bktr_tuner.c revision 1.6.2.3
1 1.6.2.3 bouyer /* $NetBSD: bktr_tuner.c,v 1.6.2.3 2000/11/22 16:04:32 bouyer Exp $ */ 2 1.6.2.2 bouyer 3 1.6.2.3 bouyer /* FreeBSD: src/sys/dev/bktr/bktr_tuner.c,v 1.8 2000/10/15 14:18:06 phk Exp */ 4 1.6.2.2 bouyer 5 1.6.2.2 bouyer /* 6 1.6.2.2 bouyer * This is part of the Driver for Video Capture Cards (Frame grabbers) 7 1.6.2.2 bouyer * and TV Tuner cards using the Brooktree Bt848, Bt848A, Bt849A, Bt878, Bt879 8 1.6.2.2 bouyer * chipset. 9 1.6.2.2 bouyer * Copyright Roger Hardiman and Amancio Hasty. 10 1.6.2.2 bouyer * 11 1.6.2.2 bouyer * bktr_tuner : This deals with controlling the tuner fitted to TV cards. 12 1.6.2.2 bouyer * 13 1.6.2.2 bouyer */ 14 1.6.2.2 bouyer 15 1.6.2.2 bouyer /* 16 1.6.2.2 bouyer * 1. Redistributions of source code must retain the 17 1.6.2.2 bouyer * Copyright (c) 1997 Amancio Hasty, 1999 Roger Hardiman 18 1.6.2.2 bouyer * All rights reserved. 19 1.6.2.2 bouyer * 20 1.6.2.2 bouyer * Redistribution and use in source and binary forms, with or without 21 1.6.2.2 bouyer * modification, are permitted provided that the following conditions 22 1.6.2.2 bouyer * are met: 23 1.6.2.2 bouyer * 1. Redistributions of source code must retain the above copyright 24 1.6.2.2 bouyer * notice, this list of conditions and the following disclaimer. 25 1.6.2.2 bouyer * 2. Redistributions in binary form must reproduce the above copyright 26 1.6.2.2 bouyer * notice, this list of conditions and the following disclaimer in the 27 1.6.2.2 bouyer * documentation and/or other materials provided with the distribution. 28 1.6.2.2 bouyer * 3. All advertising materials mentioning features or use of this software 29 1.6.2.2 bouyer * must display the following acknowledgement: 30 1.6.2.2 bouyer * This product includes software developed by Amancio Hasty and 31 1.6.2.2 bouyer * Roger Hardiman 32 1.6.2.2 bouyer * 4. The name of the author may not be used to endorse or promote products 33 1.6.2.2 bouyer * derived from this software without specific prior written permission. 34 1.6.2.2 bouyer * 35 1.6.2.2 bouyer * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 36 1.6.2.2 bouyer * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 37 1.6.2.2 bouyer * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 38 1.6.2.2 bouyer * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, 39 1.6.2.2 bouyer * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 40 1.6.2.2 bouyer * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 41 1.6.2.2 bouyer * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 42 1.6.2.2 bouyer * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, 43 1.6.2.2 bouyer * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN 44 1.6.2.2 bouyer * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 45 1.6.2.2 bouyer * POSSIBILITY OF SUCH DAMAGE. 46 1.6.2.2 bouyer */ 47 1.6.2.2 bouyer 48 1.6.2.2 bouyer 49 1.6.2.2 bouyer 50 1.6.2.2 bouyer #include <sys/param.h> 51 1.6.2.2 bouyer #include <sys/systm.h> 52 1.6.2.2 bouyer #include <sys/kernel.h> 53 1.6.2.2 bouyer #include <sys/vnode.h> 54 1.6.2.2 bouyer #ifdef __NetBSD__ 55 1.6.2.2 bouyer #include <sys/proc.h> 56 1.6.2.2 bouyer #endif 57 1.6.2.2 bouyer 58 1.6.2.2 bouyer #ifdef __FreeBSD__ 59 1.6.2.2 bouyer #include <pci/pcivar.h> 60 1.6.2.2 bouyer 61 1.6.2.3 bouyer #if (__FreeBSD_version < 500000) 62 1.6.2.3 bouyer #include <machine/clock.h> /* for DELAY */ 63 1.6.2.3 bouyer #endif 64 1.6.2.3 bouyer 65 1.6.2.2 bouyer #if (__FreeBSD_version >=300000) 66 1.6.2.2 bouyer #include <machine/bus_memio.h> /* for bus space */ 67 1.6.2.2 bouyer #include <machine/bus.h> 68 1.6.2.2 bouyer #include <sys/bus.h> 69 1.6.2.2 bouyer #endif 70 1.6.2.2 bouyer #endif 71 1.6.2.2 bouyer 72 1.6.2.2 bouyer #ifdef __NetBSD__ 73 1.6.2.2 bouyer #include <dev/ic/bt8xx.h> /* NetBSD .h file location */ 74 1.6.2.2 bouyer #include <dev/pci/bktr/bktr_reg.h> 75 1.6.2.2 bouyer #include <dev/pci/bktr/bktr_tuner.h> 76 1.6.2.2 bouyer #include <dev/pci/bktr/bktr_card.h> 77 1.6.2.2 bouyer #include <dev/pci/bktr/bktr_core.h> 78 1.6.2.2 bouyer #else 79 1.6.2.2 bouyer #include <machine/ioctl_meteor.h> /* Traditional .h file location */ 80 1.6.2.2 bouyer #include <machine/ioctl_bt848.h> /* extensions to ioctl_meteor.h */ 81 1.6.2.2 bouyer #include <dev/bktr/bktr_reg.h> 82 1.6.2.2 bouyer #include <dev/bktr/bktr_tuner.h> 83 1.6.2.2 bouyer #include <dev/bktr/bktr_card.h> 84 1.6.2.2 bouyer #include <dev/bktr/bktr_core.h> 85 1.6.2.2 bouyer #endif 86 1.6.2.2 bouyer 87 1.6.2.2 bouyer 88 1.6.2.2 bouyer 89 1.6.2.2 bouyer #if defined( TUNER_AFC ) 90 1.6.2.2 bouyer #define AFC_DELAY 10000 /* 10 millisend delay */ 91 1.6.2.2 bouyer #define AFC_BITS 0x07 92 1.6.2.2 bouyer #define AFC_FREQ_MINUS_125 0x00 93 1.6.2.2 bouyer #define AFC_FREQ_MINUS_62 0x01 94 1.6.2.2 bouyer #define AFC_FREQ_CENTERED 0x02 95 1.6.2.2 bouyer #define AFC_FREQ_PLUS_62 0x03 96 1.6.2.2 bouyer #define AFC_FREQ_PLUS_125 0x04 97 1.6.2.2 bouyer #define AFC_MAX_STEP (5 * FREQFACTOR) /* no more than 5 MHz */ 98 1.6.2.2 bouyer #endif /* TUNER_AFC */ 99 1.6.2.2 bouyer 100 1.6.2.2 bouyer 101 1.6.2.2 bouyer #define TTYPE_XXX 0 102 1.6.2.2 bouyer #define TTYPE_NTSC 1 103 1.6.2.2 bouyer #define TTYPE_NTSC_J 2 104 1.6.2.2 bouyer #define TTYPE_PAL 3 105 1.6.2.2 bouyer #define TTYPE_PAL_M 4 106 1.6.2.2 bouyer #define TTYPE_PAL_N 5 107 1.6.2.2 bouyer #define TTYPE_SECAM 6 108 1.6.2.2 bouyer 109 1.6.2.2 bouyer #define TSA552x_CB_MSB (0x80) 110 1.6.2.2 bouyer #define TSA552x_CB_CP (1<<6) /* set this for fast tuning */ 111 1.6.2.2 bouyer #define TSA552x_CB_T2 (1<<5) /* test mode - Normally set to 0 */ 112 1.6.2.2 bouyer #define TSA552x_CB_T1 (1<<4) /* test mode - Normally set to 0 */ 113 1.6.2.2 bouyer #define TSA552x_CB_T0 (1<<3) /* test