JP4249683B2 - Electronic device and signal transmission / reception control method in electronic device - Google Patents

Description

  The present invention relates to an electronic device and a signal transmission / reception control method in the electronic device, and more particularly to an electronic device capable of reducing the influence of noise and a signal transmission / reception control method in the electronic device.

  In recent years, electronic devices such as mobile phone devices and various portable terminal devices have been used for various purposes and their functions have been diversified. For this reason, various electronic devices have come to realize various functions that have been diversified by a built-in CPU (Central Processing Unit). Under such a tendency, it is difficult to realize various functions which are diversified with one CPU.

  Under such circumstances, as described in Japanese Patent Application Laid-Open No. 11-85337, portable terminal devices that share various functions diversified by a plurality of CPUs have been developed.

  The portable information terminal as a portable terminal device described in the above publication includes a CPU for realizing a communication function and a CPU for realizing various service functions provided by the portable information terminal. Between the two CPUs, an information signal for transmitting / receiving information to / from each other is transmitted / received.

  FIG. 4 shows a block diagram of a foldable portable terminal device including two CPUs 11 and 21.

  As shown in FIG. 4, the foldable portable terminal device generally includes a first board portion 1 b on which a key operation unit 13 is arranged and a second board on which a liquid crystal display unit 23 is arranged. The housing is divided into the part 2b. The first board portion 1b and the second board portion 2b are structurally connected to each other by hinges. The first board unit 1b is provided with a CPU 11 for realizing a communication function, and the second board unit 2b is provided with a CPU 21 for realizing various service functions including a display function.

  Further, as shown in FIG. 4, the CPU 11 of the first board unit 1 b and the CPU 21 of the second board unit 2 b are electrically connected via the interface circuit 3. Further, the CPU 11 is connected to the interface circuit 3 via the information signal transmission / reception unit 12b. The CPU 21 is connected to the interface circuit 3 through the information signal transmission / reception unit 22b. That is, the CPU 11 and the CPU 21 are configured to transmit and receive information signals via the information signal transmission / reception unit 12b, the interface circuit 3, and the information signal transmission / reception unit 22b.

  The information signal transmitted / received between the information signal transmitting / receiving unit 12b and the information signal transmitting / receiving unit 22b via the interface circuit 3 maintains a constant value with a predetermined amplitude value. That is, the information signal is transmitted and received so that the amplitude value (voltage) of the information signal on the interface circuit 3 normally maintains a voltage value in the range of 1.8 V to 3.0 V as shown in FIG. .

  The signal waveform shown in FIG. 5 is the signal waveform of the information signal. FIG. 5A shows a case where the voltage value of the information signal of the interface circuit 3 is 3.0V. FIG. 5B shows a case where the voltage value of the information signal of the interface circuit 3 is 1.8V.

Japanese Patent Laid-Open No. 11-85337 (2nd page, FIG. 1)

  In the conventional portable terminal device described above, when the signal voltage on the interface circuit is set to a high voltage of 3.0 V, the noise resistance performance in the interface circuit is high, but the antenna sensitivity suppression and power consumption increase. Has drawbacks.

  On the other hand, when the signal voltage on the interface circuit is set to a low voltage of 1.8 V, the antenna sensitivity suppression and power consumption are reduced, but the noise resistance performance in the interface circuit is reduced. ing. In particular, when the signal voltage is set to a low voltage of 1.8 V, there is a high possibility that the clock signal will be disturbed and the operation of each CPU will be abnormal, especially when the clock signal is noisy. It also has drawbacks.

  Further, when the level of wireless transmission power becomes high, the wireless transmission signal may affect the information signal on the interface circuit as noise. Even in such a case, there is a disadvantage that the noise resistance performance in the interface circuit is lowered.

  An object of the present invention is to provide an electronic device that can achieve both reduction of antenna sensitivity suppression and power consumption and prevention of deterioration of noise resistance performance.

The electronic device of the first invention is
(A) a digital signal line through which a plurality of built-in CPUs transmit and receive information to and from each other;
(B) Information signal transmission / reception means for transmitting / receiving an information signal including the information via the digital signal line,
In electronic equipment with
(C) noise generation detection means for detecting the generation of noise on the digital signal line;
(D) When the noise occurrence is detected by the noise occurrence detection means, the information signal transmission / reception is performed so that the voltage value of the information signal is switched to a second voltage value larger than the first voltage value so far. Information signal transmission / reception control means for controlling the means;
Equipped with a,
The noise generation detection means is configured to include a comparator, and detects the generation of the noise by comparing a synthesized voltage of the information signal voltage and the noise voltage with a predetermined voltage by the comparator. Configured as

According to a second aspect of the present invention, there is provided an electronic apparatus according to the first aspect , wherein the electronic apparatus is a portable terminal device.
The electronic device according to a third aspect of the present invention is the electronic device according to the second aspect, wherein the transmission level to the radio base station is detected to be a transmission level exceeding a predetermined transmission level. Fluctuation detection means, and when the transmission level fluctuation detection means detects that the transmission level has reached a transmission level exceeding a predetermined transmission level value, the information signal transmission / reception control means The information signal transmitting / receiving means is controlled to switch the voltage value to a second voltage value larger than the first voltage value so far.
According to a fourth aspect of the present invention, there is provided the electronic device according to the first, second, or third aspect, wherein the information signal voltage value is switched to the second voltage value by the information signal transmitting / receiving means. Is configured to be switched to the first voltage value after being held for a predetermined time.

