00001 /* 00002 * SpanDSP - a series of DSP components for telephony 00003 * 00004 * fsk.h - FSK modem transmit and receive parts 00005 * 00006 * Written by Steve Underwood <steveu@coppice.org> 00007 * 00008 * Copyright (C) 2003 Steve Underwood 00009 * 00010 * All rights reserved. 00011 * 00012 * This program is free software; you can redistribute it and/or modify 00013 * it under the terms of the GNU Lesser General Public License version 2.1, 00014 * as published by the Free Software Foundation. 00015 * 00016 * This program is distributed in the hope that it will be useful, 00017 * but WITHOUT ANY WARRANTY; without even the implied warranty of 00018 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 00019 * GNU Lesser General Public License for more details. 00020 * 00021 * You should have received a copy of the GNU Lesser General Public 00022 * License along with this program; if not, write to the Free Software 00023 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 00024 * 00025 * $Id: fsk.h,v 1.39 2009/04/01 13:22:40 steveu Exp $ 00026 */ 00027 00028 /*! \file */ 00029 00030 /*! \page fsk_page FSK modems 00031 \section fsk_page_sec_1 What does it do? 00032 Most of the oldest telephony modems use incoherent FSK modulation. This module can 00033 be used to implement both the transmit and receive sides of a number of these 00034 modems. There are integrated definitions for: 00035 00036 - V.21 00037 - V.23 00038 - Bell 103 00039 - Bell 202 00040 - Weitbrecht (Used for TDD - Telecoms Device for the Deaf) 00041 00042 The audio output or input is a stream of 16 bit samples, at 8000 samples/second. 00043 The transmit and receive sides can be used independantly. 00044 00045 \section fsk_page_sec_2 The transmitter 00046 00047 The FSK transmitter uses a DDS generator to synthesise the waveform. This 00048 naturally produces phase coherent transitions, as the phase update rate is 00049 switched, producing a clean spectrum. The symbols are not generally an integer 00050 number of samples long. However, the symbol time for the fastest data rate 00051 generally used (1200bps) is more than 7 samples long. The jitter resulting from 00052 switching at the nearest sample is, therefore, acceptable. No interpolation is 00053 used. 00054 00055 \section fsk_page_sec_3 The receiver 00056 00057 The FSK receiver uses a quadrature correlation technique to demodulate the 00058 signal. Two DDS quadrature oscillators are used. The incoming signal is 00059 correlated with the oscillator signals over a period of one symbol. The 00060 oscillator giving the highest net correlation from its I and Q outputs is the 00061 one that matches the frequency being transmitted during the correlation 00062 interval. Because the transmission is totally asynchronous, the demodulation 00063 process must run sample by sample to find the symbol transitions. The 00064 correlation is performed on a sliding window basis, so the computational load of 00065 demodulating sample by sample is not great. 00066 00067 Two modes of symbol synchronisation are provided: 00068 00069 - In synchronous mode, symbol transitions are smoothed, to track their true 00070 position in the prescence of high timing jitter. This provides the most 00071 reliable symbol recovery in poor signal to noise conditions. However, it 00072 takes a little time to settle, so it not really suitable for data streams 00073 which must start up instantaneously (e.g. the TDD systems used by hearing 00074 impaired people). 00075 00076 - In asynchronous mode each transition is taken at face value, with no temporal 00077 smoothing. There is no settling time for this mode, but when the signal to 00078 noise ratio is very poor it does not perform as well as the synchronous mode. 00079 */ 00080 00081 #if !defined(_SPANDSP_FSK_H_) 00082 #define _SPANDSP_FSK_H_ 00083 00084 /*! 00085 FSK modem specification. This defines the frequencies, signal levels and 00086 baud rate (== bit rate for simple FSK) for a single channel of an FSK modem. 00087 */ 00088 typedef struct 00089 { 00090 /*! Short text name for the modem. */ 00091 const char *name; 00092 /*! The frequency of the zero bit state, in Hz */ 00093 int freq_zero; 00094 /*! The frequency of the one bit state, in Hz */ 00095 int freq_one; 00096 /*! The transmit power level, in dBm0 */ 00097 int tx_level; 00098 /*! The minimum acceptable receive power level, in dBm0 */ 00099 int min_level; 00100 /*! The bit rate of the modem, in units of 1/100th bps */ 00101 int baud_rate; 00102 } fsk_spec_t; 00103 00104 /* Predefined FSK modem channels */ 00105 enum 00106 { 00107 FSK_V21CH1 = 0, 00108 FSK_V21CH2, 00109 FSK_V23CH1, 00110 FSK_V23CH2, 00111 FSK_BELL103CH1, 00112 FSK_BELL103CH2, 00113 FSK_BELL202, 00114 FSK_WEITBRECHT, /* 45.45 baud version, used for TDD (Telecom Device for the Deaf) */ 00115 FSK_WEITBRECHT50 /* 50 baud version, used for TDD (Telecom Device for the Deaf) */ 00116 }; 00117 00118 SPAN_DECLARE_DATA extern const fsk_spec_t preset_fsk_specs[]; 00119 00120 /*! 00121 FSK modem transmit descriptor. This defines the state of a single working 00122 instance of an FSK modem transmitter. 00123 */ 00124 typedef struct fsk_tx_state_s fsk_tx_state_t; 00125 00126 /* The longest window will probably be 106 for 75 baud */ 00127 #define FSK_MAX_WINDOW_LEN 128 00128 00129 /*! 