KR20000010371A - Data modulator in channel modem for satellite communication system - Google Patents

Abstract

PURPOSE: A data modulator in a channel modem for a satellite communication system which stores only the smallest carrier sampling data among a plurality of symbol rates according to characteristics of data, addresses the carrier data of a lookup table according to a clock generated from a clock generator and an output signal of a counter, and inserting "0" data into the addressed data and performing a D/A conversion, is provided. CONSTITUTION: The data modulator in a channel modem for a satellite communication system comprising: a counter(64) for controlling a counting value according to a symbol rate transmitted from a channel unit processor which controls a total operation of the channel modem; a multiplexor(63) for multiplexing I and Q channel data which are added to the output signal of the counter according to a clock signal; a memory for storing carrier sampling data having the smallest sampling interval in a lookup table; a data synthesizer for inserting "0" data into the addressed carrier sampling data stored in the memory; and a D/A converter for performing a D/A conversion based on the synthesized signal from the data synthesizer.

Description

Data Modulator in Channel Modem for Satellite Communication System

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system using satellites, and more particularly, to a data modulation apparatus in a channel modem for a satellite communication system in which "0" data is inserted into and modulated by carrier sampling data addressed by a modulation unit of a channel modem for satellite communication system. It is about.

1 is a block diagram showing the configuration of a channel modem for a general satellite communication system.

In the figure, reference numeral 1 serves as an interface between the MPH bus for transmitting and receiving voice and data, the UPH bus for transmitting and receiving various control data, and the channel unit processor 2 to be described later, in particular, via an airwave transmission network. Speech / Data Processor (hereinafter referred to as SDP) for processing voice and data transmitted and received.

Reference numeral 2 is a modulator for outputting a 512 KHz modulated signal by modulating the I, Q channel data output from the SDP 1, for example, BPSK or QPSK, and 3 denotes a 512 KHz output from the modulator 2. Up-converter outputs the modulated signal up-converted to 70MHz ± 20MHz intermediate frequency signal.

On the other hand, reference numeral 4 is a down converter for downconverting the received intermediate frequency signal of 70MHz ± 20MHz into a frequency signal of 384KHz, and 5 is the I, Q channel data from the 384KHz modulated signal applied from this downconverter (4). Demodulation unit for demodulating and outputting.

In addition, reference numeral 6 denotes a channel unit processor (hereinafter referred to as a CUP) for controlling the overall operation of the channel modem, which controls the operation mode and the overall operation of the SDP 1, and the SDP ( The carrier lookup table of the modulator 2 is set to correspond to the symbol rate of the output signal of 1). The lookup table of the modulator 2 is determined based on predetermined two-bit data included in the data string transmitted from the MPH. Control to address.

In the channel modem having the above configuration, first, when a voice signal or data is inputted to the SDP 1 through the MPH, the SDP 1 performs an echo cancellation process or a compression process using the ADPCM on the input signal, and the result data. I and Q channel data are transmitted to the modulator 2. Subsequently, the modulator 2 transmits a 512 KHz modulated signal to the up-converter 3, and the up-converter 3 up-converts the input 512 KHz modulated signal to an intermediate frequency of 70 MHz.

In addition, a signal input at an intermediate frequency of 70 MHz band is down-converted to a frequency signal of 384 KHz through the down converter 4 and transmitted to the demodulator 5. The demodulator 5 transmits the input 384 KHz signal of I, The demodulation is performed on the Q channel data and applied to the SDP 1.

The SDP 1 uses ADPCM as a method of compressing an input signal, and sets a modulation method and a forward error correction value (FEC) differently according to whether the data is voice or data or a set mode. The modulation method is set to BPSK or QPSK, and the forward correction value is set to 1/2 or 1/4. In addition, the symbol rate of the CUP 6 that controls the overall operation of the channel modem is set differently according to the set operation mode.

On the other hand, the modulator 3 of the channel modem performs a modulation operation by addressing a lookup table of carriers stored in a predetermined memory based on a control signal input from the CUP 6. The carrier lookup table stores carriers having different sampling intervals according to symbol rates of signals output through the SDP 1.

In addition, in the satellite communication system, the analog signal converted by D / A through the modulator 3 shows the spectrum as shown in FIG. 1, and in general, the main lobe signal and the side lobe signal The signal level difference is specified as 40 dB.

