KR970002956B1 - Modem for transceiving multichannel - Google Patents

Abstract

The present invention is to provide a modem for transmitting and receiving multiple channel signals. The modem according to the present invention includes a balun transformer(1); a circuit(30) for outputting a local oscillation frequency signal; a demodulator(31) for receiving a RF signal from the balun transformer(1) and demodulating the local oscillation frequency signal from the circuit(30); a first amplifier(33) for amplifying a transmission signal; a voltage-controlled oscillator(34) for modulating the amplified transmission signal by a fixed frequency signal; a mixer(39) for mixing the modulated signal from the voltage-controlled oscillator(34) with the local oscillation frequency signal from the circuit(30) and outputting the RF signal; and a second amplifier(40) for amplifying the RF signal from the mixer(39) and outputting the amplified RF signal to the balun transformer(1). Thereby, the present invention can provide the modem having a simple structure by providing the local oscillation frequency output circuit capable of varying the frequency.

Description

Multichannel Transceiver Modem

1 is a block diagram of a modem for multi-channel transmission and reception according to the prior art,

2 is a block diagram of a multi-channel transmission and reception modem according to the present invention.

* Explanation of symbols for main parts of the drawings

1: balloon transformer 31: reception demodulator

32: fourth voltage controlled oscillator 33: data amplifier

34: sixth voltage controlled oscillator 35: phase synchronization circuit part

36: crystal oscillator 37: fifth voltage bare oscillator

38: third buffer 39: mixer

40: transmitting amplifier

The present invention relates to a multi-channel transmission and reception modem, and more particularly, to a multi-channel transmission and reception modem in which one local oscillation frequency output circuit is shared by a transmitter and a receiver of a modem.

In the conventional multi-channel transmission and reception modem as shown in FIG. 1, a balloon transformer 1, a receiver for receiving and demodulating RF signals received from the balloon transformer 1, and outputting a received signal; And a transmitter for modulating and outputting an RF signal to be transmitted to the balloon transformer.

The receiver includes a receiving demodulator 11 and a crystal oscillator 13 for receiving an RF signal received from the balloon transformer 1 and outputting a received signal, and a tuning voltage according to the input data, enable and clock signals. A phase-locked circuit part 12 for outputting (Vt) and a first voltage controlled oscillator 14 for outputting a first local oscillation frequency f _osc1 according to the tuning voltage Vt output from the phase-locked circuit part 12. ), A first buffer 15 which receives and stores the first local oscillation frequency f _OSC1 , outputs it to a receiving demodulator 11 and feeds it back to a phase synchronizing circuit unit 12, and the receiving demodulator 11. And a second voltage controlled oscillator 16 for supplying a frequency of an intermediate frequency to the receiving demodulator 11.

The transmitter includes a data amplifier 21 for amplifying data of the transmission signal, a third voltage controlled oscillator 22 for modulating the transmission signal amplified by the data amplifier 21 at a fixed frequency f _FIX 1, and A transmission oscillator 23 that outputs two local oscillation frequencies f _OSC2 , and output signals of the third voltage controlled oscillator 22 and the second buffer 24 are mixed and mixed to obtain an RF signal that is a difference frequency thereof. A mixer 25 for outputting and a transmission amplifier 26 for amplifying the output signal of the mixer 25 and outputting the amplified output to the balloon transformer 1.

As described above, the conventional multi-channel transmission and reception modem operates as follows. The subscriber inputs a channel to receive, and the RF signal of the corresponding channel is input to the receiving demodulator 11 through the balloon transformer 1. At this time, when information on the corresponding channel is input to the data, enable and clock terminals of the phase synchronization circuit unit 12, the tuning voltage Vt corresponding to the frequency of the RF signal is output from the phase synchronization circuit unit 12. The tuning voltage Vt is input to the first voltage controlled oscillator 14, and the first voltage controlled oscillator 14 outputs a first local oscillation frequency f _OSC1 corresponding thereto.

The first local oscillation frequency f _OSC1 is divided into two signals through the first buffer 15, one is input to the receiving demodulator 11, and the other is fed back to the phase synchronization circuit 12. If the first local oscillation frequency is correct, the phase lock circuit 12 is locked and a constant tuning voltage Vt is output. The receiving demodulator 11 generates an intermediate frequency of 10.7 MHz by the frequency of the RF signal and the frequency of the first local oscillation frequency f _O SC1. The intermediate frequency is mixed with the frequency output from the second voltage controlled oscillator 16, filtered, and then output as a received signal.

When the subscriber transmits data, the second local oscillation frequency f _OSC2 oscillated by the transmitting oscillator 23 is input to the second buffer 24. The transmission signal is amplified by the data amplifier 21 and then modulated by the fixed frequency f _FIX1 in the third voltage controlled oscillator 22. The modulated transmission signal is mixed with the second local oscillation frequency f _OSC2 input from the second buffer 24 at the mixer 25 and generates an RF signal with a difference frequency. The RF signal is amplified by the transmitting amplifier 26 and then output to the balloon transformer 1.

However, although the receiver of the conventional multi-channel modem for transmitting and receiving can be received from a plurality of channels because the frequency is variable by the phase synchronization circuit, there is a problem that the transmitter uses only one fixed channel.

In addition, there is a problem that the circuit is complicated because separate crystal oscillator is required in the receiver and the transmitter.

