1 /*---------------------------------------------------------------------------------------------------------------------------------------------------
4 * Copyright (c) 2010-2013 Frank Meyer - frank(at)fli4l.de
6 * Supported mikrocontrollers:
11 * ATmega8, ATmega16, ATmega32
13 * ATmega164, ATmega324, ATmega644, ATmega644P, ATmega1284
14 * ATmega88, ATmega88P, ATmega168, ATmega168P, ATmega328P
16 * $Id: irsnd.c,v 1.67 2013/01/17 06:46:19 fm Exp $
18 * This program is free software; you can redistribute it and/or modify
19 * it under the terms of the GNU General Public License as published by
20 * the Free Software Foundation; either version 2 of the License, or
21 * (at your option) any later version.
22 *---------------------------------------------------------------------------------------------------------------------------------------------------
31 /*---------------------------------------------------------------------------------------------------------------------------------------------------
32 * ATtiny pin definition of OC0A / OC0B
33 * ATmega pin definition of OC2 / OC2A / OC2B / OC0 / OC0A / OC0B
34 *---------------------------------------------------------------------------------------------------------------------------------------------------
36 #if defined (__AVR_ATtiny44__) || defined (__AVR_ATtiny84__) // ATtiny44/84 uses OC0A = PB2 or OC0B = PA7
37 # if IRSND_OCx == IRSND_OC0A // OC0A
38 # define IRSND_PORT_LETTER B
39 # define IRSND_BIT_NUMBER 2
40 # elif IRSND_OCx == IRSND_OC0B // OC0B
41 # define IRSND_PORT_LETTER A
42 # define IRSND_BIT_NUMBER 7
44 # error Wrong value for IRSND_OCx, choose IRSND_OC0A or IRSND_OC0B in irsndconfig.h
46 #elif defined (__AVR_ATtiny45__) || defined (__AVR_ATtiny85__) // ATtiny45/85 uses OC0A = PB0 or OC0B = PB1
47 # if IRSND_OCx == IRSND_OC0A // OC0A
48 # define IRSND_PORT_LETTER B
49 # define IRSND_BIT_NUMBER 0
50 # elif IRSND_OCx == IRSND_OC0B // OC0B
51 # define IRSND_PORT_LETTER B
52 # define IRSND_BIT_NUMBER 1
54 # error Wrong value for IRSND_OCx, choose IRSND_OC0A or IRSND_OC0B in irsndconfig.h
56 #elif defined (__AVR_ATtiny87__) || defined (__AVR_ATtiny167__) // ATtiny87/167 uses OC0A = PA2
57 # if IRSND_OCx == IRSND_OC0A // OC0A
58 # define IRSND_PORT_LETTER A
59 # define IRSND_BIT_NUMBER 2
61 # error Wrong value for IRSND_OCx, choose IRSND_OC0A in irsndconfig.h
63 #elif defined (__AVR_ATmega8__) // ATmega8 uses only OC2 = PB3
64 # if IRSND_OCx == IRSND_OC2 // OC0A
65 # define IRSND_PORT_LETTER B
66 # define IRSND_BIT_NUMBER 3
68 # error Wrong value for IRSND_OCx, choose IRSND_OC2 in irsndconfig.h
70 #elif defined (__AVR_ATmega16__) || defined (__AVR_ATmega32__) // ATmega16|32 uses OC2 = PD7
71 # if IRSND_OCx == IRSND_OC2 // OC2
72 # define IRSND_PORT_LETTER D
73 # define IRSND_BIT_NUMBER 7
75 # error Wrong value for IRSND_OCx, choose IRSND_OC2 in irsndconfig.h
77 #elif defined (__AVR_ATmega162__) // ATmega162 uses OC2 = PB1 or OC0 = PB0
78 # if IRSND_OCx == IRSND_OC2 // OC2
79 # define IRSND_PORT_LETTER B
80 # define IRSND_BIT_NUMBER 1
81 # elif IRSND_OCx == IRSND_OC0 // OC0
82 # define IRSND_PORT_LETTER B
83 # define IRSND_BIT_NUMBER 0
85 # error Wrong value for IRSND_OCx, choose IRSND_OC2 or IRSND_OC0 in irsndconfig.h
87 #elif defined (__AVR_ATmega164__) \
88 || defined (__AVR_ATmega324__) \
89 || defined (__AVR_ATmega644__) \
90 || defined (__AVR_ATmega644P__) \
91 || defined (__AVR_ATmega1284__) \
92 || defined (__AVR_ATmega1284P__) // ATmega164|324|644|644P|1284 uses OC2A = PD7 or OC2B = PD6 or OC0A = PB3 or OC0B = PB4
93 # if IRSND_OCx == IRSND_OC2A // OC2A
94 # define IRSND_PORT_LETTER D
95 # define IRSND_BIT_NUMBER 7
96 # elif IRSND_OCx == IRSND_OC2B // OC2B
97 # define IRSND_PORT_LETTER D
98 # define IRSND_BIT_NUMBER 6
99 # elif IRSND_OCx == IRSND_OC0A // OC0A
100 # define IRSND_PORT_LETTER B
101 # define IRSND_BIT_NUMBER 3
102 # elif IRSND_OCx == IRSND_OC0B // OC0B
103 # define IRSND_PORT_LETTER B
104 # define IRSND_BIT_NUMBER 4
106 # error Wrong value for IRSND_OCx, choose IRSND_OC2A, IRSND_OC2B, IRSND_OC0A, or IRSND_OC0B in irsndconfig.h
108 #elif defined (__AVR_ATmega48__) \
109 || defined (__AVR_ATmega88__) \
110 || defined (__AVR_ATmega88P__) \
111 || defined (__AVR_ATmega168__) \
112 || defined (__AVR_ATmega168P__) \
113 || defined (__AVR_ATmega328P__) // ATmega48|88|168|168|328 uses OC2A = PB3 or OC2B = PD3 or OC0A = PD6 or OC0B = PD5
114 # if IRSND_OCx == IRSND_OC2A // OC2A
115 # define IRSND_PORT_LETTER B
116 # define IRSND_BIT_NUMBER 3
117 # elif IRSND_OCx == IRSND_OC2B // OC2B
118 # define IRSND_PORT_LETTER D
119 # define IRSND_BIT_NUMBER 3
120 # elif IRSND_OCx == IRSND_OC0A // OC0A
121 # define IRSND_PORT_LETTER D
122 # define IRSND_BIT_NUMBER 6
123 # elif IRSND_OCx == IRSND_OC0B // OC0B
124 # define IRSND_PORT_LETTER D
125 # define IRSND_BIT_NUMBER 5
127 # error Wrong value for IRSND_OCx, choose IRSND_OC2A, IRSND_OC2B, IRSND_OC0A, or IRSND_OC0B in irsndconfig.h
129 #elif defined (__AVR_ATmega8515__) // ATmega8515 uses OC0 = PB0 or OC1A = PD5 or OC1B = PE2
130 # if IRSND_OCx == IRSND_OC0
131 # define IRSND_PORT_LETTER B
132 # define IRSND_BIT_NUMBER 0
133 # elif IRSND_OCx == IRSND_OC1A
134 # define IRSND_PORT_LETTER D
135 # define IRSND_BIT_NUMBER 5
136 # elif IRSND_OCx == IRSND_OC1B
137 # define IRSND_PORT_LETTER E
138 # define IRSND_BIT_NUMBER 2
140 # error Wrong value for IRSND_OCx, choose IRSND_OC0, IRSND_OC1A, or IRSND_OC1B in irsndconfig.h
142 #elif defined (PIC_C18) //Microchip C18 compiler
143 //Nothing here to do here -> See irsndconfig.h
144 #elif defined (ARM_STM32) //STM32
145 //Nothing here to do here -> See irsndconfig.h
147 # if !defined (unix) && !defined (WIN32)
148 # error mikrocontroller not defined, please fill in definitions here.
