DE4320271A1 - Satellite broadcast antenna reception condition indicator - has microcomputer for operational control and automatic voltage amplifying control detector - Google Patents

Abstract

The detector for the automatic amplifying control (AVR) voltage from a received satellite broadcast signal has an operational control microcomputer (30) for control of an antenna reception indicator (40). The latter has also an interface (20) for the reception and transmission of the AVR voltage from the detector to the microcomputer. The indicator of the reception conditions of the antenna operates in conjunction with a control signal from the microcomputer, corresp. to the detected AVR voltage level. The indicator pref. has a key (50) for the selection of the adjustment mode, which transmits a key signal for the selection of an antenna adjustment mode to the microcomputer. The AVR detector may have an AVR filter for obtaining the AVR voltage from the satellite broadcast signal. USE/ADVANTAGE - For parabolic antenna with on-screen display. No need for separate measuring instruments. Directional information for antenna alignment and better image quality.

Description

The present invention relates to an antenna for the Receiving a satellite broadcast signal, and in particular a device and a method for the display the reception condition of a satellite broadcast signal a display device or by OSD (on-screen display = Display on the screen), which makes it easier for the user enables an antenna to be made in a simple manner judge or adjust that the best possible emp catch condition results.

In order to receive a satellite broadcast signal, in all used a parabolic antenna that fits exactly into the Direction of a satellite should be aimed at to achieve the best possible reception condition. In the recent times are used for setting the orientation in usually used motorized antennas. Here a user operates one installed on the antenna Motor to turn the antenna and thereby simply the Adjust the alignment of the antenna.

The gain of the input signal according to the off Direction of an antenna is almost proportional to the level of the Automatic gain control voltage (AVR span voltage) in the frequency-demodulated signal or an input signal. Conventionally, by measuring the level of AVR voltage with a measuring instrument such as one Voltmeter or a voltage tester the alignment of the Antenna can be set so that the maximum reception efficiency is achieved.  

One problem, however, is that the user cannot use the Emp must watch the start screen for satellite broadcasting adjust the orientation of the antenna so that it is too is difficult to get an antenna with the best possible reception align condition. In addition, a separate measurement instrument for checking the AVR voltage such as B. a Voltage tester must be installed. Hence the hiring usually left to technical experts by antennas.

Japanese Patent Laid-Open No. Hei 1-274593 (disclosed November 2, 1989) describes a device device, the image quality of a satellite broadcast receiver indicates by detecting the noise component frequency-demodulated signal from satellite broadcasting signal and use of the level of the detected noise component. That is, the above device for displaying the Image quality detects the noise component, amplifies the level of the share and then shows the increased out at the level of a satellite broadcast video signal the screen, for example a cathode ray tube, is superimposed.

However, the above device is for display only the image quality is designed so that a user does not click simple way of aligning the antenna to achieve the can set the best possible reception condition. About that furthermore, it does not include the concept of displaying the Receiving condition of an antenna by detecting the AVR Voltage from a demodulated satellite broadcast signal and transmitting the sensed voltage to a micro computer as a digital signal.  

The present invention has been made to accomplish the above tackle the problems described.

The object of the present invention is to provide a device and a method for displaying the Receiving condition of a satellite broadcast signal on a Display device or by OSD (display on the picture screen) without the use of a separate measuring instrument, which enables the user to easily adjust the orientation of the antenna by being single Lich the displayed reception condition of a broadcast signal considered.

In order to achieve the above goal, there is a reception Condition display device for an antenna for the emp catch a satellite broadcast signal available, best starting from:

• - a microcomputer to control the operation or device;
• - A device for detecting an AVR voltage from the received satellite broadcast signal;
• - an interface for receiving and transmitting the AVR voltage from the sensing device the AVR voltage to the microcomputer; and
• - A device for displaying the reception condition antenna in accordance with a tax signal from the microcomputer that corresponds to the detected level of AVR voltage corresponds.

