RU2758715C1 - Two-tuner receiver of a satellite broadcasting system and a method for selecting the mode of its operation - Google Patents

Abstract

FIELD: satellite broadcasting.

SUBSTANCE: invention relates to satellite digital broadcasting technologies, in particular, using two-tuner receivers. A receiver of a digital satellite broadcasting system is proposed, which is equipped with main and additional tuners, each of which is equipped with at least a demodulator and an antenna input for connecting the cable of the corresponding satellite antenna converter and is connected by software and hardware via feedback lines to at least a central control processor equipped with outputs of communication lines of end-user device services, and the antenna input of the additional tuner is isolated, and the output of the main tuner is additionally equipped with a signal amplifier, installed along the switching line with the input of an additional tuner, while the main and additional tuners are connected to each other by means of a hard-software-controlled RF key, one input of which is connected to the output of the main tuner, the second input is equipped with an antenna input, and the output of the key is connected to the antenna input of the additional tuner, while the central processor is connected to the RF key, the main and additional tuners via control channels implemented using firmware.

EFFECT: expansion of the functionality of the receiver of the digital satellite broadcasting system while reducing the level of RF losses and the influence of cross-interference in the receiver, providing an increase in the quality of satellite broadcast signal reception.

24 cl, 4 dwg

Description

Technology area

The group of inventions relates to technologies for satellite digital broadcasting, in particular, using two-tuner receivers.

State of the art

Periodic studies aimed at establishing trends in the field of user requests regarding the use of receiving equipment show that a significant amount of connections for two-tuner receivers occurs using a signal divider from a single-head converter, or simply the connection is made with one cable from the converter (especially in the framework of the exchange of single-tuner equipment) , which excludes the possibility of using a second tuner.

From the prior art, a solution is known for a two-tuner satellite broadcasting receiver KR100576861, in which the first and second tuners are made to be able to connect to a satellite broadcasting system and a cable broadcasting system, with the possibility of independently configuring each of the networks and switching between them by means of switches. The disadvantages of this solution include the limitation of the functionality of the solution aimed at implementing only the broadcast of the signal of one of the broadcasting systems (satellite or cable).

From the prior art, a solution for a two-tuner satellite broadcasting receiver is also known, as well as a satellite broadcasting system and method based on it, described in KR101305079, which discloses a solution for a two-tuner satellite broadcasting receiver, which provides the ability to tune to two types of satellite broadcasting independently of each other. ... The tuners are equipped with switches, one of which is located between the tuners, allowing you to use the tuner settings to switch the signal transmission path from the satellite, as well as double tuning for one satellite for two types of satellite broadcasting, thereby expanding the channel selectivity in accordance with it. Thus, double tuning a two-tuner receiver can improve the broadcast quality. However, the known two-tuner receiver, the method and the satellite broadcasting system based on it, has a number of disadvantages, including the limitation of the functionality of the solution in the satellite broadcasting mode of one type, as well as the complexity of setting up, including due to the need to synchronize the operation of two switches, the need to use additional devices with two-way communication mode (DiSEqC ™). This solution is characterized by a high level of RF losses due to signal splitting and lack of measures to reduce them. Also, the considered solution does not provide for minimization of cross-interference (crosstalk) in loop mode due to uncontrolled connection of the antenna cable to the tuner in loop mode. At the same time, by the totality of essential features, this decision can be taken as a prototype.

Disclosure of invention

The task of the claimed group of inventions is to eliminate the above disadvantages.

The technical result in this case is to expand the functionality of the receiver of the digital satellite broadcasting system while reducing the level of HF losses and the influence of cross-interference in the receiver, providing an increase in the quality of reception of the satellite broadcasting signal.

The specified technical result is achieved due to the receiver of the digital satellite broadcasting system, at least equipped with the main and additional tuners, each of which is equipped with at least a demodulator and an antenna input for connecting the cable of the corresponding satellite antenna converter and is connected in software and hardware via lines feedback, at least with the central control processor, equipped with outputs of communication lines of services of end user devices, and the antenna input of the additional tuner is isolated, and the output of the main tuner is additionally equipped with a signal amplifier installed along the commutation line with the input of the additional tuner, while the main and additional tuners are interconnected by means of a software and hardware controlled HF key, one input of which is connected to the output of the main tuner, the second input is equipped with an antenna input, and the output of the key is connected to the antenna input m of an additional tuner, while the central processor is connected to the HF key, the main and additional tuners via control channels implemented in software and hardware.

In one of the possible embodiments, the signal amplifier of the main tuner can be built-in and adjustable, with a low self-noise figure and the gain selected so that the value of the signal strength at the output of the additional tuner can be changed to the value of the signal strength at the output of the main tuner.

