ES1127480U - Device for transmitting telecommunication signals (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Device (1) for transmitting telecommunication signals to at least one first user telecommunication terminal (utt1), comprising a circuit (2) with - a plurality of inputs (inp1, inp2, inp3 ... Inpn) to provide first telecommunication signals (tsp1, tsp2, tsp3 ... Tspn) to the device (1), - a plurality of outputs (out1, out2, out3 ... Outn) - a processor (pr) related to the inputs (inp1, inpi2, inpi3 ... Inpn), - a transmission unit (tr) related to the processor (pr); Characterized because, The transmission unit (tr) is configured to wirelessly transmit the first telecommunication signals (tsp1) and/or (tsp2) and/or (tsp3) and/or (tspn) to at least the first user telecommunication terminal (utt1). (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION
Device to transmit telecommunication signals.
The present invention relates to a device for transmitting telecommunication serials according to the preamble of claim number one.
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MATV / SMATV systems are already known, which are community systems for receiving and distributing terrestrial and satellite television signals that, through common equipment, allow television reception to the different components of a community of neighbors. These systems are basically composed of a signal pick-up device in charge of receiving the different terrestrial and / or satellite television channels, a 10-signal processing unit responsible for adapting and amplifying the received channels and a distribution network responsible for transporting the signals to the user

These SMATV / MATV systems are mostly composed of signal processing elements, distribution elements and connection elements. fifteen

The user connection point of these MATV / SMATV networks is constituted by a connection device called the user socket (or BAT, Terminal Access Base) to which it is galvanically connected to the user terminal (TV, Video, Decoder ...)
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Wireless distribution systems from a central point are also generally known using a router or a modem router with various access technologies.
These systems normally use, in addition to RJ45 connectorization, wireless broadcasting systems via WIFI in frequencies of the ISM band to achieve the necessary coverage around the physical space in which they are installed. These systems, depending on the physical space in which they are installed and the profusion of similar wireless systems in the immediate vicinity, may present problems of connection, quality of service or security, as they are not able to circumscribe the connectivity capacity of a certain area.
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Depending on the rooms to be covered, the walls exert an attenuation on the wireless signal (operating at frequencies of 2.4 GHz or 5 GHz) that in many cases translates into an almost total loss of signal quality as the power of the desired signal less than the power of other existing signals in the room to be covered, from other users. These external signals therefore act as interfering signals, with the subsequent loss of quality of service and quality of experience.

In addition, the opposite effect can occur, and the excessive power that is emitted in some room makes the desired signal vulnerable to being able to be picked up by other devices in addition to the desired ones. 40

The present invention relates to a device that interconnects the various physical networks (MATV, SMATV, PLC, Ethernet, Fiber Optic ...) and wireless (Wifi, UMTS, 4G, ...) existing in an environment, usually a building or a dwelling in a building and transmits the selected telecommunications signals of said networks to at least one user terminal wirelessly.

This objective is achieved with a device as described in the claims. Said device has a plurality of advantages.
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The device for transmitting telecommunication signals according to the invention allows the realization of a wireless distribution, capillarity and diffusion system for telecommunication signals in particular of television and / or data, using existing infrastructure in the home / building / condominium or deploying new infrastructure , obtain a higher quality of service, a greater capillarity of telecommunication signals, for example, 5 television and / or data signals and allows the creation of personal, secure and non-intrusive wireless networks (PAN).

The device according to the invention allows its galvanic or wireless connection to other devices according to the invention, by configuring physical or wireless networks. 10

In an example according to the invention, the device for transmitting telecommunication signals to at least one first user telecommunication terminal comprises a circuit with a plurality of inputs to provide first telecommunication signals to the device, a plurality of outputs, a processor related to the Inputs a transmission unit related to the processor, where the transmission unit is configured to wirelessly transmit the first telecommunication signals to at least the first user telecommunication terminal.

This has the advantage of allowing the wireless connection of the users of a telecommunication network to said network.

