JP2004048388A - Signal level measuring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a signal level measuring device whose operation is simple even when the device is made to exhibit multifunctions. <P>SOLUTION: This signal level measuring device is provided with a tuning device for tuning a designated high frequency signal from among inputted reception signals, a detector for detecting the tuned high frequency signal, and for outputting a detected voltage, an A/D converter for quantizing the detected voltage, a display device for displaying the signal level, an operating part for applying an instruction from the outside, a controller for processing the instruction, a storage device for storing the signal level and measurement condition of the measured high frequency signal, and a power unit for feeding a power source to an input terminal. The operating part is constituted of one or more exclusive input devices which input exclusive instructions and a menu selecting device for selecting the instruction by using a menu. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a signal level measuring device for measuring a signal level of a high-frequency signal, and more particularly to a method for operating the signal level measuring device.
[0002]
[Prior art]
The conventional signal level measuring device has only a small number of functions because it is configured separately for satellite and terrestrial waves, and has no problem in operability. In recent years, however, the satellite signal (including communications) and terrestrial broadcast signals are often received. In such a case, it is necessary to carry a signal level measuring device for satellites and terrestrial waves. In addition, when measuring the signal level, the operability was deteriorated, such as reconnecting the signal input cable.
Therefore, at present, the above problem has been avoided by integrating the satellite and terrestrial waves. The function keys are generally used as a function selection method, although multifunction is achieved by integrating them. Function keys have function names corresponding to each key displayed near the key, and the user selects the appropriate key sequentially while checking the displayed function name to realize the function. Is achieved.
[0003]
[Problems to be solved by the invention]
However, according to the conventional signal level measuring device, the integration of the satellite signal and the terrestrial signal makes the multi-function and the usability deteriorate. Specifically, since the function keys are used to select functions, select measurement modes, and set measurement conditions, when changing the modulation method or when changing the local oscillation frequency of the converter of the receiving antenna Or, when storing the measured data in the storage device, it is necessary to enter a deep menu hierarchy, and the operation is complicated.
In addition, when setting frequently used measurement conditions, it is troublesome to set each time.
Further, since the number of keys to be input is limited for the function keys, if there is a function exceeding the number of keys, it is necessary to add a menu page, and the operation becomes more complicated.
Furthermore, the function keys must display function names and the like in the vicinity of the keys, so that the effective display area of the display device is limited.
[0004]
In view of these problems, an object of the present invention is to provide a signal level measuring device that is easy to operate even if it has multiple functions.
Another object is to provide a signal level measuring instrument having a small number of menu pages and easy selection of functions.
Another object is to provide a signal level measuring device capable of securing a wide display area.
Another object of the present invention is to provide a signal level measuring device which is easy to use even if the number of input devices (input keys) of the operation unit is reduced.
Another object of the present invention is to provide a signal level measuring apparatus capable of easily changing a modulation method, changing a local oscillation frequency of a converter of a receiving antenna, and registering measurement data.
Another object of the present invention is to provide a signal level measuring apparatus which can easily set and call frequently used measuring conditions.
[0005]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a first aspect of the present invention is a signal level measuring device for displaying a signal level of a high frequency signal.
A tuning device for selecting a designated high-frequency signal from received signals input to an input terminal;
A detector for detecting the selected high-frequency signal and outputting a detection voltage;
An AD converter for quantizing the detection voltage,
A display device for displaying a signal level;
An operation unit for giving an instruction from the outside,
A controller for processing the above instructions;
A storage device for storing a signal level of the measured high-frequency signal and a measurement condition;
A power supply for supplying power to the input terminal;
The operation unit includes one or more dedicated input devices for inputting a dedicated command,
It is configured to include a menu selection device for selecting an instruction using a menu.
[0006]
According to a second aspect of the present invention, as the dedicated input device, selection of a modulation method of a high frequency signal or selection of a local oscillation frequency of a converter of a receiving antenna,
Alternatively, to store the measured signal level of the high-frequency signal in a storage device,
It is configured to include at least one dedicated input device.
[0007]
According to a third aspect of the present invention, as the dedicated input device, the currently measured measurement condition is stored in the storage device.
Alternatively, it is configured to be provided to call up the stored measurement conditions.