At the same time, in another embodiment, the controlled HF switch can be made with the possibility of switching the signal supply to the additional tuner from the antenna input of the HF switch or the output of the main tuner, which is carried out in accordance with the control commands generated by the central processor to detect the occurrence the event preset in the memory of the central processor and the corresponding position of the key switch. Moreover, as an event preset in the memory of the central processor, the order of switching the key based on the presence of voltage at the antenna input of the main and / or additional tuner can be set. Whereas, the central processor can be designed to enable cyclic monitoring of the presence of voltage at the antenna inputs of the main and additional tuners.

Additionally, the switch of the controlled HF-key closes the line connecting the HF-key input with the input of the additional tuner in the presence of voltage at the antenna input of the main and additional tuner or only on the additional tuner, providing an independent mode of operation of the tuners and supplying a signal to each of the tuners from the corresponding antenna entrance.

Additionally, the switch of the controlled HF-key closes the line connecting the output of the main tuner with the antenna input of the additional tuner in the presence of voltage only on the main tuner, ensuring the loop operation of the tuners with signal transmission from the main tuner to the additional tuner.

Additionally, in any embodiment, the controllable RF-switch can be made with the possibility of setting the switch position by the central processor in the automatic mode by firmware or by setting the selection of the tuners operation mode in the user interface.

At the same time, the main and additional tuner, HF-key, central processor, communication channels between them can be executed in software and hardware manner and combined into a single module.

Additionally, in the loop mode of tuners operation, the receiver forms a software-hardware receiver-server equipped with at least two tuners based on the main and additional tuners, with the ability to broadcast the antenna signal from the additional tuner over the local network, and the main tuner is made with the provision of the possibility of use only by the receiver-server, and the additional tuner is made with the provision of the possibility of using both the receiver-server and, connected to the receiver-server, an external receiver-client with the possibility of forming a separate receiver using the signal of the additional tuner.

Additionally, when the tuners operate in a loopback mode, the receiver-server, implemented in software and hardware based on the main tuner, is designed to provide full functionality when using the main tuner, including viewing channels, searching for operator channels, as well as the operation of services for providing media content via a satellite channel communication.

Additionally, when tuners are connected in loop mode, the set of functionality of the receiver-server is limited to the operation of services for providing media content via a satellite communication channel when using an additional tuner.

At the same time, in the loop mode of tuners operation, a separate receiver acting as a client receiver using the signal of an additional tuner is made with the possibility of limited functionality if the voltage (polarization) values of the transponder do not match, to which the separate receiver requests switching of the additional tuner with voltage (polarization) transponder, to which the receiver-server switches the main tuner in such a way that, in the channel search mode, the separate receiver has no access when the receiver-server is connected to a transponder with right polarization or channel search, is made with the possibility of skipping right polarization transponders if the receiver is the server is connected to a left-hand polarized transponder.

Additionally, a separate receiver acting as a receiver-client is designed to provide the possibility of full operation in the channel viewing mode when the server-receiver is turned on to a transponder with the same polarization to which the additional tuner is switched, or a message about the absence of a signal is generated if the server-receiver is turned on. to a transponder with a different polarization.

Additionally, a stand-alone receiver acting as a receiver-client is made to provide full functionality in the mode of obtaining metadata from a stream necessary for the operation of applications when the receiver-server and receiver-client are switched on to a transponder with one polarization.

Additionally, a highly isolated key is used as the HF key.

Additionally, the antenna input connector of the additional tuner is located orthogonal to the printed conductor of the RF-key line, with the formation of an insulating space between the central contact of the tuner leg and the printed circuit of the RF-key switch, with additional construction insulation by a shielding metal case.

The claimed technical result is also achieved by using a method for selecting a mode of operation of a two-tuner receiver, according to any of the considered embodiments, including at least the following, sequentially carried out, stages:

- connecting a two-tuner receiver to at least one satellite dish equipped with a converter, the output of which is connected to at least the main tuner of the receiver;

- monitoring the presence of voltage at the input of the main and additional tuners of the receiver by means of the central processor;

- selection of the receiver connection mode by switching the HF key with the implementation of an independent connection mode or loopback;

- broadcasting a satellite channel and or launching service functions in accordance with the selected receiver connection mode.

Additionally, the connection of the receiver to a satellite dish equipped with a converter with one output is carried out with one cable connected only to the main tuner.

Additionally, the connection of the receiver to a satellite dish equipped with a converter with at least two outputs is carried out with two cables connected to the main and additional tuners.

