JPH05268275A - Modem equipment - Google Patents

Abstract

PURPOSE:To prolong the life of a power battery in a modem equipment for connecting a personal computer, a word processor, etc., to a telephone line to use them as terminal equipments for data communication. CONSTITUTION:The modem equipment 1 data-communicating between terminal equipments with a public line is provided with a power voltage detection part 2 detecting power voltage, a clock frequency selection part 5 selecting a clock frequency driving the modem in accordance with power voltage and a modem function deciding part 8 deciding a function to process with the modem from plural functions of the equipment, which include the modulating/demodulating function of data. The modem equipment 1 decides the clock frequency to operate the modem in accordance with power voltage detected by the power voltage detection part 2 and the modem function deciding part 8 decides the modem function based on power voltage detected by the power voltage detection part 2 and function requirement information from the terminal equipment.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a modem device for connecting a computer, a word processor, etc. to a telephone line and performing data communication as a terminal device.

With the spread of portable bath computers, word processors, etc., further miniaturization and lower power consumption are being promoted. On the other hand, it is widely practiced to connect a personal computer, word processor, etc. to a telephone line to perform data communication as a terminal device. Therefore, a modem device (hereinafter,
It is required to incorporate a modem (abbreviated as "modem"), and it is strongly desired to reduce the power consumption and to extend the usage time as much as possible when operating on a battery.

It is an object of the present invention to provide a low power consumption modem device which is battery driven and can be used for a long time.

[0004]

2. Description of the Related Art FIG. 6 shows the configuration of a conventional modem device.
In the figure, reference numeral 80 is a modem device, which is connected between a terminal device (such as a computer) and a telephone line. Then, the transmission data from the terminal device is modulated into an analog signal and transmitted to the other party via the telephone line, the analog reception data from the other party is demodulated into digital data and transferred to the terminal device 81.

Reference numeral 81 is a terminal device of its own station, and reference numeral 82 is an oscillator, which generates a clock pulse for driving a modem. 83 is a power supply unit (battery), which is a modem device 8
It supplies a driving power of zero. Reference numeral 84 denotes a modem processing unit which modulates transmission data and demodulates reception data in accordance with clock pulses generated by the oscillator 82. Reference numeral 85 denotes a modem control unit, which transmits data,
The input / output control and the modulation / demodulation control of received data are performed. In the modem control unit 85, CLK is a clock pulse input terminal, Vcc is a power supply voltage input terminal, SD is an input terminal of a transmission signal from the terminal device 81, and RD is an output terminal of demodulated reception data. A modulation / demodulation unit / function processing unit 86 includes a modulation / demodulation unit and a function processing unit. Then, the modulator modulates the transmission data and demodulates the reception data according to the clock signal. Further, the function processing unit performs processing such as data error correction, data compression, and expansion of the compressed data according to the communication mode determined by the communication between the terminal device 81 of the own station and the terminal device of the partner side. ..

[0006]

The frequency of a clock pulse (hereinafter, abbreviated as a clock) of a conventional modem is fixedly set in the modem. If the frequency of the clock of the modem is lowered, the power consumption is reduced but the processing speed is slowed down, so the clock frequency is designed to be as high as possible.

In a personal computer or the like, when the battery voltage drops, the clock frequency is automatically lowered to reduce the power consumption to extend the battery life, but in the modem, online communication is performed. Since it is necessary to process in real time, it is difficult to automatically change the clock frequency of the modem.

There is also a method of extracting electric power from a telephone line as a power source of a modem, but the amount of electric power that can be extracted from the telephone line is small, and an LSI with a communication speed of about 1200 bps that can be operated with low power consumption is the limit. However, it is impossible to drive a modem having a communication speed of 2400 bps, an error self-correction function, and a data compression / expansion function, which are currently used as standard in modems.

Further, a solution method in which the terminal device (personal computer) has an error correction function and a data compression / decompression function is conceivable, but it is not a drastic solution because it shortens the battery life of the personal computer.

[0010]

According to the present invention, when the power supply voltage of the modem is sufficiently high, modulation / demodulation and high-performance processing (error correction, data compression / expansion, etc.) are performed by a high-speed clock to lower the power supply voltage. At this time, it is possible to automatically switch to a mode that can operate with low power consumption (a mode in which the clock frequency is lowered and functional processing such as error correction is reduced). At that time, the communication partner's modem can be notified to communicate according to the mode of its own station. In addition, even when the power supply voltage drops, the functional processing can be selected so that as many high-performance processings as possible can be performed at that voltage.