149 # endif // unix, WIN32
152 #if defined(ATMEL_AVR)
153 # define _CONCAT(a,b) a##b
154 # define CONCAT(a,b) _CONCAT(a,b)
155 # define IRSND_PORT CONCAT(PORT, IRSND_PORT_LETTER)
156 # define IRSND_DDR CONCAT(DDR, IRSND_PORT_LETTER)
157 # define IRSND_BIT IRSND_BIT_NUMBER
160 #if IRSND_SUPPORT_NIKON_PROTOCOL == 1
161 typedef uint16_t IRSND_PAUSE_LEN
;
163 typedef uint8_t IRSND_PAUSE_LEN
;
166 /*---------------------------------------------------------------------------------------------------------------------------------------------------
168 *---------------------------------------------------------------------------------------------------------------------------------------------------
170 #define SIRCS_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * SIRCS_START_BIT_PULSE_TIME + 0.5)
171 #define SIRCS_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * SIRCS_START_BIT_PAUSE_TIME + 0.5)
172 #define SIRCS_1_PULSE_LEN (uint8_t)(F_INTERRUPTS * SIRCS_1_PULSE_TIME + 0.5)
173 #define SIRCS_0_PULSE_LEN (uint8_t)(F_INTERRUPTS * SIRCS_0_PULSE_TIME + 0.5)
174 #define SIRCS_PAUSE_LEN (uint8_t)(F_INTERRUPTS * SIRCS_PAUSE_TIME + 0.5)
175 #define SIRCS_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * SIRCS_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
176 #define SIRCS_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * SIRCS_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
178 #define NEC_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * NEC_START_BIT_PULSE_TIME + 0.5)
179 #define NEC_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NEC_START_BIT_PAUSE_TIME + 0.5)
180 #define NEC_REPEAT_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NEC_REPEAT_START_BIT_PAUSE_TIME + 0.5)
181 #define NEC_PULSE_LEN (uint8_t)(F_INTERRUPTS * NEC_PULSE_TIME + 0.5)
182 #define NEC_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NEC_1_PAUSE_TIME + 0.5)
183 #define NEC_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NEC_0_PAUSE_TIME + 0.5)
184 #define NEC_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * NEC_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
186 #define SAMSUNG_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * SAMSUNG_START_BIT_PULSE_TIME + 0.5)
187 #define SAMSUNG_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * SAMSUNG_START_BIT_PAUSE_TIME + 0.5)
188 #define SAMSUNG_PULSE_LEN (uint8_t)(F_INTERRUPTS * SAMSUNG_PULSE_TIME + 0.5)
189 #define SAMSUNG_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * SAMSUNG_1_PAUSE_TIME + 0.5)
190 #define SAMSUNG_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * SAMSUNG_0_PAUSE_TIME + 0.5)
191 #define SAMSUNG_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * SAMSUNG_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
193 #define SAMSUNG32_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * SAMSUNG32_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
194 #define SAMSUNG32_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * SAMSUNG32_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
196 #define MATSUSHITA_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * MATSUSHITA_START_BIT_PULSE_TIME + 0.5)
197 #define MATSUSHITA_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * MATSUSHITA_START_BIT_PAUSE_TIME + 0.5)
198 #define MATSUSHITA_PULSE_LEN (uint8_t)(F_INTERRUPTS * MATSUSHITA_PULSE_TIME + 0.5)
199 #define MATSUSHITA_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * MATSUSHITA_1_PAUSE_TIME + 0.5)
200 #define MATSUSHITA_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * MATSUSHITA_0_PAUSE_TIME + 0.5)
201 #define MATSUSHITA_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * MATSUSHITA_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
203 #define KASEIKYO_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * KASEIKYO_START_BIT_PULSE_TIME + 0.5)
204 #define KASEIKYO_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * KASEIKYO_START_BIT_PAUSE_TIME + 0.5)
205 #define KASEIKYO_PULSE_LEN (uint8_t)(F_INTERRUPTS * KASEIKYO_PULSE_TIME + 0.5)
206 #define KASEIKYO_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * KASEIKYO_1_PAUSE_TIME + 0.5)
207 #define KASEIKYO_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * KASEIKYO_0_PAUSE_TIME + 0.5)
208 #define KASEIKYO_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * KASEIKYO_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
209 #define KASEIKYO_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * KASEIKYO_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
211 #define RECS80_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * RECS80_START_BIT_PULSE_TIME + 0.5)
212 #define RECS80_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RECS80_START_BIT_PAUSE_TIME + 0.5)
213 #define RECS80_PULSE_LEN (uint8_t)(F_INTERRUPTS * RECS80_PULSE_TIME + 0.5)
214 #define RECS80_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RECS80_1_PAUSE_TIME + 0.5)
215 #define RECS80_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RECS80_0_PAUSE_TIME + 0.5)
216 #define RECS80_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * RECS80_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
218 #define RC5_START_BIT_LEN (uint8_t)(F_INTERRUPTS * RC5_BIT_TIME + 0.5)
219 #define RC5_BIT_LEN (uint8_t)(F_INTERRUPTS * RC5_BIT_TIME + 0.5)
220 #define RC5_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * RC5_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
222 #define RC6_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * RC6_START_BIT_PULSE_TIME + 0.5)
223 #define RC6_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RC6_START_BIT_PAUSE_TIME + 0.5)
224 #define RC6_TOGGLE_BIT_LEN (uint8_t)(F_INTERRUPTS * RC6_TOGGLE_BIT_TIME + 0.5)
225 #define RC6_BIT_LEN (uint8_t)(F_INTERRUPTS * RC6_BIT_TIME + 0.5)
226 #define RC6_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * RC6_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
228 #define DENON_PULSE_LEN (uint8_t)(F_INTERRUPTS * DENON_PULSE_TIME + 0.5)
229 #define DENON_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * DENON_1_PAUSE_TIME + 0.5)
230 #define DENON_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * DENON_0_PAUSE_TIME + 0.5)
231 #define DENON_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * DENON_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
232 #define DENON_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * DENON_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
234 #define THOMSON_PULSE_LEN (uint8_t)(F_INTERRUPTS * THOMSON_PULSE_TIME + 0.5)
235 #define THOMSON_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * THOMSON_1_PAUSE_TIME + 0.5)
236 #define THOMSON_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * THOMSON_0_PAUSE_TIME + 0.5)
237 #define THOMSON_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * THOMSON_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
238 #define THOMSON_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * THOMSON_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
240 #define RECS80EXT_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * RECS80EXT_START_BIT_PULSE_TIME + 0.5)
241 #define RECS80EXT_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RECS80EXT_START_BIT_PAUSE_TIME + 0.5)
242 #define RECS80EXT_PULSE_LEN (uint8_t)(F_INTERRUPTS * RECS80EXT_PULSE_TIME + 0.5)
243 #define RECS80EXT_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RECS80EXT_1_PAUSE_TIME + 0.5)
244 #define RECS80EXT_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RECS80EXT_0_PAUSE_TIME + 0.5)
245 #define RECS80EXT_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * RECS80EXT_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
247 #define NUBERT_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * NUBERT_START_BIT_PULSE_TIME + 0.5)
248 #define NUBERT_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NUBERT_START_BIT_PAUSE_TIME + 0.5)
249 #define NUBERT_1_PULSE_LEN (uint8_t)(F_INTERRUPTS * NUBERT_1_PULSE_TIME + 0.5)
250 #define NUBERT_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NUBERT_1_PAUSE_TIME + 0.5)
251 #define NUBERT_0_PULSE_LEN (uint8_t)(F_INTERRUPTS * NUBERT_0_PULSE_TIME + 0.5)
252 #define NUBERT_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NUBERT_0_PAUSE_TIME + 0.5)
253 #define NUBERT_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * NUBERT_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
254 #define NUBERT_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * NUBERT_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
256 #define BANG_OLUFSEN_START_BIT1_PULSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT1_PULSE_TIME + 0.5)
257 #define BANG_OLUFSEN_START_BIT1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT1_PAUSE_TIME + 0.5)
258 #define BANG_OLUFSEN_START_BIT2_PULSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT2_PULSE_TIME + 0.5)
259 #define BANG_OLUFSEN_START_BIT2_PAUSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT2_PAUSE_TIME + 0.5)
260 #define BANG_OLUFSEN_START_BIT3_PULSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT3_PULSE_TIME + 0.5)
261 #define BANG_OLUFSEN_START_BIT3_PAUSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_START_BIT3_PAUSE_TIME + 0.5)
262 #define BANG_OLUFSEN_PULSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_PULSE_TIME + 0.5)
263 #define BANG_OLUFSEN_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_1_PAUSE_TIME + 0.5)
264 #define BANG_OLUFSEN_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_0_PAUSE_TIME + 0.5)
265 #define BANG_OLUFSEN_R_PAUSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_R_PAUSE_TIME + 0.5)
266 #define BANG_OLUFSEN_TRAILER_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * BANG_OLUFSEN_TRAILER_BIT_PAUSE_TIME + 0.5)
267 #define BANG_OLUFSEN_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * BANG_OLUFSEN_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
269 #define GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN (uint8_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_PRE_PAUSE_TIME + 0.5)
270 #define GRUNDIG_NOKIA_IR60_BIT_LEN (uint8_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_BIT_TIME + 0.5)
271 #define GRUNDIG_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * GRUNDIG_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
272 #define NOKIA_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * NOKIA_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
273 #define GRUNDIG_NOKIA_IR60_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * GRUNDIG_NOKIA_IR60_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
275 #define IR60_AUTO_REPETITION_PAUSE_LEN (uint16_t)(F_INTERRUPTS * IR60_AUTO_REPETITION_PAUSE_TIME + 0.5) // use uint16_t!