Additionally, at the monitoring stage:

preset in the settings an independent mode of operation of tuners, by switching the HF key to the closed state of the inputs of the key and an additional tuner;

when turning on the receiver and / or when performing a process that requires the resource of an additional tuner, carry out software and hardware, by means of the central processor, interrogation of the main and additional tuners for the presence of a signal at the antenna input of each of them;

they record the presence or absence of a signal at the antenna input of the main and / or additional tuner, according to the presence or absence of voltage on them and its magnitude, and send the information to the central processor for further processing by software and hardware,

one of the preset operating modes of the receiver is set depending on the monitoring result, while the central processor generates and transmits to the HF key a command to move the switch to the position corresponding to the set mode;

the demodulator of each of the tuners redirects the decoded signal to the central processor, which is transmitted via communication channels to the consumer through preset outputs for transmitting content to client devices, including client receivers.

Additionally, if there is voltage at the antenna input of the main and additional tuner or only the additional tuner, the central processor generates and transmits to the HF-key a command to switch the switch into the closed state of the key and additional tuner inputs, and start an independent mode of operation of the tuners.

Additionally, if there is voltage at the antenna input only at the main tuner, the central processor generates and transmits to the HF-key a command to the key to switch the switch to the closed state of the main tuner output with the input of the additional tuner and start the loop mode of the tuners, while the signal from the main tuner is transmitted to an additional tuner.

Additionally, the receiver-server, implemented in software and hardware based on the main tuner in the loopback mode of tuners operation, provides full functionality pre-installed in software and hardware when using the main tuner, providing the ability to view channels and operate services for providing media content via a satellite communication channel ...

Additionally, when two tuners are connected in loop mode, the use of the receiver-server is limited when using an additional tuner, with the provision of the possibility of operating services for providing media content via a satellite communication channel.

Additionally, when connecting the main and additional tuners in loop mode, the operation of the receiver based on an additional tuner acting as a receiver-client is limited if the polarization of the transponder of the receiver-client does not match with the polarization of the transponder of the receiver-server, with the provision of the possibility of performing the refusal in the channel search mode of the operator in access when the server receiver is connected to a transponder with right polarization or when it is skipped with right polarization transponders, if the server receiver is connected to a transponder with left polarization; viewing channels in full operation mode when the server-receiver is switched on to a transponder with the same polarization or the formation and display of an error notification indicating the absence of a signal on the screen of the user device, if the server-receiver is switched on to a transponder with a different polarization, while access to the receiving mode metadata from the stream required for the operation of the application is provided when the receiver-server is turned on to a transponder with the same polarization.

Obviously, both the previous general description and the following detailed description are given by way of example and explanation only and are not limitations of the claimed group of inventions.

Brief Description of Drawings

FIG. 1 is a schematic representation of a method for connecting a two-tuner receiver to a satellite dish: a) by means of a satellite dish equipped with a converter with one output connected to the main tuner; b) by means of a satellite dish equipped with a converter with two or more outputs connected to the main and additional tuners.

FIG. 2 is a generalized block diagram of a receiver.

FIG. 3 is a schematic representation of the position of the HF key switch in different operating modes of the receiver: a) independent; b) loopback.

FIG. 4 is a block diagram of a process for monitoring and determining the mode of operation of the tuners.

Implementation of the invention

The invention relates to the field of receiving equipment for a satellite signal (receivers) equipped with two tuners: a main and an additional tuner. At the same time, the main tuner is used directly by the receiver itself (forming the receiver-server), the additional tuner can be used both by devices that are connected to the receiver via a local network and do not have their own physical tuner (for example, a receiver-client), and by the receiver itself for operation some services for the provision of media content via a satellite communication channel (for example, broadcast recording, broadcast suspension / pause control, content download).

According to the claimed invention (Fig. 1), a two-tuner receiver can be connected to a satellite broadcasting system in the following ways:

By means of a satellite dish equipped with a converter with one output, that is, one cable connected only to the main tuner (Fig. 1a).

This connection method is the most common among users of satellite receiving equipment.

By means of a satellite dish equipped with a converter with two or more outputs, that is, two cables connected to the main and additional tuners (Fig. 1b).

For the development of services for the provision of media content, implemented in the software (software) of the receiver, and the distribution of devices connected to a two-tuner receiver, there is a need to use resources in full, including in relation to the most common scheme for connecting a receiver to a satellite dish (Fig. 1a ). As a result, it allows solving the problem of satellite signal propagation with one cable connected to each of the receiver's tuners.

Possible alternative solutions to the problem:

Without increasing the cost of the very design of the receiver - the use of a splitter (an external device that is a divider of the satellite signal).

Equipping the receiver with two tuners, each of which has both an antenna input and an antenna output, while external connection is carried out: cable connection of the antenna output of the main tuner and the antenna input of the additional tuner.