The electronic device of the fifth invention is
(A) a digital signal line through which a plurality of built-in CPUs transmit and receive information to and from each other;
(B) Information signal transmission / reception means for transmitting / receiving an information signal including the information via the digital signal line,
In an electronic device that functions as a portable terminal device,
(C) Transmission level fluctuation detecting means for detecting that the transmission level to the radio base station has become a transmission level exceeding a predetermined transmission level value;
(D) When it is detected by the transmission level fluctuation detecting means that the transmission level exceeds a predetermined transmission level value due to the fluctuation of the transmission level, the voltage value of the information signal is Information signal transmission / reception control means for controlling the information signal transmission / reception means to switch to a second voltage value larger than the voltage value of 1,
Equipped with a,
The voltage value of the information signal switched to the second voltage value by the information signal transmitting / receiving means is switched to the first voltage value after being held for a predetermined time. Is done.

According to a sixth aspect of the present invention, there is provided the electronic device according to the sixth aspect , wherein the first CPU and the second CPU that share the operation control of various functions in the apparatus, and the first CPU and the second CPU that share the respective functions. An interface circuit used for transmitting / receiving information to / from another CPU with respect to operation control of each function, and each of the first CPU and the second CPU communicates information with another CPU via the interface circuit. In an electronic device including an information signal transmission / reception unit that transmits / receives an information signal including the information to / from a counterpart CPU via the interface circuit to perform transmission / reception, a voltage of noise generated on the interface circuit and the information signal It is determined whether or not the value of the combined voltage with the voltage exceeds a predetermined third voltage value, and the value of the combined voltage is determined to be a predetermined third voltage. When the value exceeds the value, a noise generation detection unit that outputs a noise generation detection signal as detection of noise generation, and the noise generation detection signal is input from the noise generation detection unit, and the other party is connected via the interface circuit. A first voltage value switching control signal for instructing the information signal transmission / reception unit to switch the voltage value of the information signal transmitted to the CPU to a second voltage value larger than the first voltage value so far; When the predetermined first time has elapsed, the information signal transmitting / receiving unit is instructed to switch the voltage value of the information signal from the previous second voltage value to the first voltage value. An information signal voltage value switching control unit that outputs a voltage value switching control signal of 2 and a counting operation by inputting the first voltage value switching control signal output from the information signal voltage value switching control unit When it is started and counts up by counting a predetermined first time, a count-up notification signal for notifying that the first time has elapsed is output to the information signal voltage value switching control unit And a timer unit.

According to a seventh aspect of the present invention, there is provided an electronic apparatus comprising: a radio unit for performing radio communication with a radio base station; a first CPU and a second CPU that perform operation control of various functions in the apparatus; An interface circuit used for transmitting / receiving information to / from another CPU with respect to operation control of each function shared by the first CPU and the second CPU, and the first CPU and the second CPU In an electronic apparatus comprising: an information signal transmission / reception unit that transmits / receives an information signal including the information to / from a counterpart CPU via the interface circuit in order to transmit / receive the information to / from another CPU via the interface circuit Determining whether the transmission level of the radio transmission power output from the radio unit exceeds a predetermined level value, and determining that the transmission level of the radio transmission power is the predetermined level value. A transmission level fluctuation detection unit that outputs a transmission level fluctuation detection signal indicating that the transmission level of the wireless transmission power exceeds the level value when a predetermined level value is exceeded, and the information signal voltage value switching The control unit receives the transmission level variation detection signal from the transmission level variation detection unit, and the voltage value of the information signal transmitted to the counterpart CPU via the interface circuit is larger than the first voltage value so far The first voltage value switching control signal for instructing the information signal transmitting / receiving unit to switch to the second voltage value is output, and the timer unit is output from the information signal voltage value switching control unit. The voltage value switching control signal is input to start the count operation, and when the second time determined in advance is counted up, the second time has elapsed. The count-up notification signal for notifying the information signal is output to the information signal voltage value switching control unit, the count-up notification signal is input, and the information signal voltage value switching control unit sets the voltage value of the information signal until then. The second voltage value switching control signal for instructing the information signal transmitting / receiving unit to switch from the second voltage value to the first voltage value is output.

An electronic device according to an eighth aspect is the electronic device according to the sixth aspect , wherein a wireless unit for performing wireless communication with a wireless base station and a transmission level of wireless transmission power output from the wireless unit are predetermined. Whether the transmission level of the wireless transmission power exceeds the predetermined level value, the transmission level of the wireless transmission power exceeds the level value. A transmission level fluctuation detection unit that outputs a transmission level fluctuation detection signal, wherein the information signal voltage value switching control unit inputs the transmission level fluctuation detection signal from the transmission level fluctuation detection unit, and passes through the interface circuit. The first power to instruct the information signal transmission / reception unit to switch the voltage value of the information signal transmitted to the counterpart CPU to a second voltage value larger than the first voltage value so far. A value switching control signal is output, and the timer unit inputs the first voltage value switching control signal output from the information signal voltage value switching control unit to start a count operation, and a predetermined second When the count-up time is counted up, the count-up notification signal for notifying that the second time has elapsed is output to the information signal voltage value switching control unit, and the count-up notification signal is input. Then, the information signal voltage value switching control unit instructs the information signal transmission / reception unit to switch the voltage value of the information signal from the second voltage value up to that time to the first voltage value. The voltage value switching control signal is output.