277 #define SIEMENS_START_BIT_LEN (uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_START_BIT_PULSE_TIME + 0.5)
278 #define SIEMENS_BIT_LEN (uint8_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_BIT_PULSE_TIME + 0.5)
279 #define SIEMENS_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * SIEMENS_OR_RUWIDO_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
281 #ifdef PIC_C18 // PIC C18
282 # define IRSND_FREQ_TYPE uint8_t
283 # define IRSND_FREQ_30_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 30000 / 2 / Pre_Scaler / PIC_Scaler) - 1)
284 # define IRSND_FREQ_32_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 32000 / 2 / Pre_Scaler / PIC_Scaler) - 1)
285 # define IRSND_FREQ_36_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 36000 / 2 / Pre_Scaler / PIC_Scaler) - 1)
286 # define IRSND_FREQ_38_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 38000 / 2 / Pre_Scaler / PIC_Scaler) - 1)
287 # define IRSND_FREQ_40_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 40000 / 2 / Pre_Scaler / PIC_Scaler) - 1)
288 # define IRSND_FREQ_56_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 56000 / 2 / Pre_Scaler / PIC_Scaler) - 1)
289 # define IRSND_FREQ_455_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 455000 / 2 / Pre_Scaler / PIC_Scaler) - 1)
290 #elif defined (ARM_STM32) // STM32
291 # define IRSND_FREQ_TYPE uint32_t
292 # define IRSND_FREQ_30_KHZ (IRSND_FREQ_TYPE) (30000)
293 # define IRSND_FREQ_32_KHZ (IRSND_FREQ_TYPE) (32000)
294 # define IRSND_FREQ_36_KHZ (IRSND_FREQ_TYPE) (36000)
295 # define IRSND_FREQ_38_KHZ (IRSND_FREQ_TYPE) (38000)
296 # define IRSND_FREQ_40_KHZ (IRSND_FREQ_TYPE) (40000)
297 # define IRSND_FREQ_56_KHZ (IRSND_FREQ_TYPE) (56000)
298 # define IRSND_FREQ_455_KHZ (IRSND_FREQ_TYPE) (455000)
300 # if F_CPU >= 16000000L
301 # define AVR_PRESCALER 8
303 # define AVR_PRESCALER 1
305 # define IRSND_FREQ_TYPE uint8_t
306 # define IRSND_FREQ_30_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 30000 / AVR_PRESCALER / 2) - 1)
307 # define IRSND_FREQ_32_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 32000 / AVR_PRESCALER / 2) - 1)
308 # define IRSND_FREQ_36_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 36000 / AVR_PRESCALER / 2) - 1)
309 # define IRSND_FREQ_38_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 38000 / AVR_PRESCALER / 2) - 1)
310 # define IRSND_FREQ_40_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 40000 / AVR_PRESCALER / 2) - 1)
311 # define IRSND_FREQ_56_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 56000 / AVR_PRESCALER / 2) - 1)
312 # define IRSND_FREQ_455_KHZ (IRSND_FREQ_TYPE) ((F_CPU / 455000 / AVR_PRESCALER / 2) - 1)
315 #define FDC_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * FDC_START_BIT_PULSE_TIME + 0.5)
316 #define FDC_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * FDC_START_BIT_PAUSE_TIME + 0.5)
317 #define FDC_PULSE_LEN (uint8_t)(F_INTERRUPTS * FDC_PULSE_TIME + 0.5)
318 #define FDC_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * FDC_1_PAUSE_TIME + 0.5)
319 #define FDC_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * FDC_0_PAUSE_TIME + 0.5)
320 #define FDC_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * FDC_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
322 #define RCCAR_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * RCCAR_START_BIT_PULSE_TIME + 0.5)
323 #define RCCAR_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RCCAR_START_BIT_PAUSE_TIME + 0.5)
324 #define RCCAR_PULSE_LEN (uint8_t)(F_INTERRUPTS * RCCAR_PULSE_TIME + 0.5)
325 #define RCCAR_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RCCAR_1_PAUSE_TIME + 0.5)
326 #define RCCAR_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * RCCAR_0_PAUSE_TIME + 0.5)
327 #define RCCAR_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * RCCAR_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
329 #define JVC_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * JVC_START_BIT_PULSE_TIME + 0.5)
330 #define JVC_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * JVC_START_BIT_PAUSE_TIME + 0.5)
331 #define JVC_REPEAT_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * JVC_REPEAT_START_BIT_PAUSE_TIME + 0.5)
332 #define JVC_PULSE_LEN (uint8_t)(F_INTERRUPTS * JVC_PULSE_TIME + 0.5)
333 #define JVC_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * JVC_1_PAUSE_TIME + 0.5)
334 #define JVC_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * JVC_0_PAUSE_TIME + 0.5)
335 #define JVC_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * JVC_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
337 #define NIKON_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * NIKON_START_BIT_PULSE_TIME + 0.5)
338 #define NIKON_START_BIT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * NIKON_START_BIT_PAUSE_TIME + 0.5)
339 #define NIKON_REPEAT_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NIKON_REPEAT_START_BIT_PAUSE_TIME + 0.5)
340 #define NIKON_PULSE_LEN (uint8_t)(F_INTERRUPTS * NIKON_PULSE_TIME + 0.5)
341 #define NIKON_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NIKON_1_PAUSE_TIME + 0.5)
342 #define NIKON_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * NIKON_0_PAUSE_TIME + 0.5)
343 #define NIKON_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * NIKON_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
345 #define LEGO_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * LEGO_START_BIT_PULSE_TIME + 0.5)
346 #define LEGO_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * LEGO_START_BIT_PAUSE_TIME + 0.5)
347 #define LEGO_REPEAT_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * LEGO_REPEAT_START_BIT_PAUSE_TIME + 0.5)
348 #define LEGO_PULSE_LEN (uint8_t)(F_INTERRUPTS * LEGO_PULSE_TIME + 0.5)
349 #define LEGO_1_PAUSE_LEN (uint8_t)(F_INTERRUPTS * LEGO_1_PAUSE_TIME + 0.5)
350 #define LEGO_0_PAUSE_LEN (uint8_t)(F_INTERRUPTS * LEGO_0_PAUSE_TIME + 0.5)
351 #define LEGO_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * LEGO_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
353 #define A1TVBOX_START_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * A1TVBOX_START_BIT_PULSE_TIME + 0.5)
354 #define A1TVBOX_START_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * A1TVBOX_START_BIT_PAUSE_TIME + 0.5)
355 #define A1TVBOX_BIT_PULSE_LEN (uint8_t)(F_INTERRUPTS * A1TVBOX_BIT_PULSE_TIME + 0.5)
356 #define A1TVBOX_BIT_PAUSE_LEN (uint8_t)(F_INTERRUPTS * A1TVBOX_BIT_PAUSE_TIME + 0.5)
357 #define A1TVBOX_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * A1TVBOX_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
358 #define A1TVBOX_FRAME_REPEAT_PAUSE_LEN (uint16_t)(F_INTERRUPTS * A1TVBOX_FRAME_REPEAT_PAUSE_TIME + 0.5) // use uint16_t!