mode - Normally set to 1 */ 114 1.6.2.2 bouyer #define TSA552x_CB_RSA (1<<2) /* 0 for 31.25 khz, 1 for 62.5 kHz */ 115 1.6.2.2 bouyer #define TSA552x_CB_RSB (1<<1) /* 0 for FM 50kHz steps, 1 = Use RSA*/ 116 1.6.2.2 bouyer #define TSA552x_CB_OS (1<<0) /* Set to 0 for normal operation */ 117 1.6.2.2 bouyer 118 1.6.2.2 bouyer #define TSA552x_RADIO (TSA552x_CB_MSB | \ 119 1.6.2.2 bouyer TSA552x_CB_T0) 120 1.6.2.2 bouyer 121 1.6.2.2 bouyer /* raise the charge pump voltage for fast tuning */ 122 1.6.2.2 bouyer #define TSA552x_FCONTROL (TSA552x_CB_MSB | \ 123 1.6.2.2 bouyer TSA552x_CB_CP | \ 124 1.6.2.2 bouyer TSA552x_CB_T0 | \ 125 1.6.2.2 bouyer TSA552x_CB_RSA | \ 126 1.6.2.2 bouyer TSA552x_CB_RSB) 127 1.6.2.2 bouyer 128 1.6.2.2 bouyer /* lower the charge pump voltage for better residual oscillator FM */ 129 1.6.2.2 bouyer #define TSA552x_SCONTROL (TSA552x_CB_MSB | \ 130 1.6.2.2 bouyer TSA552x_CB_T0 | \ 131 1.6.2.2 bouyer TSA552x_CB_RSA | \ 132 1.6.2.2 bouyer TSA552x_CB_RSB) 133 1.6.2.2 bouyer 134 1.6.2.2 bouyer /* The control value for the ALPS TSCH5 Tuner */ 135 1.6.2.2 bouyer #define TSCH5_FCONTROL 0x82 136 1.6.2.2 bouyer #define TSCH5_RADIO 0x86 137 1.6.2.2 bouyer 138 1.6.2.2 bouyer /* The control value for the ALPS TSBH1 Tuner */ 139 1.6.2.2 bouyer #define TSBH1_FCONTROL 0xce 140 1.6.2.2 bouyer 141 1.6.2.2 bouyer 142 1.6.2.2 bouyer static const struct TUNER tuners[] = { 143 1.6.2.2 bouyer /* XXX FIXME: fill in the band-switch crosspoints */ 144 1.6.2.2 bouyer /* NO_TUNER */ 145 1.6.2.2 bouyer { "<no>", /* the 'name' */ 146 1.6.2.2 bouyer TTYPE_XXX, /* input type */ 147 1.6.2.2 bouyer { 0x00, /* control byte for Tuner PLL */ 148 1.6.2.2 bouyer 0x00, 149 1.6.2.2 bouyer 0x00, 150 1.6.2.2 bouyer 0x00 }, 151 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 152 1.6.2.2 bouyer { 0x00, 0x00, 0x00,0x00} }, /* the band-switch values */ 153 1.6.2.2 bouyer 154 1.6.2.2 bouyer /* TEMIC_NTSC */ 155 1.6.2.2 bouyer { "Temic NTSC", /* the 'name' */ 156 1.6.2.2 bouyer TTYPE_NTSC, /* input type */ 157 1.6.2.2 bouyer { TSA552x_SCONTROL, /* control byte for Tuner PLL */ 158 1.6.2.2 bouyer TSA552x_SCONTROL, 159 1.6.2.2 bouyer TSA552x_SCONTROL, 160 1.6.2.2 bouyer 0x00 }, 161 1.6.2.2 bouyer { 0x00, 0x00}, /* band-switch crosspoints */ 162 1.6.2.2 bouyer { 0x02, 0x04, 0x01, 0x00 } }, /* the band-switch values */ 163 1.6.2.2 bouyer 164 1.6.2.2 bouyer /* TEMIC_PAL */ 165 1.6.2.2 bouyer { "Temic PAL", /* the 'name' */ 166 1.6.2.2 bouyer TTYPE_PAL, /* input type */ 167 1.6.2.2 bouyer { TSA552x_SCONTROL, /* control byte for Tuner PLL */ 168 1.6.2.2 bouyer TSA552x_SCONTROL, 169 1.6.2.2 bouyer TSA552x_SCONTROL, 170 1.6.2.2 bouyer 0x00 }, 171 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 172 1.6.2.2 bouyer { 0x02, 0x04, 0x01, 0x00 } }, /* the band-switch values */ 173 1.6.2.2 bouyer 174 1.6.2.2 bouyer /* TEMIC_SECAM */ 175 1.6.2.2 bouyer { "Temic SECAM", /* the 'name' */ 176 1.6.2.2 bouyer TTYPE_SECAM, /* input type */ 177 1.6.2.2 bouyer { TSA552x_SCONTROL, /* control byte for Tuner PLL */ 178 1.6.2.2 bouyer TSA552x_SCONTROL, 179 1.6.2.2 bouyer TSA552x_SCONTROL, 180 1.6.2.2 bouyer 0x00 }, 181 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 182 1.6.2.2 bouyer { 0x02, 0x04, 0x01,0x00 } }, /* the band-switch values */ 183 1.6.2.2 bouyer 184 1.6.2.2 bouyer /* PHILIPS_NTSC */ 185 1.6.2.2 bouyer { "Philips NTSC", /* the 'name' */ 186 1.6.2.2 bouyer TTYPE_NTSC, /* input type */ 187 1.6.2.2 bouyer { TSA552x_SCONTROL, /* control byte for Tuner PLL */ 188 1.6.2.2 bouyer TSA552x_SCONTROL, 189 1.6.2.2 bouyer TSA552x_SCONTROL, 190 1.6.2.2 bouyer 0x00 }, 191 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 192 1.6.2.2 bouyer { 0xa0, 0x90, 0x30, 0x00 } }, /* the band-switch values */ 193 1.6.2.2 bouyer 194 1.6.2.2 bouyer /* PHILIPS_PAL */ 195 1.6.2.2 bouyer { "Philips PAL", /* the 'name' */ 196 1.6.2.2 bouyer TTYPE_PAL, /* input type */ 197 1.6.2.2 bouyer { TSA552x_SCONTROL, /* control byte for Tuner PLL */ 198 1.6.2.2 bouyer TSA552x_SCONTROL, 199 1.6.2.2 bouyer TSA552x_SCONTROL, 200 1.6.2.2 bouyer 0x00 }, 201 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 202 1.6.2.2 bouyer { 0xa0, 0x90, 0x30, 0x00 } }, /* the band-switch values */ 203 1.6.2.2 bouyer 204 1.6.2.2 bouyer /* PHILIPS_SECAM */ 205 1.6.2.2 bouyer { "Philips SECAM", /* the 'name' */ 206 1.6.2.2 bouyer TTYPE_SECAM, /* input type */ 207 1.6.2.2 bouyer { TSA552x_SCONTROL, /* control byte for Tuner PLL */ 208 1.6.2.2 bouyer TSA552x_SCONTROL, 209 1.6.2.2 bouyer TSA552x_SCONTROL, 210 1.6.2.2 bouyer 0x00 }, 211 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 212 1.6.2.2 bouyer { 0xa7, 0x97, 0x37, 0x00 } }, /* the band-switch values */ 213 1.6.2.2 bouyer 214 1.6.2.2 bouyer /* TEMIC_PAL I */ 215 1.6.2.2 bouyer { "Temic PAL I", /* the 'name' */ 216 1.6.2.2 bouyer TTYPE_PAL, /* input type */ 217 1.6.2.2 bouyer { TSA552x_SCONTROL, /* control byte for Tuner PLL */ 218 1.6.2.2 bouyer TSA552x_SCONTROL, 219 1.6.2.2 bouyer TSA552x_SCONTROL, 220 1.6.2.2 bouyer 0x00 }, 221 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 222 1.6.2.2 bouyer { 0x02, 0x04, 0x01,0x00 } }, /* the band-switch values */ 223 1.6.2.2 bouyer 224 1.6.2.2 bouyer /* PHILIPS_PALI */ 225 1.6.2.2 bouyer { "Philips PAL I", /* the 'name' */ 226 1.6.2.2 bouyer TTYPE_PAL, /* input type */ 227 1.6.2.2 bouyer { TSA552x_SCONTROL, /* control byte for Tuner PLL */ 228 1.6.2.2 bouyer TSA552x_SCONTROL, 229 1.6.2.2 bouyer TSA552x_SCONTROL, 230 1.6.2.2 bouyer 0x00 }, 231 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 232 1.6.2.2 bouyer { 0xa0, 0x90, 0x30,0x00 } }, /* the band-switch values */ 233 1.6.2.2 bouyer 234 1.6.2.2 bouyer /* PHILIPS_FR1236_NTSC */ 235 1.6.2.2 bouyer { "Philips FR1236 NTSC FM", /* the 