An electronic device according to a ninth aspect is the electronic device according to the sixth or eighth aspect , wherein the noise generation detection unit includes a comparator, and is a combined voltage of the voltage of the information signal and the voltage of the noise. Is compared with a predetermined voltage by the comparator to detect the occurrence of the noise.

An electronic device according to a tenth aspect of the present invention is the electronic device according to the sixth , seventh , eighth, or ninth aspect , wherein the information signal is switched to the second voltage value by the information signal transmitting / receiving unit. The voltage value is switched to the first voltage value after being held for a predetermined period of time.

In addition, a signal transmission / reception control method in an electronic apparatus according to an eleventh aspect of the invention includes:
(A) The voltage value of the information signal for transmitting / receiving information on the interface circuit connecting between the first CPU and the second CPU is set to a predetermined first voltage value. A first step of transmitting and receiving the information signal;
(B) A value of a combined voltage of the voltage of the information signal and the voltage of noise generated on the interface circuit on the interface circuit is set to a predetermined third value for comparing with the voltage of the combined voltage. A second step of determining whether the voltage value is exceeded,
(C) a third step of switching the voltage value of the information signal to a second voltage value larger than the first voltage value so far when the value of the combined voltage exceeds the third voltage value ,
(D) a fourth step of determining whether or not a predetermined first time has elapsed since switching the voltage value of the information signal to the second voltage value;
(E) a fifth step of switching the voltage value of the information signal from the second voltage value to the first voltage value when the first time has elapsed;
(F) Sixth step of determining whether or not the transmission level of the wireless transmission power output by the wireless unit exceeds a predetermined level value (G) The transmission level of the wireless transmission power is determined in advance When the level value is exceeded, the voltage value of the information signal transmitted and received between the first and second CPUs on the interface circuit is greater than the predetermined first voltage value. A seventh step of switching to a second voltage value;
(H) an eighth step of determining whether or not a predetermined second time has elapsed since switching to the second voltage value;
(I) a ninth step of switching the information signal voltage value from the second voltage value to the first voltage value and returning the operation to the second step when the second time has elapsed; ,
It is comprised by performing.

  As described above, when the electronic apparatus of the present invention detects the occurrence of noise exceeding a predetermined voltage value on the digital signal line, the voltage value of the signal on the digital signal line is set to a normal set value. Configured to switch to a larger value. The electronic device according to the present invention is configured as described above, and thus has an effect that it is possible to achieve both reduction of antenna sensitivity suppression and power consumption, and prevention of deterioration of noise resistance performance. Yes.

  Also, when it is detected that the radio transmission power to the radio base station has become a transmission level exceeding a predetermined level, the voltage value of the signal on the digital signal line is larger than the normal set value. Configured to switch to a value. The electronic device according to the present invention is configured as described above, so that when the wireless transmission power level increases, the influence of the wireless transmission signal as noise on the signal on the digital signal line can be reduced. The electronic apparatus according to the present invention, which is configured as described above, has an effect that it is possible to achieve both reduction of antenna sensitivity suppression, reduction of power consumption, and prevention of deterioration of noise resistance performance.

  The present invention is applied to an electronic apparatus having a digital signal line connecting a plurality of CPUs for transmitting and receiving information. When a certain level of noise is detected on the digital signal line, the voltage value of the information signal transmitted / received via the digital signal line is switched to a value larger than the normal set value. With such a configuration, it is possible to achieve both reduction of antenna sensitivity suppression, reduction of power consumption, and prevention of deterioration of noise resistance performance.

  Further, the present invention sets the value of the voltage of the signal on the digital signal line to a value larger than the normal set value when it is detected that the wireless transmission power has become a transmission level exceeding a predetermined level value. Configured to switch. With such a configuration, it is possible to achieve both reduction of antenna sensitivity suppression, reduction of power consumption, and prevention of deterioration of noise resistance performance.

  Further, the present invention combines detection of noise on a digital signal line with detection of a transmission level exceeding a predetermined level value, and by either detection, the signal voltage value is larger than a normal set value. It is also configured to switch to a value. With such a configuration, it is possible to further achieve both reduction of antenna sensitivity suppression, reduction of power consumption, and prevention of deterioration of noise resistance performance.

  Next, embodiments of the present invention will be described with reference to the drawings.

  In the following description of the embodiments, a case of a portable terminal device will be described as an example of an electronic apparatus according to an embodiment of the present invention.

  FIG. 1 is a block diagram showing a configuration of an embodiment of a portable terminal device as an electronic apparatus of the present invention. FIG. 2 is an explanatory diagram for explaining the operation of the portable terminal device shown in FIG.

  The portable terminal device of FIG. 1 includes a first board unit 1a having a key operation unit 13, a second board unit 2a having a liquid crystal display unit 23, a first board unit 1a, and a second board unit 2a. And an interface circuit 3 functioning as a digital signal line.