In another example of a device according to the invention at least one of the inputs is connected to a telecommunication network.
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This has the advantage of allowing the wireless connection of users to various telecommunication networks.

In another example of a device according to the invention, the telecommunication network to which one of the inputs is connected is a SMATV network. 30

This has the advantage of allowing the wireless connection of the users of a SMATV network to said network.

In another example of a device according to the invention, the first telecommunication signals 35 are television signals and / or data signals.

This has the advantage of allowing the wireless reception of the users of the different telecommunication networks of the television and data signals.
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In another example of a device according to the invention, the first user telecommunication terminal is configured in such a way that it transmits second telecommunication signals to a receiving unit located in the device.

This has the advantage of being able to select the characteristics and the source network of the telecommunication signals by the user wirelessly.

In another example of a device according to the invention the second telecommunication signals are constituted by control signals and act on the processor.
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This has the advantage of allowing the user to choose the signal to receive and its characteristics.

In another example according to the invention, the device is configured in such a way that wirelessly transmits first telecommunication signal to a plurality of first user telecommunication terminals.

This has the advantage of allowing simultaneous connection of multiplex users wirelessly to a telecommunication network.

In another example according to the invention, the device is configured in such a way that it wirelessly transmits first telecommunication signal to second user telecommunication terminals, the second user telecommunication terminals 10 being configured so as to wirelessly retransmit first signal of telecommunication to a plurality of first user telecommunication terminals.

This has the advantage of allowing greater coverage and consequently a greater scope of connection of the device according to the invention with the first user terminals, while allowing the multiplication of these.

In another example of a device according to the invention at least one of the inputs provide first telecommunication signals to at least one of the outputs.
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This has the advantage of allowing the connection of telecommunication networks to other telecommunication networks through the device of the invention.

In another example according to the invention the device is integrated in a user socket.
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This has the advantage of allowing direct physical connection of users to existing telecommunication networks at the input of the device according to the invention.

In another example of a device according to the invention the transmitting unit contains a transmitting antenna and the receiving unit contains a receiving antenna. 30

In another example of a device according to the invention the transmitting antenna and the receiving antenna are the same.

In another example of a device according to the invention, the transmitting antenna and / or the receiving antenna 35 are embedded in a beautifying element of the device.

In an example of application in a network, the device for transmitting telecommunication signals according to the invention receives the telecommunication signals, in particular of television and / or data from a distribution header and, by suitable processing 40, sends the signals of data to the data distribution system. The device discriminates the signals that can be transmitted wirelessly, in compliance with the regulation of the use of bands by the National Frequency Allocation Panel (CNAF). This regulation limits the frequencies and the maximum emission powers in order to find a balance between the coverage of the access points and the possible interference between transmitters. The CNAF regulation limits Equivalent Radiated Isotropic Power (EIRP) to a value of lm W (0 dBm) in the UHF frequency band (470-790 MHz).

In an exemplary embodiment of the device for transmitting telecommunication signals according to the invention, the wireless transmission is carried out by means of a tuned amplifier provided with automatic gain control (with various power supply possibilities) and a
Radiant antenna element that is integrated into the circuit or integrated into the trim element of the device.

The device for transmitting telecommunication signals according to the invention can also operate as a "terminal access base" device, in the event that no supply voltage is applied to it.

In a preferred embodiment of the device for transmitting telecommunication signals according to the invention the transmitting antenna is in the bezel of the device.
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A device for transmitting telecommunication serials such as the one proposed in the invention has multiple advantages, among which are:

- Greater simplification in the topologies of distribution in housing, building, condominium, etc., by combining in a single device the distribution of different telecommunication signals, for example, television and / or data signals,

- Independence of data access technology.

- Maintenance of the quality of service at all points where it is necessary to carry out wireless coverage.

- Total capillarity, without dead spots, of the required coverage area or zone, through the use of a multiplicity of devices.
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- Backward compatibility with other devices of the state of the art of distribution of television and data signals.