Accordingly, the present invention provides a modem for multi-channel transmission and reception of a simple structure by providing a local oscillation frequency output circuit in which the receiver and the transmitter of the modem are common and the frequency is variable to solve the problems of the prior art. There is a purpose.

The multi-channel modem for transmitting and receiving the present invention for achieving the above object is demodulated to the local oscillation frequency output from the local transformer frequency output unit receives the RF signal through the balloon transformer, the local oscillation frequency output unit, and the balloon transformer A reception demodulator for outputting a received signal, a data amplifier for amplifying the data of the transmission signal, a voltage controlled oscillator for receiving the amplified data from the data amplifier and modulating the data at a fixed frequency, and a local oscillation frequency output unit. And a mixer for outputting an RF signal by mixing the output local oscillation frequency and the data modulated by the voltage controlled oscillator, and a transmission amplifier for amplifying the RF signal output from the mixer and outputting the balloon to a balloon transformer.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

In the multi-channel modem for transmitting and receiving according to the present invention, as shown in FIG. 2, an RF signal is input through a balloon transformer 1, a local oscillation frequency output unit 30, and the balloon transformer 1, and local oscillation is performed. A demodulator 31 for demodulating at a third local oscillation frequency f _OSC3 output from the frequency output unit 30 and outputting a received signal; and a fourth voltage controlled oscillator external to the reception demodulator 31 ( 32).

In addition, a data amplifier 33 for amplifying data of the transmission signal, a sixth voltage controlled oscillator 34 for receiving the data amplified by the data amplifier 33 and modulating the data at a fixed frequency (f _FIX2 ), A mixer 39 for mixing the third local oscillation frequency f _OSC3 output from the local oscillation frequency output unit 30 and the data modulated by the additional sixth voltage controlled oscillator 34, and an output from the mixer 39. It consists of a transmission amplifier 40 for amplifying the RF signal to be output to the balloon transformer (1).

The local oscillation frequency output unit 30 includes a crystal oscillator 36 and outputs a tuning voltage Vt in accordance with the input data, enable and clock signals, and the tuning voltage Vt. ) the third local oscillator frequency (f _OSC3) to output the fifth voltage-controlled to become 37, the third local oscillation frequency (f _OSC3) for storing a receiving demodulator (31) and mixing (39 to that along) It is composed of a third buffer 38 which is outputted to the circuit and fed back to the phase synchronizing circuit section 5.

The multi-channel modem for transmission and reception of the present invention configured as described above operates as follows.

When a subscriber inputs a channel to be received or transmitted, information about a corresponding channel is input to the data, enable and clock terminals of the phase-locked circuit 35, and the phase-locked circuit 35 receives the tuning voltage Vt of the channel. Outputs The third local oscillation frequency f _OSC3 corresponding to the tuning voltage Vt is output from the fifth voltage controlled oscillator 37, input to the third buffer 38, and then divided into three signals.

One of the three divided signals is fed back to the phase-lock circuit 35 to confirm that the third local oscillation frequency f _OSC3 is correct. When the third local oscillation frequency f _OSC3 is normally output, the phase synchronizing circuit 35 is locked so that a constant tuning voltage Vt is output from the phase synchronizing circuit 5.

The other signal is input to the demodulator 31 and mixed with the RF signal input from the balloon transformer 1 to output an intermediate frequency of 107 MHz. The receiving demodulator 31 has a fourth voltage controlled oscillator 32 for outputting the intermediate frequency, so that the output signal of the intermediate frequency and the fourth voltage controlled oscillator 32 is mixed to output a received signal.

The remaining signal is input to mixer 39 for transmission. The transmission signal to be transmitted is amplified by the data amplifier 33. The amplified transmission signal is input to the sixth voltage-controlled oscillator (34) including a fixed frequency (f _FIX2) is modulated by a fixed frequency (f _FIX2). The modulated transmission signal is input to the mixer 39 and mixed with the third local oscillation frequency f _OSC3 . The RF signal generated by the difference between the third local oscillation frequency f _OSC3 and the fixed frequency f _FIX2 is amplified via the transmission amplifier 40 and then transmitted to the balloon transformer 1.

The multi-channel modem for transmitting and receiving the present invention operating as described above can achieve a simple structure by sharing one local oscillation frequency output circuit with the receiver and the transmitter of the modem, and the frequency can be changed to implement the multi-channel transmitter. have.

Claims (3)

A receiving demodulator for receiving an RF signal through a balloon transformer, a local oscillation frequency output unit, and a balloon transformer, demodulating a local oscillation frequency output from a local oscillation frequency output unit, and outputting a received signal; A heavy-duty data amplifier, a voltage-controlled oscillator for receiving the data amplified by the data amplifier, and a built-in fixed frequency roll modulator; And a mixer for outputting an RF signal, and a transmission amplifier for amplifying the RF signal output from the mixer and outputting the balloon as a balloon transformer. The modem of claim 1, wherein the local oscillation frequency output unit outputs at least one local oscillation frequency. The frequency generating circuit of claim 1, wherein the local power generation frequency output unit includes a crystal oscillator and outputs a tuning voltage according to input data, an enable and a clock signal, and a voltage outputting a local oscillation frequency according to the tuning voltage. And a control oscillator, a buffer for storing the local oscillation frequency, outputting it to a receiving demodulator and mixer, and feeding back to a phase-lock circuit.