JPH06188843A - Electronic equipment - Google Patents

Abstract

PURPOSE:To reduce an electromagnetic radiation noise radiated from a communication antenna by filtering a communication frequency at a ground and a power source between a communication circuit and a logical arithmetic circuit. CONSTITUTION:This device is constituted of a communication antenna 510, ground 3 of a CPU circuit substrate 1, ground 4 of a communication circuit substrate 2, and inductor 70 connecting the ground 3 of the CPU circuit substrate 1 with the ground 4 of the communication circuit substrate 2, which is turned to a high impedance in a communication frequency band. The noise in the communication frequency band generated at the ground 3 of the CPU circuit can be prevented from being transmitted to the communication circuit by filtering the communication frequency. Thus, the noise can be prevented from oscillating at the communication antenna 510, and the noise can be prevented from being radiated to the outside of an electronic equipment.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic device, and more particularly to electromagnetic compatibility of an electronic device for wireless communication.

[0002]

2. Description of the Related Art As a communication means between electronic devices, there is a case where a wireless data transmission system by radio waves that is easily accessed by a mobile body is used.

In the case of such electronic equipment, in order to prevent noise from intruding into the circuit board of the communication circuit from the circuit board of the logic circuit, a noise countermeasure latest technology editing committee, general technology publication (1986) ), Pp303-308,
As described in "Latest Noise Prevention Technology", the communication circuit board and the logic circuit board are separated, and noise generated in the logic circuit is made difficult to transmit to the communication circuit, thereby preventing an obstacle on the communication circuit. ing.

[0004]

In the above prior art, when common mode noise is generated in the ground or power supply of the logic operation circuit due to the operation of the clock of the logic operation circuit, the communication circuit is connected via the power supply or ground. May be transmitted to. By the way, in a communication circuit, a communication frequency band may overlap with a clock frequency necessary for a logical operation of an electronic device or a frequency band of its harmonic. Therefore, there is a problem that the noise transmitted to the communication circuit resonates with the communication antenna and is radiated to the outside without adversely affecting the communication circuit itself.

An object of the present invention is to provide a device for reducing electromagnetic radiation noise radiated from a communication antenna. Another object of the present invention is to provide a device that prevents electromagnetic radiation noise received by a communication antenna from being transmitted to a logical operation circuit.

[0006]

As a means for achieving the above object, a filter for cutting a frequency band used for communication is provided in a ground and a power supply section connecting a communication circuit and a logic operation circuit.

[0007]

According to the present invention, since the noise generated in the logical operation circuit does not resonate in the communication antenna, the electromagnetic radiation noise radiated from the electronic device can be gradually reduced.

Further, according to the present invention, since the external noise received by the communication antenna can be prevented from being transmitted to the logical operation circuit, the present invention can prevent the logical operation circuit from malfunctioning.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described below with reference to FIG. FIG. 1 shows a wireless LAN (local area network) with a frequency of 400 MHz band.
It is a block diagram at the time of applying this invention to the personal computer which performs k). In FIG. 1, 1 is a CPU circuit board and 2 is a communication circuit board. Further, 3 is a ground plane of the CPU circuit board 1, and 4 is a ground plane of the communication circuit board 2. In the CPU circuit board 1, 110 is a CPU, 120 is a crystal oscillator, 130 is a bus controller, 140 is a memory controller, 150 is a floppy disk drive (FDD), 160 is a hard disk drive (HDD), 170 is memory, and 180 is a communication controller. Is. Further, 210 and 220 are bus lines. 310 is the ground of the CPU, and similarly 3
20 is a crystal oscillator ground, 330 is a bus controller ground, 340 is a memory controller ground, 350 is an FDD ground, 360 is a hard disk drive ground, 370 is a memory ground, 3
80 is the ground of the communication controller. Also, 70
Is a chip inductor that connects the ground plane 3 of the CPU circuit board and the ground plane of the communication circuit board.

In the communication circuit 2, 510 is a communication antenna and 5
Reference numeral 20 is a microwave modulation circuit, and 530 is a microwave demodulation circuit. 610 is the ground of the communication antenna, 6
Reference numeral 20 is a ground of the microwave modulation circuit, and 630 is a ground of the microwave demodulation circuit.

Next, the operation of this embodiment will be described. The CPU circuit board 1 includes a CPU 110 and a crystal oscillator 1.
20, bus controller 130, memory controller 1
40, FDD 150, HDD 160, memory 170, and other components that operate in frequency are mounted. Other than that, there are signal lines such as the buses 210 and 220 that operate periodically. As a result, the common mode current of the operating frequency and its harmonic components flows in the ground plane 3 of the CPU circuit board. Here, the inductor 70 has a characteristic of high impedance in the communication frequency band of the communication antenna, which is 400 MHz or higher. Therefore, a frequency of 400 MHz or higher of the common mode current flowing through the ground plane 3 of the CPU circuit board is not transmitted to the ground plane 4 of the communication circuit board. The noise in the frequency band of 400 MHz or less transmitted to the ground plane 4 of the communication circuit board does not resonate in the communication antenna, so electromagnetic radiation noise is not radiated outside from the antenna. This makes it possible to prevent other devices from being damaged by electromagnetic waves.

