FR2938394A1 - Digital TV signal receiver, has demodulation and decoding module to demodulate and decode digital TV signals according to user commands, and user command processing circuit to partially filter user commands from remote control - Google Patents

Abstract

The receiver has a demodulation and decoding module (10) to demodulate and decode digital TV signals according to user commands, and a user interface to receive and transmit the user commands to the module. The user interface includes a power supply circuit (12) to supply voltage to the module in response to a power supply command, and to supply power to the user interface. The user interface includes a user command processing circuit (14) to partially filter the user commands from a remote control (11) and to generate power supply commands based on the user commands.

Description

The present invention relates to a digital television receiver. Conventionally, such a receiver comprises a demodulation and decoding module for demodulating and decoding digital television signals according to user commands, a user interface for receiving the user commands and transmitting them to the demodulation and decoding module, said user interface comprising at least one remote control, and a power supply circuit for supplying voltage to said demodulation and decoding module in response to a power control and powering said user interface. The decoded signals are provided to a display device connected to the output of the receiver.

The user interface optionally includes, in addition to the remote control, function keys placed on the front of the receiver. These function keys are connected by a wired connection to the demodulation and decoding module and the remote control communicates by radio signals or infrared signals with the demodulation and decoding module. The demodulation and decoding module generates, according to the user commands, a decoded signal to a display device connected to the output of the receiver. This module generally manages the operation of the power supply. Three power modes are possible: an on mode in which the demodulation and decoding module and the user interface are supplied with voltage, a standby mode in which only the user interface is powered and an off mode in which the module demodulation and decoding and the user interface are not powered. Standby mode aims to reduce the energy consumption of the receiver when

2 it is not in operation. The sleep mode is triggered when the user presses the stop button on the remote control or when the demodulation and decoding module has not received a control signal from the user interface for a predetermined duration D. In both cases, the demodulation and decoding module transmits a power interruption command to the power supply so that the latter stops feeding the demodulation module and the decoding block. Once the receiver is in standby mode, the user can no longer use his remote control to return to the on mode since the demodulation and decoding module is not powered. The only way to return to the on mode is to move to the receiver to press the power supply on / off button.

An object of the invention is to overcome the aforementioned drawback. According to the invention, the user interface comprises means for communicating directly with the power supply unit and managing the power supply of the receiver without going through the demodulation and decoding module. To this end, the invention relates to a receiver for digital television signals, comprising: a demodulation and decoding module for demodulating and decoding digital television signals according to user commands; a user interface for receiving said user commands and transmitting to the demodulation and decoding module, said user interface comprising at least one remote control, and

A power supply circuit for supplying voltage to said demodulation and decoding module in response to a power supply command, and supplying said user interface, characterized in that the user interface comprises a user command processing circuit suitable for at least partially filter the user commands from said remote control and generate, according to said user commands, said power control. Thus, the user interface can directly control the power supply circuit without going through the demodulation and decoding module. According to a particular embodiment, the demodulation and decoding module is also able to generate the supply control when it is supplied with voltage. In this embodiment, the power control can thus be transmitted either by the demodulation and decoding module, or by the user interface. According to an advantageous embodiment, the user command processing circuit generates the power control only when the demodulation and decoding module is not powered. Thus, the power supply circuit is controlled directly by the user interface only when the receiver is in standby mode. In another feature of the invention, the user command processing circuit generates the power control only if the user command from the remote control belongs to a predetermined user command group. For example, if the user command is a start command and the demodulation and

4 decoding is not supplied with voltage, the user control processing circuit generates the power command for the power supply to power the demodulation and decoding module and the receiver to go from standby mode to alight. According to another particular embodiment, the receiver further comprises a multimedia port, such as an HDMI port, for receiving a status signal representative of the state, on or off, of an external device connected to said port, said multimedia port being connected to said processing block, and said processing block is adapted to generate the power control when said external equipment is in a lit state. The receiver then switches back to the on mode when the external equipment, for example the television, connected to the receiver is turned on.

The invention will be better understood, and other objects, details, features and advantages will appear more clearly in the following detailed explanatory description of two particular embodiments of the invention, with reference to the appended figures, among which: FIG. 1 shows the block diagram of a receiver according to a first embodiment of the invention; FIG. 2 is a flow diagram illustrating the exchanges of control signals between the components of the receiver of FIG. 1; and FIG. 3 is a block diagram of a receiver according to a second embodiment of the invention.

