ES2409094B2 - RADIO FREQUENCY SIGNAL DISCRIMINATOR DEVICE. - Google Patents

Abstract

The present application refers to a radio frequency signal discriminating device comprising an input and an output, and at least a first filter, where a filtered input signal, comprising a first signal located in the frequency range and a second signal located in the frequency range is driven to the output the device comprises a comparator / decision maker, located after the first filter, constituted so as to make a comparison between the level of the second signal and a reference level. According to the result of the comparison of levels the comparator / decision maker blocks or not the passage of the second signal to the output. The device has an amplifier that is external to the discriminating device.

Description

Radio frequency signal discriminating device The present invention relates to a signal discriminating device of

5 radio frequency, in particular for television, radio and / or data antennas in SMA TV 1MA TV networks. The SMA TV / MATV networks are basically composed of a Signal Pickup System, a Head Unit and a Distribution Network. The signal pickup system is composed of the various antennas that

10 receive the telecommunication signals and that are generally located outside the building in the highest areas of the building and generally difficult to access. The antennas of the Signal Capture System are usually provided with devices that connected to the output of the antennas or integrated into them allow amplifying the received signals, improving the quality level of said signals. From

In this way the signals are delivered to the Head Unit and / or distributed directly, in the case of individual installations, in the best conditions. Various types of devices that are directly connected to the antenna are used to amplify the level of signal received by the antenna and compensate for the losses introduced by the coaxial cable.

20 These devices are located outside the building in the immediate vicinity of the antenna so they have difficult access for modification or replacement. Likewise, these devices have fixed characteristics that cannot be modified (gain, bandwidth, output level, etc.) although in many cases the characteristics of the signals to be received vary, either by

introduction of new services, either by changing their parameters

or even by the appearance of new interfering signals. This is the case, for example, of the signals corresponding to the new Long Term Evolution services (hereinafter LTE).

5 By virtue of the distribution of the UHF frequency band for Television and Data of the so-called 4th generation Internet, the terrestrial digital television signals will occupy the channels of the UHF band from 21 to 60 (470 to 790 MHz) and the L TE signals will occupy the UHF band channels from 61 to 69 (791 to 862 MHz). To do this, the television transmitters will be switched off in the

10 band (791 to 862 MHz. Channels 61 to 69) and this band will be used for L TE signals. This band reallocation process is known as Digital Dividend. Thus, the next use of the 791 to 862 MHz frequency band (channels 61 to 69 of the Television band) for mobile Internet services and systems

Wireless broadband access will undoubtedly cause multiple interference to occur in TV channels adjacent to said frequency band and probably also in other non-adjacent channels, depending on the desired signal level and interfering signal and the system or systems of amplification used. It is thus unpredictable a priori to establish the places and facilities of

20 MA TV / SMA TV in Jos that interference will occur as a result of the introduction of the new services of L TE. On the other hand, it should be borne in mind that currently channels 61 to 69 (791 to 862 MHz) are being used for television services. This raises the problem of the impossibility of the previous installation of

25 devices to eliminate the interfering signals corresponding to the new LTE service (band 791-862 Mhz. Channels 61 to 69) in existing or new installations of MA TV 1 SMA TV in those places likely to be located within the future coverage of the signals of the new LTE service since currently this band (791-862 Mhz. Channels 61 to 69)) still remains

5 used by television services. The objective of the present invention is to develop a discriminating device for interfering radio frequency signals, in particular for television, radio and / or data antennas in SMA TV 1 MATV networks, which eliminates interfering radio frequency signals, in particular those produced for the L TE services of

10 an autonomous way. That is, the device developed according to the invention will become operational and eliminate the interfering radio signals, in particular those produced by the LTE services, only when it detects the presence of said interfering signals, maintaining the television services. This objective is achieved with a signal discriminating device

Interference radio frequency, in particular for television, radio and / or data antennas in SMA TV 1MA TV networks as defined in the claims. The device according to the invention eliminates interfering signals existing at the time of installation or those that appear after installation, all without the need for action by the user and / or installer.

