/* $Id: drv_M50530.c 975 2009-01-18 11:16:20Z michael $ * $URL: https://ssl.bulix.org/svn/lcd4linux/trunk/drv_M50530.c $ * * new style driver for M50530-based displays * * Copyright (C) 2003 Michael Reinelt * Copyright (C) 2004 The LCD4Linux Team * * This file is part of LCD4Linux. * * LCD4Linux is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * LCD4Linux is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ /* * * exported fuctions: * * struct DRIVER drv_M50530 * */ #include "config.h" #include #include #include #include #include #include #include #include #include "debug.h" #include "cfg.h" #include "qprintf.h" #include "udelay.h" #include "plugin.h" #include "widget.h" #include "widget_text.h" #include "widget_icon.h" #include "widget_bar.h" #include "drv.h" #include "drv_generic_text.h" #include "drv_generic_gpio.h" #include "drv_generic_parport.h" static char Name[] = "M50530"; static int Model; /* Timings */ static int T_SU, T_W, T_D, T_H; static int T_INIT, T_EXEC, T_CLEAR; static int T_GPO_ST, T_GPO_PW; static unsigned char SIGNAL_RW; static unsigned char SIGNAL_EX; static unsigned char SIGNAL_IOC1; static unsigned char SIGNAL_IOC2; static unsigned char SIGNAL_GPO; static int FONT5X11; static int DDRAM; static int DUTY; /* maximum time to wait for the busy-flag (in usec) */ #define MAX_BUSYFLAG_WAIT 10000 /* maximum busy flag errors before falling back to busy-waiting */ #define MAX_BUSYFLAG_ERRORS 20 /* flag for busy-waiting vs. busy flag checking */ static int UseBusy = 0; /* buffer holding the GPO state */ static unsigned char GPO = 0; typedef struct { int type; char *name; } MODEL; static MODEL Models[] = { {0x01, "M50530"}, {0xff, "Unknown"} }; /****************************************/ /*** hardware dependant functions ***/ /****************************************/ static void drv_M5_busy(void) { static unsigned int errors = 0; unsigned char data = 0xFF; unsigned char busymask = 0x88; unsigned int counter; /* set data-lines to input */ drv_generic_parport_direction(1); /* clear I/OC1 and I/OC2, set R/W */ drv_generic_parport_control(SIGNAL_IOC1 | SIGNAL_IOC2 | SIGNAL_RW, SIGNAL_RW); /* Control data setup time */ ndelay(T_SU); counter = 0; while (1) { /* rise enable */ drv_generic_parport_control(SIGNAL_EX, SIGNAL_EX); /* data output delay time */ ndelay(T_D); /* read the busy flag */ data = drv_generic_parport_read(); /* lower enable */ /* as T_D is larger than T_W, we don't need to delay again */ drv_generic_parport_control(SIGNAL_EX, 0); if ((data & busymask) == 0) { errors = 0; break; } /* make sure we don't wait forever * - but only check after 5 iterations * that way, we won't slow down normal mode * (where we don't need the timeout anyway) */ counter++; if (counter >= 5) { struct timeval now, end; if (counter == 5) { /* determine the time when the timeout has expired */ gettimeofday(&end, NULL); end.tv_usec += MAX_BUSYFLAG_WAIT; while (end.tv_usec > 1000000) { end.tv_usec -= 1000000; end.tv_sec++; } } /* get the current time */ gettimeofday(&now, NULL); if (now.tv_sec == end.tv_sec ? now.tv_usec >= end.tv_usec : now.tv_sec >= end.tv_sec) { error("%s: timeout waiting for busy flag (0x%02x)", Name, data); if (++errors >= MAX_BUSYFLAG_ERRORS) { error("%s: too many busy flag failures, turning off busy flag checking.", Name); UseBusy = 0; } break; } } } /* clear R/W */ drv_generic_parport_control(SIGNAL_RW, 0); /* honour data hold time */ ndelay(T_H); /* set data-lines to output */ drv_generic_parport_direction(0); } static void drv_M5_command(const unsigned int cmd, const int delay) { if (UseBusy) drv_M5_busy(); /* put data on DB1..DB8 */ drv_generic_parport_data(cmd & 0xff); /* set I/OC1 */ /* set I/OC2 */ /* clear RW */ drv_generic_parport_control(SIGNAL_IOC1 | SIGNAL_IOC2 | SIGNAL_RW, (cmd & 0x100 ? SIGNAL_IOC1 : 0) | (cmd & 0x200 ? SIGNAL_IOC2 : 0)); /* Control data setup time */ ndelay(T_SU); /* send command */ drv_generic_parport_toggle(SIGNAL_EX, 1, T_W); if (UseBusy) { /* honour data hold time */ ndelay(T_H); } else { /* wait for command completion */ udelay(delay); } } static void drv_M5_clear(void) { drv_M5_command(0x0001, T_CLEAR); /* clear display */ } static void drv_M5_write(const int row, const int col, const char *data, const int len) { int l = len; unsigned int cmd; unsigned int pos; if (row < 4) { pos = row * (DDRAM >> DUTY) + col; } else { pos = (row - 4) * (DDRAM >> DUTY) + (DDRAM >> DUTY) / 2 + col; } drv_M5_command(0x300 | pos, T_EXEC); while (l--) { cmd = *(unsigned char *) data++; drv_M5_command(0x200 | cmd, T_EXEC); } } static void drv_M5_defchar(const int ascii, const unsigned char *matrix) { int i; drv_M5_command(0x300 + DDRAM + 8 * (ascii - CHAR0), T_EXEC); for (i = 0; i < YRES; i++) { drv_M5_command(0x200 | (matrix[i] & 0x3f), T_EXEC); } } static int drv_M5_GPO(const int num, const int val) { int v; if (val > 0) { /* set bit */ v = 1; GPO |= 1 << num; } else { /* clear bit */ v = 0; GPO &= ~(1 << num); } /* put data on DB1..DB8 */ drv_generic_parport_data(GPO); /* 74HCT573 set-up time */ ndelay(T_GPO_ST); /* send data */ /* 74HCT573 enable pulse width */ drv_generic_parport_toggle(SIGNAL_GPO, 1, T_GPO_PW); return v; } static int drv_M5_start(const char *section, const int quiet) { char *s; int n; int rows = -1, cols = -1; unsigned int SF; s = cfg_get(section, "Model", "generic"); if (s != NULL && *s != '\0') { int i; for (i = 0; Models[i].type != 0xff; i++) { if (strcasecmp(Models[i].name, s) == 0) break; } free(s); if (Models[i].type == 0xff) { error("%s: %s.Model '%s' is unknown from %s", Name, section, s, cfg_source()); return -1; } Model = i; info("%s: using model '%s'", Name, Models[Model].name); } else { error("%s: empty '%s.Model' entry from %s", Name, section, cfg_source()); free(s); return -1; } s = cfg_get(section, "Size", NULL); if (s == NULL || *s == '\0') { error("%s: no '%s.Size' entry from %s", Name, section, cfg_source()); free(s); return -1; } if (sscanf(s, "%dx%d", &cols, &rows) != 2 || rows < 1 || cols < 1) { error("%s: bad %s.Size '%s' from %s", Name, section, s, cfg_source()); free(s); return -1; } free(s); DROWS = rows; DCOLS = cols; s = cfg_get(section, "Font", "5x7"); if (s == NULL && *s == '\0') { error("%s: empty '%s.Font' entry from %s", Name, section, cfg_source()); free(s); return -1; } if (strcasecmp(s, "5x7") == 0) { XRES = 5; YRES = 7; FONT5X11 = 0; } else if (strcasecmp(s, "5x11") == 0) { XRES = 5; YRES = 11; FONT5X11 = 1; } else { error("%s: bad '%s.Font' entry '%s' from %s", Name, section, s, cfg_source()); error("%s: should be '5x7' or '5x11'", Name); free(s); return -1; } free(s); if (DCOLS * DROWS > 256) { error("%s: %s.Size '%dx%d' is too big, would require %d bytes", Name, section, DCOLS, DROWS, DCOLS * DROWS); return -1; } else if (DCOLS * DROWS > 224) { DDRAM = 256; CHARS = 0; } else if (DCOLS * DROWS > 192) { DDRAM = 224; CHARS = FONT5X11 ? 2 : 4; } else if (DCOLS * DROWS > 160) { DDRAM = 192; CHARS = FONT5X11 ? 4 : 8; } else { DDRAM = 160; CHARS = FONT5X11 ? 6 : 12; } info("%s: using %d words DDRAM / %d words CGRAM (%d user chars)", Name, DDRAM, 256 - DDRAM, CHARS); if (cfg_number(section, "DUTY", 2, 0, 2, &DUTY) < 0) return -1; info("%s: using duty %d: 1/%d, %d lines x %d words", Name, DUTY, (XRES + 1) << DUTY, 1 << DUTY, DDRAM >> DUTY); if (cfg_number(section, "GPOs", 0, 0, 8, &n) < 0) return -1; GPOS = n; if (GPOS > 0) { info("%s: controlling %d GPO's", Name, GPOS); } if (drv_generic_parport_open(section, Name) != 0) { error("%s: could not initialize parallel port!", Name); return -1; } if ((SIGNAL_RW = drv_generic_parport_wire_ctrl("RW", "GND")) == 0xff) return -1; if ((SIGNAL_EX = drv_generic_parport_wire_ctrl("EX", "STROBE")) == 0xff) return -1; if ((SIGNAL_IOC1 = drv_generic_parport_wire_ctrl("IOC1", "SLCTIN")) == 0xff) return -1; if ((SIGNAL_IOC2 = drv_generic_parport_wire_ctrl("IOC2", "AUTOFD")) == 0xff) return -1; if ((SIGNAL_GPO = drv_generic_parport_wire_ctrl("GPO", "GND")) == 0xff) return -1; /* Timings */ /* low level communication timings [nanoseconds] * we use the worst-case default values, but allow * modification from the config file. */ T_SU = timing(Name, section, "SU", 200, "ns"); /* control data setup time */ T_W = timing(Name, section, "W", 500, "ns"); /* EX signal pulse width */ T_D = timing(Name, section, "D", 300, "ns"); /* Data output delay time */ T_H = timing(Name, section, "H", 100, "ns"); /* Data hold time */ /* GPO timing */ if (SIGNAL_GPO != 0) { T_GPO_ST = timing(Name, section, "GPO_ST", 20, "ns"); /* 74HCT573 set-up time */ T_GPO_PW = timing(Name, section, "GPO_PW", 230, "ns"); /* 74HCT573 enable pulse width */ } else { T_GPO_ST = 0; T_GPO_PW = 0; } /* M50530 execution timings [microseconds] * we use the worst-case default values, but allow * modification from the config file. */ T_EXEC = timing(Name, section, "EXEC", 20, "us"); /* normal execution time */ T_CLEAR = timing(Name, section, "CLEAR", 1250, "us"); /* 'clear display' execution time */ T_INIT = timing(Name, section, "INIT", 2000, "us"); /* mysterious initialization time */ /* maybe use busy-flag from now on */ cfg_number(section, "UseBusy", 0, 0, 1, &UseBusy); /* make sure we don't use the busy flag with RW wired to GND */ if (UseBusy && !SIGNAL_RW) { error("%s: busy-flag checking is impossible with RW wired to GND!", Name); UseBusy = 0; } info("%s: %susing busy-flag checking", Name, UseBusy ? "" : "not "); /* clear all signals */ drv_generic_parport_control(SIGNAL_RW | SIGNAL_EX | SIGNAL_IOC1 | SIGNAL_IOC2 | SIGNAL_GPO, 0); /* for some mysterious reason, this delay is necessary... */ udelay(T_INIT); /* set direction: write */ drv_generic_parport_direction(0); /* set function (SF) mode: * Bit 0 : RAM 0 * Bit 1 : RAM 1 * Bit 2 : DUTY 0 * Bit 3 : DUTY 1 * Bit 4 : FONT: 0 = 5x12, 1 = 5x8 * Bit 5 : I/O: 0 = 4-bit, 1 = 8-bit * Bit 6 : 1 * Bit 7 : 1 * * RAM layout: * 00: 256 words DDRAM, 0 words CGRAM * 01: 224 words DDRAM, 32 words CGRAM * 10: 192 words DDRAM, 64 words CGRAM * 11: 160 words DDRAM, 96 words CGRAM * * Duty: * 00: 1/8 (1/12 for 5x11), 1 line * 00: 1/16 (1/24 for 5x11), 2 lines * 00: 1/32 (1/48 for 5x11), 4 lines * 11: undefined */ /* 11100000 : SF, 8-bit mode */ SF = 0xE0; /* RAM layout */ switch (DDRAM) { case 160: SF |= 0x03; break; case 192: SF |= 0x02; break; case 224: SF |= 0x01; break; case 256: SF |= 0x00; break; } /* Duty */ SF |= (DUTY << 2); /* Font */ SF |= (!FONT5X11) << 4; debug("SET FUNCTION MODE 0x%02x", SF); drv_M5_command(SF, T_EXEC); /* set display (SD) mode: * Bit 0 : 1 = turn on character blinking * Bit 0 : 1 = turn on cursor blinking * Bit 0 : 1 = turn on underline display * Bit 0 : 1 = turn on cursor * Bit 0 : 1 = turn on display * Bit 0 : 1 * Bit 0 : 0 * Bit 0 : 0 */ /* SD: 0x20 = 00100000 */ /* SD: turn off display */ drv_M5_command(0x0020, T_EXEC); /* set entry (SE) mode: * Bit 0 : 1 = inc/dec cursor address after Read * Bit 1 : 1 = inc/dec cursor address after Write * Bit 2 : 0 = inc, 1 = dec * Bit 3 : 1 = inc/dec display start addr after Read * Bit 4 : 1 = inc/dec display start addr after Write * Bit 5 : 0 = inc, 1 = dec * Bit 6 : 1 * Bit 7 : 0 * */ /* SE: 0x50 = 01010000 */ /* SE: increment display start after Write */ drv_M5_command(0x0050, T_EXEC); /* SD: 0x30 = 00110000 */ /* SD: turn on display */ drv_M5_command(0x0030, T_EXEC); drv_M5_clear(); if (!quiet) { char buffer[40]; qprintf(buffer, sizeof(buffer), "%s %dx%d", Name, DCOLS, DROWS); if (drv_generic_text_greet(buffer, NULL)) { sleep(3); drv_M5_clear(); } } return 0; } /****************************************/ /*** plugins ***/ /****************************************/ /* none at the moment */ /****************************************/ /*** widget callbacks ***/ /****************************************/ /* using drv_generic_text_draw(W) */ /* using drv_generic_text_icon_draw(W) */ /* using drv_generic_text_bar_draw(W) */ /* using drv_generic_gpio_draw(W) */ /****************************************/ /*** exported functions ***/ /****************************************/
# Croatia, whole country
# Created from http://www.oiv.hr/broadcasting/tables/dtv_hr.aspx
# and from http://www.oiv.hr/broadcasting/tables/dtv_channel_hr.aspx
[D1 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 474000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 5/6