However, in operating the satellite communication system, the signal level difference between the main lobe signal and the side lobe signal drops below 40 dB due to the worsening of the weather phenomenon and the like. The problem of degradation occurs.

Therefore, there may be a method of solving the problem, which makes the sampling interval of the carrier stored in the lookup table more dense, but this causes a problem of increasing the capacity of the memory.

Accordingly, the present invention was created in view of the above circumstances, and stores only sampling data of a carrier having the smallest sampling interval of a carrier in a memory among a plurality of symbol rates according to characteristics of data, and generates a clock signal generated from a clock generator. And a data demodulation device in a channel modem for a satellite communication system, which is capable of addressing carrier data of a lookup table by a signal output from a counter and inserting " 0 " data between the addressed data and performing D / A conversion. The purpose is to provide.

1 is a block diagram showing the configuration of a channel modem for a general satellite communication system.

FIG. 2 is a diagram showing the spectral characteristics of an analog signal output through the modulator 2 shown in FIG.

3 is a block diagram showing a data modulation apparatus of a channel modem for a satellite communication system according to an embodiment of the present invention.

4 is a diagram showing detection of sampling instantaneous values in a conventional modulation device and a modulation device according to the present invention;

*** Explanation of symbols for the main parts of the drawing ***

60: clock generator, 61: I-channel shift register,

62: Q channel shift register, 63: first multiplexer (MUX1),

64: counter, 65: second multiplexer (MUX2),

66: memory (EPROM), 67: data synthesizer,

68: D / A converter.

A data modulator in a channel modem for a satellite communication system according to the present invention for achieving the above object, shifts the I, Q channel data transmitted from the voice data processor based on the clock signal generated from the clock generator, and multiplexed it. A modulator of a channel modem for a satellite communication system which processes and samples carrier sampling data, comprising: a counter for adjusting and outputting a coefficient value according to a symbol rate transmitted from a channel unit processor for controlling overall operation of the channel modem; A multiplexer for multiplexing the input signal with a clock signal by adding a signal output from the counter to the Q channel data, a memory in which sampling data of a carrier having the smallest sampling interval is stored as a lookup table, and a carrier sampling of the addressed memory Data to insert predetermined data into data And a D / A converter for performing D / A conversion based on the synthesized data output from the data synthesizer.

That is, according to the above, only the sampling data of the carrier having the smallest sampling interval is stored in the memory, and " 0 " data is inserted between the addressed data to perform D / A conversion, thereby using a small memory. The output efficiency of the analog signal output through the channel modem can be improved.

Next, an embodiment according to the present invention will be described with reference to the accompanying drawings.

3 is a functional block diagram illustrating a data modulation method and apparatus thereof in a channel modem for a satellite communication system according to the present invention.

In the figure, reference numeral 60 denotes a clock generator for generating a clock for controlling the operation of the modulator 2, and 61 denotes an I-channel shift register for storing I-channel data transmitted from the SDP 1, Nine data are stored and the input data is shifted by one digit according to clock 1 generated by the clock generator 60.

Reference numeral 62 denotes a Q channel shift register for storing Q channel data transmitted from the SDP 1, which is configured in the same manner as the I channel shift register 61 and operates in the same manner.

On the other hand, reference numeral 63 is a first multiplexer MUX1 for multiplexing the data output from the I-channel shift register 61 and the data output from the Q-channel shift register 62 according to the clock 2 of the clock generator 60. 64 is a counter for counting the corresponding counter value based on the symbol rate data transmitted from the CUP 6 by the clock 1 and the clock 3 generated from the clock generator 60, which is an input CUP (6). Is a programmable counter configured to adjust a coefficient value based on the symbol rate data of

For example, the symbol rate data is composed of two bits, in which case the number is four, "0", "1", "10", and "11". The count value of the counter is set according to the two-bit symbol rate data. When the symbol rate corresponding to the symbol rate data is 21.333 Kbps, the counter counts by one. When the symbol rate is 42.666 Kbps, the counter is counted. Will count by two.

That is, the lookup table of the carrier is addressed so that the sampling interval according to the symbol rate of the data is adjusted through the counter 64. The 7-bit data output from the counter 64 is stored in the first multiplexer 63. It is added to the front of the 9-bit output data and input to the second multiplexer 65 to be described later.