360 static volatile uint8_t irsnd_busy
= 0;
361 static volatile uint8_t irsnd_protocol
= 0;
362 static volatile uint8_t irsnd_buffer
[6] = {0};
363 static volatile uint8_t irsnd_repeat
= 0;
364 static volatile uint8_t irsnd_is_on
= FALSE
;
366 #if IRSND_USE_CALLBACK == 1
367 static void (*irsnd_callback_ptr
) (uint8_t);
368 #endif // IRSND_USE_CALLBACK == 1
370 /*---------------------------------------------------------------------------------------------------------------------------------------------------
372 *---------------------------------------------------------------------------------------------------------------------------------------------------
380 # if defined(PIC_C18) // PIC C18
381 IRSND_PIN
= 0; // output mode -> enable PWM outout pin (0=PWM on, 1=PWM off)
382 # elif defined (ARM_STM32) // STM32
383 TIM_SelectOCxM(IRSND_TIMER
, IRSND_TIMER_CHANNEL
, TIM_OCMode_PWM1
); // enable PWM as OC-mode
384 TIM_CCxCmd(IRSND_TIMER
, IRSND_TIMER_CHANNEL
, TIM_CCx_Enable
); // enable OC-output (is being disabled in TIM_SelectOCxM())
385 TIM_Cmd(IRSND_TIMER
, ENABLE
); // enable counter
387 # if IRSND_OCx == IRSND_OC2 // use OC2
388 TCCR2
|= (1<<COM20
)|(1<<WGM21
); // toggle OC2 on compare match, clear Timer 2 at compare match OCR2
389 # elif IRSND_OCx == IRSND_OC2A // use OC2A
390 TCCR2A
|= (1<<COM2A0
)|(1<<WGM21
); // toggle OC2A on compare match, clear Timer 2 at compare match OCR2A
391 # elif IRSND_OCx == IRSND_OC2B // use OC2B
392 TCCR2A
|= (1<<COM2B0
)|(1<<WGM21
); // toggle OC2B on compare match, clear Timer 2 at compare match OCR2A (yes: A, not B!)
393 # elif IRSND_OCx == IRSND_OC0 // use OC0
394 TCCR0
|= (1<<COM00
)|(1<<WGM01
); // toggle OC0 on compare match, clear Timer 0 at compare match OCR0
395 # elif IRSND_OCx == IRSND_OC0A // use OC0A
396 TCCR0A
|= (1<<COM0A0
)|(1<<WGM01
); // toggle OC0A on compare match, clear Timer 0 at compare match OCR0A
397 # elif IRSND_OCx == IRSND_OC0B // use OC0B
398 TCCR0A
|= (1<<COM0B0
)|(1<<WGM01
); // toggle OC0B on compare match, clear Timer 0 at compare match OCR0A (yes: A, not B!)
400 # error wrong value of IRSND_OCx
405 #if IRSND_USE_CALLBACK == 1
406 if (irsnd_callback_ptr
)
408 (*irsnd_callback_ptr
) (TRUE
);
410 #endif // IRSND_USE_CALLBACK == 1
416 /*---------------------------------------------------------------------------------------------------------------------------------------------------
418 * @details Switches PWM off
419 *---------------------------------------------------------------------------------------------------------------------------------------------------
428 # if defined(PIC_C18) // PIC C18
429 IRSND_PIN
= 1; //input mode -> disbale PWM output pin (0=PWM on, 1=PWM off)
430 # elif defined (ARM_STM32) // STM32
431 TIM_Cmd(IRSND_TIMER
, DISABLE
); // disable counter
432 TIM_SelectOCxM(IRSND_TIMER
, IRSND_TIMER_CHANNEL
, TIM_ForcedAction_InActive
); // force output inactive
433 TIM_CCxCmd(IRSND_TIMER
, IRSND_TIMER_CHANNEL
, TIM_CCx_Enable
); // enable OC-output (is being disabled in TIM_SelectOCxM())
434 TIM_SetCounter(IRSND_TIMER
, 0); // reset counter value
437 # if IRSND_OCx == IRSND_OC2 // use OC2
438 TCCR2
&= ~(1<<COM20
); // normal port operation, OC2 disconnected.
439 # elif IRSND_OCx == IRSND_OC2A // use OC2A
440 TCCR2A
&= ~(1<<COM2A0
); // normal port operation, OC2A disconnected.
441 # elif IRSND_OCx == IRSND_OC2B // use OC2B
442 TCCR2A
&= ~(1<<COM2B0
); // normal port operation, OC2B disconnected.
443 # elif IRSND_OCx == IRSND_OC0 // use OC0
444 TCCR0
&= ~(1<<COM00
); // normal port operation, OC0 disconnected.
445 # elif IRSND_OCx == IRSND_OC0A // use OC0A
446 TCCR0A
&= ~(1<<COM0A0
); // normal port operation, OC0A disconnected.
447 # elif IRSND_OCx == IRSND_OC0B // use OC0B
448 TCCR0A
&= ~(1<<COM0B0
); // normal port operation, OC0B disconnected.
450 # error wrong value of IRSND_OCx
452 IRSND_PORT
&= ~(1<<IRSND_BIT
); // set IRSND_BIT to low
456 #if IRSND_USE_CALLBACK == 1
457 if (irsnd_callback_ptr
)
459 (*irsnd_callback_ptr
) (FALSE
);
461 #endif // IRSND_USE_CALLBACK == 1
467 /*---------------------------------------------------------------------------------------------------------------------------------------------------
469 * @details sets pwm frequency
470 *---------------------------------------------------------------------------------------------------------------------------------------------------
473 irsnd_set_freq (IRSND_FREQ_TYPE freq
)
476 # if defined(PIC_C18) // PIC C18
478 SetDCPWM( (uint16_t) freq
* 2); // freq*2 = Duty cycles 50%
479 # elif defined (ARM_STM32) // STM32
480 static uint32_t TimeBaseFreq
= 0;
482 if (TimeBaseFreq
== 0)
484 RCC_ClocksTypeDef RCC_ClocksStructure
;
485 /* Get system clocks and store timer clock in variable */
486 RCC_GetClocksFreq(&RCC_ClocksStructure
);
487 # if ((IRSND_TIMER_NUMBER >= 2) && (IRSND_TIMER_NUMBER <= 5)) || ((IRSND_TIMER_NUMBER >= 12) && (IRSND_TIMER_NUMBER <= 14))
488 if (RCC_ClocksStructure
.PCLK1_Frequency
== RCC_ClocksStructure
.HCLK_Frequency
)
490 TimeBaseFreq
= RCC_ClocksStructure
.PCLK1_Frequency
;
494 TimeBaseFreq
= RCC_ClocksStructure
.PCLK1_Frequency
* 2;
497 if (RCC_ClocksStructure
.PCLK2_Frequency
== RCC_ClocksStructure
.HCLK_Frequency
)
499 TimeBaseFreq
= RCC_ClocksStructure
.PCLK2_Frequency
;
503 TimeBaseFreq
= RCC_ClocksStructure
.PCLK2_Frequency
* 2;
508 freq
= TimeBaseFreq
/freq
;
511 TIM_SetAutoreload(IRSND_TIMER
, freq
- 1);
513 TIM_SetCompare1(IRSND_TIMER
, (freq
+ 1) / 2);
516 # if IRSND_OCx == IRSND_OC2
517 OCR2
= freq
; // use register OCR2 for OC2
518 # elif IRSND_OCx == IRSND_OC2A // use OC2A
519 OCR2A
= freq
; // use register OCR2A for OC2A and OC2B!
520 # elif IRSND_OCx == IRSND_OC2B // use OC2B
521 OCR2A
= freq
; // use register OCR2A for OC2A and OC2B!
522 # elif IRSND_OCx == IRSND_OC0 // use OC0
523 OCR0
= freq
; // use register OCR2 for OC2
524 # elif IRSND_OCx == IRSND_OC0A // use OC0A
525 OCR0A
= freq
; // use register OCR0A for OC0A and OC0B!
526 # elif IRSND_OCx == IRSND_OC0B // use OC0B
527 OCR0A
= freq
; // use register OCR0A for OC0A and OC0B!
