoCA chip (110) in the end device (100) without a converter host device, One benefit of connecting directly to various devices, such as the Ethernet switch (111), is an easy will be seen as follows.

In one embodiment, an application framework uses the ACCESS function for MDIO Commands. is applied. The argument of the following function can be used in the following context: w: MoCA connected to Ethernet switch (111) via MDIO bus write from chip (110) - r: From the Ethernet switch connected to the MoCA chip (110) via the MDIO bus Read (111) - i: Node 1D of the remote MoCA chip (110) and therefore the MoCA end device (100) {1,2,3,...,63} - a: Physical address of the Ethernet switch on the remote MoCA end device (100) number of Ethernet devices can be addressed) s: Register address in the Ethernet switch (111) on the MoCA end device (100) h: Set GPIO high value on MoCA chip (110) l: Clear GPIO low value on MoCA chip (110) v: Read GPIO on MoCA Chip (110) According to this principle, any device connected to the MDIO bus on the MoCA chip (110) A device can be addressed using an -a flag. For example, the purpose is the Ethernet switch (111). in register (1) Ethernet switch (111) to NodeID (MoCA end device (100)] with physical address (2) In case of writing data=0X12345678, the command could be as follows: Conversely, the purpose's Ethernet switch (111) sends data from NodelD (3) with the physical address (2). In case of read, the command could be as follows: In this case the response might be: 0x12345678 Related commands are available for GPIO: Set GPIO: Access -i 3 -h 3 GPIO delete: Access -i 3 -l 3 Read GPIO: Access -i 3 -V 3 Preferably, the ACCESS function should verify receipt of the command, another In other words, the Node device (#) should respond OK, but the command itself is valid. should not be. In other words, a write command should not be validated, but a read command instead. command can be applied to verify the write command.

In one embodiment, the MoCA chip 110 is preferably in accordance with Ethernet 222.4.5. It contains at least one implemented MDC/MDIO port. This applies to almost all Ethernet networks. It is the standard that uses and implements keys. Through this channel, the network access unit (111) All configurations of a MoCA network access modem implemented through can be provided. Various Ethernet devices have a physical interface to distinguish between devices. It can be addressed via the address parameter (-a).

The MoCA chip also includes at least one device for use in SET/CLEAR/READ commands. It must contain the GPIO port. With these commands, network device reset, self Common signals such as reset, LED control and the like can be actively configured. can be controlled and controlled. SET or DELETE, the port is an output (driver enabled) When making, a read command makes the port an input (driver disabled).

The MoCA chip is also widely used in various memory devices and sensors. It may include an IZC (Inter-Integrated Circuit) using a HW protocol used. This The port can be emulated on the SW by the GPIO port above.

The MoCA chip is also widely used in various memory devices and sensors. It may include a SPl (Serial Peripheral Interface) operated according to a HW protocol used.

This port can be emulated on the SW by the GPIO port above.

In addition, if applicable, other communications buses may be It could be the SW emulated by the GPIO port.

The MoCA system and end device described above with reference to various embodiments are a It provides solutions for convenient network access to an external data channel via coaxial networking. The proposed solutions provide many benefits compared to the known state of the art.

Specifically the system solution, different subscribers, individuals, companies, hotel rooms and the like Multiple MoCAs associated with different user units with independent data access, such as It is advantageous when the end device is connected to a common coaxial network. Proposed solutions move software development to the network management unit and MoCA end device reduces complexity in configuration. MoCA end, such as a modem or network adapter Thanks to the new configuration of the device, no software development is required in the R&D process. This This means reducing the size, weight and power consumption of the MoCA end device, i.e. It also reduces cost and time to market.

The above description relates to general and specific embodiments, but Its scope is limited only by the appended claims.

Claims (1)

STEMS 1. It is a system for providing data communication via a MoCA (Multimedia over Coaxial Association) in a building complex (1) with a coaxial network (2), and its feature is that it contains the following elements: a coaxial network and a control unit (11) for connection with A network management device (10) containing the connector (13), capable of connecting to an external data channel (3); a coaxial network device containing the first MoCA chip (110) and a network access unit (11) connecting to a data bus on the first MoCA chip. connected to at least one MoCA network end device (100, 101); It is the system of claim 1, characterized in that it includes a series of MoCA end devices connected to the coaxial network, associated with different user units having independent data access, wherein said access function is configured as follows. The subject is configured to individually address one of a number of MoCA end devices. The system of claim 1 or Z, characterized in that said access function is configured to specifically address the data bus on the first MoCA chip directly connected to said network access unit. It is a system according to any of the previous claims, characterized in that the network access unit (111) is an Ethernet switch or Ethernet PHY. The system according to any of the preceding claims, characterized in that one or each particular MoCA end device includes one or more additional hardware devices (117-125) directly connected to each data bus on the first MoCA chip. It is the system of claim 6, and its feature is that the additional hardware devices in question contain a wifi access point (125). A MoCA (Multimedia over Coaxial Association) end device (100) for use in a system according to claim 1, comprising a coaxial connector (112) for connection with a coaxial network, comprising the following elements: a MoCA chip (110) , and a network access unit 120 that connects directly to a bus on the MoCA chip. The MoCA end device presented according to claim 8, characterized in that the MoCA chip is configured to receive control commands addressed from a remote network management device over a connected coaxial network, these control commands defining a data bus on the MoCA chip. The MoCA end device presented according to claim 8 or 9, characterized in that it contains a PCB (114) carrying the MoCA chip, and where the network access unit is an Ethernet switch or PHY. The MoCA end device presented according to any one of claims 8-10, comprising one or more additional hardware devices (121-125) directly connected to each data bus on the MoCA chip. It is the system presented according to claim 6, and its feature is that the additional hardware devices in question contain a wifi access point (125).