JP2589738B2 - Modem - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a modem (hereinafter, referred to as a modem) applied to a data transmission system.

2. Description of the Related Art In recent years, there has been a remarkable use of a data transmission system using a modem device such as personal computer communication.

 Hereinafter, a conventional modem device will be described.

FIG. 2 is a block diagram showing a conventional full-duplex modem device. In FIG. 2, 1 is a telephone line, 2 is an adder, 3 is an amplifier, 4 is a receiving filter composed of a switched capacitor filter (hereinafter, referred to as SCF), 5 is a receiving amplifier, 6 is modulation / demodulation. Circuit. 7 is a transmission filter, 8 is a clock generator, 9 is a transmission amplifier, 10 is a changeover switch, and 11 is an inverting amplifier. The output signal of the transmission amplifier 9 is amplified by the amplifier 3 and input to the adder 2.

The data to be transmitted is modulated by the modulation / demodulation circuit 6, passed through the transmission filter 7, and transmitted by the transmission amplifier 9 to the changeover switch 10
Is amplified with the gain set in (1), inverted and amplified by the inverting amplifier 11, and transmitted to the telephone line 1. The signal output to the telephone line 1 is attenuated by the line impedance of the telephone line 1, added to the received signal, and input to the adder 2. The transmission signal added to the reception signal is added to an adder 2
Then, the output signal of the transmission amplifier 9 is added to the signal amplified by the amplifier 3 to be removed. The output signal of the adder 2 is subjected to removal of noise and the like by the reception filter 4, amplified by the reception amplifier 5, and demodulated by the modulation / demodulation circuit 6. The clock generator 13 supplies a clock having a frequency necessary for its operation because the transmission filter 7 and the reception filter 4 are composed of SCFs. The clock frequency of the reception filter 4 will be described. The frequency of the carrier wave of the received signal is different between the case where the modem device calls the other-side modem device (hereinafter, called the calling side) and the case where the modem device is called by the other-side modem device (hereinafter, the incoming call). Side). Now, it is assumed that the frequency of the carrier of the received signal of the calling modem is ₁ and the carrier of the received signal of the called modem is ₂ . Then, if the reception filter 4 is a reception filter of the modem device on the calling side, the pass band is changed to:
Set so that ₁ passes and ₂ is removed. If the reception filter 4 is a reception filter of the called-side modem device, it is set so that ₂ passes through the pass band and ₁ is removed. Since the SCF changes the pass band when the clock frequency is changed, the clock generator 13 knows whether the modem device is from the calling side to the called side by the control signal from the modulation / demodulation circuit 6 and supplies the clock to the reception filter 4. Change the frequency of
The pass band of the reception filter 4 is changed.

Next, the setting value of the changeover switch 10 will be described. In order to improve the demodulation accuracy of the modem device, the signal level input from the telephone line 1 to the modem device may be increased. That is, the signal level transmitted from the sender's modem device to the telephone line 1 may be increased. However, the maximum level of a signal that can be transmitted to the telephone line 1 is determined by the NTT standard. Therefore, the gain of the transmission amplifier 9 is made variable, and the gain is set by the changeover switch 10, and the
A level signal as large as possible within the standard is transmitted.

However, the line impedance of the telephone line 1 is
fluctuate. Therefore, the level of the transmission signal on the telephone line 1 varies depending on the natural phenomenon or the connection state of the line each time transmission and reception is performed. There was a problem that the level was set.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned conventional problems and to provide a modem device capable of automatically setting a transmission signal level on a telephone line.

Means for Solving the Problems To achieve this object, a modem device according to the present invention
The transmission signal on the telephone line is input to the modulation / demodulation circuit by changing the pass band of the reception filter, and the gain of the transmission amplifier is changed according to the magnitude of the input transmission signal. I have.

Operation With this configuration, the modem device can know the level of the transmission signal on the telephone line, and can realize a stable transmission signal level on the telephone line without being affected by the fluctuation of the line impedance.

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram of a full-duplex modem device according to an embodiment of the present invention. In FIG. 1, 1 is a telephone line, 2 is an adder, 4 is a reception filter composed of SCF,
5 is a receiving amplifier and 11 is an inverting amplifier. A modulation / demodulation circuit 12 demodulates an output signal of the reception amplifier 5, modulates data to be transmitted and sends it to a transmission filter, controls a clock generator 13, and controls a gain of the transmission amplifier 13. And controls the operation of the amplifier 3. The transmission filter is configured by SCF. A transmission amplifier 14 amplifies the output signal of the transmission filter 7 with the gain set by the modulation / demodulation circuit 12. The output signal of the transmission amplifier 14 is amplified by the amplifier 15 and input to the adder 2. The clock generator 13 supplies a clock signal to the transmission filter 7 and the reception filter 4.

 First, a normal modulation / demodulation operation will be described.