529 # error wrong value of IRSND_OCx
535 /*---------------------------------------------------------------------------------------------------------------------------------------------------
537 * @details Configures 0CR0A, 0CR0B and 0CR2B as PWM channels
538 *---------------------------------------------------------------------------------------------------------------------------------------------------
544 # if defined(PIC_C18) // PIC C18
546 irsnd_set_freq (IRSND_FREQ_36_KHZ
); //default frequency
547 IRSND_PIN
= 1; //default PWM output pin off (0=PWM on, 1=PWM off)
548 # elif defined (ARM_STM32) // STM32
549 GPIO_InitTypeDef GPIO_InitStructure
;
550 TIM_TimeBaseInitTypeDef TIM_TimeBaseStructure
;
551 TIM_OCInitTypeDef TIM_OCInitStructure
;
553 /* GPIOx clock enable */
554 # if defined (ARM_STM32L1XX)
555 RCC_AHBPeriphClockCmd(IRSND_PORT_RCC
, ENABLE
);
556 # elif defined (ARM_STM32F10X)
557 RCC_APB2PeriphClockCmd(IRSND_PORT_RCC
, ENABLE
);
558 # elif defined (ARM_STM32F4XX)
559 RCC_AHB1PeriphClockCmd(IRSND_PORT_RCC
, ENABLE
);
562 /* GPIO Configuration */
563 GPIO_InitStructure
.GPIO_Pin
= IRSND_BIT
;
564 # if defined (ARM_STM32L1XX) || defined (ARM_STM32F4XX)
565 GPIO_InitStructure
.GPIO_Mode
= GPIO_Mode_AF
;
566 GPIO_InitStructure
.GPIO_Speed
= GPIO_Speed_2MHz
;
567 GPIO_InitStructure
.GPIO_OType
= GPIO_OType_PP
;
568 GPIO_InitStructure
.GPIO_PuPd
= GPIO_PuPd_NOPULL
;
569 GPIO_Init(IRSND_PORT
, &GPIO_InitStructure
);
570 GPIO_PinAFConfig(IRSND_PORT
, (uint8_t)IRSND_BIT_NUMBER
, IRSND_GPIO_AF
);
571 # elif defined (ARM_STM32F10X)
572 GPIO_InitStructure
.GPIO_Speed
= GPIO_Speed_2MHz
;
573 GPIO_InitStructure
.GPIO_Mode
= GPIO_Mode_AF_PP
;
574 GPIO_Init(IRSND_PORT
, &GPIO_InitStructure
);
575 GPIO_PinRemapConfig(, ENABLE
); // TODO: remapping required
578 /* TIMx clock enable */
579 # if ((IRSND_TIMER_NUMBER >= 2) && (IRSND_TIMER_NUMBER <= 5)) || ((IRSND_TIMER_NUMBER >= 12) && (IRSND_TIMER_NUMBER <= 14))
580 RCC_APB1PeriphClockCmd(IRSND_TIMER_RCC
, ENABLE
);
582 RCC_APB2PeriphClockCmd(IRSND_TIMER_RCC
, ENABLE
);
585 /* Time base configuration */
586 TIM_TimeBaseStructure
.TIM_Period
= -1; // set dummy value (don't set to 0), will be initialized later
587 TIM_TimeBaseStructure
.TIM_Prescaler
= 0;
588 TIM_TimeBaseStructure
.TIM_ClockDivision
= 0;
589 TIM_TimeBaseStructure
.TIM_CounterMode
= TIM_CounterMode_Up
;
590 TIM_TimeBaseInit(IRSND_TIMER
, &TIM_TimeBaseStructure
);
592 /* PWM1 Mode configuration */
593 TIM_OCInitStructure
.TIM_OCMode
= TIM_OCMode_PWM1
;
594 TIM_OCInitStructure
.TIM_OutputState
= TIM_OutputState_Enable
;
595 TIM_OCInitStructure
.TIM_Pulse
= 0; // will be initialized later
596 TIM_OCInitStructure
.TIM_OCPolarity
= TIM_OCPolarity_High
;
597 TIM_OC1Init(IRSND_TIMER
, &TIM_OCInitStructure
);
599 /* Preload configuration */
600 TIM_ARRPreloadConfig(IRSND_TIMER
, ENABLE
);
601 TIM_OC1PreloadConfig(IRSND_TIMER
, TIM_OCPreload_Enable
);
603 irsnd_set_freq (IRSND_FREQ_36_KHZ
); // set default frequency
605 IRSND_PORT
&= ~(1<<IRSND_BIT
); // set IRSND_BIT to low
606 IRSND_DDR
|= (1<<IRSND_BIT
); // set IRSND_BIT to output
608 # if IRSND_OCx == IRSND_OC2 // use OC2
609 TCCR2
= (1<<WGM21
); // CTC mode
610 # if AVR_PRESCALER == 8
611 TCCR2
|= (1<<CS21
); // start Timer 2, prescaler = 8
613 TCCR2
|= (1<<CS20
); // start Timer 2, prescaler = 1
615 # elif IRSND_OCx == IRSND_OC2A || IRSND_OCx == IRSND_OC2B // use OC2A or OC2B
616 TCCR2A
= (1<<WGM21
); // CTC mode
617 # if AVR_PRESCALER == 8
618 TCCR2B
= (1<<CS21
); // start Timer 2, prescaler = 8
620 TCCR2B
= (1<<CS20
); // start Timer 2, prescaler = 1
622 # elif IRSND_OCx == IRSND_OC0 // use OC0
623 TCCR0
= (1<<WGM01
); // CTC mode
624 # if AVR_PRESCALER == 8
625 TCCR0
|= (1<<CS01
); // start Timer 0, prescaler = 8
627 TCCR0
|= (1<<CS00
); // start Timer 0, prescaler = 1
629 # elif IRSND_OCx == IRSND_OC0A || IRSND_OCx == IRSND_OC0B // use OC0A or OC0B
630 TCCR0A
= (1<<WGM01
); // CTC mode
631 # if AVR_PRESCALER == 8
632 TCCR0B
= (1<<CS01
); // start Timer 0, prescaler = 8
634 TCCR0B
= (1<<CS00
); // start Timer 0, prescaler = 1
637 # error wrong value of IRSND_OCx
639 irsnd_set_freq (IRSND_FREQ_36_KHZ
); // default frequency
644 #if IRSND_USE_CALLBACK == 1
646 irsnd_set_callback_ptr (void (*cb
)(uint8_t))
648 irsnd_callback_ptr
= cb
;
650 #endif // IRSND_USE_CALLBACK == 1
659 bitsrevervse (uint16_t x
, uint8_t len
)
677 #if IRSND_SUPPORT_SIRCS_PROTOCOL == 1
678 static uint8_t sircs_additional_bitlen
;
679 #endif // IRSND_SUPPORT_SIRCS_PROTOCOL == 1
682 irsnd_send_data (IRMP_DATA
* irmp_data_p
, uint8_t do_wait
)
684 #if IRSND_SUPPORT_RECS80_PROTOCOL == 1
685 static uint8_t toggle_bit_recs80
;
687 #if IRSND_SUPPORT_RECS80EXT_PROTOCOL == 1
688 static uint8_t toggle_bit_recs80ext
;
690 #if IRSND_SUPPORT_RC5_PROTOCOL == 1
691 static uint8_t toggle_bit_rc5
;
693 #if IRSND_SUPPORT_RC6_PROTOCOL == 1 || IRSND_SUPPORT_RC6A_PROTOCOL == 1
694 static uint8_t toggle_bit_rc6
;
696 #if IRSND_SUPPORT_THOMSON_PROTOCOL == 1
697 static uint8_t toggle_bit_thomson
;
714 irsnd_protocol
= irmp_data_p
->protocol
;
715 irsnd_repeat
= irmp_data_p
->flags
& IRSND_REPETITION_MASK
;
717 switch (irsnd_protocol
)
719 #if IRSND_SUPPORT_SIRCS_PROTOCOL == 1
720 case IRMP_SIRCS_PROTOCOL
:
722 // uint8_t sircs_additional_command_len;
723 uint8_t sircs_additional_address_len
;
725 sircs_additional_bitlen
= (irmp_data_p
->address