  The first board unit 1a includes a CPU 11 (first CPU) that performs operation control of each function including a communication function, which is realized in the first board unit 1a. On the other hand, the second board unit 2a includes a CPU 21 (second CPU) that performs operation control of each function realized in the second board unit 1a.

  The first board unit 1a includes an information signal transmission / reception unit 12a that transmits an information signal 37a including information that the CPU 11 transmits to the CPU 21 of the second board unit 2a. The information signal transmission / reception unit 12a receives an information signal 37b including information transmitted from the CPU 21 of the second board unit 2a.

  The second board unit 2a includes an information signal transmitting / receiving unit 22a that transmits an information signal 37b including information transmitted from the CPU 21 to the CPU 11 of the first board unit 1a. The information signal transmission / reception unit 22a receives an information signal 37a including information that the CPU 21 receives from the CPU 11 of the first board unit 1a.

  The first board unit 1 a includes a noise generation detection unit 15, an information signal voltage value switching control unit 14, and a timer unit 16.

  The noise generation detection unit 15 receives the interface circuit signal voltage 31 that is a composite voltage of the voltage of the information signal 37 b output from the information signal transmission / reception unit 22 a and the noise voltage generated on the interface circuit 3. When the noise 38 as shown in FIG. 2 is generated on the interface circuit 3, the noise generation detection unit 15 detects the generation of the noise 38 and sends the noise generation detection signal 32 to the information signal voltage value switching control unit 14. Output. The information signal voltage value switching control unit 14 changes the voltage value of the information signal 37a transmitted on the interface circuit 3 when noise 38 is generated from 3.0V (first voltage value) at the normal time to 3.0V. The information signal transmission / reception unit 12a is controlled to increase to (second voltage value). The information signal voltage value switching control unit 14 outputs the first voltage value switching control signal 33 to the information signal transmitting / receiving unit 12a to control the information signal transmitting / receiving unit 12a. Also, the timer unit 16 increases the voltage value of the information signal 37a to 1.8V when a predetermined time has elapsed after raising the voltage value of the transmitted information signal 37a to 3.0V. A count-up notification signal 34, which is a timing signal, is generated so as to return.

  The noise generation detection unit 15 includes a comparator circuit (not shown). The comparator circuit compares a combined voltage (not shown) of the voltage of the noise 38 generated on the interface circuit 3 and the voltage of the information signal 37b with 1.9 V (third voltage). This 1.9 V is a voltage set in advance in the noise generation detector 15 as a reference voltage 39 (see FIG. 2) for comparison with the voltage of the combined voltage. As a result of this comparison, when the value of the composite voltage exceeds 1.9 V, the output signal of the comparator circuit that was “H level (high level)” until then becomes “L level (low level)”. Thus, pulses 41a to 41c as shown in FIG. 2 are output.

  When the pulse width of the pulse 41 a exceeds a predetermined value, the noise generation detection unit 15 outputs a noise generation detection signal 32 indicating the generation of noise to the information signal voltage value switching control unit 14. Further, when the pulse width of the pulse 41a does not exceed the predetermined value, it is determined whether or not the pulse width of the next pulse 41b exceeds the predetermined value. When the pulse width of 41b does not exceed the predetermined value, it is further determined whether or not the pulse width of the pulse 41c exceeds the predetermined value. In this way, the pulse width of each pulse is examined sequentially. When none of the pulse widths of the examined pulses 41a to 41c exceeds a predetermined value, the noise generation detection unit 15 does not output the noise generation detection signal 32.

  The first board unit 1 a includes a radio unit 17 and a transmission level fluctuation detection unit 18. The transmission level fluctuation detection unit 18 detects the transmission level fluctuation when the transmission level of the radio transmission power to the radio base station of the radio unit 17 fluctuates and becomes high, and transmits the transmission level fluctuation detection signal 35. It outputs to the information signal voltage value switching control unit 14. The information signal voltage value switching control unit 14 to which the transmission level fluctuation detection signal 35 has been input is the information signal transmission / reception unit so as to increase the voltage value of the information signal transmitted on the interface circuit 3 in the same manner as when noise 38 is generated. 12a is controlled.

  Next, the operation will be described.

  First, an information signal including information transmitted / received between the CPU 11 of the first board unit 1a and the CPU 21 of the second board unit 2a will be described.

  Information transmitted / received between the CPU 11 of the first board unit 1a and the CPU 21 of the second board unit 2a is information signals 37a, 37b transmitted / received between the information signal transmitting / receiving unit 12a and the information signal transmitting / receiving unit 22a. Are transmitted and received on the interface circuit 3.

  The voltage value indicating the amplitude value of the information signal 37a from the information signal transmitting / receiving unit 12a to the information signal transmitting / receiving unit 22a is also the voltage value indicating the amplitude value of the information signal 37b from the information signal transmitting / receiving unit 22a to the information signal transmitting / receiving unit 12a. Both are normally set to 1.8V. The voltage value of the information signal 37a from the information signal transmitting / receiving unit 12a to the information signal transmitting / receiving unit 22a is set in the information signal transmitting / receiving unit 12a. Further, the voltage value of the information signal 37b transmitted from the information signal transmission / reception unit 22a to the information signal transmission / reception unit 12a is set in the information signal transmission / reception unit 22a.