The data to be transmitted is modulated by the modulation / demodulation circuit 12, passed through the transmission filter 7, amplified by the transmission amplifier 14 by the modulation / demodulation circuit 12 with the set gain, inverted and amplified by the inverting amplifier 11, and transmitted to the telephone line 1. Sent out. The transmission signal output to the telephone line 1 is attenuated by the impedance of the telephone line, added to the reception signal, and input to the adder 2. The transmission signal added to the reception signal is removed by adding the output signal of the transmission amplifier 14 by the adder 2 to the signal amplified by the amplifier 15. The output signal of the adder 2 is
After the noise and the like are removed by the receiving filter 4, the signal is amplified by the receiving amplifier 5. The signal is demodulated by the modulation / demodulation circuit 12. Next, a method of knowing the level of the transmission signal on the telephone line will be described. First, the modulation / demodulation circuit 12 notifies the amplifier 15 and the clock generator 13 that the mode for checking the level of the transmission signal has been entered, using a control signal. Then, the amplifier 15 stops the output. That is, the input signal to the adder 2 is
, And no transmission signal is removed. Further, the clock generator 13 includes the reception filter 4
The pass band of the reception filter 4 is changed from the band through which the carrier of the normal reception signal passes to the band through which the carrier of the transmission signal passes.
This pass band can be easily changed. And ₁ a carrier of the received signal of the calling modem, if _two carrier of the received signal of the called side of the modem, the carrier of the transmission signal of the calling modem is _2, the called The carrier of the transmission signal of the modem device is ₁ . That is,
Only the pass band of the reception filter 4 prepared originally is used.

The output of the adder 2 is input to the reception filter 4 where the reception signal is attenuated to become only a transmission signal component, and then input to the reception amplifier 5 and input to the modulation / demodulation circuit 12. The modulation / demodulation circuit 12 checks the level of the transmission signal, changes the gain of the transmission amplifier 14, and sets an optimum gain.

As described above, according to the present embodiment, the control of the operation of the amplifier 15 and the control of the clock frequency for changing the pass band of the reception filter 4 are performed by the modulation / demodulation circuit 12, and the transmission signal level on the telephone line is checked. By changing the gain of the amplifier 14, an optimum transmission level satisfying the standard can be automatically set without being affected by the line impedance.

In the present embodiment, the receiving filter 4 is configured by the SCF, and the pass band is changed by the clock frequency. However, the receiving filter 4 does not need to be the SCF, and the pass band may be switched.

Further, in the present embodiment, the control signal is output from the modulation / demodulation circuit 12, but it goes without saying that another control circuit may be used.

As described above, according to the present invention, the transmission band transmitted to the telephone line is controlled by controlling the pass band of the reception filter, checking the level of the transmission signal on the telephone line, and changing the gain of the transmission amplifier. An excellent modem capable of optimizing the signal level without being affected by the line impedance can be realized.

[Brief description of the drawings]

FIG. 1 is a block diagram of a full-duplex modem device according to a first embodiment of the present invention, and FIG. 2 is a block diagram of a conventional full-duplex modem device. 1 ... phone line, 2 ... adder, 3 ... amplifier, 4 ...
Reception filter, 5: reception amplifier, 6: modulation / demodulation circuit,
7 ... transmission filter, 8 ... clock generator, 9 ... transmission amplifier, 10 ... changeover switch, 11 ... inverting amplifier, 12
… Modulation / demodulation circuit, 13… Clock generator, 14… Transmission amplifier, 15… Amplifier.

Claims (1)

(57) [Claims] 1. A transmission amplifier for amplifying a transmission signal output from a modulation / demodulation circuit with a gain set by a control signal and outputting the amplified signal to a telephone line, a transmission signal and a reception signal on the telephone line, and the transmission amplifier. An adder that adds the output signal of the adder, and a reception filter that outputs only a signal of a pass band set by a control signal among the addition results of the adder, and amplifies a signal output from the reception filter, A reception amplifier that outputs to the modulation and demodulation circuit, wherein the reception filter is configured by a switched capacitor filter,
During normal operation, a transmission signal output from the modulation / demodulation circuit is output to a telephone line via the transmission amplifier, and a transmission signal and a reception signal on the telephone line and an output signal of the transmission amplifier are added to an adder. The component of the transmission signal is removed by inputting, the output of the adder is input to the demodulation circuit via the reception filter and the reception amplifier, and when the gain of the transmission amplifier is determined, the transmission amplifier is used. To cut off the input to the adder, switch the receiving filter to a pass band that can only pass the transmission signal,
The transmission and reception signals on the telephone line are passed through the adder and the reception filter to make only transmission signal components, and the output of the reception filter is input to the modulation and demodulation circuit via the reception amplifier to perform the modulation and demodulation. A modulation / demodulation device, comprising detecting an attenuation factor of a transmission signal output from a circuit on a telephone line, and controlling a gain of the transmission amplifier according to the attenuation factor.