'name' */ 236 1.6.2.2 bouyer TTYPE_NTSC, /* input type */ 237 1.6.2.2 bouyer { TSA552x_FCONTROL, /* control byte for Tuner PLL */ 238 1.6.2.2 bouyer TSA552x_FCONTROL, 239 1.6.2.2 bouyer TSA552x_FCONTROL, 240 1.6.2.2 bouyer TSA552x_RADIO }, 241 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 242 1.6.2.2 bouyer { 0xa0, 0x90, 0x30,0xa4 } }, /* the band-switch values */ 243 1.6.2.2 bouyer 244 1.6.2.2 bouyer /* PHILIPS_FR1216_PAL */ 245 1.6.2.2 bouyer { "Philips FR1216 PAL FM" , /* the 'name' */ 246 1.6.2.2 bouyer TTYPE_PAL, /* input type */ 247 1.6.2.2 bouyer { TSA552x_FCONTROL, /* control byte for Tuner PLL */ 248 1.6.2.2 bouyer TSA552x_FCONTROL, 249 1.6.2.2 bouyer TSA552x_FCONTROL, 250 1.6.2.2 bouyer TSA552x_RADIO }, 251 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 252 1.6.2.2 bouyer { 0xa0, 0x90, 0x30, 0xa4 } }, /* the band-switch values */ 253 1.6.2.2 bouyer 254 1.6.2.2 bouyer /* PHILIPS_FR1236_SECAM */ 255 1.6.2.2 bouyer { "Philips FR1236 SECAM FM", /* the 'name' */ 256 1.6.2.2 bouyer TTYPE_SECAM, /* input type */ 257 1.6.2.2 bouyer { TSA552x_FCONTROL, /* control byte for Tuner PLL */ 258 1.6.2.2 bouyer TSA552x_FCONTROL, 259 1.6.2.2 bouyer TSA552x_FCONTROL, 260 1.6.2.2 bouyer TSA552x_RADIO }, 261 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 262 1.6.2.2 bouyer { 0xa7, 0x97, 0x37, 0xa4 } }, /* the band-switch values */ 263 1.6.2.2 bouyer 264 1.6.2.2 bouyer /* ALPS TSCH5 NTSC */ 265 1.6.2.2 bouyer { "ALPS TSCH5 NTSC FM", /* the 'name' */ 266 1.6.2.2 bouyer TTYPE_NTSC, /* input type */ 267 1.6.2.2 bouyer { TSCH5_FCONTROL, /* control byte for Tuner PLL */ 268 1.6.2.2 bouyer TSCH5_FCONTROL, 269 1.6.2.2 bouyer TSCH5_FCONTROL, 270 1.6.2.2 bouyer TSCH5_RADIO }, 271 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 272 1.6.2.2 bouyer { 0x14, 0x12, 0x11, 0x04 } }, /* the band-switch values */ 273 1.6.2.2 bouyer 274 1.6.2.2 bouyer /* ALPS TSBH1 NTSC */ 275 1.6.2.2 bouyer { "ALPS TSBH1 NTSC", /* the 'name' */ 276 1.6.2.2 bouyer TTYPE_NTSC, /* input type */ 277 1.6.2.2 bouyer { TSBH1_FCONTROL, /* control byte for Tuner PLL */ 278 1.6.2.2 bouyer TSBH1_FCONTROL, 279 1.6.2.2 bouyer TSBH1_FCONTROL, 280 1.6.2.2 bouyer 0x00 }, 281 1.6.2.2 bouyer { 0x00, 0x00 }, /* band-switch crosspoints */ 282 1.6.2.2 bouyer { 0x01, 0x02, 0x08, 0x00 } } /* the band-switch values */ 283 1.6.2.2 bouyer }; 284 1.6.2.2 bouyer 285 1.6.2.2 bouyer 286 1.6.2.2 bouyer /* scaling factor for frequencies expressed as ints */ 287 1.6.2.2 bouyer #define FREQFACTOR 16 288 1.6.2.2 bouyer 289 1.6.2.2 bouyer /* 290 1.6.2.2 bouyer * Format: 291 1.6.2.2 bouyer * entry 0: MAX legal channel 292 1.6.2.2 bouyer * entry 1: IF frequency 293 1.6.2.2 bouyer * expressed as fi{mHz} * 16, 294 1.6.2.2 bouyer * eg 45.75mHz == 45.75 * 16 = 732 295 1.6.2.2 bouyer * entry 2: [place holder/future] 296 1.6.2.2 bouyer * entry 3: base of channel record 0 297 1.6.2.2 bouyer * entry 3 + (x*3): base of channel record 'x' 298 1.6.2.2 bouyer * entry LAST: NULL channel entry marking end of records 299 1.6.2.2 bouyer * 300 1.6.2.2 bouyer * Record: 301 1.6.2.2 bouyer * int 0: base channel 302 1.6.2.2 bouyer * int 1: frequency of base channel, 303 1.6.2.2 bouyer * expressed as fb{mHz} * 16, 304 1.6.2.2 bouyer * int 2: offset frequency between channels, 305 1.6.2.2 bouyer * expressed as fo{mHz} * 16, 306 1.6.2.2 bouyer */ 307 1.6.2.2 bouyer 308 1.6.2.2 bouyer /* 309 1.6.2.2 bouyer * North American Broadcast Channels: 310 1.6.2.2 bouyer * 311 1.6.2.2 bouyer * 2: 55.25 mHz - 4: 67.25 mHz 312 1.6.2.2 bouyer * 5: 77.25 mHz - 6: 83.25 mHz 313 1.6.2.2 bouyer * 7: 175.25 mHz - 13: 211.25 mHz 314 1.6.2.2 bouyer * 14: 471.25 mHz - 83: 885.25 mHz 315 1.6.2.2 bouyer * 316 1.6.2.2 bouyer * IF freq: 45.75 mHz 317 1.6.2.2 bouyer */ 318 1.6.2.2 bouyer #define OFFSET 6.00 319 1.6.2.2 bouyer static int nabcst[] = { 320 1.6.2.2 bouyer 83, (int)( 45.75 * FREQFACTOR), 0, 321 1.6.2.2 bouyer 14, (int)(471.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 322 1.6.2.2 bouyer 7, (int)(175.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 323 1.6.2.2 bouyer 5, (int)( 77.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 324 1.6.2.2 bouyer 2, (int)( 55.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 325 1.6.2.2 bouyer 0 326 1.6.2.2 bouyer }; 327 1.6.2.2 bouyer #undef OFFSET 328 1.6.2.2 bouyer 329 1.6.2.2 bouyer /* 330 1.6.2.2 bouyer * North American Cable Channels, IRC: 331 1.6.2.2 bouyer * 332 1.6.2.2 bouyer * 2: 55.25 mHz - 4: 67.25 mHz 333 1.6.2.2 bouyer * 5: 77.25 mHz - 6: 83.25 mHz 334 1.6.2.2 bouyer * 7: 175.25 mHz - 13: 211.25 mHz 335 1.6.2.2 bouyer * 14: 121.25 mHz - 22: 169.25 mHz 336 1.6.2.2 bouyer * 23: 217.25 mHz - 94: 643.25 mHz 337 1.6.2.2 bouyer * 95: 91.25 mHz - 99: 115.25 mHz 338 1.6.2.2 bouyer * 339 1.6.2.2 bouyer * IF freq: 45.75 mHz 340 1.6.2.2 bouyer */ 341 1.6.2.2 bouyer #define OFFSET 6.00 342 1.6.2.2 bouyer static int irccable[] = { 343 1.6.2.2 bouyer 116, (int)( 45.75 * FREQFACTOR), 0, 344 1.6.2.2 bouyer 100, (int)(649.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 345 1.6.2.2 bouyer 95, (int)( 91.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 346 1.6.2.2 bouyer 23, (int)(217.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 347 1.6.2.2 bouyer 14, (int)(121.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 348 1.6.2.2 bouyer 7, (int)(175.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 349 1.6.2.2 bouyer 5, (int)( 77.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 350 1.6.2.2 bouyer 2, (int)( 55.