According to the claimed group of inventions presented in the present description, the receiver, in addition to other components, is equipped with two tuners, each of which has one antenna input, while the organization of the method of their connection and design features provide the implementation of functionality that allows the signal from the antenna input extend the main tuner to the input of the additional tuner without additional external devices and costs for the user.

In accordance with the diagram shown in FIG. 2, the two-tuner receiver, according to the claimed solution of the invention, is at least equipped with the main 1 and additional 2 tuners, each of which is equipped with at least a demodulator and an antenna input (3 - antenna input of the main tuner and 4 - antenna input of an additional tuner, respectively ) and is connected by software and hardware via feedback lines to the central control processor 5, equipped with outputs 6 of content transmission lines to client devices. Moreover, the main and additional tuners are interconnected by means of the RF-key 7 implemented in software and hardware, one input of which is connected to the output of the main tuner, and the second is equipped with an antenna input. In this case, the key output is connected to the antenna input of the additional tuner, and the central processor is connected to the HF key, the main and additional tuners by control channels implemented in software and hardware.

To reduce HF interference, the output of the main tuner is additionally equipped with a signal amplifier 8 installed along the commutation line with the input of the additional tuner. The problem of RF losses arises due to losses on the elements of the RF-switch strapping (since the useful signal of a high frequency, up to 2 GHz), as well as due to losses on the signal branching along the path from the output of the main tuner to the RF switch. This leads to the fact that the signal at the input of the additional tuner has a lower level than the signal at the input of the main tuner when the tuners operate in loop mode. Thus, with a cutoff signal on the main tuner, the signal on the sub tuner will start to disappear. Equipping the main tuner with an amplifier solves the above problem.

In the practical implementation of the claimed receiver solution, the problem of RF losses on the PCB path was solved by installing the main tuner with a low noise figure at the output connected to the RF switch, as well as by integrating an amplifier into the main tuner (with a gain from 0 dbm to +6 dbm). When the central processor receives the value of the signal level at the output of the additional tuner, it sets the gain value on the amplifier of the main tuner to change the value of the signal strength on the additional tuner to the value of the signal strength at the output of the main tuner. Additionally, in the circuit, which includes the output of the main tuner, the input of the auxiliary and the HF-switch, an additional matching circuit of the amplifier output and the RF-switch input is used to improve the S-parameters of the system.

Since, in the general case, the system considered in the framework of the claimed invention is high-frequency (1-2 GHz), at short distances a spurious signal can be induced through an isolated space. The most unstable element to this kind of interference in the claimed solution of the invention is the HF switch, since isolated switched lines on a printed circuit board are in a fraction of a millimeter apart. The problem of cross-interference, for example, is relevant when connecting the antenna cable of a satellite dish to the antenna input of an additional tuner in the loop on mode. In this case, even the disconnected antenna input of the auxiliary tuner serves as a source of interference for the auxiliary tuner itself, as well as for the main tuner through the loopback node. According to the claimed invention, the problem of crosstalk (cross-interference) can be solved by using an RF switch with a high degree of isolation (up to 70 dB, for example, the F2970 switch, IDT company), as well as by optimizing the routing of the receiver board, which consists in orthogonality of mounting the antenna input connector of the additional tuner and a printed conductor and placing the entire structure in a shielding metal case. In addition, the use of a high-precision printed circuit board creates a thin insulating isthmus between the center contact of the output electronics of the additional tuner and the printed circuit of the RF switch, which also contributes to increased isolation and reduced crosstalk.

Thus, according to the claimed solution, the functionality of the receiver of the digital satellite broadcasting system is expanded while simultaneously reducing the level of RF losses and the influence of cross-interference in the receiver, which ultimately provides an increase in the quality of reception of the satellite broadcasting signal.

According to the approved solution of the invention, the tuners support two modes of operation:

independent - the signal is supplied to each of the tuners independently from the corresponding antenna input;

loopback - the signal to the additional tuner is distributed from the input of the main tuner through the HF switch (branching the input antenna signal into two sources).

The tuner loop function is implemented through hardware and software, by the central processor launching procedures for selecting and setting the tuner mode in automatic mode, or by selecting appropriate actions using the user interface and preset or controlled settings for the operation of the receiver, stored and processed by the processor.

By means of the above hardware solution, a function is implemented that allows the signal from the main tuner to be distributed to the additional tuner, as follows:

- an RF switch is formed at the input of the additional tuner, which switches the signal supply to the additional tuner directly from the antenna input of the RF switch (position I in Fig. 3a), or from the output of the main tuner (position II, Fig. 3b).

Thus, depending on the position of the key, the receiver implements two modes of operation of the tuners:

independent - the signal to each of the tuners is fed from the corresponding input;

loopback - the signal to the additional tuner is transmitted from the output of the main tuner.