- Possibility of restricting the power of action to a personal area network (PAN), increasing the security of communications at restricting them to the personal area. 30

- Reduction of the probability of interference with other wireless networks in the vicinity.

- Compliance with the WHO recommendations on wireless technologies, in terms of reducing exposure to electromagnetic fields to levels as low as possible, in application of the precautionary principle.

A non-limiting example is described below, and based on the attached figures, a device for transmitting telecommunication serials according to the invention.
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Figure 1 is an example of a scheme of a device for transmitting telecommunication signals according to the invention:

Figure 1.a is an electrical scheme of the device
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Figure 1.b shows the device trim element

Figure 2. It is an example of a functional block diagram of a device for transmitting telecommunication signals according to the invention:
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Figure 2.a is an example of a general diagram

Figure 2.b is a particular example according to the connected networks.

Figure 3 is an example of an implementation scheme of a distribution system based on the device 1 of the invention.

Figure 1 shows a device1 for transmitting telecommunication serials according to the invention. As can be seen in Figure 1.a the device is constituted by a circuit 2 with inputs INP1, INP2 ..... INPn to which they are galvanically connected via connectors CINI, CIN2 ... CINn various physical telecommunication networks ( MATV, SMATV, PLC, Ethernet, Fiber Optic) or, through RC receiving units, wireless telecommunication networks (Wifi, UMTS, 4G, ...). Likewise, the device 1 has outputs OUT 1, 10 OUT2 ..... OUTn to which they are galvanically connected via COUT1, COUT2 ... COUTn connectors, various physical telecommunication networks (MATV, SMATV, PLC, Ethernet, Fiber Optic ) or, through TR transmitting units, wireless telecommunication networks (Wifi, UMTS, 4G, ...) The first UTT1 telecommunication terminals and second UTT2 telecommunication terminals connect to each other via wireless connection and with the 15 devices 1 wirelessly and / or physically using connectors COUT1, COUT2 ... COUTn.

The device 1 also has a PR processor that processes the first telecommunication signals TSP1, TSP2 ... TSPn and the second telecommunication signals TSS. twenty

Device 1 is embedded in a trim element 3 figure 1.b.

Figure 2 shows functional block diagrams of the device 1 for transmitting telecommunication signals according to the invention. Figure 2.a shows a general diagram and Figure 25 2.b a particular example according to the networks connected to the device 1.

As can be seen in Figure 2.a the device 1 is constituted by a multiplicity of inputs INP1, INP2 .... INPn, whereby the first telecommunication signals TSP1, TSP2, ... TSPn, are introduced to the device 1 a multiplicity of outputs OUT !, 30 OUT2 .... OUTn and a processing block and switcchig constituted by a PR processor.

The first telecommunication signals TSP1, TSP2, ... TSPn from the INP1, INP2, ... INPn inputs are introduced into the PR processor by means of access adapters to the input means AAM1N1, AAMIN2, ... AAMINn. Device 1 will have as many 35 access adapters to the input medium AAMIN 1, AAMIN2, ... AAMINn as inputs INPLINP2, ... INPn. Likewise, at the output, the PR processor will connect as many access adapters to the output medium AAMS1, AAMS2 ... AAMSn as outputs OUT1, OUT2, ... OUTn arrange the device 1. The access adapters to both the input and Output signals corresponding to wireless signals / networks will include the RT transmission unit or the corresponding RC reception unit.

