JP2005124093A - Cellular phone with camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cellular phone with a camera capable of suppressing a decrease in the throughput of a control portion to the minimum, and reducing poor reception at a receiving portion without stopping camera operation. <P>SOLUTION: The cellular phone with the camera comprises a divider portion 11 for dividing a CPU clock to generate a camera reference clock, a clock multiplication means for multiplying the camera reference clock generated at the divider portion 11 to generate a camera operation clock, a determination means for determining whether the camera operation clock interferes with a relevant radio channel or not, based on channel information from a radio portion 40, and a camera operation clock generation / switching portion 32 for switching to the camera operation clock of a frequency, which does not interfere with, and for outputting it, if the determination means determines that the generated camera operation clock interferes with the relevant radio channel. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a camera-equipped cellular phone, and more particularly to a camera-equipped cellular phone that can prevent a radio unit reception failure due to a clock signal during camera operation.

For example, in the case of a camera-equipped mobile phone having a wireless frequency band of 1.5 GHz, a channel is assigned at an interval of 25 KHz between 1477 MHz and 1501 MHz, and a clock signal during camera operation (camera operation) When the radiation of the harmonic component of the clock) is close to the radio channel frequency used by the radio unit and the intensity thereof is large, the radio unit is disturbed, resulting in poor reception.
For this reason, the conventional camera-equipped mobile phone changes the CPU clock frequency of the control unit of the mobile phone and changes to the frequency of the camera operation clock synchronized with it for the purpose of reducing poor reception of the radio unit due to the camera operation clock. I was letting.

Alternatively, when the control signal from the base station is intermittently received as in the mobile phone shown in Patent Document 1 (Japanese Patent Laid-Open No. 2002-261880), the camera operation clock is being received while the control signal is being received. Is not input to the radio unit of the imaging data from the camera (that is, the operation of the camera itself is stopped), and the imaging data is input from the camera during a period when the control signal from the base station is not received. It was.
JP 2002-261880 A (FIG. 1, paragraph 0011)

In a conventional camera-equipped mobile phone, the processing capability of the control unit decreases when the CPU clock frequency is changed to a low value.
Further, the mobile phone disclosed in Patent Document 1 has a problem that the camera operation stops while receiving a control signal.

  The present invention has been made to solve the above-described problems, and it is possible to minimize a decrease in processing capability of the mobile phone control unit, and to perform reception failure of the radio unit without stopping the camera operation. An object is to obtain a camera-equipped mobile phone that can reduce the noise.

  The camera-equipped cellular phone according to the present invention operates by dividing the CPU clock generated by the CPU clock generation unit to generate a camera reference clock and the CPU clock generated by the CPU clock generation unit. Based on the cellular phone control unit, the clock multiplying unit for multiplying the camera reference clock generated by the frequency dividing unit to generate the camera operation clock used by the camera unit, and the channel information of the radio frequency used by the radio unit The determination means for determining whether or not the camera operation clock generated by the clock multiplication means interferes with the wireless channel, and the determination that the camera operation clock generated by the clock multiplication means does not interfere with the wireless channel. If the means determines, the generated camera operation clock is output as it is, and the above clock multiplication is performed. If the determination means determines that the camera operation clock generated by the means interferes with the wireless channel, a camera operation clock switching unit that switches and outputs the camera operation clock with a frequency that does not interfere with the wireless channel; A camera unit that operates according to the camera operation clock output from the camera operation clock switching unit.

  The camera-equipped mobile phone according to the present invention generates a CPU clock having a plurality of frequencies and outputs the CPU clock by switching to any one of the CPU clocks, and outputs the CPU clock from the CPU clock generation / switching unit. A frequency dividing unit that divides the CPU clock and outputs a camera operation clock, a mobile phone control unit that operates with a CPU clock output from the CPU clock generation / switching unit, and channel information of radio frequency used by the radio unit Based on this, the CPU clock output from the CPU clock generation / switching unit is switched, and the camera operation clock output from the frequency division unit is output from the CPU clock generation / switching unit so as not to interfere with the wireless channel. Change the division ratio of the frequency divider in conjunction with the CPU clock frequency. And camera operation clock changing means for changing the frequency of the camera operation clock, in which a camera unit operated by the camera operation clock output from the camera operation clock changing means.