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
The signal level measuring device 10 is used for adjusting the direction of the antenna when installing a satellite broadcast receiving antenna, and in a CATV system for transmitting a high-frequency signal to each terminal terminal using a CATV transmission line, an output level at each output terminal. Used to measure the
FIG. 1 is a block diagram showing a configuration of a signal level measuring device according to the present invention, and FIG. 2 is an explanation of an operation unit.
[0009]
The signal level measuring device 10 has an input terminal 11 for inputting the high frequency signal. Reference numeral 12 denotes a power supply device, which has a polarization plane selection signal input terminal 12e, a satellite switching signal input terminal 12f, and an output terminal 12d, and supplies operation power to a satellite broadcast receiving antenna (specifically, a converter) connected to the input terminal 11. And is controlled by a control device described later. Reference numeral 12b denotes a voltage generation circuit which generates DC11V or DC15V. A tone generating circuit 12c generates a tone signal of about 40 kHz in this embodiment. Reference numeral 12a denotes a signal superimposing circuit for superimposing the 12c tone signal on the DC power generated in 12b and outputting the superposed tone signal. 13 is a power supply filter, 14 is a tuning device for selecting a designated high-frequency signal from the high-frequency signal input to the input terminal 11, and 15 is a device for detecting the designated high-frequency signal selected by the tuning device 14. The detector is a detector for outputting a detection voltage, and outputs a DC voltage corresponding to the signal level of the high-frequency signal. Reference numeral 16 denotes an AD converter for converting a detection voltage into a digital signal, and outputs a digital signal corresponding to the signal level of the high-frequency signal. An operation unit 17 is operated by a user. 18 is a display device. Reference numeral 19 denotes a storage device which uses a memory whose stored data is not erased even when the power is turned off. Reference numeral 20 denotes a control unit, which comprises a well-known microcomputer 20a, ROM 20b, and RAM 20c, decodes a command from the operation unit 17, controls the tuning unit 14, the power supply device 12, and the display device 18, and The display device is configured to display measurement data and the like. 20d is a channel selection data output terminal such as a PLL frequency division number, 20e is a polarization plane selection signal output terminal, 20f is a satellite switching signal output terminal, 20g is a display signal output terminal, 20h is a measurement level input terminal, and 20i is an operation terminal. The unit input terminal 20j is an external storage unit input / output terminal.
[0010]
Next, the operation unit 17 will be described in detail with reference to FIG.
As shown in FIG. 2, the input terminal 11 protrudes from the surface of the operation unit 17.
The input devices 30, 40, and 50 are arranged so as to surround the display device 18. Reference numeral 30 denotes a menu selection device, which includes a right button 30a, a left button 30b, an up button 30c, and a down button 30d for moving the cursor position of the menu, and a return button 30e for returning to the previous screen. , An enter button 30g, and a menu button 30f for displaying a main menu. Reference numeral 40 denotes a dedicated input device used to store the currently measured measurement condition in the storage device or to call the measurement condition from the storage device. Reference numeral 40a denotes a frequently used button for retrieving (registering) the measurement condition. Is a shift button operated during registration.
[0011]
Next, 50 is a dedicated input device other than the above, 50a is a modulation method button for switching the modulation method (digital / analog) of the high-frequency signal, and 50b is provided on a satellite broadcast receiving antenna connected to the input terminal. Power supply button for selecting whether or not to supply the operating power supply voltage to the converter. Reference numeral 50c denotes a voltage button for selecting whether to automatically identify and output a voltage (DC 11V / 15V) corresponding to the polarization of the received radio wave or to output the voltage fixedly. Reference numeral 50d denotes a local oscillation button for selecting a local oscillation frequency used by a converter provided in a satellite broadcast receiving antenna, and 50e denotes data registration for storing measurement data (measured high-frequency signal level) in the storage device. Button. Reference numeral 60 denotes a power button.
[0012]
Next, the operation when the satellite is JCSAT-4A and the channel is J11 by the operation unit 17 will be described.
The control device 20 generates a voltage of DC 11 V by the voltage generation circuit 12b and generates a 40 kHz tone signal by the tone generation circuit 12c. The signal superimposing circuit 12a superimposes the 40 kHz tone signal output from the tone generating circuit on the DC11V voltage output from the voltage generating circuit 12b, and connects the satellite broadcasting connected to the input terminal 11 via the power supply filter 13. Supply power to operate the receiving antenna (more specifically, the converter). The high frequency signal received by the satellite broadcast receiving antenna is input to the channel selection device 14 after the power supply component is cut off by the power supply filter 13.