The multiplicity of inputs INP1, INP2 .... INPn enable the device to operate in any location, with different types of distribution networks and with different types of input and output signals. Four. Five

For example, Figure 2.2., In the case of a SMATV coaxial distribution, the first telecommunication signals TSP1, TSP2, ... TSPn introduced into device 1 are television and / or data signals. In this case, a derivative element DR located in the corresponding input allows discriminating the data signals of the television signals, performs the processing and wireless distribution of the same and finally enables the passage of these signals to other devices1.
In the processing and switching block, (PR processor), Figure 2.2 the multi-output switch functionality is carried out towards the different outputs OUT1, OUT2, ... OUTn of the device 1. These outputs OUT1, OUT2, ... OUTn can be configured according to different possibilities, such as, by way of non-limiting example, several Ethernet outputs, combinations of Ethernet and coaxial, or combinations of Ethernet, coaxial, Wifi and PLC. 5

In the case of an input with a first telecommunication signal TSP1, TSP2, ... TSPn of the PLC type, the device 1 will operate similarly. The PLC input would discriminate the data signals that are distributed over the mains, to be introduced in the "processing and switching" block, PR processor, to the different outputs OUT1, OUT2, ... OUTn 10 of device 1 which can be configured according to the possibilities mentioned above.

Other forms of first telecommunication signals TSP1, TSP2, ... TSPn at the input, such as GOF or POF could also be used by using the appropriate interfaces to the inputs, such as SFP (Small Form Plugable) or similar devices. , so that the 15 data signals can be introduced in the processing and switching block PR, to the different outputs OUT1, OUT2, ... OUTn of the device1. In the preferred embodiment of the invention, up to four Gigabit Ethernet outputs are enabled by the switch, which could implement up to 4 outputs on a single profile of the television and data device 1.
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Figure 3 shows in schematic the implementation of a telecommunication signal distribution system based on the device 1 of the invention. As an example, the device 1 integrated in a SMATV network (television and / or data signals) is shown, but it could be in any other type of physical network (MATV, SMATV, PLC, Ethernet, Optical Fbra ... ) or wireless network (GSM, WIFI, 4G ....). 25

As can be seen in said figure, the television signals are captured by the pick-up elements (antennas) and introduced into the distribution network by means of the television signal adaptation block. The functions of this block may be, but are not limited to, transmodulation, amplification, frequency conversion, filtering, adaptation, electro-optical conversion, IP conversion, etc.

On the other hand, the data signals may, for example, come from ADSL modems, satellite modems, cable modems, ONUs (Optical Network Unit), ONTs (Optical Network Termination), PON network headers (Passive Optical Network), etc. . These data signals 35 are injected into the distribution network using a plurality of technologies, which depend, among other reasons, on the distribution network to be used. These technologies could be, for example, HomePlugAV, MOCA (Multimedia over Coaxial) or others. By way of a particular embodiment, and in the case of a coaxial network using HomePlugAV technologies, these data signals are introduced into the distribution network at frequencies that are not interfering with the television signals of the distribution.

The distribution of television and data signals can be carried out through a multiplicity of physical media, which include, in addition to a coaxial distribution network, Optical fiber networks (GOF, Glass Optical Fiber and POF, Polymer Optical Fiber), PLC networks ( Power 45 Line Communications) or structured cabling networks.

Devices 1 according to the invention are located at the endpoints of the distribution.

As can be seen in Figure 3, the devices 1 constitute a wireless network 50 Capillary Network) that interconnects said devices1 with the first telecommunication terminals UTT1 and with the second telecommunication terminals UTT2. This allows wireless transmission of the first telecommunication signals TSP 1,
TSP2, TSPn from the telecommunication networks to the first UTT1 telecommunication terminals and the second UTT2 telecommunication terminals. In the case of connection to a SMATV network, the first telecommunication signals will be television and / or data signals. The devices 1 can be connected to each other through their inputs CIN1, CIN2, CINn and their outputs COUT1, COUT2 ... COUTn. Likewise, 5 can be connected via their inputs CIN1, CIN2 ... CINn to other physical or wireless telecommunication networks.

REFERENCE LIST:
10
1 Device according to the invention

UTT1 First Telecommunication Terminals

2 Circuit 15

INP1, INP2 ... INPn Inputs.