  The camera-equipped mobile phone according to the present invention is generated by a clock multiplying unit for multiplying a camera reference clock to generate a camera operation clock for use in the camera unit, and a clock multiplying unit based on channel information of a radio frequency used by the radio unit And determining means for determining whether or not the camera operating clock interferes with the wireless channel, and when the camera operating clock generated by the clock multiplying means determines that the wireless channel is disturbed, the wireless channel Since the output is switched to the camera operation clock having a frequency that does not interfere with the signal, the reception failure of the wireless unit can be reduced without stopping the camera operation. Furthermore, since the CPU clock is not changed, it is possible to minimize a decrease in processing capability of the mobile phone control unit.

  The camera operation clock changing means of the camera-equipped mobile phone according to the present invention prevents the camera operation clock output from the frequency division unit from interfering with the radio channel based on the radio frequency channel information used by the radio unit. Since the frequency division ratio of the frequency divider is changed in conjunction with the frequency of the CPU clock output from the CPU clock generation / switching unit, the amount of change in the CPU clock is minimized, and the wireless unit can be operated without stopping the camera operation. Reception failures can be reduced.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
In addition, the same code | symbol represents the same or equivalent thing between each figure.
Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of a main part of the camera-equipped mobile phone according to the first embodiment.
As shown in the figure, the CPU clock generated by the CPU clock generation unit 20 is input to the frequency division unit 11 of the control unit 10, and the CPU unit / camera including the CPU unit, the camera image data processing unit, and the memory unit. The data is input to the image data processing unit / memory unit 12.
The frequency divider 11 divides the input CPU clock by a predetermined frequency dividing ratio to generate a camera reference clock used in the camera module 30.
The display unit 50 is a liquid crystal display panel or the like, and performs monitor display of the camera image and various data processed by the CPU unit, camera image data processing unit, and memory unit 12.
The CPU unit in the CPU unit, the camera image data processing unit, and the memory unit 12 is operated by the CPU clock generated by the CPU clock generation unit 20 and has a function of controlling the operation of the entire mobile phone. It is.

The camera reference clock is input to the camera operation clock generation / switching unit 32 of the camera module unit 30, and the camera module unit 30 is a camera operation that is a clock for actually operating the camera using the input camera reference clock. Generate a clock.
The camera operation clock generation / switching unit 32 is input with information about the channel used by the radio unit 40 (that is, channel information), and the camera operation clock output from the camera operation clock generation / switching unit 32 is If the frequency is likely to cause reception failure in the wireless channel, the frequency is switched to a camera operation clock having a frequency that does not cause reception failure in the wireless channel.

  Although a specific configuration of the radio unit 40 is not shown, the radio unit 40 demodulates an RF (radio frequency) signal received from an antenna (not shown) into a baseband signal, and passes through a D / A converter. Audio is output from a speaker, an audio signal input from a microphone is input as a baseband signal via an A / D converter, the baseband signal is modulated into an RF signal, and transmitted from the antenna 2. The baseband signal includes various digital data such as image data captured by the camera in addition to the audio signal.

The operation of the camera-equipped mobile phone according to the present embodiment will be described below using a specific example.
For example, in the case of a 1.5 GHz band mobile phone, the radio frequency used in the radio unit 40 is 1477 MHz to 1501 MHz, and channels are allocated at intervals of 25 KHz between these frequencies. Has a plurality of channels called “perches”.
At the time of standby, communication is periodically performed on a channel called “perch”, and control including actual call channel setting is performed.

If a reception failure occurs in the perch channel itself, the system cannot be established. Therefore, it is necessary to use a frequency that does not interfere with the perch channel as the camera operation clock.
The radio unit 40 starts a call on the channel selected using the perch channel.
Then, the camera operation clock generation / switching unit 32 receives channel information (from the wireless unit 40 before the call starts) so that the radiation by the camera operation does not interfere with the radio frequency of the channel selected by the wireless unit 40. In other words, the camera operation clock is switched with reference to information on which channel the radio unit 40 uses to talk.

  That is, the camera operation clock generation / switching unit 32 shown in FIG. 1 multiplies the camera reference clock generated by the frequency dividing unit 11 to generate a camera operation clock used by the camera unit 31 (not shown). ), Determination means (not shown) for determining whether the camera operation clock generated by the clock multiplication means interferes with the radio channel based on the channel information of the radio frequency used by the radio unit 40, and the clock If the determination means determines that the camera operation clock generated by the multiplication means does not interfere with the wireless channel, the camera operation clock generated as it is is output, and the camera operation clock generated by the clock multiplication means is the wireless channel. If the determination means determines that interference is present in the And a camera operation clock switching means (not shown) to be output is switched to camera operating clock.