Fig. 1 is a block diagram of a digital signal receiver according to the invention. This receiver is in the form of a box 1 provided with a remote control adapted to transmit user commands to the box. The contents of the box can possibly be integrated in a digital television. The box 1 is intended to be connected between a reception antenna 2 and a display device such as a television set 3. The antenna 2 is a satellite or terrestrial reception antenna (radio antenna). The antenna 2 captures digital television signals transmitted by satellite or radio and the receiver transforms them into signals usable by the television 3. The television signals can also be provided by a wired network. The receiver mainly comprises a demodulation and decoding circuit 10 able to demodulate the television signals received by the receiver and to decode them as a function of user commands, a user interface comprising a remote control 11 and function keys 12 advantageously placed on the receiver. front panel of the box for generating user commands and a supply circuit 13 for supplying voltage to at least the demodulation and decoding module 10. The operation of the demodulation and decoding module is known per se and will not be described more in detail. The power supply unit 13 comprises an AC / DC converter, 13a, for converting the AC voltage signal of the sector into a DC voltage signal and a supply switch 13b for supplying or not the DC voltage signal to the demodulation module. and decoding according to a power control from the user interface or the demodulation and decoding module. In the figure, Cl designates the power control generated by the user interface and C2 designates the power control generated by the power module.

Demodulation and decoding 10. The power control is for controlling the power switch 13b to power the demodulation and decoding module. The module 10 is also able to deliver a power interruption command (not shown) to the power switch 13b to enter sleep mode. According to the invention, the user interface comprises a user command processing circuit 14 able to at least partially filter the user commands from the remote control 11 and the function keys 12 and to generate the power control Cl. particular embodiment, the circuit 14 does not filter the user commands and generates, if necessary, a supply control only when the module 10 is not supplied with voltage. When the module 10 is supplied with voltage, the circuit transmits, as is, the user commands from the remote control or the function keys without filtering them. On the other hand, if the module 10 is not supplied with voltage and if the user command belongs to a predetermined group of user commands, for example a group G comprising the start command ON and the program change commands P + and P-, the circuit 14 generates a power command and transmits it to the power supply circuit 13 and then transmits a predetermined duration D said user command. The duration D corresponds at least to the duration of startup or initialization of the module 10. The content of the user command group triggering the generation of a power command by the circuit 14 is programmed in this circuit and can optionally be updated by module 10 before going into sleep mode.

FIG. 2 illustrates an operating sequence of the receiver of FIG. 1. At the beginning of the sequence, the module 10 is supplied with voltage. The user presses the Stop button on the remote control. This command is transmitted without filtering by the circuit 14 to the module 10 and the module 10 sends a power interruption command to the power switch 13b. The module 10 is no longer powered and the receiver is then in standby mode.

If the user sends a user command that does not belong to the group G, this command is filtered by the circuit 14. For example, if the user presses the Vol + or Vol- key corresponding to a volume change command and that this command does not belong to the predetermined group, this command is filtered. Then when the user presses a key corresponding to a user command belonging to the predetermined group, for example the key Matche, P + or P-, the circuit transmits the power control C1 to the power switch 13b so that it feeds the module 10 and then transmits, once the module 10 is reset, the user command. According to another embodiment illustrated in FIG. 3, the receiver comprises, in addition to the elements of FIG. 1, a multimedia port 15, for example an HDMI (for High Definition Multimedia Interface in English) or DVI (for Digital) port. Video Interface), to receive a status signal representative of the status, on or off, of an external device connected to this port. In the case of an HDMI port, this status signal is for example the CEC signal. In the example of Figure 3, the display device 3 is connected to the module 10 via this port. This port transmits the status signal to the circuit 14. If the receiver is in sleep mode (module 10 not powered) and the status signal indicates that the display device is on, the circuit 14

8 generates a power supply C1 and transmits it to the power supply circuit 13 to wake up the receiver.

Although the invention has been described in connection with various particular embodiments, it is obvious that it is not limited thereto and that it comprises all the technical equivalents of the means described and their combinations if they are within the scope of the invention.

Claims (5)

REVENDICATIONS1. A digital television signal receiver, comprising: - a demodulation and decoding module (10) for demodulating and decoding digital television signals according to user commands a user interface for receiving said user commands and transmitting them to the demodulation module and decoding device, said user interface comprising at least one remote control (11), and - a power supply circuit (12) for supplying voltage to said demodulation and decoding module in response to a power supply command, and supplying said user interface , characterized in that the user interface comprises a user command processing circuit (14) adapted to at least partially filter the user commands from said remote control (11) and to generate, according to said user commands, said command of food. 2. Receiver according to claim 1, characterized in that the demodulation and decoding module (10) is adapted to generate said power control when it is supplied with voltage. 3. Receiver according to claim 2, characterized in that the user command processing circuit (14) is able to generate said power control only when the demodulation and decoding module is not powered. 10 A receiver according to any one of claims 1 to 3, characterized in that the user command processing circuit (14) generates said power control if the user command from the remote control belongs to a predetermined user command group. . 5. Receiver according to any one of the preceding claims, characterized in that it further comprises a multimedia port (15), such as an HDMI port, for receiving a state signal representative of the state, on or off, an external equipment connected to said port, said multimedia port being connected to said user command processing circuit, and in that said user command processing circuit generates the power control when said external equipment is in a turned on state .20