  As will be described later, when the occurrence of noise is detected on the interface circuit 3, the voltage values of the information signals 37a and 37b, which are normally set to 1.8 V, are obtained at the information signal transmitting and receiving units 12a and 22a. Each is switched to 3.0V. When the voltage values of the information signals 37a and 37b are switched to 3.0V, the state continues for a predetermined period (a period indicated by the arrow 40).

  Further, even when it is detected that the transmission level of the wireless transmission power fluctuates and becomes high, the voltage values of the information signals 37a and 37b are 1 It is switched from .8V to 3.0V. Even at this time, when the voltage values of the information signals 37a and 37b are switched to 3.0 V, the state continues for a predetermined period (a period indicated by the arrow 40).

  As shown in FIG. 2, when the voltage values of the information signals 37a and 37b are switched to 3.0 V for a predetermined period, the output signal of the comparator circuit of the noise generation detector 15 is also at the L level. , Pulses 42a to 42e are output from the comparator circuit. However, even if the L level pulse of the comparator circuit output is generated during a predetermined period after the noise generation detection signal 32 is output, the noise generation detection unit 15 changes the pulse output at this time. Based on this, processing for outputting the noise occurrence detection signal 32 is not performed. Therefore, the pulses 42a to 42e output from the comparator circuit during the predetermined period are pulses that are not involved in the switching operation of the voltage values of the information signals 37a and 37b.

  Note that FIG. 2 shows the relationship between an information signal that actually constitutes a code and is composed of a bit string in which “1” and “0” are mixed, and noise generated on the interface circuit 3. This is a schematic diagram in which all the bits of the bit string are “1”.

  Next, the flow of the control operation in the portable terminal device of the present invention will be described with reference to FIGS.

  FIG. 3 is a flowchart showing a flow of control operations in the portable terminal device shown in FIG.

  Normally, the voltage value of the information signal 37a transmitted from the information signal transmission / reception unit 12a to the interface circuit 3 for transmission / reception of information performed between the CPU 1 and the CPU 2 is 1.8 V which is determined in advance. Set to The voltage value of the information signal 37b transmitted from the information signal transmitting / receiving unit 22a onto the interface circuit 3 is also set to a predetermined 1.8 V (step 1: S1 in FIG. 2).

  Then, the signal voltage 31 on the interface circuit, which is a composite voltage of the information signal 37b transmitted from the information signal transmitting / receiving unit 22a onto the interface circuit 3 and the noise voltage, is set to 1. It is checked whether it exceeds 9V. When the noise 38 is generated on the interface circuit 3, the noise generation detection unit 15 has a reference voltage 39 in which the value of the combined voltage of the information signal voltage and the noise 38 voltage generated on the interface circuit 3 is 1. It is determined whether or not .9V is exceeded. (Step 2).

  The noise generation detection unit 15 that has determined that the value of the combined voltage exceeds 1.9 V in the above determination outputs the noise generation detection signal 32 to the information signal voltage value switching control unit 14. The information signal voltage value switching control unit 14 to which the noise occurrence detection signal 32 is input instructs the switching of the voltage value of the information signal 37a transmitted on the interface circuit 3 from 1.8V to 3.0V. The voltage value switching control signal 33 is output to the information signal transmitting / receiving unit 12a. At this time, the first voltage value switching control signal 33 is also output from the information signal voltage value switching control unit 14 to the timer unit 16.

  The information signal transmission / reception unit 12a to which the first voltage value switching control signal 33 is input switches the voltage value of the information signal 37a to be transmitted from 1.8V at normal time to 3.0V. Further, the information signal transmission / reception unit 12a transfers the first voltage value switching control signal 33 to the information signal transmission / reception unit 22a via the interface circuit 3. The information signal transmission / reception unit 22a, which has received the first voltage value switching control signal 33 transferred from the information signal transmission / reception unit 12a, changes the voltage value of the information signal 37b for the information signal transmission / reception unit 12a from 1.8V at normal time. Switch to 3.0V (step 3).

  On the other hand, the timer unit 16 that has received the first voltage value switching control signal 33 from the information signal voltage value switching control unit 14 starts the count operation. This count operation is a count operation for determining whether or not a predetermined first time has elapsed since the voltage value of the information signal was switched to 3.0V. Note that the first time is a time when noise generation is expected to stop, and is set as 2 seconds here. When the timer unit 16 performs a count operation and counts up, the timer unit 16 outputs a count-up notification signal 34 for notifying that the predetermined time of 2 seconds has elapsed to the information signal voltage value switching control unit 14 ( Step 4).

  The information signal voltage value switching control unit 14 receives the count-up notification signal 34, and instructs to switch the voltage value of the information signal 37a that has been switched to 3.0V to 1.8V. The switching control signal 36 is output to the information signal transmitting / receiving unit 12a. The information signal transmission / reception unit 12a receives the second voltage value switching control signal 36 and switches the voltage value of the information signal 37a that has been switched to 3.0V to 1.8V. Further, the information signal transmission / reception unit 12a transfers the second voltage value switching control signal 36 to the information signal transmission / reception unit 22a via the interface circuit 3. The information signal transmission / reception unit 22a receiving the second voltage value switching control signal 36 transferred from the information signal transmission / reception unit 12a changes the voltage value of the information signal 37b for the information signal transmission / reception unit 12a from 3.0V to 1.8V. Switch to. That is, the voltage values of the information signals 37a and 37b are respectively switched from 1.8V to 3.0V when the noise 38 is generated. Then, after the value of the voltage of the information signal is switched to 3.0 V, two seconds after the occurrence of noise is assumed, the information is changed to 1.8 V, which is a normal voltage value before the noise 38 is generated. The voltage values of the signals 37a and 37b are respectively returned (step 5).