For example, when the camera operating clock is 12.6 MHz, a harmonic component 118 times that of 12.6 MHz (that is, a frequency component of 1486.8 MHz) interferes with the wireless channel 392ch (channel frequency: 1486/8 MHz), and the camera A harmonic component (that is, a frequency component of 1499.4 MHz) that is 119 times the operating clock of 12.6 MHz interferes with the radio channel 896ch (channel frequency of 1499/4 MHz).
For this reason, the camera operation clock generation / switching unit 32 obtains channel information from the radio unit 40, so that the camera operation clock generated by multiplying the camera reference clock may interfere with the radio channel. Switches to a camera operation clock having a frequency that does not interfere with the wireless channel, and operates the camera unit 31.

  For example, when the wireless unit 40 uses the wireless channel 392ch (channel frequency: 1486/8 MHz), the camera operation clock generation / switching unit 32 uses the wireless channel 392ch (channel frequency: 1486/8 MHz). Based on the channel information, the camera operation clock having a frequency that does not generate a harmonic of 1486/8 MHz is generated, and the generated camera operation clock is switched to be output.

The CPU clock, frequency division ratio, camera reference clock, and camera operation clock have the following combinations.
CPU clock division ratio Camera reference clock Camera operation clock 31.5MHz 2/7 9.0MHz 9.0MHz
・ 〃 〃 〃 13.5MHz
(9.0 MHz x 1.5 times)
For the camera operation clock generation / switching unit 32, a multiplication circuit or the like which is a frequency multiplication (for example, 1.5 multiplication) means using a PLL is used.

As described above, the camera-equipped mobile phone according to the present embodiment divides the CPU clock generated by the CPU clock generation unit 20 to generate the camera reference clock, and the frequency division unit 11. Multiplying the camera reference clock generated by the camera unit 31 to generate a camera operation clock for use by the camera unit 31, and a camera operation clock generated by the clock multiplication unit based on the radio frequency channel information used by the radio unit 40 If the determination means determines that the camera operating clock generated by the clock multiplying means does not interfere with the wireless channel, the camera operating clock generated Is output as it is, and the camera operating clock generated by the clock multiplier means interferes with the wireless channel. The camera operating clock generating / switching unit 32 including camera operating clock switching means for switching to a camera operating clock having a frequency that does not interfere with the wireless channel and outputting the camera operating clock. A camera unit 31 that operates according to the camera operation clock output from the camera operation clock switching unit of the switching unit 32 is provided.
As a result, it is possible to reduce the reception failure of the wireless unit without stopping the camera operation, and to prevent the processing capability of the mobile phone control unit from being lowered to the minimum.

Embodiment 2. FIG.
FIG. 2 is a block diagram showing a configuration of a main part of the camera-equipped mobile phone according to the second embodiment.
In the camera-equipped mobile phone according to the first embodiment, a camera operation clock generation / switching unit 32 is provided in the camera module unit 30, and the camera operation clock generation / switching unit 32 outputs based on channel information from the wireless unit 40. When there is a possibility that the frequency of the camera operation clock may interfere with the radio channel, the camera operation clock is switched to a frequency that does not cause the interference.
On the other hand, in the camera-equipped mobile phone according to the present embodiment, the camera module unit 30 is not provided with the camera operation clock generation / switching unit 32, and instead of the CPU clock generation unit 20 in the first embodiment, the wireless unit 40 is provided. Is provided with a CPU clock generation / switching unit 21 to which channel information (that is, information on which channel the radio unit 40 uses) is input, and the frequency divider 11 also includes a channel from the radio unit 40. Information is input.

The CPU clock generator / switcher 21 generates a plurality of CPU clocks having different frequencies, and switches and outputs the CPU clock generated corresponding to the channel information from the wireless unit 40.
The controller 10 operates in response to the CPU clock output from the CPU clock generator / switcher 21.
The CPU clock input to the control unit 10 is frequency-divided by the frequency dividing unit 11 and sent to the camera unit 31 of the camera module unit 30 as a camera operation clock.
The CPU clock is also input to a CPU unit / camera image data processing unit / memory unit 12 including a CPU unit, a camera image data processing unit, and a memory unit.
At this time, the CPU clock generator / switcher 21 receives the channel information from the wireless unit 40 and generates an appropriate clock frequency as the CPU clock.
The CPU unit in the CPU unit, the camera image data processing unit, and the memory unit 12 is operated by the CPU clock output from the CPU clock generation / switching unit 21 and has a function of controlling the operation of the entire mobile phone. Part.