The device according to the invention is housed in the antenna box itself, or connected to the antenna by means of a coaxial installation cable and detects / checks the presence of interfering signals of the type L TE as well as the power with which they are received. Once the presence and power of said interfering signals has been verified, the

25 device according to the invention modifies the frequency range of the signals a

to receive. Said frequency range corresponds to the frequency range of

the telecommunication signals that you wish to receive. All other signals that are not within said frequency range will be rejected. To perform this function the device according to the invention extracts a sample of

5 the possible interfering signals at the input of said device and check its presence and power. The solution provided by the invention is especially important in situations of transition to the occurrence of LTE signal transmissions since it prevents the user / installer from moving to the MA TV 1SMA TV installation.

10 Furthermore, the installation of said device prior to the introduction of the LTE services does not eliminate the terrestrial television service while it occupies the band (791 to 862 MHz. Channels 61 to 69)) The invention has a plurality of advantages

In an example according to the invention the signal discriminating device of

The radio frequency comprises an input and an output and at least a first filter, where a filtered input signal comprising a first signal located in a first frequency range (470 to 790 MHz. Channels 21 to 60) and a second signal located in a second frequency range (791 to 862. Mhz. Channels 61 to 69) is conducted to the output, it is characterized in that it comprises a

20 comparator / decision maker located next to the first filter, and because comparator 1 decision maker (5) is constituted so that it makes a comparison between the level of the second signal and a reference level, and why according to the result of the comparison of levels the comparator 1 decision maker or not blocks the passage of the second signal to the output.

This has the advantage that if the level of the second signal located in the second frequency range (791 to 869 Mhz channels 61 to 69) is above the reference level, that signal is eliminated at the output of the device. This avoids interference of the frequency signals between 791 to 869 Mhz (5 L TE signals) over the 4 70 to 790 Mhz signals destined for television. In the event that the level of the second signal located in the second frequency range (791 to 869 Mhz, channels 61 to 69) is not above the reference level, the decision comparator 1 does not block the passage of the second signal to the exit . This case contemplates the non-existence of interfering L TE signals and the possibility that in

10 the frequency range from 791 to 869 MHz (channels 61 to 69) finds Television signals. In the latter case, the device will allow the complete signal from 470 MHz to 869 MHz (channels 21 to 69) to pass through the first one that will only allow the signal between 470 and 790 MHz (channels 21 to 60) to pass through. example the signal discriminating device according to the invention is

15 characterized in that it has an amplifier. This has the advantage of having signals with a level at the output of the device that allow them to be injected into the distribution network. In another signal discriminating device according to the invention the amplifier is extended to the discriminating device.

20 This has the advantage of a standard use of the device for different types of amplifiers. In the following, a non-limiting example of the realization of a radiofrequency signal discriminating device in particular for television antennas, of radio and / or data in SMATV networks 1

25 MATV.

Figure 1 shows a block diagram of the device according to the invention.

As can be seen in Figure 1 the device according to the invention is constituted by an inlet filter (1) of UHF (470-862 MHz. Channels 21 to 69), an attenuator / isolator (2), a first filter (3 ) consisting of a high pass filter (791

5 862 Mhz. Channels 61 to 69), a power meter / detector (4), a comparator 1 decision maker (5), switches (6), a low pass filter (7) (470-790 Mhz. Channels 21 to 60)), and a signal amplifier (8) As illustrated in Figure 1, the input signal 11 from a pick-up device (telecommunication antenna or the like) is introduced into the device

10 the invention through an IN input connector, said input signal 11 is constituted among others by terrestrial digital television signals and, where appropriate, by data signals type L TE. Under the distribution of the UHF frequency band for Television and Data of the so-called 4th generation Internet (Digital Dividend), terrestrial digital television signals will occupy the channels of the band

UHF 15 from 21 to 60 (470 to 790 Mhz) and the L TE signals will occupy the UHF band channels from 61 to 69 (791 to 862 Mhz) The input signal 11 is passed through the input filter (1 ) from UHF (470 to 862 Mhz, channels 21 to 69) obtaining the filtered input signal (12) at its output (TV signals and, if applicable, L TE signals). Then using the dimmer /

20 isolator (2) a sample 13 (TV signals and if necessary L TE signals) is extracted from the existing signal 12 at the output of the input filter (1). The extraction of this sample 13 from the signal 12 is carried out without introducing losses in the signal 12, thus avoiding reducing the quality of the signal12 that will be introduced into the switches (6).