& 0xFF00) >> 8; // additional bitlen
727 if (sircs_additional_bitlen
> 15 - SIRCS_MINIMUM_DATA_LEN
)
729 // sircs_additional_command_len = 15 - SIRCS_MINIMUM_DATA_LEN;
730 sircs_additional_address_len
= sircs_additional_bitlen
- (15 - SIRCS_MINIMUM_DATA_LEN
);
734 // sircs_additional_command_len = sircs_additional_bitlen;
735 sircs_additional_address_len
= 0;
738 command
= bitsrevervse (irmp_data_p
->command
, 15);
740 irsnd_buffer
[0] = (command
& 0x7F80) >> 7; // CCCCCCCC
741 irsnd_buffer
[1] = (command
& 0x007F) << 1; // CCCC****
743 if (sircs_additional_address_len
> 0)
745 address
= bitsrevervse (irmp_data_p
->address
, 5);
746 irsnd_buffer
[1] |= (address
& 0x0010) >> 4;
747 irsnd_buffer
[2] = (address
& 0x000F) << 4;
753 #if IRSND_SUPPORT_NEC_PROTOCOL == 1
754 case IRMP_APPLE_PROTOCOL
:
756 command
= irmp_data_p
->command
| (irmp_data_p
->address
<< 8); // store address as ID in upper byte of command
757 address
= 0x87EE; // set fixed NEC-lookalike address (customer ID of apple)
759 address
= bitsrevervse (address
, NEC_ADDRESS_LEN
);
760 command
= bitsrevervse (command
, NEC_COMMAND_LEN
);
762 irsnd_protocol
= IRMP_NEC_PROTOCOL
; // APPLE protocol is NEC with id instead of inverted command
764 irsnd_buffer
[0] = (address
& 0xFF00) >> 8; // AAAAAAAA
765 irsnd_buffer
[1] = (address
& 0x00FF); // AAAAAAAA
766 irsnd_buffer
[2] = (command
& 0xFF00) >> 8; // CCCCCCCC
767 irsnd_buffer
[3] = 0x8B; // 10001011 (id)
771 case IRMP_NEC_PROTOCOL
:
773 address
= bitsrevervse (irmp_data_p
->address
, NEC_ADDRESS_LEN
);
774 command
= bitsrevervse (irmp_data_p
->command
, NEC_COMMAND_LEN
);
776 irsnd_buffer
[0] = (address
& 0xFF00) >> 8; // AAAAAAAA
777 irsnd_buffer
[1] = (address
& 0x00FF); // AAAAAAAA
778 irsnd_buffer
[2] = (command
& 0xFF00) >> 8; // CCCCCCCC
779 irsnd_buffer
[3] = ~((command
& 0xFF00) >> 8); // cccccccc
784 #if IRSND_SUPPORT_NEC16_PROTOCOL == 1
785 case IRMP_NEC16_PROTOCOL
:
787 address
= bitsrevervse (irmp_data_p
->address
, NEC16_ADDRESS_LEN
);
788 command
= bitsrevervse (irmp_data_p
->command
, NEC16_COMMAND_LEN
);
790 irsnd_buffer
[0] = (address
& 0x00FF); // AAAAAAAA
791 irsnd_buffer
[1] = (command
& 0x00FF); // CCCCCCCC
796 #if IRSND_SUPPORT_NEC42_PROTOCOL == 1
797 case IRMP_NEC42_PROTOCOL
:
799 address
= bitsrevervse (irmp_data_p
->address
, NEC42_ADDRESS_LEN
);
800 command
= bitsrevervse (irmp_data_p
->command
, NEC42_COMMAND_LEN
);
802 irsnd_buffer
[0] = ( (address
& 0x1FE0) >> 5); // AAAAAAAA
803 irsnd_buffer
[1] = ( (address
& 0x001F) << 3) | ((~address
& 0x1C00) >> 10); // AAAAAaaa
804 irsnd_buffer
[2] = ((~address
& 0x03FC) >> 2); // aaaaaaaa
805 irsnd_buffer
[3] = ((~address
& 0x0003) << 6) | ( (command
& 0x00FC) >> 2); // aaCCCCCC
806 irsnd_buffer
[4] = ( (command
& 0x0003) << 6) | ((~command
& 0x00FC) >> 2); // CCcccccc
807 irsnd_buffer
[5] = ((~command
& 0x0003) << 6); // cc
812 #if IRSND_SUPPORT_SAMSUNG_PROTOCOL == 1
813 case IRMP_SAMSUNG_PROTOCOL
:
815 address
= bitsrevervse (irmp_data_p
->address
, SAMSUNG_ADDRESS_LEN
);
816 command
= bitsrevervse (irmp_data_p
->command
, SAMSUNG_COMMAND_LEN
);
818 irsnd_buffer
[0] = (address
& 0xFF00) >> 8; // AAAAAAAA
819 irsnd_buffer
[1] = (address
& 0x00FF); // AAAAAAAA
820 irsnd_buffer
[2] = (command
& 0x00F0) | ((command
& 0xF000) >> 12); // IIIICCCC
821 irsnd_buffer
[3] = ((command
& 0x0F00) >> 4) | ((~(command
& 0xF000) >> 12) & 0x0F); // CCCCcccc
822 irsnd_buffer
[4] = (~(command
& 0x0F00) >> 4) & 0xF0; // cccc0000
826 case IRMP_SAMSUNG32_PROTOCOL
:
828 address
= bitsrevervse (irmp_data_p
->address
, SAMSUNG_ADDRESS_LEN
);
829 command
= bitsrevervse (irmp_data_p
->command
, SAMSUNG32_COMMAND_LEN
);
831 irsnd_buffer
[0] = (address
& 0xFF00) >> 8; // AAAAAAAA
832 irsnd_buffer
[1] = (address
& 0x00FF); // AAAAAAAA
833 irsnd_buffer
[2] = (command
& 0xFF00) >> 8; // CCCCCCCC
834 irsnd_buffer
[3] = (command
& 0x00FF); // CCCCCCCC
839 #if IRSND_SUPPORT_MATSUSHITA_PROTOCOL == 1
840 case IRMP_MATSUSHITA_PROTOCOL
:
842 address
= bitsrevervse (irmp_data_p
->address
, MATSUSHITA_ADDRESS_LEN
);
843 command
= bitsrevervse (irmp_data_p
->command
, MATSUSHITA_COMMAND_LEN
);
845 irsnd_buffer
[0] = (command
& 0x0FF0) >> 4; // CCCCCCCC
846 irsnd_buffer
[1] = ((command
& 0x000F) << 4) | ((address
& 0x0F00) >> 8); // CCCCAAAA
847 irsnd_buffer
[2] = (address
& 0x00FF); // AAAAAAAA
852 #if IRSND_SUPPORT_KASEIKYO_PROTOCOL == 1
853 case IRMP_KASEIKYO_PROTOCOL
:
858 address
= bitsrevervse (irmp_data_p
->address
, KASEIKYO_ADDRESS_LEN
);
859 command
= bitsrevervse (irmp_data_p
->command
, KASEIKYO_COMMAND_LEN
+ 4);
860 genre2
= bitsrevervse ((irmp_data_p
->flags
& ~IRSND_REPETITION_MASK
) >> 4, 4);
862 xor_value
= ((address
& 0x000F) ^ ((address
& 0x00F0) >> 4) ^ ((address
& 0x0F00) >> 8) ^ ((address
& 0xF000) >> 12)) & 0x0F;
864 irsnd_buffer
[0] = (address
& 0xFF00) >> 8; // AAAAAAAA
865 irsnd_buffer
[1] = (address
& 0x00FF); // AAAAAAAA
866 irsnd_buffer
[2] = xor_value
<< 4 | (command
& 0x000F); // XXXXCCCC
867 irsnd_buffer
[3] = (genre2
<< 4) | (command
& 0xF000) >> 12; // ggggCCCC
868 irsnd_buffer
[4] = (command
& 0x0FF0) >> 4; // CCCCCCCC
870 xor_value
= irsnd_buffer
[2] ^ irsnd_buffer
[3] ^ irsnd_buffer
[4];
872 irsnd_buffer
[5] = xor_value
;
877 #if IRSND_SUPPORT_RECS80_PROTOCOL == 1
878 case IRMP_RECS80_PROTOCOL
:
880 toggle_bit_recs80
= toggle_bit_recs80
? 0x00 : 0x40;
882 irsnd_buffer
[0] = 0x80 | toggle_bit_recs80
| ((irmp_data_p