Further, the control device 20 outputs a tuning signal (PLL division number or the like) to the tuning device 14 in accordance with the selected channel and the setting of the local oscillation frequency, and outputs the tuning signal of the selected channel. An intermediate frequency signal corresponding to the high frequency signal is output. The detector 15 detects the input signal and outputs a detection voltage, and the AD converter 16 outputs a digital signal corresponding to the signal level. The control device 20 reads the digital signal and displays it on the display device 18 as a measurement level. The displayed measurement level may be displayed as a relative level. Further, the data may be converted into an absolute level based on data calibrated in advance and displayed.
[0013]
Next, the case where the satellite is JCSAT-3 and the channel is J12 by the operation unit 17 will be described.
The control device 20 causes the voltage generation circuit 12b to generate a DC voltage of 15V, does not operate the tone generation circuit 12c, and does not generate a tone signal. Therefore, the power supply voltage of DC 15 V is supplied from the signal superimposing circuit 12 a via the power supply filter 13 as power for operating the satellite broadcast receiving antenna connected to the input terminal 11. Hereinafter, the operation until the measurement level is displayed is the same as the operation when JD11 is selected by JCSAT-4A, and thus the description thereof is omitted.
[0014]
Next, a case where measurement data is registered by the operation unit 17 will be described.
The control device 20 receives a command to register measurement data from the operation unit 17 and causes the storage device 19 to store measurement conditions (satellite names, channel numbers, etc.) and measurement level values.
[0015]
Next, a method of operating the menu selection device and the dedicated input device will be described in detail with reference to the menu transition diagrams of FIGS.
First, the case of measuring the satellite signal level will be described.
When a TV terminal (or a terminal terminal, an output terminal or an output measurement terminal of a transmission device or a reception device) whose signal level is to be measured is connected to the input terminal 11 with a coaxial cable, and the power button 60 is operated, the main menu as shown in FIG. S100 is displayed on the display device 18. Then, by operating the cursor movement buttons 30c (upward movement) and 30d (downward movement) (P100) to select "BS / CS measurement" and operating the enter button 30g, the display changes to the BS / CS measurement screen S200. In this state, the dedicated input device becomes valid. When the cursor movement buttons 30c (upward movement) and 30d (downward movement) are operated (P200) while the BS / CS measurement screen S200 is displayed, the satellite names (BS, N-SAT, JCSAT-3, JCSAT-4A) to be measured are operated. ,...) Can be sequentially switched.
[0016]
When the cursor movement buttons 30a (move right) and 30b (move left) are operated (P210), the reception channels (1, 2, 3,... Or J1, J2, J3,. It has become.
When the local oscillation button 50d is operated (P220), the local oscillation frequency (10.678 GHz, 11.2 GHz, 11.3 GHz, etc.) of the converter can be sequentially switched.
When the power supply button 50b and the voltage button 50c are operated (P240, P230), the input terminal 11 is connected to the television terminal or each transmission device (branch, distributor, duplexer, mixer, amplifier, attenuator, etc.). To transmit and stop the operation power supply and the polarization selection signal (DC 11 V / 15 V) and the satellite identification signal (35 kHz to 55 kHz) to the converter provided in the satellite receiving antenna connected to the antenna. Has become.
Also, the voltage button 50c can be set to auto, and by setting it to auto, the polarization plane selection signal corresponding to the above-mentioned satellite name and reception channel can be automatically transmitted.
When the data registration button 50e (P250) is operated, the currently displayed measurement data is stored in the storage device 19.
When the frequently used button 40a is operated (P270), the measurement conditions stored in the storage device are called out, and the control device 20 controls the channel selection device 14, the power supply device 12, and the display device 18 to execute the called out measurement. The condition measurement screen appears.
By operating the frequently used button 40a (P260) while operating the shift button 40b, the current measurement conditions can be stored in the storage device 19.
[0017]
Next, a case where the signal levels of the terrestrial TV signal and the CATV transmission signal are measured will be described.