Loop mode of operation of tuners allows the signal from the main tuner 1 to be distributed to the additional tuner 2, Fig. 2). In the operation of this function, two components are of decisive importance: the main tuner 1 and the HF switch 7 of Fig. 2), the tuning of these components is carried out by the central processor. At the same time, the determination of the mode of operation of the tuners can be carried out by means of the LNBP driver software.

The procedure for determining the operating mode of the tuners is to sequentially check (monitor) the voltage (signal presence) at the antenna input of each of the tuners. Depending on the result of the checks, the corresponding tuner operating mode is set:

In the presence of voltage only at the antenna input of the main tuner - loopback.

In the presence of voltage at the antenna input of each tuner - independent.

In the presence of voltage only on the additional tuner - independent.

In order to avoid receiving false results of polling by the central processor of the antenna inputs of the tuners, the voltage presence at the antenna inputs of the tuners is checked constantly (cyclically) under the following conditions:

Voltage is present at at least one of the antenna outputs of the tuners;

A process is underway that requires the resource of an additional tuner for operation.

The received data is transmitted to the central processor, where it is processed by software and hardware with the generation of subsequent control commands to the HF key to move the key switch to the position corresponding to the preset operating mode of the receiver tuners for subsequent resource allocation.

In the diagram of FIG. 2, dashed lines represent control channels through which the central processor sequentially tunes and prepares the main units / components to determine the mode of operation of the tuners:

main tuner;

key.

When setting up the main tuner, in addition to the parameters for working with the HF signal, the main tuner receives the gain level at the output of the main tuner connected to the HF switch to equalize the signal strength values of the main and additional tuners for the loop mode of tuners operation. When tuning the HF key , the setting of its position is transmitted.

The position of the key determines the mode of operation of the tuners, in fact, by determining the signal source for the additional tuner:

position I in the diagram of Fig. 3a) with independent operation of the tuners (the signal to the main and additional tuners is transmitted from the corresponding antenna input, (in the diagram, for an additional tuner, from the antenna input of the key to the antenna input of the additional tuner));

position II in the diagram of FIG. 3b in the loop mode of tuners operation (the signal to the additional tuner is distributed from the main tuner output).

Automatic detection of the tuner operating mode can be carried out by means of the tuner driver software. A diagram and description of the process for determining the operating mode is shown in the image of Fig. 4.

As follows from the above diagram of Fig. 4, at the stage of connecting the receiver to the antenna, an independent mode of operation of the tuners is set by default.

When the receiver is turned on and / or during a process that requires the resource of an additional tuner, the central processor polls the main tuner via the LNBP for the presence of voltage at the corresponding antenna input (signal presence). In parallel with polling the main tuner, an additional tuner is polled.

If there is a signal on the main and additional tuners or only on the additional tuner, this information is transmitted to the central processor, where it is processed and, based on the preset settings, the central processor generates and transmits to the HF key a control command (signal) to switch the key to position I, i.e. e. the key switch closes the key input with the additional tuner input (independent tuner operation mode).

If there is a signal only on the main tuner, the central processor generates and transmits to the HF-key a control command to switch the key to position II, when the switch closes the output of the main tuner with the input of the additional tuner, thus activating the "loop" output and the signal from the main tuner to an additional tuner.

The demodulator of each of the tuners redirects the decoded signal to the central processor, which is subsequently transmitted to the client devices via the local network: Ethernet / LAN or Wi-Fi (depending on the client device connection method), the outputs of which are connected to the central processor output.

The determination of the tuner's operating mode can also be carried out by means of a setting in the user interface, which determines the operating mode of the tuners, in fact, determines the position of the HF switch.

With a loopback connection, the loss of signal power is minimized due to the amplification at the output of the main tuner connected to the HF switch: the values of the signal strength and quality for each tuner are identical.

Thus, in addition, the presence of a hardware connection between the main tuner output and the additional tuner input by supplying additional power when connected independently can be used to amplify the signal or reduce noise on the additional tuner.

Since satellite broadcasting assumes the simultaneous presence of incompatible parameters, in particular, the presence of right and left polarizations with the corresponding voltage: with right polarization - 13 V, with left polarization - 18 V, the allocation of resources for an independent mode of operation of tuners is carried out for each tuner separately, i.e. .To. each of the tuners is independent and will not be able to switch the signal of the other tuner by supplying incompatible parameters (voltage of a higher value).

When the tuners operate in a loop mode, it is required to implement resource allocation, taking into account the likelihood of the simultaneous presence of incompatible parameter values, in particular, polarization, since Any of the processes that can control the tuner's resource, when switching to a left-polarized transponder, can interrupt a process of higher priority from the point of view of the software, using a signal from a right-polarized transponder.