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 351 1.6.2.2 bouyer 0 352 1.6.2.2 bouyer }; 353 1.6.2.2 bouyer #undef OFFSET 354 1.6.2.2 bouyer 355 1.6.2.2 bouyer /* 356 1.6.2.2 bouyer * North American Cable Channels, HRC: 357 1.6.2.2 bouyer * 358 1.6.2.2 bouyer * 2: 54 mHz - 4: 66 mHz 359 1.6.2.2 bouyer * 5: 78 mHz - 6: 84 mHz 360 1.6.2.2 bouyer * 7: 174 mHz - 13: 210 mHz 361 1.6.2.2 bouyer * 14: 120 mHz - 22: 168 mHz 362 1.6.2.2 bouyer * 23: 216 mHz - 94: 642 mHz 363 1.6.2.2 bouyer * 95: 90 mHz - 99: 114 mHz 364 1.6.2.2 bouyer * 365 1.6.2.2 bouyer * IF freq: 45.75 mHz 366 1.6.2.2 bouyer */ 367 1.6.2.2 bouyer #define OFFSET 6.00 368 1.6.2.2 bouyer static int hrccable[] = { 369 1.6.2.2 bouyer 116, (int)( 45.75 * FREQFACTOR), 0, 370 1.6.2.2 bouyer 100, (int)(648.00 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 371 1.6.2.2 bouyer 95, (int)( 90.00 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 372 1.6.2.2 bouyer 23, (int)(216.00 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 373 1.6.2.2 bouyer 14, (int)(120.00 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 374 1.6.2.2 bouyer 7, (int)(174.00 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 375 1.6.2.2 bouyer 5, (int)( 78.00 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 376 1.6.2.2 bouyer 2, (int)( 54.00 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 377 1.6.2.2 bouyer 0 378 1.6.2.2 bouyer }; 379 1.6.2.2 bouyer #undef OFFSET 380 1.6.2.2 bouyer 381 1.6.2.2 bouyer /* 382 1.6.2.2 bouyer * Western European broadcast channels: 383 1.6.2.2 bouyer * 384 1.6.2.2 bouyer * (there are others that appear to vary between countries - rmt) 385 1.6.2.2 bouyer * 386 1.6.2.2 bouyer * here's the table Philips provides: 387 1.6.2.2 bouyer * caution, some of the offsets don't compute... 388 1.6.2.2 bouyer * 389 1.6.2.2 bouyer * 1 4525 700 N21 390 1.6.2.2 bouyer * 391 1.6.2.2 bouyer * 2 4825 700 E2 392 1.6.2.2 bouyer * 3 5525 700 E3 393 1.6.2.2 bouyer * 4 6225 700 E4 394 1.6.2.2 bouyer * 395 1.6.2.2 bouyer * 5 17525 700 E5 396 1.6.2.2 bouyer * 6 18225 700 E6 397 1.6.2.2 bouyer * 7 18925 700 E7 398 1.6.2.2 bouyer * 8 19625 700 E8 399 1.6.2.2 bouyer * 9 20325 700 E9 400 1.6.2.2 bouyer * 10 21025 700 E10 401 1.6.2.2 bouyer * 11 21725 700 E11 402 1.6.2.2 bouyer * 12 22425 700 E12 403 1.6.2.2 bouyer * 404 1.6.2.2 bouyer * 13 5375 700 ITA 405 1.6.2.2 bouyer * 14 6225 700 ITB 406 1.6.2.2 bouyer * 407 1.6.2.2 bouyer * 15 8225 700 ITC 408 1.6.2.2 bouyer * 409 1.6.2.2 bouyer * 16 17525 700 ITD 410 1.6.2.2 bouyer * 17 18325 700 ITE 411 1.6.2.2 bouyer * 412 1.6.2.2 bouyer * 18 19225 700 ITF 413 1.6.2.2 bouyer * 19 20125 700 ITG 414 1.6.2.2 bouyer * 20 21025 700 ITH 415 1.6.2.2 bouyer * 416 1.6.2.2 bouyer * 21 47125 800 E21 417 1.6.2.2 bouyer * 22 47925 800 E22 418 1.6.2.2 bouyer * 23 48725 800 E23 419 1.6.2.2 bouyer * 24 49525 800 E24 420 1.6.2.2 bouyer * 25 50325 800 E25 421 1.6.2.2 bouyer * 26 51125 800 E26 422 1.6.2.2 bouyer * 27 51925 800 E27 423 1.6.2.2 bouyer * 28 52725 800 E28 424 1.6.2.2 bouyer * 29 53525 800 E29 425 1.6.2.2 bouyer * 30 54325 800 E30 426 1.6.2.2 bouyer * 31 55125 800 E31 427 1.6.2.2 bouyer * 32 55925 800 E32 428 1.6.2.2 bouyer * 33 56725 800 E33 429 1.6.2.2 bouyer * 34 57525 800 E34 430 1.6.2.2 bouyer * 35 58325 800 E35 431 1.6.2.2 bouyer * 36 59125 800 E36 432 1.6.2.2 bouyer * 37 59925 800 E37 433 1.6.2.2 bouyer * 38 60725 800 E38 434 1.6.2.2 bouyer * 39 61525 800 E39 435 1.6.2.2 bouyer * 40 62325 800 E40 436 1.6.2.2 bouyer * 41 63125 800 E41 437 1.6.2.2 bouyer * 42 63925 800 E42 438 1.6.2.2 bouyer * 43 64725 800 E43 439 1.6.2.2 bouyer * 44 65525 800 E44 440 1.6.2.2 bouyer * 45 66325 800 E45 441 1.6.2.2 bouyer * 46 67125 800 E46 442 1.6.2.2 bouyer * 47 67925 800 E47 443 1.6.2.2 bouyer * 48 68725 800 E48 444 1.6.2.2 bouyer * 49 69525 800 E49 445 1.6.2.2 bouyer * 50 70325 800 E50 446 1.6.2.2 bouyer * 51 71125 800 E51 447 1.6.2.2 bouyer * 52 71925 800 E52 448 1.6.2.2 bouyer * 53 72725 800 E53 449 1.6.2.2 bouyer * 54 73525 800 E54 450 1.6.2.2 bouyer * 55 74325 800 E55 451 1.6.2.2 bouyer * 56 75125 800 E56 452 1.6.2.2 bouyer * 57 75925 800 E57 453 1.6.2.2 bouyer * 58 76725 800 E58 454 1.6.2.2 bouyer * 59 77525 800 E59 455 1.6.2.2 bouyer * 60 78325 800 E60 456 1.6.2.2 bouyer * 61 79125 800 E61 457 1.6.2.2 bouyer * 62 79925 800 E62 458 1.6.2.2 bouyer * 63 80725 800 E63 459 1.6.2.2 bouyer * 64 81525 800 E64 460 1.6.2.2 bouyer * 65 82325 800 E65 461 1.6.2.2 bouyer * 66 83125 800 E66 462 1.6.2.2 bouyer * 67 83925 800 E67 463 1.6.2.2 bouyer * 68 84725 800 E68 464 1.6.2.2 bouyer * 69 85525 800 E69 465 1.6.2.2 bouyer * 466 1.6.2.2 bouyer * 70 4575 800 IA 467 1.6.2.2 bouyer * 71 5375 800 IB 468 1.6.2.2 bouyer * 72 6175 800 IC 469 1.6.2.2 bouyer * 470 1.6.2.2 bouyer * 74 6925 700 S01 471 1.6.2.2 bouyer * 75 7625 700 S02 472 1.6.2.2 bouyer * 76 8325 700 S03 473 1.6.2.2 bouyer * 474 1.6.2.2 bouyer * 80 10525 700 S1 475 1.6.2.2 bouyer * 81 11225 700 S2 476 1.6.2.2 bouyer * 82 11925 700 S3 477 1.6.2.2 bouyer * 83 12625 700 S4 478 1.6.2.2 bouyer * 84 13325 700 S5 479 1.6.2.2 bouyer * 85 14025 700 S6 480 1.6.2.2 bouyer * 86 14725 700 S7 481 1.6.2.2 bouyer * 87 15425 700 S8 482 1.6.2.2 bouyer * 88 16125 700 S9 483 1.6.2.2 bouyer * 89 16825 700 S10 484 1.6.2.2 bouyer * 90 23125 700 S11 485 1.6.2.2 bouyer * 91 23825 700 S12 486 1.6.2.2 bouyer * 92 24525 700 S13 487 1.6.2.2 bouyer * 93 25225 700 S14 488 1.6.2.2 bouyer * 94 25925 700 S15 489 1.6.2.2 bouyer * 95 26625 700 S16 490 1.6.2.2 bouyer * 96 27325 700 S17 491 1.6.2.2 bouyer * 97 28025 700 S18 492 1.6.2.2 bouyer * 98 28725 700 S19 493 1.6.2.2 bouyer * 99 29425 700 S20 494 1.6.2.2 bouyer * 495 1.6.2.2 bouyer * 496 1.6.2.2 bouyer * Channels S21 - S41 are taken from 497 1.6.2.2 bouyer * http://gemma.apple.com:80/dev/technotes/tn/tn1012.html 498 1.6.2.2 bouyer * 499 1.6.2.2 bouyer * 100 30325 800 S21 500 1.6.2.2 bouyer * 101 31125 800 S22 501 1.6.2.2 bouyer * 102 31925 800 S23 502 1.6.2.2 bouyer * 103 32725 