It also stands for achieving the above The aim is a method for displaying the reception condition an antenna for receiving satellite broadcasting signals, which consists of the following steps:

• - Detect an AVR voltage from the received one Satellite broadcast signal by setting the off direction of the antenna;
• - determining the level of the detected AVR voltage; and
• - Visual display of the specific level of the AVR chip nung.

The above goal and other advantages of the present Invention emerge more clearly by describing the preferred embodiments of the invention based on the fol enclosed drawings:

Fig. 1 is a circuit diagram of an embodiment of the receiving condition display device according to the Invention.

Fig. 2 shows an algorithm to which an embodiment of the inventive method is used to indicate the reception condition.

Fig. 3 shows the graphical representation of the inventive reception level of a satellite broadcast signal.

Fig. 4 is a circuit diagram of another embodiment of the reception condition display device according to the present invention.

Fig. 5 shows an algorithm to which a different guide from the inventive method for Ad ge of the receiving condition is applied.

With reference to FIG. 1, which shows an embodiment according to the invention, the present device consists of a microcomputer 30 for controlling the operation of the device, an amplifier unit 60 for amplifying a satellite broadcast signal received from an antenna (not shown), / Intermediate frequency processing unit 70 for tuning and intermediate frequency processing of a broadcast signal of a selected channel from the output signal of the amplifier unit 60 under the control of the microcomputer 30 , an FM demodulator 80 for demodulating the sound signal and the video signal from the output signal of the tuning / intermediate frequency processing unit 70 and a (not shown) buffer 90 for applying the output signal of the FM demodulator 80 to the image processing circuit.

The present device also includes an AVR filter 10 for filtering the AVR voltage from the output signal of the FM demodulator 80 , an analog-to-digital converter 20 , which is regarded as an interface and the output signal of the AVR filter 10 in converts a digital signal to transmit the converted signal to the microcomputer 30 , a display device 40 for displaying the reception condition of the broadcast signal under the control of the microcomputer 30 , which corresponds to the output signal of the analog-to-digital converter 20 , and a key for the Selection of the setting mode 50 for transmitting a key signal, which activates or deactivates the setting mode for the alignment of the antenna, to the microcomputer 30 .

The amplifier unit 60 includes a broadband filter 61 for filtering the antenna's BS-IF signal (satellite broadcast intermediate frequency signal), an amplifier 62 for amplifying the output signal of the broadband filter 61 and a high-frequency gain controller 63 for regulating the amplification of the output signal from the amplifier 62 accordingly the output signal of the AVR filter 10th

The tuning / intermediate frequency processing unit 70 includes a crossover 71 for filtering out the broadcast signal of a selected channel under the control of the microcomputer 30 , a local oscillator 73 for generating a local signal, a divider 74 for adjusting the oscillation frequency of the local oscillator 73 by dividing the output signal of the Via local oscillator 73 and transmitting the divided signal to microcomputer 30 , a mixer 72 for mixing each of the output signals of the channel switch 71 and the local oscillator 73 , an amplifier 75 for amplifying the output signal of mixer 72 and a filter 76 for filtering out the intermediate frequency signal from the output signal from amplifier 75 .

In the embodiment of the invention described above, a BS-IF signal (satellite broadcast intermediate frequency signal) received by the antenna within a frequency range from 1.2 to 2 GHz, which has been reduced from a frequency between 11 and 14 GHz, is filtered by the broadband filter 61 in The amplifier unit 60 is filtered to remove the sideband noise of the reception band and is then amplified by the amplifier 62 . The amplification of the amplified signal is kept constant by a high-frequency gain controller 63 corresponding to the AVR voltage at the output of the AVR filter 10 . The regulated signal is input into the crossover 71 of the tuning / intermediate frequency processing unit 70 . The channel switch 71 selects a radio signal of the selected channel under the control of the microcomputer 30 and then transmits the selected signal to the mixer 72 .