FIG. 1 shows the basic configuration of the present invention. In the figure, 1 is a modem device which is built in the terminal device or is externally added to the terminal device.

Reference numeral 1'denotes a power source (battery) which is a power source for the modem device. The power supply unit may be either one built into the modem device or the power supply unit of the terminal device containing the modem device.

Reference numeral 2 is a power supply voltage detection unit, which is a power supply unit 1 '.
The voltage state of is detected. The figure shows an example in which it is built into a modem device. A voltage state value holding unit 3 holds the power supply voltage state value 2 representing the level of the voltage detected by the power supply voltage detection unit 2. Reference numeral 4 is a clock generator, which can generate clocks of different frequencies. Reference numeral 5 is a clock frequency selection unit for selecting a clock frequency for operating the modem. 6 is a terminal device, 7 is a modem processing unit,
In addition to modulation / demodulation of transmitted data and received data, error correction,
Data compression / decompression is performed. Reference numeral 7'denotes a modem control unit for performing function control in the modem. Reference numeral 8 is a modem function determination unit, which determines a function to be processed by the modem. Reference numeral 9 is a modulation / demodulation unit, and 10 is a switching unit. When notifying the terminal device of the partner side of the mode of the modem (mode of the selected function such as communication speed and error correction), the communication path to the partner side is set to the terminal. The device 6 is switched to the modem function determining unit 6 side. A functional processing unit 11 performs functional processing other than modulation / demodulation such as data compression / decompression and error correction. Reference numeral 13 is a data compression unit that performs data compression / decompression. 1
Reference numeral 2 is an error correction unit that corrects data errors.

[0014]

The operation of the basic configuration of FIG. 1 will be described. The power supply voltage detection unit 2 constantly monitors the voltage of the power supply unit 1'and detects the state of the power supply voltage as a state value according to the voltage level. The voltage state value holding unit 3 holds the voltage state value detected by the power supply voltage detection unit 2. The clock generator 4 selects a clock frequency for driving the modem according to the voltage state value. When the power supply voltage is sufficiently high, a high frequency clock is selected, and when the power supply voltage is low, a low frequency clock is selected.

The modem processing unit 7 operates according to the clock selected by the clock frequency selecting unit 5. The modem function determination unit 8 selects a required function according to the voltage state value and the function request information from the terminal device. For example, when the power supply voltage is sufficiently high, all the required functions from the terminal device can be satisfied, so that function is selected. Also, when the power supply voltage is low, the function of processing by the modem is reduced so that high-speed processing is possible even when operating at a low clock frequency. For example, when there is a request from the terminal device for error correction and data compression / decompression (hereinafter abbreviated as data compression), it is determined whether or not only error correction is performed or both are not performed. When either one of error correction and data compression is selected, error correction has priority.

Prior to the start of communication, the processing function determined by the modem function determining unit 8 is notified to the other party via the switching unit 10 and the telephone line to set the communication mode. Also, the set mode is notified to the terminal device 6 of its own station.
The terminal device 6 performs data communication with the other terminal device according to the mode set by the modem.

Further, the function processing section 11 inputs the function request information from the other party via the switching section 10 to determine the function. Further, in the present invention, according to the function request information of the terminal device 6 of its own station, the terminal device 6 can perform the processable function determined by the modem according to the state of the power supply voltage in the terminal device 6 via the message sending unit 14. To send to.

Further, when the terminal device 6 requests a low function when the power supply voltage of the modem is sufficiently high, for example, the terminal device gives an instruction that neither error correction nor data compression needs to be performed. In this case, since sufficiently high-speed communication can be performed even with a low clock frequency, the modem function determination unit 8 instructs the clock frequency selection unit 5 to select a low clock frequency to extend the battery life of the power supply unit. I tried to measure it.

The modulation / demodulation operation of the modulation / demodulation unit 9 is conventional. Further, the operations of the data compression unit 13 and the error correction unit 12 are the same as the conventional ones except that the processing is started by the instruction of the function determination unit 8.