->address
& 0x0007) << 3) |
883 ((irmp_data_p
->command
& 0x0038) >> 3); // STAAACCC
884 irsnd_buffer
[1] = (irmp_data_p
->command
& 0x07) << 5; // CCC00000
889 #if IRSND_SUPPORT_RECS80EXT_PROTOCOL == 1
890 case IRMP_RECS80EXT_PROTOCOL
:
892 toggle_bit_recs80ext
= toggle_bit_recs80ext
? 0x00 : 0x40;
894 irsnd_buffer
[0] = 0x80 | toggle_bit_recs80ext
| ((irmp_data_p
->address
& 0x000F) << 2) |
895 ((irmp_data_p
->command
& 0x0030) >> 4); // STAAAACC
896 irsnd_buffer
[1] = (irmp_data_p
->command
& 0x0F) << 4; // CCCC0000
901 #if IRSND_SUPPORT_RC5_PROTOCOL == 1
902 case IRMP_RC5_PROTOCOL
:
904 toggle_bit_rc5
= toggle_bit_rc5
? 0x00 : 0x40;
906 irsnd_buffer
[0] = ((irmp_data_p
->command
& 0x40) ? 0x00 : 0x80) | toggle_bit_rc5
|
907 ((irmp_data_p
->address
& 0x001F) << 1) | ((irmp_data_p
->command
& 0x20) >> 5); // CTAAAAAC
908 irsnd_buffer
[1] = (irmp_data_p
->command
& 0x1F) << 3; // CCCCC000
913 #if IRSND_SUPPORT_RC6_PROTOCOL == 1
914 case IRMP_RC6_PROTOCOL
:
916 toggle_bit_rc6
= toggle_bit_rc6
? 0x00 : 0x08;
918 irsnd_buffer
[0] = 0x80 | toggle_bit_rc6
| ((irmp_data_p
->address
& 0x00E0) >> 5); // 1MMMTAAA, MMM = 000
919 irsnd_buffer
[1] = ((irmp_data_p
->address
& 0x001F) << 3) | ((irmp_data_p
->command
& 0xE0) >> 5); // AAAAACCC
920 irsnd_buffer
[2] = (irmp_data_p
->command
& 0x1F) << 3; // CCCCC
925 #if IRSND_SUPPORT_RC6A_PROTOCOL == 1
926 case IRMP_RC6A_PROTOCOL
:
928 toggle_bit_rc6
= toggle_bit_rc6
? 0x00 : 0x08;
930 irsnd_buffer
[0] = 0x80 | 0x60 | ((irmp_data_p
->address
& 0x3000) >> 12); // 1MMMT0AA, MMM = 110
931 irsnd_buffer
[1] = ((irmp_data_p
->address
& 0x0FFF) >> 4) ; // AAAAAAAA
932 irsnd_buffer
[2] = ((irmp_data_p
->address
& 0x000F) << 4) | ((irmp_data_p
->command
& 0xF000) >> 12) | toggle_bit_rc6
; // AAAACCCC
933 irsnd_buffer
[3] = (irmp_data_p
->command
& 0x0FF0) >> 4; // CCCCCCCC
934 irsnd_buffer
[4] = (irmp_data_p
->command
& 0x000F) << 4; // CCCC
939 #if IRSND_SUPPORT_DENON_PROTOCOL == 1
940 case IRMP_DENON_PROTOCOL
:
942 irsnd_buffer
[0] = ((irmp_data_p
->address
& 0x1F) << 3) | ((irmp_data_p
->command
& 0x0380) >> 7); // AAAAACCC (1st frame)
943 irsnd_buffer
[1] = (irmp_data_p
->command
& 0x7F) << 1; // CCCCCCC
944 irsnd_buffer
[2] = ((irmp_data_p
->address
& 0x1F) << 3) | (((~irmp_data_p
->command
) & 0x0380) >> 7); // AAAAAccc (2nd frame)
945 irsnd_buffer
[3] = (~(irmp_data_p
->command
) & 0x7F) << 1; // ccccccc
950 #if IRSND_SUPPORT_THOMSON_PROTOCOL == 1
951 case IRMP_THOMSON_PROTOCOL
:
953 toggle_bit_thomson
= toggle_bit_thomson
? 0x00 : 0x08;
955 irsnd_buffer
[0] = ((irmp_data_p
->address
& 0x0F) << 4) | toggle_bit_thomson
| ((irmp_data_p
->command
& 0x0070) >> 4); // AAAATCCC (1st frame)
956 irsnd_buffer
[1] = (irmp_data_p
->command
& 0x0F) << 4; // CCCC
961 #if IRSND_SUPPORT_NUBERT_PROTOCOL == 1
962 case IRMP_NUBERT_PROTOCOL
:
964 irsnd_buffer
[0] = irmp_data_p
->command
>> 2; // CCCCCCCC
965 irsnd_buffer
[1] = (irmp_data_p
->command
& 0x0003) << 6; // CC000000
970 #if IRSND_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
971 case IRMP_BANG_OLUFSEN_PROTOCOL
:
973 irsnd_buffer
[0] = irmp_data_p
->command
>> 11; // SXSCCCCC
974 irsnd_buffer
[1] = irmp_data_p
->command
>> 3; // CCCCCCCC
975 irsnd_buffer
[2] = (irmp_data_p
->command
& 0x0007) << 5; // CCC00000
980 #if IRSND_SUPPORT_GRUNDIG_PROTOCOL == 1
981 case IRMP_GRUNDIG_PROTOCOL
:
983 command
= bitsrevervse (irmp_data_p
->command
, GRUNDIG_COMMAND_LEN
);
985 irsnd_buffer
[0] = 0xFF; // S1111111 (1st frame)
986 irsnd_buffer
[1] = 0xC0; // 11
987 irsnd_buffer
[2] = 0x80 | (command
>> 2); // SCCCCCCC (2nd frame)
988 irsnd_buffer
[3] = (command
<< 6) & 0xC0; // CC
994 #if IRSND_SUPPORT_IR60_PROTOCOL == 1
995 case IRMP_IR60_PROTOCOL
:
997 command
= (bitsrevervse (0x7d, IR60_COMMAND_LEN
) << 7) | bitsrevervse (irmp_data_p
->command
, IR60_COMMAND_LEN
);
999 irsnd_buffer
[0] = command
>> 6 | 0x01; // 1011111S (start instruction frame)
1000 irsnd_buffer
[1] = (command
& 0x7F) << 1; // CCCCCCC_ (2nd frame)
1002 irsnd_buffer
[0] = ((command
& 0x7F) << 1) | 0x01; // CCCCCCCS (1st frame)
1003 irsnd_buffer
[1] = command
>> 6; // 1011111_ (start instruction frame)
1010 #if IRSND_SUPPORT_NOKIA_PROTOCOL == 1
1011 case IRMP_NOKIA_PROTOCOL
:
1013 address
= bitsrevervse (irmp_data_p
->address
, NOKIA_ADDRESS_LEN
);
1014 command
= bitsrevervse (irmp_data_p
->command
, NOKIA_COMMAND_LEN
);
1016 irsnd_buffer
[0] = 0xBF; // S0111111 (1st + 3rd frame)
1017 irsnd_buffer
[1] = 0xFF; // 11111111
1018 irsnd_buffer
[2] = 0x80; // 1
1019 irsnd_buffer
[3] = 0x80 | command
>> 1; // SCCCCCCC (2nd frame)
1020 irsnd_buffer
[4] = (command
<< 7) | (address
>> 1); // CAAAAAAA
1021 irsnd_buffer
[5] = (address
<< 7); // A
1027 #if IRSND_SUPPORT_SIEMENS_PROTOCOL == 1
1028 case IRMP_SIEMENS_PROTOCOL
:
1030 irsnd_buffer
[0] = ((irmp_data_p
->address
& 0x0FFF) >> 5); // SAAAAAAA
1031 irsnd_buffer
[1] = ((irmp_data_p
->address
& 0x1F) << 3) | ((irmp_data_p
->command
& 0x7F) >> 5); // AAAAA0CC
1032 irsnd_buffer
[2] = (irmp_data_p
->command
<< 3) | ((~irmp_data_p
->command
& 0x01) << 2); // CCCCCc
1038 #if IRSND_SUPPORT_FDC_PROTOCOL == 1
1039 case IRMP_FDC_PROTOCOL
:
1041 address
= bitsrevervse (irmp_data_p
->address
, FDC_ADDRESS_LEN
);
1042 command
= bitsrevervse (irmp_data_p
->command
, FDC_COMMAND_LEN
);
1044 irsnd_buffer
[0] = (address
& 0xFF); // AAAAAAAA
1045 irsnd_buffer
[1] = 0; // 00000000
1046 irsnd_buffer