In the inductor 70, signals and noise in the 400 MHz band received from the communication antenna are transmitted from the ground plane 4 of the communication circuit board to the ground plane 3 of the CPU circuit board, and the CPU circuit malfunctions from there. There is also an effect to prevent. Further, in the present embodiment, the communication controller 180 and the microwave modulation circuit 5
20 and the transmission frequency of the microwave demodulation circuit 530 are
It is lower than the wireless communication frequency, and signal line 7
Inductor 70 is arranged near 5, 76. Since the impedance of the inductor 70 is low in the transmission frequency band of the signal line, discontinuity of impedance does not occur in the signal line between the CPU circuit and the communication circuit. As a result, the communication controller 180 and the microwave modulation circuit 52 are
0 and the signal of the microwave demodulation circuit 530 can be transmitted without distortion. Further, since the signal line length can be minimized, the mounting area can be reduced.

Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 2 is a block diagram when the present invention is applied to a personal computer that wirelessly communicates with a keyboard at a radio frequency of 400 MHz band. In FIG. 2, reference numeral 1 is a CPU circuit board, and 2 is a communication circuit board. Further, 3 is a ground plane of the CPU circuit board 1, and 4 is a ground plane of the communication circuit board 2. In the CPU circuit board 1, 110 is a CPU, 120 is a crystal oscillator, 130 is a bus controller, 140 is a memory controller, and 150 is a floppy disk drive F.
DD, 160 is a HDD, 170 is a memory, and 180 is a keyboard controller. Also, 210 and 220 are
It is a bus line. 310 is the CPU ground,
Similarly, 320 is the crystal oscillator ground, 330 is the bus controller ground, 340 is the memory controller ground, 350 is the FDD ground, 360 is the hard disk drive ground, 370 is the memory ground, and 380 is the communication controller ground. . Further, 71 is a three-terminal capacitor that connects the ground plane 3 of the CPU circuit board and the ground plane of the communication circuit board, and 81 is a frame ground of the housing.

In the communication circuit 2, 510 is a communication antenna and 5
Reference numeral 20 is a microwave modulation circuit, and 530 is a microwave demodulation circuit. 610 is the ground of the communication antenna, 6
Reference numeral 20 is a ground of the microwave modulation circuit, and 630 is a ground of the microwave demodulation circuit.

Next, the operation of this embodiment will be described. The CPU circuit board 1 includes a CPU 110 and a crystal oscillator 1.
20, bus controller 130, memory controller 1
40, FDD 150, HDD 160, memory 170, and other components that operate in frequency are mounted. Other than that, there are signal lines that operate periodically such as the buses 210 and 220. As a result, the common mode current of the operating frequency and its harmonic components flows in the ground plane 3 of the CPU circuit board. Here, the three-terminal capacitor 71 is
In the 400 MHz band or higher, which is the communication frequency band of the communication antenna, the insertion loss is large. Therefore, a frequency of 400 MHz or higher of the common mode current flowing through the ground plane 3 of the CPU circuit board is not transmitted to the ground plane 4 of the communication circuit board. 400 transmitted to the ground plane 4 of the communication circuit board
At frequencies below MHz, since the communication antenna does not resonate, electromagnetic radiation noise is not radiated to the outside from the antenna. This makes it possible to prevent other devices from being damaged by electromagnetic waves.

Next, a third embodiment of the present invention will be described with reference to FIG. FIG. 3 is a block diagram when the present invention is applied to a personal computer equipped with a wireless mobile telephone function. In FIG. 3, 1 is a CPU circuit board,
2 is a communication circuit board. In addition, 3 is a CPU circuit board 1
The ground planes 4 and 4 are ground planes of the communication circuit board 2. 5 is a power plane of the CPU circuit board 1,
6 is a power plane of the communication circuit board. In the CPU circuit board 1, 110 is a CPU, 120 is a crystal oscillator, and 130.
Is a bus controller, 140 is a memory controller, 1
50 is a floppy disk drive (FDD), 160
Is a hard disk drive (HDD), 170 is a memory, and 182 is a modem, by which personal computer communication using a telephone line can be performed wirelessly. Also 210 and 22
0 is a bus line. 310 is the CPU ground, 320 is the crystal oscillator ground, 330 is the bus controller ground, 340 is the memory controller ground, 350 is the FDD ground, 360 is the hard disk drive ground, and 370 is the memory ground. Reference numeral 380 is the ground of the communication controller. Further, 70 is a chip inductor connecting the ground plane 3 of the CPU circuit board and the ground plane of the communication circuit board, and 72 is a chip inductor connecting the power supply plane 3 of the CPU circuit board and the power supply plane of the communication circuit board.

