JP3579997B2 - Navigation device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a navigation device that can switch between a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying a measured position on map data.
[0002]
[Prior art]
Hereinafter, a conventional navigation device will be described.
[0003]
FIG. 3 is a block diagram showing a configuration of a conventional navigation device. In FIG. 3, reference numeral 1 denotes a selection unit for selecting a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying the measured position on the map data. The navigation switch 1b is operated. Reference numeral 2 denotes a TV receiver that receives TV radio waves and outputs TV image data. Reference numeral 3 denotes a positioning unit that measures the position of the vehicle, and illustrates a GPS receiver that receives radio waves from a plurality of GPS (Global Positioning System) satellites at the same time and performs positioning. Reference numeral 4 denotes a map data control unit for reading map data of a predetermined area from a storage medium storing map data. A display unit 5 displays various data such as TV image data and map data. Reference numeral 6 denotes a power supply unit that supplies power to each unit in the apparatus, and 7 denotes a control unit that controls signals output from each unit in the apparatus.
[0004]
The operation of the conventional navigation device configured as described above will be described below.
[0005]
As shown in FIG. 3, first, when the navigation switch 1b is selected by the user in the selection unit 1, the control unit 7 sets the navigation mode, and the map data obtained from the map data control unit 4 and the positioning unit 3 And the obtained position data and map data are displayed on the display unit 5. When the user selects the TV switch 1 a in the selection unit 1, the control unit 7 sets the TV reception mode and displays the TV image data output from the TV reception unit 2 on the display unit 5.
[0006]
[Problems to be solved by the invention]
In such a navigation device, noise interference occurs from the circuit blocks of the positioning unit 3 and the map data control unit 4 inside the device with respect to the TV tuner and the like in the TV reception unit 2, and particularly, the reception condition of the TV radio wave. In a poor (weak electric field) state, the influence of the above-described noise was large, and the display screen of the display unit 5 on which the TV image data was displayed was very difficult to see. Conventionally, as a countermeasure, an electromagnetic shield is provided for each circuit unit inside the apparatus to prevent the TV receiver 2 from being disturbed by noise. However, such a measure has a problem in that a sufficient space is required inside the device, which hinders miniaturization of the device.
[0007]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a navigation device capable of suppressing the influence of noise generated from a circuit unit on TV image data and obtaining good TV image data.
[0008]
[Means for Solving the Problems]
In order to solve this problem, the present invention is a navigation device capable of switching between a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying a measured position on map data. , A reception level detection unit for detecting a reception level of a TV radio wave, and a circuit unit which is not required in the TV reception mode but is required in the navigation mode according to the reception level detected by the reception level detection unit in the TV reception mode And a control unit for controlling power supply to the vehicle.
[0009]
Thus, the effect of noise generated from the circuit unit inside the device on the TV image data can be suppressed, and good TV image data can be obtained.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
An invention according to claim 1 of the present invention is a navigation device capable of switching between a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying a measured position on map data. A reception level detection unit for detecting a reception level of a TV radio wave, and a circuit not required in the TV reception mode but required in the navigation mode according to the reception level detected by the reception level detection unit in the TV reception mode. With the configuration including the control unit that controls the power supply to the unit, the power supply to the circuit unit that is not required in the TV reception mode but is required in the navigation mode is controlled according to the reception level of the TV radio wave. Thus, it is possible to suppress the influence of noise generated inside the device on TV image data.
[0011]
According to a second aspect of the present invention, there is provided a TV receiver for receiving TV radio waves and outputting TV image data, a reception level detector for detecting a reception level of the TV radio waves received by the TV receiver, A positioning unit that performs position positioning, a map data control unit that reads map data from a storage medium that stores map data, a display unit that displays TV image data and map data, and a TV that is output from a TV reception unit A selection unit that selects a TV reception mode for displaying image data on a display unit and a navigation mode for displaying the own position output from the positioning unit and the map data output from the map data control unit on the display unit; In the mode, according to the reception level detected by the reception level detection unit, a positioning unit, a configuration including a control unit that controls power supply to the map data control unit, and Thus, by controlling the power supply to the circuit unit which is not required in the TV reception mode but required in the navigation mode according to the reception level of the TV radio wave, the influence of noise generated inside the device on the TV image data is controlled. Can be suppressed.
[0013]
The invention described in claim 3 is the invention of claim 2 of the present invention, the control unit, when the reception level is below a predetermined level, the map data controller before the at least a positioning portion with the construction of turning OFF the power supply to the can when switched from TV reception mode to the navigation mode, to reduce the time required for the rising operation of the navigation modes.