800 S24 503 1.6.2.2 bouyer * 104 33525 800 S25 504 1.6.2.2 bouyer * 105 34325 800 S26 505 1.6.2.2 bouyer * 106 35125 800 S27 506 1.6.2.2 bouyer * 107 35925 800 S28 507 1.6.2.2 bouyer * 108 36725 800 S29 508 1.6.2.2 bouyer * 109 37525 800 S30 509 1.6.2.2 bouyer * 110 38325 800 S31 510 1.6.2.2 bouyer * 111 39125 800 S32 511 1.6.2.2 bouyer * 112 39925 800 S33 512 1.6.2.2 bouyer * 113 40725 800 S34 513 1.6.2.2 bouyer * 114 41525 800 S35 514 1.6.2.2 bouyer * 115 42325 800 S36 515 1.6.2.2 bouyer * 116 43125 800 S37 516 1.6.2.2 bouyer * 117 43925 800 S38 517 1.6.2.2 bouyer * 118 44725 800 S39 518 1.6.2.2 bouyer * 119 45525 800 S40 519 1.6.2.2 bouyer * 120 46325 800 S41 520 1.6.2.2 bouyer * 521 1.6.2.2 bouyer * 121 3890 000 IFFREQ 522 1.6.2.2 bouyer * 523 1.6.2.2 bouyer */ 524 1.6.2.2 bouyer static int weurope[] = { 525 1.6.2.2 bouyer 121, (int)( 38.90 * FREQFACTOR), 0, 526 1.6.2.2 bouyer 100, (int)(303.25 * FREQFACTOR), (int)(8.00 * FREQFACTOR), 527 1.6.2.2 bouyer 90, (int)(231.25 * FREQFACTOR), (int)(7.00 * FREQFACTOR), 528 1.6.2.2 bouyer 80, (int)(105.25 * FREQFACTOR), (int)(7.00 * FREQFACTOR), 529 1.6.2.2 bouyer 74, (int)( 69.25 * FREQFACTOR), (int)(7.00 * FREQFACTOR), 530 1.6.2.2 bouyer 21, (int)(471.25 * FREQFACTOR), (int)(8.00 * FREQFACTOR), 531 1.6.2.2 bouyer 17, (int)(183.25 * FREQFACTOR), (int)(9.00 * FREQFACTOR), 532 1.6.2.2 bouyer 16, (int)(175.25 * FREQFACTOR), (int)(9.00 * FREQFACTOR), 533 1.6.2.2 bouyer 15, (int)(82.25 * FREQFACTOR), (int)(8.50 * FREQFACTOR), 534 1.6.2.2 bouyer 13, (int)(53.75 * FREQFACTOR), (int)(8.50 * FREQFACTOR), 535 1.6.2.2 bouyer 5, (int)(175.25 * FREQFACTOR), (int)(7.00 * FREQFACTOR), 536 1.6.2.2 bouyer 2, (int)(48.25 * FREQFACTOR), (int)(7.00 * FREQFACTOR), 537 1.6.2.2 bouyer 0 538 1.6.2.2 bouyer }; 539 1.6.2.2 bouyer 540 1.6.2.2 bouyer /* 541 1.6.2.2 bouyer * Japanese Broadcast Channels: 542 1.6.2.2 bouyer * 543 1.6.2.2 bouyer * 1: 91.25MHz - 3: 103.25MHz 544 1.6.2.2 bouyer * 4: 171.25MHz - 7: 189.25MHz 545 1.6.2.2 bouyer * 8: 193.25MHz - 12: 217.25MHz (VHF) 546 1.6.2.2 bouyer * 13: 471.25MHz - 62: 765.25MHz (UHF) 547 1.6.2.2 bouyer * 548 1.6.2.2 bouyer * IF freq: 45.75 mHz 549 1.6.2.2 bouyer * OR 550 1.6.2.2 bouyer * IF freq: 58.75 mHz 551 1.6.2.2 bouyer */ 552 1.6.2.2 bouyer #define OFFSET 6.00 553 1.6.2.2 bouyer #define IF_FREQ 45.75 554 1.6.2.2 bouyer static int jpnbcst[] = { 555 1.6.2.2 bouyer 62, (int)(IF_FREQ * FREQFACTOR), 0, 556 1.6.2.2 bouyer 13, (int)(471.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 557 1.6.2.2 bouyer 8, (int)(193.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 558 1.6.2.2 bouyer 4, (int)(171.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 559 1.6.2.2 bouyer 1, (int)( 91.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 560 1.6.2.2 bouyer 0 561 1.6.2.2 bouyer }; 562 1.6.2.2 bouyer #undef IF_FREQ 563 1.6.2.2 bouyer #undef OFFSET 564 1.6.2.2 bouyer 565 1.6.2.2 bouyer /* 566 1.6.2.2 bouyer * Japanese Cable Channels: 567 1.6.2.2 bouyer * 568 1.6.2.2 bouyer * 1: 91.25MHz - 3: 103.25MHz 569 1.6.2.2 bouyer * 4: 171.25MHz - 7: 189.25MHz 570 1.6.2.2 bouyer * 8: 193.25MHz - 12: 217.25MHz 571 1.6.2.2 bouyer * 13: 109.25MHz - 21: 157.25MHz 572 1.6.2.2 bouyer * 22: 165.25MHz 573 1.6.2.2 bouyer * 23: 223.25MHz - 63: 463.25MHz 574 1.6.2.2 bouyer * 575 1.6.2.2 bouyer * IF freq: 45.75 mHz 576 1.6.2.2 bouyer */ 577 1.6.2.2 bouyer #define OFFSET 6.00 578 1.6.2.2 bouyer #define IF_FREQ 45.75 579 1.6.2.2 bouyer static int jpncable[] = { 580 1.6.2.2 bouyer 63, (int)(IF_FREQ * FREQFACTOR), 0, 581 1.6.2.2 bouyer 23, (int)(223.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 582 1.6.2.2 bouyer 22, (int)(165.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 583 1.6.2.2 bouyer 13, (int)(109.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 584 1.6.2.2 bouyer 8, (int)(193.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 585 1.6.2.2 bouyer 4, (int)(171.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 586 1.6.2.2 bouyer 1, (int)( 91.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 587 1.6.2.2 bouyer 0 588 1.6.2.2 bouyer }; 589 1.6.2.2 bouyer #undef IF_FREQ 590 1.6.2.2 bouyer #undef OFFSET 591 1.6.2.2 bouyer 592 1.6.2.2 bouyer /* 593 1.6.2.2 bouyer * xUSSR Broadcast Channels: 594 1.6.2.2 bouyer * 595 1.6.2.2 bouyer * 1: 49.75MHz - 2: 59.25MHz 596 1.6.2.2 bouyer * 3: 77.25MHz - 5: 93.25MHz 597 1.6.2.2 bouyer * 6: 175.25MHz - 12: 223.25MHz 598 1.6.2.2 bouyer * 13-20 - not exist 599 1.6.2.2 bouyer * 21: 471.25MHz - 34: 575.25MHz 600 1.6.2.2 bouyer * 35: 583.25MHz - 69: 855.25MHz 601 1.6.2.2 bouyer * 602 1.6.2.2 bouyer * Cable channels 603 1.6.2.2 bouyer * 604 1.6.2.2 bouyer * 70: 111.25MHz - 77: 167.25MHz 605 1.6.2.2 bouyer * 78: 231.25MHz -107: 463.25MHz 606 1.6.2.2 bouyer * 607 1.6.2.2 bouyer * IF freq: 38.90 MHz 608 1.6.2.2 bouyer */ 609 1.6.2.2 bouyer #define IF_FREQ 38.90 610 1.6.2.2 bouyer static int xussr[] = { 611 1.6.2.2 bouyer 107, (int)(IF_FREQ * FREQFACTOR), 0, 612 1.6.2.2 bouyer 78, (int)(231.25 * FREQFACTOR), (int)(8.00 * FREQFACTOR), 613 1.6.2.2 bouyer 70, (int)(111.25 * FREQFACTOR), (int)(8.00 * FREQFACTOR), 614 1.6.2.2 bouyer 35, (int)(583.25 * FREQFACTOR), (int)(8.00 * FREQFACTOR), 615 1.6.2.2 bouyer 21, (int)(471.25 * FREQFACTOR), (int)(8.00 * FREQFACTOR), 616 1.6.2.2 bouyer 6, (int)(175.25 * FREQFACTOR), (int)(8.00 * FREQFACTOR), 617 1.6.2.2 bouyer 3, (int)( 77.25 * FREQFACTOR), (int)(8.00 * FREQFACTOR), 618 1.6.2.2 bouyer 1, (int)( 49.75 * FREQFACTOR), (int)(9.50 * FREQFACTOR), 619 1.6.2.2 bouyer 0 620 1.6.2.2 bouyer }; 621 1.6.2.2 bouyer #undef IF_FREQ 622 1.6.2.2 bouyer 623 1.6.2.2 bouyer /* 624 1.6.2.2 bouyer * Australian broadcast channels 625 1.6.2.2 bouyer */ 626 1.6.2.2 bouyer #define OFFSET 7.00 627 1.6.2.2 bouyer #define IF_FREQ 38.90 628 1.6.2.2 bouyer static int australia[] = { 629 1.6.2.2 bouyer 83, (int)(IF_FREQ * FREQFACTOR), 0, 630 1.6.2.2 bouyer 28, (int)(527.