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D2 MUXA]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 490000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D4 MUXA]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 506000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D5 MUXA, D9 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 530000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D5 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 538000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 5/6
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/16
	HIERARCHY = NONE
	INVERSION = AUTO

[d72 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 538000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 1/2
	CODE_RATE_LP = NONE
	MODULATION = QAM/16
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/8
	HIERARCHY = NONE
	INVERSION = AUTO

[D6 MUXA]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 546000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D7 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 554000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D8 MUXA]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 570000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D8 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 578000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[d71 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 586000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 1/2
	CODE_RATE_LP = NONE
	MODULATION = QAM/16
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/8
	HIERARCHY = NONE
	INVERSION = AUTO

[D3 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 594000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D1 MUXA]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 610000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D2 MUXB]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 618000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D4 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 642000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 5/6
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D1 MUXB, D3 MUXA, D6 MUXB]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 658000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D5 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 666000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 5/6
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/16
	HIERARCHY = NONE
	INVERSION = AUTO

[SLO MUXA]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 666000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 2/3
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D3 MUXB, D4 MUXB]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 690000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D7 MUXA, D9 MUXA]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 714000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D5 MUXB, D8 MUXB]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 730000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D6 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 738000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[Tusti Vrh MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 762000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/16
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D2 MUXD]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 770000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D7 MUXB, D9 MUXB]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 778000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 3/4
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/4
	HIERARCHY = NONE
	INVERSION = AUTO

[D5 MFN]
	DELIVERY_SYSTEM = DVBT
	FREQUENCY = 850000000
	BANDWIDTH_HZ = 8000000
	CODE_RATE_HP = 5/6
	CODE_RATE_LP = NONE
	MODULATION = QAM/64
	TRANSMISSION_MODE = 8K
	GUARD_INTERVAL = 1/16
	HIERARCHY = NONE
	INVERSION = AUTO