In the meantime, the local signal from the local oscillator 73 under control by the microcomputer 30 is shared by the divider 74, and then enters into the microcomputer 30th Thereafter, the microcomputer 30 finely adjusts the oscillation frequency of the local oscillator 73 using the output signal of the divider 74 . The beat signal of the beat oscillator 73 also enters the mixer 72 to be mixed with the selected broadcast signal, and is amplified by the amplifier 75 . The intermediate frequency component of the amplified signal is then filtered out by the filter 76 .

The intermediate frequency signal coming from the above-described tuning / intermediate frequency processing unit 70 enters the FM demodulator 80 to perform frequency demodulation of the audio signal and the video signal, passes through the buffer 90 and then becomes the image processing circuit (not shown) in the receiver spent.

The AVR filter 10 filters the AVR voltage from the output signal of the FM demodulator 80 . The filtered AVR voltage is converted by the analog-to-digital converter 20 into a digital signal and then enters the microcomputer 30 .

With reference to Fig. 1 and Fig. 2, the inventive method for setting the reception condition of an antenna is described below.

When the power of a satellite broadcasting receiver is turned on and the satellite broadcasting signal is received, the button for selecting the setting mode 50 is first pressed to activate the mode of adjusting the orientation of the antenna. When the setting mode is selected, the microcomputer 30 checks the AVR voltage supplied by the analog-to-digital converter 20 and measures the level of the AVR voltage. That is, the current measured value N is compared with the previously measured peak value P, and if N <P, the peak value P is replaced by the current measured value N and the level of the peak value N is displayed on the display device 40 . At this point, the display 40 can be turned off for a few seconds to easily convey to the user that the peak has been replaced. Then it is determined whether the key for selecting the setting mode 50 is pressed again. If the button 50 is not pressed, the process described above is repeated. Thus, a user can adjust the orientation of an antenna to achieve the maximum reception efficiency. When the button for selecting the setting mode 50 is pressed, the setting process is ended and then the entire procedure for receiving a satellite broadcast signal is carried out.

The display device 40 may include a seven-segment display which numerically represents the reception level of a broadcast signal, and also includes an LCD (liquid crystal display) which graphically shows the change in the reception level as shown in FIG. 3. In addition, the change in the reception level can be displayed on the screen of a satellite radio receiver or by OSD (display on the screen) on a television screen connected to the receiver.

With reference to Fig. 4, in which another embodiment of the display device according to the invention is shown, the interface includes an analog-digital converter 20 and a peak value detector 20 a for detecting the peak value of the AVR voltage supplied by the AVR filter. In this embodiment, it is usually the case that the antenna rotates quickly during the setting at the first start-up. The peak value of the signal received by an antenna rotating at such a high speed is detected by the peak value detector 20 a and then displayed in the display device 40 as shown in FIG. 3. At the same time, the current reception level of the signal detected by the analog-digital converter 20 is also displayed in the display device 40 . The user compares the previous peak value of the reception level with the current reception level and can thereby set the alignment of the antenna exactly.

With reference to Fig. 4 and Fig. 5, in which another embodiment of the display method according to the invention is shown, after switching on the power supply and receiving a satellite broadcast signal, the antenna setting mode is selected by pressing the button for selecting the setting mode 50 ; the microcomputer 30 checks the level of the AVR voltage supplied by the analog-digital converter 20 and compares the current measured value N with the previously measured value N-1 (see above). If N <N-1, the microcomputer 30 subtracts the previous one The value N-1 of the current value N and receives the quotient B from dividing the result of the subtraction A by the reference value R. The reference value R serves to determine the sub-steps of the graphic display of the current reception level, as shown in FIG. 3. The quotient B obtained is compared with the reference point of the level display (level "0"). If the reference point <B, the level "0" is displayed. Otherwise, the quotient B is added to the previous value N-1 and the result of the addition C is then displayed in the display device 40 .