If the additional logic of resource allocation is not implemented in the loop mode of tuners operation, all conflicts in the presence of a signal will be resolved depending on the fact of switching to a transponder with left polarization.

The following description of the logic of resource allocation in the loop mode of tuners operation is given in the context of receivers operating in a "client-server" link and resolving conflicts on the presence of a signal with incompatible parameters using the example of polarization. In the "client-server" link, the receiver-server is a two-tuner receiver that implements the transfer of content over the local network to connected devices, and the receiver-client is a separate receiver that uses the signal of an additional tuner, which is a special case of a connected device that does not have its own physical tuner and implements receiving content from the receiver-server over the local network. In the client-server solution, the resource of the main tuner is used only by the receiver-server, the resource of the additional tuner is mainly used by the receiver-client and, additionally, the receiver-server.

When the tuners operate in a loop-back mode, the functioning of the receiver-server is fully preserved when using the resource of the main tuner.

In the loop mode of tuners operation, the operation of the receiver-server is carried out in a limited mode when using the resource of an additional tuner. That is, the signal on the additional tuner will be present only if the polarization on the main tuner coincides.

When tuners operate in a loopback mode, the functioning of an isolated receiver, as a client receiver, is carried out in a limited mode, i.e. there will be no signal for the client receiver when the server receiver switches the main tuner to a transponder whose polarization does not match the transponder to which the additional tuner is switched by the client receiver. The following examples describe the behavior on the client-receiver depending on the process being performed:

search for satellite channels, which consists in switching over all transponders specified in the transport stream:

cannot be performed if the main tuner is switched by the server receiver to a transponder with right polarization (which is different from the polarization of the basic transponder);

will be performed with skipping transponders of right polarization, if the main tuner is switched by the receiver-server to a transponder with left polarization (which coincides with the polarization of the base transponder);

viewing channels

works without restrictions if the main tuner is switched by the receiver-server to a transponder with the same polarization;

display of an error about the absence of a signal, if the main tuner is switched by the receiver-server to a transponder with a different polarization.

receiving data from the stream necessary for the operation of services for providing media content can be carried out only if the main tuner is switched by the receiver-server to a transponder with the same polarization.

When two tuners are connected through a splitter and an independent tuner operation mode, as described above, all conflicts in the presence of a signal are resolved depending on the fact of switching to a transponder with left polarization.

That is, any of the software processes that can control the tuner's resource, when switching to a transponder with left polarization, can interrupt a process of higher priority from the point of view of software that uses the signal of the transponder with right polarization.

Thus, the claimed solution of the receiver of the digital satellite broadcasting system and the method for selecting the mode of its operation works as follows.

The satellite dish is connected to one or both tuners. For this, the cable of the satellite converter is connected to the corresponding antenna input of the receiver tuner. The central processor automatically or by selecting the appropriate command in the settings or via the interface transmits a command to the HF-key to set the independent tuner mode and initiates monitoring of the presence of voltage at the input of the main and additional tuners of the receiver. For each of the tuners, via LNBP, a bit of information is sent to the central processor about the presence of voltage at the corresponding input (when 13V or 18V is supplied). The central processor, according to the rules preset in the memory, selects the tuner connection mode corresponding to the received data on the presence of voltage at their antenna inputs and generates a control command to the HF switch to move its switch to the position corresponding to the selected tuner mode of operation: independent or loopback. At the same time, when the loop mode is established, it monitors the signal (voltage) level on the tuners, generating, when the voltage on the additional tuner decreases, control commands to adjust the signal amplifier and equalize the voltage on the tuners. In accordance with the selected mode of operation of the tuners, a satellite channel is broadcast and or service functions are launched. At the same time, in the loop mode of operation of the tuners, the receiver contains a hardware-software receiver-server equipped with both tuners, with the ability to broadcast the antenna signal from the additional tuner, and the main tuner is designed to be used only by the receiver-server, and the additional tuner is made with the provision of the possibility of using both the receiver-server and, connected to the receiver-server, an external receiver-client with the possibility of forming a separate receiver using the signal of an additional tuner. Since in the "client-server" link, the resource of the main tuner is used only by the receiver-server, which is a two-tuner receiver, and the resource of the additional tuner is used both by the receiver-client and the receiver-server, the functionality of the receiver is increased, which makes it possible to fully use the resources of the additional tuner even in the absence of its direct connection to a satellite dish.