  Next, it is checked whether or not the transmission level of the radio transmission power output from the radio unit 17 exceeds a predetermined level value of 10 dBm by the transmission level fluctuation detection unit 18 (step 6).

  The transmission level fluctuation detection unit 18 that determines that the transmission level of the wireless transmission power exceeds 10 dBm uses the transmission level fluctuation detection signal 35 indicating that the transmission level fluctuation is detected as the information signal voltage value switching control unit. 14 for output. The information signal voltage value switching control unit 14 to which the transmission level variation detection signal 35 is input instructs a first voltage value switching control signal 33 to instruct to switch the voltage value of the information signal 37a from 1.8V to 3.0V. Is output to the information signal transmitting / receiving unit 12a and the timer unit 16. The information signal transmitting / receiving unit 12a that has received the first voltage value switching control signal 33 switches the voltage value of the information signal from 1.8V to 3.0V. Further, the information signal transmission / reception unit 12a transfers the first voltage value switching control signal 33 to the information signal transmission / reception unit 22a via the interface circuit 3. The information signal transmission / reception unit 22a, which has received the first voltage value switching control signal 33 transferred from the information signal transmission / reception unit 12a, changes the voltage value of the information signal 37b for the information signal transmission / reception unit 12a from 1.8V at normal time. Switch to 3.0V (step 7).

  In addition, the timer unit 16 that has received the first voltage value switching control signal 33 from the information signal voltage value switching control unit 14 starts a counting operation. This count operation is a count operation for determining whether or not a predetermined second time has elapsed since the voltage value of the information signal was switched to 3.0V. Note that the second time is a time when the fluctuation of the transmission level is assumed to be settled, and is assumed to be set as 2 seconds here as well. When the timer unit 16 performs a count operation and counts up, the timer unit 16 outputs a count-up notification signal 34 for notifying that a predetermined time of 2 seconds has elapsed to the information signal voltage value switching control unit 14 (step S1). 8).

  Then, after the information signal transmission / reception units 12a and 22a switch the voltage values of the information signals 37a and 37b to 3.0 V, the voltage value of the information signal is 3 when the second time of 2 seconds elapses. The operation is switched from 0.0 V to 1.8 V, and the operation returns to Step 2 (Step 9).

  This is the end of the description of the flow of control operations in the portable terminal device shown in FIG.

  In the above description, when the occurrence of noise is detected, or when it is detected that the transmission level exceeds 10 dBm due to the variation in the transmission level of the wireless transmission power, the voltage values of the information signals 37a and 37b are set to 1. It was explained by switching from 8V to 3.0V. However, when noise occurs or when the transmission level exceeds 10 dBm, not only the voltage of the information signals 37a and 37b is switched, but the amplitude voltage of the clock signal transmitted through the interface circuit 3 (not shown) is changed to a larger amplitude voltage. You may comprise so that it may switch.

  In the above description, the combined voltage of the voltage of the information signal 37b and the noise voltage generated on the interface circuit 3 is compared with 1.9V (third voltage), and the combined voltage value is 1.9V. The case where the occurrence of noise is detected by checking whether or not it has been exceeded has been described. However, instead of the voltage of the information signal 37b, the voltage of the clock signal may be compared with the synthesized voltage of the noise voltage generated on the interface circuit 3 to detect the occurrence of noise. In addition, when the generation of noise is detected by comparing the combined voltage of the voltage of the clock signal and the noise voltage, not only the voltage of the information signals 37a and 37b is switched, but also the amplitude voltage of the clock signal is larger. You may comprise so that it may switch to an amplitude voltage.

  In the above description, when the operation of the portable terminal device starts, the operation of detecting the occurrence of noise and then the operation of detecting the fluctuation of the transmission level are performed, and thereafter, the operation continues during the operation of the portable terminal device. In the above description, the detection of the two is performed alternately. However, only the operation for detecting the occurrence of noise may be repeatedly performed. Further, only the operation for detecting the variation in the transmission level may be repeatedly performed. In the configuration in which the generation of noise and the variation in transmission level are detected alternately, the noise resistance performance can be improved more than in the configuration in which the generation of noise or the variation in transmission level is performed alone.

  In the above description, the operation has been described in the case where the operation for detecting the fluctuation of the transmission level is started immediately after the operation for detecting the occurrence of noise is completed. However, the operation is determined in advance after the operation for detecting the occurrence of noise is completed. You may make it start the operation | movement which detects the fluctuation | variation of a transmission level after time passes.

  Further, in the above description, a case has been described in which both the time when noise generation is expected to be reduced and the time when transmission level variation is expected to be set are set to 2 seconds. However, the time when noise generation is expected to be reduced and the time when transmission level fluctuation is expected to be reduced may be set to different times.

  In the above description of the operation, the first voltage is 1.8 V, the second voltage is 3.0 V, and the third voltage is 1.9 V. However, the first voltage, the second voltage, The value of the third voltage is not limited to the above voltage value.