The CPU clock input to the control unit 10 is frequency-divided by the frequency division unit 11 and sent to the camera unit 31 of the camera module unit 30 as a camera operation clock. The frequency division unit 11 receives channel information from the radio unit 40. The frequency division ratio is switched in conjunction with the change in the CPU clock frequency from the CPU clock generation / switching unit 21.
That is, the control unit 10 divides the CPU clock output from the CPU clock generation / switching unit 21 to output the camera operation clock, and the radio frequency channel information used by the radio unit 40. The CPU clock output from the CPU clock generation / switching unit 21 and the CPU clock output from the CPU clock generation / switching unit 21 so that the camera operation clock output from the frequency division unit 11 does not interfere with the wireless channel. Camera operation clock changing means (not shown) is provided for changing the frequency of the camera operation clock by changing the frequency division ratio of the frequency divider 11 in conjunction with the frequency.
Accordingly, it is possible to generate a camera operation clock having a frequency at which the harmonic component does not interfere with the channel used by the radio unit 40 while minimizing the amount of change in the CPU clock frequency.

For example, the CPU clock output from the CPU clock generator / switcher 21, the frequency division ratio in the frequency divider 11, and the camera operation clock output from the frequency divider 11 have the following combinations.
CPU clock frequency division ratio Camera operation clock 31.50 MHz 2/5 12.6 MHz
・ 28.35MHz 1/2 14.175MHz
As described above, in the present embodiment, the channel ratio from the radio unit 40 is referred to and the frequency division ratio is changed for each CPU clock, so that the amount of change in the CPU clock is minimized and the harmonics are reduced. It is possible to generate a camera operation clock having a frequency at which the wave component does not interfere with the channel used by the radio unit 40.

  INDUSTRIAL APPLICABILITY The present invention is useful for a terminal device that shares a wireless unit that is susceptible to noise and a functional unit (for example, a camera) that generates a large amount of noise, such as a mobile phone with a camera.

1 is a diagram illustrating a configuration of a main part of a camera-equipped mobile phone according to Embodiment 1. FIG. 6 is a diagram showing a configuration of a main part of a camera-equipped mobile phone according to Embodiment 2. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Control part 11 Dividing part 12 CPU part / Camera image data processing part / Memory part 13 Camera I / F part 20 CPU clock generation part 21 CPU clock generation / switching part 30 Camera module part 31 Camera part 32 Camera operation clock generation / Switching unit 40 Radio unit 50 Display unit

Claims (2)

A frequency divider that divides the CPU clock generated by the CPU clock generator to generate a camera reference clock;
A mobile phone controller that operates with a CPU clock generated by the CPU clock generator;
Clock multiplying means for multiplying the camera reference clock generated by the frequency dividing unit to generate a camera operation clock for use in the camera unit;
Determining means for determining whether or not the camera operation clock generated by the clock multiplying means based on channel information of the radio frequency used by the radio unit interferes with the radio channel;
When the determination unit determines that the camera operation clock generated by the clock multiplication unit does not interfere with the wireless channel, the generated camera operation clock is output as it is, and the camera operation clock generated by the clock multiplication unit is generated. Camera operation clock switching means for switching to and outputting a camera operation clock having a frequency that does not interfere with the wireless channel,
A camera-equipped mobile phone comprising: a camera unit that operates according to a camera operation clock output from the camera operation clock switching means. A CPU clock generation / switching unit that generates a CPU clock having a plurality of frequencies and outputs the CPU clock by switching to one of the CPU clocks;
A frequency dividing unit that divides the CPU clock output from the CPU clock generation / switching unit and outputs a camera operation clock;
A mobile phone control unit that operates with a CPU clock output from the CPU clock generation / switching unit;
Based on the channel information of the radio frequency used by the radio unit, the CPU clock generation / switching unit generates the CPU clock to be output and the camera operation clock output from the frequency division unit interferes with the radio channel. Camera operation clock changing means for changing the frequency of the camera operation clock by changing the frequency division ratio of the frequency division unit in conjunction with the frequency of the CPU clock output from the CPU clock generation / switching unit so as not to give,
A camera-equipped mobile phone comprising: a camera unit that operates according to a camera operation clock output from the camera operation clock changing means.

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