TSP1, TSP2 ... TSPn First Telecommunication signals
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OUT1, OUT ... OUTn Outputs

CIN1, CIN2 ... CINn Input Connectors

COUT1, COUT2, ... COUTn Output Connectors 25

PR Processor, Processing and switching block

TR Transmission Unit
30
TSS Second Telecommunication signals

RC Receiving Unit

UTT2 Second telecommunication terminals 35

AT transmitter antenna

AR Receiving antenna
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20 AAM1, AAM2, ... AAMn Access adapters to the input medium

AAMS1, AAMS2 ... AAMSn Access adapters to the output medium

3 Trim element 45




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Claims (1)

1. Device (1) for transmitting telecommunication serials at least to a first user telecommunication terminal (UTT1), comprising a circuit (2) with
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- a plurality of inputs (INP1, INP2, INP3 ..... 1NPn) to provide first telecommunication signals (TSP1, TSP2, TSP3 TSPn) to the device (1),

- a plurality of outputs (OUT I, OUT2, OUT3 ..... OUTn)
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- a processor (PR) related to the inputs (INP1, INPI2, INP3, .. 1NPn),

- a transmission unit (TR) related to the processor (PR); characterized in that, the transmission unit (TR) is configured to wirelessly transmit the first telecommunication series (TSP1) and / or (TSP2) and / or (TSP3) and / or (TSPn) to at least the first terminal 15 User Telecommunication (UTT1).

2. Device (1) according to claim number 1 characterized in that at least one of the inputs (INP1, INP2, INP3, ... INPn) is connected to a telecommunication network.
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3. Device (1) according to claim number 2 characterized in that the telecommunication network to which one of the inputs (INP1, INP2, INP3, ... INPn) is connected is a SMATV network.

4. Device according to any of the preceding claims characterized in that the first 25 telecommunication serials (TSP1, TSP2, TSP3, .... TSPn) are television serials and / or data serials.

5. Device (1) according to any of the preceding claims characterized in that the first user telecommunication terminal (UTT1) is configured such that it transmits second telecommunication serial (TSS) to a receiving unit (RC) located in the device (one).

6. Device (1) according to claim number 5 characterized in that the second telecommunication signals (TSS) are constituted by control serials. 35

7. Device (1) according to claim number 5 and / or 6 characterized in that the second telecommunication signals (TSS) act on the processor (PR).

Device (1) according to any one of the preceding claims, characterized in that it is configured in such a way that wirelessly transmits first telecommunication signal (TSP1, TSP2, TSP3, .... TSPn) to a plurality of first telecommunication terminals of user (UTT1).

Device (1) according to any one of the preceding claims characterized in that it is configured in such a way that wirelessly transmits first telecommunication signal (TSP1, TSP2, TSP3, ... TSPn) to second user telecommunication terminals (UTT2 ).

10. Device (1) according to claims number 9 characterized in that the second 50 user telecommunication terminals (UTT2) are configured to wirelessly retransmit first telecommunication signal (TSP1, TSP2,
TSP3… TSPn) to a plurality of first user telecommunication terminals (UTT1).

Device (1) according to any one of the preceding claims characterized in that at least one of the inputs (INP1, INP2, INP3 ..... INPn) provide first telecommunication signals (TSP1, TSP2, TSP3 TSPn) at least one of the outputs (OUT 1, OUT2, OUT3 ... OUTn).

12. Device (1) according to any of the preceding claims characterized in that it is integrated in a user socket. 10

13. Device (1) according to any of the preceding claims characterized in that the transmitter unit (TR) contains a transmitter antenna (AT) and the receiver unit (RC) contains a receiver antenna (AR).
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14. Device (1) according to claim number 13 characterized in that the transmitting antenna (AT) and the receiving antenna (AR) are the same.

15. Device (1) according to any of claims 13 and 14 characterized in that the transmitting antenna (AT) and / or the receiving antenna (AR) are embedded in a trim element 20 (3) of the device (1).