According to the present invention, the modem can operate even when the power supply voltage is low. Then, the decrease in the processing amount due to the lowering of the clock frequency can be compensated by reducing the function, and high-speed communication can be performed even if the clock frequency is low. Further, since the function selection can be performed stepwise, it is possible to perform the high-performance processing as much as possible according to the state of the power supply voltage.

Further, according to the present invention, when the demand of the terminal device is not high-performance processing when the power supply voltage is high, a clock having a low frequency can be selected to prevent wasteful consumption of the power supply voltage.

In the above configuration, only the modem control section 7'which controls functions such as error correction and data compression is operated by the clock selected by the clock frequency selection section 5, and the modulation / demodulation section 9 is operated by the basic clock. You can

[0023]

EXAMPLE FIG. 2 shows an example (1) of the present invention. The figure shows the case where the modem control unit 28 is driven by a clock selected according to the voltage state value of the power supply, and the modulation / demodulation unit 29 configured by an LSI device separate from other parts is driven by the basic clock.

In the figure, 20 is a modem device, and 21 is a power source (battery). Reference numeral 22 is a power supply voltage detection unit, and 23 is a voltage comparison unit, which detects the state of the power supply voltage by comparing the power supply voltage with a threshold value (TH1). For example, if the power supply voltage is higher than the threshold value, the output is 1, and if it is low, the output is 0. Reference numeral 23 'is a voltage comparison unit, which detects the state of the power supply voltage by comparing the power supply voltage with a threshold value (TH2), and 23 "is a voltage comparison unit, which compares the power supply voltage with a threshold value (TH3). The voltage state value holding unit 24 holds the voltage state as a voltage state value according to the output from each comparison unit 23, 23 ', 23 ". It is a thing.
For example, when the threshold is TH1>TH2> TH3, if the power supply voltage is lower than TH1 and higher than TH2, the voltage state value is set to “011”, and the voltage state of the power supply unit in three stages is held as the voltage state value. To do.

Reference numeral 25 is a clock generator, and 25 'is an oscillator, which is a basic clock (clock of maximum frequency).
Is generated (for example, 30 MHz). Reference numeral 26 denotes a frequency divider, which is a clock (30/30) having a frequency obtained by dividing the basic clock output from the oscillator 25 ′ according to the voltage state value held by the voltage state value holding unit 24 from the clock output from the oscillator 25 ′. n MHz, n is a frequency division ratio.

Reference numeral 27 is a modem processing unit, 28 is a modem control unit, 29 is a modulation / demodulation unit, and 29 'is a function processing unit. Thirty
Is a terminal device. In the configuration shown in the figure, the frequency divider 26 is
The frequency division ratio of the basic clock is determined according to the voltage state value of the voltage state value holding unit 24, and the basic clock is output to the divided clock. For example, when the power supply voltage is sufficiently high, the voltage state value is large, so the basic clock (30 MHz) is selected and output, and when the power supply voltage is reduced, the voltage state value becomes small. Output. In this way, the clock with the maximum operable frequency is selected according to the voltage of the power supply section. The voltage state value of the voltage state value holding unit 24 is input to the input port of the modem control unit 28, and the modem control unit 28 compares the function request from the terminal device 30 with the voltage state value, and the optimum operation mode ( Set the mode in which the optimum function processing is selected.

Modem controller 28 and function processor 29 '
Operates with the clock determined by the frequency divider 26. The modulation / demodulation unit 29 outputs the basic clock (3
0 MHz).

FIG. 3 shows an embodiment (1) of the modem processing unit of the present invention.
Indicates. In the figure, 21 is a power supply unit, 22 is a power supply voltage detection unit, 24 is a voltage state value holding unit, 25 is an oscillator, 26 frequency divider, 27 is a modem processing unit, 28 is a modem control unit, 29
Is a modulation / demodulation unit, 29 'is a function processing unit, and 30 is a terminal device.

Reference numeral 40 is a register 1 for holding the function request information from the terminal device sent through the command analysis section 45 (described later). Reference numeral 41 is a register 2 for inputting and holding the voltage state value of the voltage state value holding unit 24. Reference numeral 42 is a register comparison unit for comparing the contents of the registers 1 and 2. The register 3 stores the comparison result of the register comparison unit 42.

Reference numeral 44 denotes a function determining unit that determines the function to be processed by the modem based on the value of the register 3 and turns on / off the operations of the error correction unit 48 and the data compression unit 49 according to the determination result. Is.