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 631 1.6.2.2 bouyer 10, (int)(209.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 632 1.6.2.2 bouyer 6, (int)(175.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 633 1.6.2.2 bouyer 4, (int)( 95.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 634 1.6.2.2 bouyer 3, (int)( 86.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 635 1.6.2.2 bouyer 1, (int)( 57.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), 636 1.6.2.2 bouyer 0 637 1.6.2.2 bouyer }; 638 1.6.2.2 bouyer #undef OFFSET 639 1.6.2.2 bouyer #undef IF_FREQ 640 1.6.2.2 bouyer 641 1.6.2.2 bouyer /* 642 1.6.2.2 bouyer * France broadcast channels 643 1.6.2.2 bouyer */ 644 1.6.2.2 bouyer #define OFFSET 8.00 645 1.6.2.2 bouyer #define IF_FREQ 38.90 646 1.6.2.2 bouyer static int france[] = { 647 1.6.2.2 bouyer 69, (int)(IF_FREQ * FREQFACTOR), 0, 648 1.6.2.2 bouyer 21, (int)(471.25 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), /* 21 -> 69 */ 649 1.6.2.2 bouyer 5, (int)(176.00 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), /* 5 -> 10 */ 650 1.6.2.2 bouyer 4, (int)( 63.75 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), /* 4 */ 651 1.6.2.2 bouyer 3, (int)( 60.50 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), /* 3 */ 652 1.6.2.2 bouyer 1, (int)( 47.75 * FREQFACTOR), (int)(OFFSET * FREQFACTOR), /* 1 2 */ 653 1.6.2.2 bouyer 0 654 1.6.2.2 bouyer }; 655 1.6.2.2 bouyer #undef OFFSET 656 1.6.2.2 bouyer #undef IF_FREQ 657 1.6.2.2 bouyer 658 1.6.2.2 bouyer static struct { 659 1.6.2.2 bouyer int *ptr; 660 1.6.2.2 bouyer char name[BT848_MAX_CHNLSET_NAME_LEN]; 661 1.6.2.2 bouyer } freqTable[] = { 662 1.6.2.2 bouyer {NULL, ""}, 663 1.6.2.2 bouyer {nabcst, "nabcst"}, 664 1.6.2.2 bouyer {irccable, "cableirc"}, 665 1.6.2.2 bouyer {hrccable, "cablehrc"}, 666 1.6.2.2 bouyer {weurope, "weurope"}, 667 1.6.2.2 bouyer {jpnbcst, "jpnbcst"}, 668 1.6.2.2 bouyer {jpncable, "jpncable"}, 669 1.6.2.2 bouyer {xussr, "xussr"}, 670 1.6.2.2 bouyer {australia, "australia"}, 671 1.6.2.2 bouyer {france, "france"}, 672 1.6.2.2 bouyer 673 1.6.2.2 bouyer }; 674 1.6.2.2 bouyer 675 1.6.2.2 bouyer #define TBL_CHNL freqTable[ bktr->tuner.chnlset ].ptr[ x ] 676 1.6.2.2 bouyer #define TBL_BASE_FREQ freqTable[ bktr->tuner.chnlset ].ptr[ x + 1 ] 677 1.6.2.2 bouyer #define TBL_OFFSET freqTable[ bktr->tuner.chnlset ].ptr[ x + 2 ] 678 1.6.2.2 bouyer static int 679 1.6.2.2 bouyer frequency_lookup( bktr_ptr_t bktr, int channel ) 680 1.6.2.2 bouyer { 681 1.6.2.2 bouyer int x; 682 1.6.2.2 bouyer 683 1.6.2.2 bouyer /* check for "> MAX channel" */ 684 1.6.2.2 bouyer x = 0; 685 1.6.2.2 bouyer if ( channel > TBL_CHNL ) 686 1.6.2.2 bouyer return( -1 ); 687 1.6.2.2 bouyer 688 1.6.2.2 bouyer /* search the table for data */ 689 1.6.2.2 bouyer for ( x = 3; TBL_CHNL; x += 3 ) { 690 1.6.2.2 bouyer if ( channel >= TBL_CHNL ) { 691 1.6.2.2 bouyer return( TBL_BASE_FREQ + 692 1.6.2.2 bouyer ((channel - TBL_CHNL) * TBL_OFFSET) ); 693 1.6.2.2 bouyer } 694 1.6.2.2 bouyer } 695 1.6.2.2 bouyer 696 1.6.2.2 bouyer /* not found, must be below the MIN channel */ 697 1.6.2.2 bouyer return( -1 ); 698 1.6.2.2 bouyer } 699 1.6.2.2 bouyer #undef TBL_OFFSET 700 1.6.2.2 bouyer #undef TBL_BASE_FREQ 701 1.6.2.2 bouyer #undef TBL_CHNL 702 1.6.2.2 bouyer 703 1.6.2.2 bouyer 704 1.6.2.2 bouyer #define TBL_IF freqTable[ bktr->tuner.chnlset ].ptr[ 1 ] 705 1.6.2.2 bouyer 706 1.6.2.2 bouyer 707 1.6.2.2 bouyer /* Initialise the tuner structures in the bktr_softc */ 708 1.6.2.2 bouyer /* This is needed as the tuner details are no longer globally declared */ 709 1.6.2.2 bouyer 710 1.6.2.2 bouyer void select_tuner( bktr_ptr_t bktr, int tuner_type ) { 711 1.6.2.2 bouyer if (tuner_type < Bt848_MAX_TUNER) { 712 1.6.2.2 bouyer bktr->card.tuner = &tuners[ tuner_type ]; 713 1.6.2.2 bouyer } else { 714 1.6.2.2 bouyer bktr->card.tuner = NULL; 715 1.6.2.2 bouyer } 716 1.6.2.2 bouyer } 717 1.6.2.2 bouyer 718 1.6.2.2 bouyer /* 719 1.6.2.2 bouyer * Tuner Notes: 720 1.6.2.2 bouyer * Programming the tuner properly is quite complicated. 721 1.6.2.2 bouyer * Here are some notes, based on a FM1246 data sheet for a PAL-I tuner. 722 1.6.2.2 bouyer * The tuner (front end) covers 45.75 Mhz - 855.25 Mhz and an FM band of 723 1.6.2.2 bouyer * 87.5 Mhz to 108.0 Mhz. 724 1.6.2.2 bouyer * 725 1.6.2.2 bouyer * RF and IF. RF = radio frequencies, it is the transmitted signal. 726 1.6.2.2 bouyer * IF is the Intermediate Frequency (the offset from the base 727 1.6.2.2 bouyer * signal where the video, color, audio and NICAM signals are. 728 1.6.2.2 bouyer * 729 1.6.2.2 bouyer * Eg, Picture at 38.9 Mhz, Colour at 34.47 MHz, sound at 32.9 MHz 730 1.6.2.2 bouyer * NICAM at 32.348 Mhz. 731 1.6.2.2 bouyer * Strangely enough, there is an IF (intermediate frequency) for 732 1.6.2.2 bouyer * FM Radio which is 10.7 Mhz. 733 1.6.2.2 bouyer * 734 1.6.2.2 bouyer * The tuner also works in Bands. Philips bands are 735 1.6.2.2 bouyer * FM radio band 87.50 to 108.00 MHz 736 1.6.2.2 bouyer * Low band 45.75 to 170.00 MHz 737 1.6.2.2 bouyer * Mid band 170.00 to 450.00 MHz 738 1.6.2.2 bouyer * High band 450.00 to 855.25 MHz 739 1.6.2.2 bouyer * 740 1.6.2.2 bouyer * 741 1.6.2.2 bouyer * Now we need to set the PLL on the tuner to the required freuqncy. 742 1.6.2.2 bouyer * It has a programmable divisor. 743 1.6.2.2 bouyer * For TV we want 744 1.6.2.2 bouyer * N = 16 (freq RF(pc) + freq IF(pc)) pc is picture carrier and RF and IF 745 1.6.2.2 bouyer * are in MHz. 746 1.6.2.2 bouyer 747 1.6.2.2 bouyer * For RADIO we want a different equation. 