00130 FSK modem receive descriptor. This defines the state of a single working 00131 instance of an FSK modem receiver. 00132 */ 00133 typedef struct fsk_rx_state_s fsk_rx_state_t; 00134 00135 #if defined(__cplusplus) 00136 extern "C" 00137 { 00138 #endif 00139 00140 /*! Initialise an FSK modem transmit context. 00141 \brief Initialise an FSK modem transmit context. 00142 \param s The modem context. 00143 \param spec The specification of the modem tones and rate. 00144 \param get_bit The callback routine used to get the data to be transmitted. 00145 \param user_data An opaque pointer. 00146 \return A pointer to the modem context, or NULL if there was a problem. */ 00147 SPAN_DECLARE(fsk_tx_state_t *) fsk_tx_init(fsk_tx_state_t *s, 00148 const fsk_spec_t *spec, 00149 get_bit_func_t get_bit, 00150 void *user_data); 00151 00152 SPAN_DECLARE(int) fsk_tx_release(fsk_tx_state_t *s); 00153 00154 SPAN_DECLARE(int) fsk_tx_free(fsk_tx_state_t *s); 00155 00156 /*! Adjust an FSK modem transmit context's power output. 00157 \brief Adjust an FSK modem transmit context's power output. 00158 \param s The modem context. 00159 \param power The power level, in dBm0 */ 00160 SPAN_DECLARE(void) fsk_tx_power(fsk_tx_state_t *s, float power); 00161 00162 SPAN_DECLARE(void) fsk_tx_set_get_bit(fsk_tx_state_t *s, get_bit_func_t get_bit, void *user_data); 00163 00164 /*! Change the modem status report function associated with an FSK modem transmit context. 00165 \brief Change the modem status report function associated with an FSK modem transmit context. 00166 \param s The modem context. 00167 \param handler The callback routine used to report modem status changes. 00168 \param user_data An opaque pointer. */ 00169 SPAN_DECLARE(void) fsk_tx_set_modem_status_handler(fsk_tx_state_t *s, modem_tx_status_func_t handler, void *user_data); 00170 00171 /*! Generate a block of FSK modem audio samples. 00172 \brief Generate a block of FSK modem audio samples. 00173 \param s The modem context. 00174 \param amp The audio sample buffer. 00175 \param len The number of samples to be generated. 00176 \return The number of samples actually generated. 00177 */ 00178 SPAN_DECLARE(int) fsk_tx(fsk_tx_state_t *s, int16_t amp[], int len); 00179 00180 /*! Get the current received signal power. 00181 \param s The modem context. 00182 \return The signal power, in dBm0. */ 00183 SPAN_DECLARE(float) fsk_rx_signal_power(fsk_rx_state_t *s); 00184 00185 /*! Adjust an FSK modem receive context's carrier detect power threshold. 00186 \brief Adjust an FSK modem receive context's carrier detect power threshold. 00187 \param s The modem context. 00188 \param cutoff The power level, in dBm0 */ 00189 SPAN_DECLARE(void) fsk_rx_signal_cutoff(fsk_rx_state_t *s, float cutoff); 00190 00191 /*! Initialise an FSK modem receive context. 00192 \brief Initialise an FSK modem receive context. 00193 \param s The modem context. 00194 \param spec The specification of the modem tones and rate. 00195 \param framing_mode 0 for fully asynchronous mode. 1 for synchronous mode. >1 for 00196 this many bits per asynchronous character frame. 00197 \param put_bit The callback routine used to put the received data. 00198 \param user_data An opaque pointer. 00199 \return A pointer to the modem context, or NULL if there was a problem. */ 00200 SPAN_DECLARE(fsk_rx_state_t *) fsk_rx_init(fsk_rx_state_t *s, 00201 const fsk_spec_t *spec, 00202 int framing_mode, 00203 put_bit_func_t put_bit, 00204 void *user_data); 00205 00206 SPAN_DECLARE(int) fsk_rx_release(fsk_rx_state_t *s); 00207 00208 SPAN_DECLARE(int) fsk_rx_free(fsk_rx_state_t *s); 00209 00210 /*! Process a block of received FSK modem audio samples. 00211 \brief Process a block of received FSK modem audio samples. 00212 \param s The modem context. 00213 \param amp The audio sample buffer. 00214 \param len The number of samples in the buffer. 00215 \return The number of samples unprocessed. 00216 */ 00217 SPAN_DECLARE(int) fsk_rx(fsk_rx_state_t *s, const int16_t *amp, int len); 00218 00219 /*! Fake processing of a missing block of received FSK modem audio samples 00220 (e.g due to packet loss). 00221 \brief Fake processing of a missing block of received FSK modem audio samples. 00222 \param s The modem context. 00223 \param len The number of samples to fake. 00224 \return The number of samples unprocessed. 00225 */ 00226 SPAN_DECLARE(int) fsk_rx_fillin(fsk_rx_state_t *s, int len); 00227 00228 SPAN_DECLARE(void) fsk_rx_set_put_bit(fsk_rx_state_t *s, put_bit_func_t put_bit, void *user_data); 00229 00230 /*! Change the modem status report function associated with an FSK modem receive context. 00231 \brief Change the modem status report function associated with an FSK modem receive context. 00232 \param s The modem context. 00233 \param handler The callback routine used to report modem status changes. 00234 \param user_data An opaque pointer. */ 00235 SPAN_DECLARE(void) fsk_rx_set_modem_status_handler(fsk_rx_state_t *s, modem_rx_status_func_t handler, void *user_data); 00236 00237 #if defined(__cplusplus) 00238 } 00239 #endif 00240 00241 #endif 00242 /*- End of file ------------------------------------------------------------*/