Reference numeral 45 denotes a command analysis unit which analyzes the function request information from the terminal device 30 and, when a query command for the function processing determined by the function determination unit 44 is received from the terminal device, a message about the function. Is transferred to the message sending unit 46 (described later).

Reference numeral 46 denotes a message sending unit, which is the function whose processing is decided by the function deciding unit 44 or the terminal device 30.
The information read from the register 3 is stored in accordance with the function information inquiry command from and is sent to the terminal device 30.

Reference numeral 48 is an error correction unit, and 49 is a data compression unit. The operation of the configuration shown in the figure will be described. In the figure, a clock having a frequency corresponding to the voltage state value is output from the frequency divider 26 and used as a clock for the modem controller 28.

The voltage state value of the voltage state value holding unit 24 is input to the register 2 (41) via the input port (not shown) of the modem processing unit 27. On the other hand, the function request information from the terminal device 30 is input to the command analysis unit 45, command analyzed and stored in the register 1 (40). The register comparison unit 42 compares the value of the register 1 with the value of the register 2, and stores the comparison result in the register 3.

The register comparing section 42 is, for example, a voltage state value from the power supply voltage and a request value determined according to a request from the terminal device 30 (value when there are many function requests such as error correction + data compression). Is large, and there is no function request, and error correction and data compression are unnecessary, the value is smaller), and the one with the higher value is selected and stored in the register 3.

The function determining section 44 determines the function to be processed according to the value of the register 3 and selects the function of the function processing section 29 '. When the error correction is necessary, the activation signal of the error correction unit 48 is turned on, and when it is unnecessary, it is turned off. When data compression is required, the activation signal of the data compression unit 49 is turned on, and when it is unnecessary, it is turned off.

Further, since it is necessary to notify the other party of the function of the own station before the data communication, the switching unit 47 switches the route to the telephone line from the terminal device 30 to the function determining unit 44 side to determine the function. The other side is notified of the function determined by the unit 44, and the other side is also controlled to perform the same function. This control method is CCITTV. 42 / 42bi
s can be done. And the function determination unit 4
4 notifies the terminal device 30 of the function determined as a result of communication with the other party as an indication message.

The function determining section 44 also includes a switching section 47.
The function request information is input from the other party via to determine the function. At this time, the terminal device 30 is
Since it cannot be confirmed whether the message received as the message is an active selection of the modem or a malfunction, the function determining unit 44 sends a function selection message notifying that the function determining unit is the active selection. 46. The message sending unit 46 sends a function selection message to the terminal device 30.

Further, the command analysis section 45 is used by the terminal device 3
When the modem receives an inquiry command of a processable function from 0, the value stored in the register 3 is taken out to the message sending unit 46, and the message sending unit 46 sends the contents of the register 3 to the terminal device 30.

FIG. 4 shows an embodiment (2) of the present invention. The figure is
The result of the function decision unit (see FIGS. 5 and 74) is reflected in the selection of the frequency division ratio of the frequency divider 56.

In the figure, 51 is a power source (battery), 52
Is a power supply voltage detection unit, 53, 53 ', 53 "is a voltage comparison unit, 54 is a voltage state value holding unit, 54' is a voltage state value selection unit, and is used for the determination of the function determination unit (Figs. 5, 74). Selects the corresponding voltage state value 55 is an oscillator, 5
6 is a frequency divider (30 MHz), 57 is a modem processing unit, 58
Is a modem control unit, 59 is a modulation / demodulation unit, 59 'is a function processing unit, and 60 is a terminal device. In the figure, the voltage state value selection unit 54 includes a frequency divider 56 and a function determination unit (FIGS. 5 and 74).
Enter the decision result of. If the power supply voltage state value is large because the power supply voltage is high and the request value from the terminal device is small (requirement is small), the contents of the stored value of the register (register 3 in FIG. 5) for storing the comparison result of the both are set. Divider 56
It was reflected in the selection of the frequency division ratio.