748 1.6.2.2 bouyer * freq IF is 10.70 MHz (so the data sheet tells me) 749 1.6.2.2 bouyer * N = (freq RF + freq IF) / step size 750 1.6.2.2 bouyer * The step size must be set to 50 khz (so the data sheet tells me) 751 1.6.2.2 bouyer * (note this is 50 kHz, the other things are in MHz) 752 1.6.2.2 bouyer * so we end up with N = 20x(freq RF + 10.7) 753 1.6.2.2 bouyer * 754 1.6.2.2 bouyer */ 755 1.6.2.2 bouyer 756 1.6.2.2 bouyer #define LOW_BAND 0 757 1.6.2.2 bouyer #define MID_BAND 1 758 1.6.2.2 bouyer #define HIGH_BAND 2 759 1.6.2.2 bouyer #define FM_RADIO_BAND 3 760 1.6.2.2 bouyer 761 1.6.2.2 bouyer 762 1.6.2.2 bouyer /* Check if these are correct for other than Philips PAL */ 763 1.6.2.2 bouyer #define STATUSBIT_COLD 0x80 764 1.6.2.2 bouyer #define STATUSBIT_LOCK 0x40 765 1.6.2.2 bouyer #define STATUSBIT_TV 0x20 766 1.6.2.2 bouyer #define STATUSBIT_STEREO 0x10 /* valid if FM (aka not TV) */ 767 1.6.2.2 bouyer #define STATUSBIT_ADC 0x07 768 1.6.2.2 bouyer 769 1.6.2.2 bouyer /* 770 1.6.2.2 bouyer * set the frequency of the tuner 771 1.6.2.2 bouyer * If 'type' is TV_FREQUENCY, the frequency is freq MHz*16 772 1.6.2.2 bouyer * If 'type' is FM_RADIO_FREQUENCY, the frequency is freq MHz * 100 773 1.6.2.2 bouyer * (note *16 gives is 4 bits of fraction, eg steps of nnn.0625) 774 1.6.2.2 bouyer * 775 1.6.2.2 bouyer */ 776 1.6.2.2 bouyer int 777 1.6.2.2 bouyer tv_freq( bktr_ptr_t bktr, int frequency, int type ) 778 1.6.2.2 bouyer { 779 1.6.2.2 bouyer const struct TUNER* tuner; 780 1.6.2.2 bouyer u_char addr; 781 1.6.2.2 bouyer u_char control; 782 1.6.2.2 bouyer u_char band; 783 1.6.2.2 bouyer int N; 784 1.6.2.2 bouyer int band_select = 0; 785 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 786 1.6.2.2 bouyer int oldFrequency, afcDelta; 787 1.6.2.2 bouyer #endif 788 1.6.2.2 bouyer 789 1.6.2.2 bouyer tuner = bktr->card.tuner; 790 1.6.2.2 bouyer if ( tuner == NULL ) 791 1.6.2.2 bouyer return( -1 ); 792 1.6.2.2 bouyer 793 1.6.2.2 bouyer if (type == TV_FREQUENCY) { 794 1.6.2.2 bouyer /* 795 1.6.2.2 bouyer * select the band based on frequency 796 1.6.2.2 bouyer * XXX FIXME: get the cross-over points from the tuner struct 797 1.6.2.2 bouyer */ 798 1.6.2.2 bouyer if ( frequency < (160 * FREQFACTOR ) ) 799 1.6.2.2 bouyer band_select = LOW_BAND; 800 1.6.2.2 bouyer else if ( frequency < (454 * FREQFACTOR ) ) 801 1.6.2.2 bouyer band_select = MID_BAND; 802 1.6.2.2 bouyer else 803 1.6.2.2 bouyer band_select = HIGH_BAND; 804 1.6.2.2 bouyer 805 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 806 1.6.2.2 bouyer if ( bktr->tuner.afc ) 807 1.6.2.2 bouyer frequency -= 4; 808 1.6.2.2 bouyer #endif 809 1.6.2.2 bouyer /* 810 1.6.2.2 bouyer * N = 16 * { fRF(pc) + fIF(pc) } 811 1.6.2.2 bouyer * or N = 16* fRF(pc) + 16*fIF(pc) } 812 1.6.2.2 bouyer * where: 813 1.6.2.2 bouyer * pc is picture carrier, fRF & fIF are in MHz 814 1.6.2.2 bouyer * 815 1.6.2.2 bouyer * fortunatly, frequency is passed in as MHz * 16 816 1.6.2.2 bouyer * and the TBL_IF frequency is also stored in MHz * 16 817 1.6.2.2 bouyer */ 818 1.6.2.2 bouyer N = frequency + TBL_IF; 819 1.6.2.2 bouyer 820 1.6.2.2 bouyer /* set the address of the PLL */ 821 1.6.2.2 bouyer addr = bktr->card.tuner_pllAddr; 822 1.6.2.2 bouyer control = tuner->pllControl[ band_select ]; 823 1.6.2.2 bouyer band = tuner->bandAddrs[ band_select ]; 824 1.6.2.2 bouyer 825 1.6.2.2 bouyer if(!(band && control)) /* Don't try to set un- */ 826 1.6.2.2 bouyer return(-1); /* supported modes. */ 827 1.6.2.2 bouyer 828 1.6.2.2 bouyer if ( frequency > bktr->tuner.frequency ) { 829 1.6.2.2 bouyer i2cWrite( bktr, addr, (N>>8) & 0x7f, N & 0xff ); 830 1.6.2.2 bouyer i2cWrite( bktr, addr, control, band ); 831 1.6.2.2 bouyer } 832 1.6.2.2 bouyer else { 833 1.6.2.2 bouyer i2cWrite( bktr, addr, control, band ); 834 1.6.2.2 bouyer i2cWrite( bktr, addr, (N>>8) & 0x7f, N & 0xff ); 835 1.6.2.2 bouyer } 836 1.6.2.2 bouyer 837 1.6.2.2 bouyer #if defined( TUNER_AFC ) 838 1.6.2.2 bouyer if ( bktr->tuner.afc == TRUE ) { 839 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 840 1.6.2.2 bouyer oldFrequency = frequency; 841 1.6.2.2 bouyer #endif 842 1.6.2.2 bouyer if ( (N = do_afc( bktr, addr, N )) < 0 ) { 843 1.6.2.2 bouyer /* AFC failed, restore requested frequency */ 844 1.6.2.2 bouyer N = frequency + TBL_IF; 845 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 846 1.6.2.2 bouyer printf("%s: do_afc: failed to lock\n", 847 1.6.2.2 bouyer bktr_name(bktr)); 848 1.6.2.2 bouyer #endif 849 1.6.2.2 bouyer i2cWrite( bktr, addr, (N>>8) & 0x7f, N & 0xff ); 850 1.6.2.2 bouyer } 851 1.6.2.2 bouyer else 852 1.6.2.2 bouyer frequency = N - TBL_IF; 853 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 854 1.6.2.2 bouyer printf("%s: do_afc: returned freq %d (%d %% %d)\n", bktr_name(bktr), frequency, frequency / 16, frequency % 16); 855 1.6.2.2 bouyer afcDelta = frequency - oldFrequency; 856 1.6.2.2 bouyer printf("%s: changed by: %d clicks (%d mod %d)\n", bktr_name(bktr), afcDelta, afcDelta / 16, afcDelta % 16); 857 1.6.2.2 bouyer #endif 858 1.6.2.2 bouyer } 859 1.6.2.2 bouyer #endif /* TUNER_AFC */ 860 1.6.2.2 bouyer 861 1.6.2.2 bouyer bktr->tuner.frequency = frequency; 862 1.6.2.2 bouyer } 863 1.6.2.2 bouyer 864 1.6.2.2 bouyer if ( type == FM_RADIO_FREQUENCY ) { 865 1.6.2.2 bouyer band_select = FM_RADIO_BAND; 866 1.6.2.2 bouyer 867 1.6.2.2 bouyer /* 868 1.6.2.2 bouyer * N = { fRF(pc) + fIF(pc) }/step_size 869 1.6.2.2 bouyer * The step size is 50kHz for FM radio. 