ES2393154A1 - Take user for telecommunication networks. (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

The present invention relates to a user socket for telecommunication networks, in particular for matv/smatv networks of which they provide telecommunication signals from a telecommunication network to user terminals (television, video, decoder), constituted by at least one chassis where one or more connector pins are located, an electronic circuit and a lid or closure where the electronic circuit contains an amplifier that amplifies the telecommunication signals from the telecommunication network. Said outlet has means that supply the telecommunication signals from a telecommunication network to the user terminals (video tv, decoder) in the event that the amplifier 6 is not powered and/or does not work, these means being constituted by a line of passage in the circuit that supplies a path of low impedance between the input and the output of said circuit in case the amplifier does not work and/or is not powered. (Machine-translation by Google Translate, not legally binding)

Description

USER TAKING FOR TELECOMMUNICATION NETWORKS The present invention relates to a user socket for telecommunication networks, in particular for MA lV / SMAT networks. MAlV / SMAlV systems are already known, which are community systems for receiving, processing and distribution of terrestrial and satellite television signals that, through common equipment, allow the transport of the television signal to the receivers of the different users of a community of neighbors. These MATV / SMAlV systems are basically composed of a signal capture device in charge of receiving the different terrestrial and / or satellite television channels, a head unit in charge of the treatment, adaptation and amplification of the received channels and a distribution network ( MAlV / SMATV network) responsible for transporting the signals to the user. Although basically these systems were born exclusively for television signals, currently they have been developed and include other types of telecommunication signals (data, Internet, interactive services, etc.). The user's connection point to those MAlV / SMATV networks is constituted by a connection device called User Socket (or BAT, Terminal Access Base) to which the User Terminal (TV, Video, Decoder, etc.) is connected. ). Basically there are two types of user shots, a first call end user take and a second call intermediate user take. In the first, all the signal that comes from the network is delivered to the device connected to said socket (TV, Video, Decoder, etc.). In the second case, the user socket has a dividing element that divides the signal so that one part is delivered to the device connected to the socket (TV, Video, Decoder) and the other part delivers the network to be distributed to another Other shots There are currently a wide variety of User Sockets on the market. The Spanish Patent ES2233198B2 describes a user socket basically consisting of a chassis where two connecting pins are located an electronic circuit and a cover or closure.

These types of shots have the disadvantage of introducing losses in the reception of the user signal, reducing the possibility of increasing the number of shots in the house, also forcing the use of amplifiers of higher output level and higher cost in the unit header of the distribution. The object of the present invention is to develop a user socket for telecommunication networks, in particular for MATV / SMATV networks that allows increasing the number of shots per home and allows the use of amplifiers of lower output level and lower cost in the head unit of the distribution. The invention relates to the two types of user sockets mentioned: end of user socket and / or intermediate user socket. The object of the invention is achieved by means of a user socket for telecommunication networks, in particular for MATV / SMATV networks, as defined in the claims. The invention has a plurality of advantages. In an example according to the invention, the user socket for telecommunication networks, in particular for MATV / SMA TV networks from which they supply telecommunication signals from a telecommunication network to user terminals (Television, Video, Decoder), is constituted by at least one chassis where one or more connecting plugs, an electronic circuit, a cover or closure are located; where the electronic circuit contains an amplifier to amplify the telecommunication signals coming from the telecommunication network. This has the advantage of increasing the signal level in the user socket, allowing the possibility of increasing the number of shots in the house and / or the use of amplifiers of lower output level and lower cost in the head unit of the distribution. It also has the advantage of being able to use a lower level of telecommunication signals in the collective distribution header, with the consequent energy savings that this entails. In another example according to the invention the user socket for networks of

Telecommunication, in particular for MATV / SMATV networks, is characterized as having means to supply the telecommunication signals

from a telecommunication network to the user terminals (TV, Video, Decoder) in case the amplifier is not powered and / or does not work. This has the advantage of being able to eliminate the effect of the amplifier simply by cutting off its power. In addition, this has the advantage that a malfunction or a break in the amplifier does not affect the supply of the signal to the User Terminal (TV, Decoder, etc.). In another example according to the invention, the user socket is characterized in that the means for supplying the telecommunication signals from a telecommunication network to the user terminals (television, Video, Decoder) in the event that the amplifier is not powered and / or does not work are constituted by a line of passage in the circuit that provides a low impedance path between the input and output of said circuit in the event that the amplifier does not work and / or is not powered. This has the advantage of ensuring the correct operation of the user socket, even if the amplifier fails, in a simple way. In another example according to the invention the user socket is characterized in that the amplifier contains an automatic gain control. This has the advantage that regardless of the level of signal delivered by the network to the user socket, the level of signal delivered by it to the connected user terminal (TV, Video, Decoder, etc.) will remain constant. At the same time, the autoregulation of the amplifier embedded in the user socket prevents saturation of the input level to the user terminal, which would lead to an increase in noise and subsequent reception errors. This has the advantage of being able to use a lower level of telecommunication signals in the collective distribution header, with the consequent energy savings that this entails. In another example according to the invention, the user socket is characterized in that the amplifier is powered by a voltage signal Vcc from a user terminal (TV, Decoder, Video, etc.).