When the television terminal whose signal level is to be measured is connected to the input terminal 11 with a coaxial cable and the power button 60 is operated, a main menu S100 is displayed on the display device 18 as shown in FIG. Therefore, by operating the cursor movement buttons 30c (upward movement) and 30d (downward movement) (P100) to select "VU / CATV measurement" and operating the enter button 30g, the display changes to the VU / CATV measurement screen S210. In this state, the dedicated input device becomes valid. When the cursor movement buttons 30c (upward movement) and 30d (downward movement) are operated (P280) while the VU / CATV measurement screen S210 is displayed, the band names (VHF, UHF, CATV, PILOT,...) To be measured are sequentially displayed. It can be switched.
When the cursor movement buttons 30a (move right) and 30b (move left) are operated (P210), the reception channels (1, 2, 3,... Or C13, C14, C15,. Can be sequentially switched.
When the modulation method button 50a is operated (P290), the modulation method (NTSC video carrier level, NTSC audio carrier level, OFDM, 64QAM, PSK,...) Can be sequentially switched.
Here, the data registration button 50e, the frequently used button 40a, and the shift button 40b perform the data registration and the registration / recall of the measurement condition, which are the same as the case of measuring the satellite signal level already described, and thus the detailed description is omitted. .
The functions of the local oscillation button 50d, the power supply button 50b, and the voltage button 50c are prohibited because they are not used for measuring the signal levels of the terrestrial TV signal and the CATV transmission signal.
[0018]
Next, a description will be given of a case where the registered measurement data is recalled during the satellite signal level measurement, the terrestrial TV signal level measurement, and the CATV transmission signal level measurement.
When the power button 60 is operated, a main menu S100 is displayed on the display device 18 as shown in FIG. Then, by operating the cursor movement buttons 30c (upward movement) and 30d (downward movement) (P100) to select "special mode" and operating the enter button 30g, the display changes to the special mode screen S220. Further operating the cursor movement buttons 30c (upward movement) and 30d (downward movement) on this screen (P110) to select "data call", and operating the enter button 30g changes the display to the data call screen S230 and registers the data. The newest measurement data is displayed on the display device 18. Here, by operating the cursor movement buttons 30c (upward movement) and 30d (downward movement) (P300), the stored old measurement data can be sequentially called and displayed.
[0019]
Next, a case where a satellite broadcast receiving antenna is installed and the direction of the antenna is adjusted will be described.
When the output terminal of the satellite broadcast receiving antenna (specifically, converter) is connected to the input terminal 11 by a coaxial cable and the power button 60 is operated, a main menu S100 is displayed on the display device 18 as shown in FIG. Therefore, by operating the cursor movement buttons 30c (upward movement) and 30d (downward movement) (P100) to select "antenna adjustment" and operating the enter button 30g, the display changes to the antenna adjustment screen S240. In this state, the dedicated input device becomes valid. By operating the cursor movement buttons 30c (upward movement) and 30d (downward movement) while the antenna adjustment screen S240 is displayed (P200), the satellite name (JCSAT-3 / 4A, BS) to be received is selected. Then, the user operates the cursor movement buttons 30a (move right) and 30b (move left) (P210) to select the reception channel (1, 3, 13, 15, ..., or J1, J2, J3, ...). .
Also, the local oscillation button 50d is operated (P220) to select a frequency that matches the local oscillation frequency of the converter of the connected satellite broadcast receiving antenna.
After the power supply button 50b is operated (P240), the voltage button 50c is operated (P230) to set “auto”, and then the receiving antenna is set to the operating state. Then, the azimuth angle, elevation angle, and tilt angle of the converter (not required for BS) are adjusted and fixed so that the value of the signal level displayed on the display screen becomes maximum. At this time, the satellite identification mark M is displayed only when the specified satellite name matches the received satellite, so that an operation error such as receiving a signal other than the specified satellite by the antenna can be prevented.
Here, the measurement data registration and the measurement condition registration / recall functions are the same as those in the case of measuring the satellite signal level already described, and thus detailed description is omitted.
[0020]
It should be noted that the present invention is not limited to the above-described embodiment, and may be implemented by appropriately changing each part without departing from the spirit of the present invention as exemplified below.