870 1.6.2.2 bouyer * (eg after 102.35MHz comes 102.40 MHz) 871 1.6.2.2 bouyer * fIF is 10.7 MHz (as detailed in the specs) 872 1.6.2.2 bouyer * 873 1.6.2.2 bouyer * frequency is passed in as MHz * 100 874 1.6.2.2 bouyer * 875 1.6.2.2 bouyer * So, we have N = (frequency/100 + 10.70) /(50/1000) 876 1.6.2.2 bouyer */ 877 1.6.2.2 bouyer N = (frequency + 1070)/5; 878 1.6.2.2 bouyer 879 1.6.2.2 bouyer /* set the address of the PLL */ 880 1.6.2.2 bouyer addr = bktr->card.tuner_pllAddr; 881 1.6.2.2 bouyer control = tuner->pllControl[ band_select ]; 882 1.6.2.2 bouyer band = tuner->bandAddrs[ band_select ]; 883 1.6.2.2 bouyer 884 1.6.2.2 bouyer if(!(band && control)) /* Don't try to set un- */ 885 1.6.2.2 bouyer return(-1); /* supported modes. */ 886 1.6.2.2 bouyer 887 1.6.2.2 bouyer band |= bktr->tuner.radio_mode; /* tuner.radio_mode is set in 888 1.6.2.2 bouyer * the ioctls RADIO_SETMODE 889 1.6.2.2 bouyer * and RADIO_GETMODE */ 890 1.6.2.2 bouyer 891 1.6.2.2 bouyer i2cWrite( bktr, addr, control, band ); 892 1.6.2.2 bouyer i2cWrite( bktr, addr, (N>>8) & 0x7f, N & 0xff ); 893 1.6.2.2 bouyer 894 1.6.2.2 bouyer bktr->tuner.frequency = (N * 5) - 1070; 895 1.6.2.2 bouyer 896 1.6.2.2 bouyer 897 1.6.2.2 bouyer } 898 1.6.2.2 bouyer 899 1.6.2.2 bouyer 900 1.6.2.2 bouyer return( 0 ); 901 1.6.2.2 bouyer } 902 1.6.2.2 bouyer 903 1.6.2.2 bouyer 904 1.6.2.2 bouyer 905 1.6.2.2 bouyer #if defined( TUNER_AFC ) 906 1.6.2.2 bouyer /* 907 1.6.2.2 bouyer * 908 1.6.2.2 bouyer */ 909 1.6.2.2 bouyer int 910 1.6.2.2 bouyer do_afc( bktr_ptr_t bktr, int addr, int frequency ) 911 1.6.2.2 bouyer { 912 1.6.2.2 bouyer int step; 913 1.6.2.2 bouyer int status; 914 1.6.2.2 bouyer int origFrequency; 915 1.6.2.2 bouyer 916 1.6.2.2 bouyer origFrequency = frequency; 917 1.6.2.2 bouyer 918 1.6.2.2 bouyer /* wait for first setting to take effect */ 919 1.6.2.2 bouyer tsleep( BKTR_SLEEP, PZERO, "tuning", hz/8 ); 920 1.6.2.2 bouyer 921 1.6.2.2 bouyer if ( (status = i2cRead( bktr, addr + 1 )) < 0 ) 922 1.6.2.2 bouyer return( -1 ); 923 1.6.2.2 bouyer 924 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 925 1.6.2.2 bouyer printf( "%s: Original freq: %d, status: 0x%02x\n", bktr_name(bktr), frequency, status ); 926 1.6.2.2 bouyer #endif 927 1.6.2.2 bouyer for ( step = 0; step < AFC_MAX_STEP; ++step ) { 928 1.6.2.2 bouyer if ( (status = i2cRead( bktr, addr + 1 )) < 0 ) 929 1.6.2.2 bouyer goto fubar; 930 1.6.2.2 bouyer if ( !(status & 0x40) ) { 931 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 932 1.6.2.2 bouyer printf( "%s: no lock!\n", bktr_name(bktr) ); 933 1.6.2.2 bouyer #endif 934 1.6.2.2 bouyer goto fubar; 935 1.6.2.2 bouyer } 936 1.6.2.2 bouyer 937 1.6.2.2 bouyer switch( status & AFC_BITS ) { 938 1.6.2.2 bouyer case AFC_FREQ_CENTERED: 939 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 940 1.6.2.2 bouyer printf( "%s: Centered, freq: %d, status: 0x%02x\n", bktr_name(bktr), frequency, status ); 941 1.6.2.2 bouyer #endif 942 1.6.2.2 bouyer return( frequency ); 943 1.6.2.2 bouyer 944 1.6.2.2 bouyer case AFC_FREQ_MINUS_125: 945 1.6.2.2 bouyer case AFC_FREQ_MINUS_62: 946 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 947 1.6.2.2 bouyer printf( "%s: Low, freq: %d, status: 0x%02x\n", bktr_name(bktr), frequency, status ); 948 1.6.2.2 bouyer #endif 949 1.6.2.2 bouyer --frequency; 950 1.6.2.2 bouyer break; 951 1.6.2.2 bouyer 952 1.6.2.2 bouyer case AFC_FREQ_PLUS_62: 953 1.6.2.2 bouyer case AFC_FREQ_PLUS_125: 954 1.6.2.2 bouyer #if defined( TEST_TUNER_AFC ) 955 1.6.2.2 bouyer printf( "%s: Hi, freq: %d, status: 0x%02x\n", bktr_name(bktr), frequency, status ); 956 1.6.2.2 bouyer #endif 957 1.6.2.2 bouyer ++frequency; 958 1.6.2.2 bouyer break; 959 1.6.2.2 bouyer } 960 1.6.2.2 bouyer 961 1.6.2.2 bouyer i2cWrite( bktr, addr, 962 1.6.2.2 bouyer (frequency>>8) & 0x7f, frequency & 0xff ); 963 1.6.2.2 bouyer DELAY( AFC_DELAY ); 964 1.6.2.2 bouyer } 965 1.6.2.2 bouyer 966 1.6.2.2 bouyer fubar: 967 1.6.2.2 bouyer i2cWrite( bktr, addr, 968 1.6.2.2 bouyer (origFrequency>>8) & 0x7f, origFrequency & 0xff ); 969 1.6.2.2 bouyer 970 1.6.2.2 bouyer return( -1 ); 971 1.6.2.2 bouyer } 972 1.6.2.2 bouyer #endif /* TUNER_AFC */ 973 1.6.2.2 bouyer #undef TBL_IF 974 1.6.2.2 bouyer 975 1.6.2.2 bouyer 976 1.6.2.2 bouyer /* 977 1.6.2.2 bouyer * Get the Tuner status and signal strength 978 1.6.2.2 bouyer */ 979 1.6.2.2 bouyer int get_tuner_status( bktr_ptr_t bktr ) { 980 1.6.2.2 bouyer return i2cRead( bktr, bktr->card.tuner_pllAddr + 1 ); 981 1.6.2.2 bouyer } 982 1.6.2.2 bouyer 983 1.6.2.2 bouyer /* 984 1.6.2.2 bouyer * set the channel of the tuner 985 1.6.2.2 bouyer */ 986 1.6.2.2 bouyer int 987 1.6.2.2 bouyer tv_channel( bktr_ptr_t bktr, int channel ) 988 1.6.2.2 bouyer { 989 1.6.2.2 bouyer int frequency; 990 1.6.2.2 bouyer 991 1.6.2.2 bouyer /* calculate the frequency according to tuner type */ 992 1.6.2.2 bouyer if ( (frequency = frequency_lookup( bktr, channel )) < 0 ) 993 1.6.2.2 bouyer return( -1 ); 994 1.6.2.2 bouyer 995 1.6.2.2 bouyer /* set the new frequency */ 996 1.6.2.2 bouyer if ( tv_freq( bktr, frequency, TV_FREQUENCY ) < 0 ) 997 1.6.2.2 bouyer return( -1 ); 998 1.6.2.2 bouyer 999 1.6.2.2 bouyer /* OK to update records */ 1000 1.6.2.2 bouyer return( (bktr->tuner.channel = channel) ); 1001 1.6.2.2 bouyer } 1002 1.6.2.2 bouyer 1003 1.6.2.2 bouyer /* 1004 1.6.2.2 bouyer * get channelset name 1005 1.6.2.2 bouyer */ 1006 1.6.2.2 bouyer int 1007 1.6.2.2 bouyer tuner_getchnlset(struct bktr_chnlset *chnlset) 1008 1.6.2.2 bouyer { 1009 1.6.2.2 bouyer if (( chnlset->index < CHNLSET_MIN ) || 1010 1.6.2.2 bouyer ( chnlset->index > CHNLSET_MAX )) 1011 1.6.2.2 bouyer return( EINVAL ); 1012 1.6.2.2 bouyer 1013 1.6.2.2 bouyer memcpy(&chnlset->name, &freqTable[chnlset->index].name, 1014 1.6.2.2 bouyer BT848_MAX_CHNLSET_NAME_LEN); 1015 1.6.2.2 bouyer 1016 1.6.2.2 bouyer chnlset->max_channel=freqTable[chnlset->index].ptr[0]; 1017 1.6.2.2 bouyer return( 0 ); 1018 1.6.2.2 bouyer } 1019
Indexes created Mon Oct 27 08:10:08 GMT 2025