[0014]
According to a fourth aspect of the present invention, there is provided a navigation device capable of switching between a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying a measured position on map data. A reception level detection unit for detecting a reception level of a TV radio wave, and a circuit not required in the TV reception mode but required in the navigation mode according to the reception level detected by the reception level detection unit in the TV reception mode. With a configuration including a control unit for controlling power supply to the unit and output of a clock signal, according to the reception level of the TV radio wave, it is not necessary to use the TV unit in the TV reception mode, but to the circuit unit required in the navigation mode. By controlling the power supply and the output of the clock signal, the noise generated inside the device affects the TV image data. The effect can be suppressed.
[0015]
According to a fifth aspect of the present invention, there is provided a TV receiver for receiving TV radio waves and outputting TV image data, a reception level detector for detecting a reception level of the TV radio waves received by the TV receiver, A positioning unit that performs position positioning, a map data control unit that reads map data from a storage medium that stores map data, a display unit that displays TV image data and map data, and a TV that is output from a TV reception unit A selection unit for selecting a TV reception mode for displaying image data on a display unit and a navigation mode for displaying the own position output from the positioning unit and the map data output from the map data control unit on the display unit; In the mode, the power supply to the positioning unit and the map data control unit and the output of the clock signal are controlled according to the reception level detected by the reception level detection unit. By controlling the power supply to the circuit unit and the output of the clock signal that are not required in the TV reception mode and required in the navigation mode according to the reception level of the TV radio wave by having the configuration including the control unit, The effect of noise generated inside the apparatus on TV image data can be suppressed.
[0017]
6. Symbol mounting aspect of the present invention, the control unit, when the received level is below a predetermined level, before the at least positioning unit in OFF the output of the power supply and clock signal to the map data controller With this configuration, it is possible to reduce the time required for the start-up operation of the navigation mode when switching from the TV reception mode to the navigation mode.
[0018]
【Example】
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0019]
(Example 1)
FIG. 1 is a block diagram showing the configuration of the navigation device according to the first embodiment of the present invention. In FIG. 1, reference numeral 11 denotes a selection unit for selecting a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying a measured position on the map data. The navigation switch 11b is operated. Reference numeral 12 denotes a TV receiver which receives TV radio waves and outputs TV image data. Reference numeral 13 denotes a reception level detection unit that detects the reception level of the TV radio wave received by the TV reception unit 12. Reference numeral 14 denotes a positioning unit that measures the position of the vehicle, and illustrates a GPS receiver that measures the position of the vehicle by receiving radio waves from a plurality of GPS satellites at the same time, but is not limited thereto. A positioning method called navigation or another positioning method may be used. Reference numeral 15 denotes a map data control unit that reads map data of a predetermined area from a storage medium such as a CD-ROM (Compact Disk-Read Only Memory) in which digital map data is stored. A display unit 16 displays various data such as TV image data and map data, and has a display screen such as an LCD (liquid Crystal Display). Reference numeral 17 denotes a power supply unit that supplies power to each unit in the device, and 18 denotes a control unit that controls a signal output from each unit in the device.
[0020]
This embodiment is different from the conventional one in that when the mode is switched from the navigation mode to the TV reception mode, the power supply to the circuit units that are not required in the TV reception mode is turned on according to the reception level of the TV radio wave. This is the point of performing the OFF control.
[0021]
The operation of the navigation device configured as described above will be described below.
[0022]
As shown in FIG. 1, when the navigation switch 11b is selected by the user in the selection unit 11, the control unit 18 sets the navigation mode. In the navigation mode, when the control unit 18 obtains position data from the positioning unit 14, the control unit 18 obtains map data of a predetermined area from the map data control unit 15 based on the position data, and displays the map data on the display unit 16.
[0023]
On the other hand, when the user selects the TV switch 11a in the selection unit 11, the control unit 18 sets the TV reception mode, and displays the TV image data output from the TV reception unit 12 for receiving the TV radio waves on the display unit 16. indicate. At this time, the control unit 18 controls the power supply from the power supply unit 17 to each unit block according to the reception level (the electric field strength in this embodiment) of the TV radio wave detected by the reception level detection unit 13. The state of this control will be described below.
[0024]
First, when the control unit 18 determines that the level of the TV radio wave detected by the reception level detection unit 13 is a sufficient level (strong electric field), the control unit 18 particularly holds the circuit operation in the TV reception mode. The power supply (power B and power C) to the positioning unit 14 and the map data control unit 15 that does not need to be maintained is kept in the ON state, and the GPS positioning and the reading of the map data are continued even in the TV reception mode. Thus, when the navigation switch 11b is selected in the selection unit 11, the navigation mode can be immediately executed without requiring time to start up when the mode is changed.
[0025]
When the control unit 18 determines that the level of the TV radio wave detected by the reception level detection unit 13 is a weak level (weak electric field), the control unit 18 needs to hold the circuit operation particularly in the TV reception mode. The power supply (power B and power C) to the positioning unit 14 and the map data control unit 15 without the power supply is turned off, and noise generated from the positioning unit 14 and the map data control unit 15 is prevented.