If N N-1, the microcomputer 30 subtracts the previous value N-1 from the current value N and obtains the quotient E from dividing the result of the subtraction D (negative) by the reference value R, and determines whether the absolute value | E | of the quotient E is greater than the reference point of the level display (ie level "0"). If the reference point <| E | level "0" is displayed. Otherwise, the quotient E is added to the previous value N-1 and the result of the addition F = N-1 + E is displayed in the display device 40 . The current reception level is then displayed and compared with the peak value of the reception level detected by the peak value detector 20 a. In this way the reception level is checked.

The peak value of the reception level can be reached if the antenna points in a direction that has the maximum reception efficiency. The peak value is detected by the peak value detector 20 a and can be displayed numerically or in graphical form in the display device 40 . The user compares the previous peak value of the received level with the current received level and can thereby precisely adjust the orientation of the antenna.

It follows from the foregoing that the present Invention determines the level of the AVR voltage and the Emp condition of a broadcast signal without a separate one Meter on a display device or by OSD (Display on the screen) displays so that the user easily adjust the orientation of the antenna can, by only the receiving condition of a specified showed broadcast signal observed.

Claims (11)

1. A reception condition display device for an antenna for receiving a satellite broadcasting signal, comprising:

• - a microcomputer for controlling the operation of said device;
• a device for detecting a voltage of the automatic gain control (AVR voltage) from the received satellite broadcast signal;
• an interface for receiving and transmitting said AVR voltage from said device for detecting the AVR voltage to said microcomputer; and
• a device for displaying the condition of reception of said antenna in accordance with a control signal from said microcomputer corresponding to said detected level of AVR voltage.

2. reception condition display device according to claim 1, which also has a button for selecting the on setting mode includes the said microcomputer a key signal for the selection of an antenna on setting mode transmitted. 3. reception condition display device according to claim 1, in which said device for detecting a  AVR voltage includes an AVR filter with which the said AVR voltage from said satellite broadcast signal is filtered out. 4. receiving condition display device according to claim 1, where the said interface is an analog-digital Includes converter that converts the AVR voltage into one digital signal converted and this converted digital signal to said microcomputer averages. 5. reception condition display device according to claim 1, in which the said interface also has a Includes peak detector which detects the peak value of the Levels of said AVR voltage and this detected peak value on said microcomputer transmitted, said microcomputer both the said level of AVR voltage as well as said Peak value determined depending on the off vary the direction of said antenna. 6. reception condition display device according to claim 1, in which said display device is an electro includes a graphic display. 7. reception condition display device according to claim 1, in which said display device is a cathode television or satellite tube includes radio receiver, said Emp catch condition of said antenna by display appears on the screen.   8. A method for displaying the reception condition of an antenna for receiving a satellite broadcast signal, which consists of the following steps:

• - Detecting a voltage of the automatic gain control (AVR voltage) from the satellite broadcast signal received by the antenna by adjusting the orientation of the antenna;
• - determining the level of the detected AVR voltage; and
• - Optical display of the specific level of the AVR voltage.

The reception condition display method according to claim 8, wherein the step of determining the level of the AVR voltage comprises the following substeps

• Determining a current level of AVR voltage according to the orientation of the antenna; and
• - Determine the peak level of the AVR voltage.

10. The method for displaying the reception condition according to claim 9, wherein the step of determining the level of the AVR voltage comprises the following substeps:

• Measuring the current received AVR voltage and determining whether the current measured value is greater than the previously measured peak value; and
• - Providing the current measured value as a peak value if the current measured value is greater than the previously measured peak value.

The method for displaying the reception condition according to claim 9, wherein the step of determining the level of the AVR voltage comprises the following substeps:

• Subtracting the level of the AVR voltage of the previously received signal from the level of the AVR voltage of the current received signal and dividing the result of the subtraction by a reference value;
• Providing a level "0" if the quotient of the division is less than a reference point value for the display of a level; and
• - Providing an added value from the level of the AVR voltage of the previously received signal and the quotient of the division if the quotient of the division is greater than the reference point value.