The operation other than this point is the same as in the case of FIG. FIG. 5 shows an embodiment (2) of the modem processing unit of the present invention.
In the figure, 51 is a power supply unit (battery), 52 is a power supply voltage detection unit, 54 is a voltage state value holding unit, 54 'is a voltage state value selection unit, 55 is an oscillator, 57 is a modem processing unit, and 58 is a modem control unit. , 59 is a modulation / demodulation unit, 59 'is a function processing unit, 60
Is a terminal device, 70 is a register 1, 71 is a register 2, 7
2 is a register comparing unit, 73 is a register 3, 74 is a function determining unit, 75 is a command analyzing unit, 76 is a message sending unit, 77 is a switching unit, 78 is an error correcting unit, and 79 is a data compressing unit.

In the configuration shown in the figure, the voltage state value selector 5
4'compares the value of the register 3 referred to by the function determining unit 74 with the value input from the power supply voltage detecting unit 52 to the voltage state value holding unit 54, and registers 3 from the voltage state value detected by the power supply voltage detecting unit 52. If the value of is smaller, the content of the register 3 is selected and output from the frequency divider 56. The frequency divider 56 outputs a clock having a low frequency according to the function determined by the function determining section 74.

As a result, when the power supply voltage is sufficiently high and the function demand from the terminal device 60 is low, the clock frequency is suppressed to a low level, and the wasteful consumption of the battery of the power supply unit 51 can be prevented.

The operation other than this point is the same as the case of the configuration of FIG.

[0046]

According to the present invention, even if the power supply voltage of the modem is lowered, the communication is not immediately disabled, but the function is automatically lowered to the function capable of communication at the power supply voltage, and the function is lowered. Communication can be performed with power consumption.

Therefore, according to the present invention, the modem usage time after the power supply voltage of the modem is lowered can be extended.

[Brief description of drawings]

FIG. 1 is a diagram showing a basic configuration of the present invention.

FIG. 2 is a diagram showing an embodiment (1) of the present invention.

FIG. 3 is a diagram showing an embodiment (1) of a modem processing unit of the present invention.

FIG. 4 is a diagram showing an embodiment (2) of the present invention.

FIG. 5 is a diagram showing an embodiment (2) of the modem processing unit of the present invention.

FIG. 6 is a diagram showing a conventional modem device.

[Explanation of symbols]

 1: Modem device 1 ': Power supply unit (battery) 2: Power supply voltage detection unit 3: Voltage state value holding unit 4: Clock generation unit 5: Clock frequency selection unit 6: Terminal device 7: Modem processing unit 7': Modem control Part 8: Modem function determining part 9: Modulation / demodulation part 10: Switching part 11: Function processing part 12: Error correction part 13: Data compression part 14: Message sending part

Claims (5)

[Claims] 1. In a modem device for performing data communication between terminal devices via a public line, a power supply voltage detection unit (2) for detecting a power supply voltage and a power supply unit (1) detected by the power supply voltage detection unit (2). ) The clock frequency selection unit (5) that selects the clock frequency that drives the modem according to the voltage, and the modem device has multiple functions including the data modulation / demodulation function. It has a modem function deciding part (8) that decides the modem function based on the function request information specified by, and determines the clock frequency to operate the modem according to the voltage state detected by the power supply voltage detecting part (2). The modem function determination unit (8) determines the modem function based on the state of the power supply voltage detected by the power supply voltage detection unit (2) and the function request information from the terminal device. .. 2. The modem device according to claim 1, wherein the modem device decides the transmission route to the telephone line from the terminal device (6) side in order to notify the other party of the function decided by the modem function decider (8). A modem device comprising a switching unit (10) for switching to the (8) side and notifying the terminal device of the partner of the function determined by the modem. 3. The modem device according to claim 1, further comprising a function message sending section (14) for notifying a terminal device of a local station of a processable function according to a voltage value of a power supply, before starting data communication or in the local station. In accordance with the request from the terminal device (6) of the
A modem device characterized by notifying (6). 4. The clock frequency selection unit (5) according to claim 1, inputs the function information determined by the modem function determination unit (8), and the modem function determination unit (8) responds to a function request from a terminal device. A modem device characterized by selecting a low clock frequency according to the determined function. 5. The modem device (1) according to any one of claims 1, 2, 3, and 4, wherein the modem device (1) controls a modulation / demodulation unit (9) and a function processing unit (11) for performing function processing other than modulation / demodulation. The modem control unit (7 ') operates according to the voltage state value of the power supply or the clock determined according to the function determined by the modem function determination unit (8), and the modem unit (7) Is a modem device characterized in that it operates according to a basic clock.