In the absence of a physical connection of an additional tuner, it can be used to carry out any type of processes planned on the receiver (recording, updating channels, obtaining system information, updating), provided that the transponder is of the same polarization as the physically connected main tuner. At the same time, the function of independent streaming from an additional tuner with such a connection can be carried out, but with limitation of the transition between channels of the same polarization as the signal on the physically connected tuner. In addition, the resource of an additional tuner with such a connection can also be used to cache the stream of adjacent channels of the same transponder, thereby speeding up the process of switching between channels of the same polarization. A similar procedure for the operation of the receiver is carried out in the case of connecting both tuners through a signal divider and a negative result of checking the possibility of simultaneously receiving a signal from two different frequencies of different polarization.

Although this invention has been shown and described with reference to certain embodiments thereof, those skilled in the art will appreciate that various changes and modifications may be made therein without departing from the actual scope of the invention.

Thus, the set of essential features characterizing the claimed group of inventions provides an increase in the quality of reception of a satellite broadcasting signal, including by reducing the level of RF losses and the effect of cross-interference in the receiver, while significantly expanding the functionality of a two-tuner receiver.

Claims (33)

1. A receiver of a digital satellite broadcasting system, at least equipped with a main and additional tuners, each of which is equipped with at least a demodulator and an antenna input for connecting a cable to a corresponding satellite antenna converter and is connected in software and hardware via feedback lines, according to at least with a central control processor equipped with outputs of communication lines of services of end user devices, moreover, the antenna input of the additional tuner is isolated, and the output of the main tuner is additionally equipped with a signal amplifier installed along the commutation line with the input of the additional tuner, while the main and additional tuners are connected each other by means of a software and hardware controlled HF key, one input of which is connected to the output of the main tuner, the second input is equipped with an antenna input, and the output of the key is connected to the antenna input of the additional tuner, while the central pro the processor is connected to the high-frequency key, the main and additional tuners via control channels implemented in software and hardware. 2. The receiver according to claim 1, characterized in that the signal amplifier of the main tuner is built-in and adjustable, with a low self-noise figure and a gain selected so that the value of the signal strength at the output of the additional tuner can be changed to the value of the signal strength at the output of the main tuner ... 3. The receiver according to claim 1, characterized in that the controlled HF switch is made to enable the central processor to switch the signal supply to the additional tuner from the antenna input of the HF switch or the output of the main tuner, carried out in accordance with the control commands generated by the central processor upon detecting the occurrence of an event preset in the memory of the central processor and the corresponding position of the key switch. 4. Receiver according to claim 3, characterized in that the key switching order is set as an event preset in the memory of the central processor by the presence of voltage at the antenna input of the main and / or additional tuner. 5. Receiver according to claim 4, characterized in that the central processor is designed to enable cyclic monitoring of the presence of voltage at the antenna inputs of the main and additional tuners. 6. The receiver according to claim 5, characterized in that the switch of the controlled HF-key closes the line connecting the input of the HF-key with the input of the additional tuner in the presence of voltage at the antenna input of the main and additional tuners or only on the additional tuner, ensuring the independent operation of the tuners and supplying a signal to each of the tuners from the corresponding antenna input. 7. The receiver according to claim 5, characterized in that the switch of the controlled HF-key closes the line connecting the output of the main tuner with the antenna input of the additional tuner in the presence of voltage only on the main tuner, providing a loop mode of operation of the tuners with signal transmission from the main tuner to the additional tuner ... 8. Receiver according to any one of claims 1 to 7, characterized in that the controlled HF switch is made with the possibility of setting the switch position by the central processor in the automatic mode by software and hardware or by setting the selection of the tuners operation mode in the user interface. 9. Receiver according to claim 8, characterized in that the main and additional tuner, RF-key, central processor, communication channels between them are executed in software and hardware manner and are combined into a single module. 10. Receiver according to claim 9, characterized in that, in the loop mode of operation of the tuners, it forms a software and hardware receiver-server equipped with at least two tuners based on the main and additional tuners, with the ability to broadcast the antenna signal from the additional tuner over a local network, and the main tuner is made to be able to be used only by the receiver-server, and the additional tuner is made to be able to be used both by the receiver-server and an external receiver-client connected to the receiver-server, with the possibility of forming a separate receiver using additional tuner signal. 11. The receiver according to claim 10, characterized in that, in the loop mode of tuners operation, the receiver-server, implemented in software and hardware on the basis of the main tuner, is designed to provide full functionality when using the main tuner, including viewing channels, searching for operator channels , as well as the operation of services for the provision of media content via a satellite communication channel. 12. Receiver according to claim 10, characterized in that when tuners are connected in loop mode, the set of functionality of the receiver-server is limited to the operation of services for providing media content via a satellite communication channel when using an additional tuner. 