The output signal 13 of the attenuator / isolator (2) is taken to a first filter (3)

constituted by a high pass filter (791 to 862 MHz, channel 61 to 69)) in charge of selecting the signal 122 located in this bandwidth and which will be Television signals before the introduction of the L TE services or L TE signals 5 after the introduction of said services. At the output of said filter (3) the signal 122 is measured and / or detected by the power meter / detector (4). The measured or detected Vdetec level in the power meter / detector (4) is compared with a preset Vref reference level. The preset reference level Vref is the maximum power level of the possible signals

10 interfering L TEs present in the case 12 in the signal 12 that an amplifier (8) can admit to its input without distorting the signals corresponding to the digital television present in the signal 12. The comparison is made in the comparator 1 decision maker (5) and according to the comparison voltage Ve resulting at the output of the comparator / detector (5) is

15 activate the signal switches (6). If the reference level Vref is greater than the level Vdetec detected, the possible L TE signals of signal 12 will not interfere with the television signals of said signal 12 and consequently the switches (6) will pass signal 12 (4 70 a 862 Mhz. Channels 21 to 69) directly to the signal amplifier (8).

20 In the event that the reference level Vref is less than the detected level Vdetec the L TE signals of the signal 12 will interfere with the television signals of said signal 12 and consequently the switches (6) will divert said signal 12 to a low pass filter (7) (470 to 790 MHz. Channels 21 to 60). Said low pass filter (7) eliminates the signals located in the frequency band of channels 61 to 69 of

25 UHF (791 to 862) that is the interfering LTE signals and only the television signals (470 to 790. Mhz Channels 21 to 60) of signal 12 will be input and amplified in the amplifier (8) and then delivered to the output OUT of the device according to the invention. In this way in a situation of absence of interfering L TE signals (level

5 Vdetec interfering signal L TE below a Vref reference level) the device according to the invention will not act and will let signal 12 (470 to 862 Mhz. Channels 21 to 69) directly to the amplifier (8) to be amplified and subsequently delivered to the output OUT. On the contrary when the interfering signals L TE are present with a level

10 high power capable of interfering with television signals (Vdetec interfering L TE signal level above a Vref reference level) the device according to the invention will act by signaling 2 (470 to 862 MHz. Channels 21 to 69) through the low pass filter (7) (470 to 790 MHz. Channels 21 to 60). Said low pass filter (7) eliminates the signals located in the frequency band of the channels

15 61 to 69 of UHF (791 to 862) that is to say the interfering L TE signals and only the television signals (470 to 790 Mhz Channels 21 to 60) of the signal 12 will be introduced and amplified in the amplifier (8) and later delivered to the OUT output of the device according to the invention

twenty

Reference List

1.-UHF input filter

2.-Dimmer / Isolator

5 3.-First filter

4.-Power meter / detector

5.-Comparator / decidor

6.-Switches

7.-Low pass filter

10 8.-Signal amplifier

IN Input Connector

OUT output connector

11 Radio frequency signal input to the device

12 Filtered input signal: Radio frequency signal (470-862 Mhz. Channels 21 15 to 69). constituted by 121 and 122 121 Radio frequency signal from 470 to 790 Mhz. channels 21 to 60, exclusively Television signals 122 Radio frequency signal from 791 to 862 Mhz. channels 61 to 69, -Before the Digital Dividend exclusively Digital Television signals 20 Terrestrial -After the digital dividend only signals L TE 13 Signal signal 12

Claims (5)

 Claims 1. Discriminant device of radiofrequency signals comprising a 5 input (IN) and one output (OUT), and at least a first filter (3), where a filtered input signal (12), comprising a first signal (121) located in the frequency range (FR 1) and a second signal (122) located in the frequency range (FR2) is conducted to the output (OUT), characterized in that 10. The device comprises a comparator / decision maker (5) located after the first filter (3), - and because the comparator 1 decision maker (5) is constituted so as to make a comparison between the level of the second signal ( 112) and a reference level (Vref). . -and why according to the result of the comparison of levels the comparator 1 15 decision maker (5) blocks or not the passage of the second signal (122) to the output (OUT). 2. Signal discriminating device according to claim number 1 characterized in that it has an amplifier (8). 3. Signal discriminating device according to claim number 2 characterized in that the amplifier (8) is external to the discriminating device