[0026]
When the control unit 18 determines that the level of the TV radio wave detected by the reception level detection unit 13 is a medium level (medium electric field), the control unit 18 particularly holds the circuit operation in the TV reception mode. The power supply (power C) of the map data control unit 15 that does not need to be performed is turned off, and the power supply (power B) to the positioning unit 14 is kept on. In particular, when the positioning unit 14 is a GPS receiver, the time required for the positioning unit 14 to rise from the start of power supply to capturing a GPS satellite is shorter than the time required for the map data control unit 15 to rise. Because it is longer. Thereby, when the navigation switch 11b is selected in the selection unit 11, the time to start up when changing the mode can be shortened, and the navigation mode can be executed immediately.
[0027]
In the present embodiment, the electric field intensity of the received TV radio wave is divided into three levels, and the control unit 18 controls the power supply. However, the present invention is not particularly limited to the three levels.
[0028]
As described above, in the present embodiment, in the TV reception mode, according to the reception level of the TV radio wave detected by the reception level detection unit 13, the positioning unit 14 which is not particularly required in the TV reception mode but is required only in the navigation mode. The ON / OFF control of the power supply to the circuit units such as the map data control unit 15 and the like is performed by the control unit 18 so that the power supply to the positioning unit 14 and the map data control unit 15 is performed when the reception state of the TV radio wave is poor. Is turned off, the influence of noise is suppressed, and when the reception condition of the TV radio wave is good, the power supply to the positioning unit 14 and the map data control unit 15 is continued to switch to the navigation mode. Sometimes, the time required for starting the navigation mode can be shortened.
[0029]
(Example 2)
FIG. 2 is a block diagram showing the configuration of the navigation device according to the second embodiment of the present invention. In FIG. 2, reference numeral 19 denotes a control unit for controlling a signal output from each unit in the apparatus in this embodiment. Note that blocks denoted by the same reference numerals as those in the first embodiment have the same functions as the operations shown in the first embodiment, and a description thereof will be omitted.
[0030]
This embodiment is different from the first embodiment in that the control unit 19 not only controls the power supply to the circuit units such as the positioning unit 14 and the map data control unit 19 but also controls the clock signal. This is the point of the configuration.
[0031]
The operation of the navigation device configured as described above will be described below. However, the operation in the navigation mode is the same as in the first embodiment, and the description is omitted.
[0032]
As shown in FIG. 2, when the user selects the TV switch 11a in the selection unit 11, the control unit 19 sets the TV reception mode, and sets the TV image data output from the TV reception unit 12 that receives TV radio waves. Is displayed on the display unit 16. At this time, the control unit 18 controls the power supply from the power supply unit 17 to each unit block, and further controls each circuit block according to the reception level of the TV radio wave (the electric field strength in this embodiment) detected by the reception level detection unit 13. Control of the clock signal for. The state of this control will be described below.
[0033]
First, when the control unit 19 determines that the level of the TV radio wave detected by the reception level detection unit 13 is a sufficient level (strong electric field), the control unit 18 particularly holds the circuit operation in the TV reception mode. The power supply from the power supply unit 17 to the positioning unit 14 and the map data control unit 15 which are not necessary is kept in the ON state, and the GPS positioning and the map data reading process are continuously performed. Thus, even in the case where the navigation switch 11b is selected in the selection unit 11 and the mode is changed to the navigation mode, the processing in the navigation mode can be started immediately.
[0034]
When the control unit 19 determines that the reception level of the TV radio wave detected by the reception level detection unit 13 is a weak level (weak electric field), the control unit 19 holds the circuit operation particularly in the TV reception mode. The power supply from the power supply unit 17 to the positioning unit 14 and the map data control unit 15 that does not need to be turned off is turned off, and unnecessary clock signals from the control unit 19 to the positioning unit 14 and the map data control unit 15 are stopped. 14. Noise generated in the map data control unit 15 is suppressed.
[0035]
When the control unit 19 determines that the reception level of the TV radio wave detected by the reception level detection unit 13 is a medium level (medium electric field), the control unit 19 particularly performs the circuit operation in the TV reception mode. The power supply from the power supply unit 17 to the map data control unit 15 that does not need to be held is turned off, and the unnecessary clock signal generated from the control unit 19 to the map data control unit 15 is stopped. On the other hand, the necessary clock signal is not stopped, and the positioning operation is continued while the power supply from the power supply unit 17 is kept ON. In particular, when the positioning unit 14 is a GPS receiver, the time required for the positioning unit 14 to rise from the start of power supply to capturing a GPS satellite is shorter than the time required for the map data control unit 15 to rise. Because it is longer. Thereby, when the navigation switch 11b is selected in the selection unit 11, the time to start up when changing the mode can be shortened, and the navigation mode can be executed immediately.