This has the advantage that the operation or not of the amplifier is selected by the user through the remote control of the user terminal. In this way for cases of low signal the user himself feeding the amplifier (via the user terminal) can increase the level of input to the user terminal above the threshold and enable the perfect reception of the signals.

In another example according to the invention the user socket is characterized in that the amplifier is powered through an external power source. This has the advantage that if the user terminal does not have power for the amplifier it can be supplied by an external network that can be controlled by the user. For a better understanding of the invention, a user outlet for telecommunication networks is described by way of non-limiting example, in particular for MATVI SMATV networks according to the invention based on the attached drawings: Figure 1 shows a scheme of User socket according to the invention. Figure 2 shows a block diagram of the circuit of the socket according to the invention. Figure 3 shows a possible user socket according to the invention, which has an external power supply. As can be seen in figure 1, the user socket 1 is constituted by a chassis 2, where connector plugs 3, an electronic circuit 4 and a cover or closure 5 are located. Figure 2 shows a block diagram of the electronic circuit 4 of the user socket 1 according to the invention, which is constituted by an optional shunt device 42, two bandpass filters 43, 44 and an amplifier 6. As can be seen, said electronic circuit 4 has at least one signal input 41 . through which the signal from at least one telecommunications network enters, in particular from a MATV / SMATV network. An optional shunt device 42 derives part of the input signal into the electronic circuit 4 and another part of the signal is sent back to the network through a shunt output 47. If there is no

optional shunt device 42 the entire signal of the telecommunication network will be introduced in the electronic circuit 4. This device 42 is the one that introduces the difference between intermediate user sockets and end user sockets. The former include this shunt 42 and the latter do not incorporate it. Two band pass filters 43 and 44 whose pass bands will be adjusted according to the use of the user socket, will separate the input signals into two bands, for example one between 470 and 865 MHz. and another between 950 and 2400 Mhz. The filter outlet 43 is connected directly to a user outlet 45 of 'electronic circuit 4 that is galvanically connected to one of the pins 3 of the chassis 2 of the user socket 01. The output of the filter 44 is applied to an amplifier circuit 6 that amplifies the signal and delivers it to a user output 46 of the electronic circuit 4. The amplifier 6 optionally contains an automatic gain control 61 that maintains the signal level at the user output 46 of the constant electronic circuit 4, regardless of the signal level at the input of the electronic circuit 4. In the event of a failure or no power supply of the amplifier 6 the circuit 4 has means 7, for example a passage line 71 It supplies a low impedance circuit between the input and the output of the amplifier 6, which allows the signal to pass to the user output 46 even if the amplifier 6 does not work. The user output 46 of the electronic circuit 4 is galvanically connected with one of the pins 3 of the chassis 2 of the user socket 1. Optionally the amplifier 6 can be fed by a voltage signal Vcc from a third user minal through user output 46. Another option is to power amplifier 6 by means of a voltage Vcc from an external source 8. Figure 3 shows a possible user socket 1 according to the invention which has a power supply External 8 connected to the mains. Said power supply has a power cable 9 which, through a connector 10, is connected to one of the pins 3 of the chassis 2 in the user socket 1. The connector 10 has an outlet 11 through which the signal from pin 2 / lega to the user terminal (TV, Video, Decoder, etc). Said connector 10 blocks the passage of current from the power supply 8 to the user terminal.

REFERENCE LIST

one

User socket

5

2 Chassis

3

Pegs

4

Electronic circuit

41

Entry

42

optional bypass circuit

10

43 Band pass filter

44

Band pass filter

Four. Five

User Exit

46

User Exit

47

Bypass output

fifteen

5 Lid or closure

6

Amplifier

61

Automatic gain control

7

Media

71

Low impedance line

twenty

8 External power supply

9

Power cord

10

Connector

eleven

Departure

Claims (1)

1.-User socket for telecommunication networks (1), in particular for MATV / SMA TV networks from which they supply telecommunication signals from a telecommunication network to user terminals (TV, Video, Decoder), consisting of at least one chassis (2) where one or more connector plugs (3), an electronic circuit (4) and a cover or closure (5) are located characterized in that the electronic circuit (4) contains an amplifier (6) to amplify telecommunication signals from the telecommunication network. 2.-User socket for telecommunication networks (1) according to claim number 1 characterized in that it has means (7) to supply the telecommunication signals from a telecommunication network to the user terminals (television, Video, Decoder) in case the amplifier (6) is not powered and / or does not work. 3.-User socket for telecommunication networks (1) according to claim number 2 characterized in that the means (7) are constituted by a passage line (71) in the circuit (4) that provides a low impedance path between the amplifier input and output (6) even if said amplifier (6) does not work and / or is not powered. 4. User socket for telecommunication networks (1) according to claim number 1 characterized in that the amplifier (6) contains an automatic gain control (61). 5.-User socket for telecommunication networks (1) according to any of the preceding claims characterized in that the amplifier (6) is powered by a voltage signal Vcc from a user terminal (TV, Decoder, Video, etc.). ). 6.-User socket for telecommunication networks (1) according to any of the claims characterized in that the amplifier (6) is powered through an external power supply (8).