On the other hand, reference numeral 65 is a second multiplexer (MUX2) for multiplexing the combined signal of the signal output from the first multiplexer 63 and the signal generated from the counter 64 based on the signal of clock 3, and 66 is a sampling. The sampling data of the carrier having the smallest interval is stored in the lookup table, and the lookup table is addressed by the output signal of the second multiplexer 65.

Further, reference numeral 67 denotes a data synthesizer which adds and outputs "0" data between sampling data of the carrier applied from the memory 66 based on the clock signal of clock 3, which is one to one carrier sampling data. "0" data is added.

On the other hand, reference numeral 68 denotes a D / A converter which converts an input digital signal into an analog signal and outputs the same.

That is, the carrier lookup table addressing method according to the above configuration transmits the I data and the Q data output from the SDP 1 to the first multiplexer 63 via the shift register, respectively. Here, the shift register stores I data and Q data, and transmits the data to the first multiplexer 63 when all nine data are filled.

The first multiplexer multiplexes the input I data and the Q data based on the clock 2 signal generated from the clock generator 50.

On the other hand, the symbol rate data applied from the CUP 6 is transmitted to the counter 64, and the first multiplexer is selected by selecting a counter corresponding to the symbol rate of the data corresponding to the symbol rate data based on the symbol rate data. It is added to the data output from 63 to address the lookup table of the carrier. Here, the output data of the counter 64 designates the address of the lookup table.

For example, when the two-bit symbol rate data input from the CUP 6 is " 0 ", the counter 64 can select 1,2,3,4. If the two-bit symbol rate data is "1", the counter is 1, 3, 5, 7, 9 .... By counting two by two, one lookup table addresses the other carriers with different sampling intervals.

Also, by inserting " 0 " data between the addressed and output data and transmitting the data to the D / A converter 68, D / A conversion is performed on “0” data in the middle of the D / A conversion of the data. As a result, an analog signal is output for a sampling interval twice as close as that of the conventional D / A conversion.

4 is a diagram illustrating a sampling instantaneous value detection in a conventional modulation apparatus and a modulation apparatus according to the present invention, in which (A) is a diagram showing conventional sampling instantaneous value detection, (B) according to the present invention. The sampling instant value detection in the modulator is shown.

As shown in Fig. 4, in the conventional art (A), the sampling instantaneous value of the place where the value becomes "1" or "-1" is input to the input signal and configured to perform a modulation operation on it. In the modulation device B according to the invention, by inserting "0" data in the middle of sampling instant value detection, the sampling instant at which the function value becomes "0" in addition to the sampling instant value at which the function value is "1" or "-1" value. The value will be detected. In the figure, the sampling instant values detected are indicated by "x".

That is, only the carrier sampling data having the smallest sampling interval among the plurality of symbol rates is stored in the lookup table of the memory, and the counter 64 is controlled based on the control signal transmitted from the CUP 6 to control the counter signal. By counting and outputting the sampling interval of the carrier corresponding to the corresponding symbol rate, not only can address the lookup table of the carrier sufficiently for a large number of symbol rates, but also twice the sampling interval compared to the conventional D / A conversion. It will output an analog signal for.

Therefore, the output efficiency of data can be improved without increasing the capacity of the memory for storing carrier sampling data of the channel modem for satellite communication system.

In addition, this invention is not limited to the said Example, It can variously deform and implement within the range which does not deviate from the technical summary of this invention.

As described above, according to the present invention, only the sampling data of the carrier having the smallest sampling interval is stored in the memory, and a small memory is used by inserting " 0 " data between the addressed data and performing D / A conversion. In the meantime, the output efficiency of the analog signal output through the channel modem can be improved.

Claims (1)

A modulation apparatus of a channel modem for a satellite communication system for shifting I, Q channel data transmitted from a voice data processor based on a clock signal generated from a clock generator, and multiplexing the same to address carrier sampling data. A counter that adjusts and outputs a coefficient value according to a symbol rate transmitted from a channel unit processor that controls the overall operation of the channel modem, A multiplexer which adds a signal output from a counter to the I, Q channel data and multiplexes an input signal according to a clock signal; Memory that stores sampling data of the carrier with the smallest sampling interval as a lookup table, A data synthesizer for inserting "0" data into carrier sampling data of the addressed memory; And a D / A converter for performing D / A conversion based on the synthesized data output from the data synthesizer.