In the communication circuit 2, 510 is a communication antenna and 5
Reference numeral 20 is a microwave modulation circuit, and 530 is a microwave demodulation circuit. 610 is the ground of the communication antenna, 6
Reference numeral 20 is a ground of the microwave modulation circuit, and 630 is a ground of the microwave demodulation circuit.

Next, the operation of this embodiment will be described. The CPU circuit board 1 includes a CPU 110 and a crystal oscillator 1.
20, bus controller 130, memory controller 1
40, FDD 150, HDD 160, memory 170, and other components that operate in frequency are mounted. Other than that, there are signal lines such as the buses 210 and 220 that operate periodically. As a result, the common mode current of the operating frequency and its harmonic components flows through the ground plane 3 and the power plane 5 of the CPU circuit board. Here, the inductors 70 and 72 have a characteristic of high impedance in the 903 MHz band or higher, which is the communication frequency band of the communication antenna. Therefore, a frequency of 903 MHz or higher of the common mode current flowing through the ground plane 3 and the power plane 5 of the CPU circuit board is not transmitted to the ground plane 4 and the power plane 6 of the communication circuit board. The noise in the frequency band of 903 MHz or less transmitted to the ground plane 4 and the power supply plane 6 of the communication circuit board does not resonate in the communication antenna, so electromagnetic radiation noise is not radiated to the outside from the antenna. This makes it possible to prevent other devices from being damaged by electromagnetic waves.

In addition, the inductors 70 and 72 reverse the signals and noise in the 903 MHz band received from the communication antenna,
It is possible to prevent the malfunction of the CPU circuit from being transmitted from the ground plane 4 or the power plane 6 of the communication circuit board to the ground plane 3 or the power plane 5 of the CPU circuit board.

[0020]

As described above, according to the present invention, by filtering the communication frequency, the noise in the communication frequency band of the noise generated in the ground of the logic circuit or the power source It prevents transmission to the circuit. Therefore, the noise does not resonate with the communication antenna, and it is possible to prevent the noise from being radiated to the outside of the electronic device.

[Brief description of drawings]

FIG. 1 is a block diagram of a personal computer that performs a wireless LAN according to a first embodiment of the present invention.

FIG. 2 is a block diagram of a personal computer with a wireless keyboard according to a second embodiment of the present invention.

FIG. 3 is a block diagram of a personal computer that performs a wireless LAN according to a third embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... CPU circuit board, 2 ... Communication circuit board, 3 ... CPU circuit board ground plane, 4 ... Communication circuit ground plane, 70 ... Chip inductor, 71 ... 3-terminal capacitor, 72 ... Chip inductor, 81 ... Frame ground, 110 ... CPU, 120 ... Crystal oscillator, 130 ... Bus controller, 140 ... Memory controller, 150 ... Floppy disk drive, 160 ... Hard disk drive, 170 ... Memory, 180 ... Communication controller, 182 ... Modem, 210 ... Bus line, 220 ... Bus line, 310 ... CPU ground, 320 ... Crystal oscillator ground, 330 ... Bus controller ground, 340 ... Memory controller ground, 350 ... Floppy disk drive ground, 360 ... Hard disk Quad drive ground, 370 ... Memory ground, 380 ... Communication controller ground, 381 ... Keyboard controller ground, 382 ... Modem ground, 510 ... Communication antenna, 520 ... Microwave modulation circuit, 530 ... Microwave demodulation circuit, 610 ... Ground of communication antenna, 620 ... Ground of microwave modulation circuit, 630 ... Ground of microwave demodulation circuit.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yoshidome, et al. 810 Shimoimaizumi, Ebina City, Kanagawa, Hitachi, Ltd. Office Computer Division (72) Inventor, Kazuo Hirota 810 Shimoimaizumi, Ebina, Kanagawa Hitachi, Ltd.Office Computer Division (72) Inventor Yutaka Akiba, 292 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Stock Engineering, Hitachi, Ltd.

Claims (5)

[Claims] 1. A circuit for performing wireless communication and a circuit for performing a logical operation, wherein noise in a communication frequency band is present in at least one of a ground or a power supply connecting the circuits. An electronic device comprising means for excluding. 2. A means for eliminating noise in a communication frequency band according to claim 1, wherein a ground near a signal line for transmitting information between a circuit for wireless communication and a circuit for logical operation. And an electronic device equipped with a power supply. 3. The electronic device according to claim 1, wherein a chip inductor is used as means for excluding noise in the communication frequency band. 4. The electronic device according to claim 1, wherein a three-terminal capacitor is used as means for excluding noise in the communication frequency band. 5. A ground that does not include noise in the communication frequency band and at least one of a power supply, the ground and the power supply, and means for excluding noise in the communication frequency band according to claim 1. An electronic device characterized by connecting to.