  Further, in the above description, the case where a comparator is used for detection of noise generation is described. However, an AD converter may be used instead of the comparator to detect noise generation. In this case, the combined voltage of the signal voltage and the noise voltage is converted into a digital value by the AD converter, and it is compared whether or not it exceeds the value of the reference voltage 39 indicated by the digital value.

  As described above, in the present invention, when the occurrence of noise is detected, the synthesized voltage of the signal voltage and the noise voltage is compared with a predetermined reference voltage 39 using a comparator or an AD converter, whereby It is configured to detect occurrence. Therefore, any noise from any source can be automatically detected regardless of the type of noise.

It is a block diagram which shows the structure of one Embodiment of the portable terminal device as an electronic device of this invention. It is explanatory drawing for demonstrating operation | movement of the portable terminal device shown in FIG. It is a flowchart which shows the flow of control operation in the portable terminal device shown in FIG. It is a block diagram which shows the structure of the conventional portable terminal device. FIG. 5 is an explanatory diagram for explaining an operation of the portable terminal device of FIG. 4.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1a, 1b 1st board part 2a, 2b 2nd board part 3 Interface circuit 11 CPU
12a, 12b Information signal transmission / reception unit 13 Key operation unit 14 Information signal voltage value switching control unit 15 Noise generation detection unit 16 Timer unit 17 Radio unit 18 Transmission level fluctuation detection unit 21 CPU
22a, 22b Information signal transmission / reception unit 23 Liquid crystal display unit 31 Signal voltage on interface circuit 32 Noise generation detection signal 33 First voltage value switching control signal 34 Count-up notification signal 35 Transmission level fluctuation detection signal 36 Second voltage value switching control Signal 37a, 37b Information signal 38 Noise 39 Reference voltage 40 Arrow 41a-41c Pulse 42a-42e Pulse

Claims (11)