13. The receiver according to claim 10, characterized in that in the loop mode of operation of the tuners, a separate receiver acting as a receiver-client using the signal of an additional tuner is made with the possibility of limited functionality in case of a mismatch in the voltage (polarization) values of the transponder, to which the separate receiver requests switching of the additional tuner with the voltage (polarization) of the transponder, to which the receiver-server switches the main tuner in such a way that in the channel search mode the separate receiver does not have access when the receiver-server is connected to a transponder with right polarization or the channel search is performed with the possibility of skipping transponders of right polarization, if the receiver-server is connected to a transponder with left polarization. 14. The receiver according to claim 13, characterized in that the separate receiver acting as a receiver-client is made to provide the possibility of full operation in the channel viewing mode when the server receiver is turned on to a transponder with the same polarization to which the additional tuner is switched, or no signal messages if the server receiver is connected to a transponder with a different polarization. 15. Receiver according to claim 13, characterized in that a separate receiver, acting as a receiver-client, is made with the possibility of full functionality in the mode of obtaining metadata from the stream necessary for the operation of applications when the receiver-server and the receiver-client are switched on to the transponder with one polarization. 16. Receiver according to claim 9, characterized in that a key with a high degree of isolation is used as the HF key. 17. Receiver according to claim 16, characterized in that the antenna input connector of the additional tuner is located orthogonal to the printed conductor of the RF-key line, with the formation of an insulating space between the central contact of the tuner leg and the printed circuit of the RF-key switch, with additional construction insulation by a shielding metal case ... 18. A method for selecting a mode of operation of a two-tuner receiver according to claims 1-17, including at least the following, sequentially carried out, stages: - connecting a two-tuner receiver to at least one satellite dish equipped with a converter, the output of which is connected to at least the main tuner of the receiver; - monitoring the presence of voltage at the input of the main and additional tuners of the receiver by means of the central processor; - selection of the receiver connection mode by switching the HF key with the implementation of an independent connection mode or loopback; - broadcasting a satellite channel and or launching service functions in accordance with the selected receiver connection mode. 19. The method according to claim 18, characterized in that at the monitoring stage: - preset in the settings an independent mode of operation of tuners by switching the HF-key to the closed state of the inputs of the key and the additional tuner; - when the receiver is turned on and / or when the process requires the resource of an additional tuner, the main and additional tuners are interrogated in software and hardware manner by the central processor for the presence of a signal at the antenna input of each of them; - fix the presence or absence of a signal at the antenna input of the main and / or additional tuner, according to the presence or absence of voltage on them and its value, and send the information to the central processor for further processing by software and hardware, - one of the preset operating modes of the receiver is set depending on the monitoring result, while the central processor generates and transmits to the HF key a command to move the switch to the position corresponding to the set mode; - the demodulator of each of the tuners redirects the decoded signal to the central processor, which is transmitted via communication channels to the consumer through preset outputs for transmitting content to client devices, including client receivers. 20. The method according to claim 19, characterized in that in the presence of voltage at the antenna input of the main and additional tuner or only the additional tuner, the central processor generates and transmits to the HF-key a command to transfer the switch to the closed state of the inputs of the key and an additional tuner and start an independent mode of operation of tuners. 21. The method according to claim 19, characterized in that in the presence of voltage at the antenna input only at the main tuner, the central processor generates and transmits to the HF key a command to the key to transfer the switch to the closed state of the main tuner output with the input of the additional tuner and start the loop mode tuners, while the signal from the main tuner is transmitted to the additional tuner. 22. The method according to claim 21, characterized in that the receiver-server, implemented in software and hardware based on the main tuner in the loopback mode of tuners, provides full functionality preset in the software and hardware, when using the main tuner, with the possibility of implementing viewing channels and the operation of services for the provision of media content via a satellite communication channel. 23. The method according to claim 21, characterized in that when two tuners are connected in the loopback mode, the use of the receiver-server is limited when using an additional tuner, with the provision of the possibility of operating services for providing media content via a satellite communication channel. 24. The method according to claim 21, characterized in that when connecting the main and additional tuners in loop mode, the operation of the receiver based on an additional tuner acting as a client receiver is limited if the polarization of the transponder of the receiver-client does not match with the polarization of the transponder of the receiver-server, with ensuring the possibility of denial of access in the operator's channel search mode when the server-receiver is switched on to a transponder with right polarization or when it is carried out by skipping right-polarized transponders, if the server-receiver is switched on to a left-polarized transponder; viewing channels in full operation mode when the server-receiver is switched on to a transponder with the same polarization or the formation and display of an error notification indicating the absence of a signal on the screen of the user device, if the server-receiver is switched on to a transponder with a different polarization, while access to the mode obtaining metadata from the stream necessary for the operation of services for providing media content via a satellite communication channel is provided when the receiver-server is turned on to a transponder with the same polarization.

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