For example, in this embodiment, the menu selection device is constituted by the cursor movement button, the enter button, and the menu button. However, other buttons such as a forward button may be provided, and the return button may be deleted.
Also, the number of dedicated input devices is not limited, and may be large or small.
In this embodiment, the menu selection device is provided with the cursor position move button and the enter button separately, but may be formed integrally. In addition, although the movement buttons for the cursor position have been described as four directions of up, down, left, and right, the present invention is not limited to this, and may be more or less.
Also, the method for displaying the menu on the entire screen has been described. However, the present invention is not limited to this method, and may be a pull-down menu or another display method.
[0021]
【The invention's effect】
As described in detail above, according to the first aspect of the present invention, in a signal level measuring device for displaying a signal level of a high-frequency signal,
A tuning device for selecting a designated high-frequency signal from received signals input to an input terminal;
A detector for detecting the selected high-frequency signal and outputting a detection voltage;
An AD converter for quantizing the detection voltage,
A display device for displaying a signal level;
An operation unit for giving an instruction from the outside,
A controller for processing the above instructions;
A storage device for storing a signal level of the measured high-frequency signal and a measurement condition;
A power supply for supplying power to the input terminal;
The operation unit includes one or more dedicated input devices for inputting a dedicated command,
Since it is composed of a menu selection device that selects commands using menus, it is easy to operate even if it has multiple functions, the number of menu pages is small, function selection is easy, and a wide display area is secured. It is possible to provide a signal level measuring device that is easy to use even if the number of input devices (input keys) in the operation unit is reduced.
[0022]
According to the invention of claim 2, as the dedicated input device, selection of a modulation method of a high-frequency signal,
Alternatively, select the local oscillation frequency of the receiving antenna converter,
Alternatively, to store the measured signal level of the high-frequency signal in a storage device,
Since at least one dedicated input device is provided,
It is possible to provide a signal level measuring apparatus capable of easily changing a modulation method, changing a local oscillation frequency of a converter of a receiving antenna, and registering measurement data.
[0023]
According to the third aspect of the present invention, the dedicated input device stores the currently measured measurement condition in the storage device.
Or, because it is provided to call the stored measurement conditions,
It is possible to provide a signal level measurement device that can easily set and call frequently used measurement conditions.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a signal level measuring device according to an embodiment.
FIG. 2 is an explanatory diagram of an operation unit.
FIG. 3 is a screen transition diagram when a signal level of a satellite broadcast reception signal is measured.
FIG. 4 is a screen transition diagram during signal level measurement of a terrestrial TV signal / CATV transmission signal.
FIG. 5 is a screen transition diagram when a measurement data is called.
FIG. 6 is a screen transition diagram when the direction of the satellite receiving antenna is adjusted.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Signal level measuring device, 11 ... Input terminal, 12 ... Power supply device, 13 ... Power supply filter, 14 ... Tuning device, 15 ... Detector, 16 ... AD converter, 17 ... Operation unit, 18 ... Display device, 19 ... Storage device, 20 ... Control device, 30 ... Menu selection device, 40 ... Dedicated input device, 50 ... Dedicated input device, 60 ... Power button

Claims (3)

In a signal level measuring device that displays the signal level of a high-frequency signal,
A tuning device for selecting a designated high-frequency signal from received signals input to an input terminal;
A detector for detecting the selected high-frequency signal and outputting a detection voltage;
An AD converter for quantizing the detection voltage,
A display device for displaying a signal level;
An operation unit for giving an instruction from the outside,
A controller for processing the above instructions;
A storage device for storing a signal level of the measured high-frequency signal and a measurement condition;
A power supply for supplying power to the input terminal;
The operation unit includes one or more dedicated input devices for inputting a dedicated command,
A signal level measurement device comprising a menu selection device for selecting an instruction using a menu. The dedicated input device is used to select the modulation method of the high-frequency signal,
Alternatively, select the local oscillation frequency of the receiving antenna converter,
Alternatively, to store the measured signal level of the high-frequency signal in a storage device,
The signal level measuring device according to claim 1, wherein at least one dedicated input device is provided. The dedicated input device stores the currently measured measurement conditions in the storage device.
3. The signal level measuring device according to claim 1, wherein the signal level measuring device is provided for calling stored measurement conditions.

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