[0036]
As described above, in the present embodiment, in addition to the configuration of the first embodiment, the output control is also performed on the clock signal to the positioning unit 14 and the map data control unit 15, so that the first embodiment is further improved. It is possible to suppress the influence of noise on TV radio waves when the reception level of the TV radio waves is poor.
[0037]
【The invention's effect】
As described above, according to the present invention, there is provided a navigation device capable of switching between a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying the measured position on map data. To the reception level detection unit that detects the reception level of the TV radio wave, and to the circuit unit that is not required in the TV reception mode but is required in the navigation mode according to the reception level detected by the reception level detection unit in the TV reception mode A control unit for controlling the power supply to the circuit unit, by controlling the power supply to a circuit unit not required in the TV reception mode but required in the navigation mode according to the reception level of the TV radio wave. The effect of the noise generated inside on the TV image data can be suppressed, and the circuit unit is electromagnetically sealed. Because need without performing special processing such as can be realized a navigation system which can reduce the size of the apparatus.
[0038]
A navigation device capable of switching between a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying a measured position on map data, and detects a reception level of the TV radio waves. Controls the power supply and the clock signal to the circuit units that are not required in the TV reception mode but required in the navigation mode according to the reception level detected by the reception level detection unit and the reception level detection unit in the TV reception mode. A control unit that controls power supply and a clock signal to a circuit unit that is not required in the TV reception mode but is required in the navigation mode according to the reception level of the TV radio wave, thereby enabling the internal operation of the device. The effect of the generated noise on the TV image data can be suppressed, Because need without performing special processing such as magnetic shielding can be realized a navigation system which can reduce the size of the apparatus.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a navigation device according to a first embodiment of the present invention; FIG. 2 is a block diagram illustrating a configuration of a navigation device according to a second embodiment of the present invention; FIG. Block diagram showing the configuration of [Description of reference numerals]
Reference Signs List 11 selection unit 12 TV reception unit 13 reception level detection unit 14 positioning unit 15 map data control unit 16 display units 18 and 19 control unit

Claims (7)

A navigation device capable of switching between a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying a measured position on map data, and a reception level for detecting a reception level of the TV radio waves A detection unit, and a control unit that controls power supply to a circuit unit that is not required in the TV reception mode but is required in the navigation mode according to the reception level detected by the reception level detection unit in the TV reception mode. A navigation device comprising: A TV receiving unit for receiving TV radio waves and outputting TV image data, a reception level detecting unit for detecting a reception level of the TV radio waves received by the TV receiving unit, a positioning unit for positioning the own position, and map data A map data control unit for reading map data from a storage medium in which is stored a display means for displaying TV image data and map data, and a TV for displaying TV image data output from the TV receiving unit on the display unit. A selection unit that selects a reception mode and a navigation mode for displaying the own position output from the positioning unit and the map data output from the map data control unit on the display unit; According to a reception level detected by a level detection unit, the positioning unit, a control unit that controls power supply to the map data control unit, Navigation device and butterflies. Wherein, when said reception level is below a predetermined level, at least the navigation device according to claim 2, characterized in that the OFF the power supply to the map data controller before the positioning unit . A navigation device capable of switching between a TV reception mode for receiving TV radio waves and displaying TV image data and a navigation mode for displaying a measured position on map data, and a reception level for detecting a reception level of the TV radio waves In the TV reception mode, according to the reception level detected by the reception level detection unit, the power supply to the circuit unit not required in the TV reception mode but required in the navigation mode and the output of the clock signal are performed in the TV reception mode. A navigation device, comprising: a control unit for controlling. A TV receiving unit for receiving TV radio waves and outputting TV image data, a reception level detecting unit for detecting a reception level of the TV radio waves received by the TV receiving unit, a positioning unit for positioning the own position, and map data A map data control unit for reading map data from a storage medium in which is stored a display means for displaying TV image data and map data, and a TV for displaying TV image data output from the TV receiving unit on the display unit. A selection unit that selects a reception mode and a navigation mode for displaying the own position output from the positioning unit and the map data output from the map data control unit on the display unit; Controlling power supply to the positioning unit and the map data control unit and output of a clock signal according to the reception level detected by the level detection unit. Navigation apparatus characterized by comprising a control unit. Wherein, when said reception level is below a predetermined level, claims, characterized in that the OFF output of at least the power supply and clock signal to the map data controller before the positioning unit 6. The navigation device according to 5 . The navigation device according to any one of claims 1, 2 , 4, and 5, wherein the reception level is an electric field strength of a TV radio wave.

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