(A) a digital signal line through which a plurality of built-in CPUs transmit and receive information to and from each other;
(B) Information signal transmission / reception means for transmitting / receiving an information signal including the information via the digital signal line,
In electronic equipment with
(C) noise generation detection means for detecting the generation of noise on the digital signal line;
(D) When the noise occurrence is detected by the noise occurrence detection means, the information signal transmission / reception is performed so that the voltage value of the information signal is switched to a second voltage value larger than the first voltage value so far. Information signal transmission / reception control means for controlling the means;
Equipped with a,
The noise generation detection means is configured to include a comparator, and detects the generation of the noise by comparing a synthesized voltage of the information signal voltage and the noise voltage with a predetermined voltage by the comparator. Electronic equipment. The electronic device according to claim 1 , wherein the electronic device is a portable terminal device. 3. The electronic apparatus according to claim 2 , further comprising transmission level fluctuation detecting means for detecting that the transmission level to the radio base station has become a transmission level exceeding a predetermined transmission level value. means, when detecting that the transmission level becomes transmission level in excess of the value of the transmission level to a predetermined, said information signal transmission and reception control means first voltage value of the voltage of said information signal until it An electronic apparatus, wherein the information signal transmitting / receiving means is controlled to switch to a second voltage value greater than the value. Claim 1, in claim 2 or claim 3 electronic apparatus, wherein the information signal transmitting and receiving means is switched to the second voltage value, the value of the voltage of the information signal, a predetermined time retaining a predetermined The electronic device is switched to the first voltage value after being applied. (A) a digital signal line through which a plurality of built-in CPUs transmit and receive information to and from each other;
(B) Information signal transmission / reception means for transmitting / receiving an information signal including the information via the digital signal line,
In an electronic device that functions as a portable terminal device,
(C) Transmission level fluctuation detecting means for detecting that the transmission level to the radio base station has become a transmission level exceeding a predetermined transmission level value;
(D) When it is detected by the transmission level fluctuation detecting means that the transmission level exceeds a predetermined transmission level value due to the fluctuation of the transmission level, the voltage value of the information signal is Information signal transmission / reception control means for controlling the information signal transmission / reception means to switch to a second voltage value larger than the voltage value of 1,
Equipped with a,
The voltage value of the information signal switched to the second voltage value by the information signal transmitting / receiving means is switched to the first voltage value after being held for a predetermined time. Electronics. 1st CPU and 2nd CPU which share operation control of the various functions in an apparatus, and other CPU and information regarding operation control of each said function which said 1st CPU and said 2nd CPU respectively share And an information signal including the information for each of the first CPU and the second CPU to transmit / receive the information to / from another CPU via the interface circuit. In an electronic apparatus including an information signal transmission / reception unit that transmits / receives data to / from a counterpart CPU via the interface circuit, a value of a combined voltage of a noise voltage generated on the interface circuit and the information signal voltage is determined in advance. It is determined whether or not the third voltage value is exceeded, and noise is generated when the value of the composite voltage exceeds a predetermined third voltage value. A noise generation detection unit that outputs a noise generation detection signal as detected, and the noise generation detection signal input from the noise generation detection unit, and the voltage of the information signal transmitted to the counterpart CPU via the interface circuit A first voltage value switching control signal for instructing the information signal transmitting / receiving unit to switch the value to a second voltage value larger than the first voltage value so far, and a predetermined first time When the time has elapsed, a second voltage value switching control signal for instructing the information signal transmitting / receiving unit to switch the voltage value of the information signal from the second voltage value so far to the first voltage value is output. An information signal voltage value switching control unit and the first voltage value switching control signal output from the information signal voltage value switching control unit are input to start a count operation, and a predetermined first And a timer unit that outputs a count-up notification signal for notifying that the first time has passed to the information signal voltage value switching control unit when the interval is counted up. Electronics. A wireless unit for performing wireless communication with a wireless base station, a first CPU and a second CPU that perform operation control of various functions in the apparatus, and the first CPU and the second CPU An interface circuit used for transmitting / receiving information to / from another CPU with respect to operation control of each of the functions to be shared, and the first CPU and the second CPU are connected to each other via the interface circuit. Wireless transmission power output from the wireless unit in an electronic device including an information signal transmitting / receiving unit that transmits / receives an information signal including the information to / from a counterpart CPU via the interface circuit in order to transmit / receive the information to / from the CPU. It is determined whether or not the transmission level of the wireless transmission power exceeds a predetermined level value, and the transmission level of the wireless transmission power exceeds the predetermined level value Includes a transmission level fluctuation detection unit that outputs a transmission level fluctuation detection signal indicating that the transmission level of the wireless transmission power exceeds the level value, and the information signal voltage value switching control unit is configured to detect the transmission level fluctuation. The transmission level variation detection signal is input from the unit, and the voltage value of the information signal transmitted to the counterpart CPU via the interface circuit is switched to a second voltage value larger than the first voltage value so far. The first voltage value switching control signal for instructing the information signal transmitting / receiving unit is output, and the timer unit receives the first voltage value switching control signal output from the information signal voltage value switching control unit. The count operation is started, and when the second time determined in advance is counted up to count up, the count up is notified that the second time has elapsed. The information signal voltage value switching control unit outputs an information signal, the count-up notification signal is input, and the information signal voltage value switching control unit sets the voltage value of the information signal to the second voltage so far. An electronic device, characterized in that a second voltage value switching control signal for instructing the information signal transmitting / receiving unit to switch from a value to the first voltage value is output. 7. The electronic device according to claim 6 , wherein a wireless unit for performing wireless communication with a wireless base station and whether or not a transmission level of wireless transmission power output from the wireless unit exceeds a predetermined level value. When the transmission level of the wireless transmission power exceeds the predetermined level value, a transmission level that outputs a transmission level fluctuation detection signal indicating that the transmission level of the wireless transmission power exceeds the level value The information signal voltage value switching control unit receives the transmission level variation detection signal from the transmission level variation detection unit, and transmits the information signal voltage value to the counterpart CPU via the interface circuit. The first voltage value switching control signal for instructing the information signal transmission / reception unit to switch the value to a second voltage value larger than the first voltage value so far, The timer unit inputs the first voltage value switching control signal output from the information signal voltage value switching control unit, starts a count operation, counts a predetermined second time, and counts up The count-up notification signal for notifying that the second time has elapsed is output to the information signal voltage value switching control unit, the count-up notification signal is input, and the information signal voltage value switching is performed. The control unit outputs a second voltage value switching control signal that instructs the information signal transmitting / receiving unit to switch the voltage value of the information signal from the second voltage value so far to the first voltage value. An electronic device characterized by that. According to claim 6 or claim 8 electronic apparatus, wherein the noise occurrence detection unit is configured to include a comparator, the voltage of the information signal and the combined voltage between the voltage of the noise, the predetermined voltage comparator And detecting the generation of the noise. 6., 7., according to claim 8 or electronic device according to claim 9, wherein the information is switched by the signal receiving unit to the second voltage value, the value of the voltage of the information signal is defined in advance The electronic device is switched to the first voltage value after being held for a certain period of time. (A) The voltage value of the information signal for transmitting / receiving information on the interface circuit connecting between the first CPU and the second CPU is set to a predetermined first voltage value. A first step of transmitting and receiving the information signal;
(B) A value of a combined voltage of the voltage of the information signal and the voltage of noise generated on the interface circuit on the interface circuit is set to a predetermined third value for comparing with the voltage of the combined voltage. A second step of determining whether the voltage value is exceeded,
(C) a third step of switching the voltage value of the information signal to a second voltage value larger than the first voltage value so far when the value of the combined voltage exceeds the third voltage value ,
(D) a fourth step of determining whether or not a predetermined first time has elapsed since switching the voltage value of the information signal to the second voltage value;
(E) a fifth step of switching the voltage value of the information signal from the second voltage value to the first voltage value when the first time has elapsed;
(F) Sixth step of determining whether or not the transmission level of the wireless transmission power output by the wireless unit exceeds a predetermined level value (G) The transmission level of the wireless transmission power is determined in advance When the level value is exceeded, the voltage value of the information signal transmitted and received between the first and second CPUs on the interface circuit is greater than the predetermined first voltage value. A seventh step of switching to a second voltage value;
(H) an eighth step of determining whether or not a predetermined second time has elapsed since switching to the second voltage value;
(I) a ninth step of switching the information signal voltage value from the second voltage value to the first voltage value and returning the operation to the second step when the second time has elapsed; ,
A signal transmission / reception control method in an electronic device, characterized in that

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