[2] = 0; // 0000RRRR
1047 irsnd_buffer
[3] = (command
& 0xFF); // CCCCCCCC
1048 irsnd_buffer
[4] = ~(command
& 0xFF); // cccccccc
1053 #if IRSND_SUPPORT_RCCAR_PROTOCOL == 1
1054 case IRMP_RCCAR_PROTOCOL
:
1056 address
= bitsrevervse (irmp_data_p
->address
, 2); // A0 A1
1057 command
= bitsrevervse (irmp_data_p
->command
, RCCAR_COMMAND_LEN
- 2); // D0 D1 D2 D3 D4 D5 D6 D7 C0 C1 V
1059 irsnd_buffer
[0] = ((command
& 0x06) << 5) | ((address
& 0x0003) << 4) | ((command
& 0x0780) >> 7); // C0 C1 A0 A1 D0 D1 D2 D3
1060 irsnd_buffer
[1] = ((command
& 0x78) << 1) | ((command
& 0x0001) << 3); // D4 D5 D6 D7 V 0 0 0
1066 #if IRSND_SUPPORT_JVC_PROTOCOL == 1
1067 case IRMP_JVC_PROTOCOL
:
1069 address
= bitsrevervse (irmp_data_p
->address
, JVC_ADDRESS_LEN
);
1070 command
= bitsrevervse (irmp_data_p
->command
, JVC_COMMAND_LEN
);
1072 irsnd_buffer
[0] = ((address
& 0x000F) << 4) | (command
& 0x0F00) >> 8; // AAAACCCC
1073 irsnd_buffer
[1] = (command
& 0x00FF); // CCCCCCCC
1079 #if IRSND_SUPPORT_NIKON_PROTOCOL == 1
1080 case IRMP_NIKON_PROTOCOL
:
1082 irsnd_buffer
[0] = (irmp_data_p
->command
& 0x0003) << 6; // CC
1087 #if IRSND_SUPPORT_LEGO_PROTOCOL == 1
1088 case IRMP_LEGO_PROTOCOL
:
1090 uint8_t crc
= 0x0F ^ ((irmp_data_p
->command
& 0x0F00) >> 8) ^ ((irmp_data_p
->command
& 0x00F0) >> 4) ^ (irmp_data_p
->command
& 0x000F);
1092 irsnd_buffer
[0] = (irmp_data_p
->command
& 0x0FF0) >> 4; // CCCCCCCC
1093 irsnd_buffer
[1] = ((irmp_data_p
->command
& 0x000F) << 4) | crc
; // CCCCcccc
1098 #if IRSND_SUPPORT_A1TVBOX_PROTOCOL == 1
1099 case IRMP_A1TVBOX_PROTOCOL
:
1101 irsnd_buffer
[0] = 0x80 | (irmp_data_p
->address
>> 2); // 10AAAAAA
1102 irsnd_buffer
[1] = (irmp_data_p
->address
<< 6) | (irmp_data_p
->command
>> 2); // AACCCCCC
1103 irsnd_buffer
[2] = (irmp_data_p
->command
<< 6); // CC
1124 /*---------------------------------------------------------------------------------------------------------------------------------------------------
1126 * @details ISR routine, called 10000 times per second
1127 *---------------------------------------------------------------------------------------------------------------------------------------------------
1132 static uint8_t send_trailer
= FALSE
;
1133 static uint8_t current_bit
= 0xFF;
1134 static uint8_t pulse_counter
= 0;
1135 static IRSND_PAUSE_LEN pause_counter
= 0;
1136 static uint8_t startbit_pulse_len
= 0;
1137 static IRSND_PAUSE_LEN startbit_pause_len
= 0;
1138 static uint8_t pulse_1_len
= 0;
1139 static uint8_t pause_1_len
= 0;
1140 static uint8_t pulse_0_len
= 0;
1141 static uint8_t pause_0_len
= 0;
1142 static uint8_t has_stop_bit
= 0;
1143 static uint8_t new_frame
= TRUE
;
1144 static uint8_t complete_data_len
= 0;
1145 static uint8_t n_repeat_frames
= 0; // number of repetition frames
1146 static uint8_t n_auto_repetitions
= 0; // number of auto_repetitions
1147 static uint8_t auto_repetition_counter
= 0; // auto_repetition counter
1148 static uint16_t auto_repetition_pause_len
= 0; // pause before auto_repetition, uint16_t!
1149 static uint16_t auto_repetition_pause_counter
= 0; // pause before auto_repetition, uint16_t!
1150 static uint8_t repeat_counter
= 0; // repeat counter
1151 static uint16_t repeat_frame_pause_len
= 0; // pause before repeat, uint16_t!
1152 static uint16_t packet_repeat_pause_counter
= 0; // pause before repeat, uint16_t!
1153 #if IRSND_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
1154 static uint8_t last_bit_value
;
1156 static uint8_t pulse_len
= 0xFF;
1157 static IRSND_PAUSE_LEN pause_len
= 0xFF;
1161 if (current_bit
== 0xFF && new_frame
) // start of transmission...
1163 if (auto_repetition_counter
> 0)
1165 auto_repetition_pause_counter
++;
1167 #if IRSND_SUPPORT_DENON_PROTOCOL == 1
1168 if (repeat_frame_pause_len
> 0) // frame repeat distance counts from beginning of 1st frame!
1170 repeat_frame_pause_len
--;
1174 if (auto_repetition_pause_counter
>= auto_repetition_pause_len
)
1176 auto_repetition_pause_counter
= 0;
1178 #if IRSND_SUPPORT_DENON_PROTOCOL == 1
1179 if (irsnd_protocol
== IRMP_DENON_PROTOCOL
) // n'th denon frame
1182 complete_data_len
= 2 * DENON_COMPLETE_DATA_LEN
+ 1;
1186 #if IRSND_SUPPORT_GRUNDIG_PROTOCOL == 1
1187 if (irsnd_protocol
== IRMP_GRUNDIG_PROTOCOL
) // n'th grundig frame
1190 complete_data_len
= 16 + GRUNDIG_COMPLETE_DATA_LEN
;
1194 #if IRSND_SUPPORT_IR60_PROTOCOL == 1
1195 if (irsnd_protocol
== IRMP_IR60_PROTOCOL
) // n'th IR60 frame
1198 complete_data_len
= 2 * IR60_COMPLETE_DATA_LEN
+ 1;
1202 #if IRSND_SUPPORT_NOKIA_PROTOCOL == 1
1203 if (irsnd_protocol
== IRMP_NOKIA_PROTOCOL
) // n'th nokia frame
1205 if (auto_repetition_counter
+ 1 < n_auto_repetitions
)
1208 complete_data_len
= 24 + NOKIA_COMPLETE_DATA_LEN
;
1210 else // nokia stop frame
1213 complete_data_len
= NOKIA_COMPLETE_DATA_LEN
;
1238 else if (repeat_counter
> 0 && packet_repeat_pause_counter
< repeat_frame_pause_len
)
1240 else if (packet_repeat_pause_counter
< repeat_frame_pause_len
)
1243 packet_repeat_pause_counter
++;
1262 send_trailer
= FALSE
;
1266 n_repeat_frames
= irsnd_repeat
;
1268 if (n_repeat_frames
== IRSND_ENDLESS_REPETITION
)
1270 n_repeat_frames
= 255;
1273 packet_repeat_pause_counter
= 0;
1277 switch (irsnd_protocol
)
1279 #if IRSND_SUPPORT_SIRCS_PROTOCOL == 1
1280 case IRMP_SIRCS_PROTOCOL
:
1282 startbit_pulse_len
= SIRCS_START_BIT_PULSE_LEN
;
1283 startbit_pause_len
= SIRCS_START_BIT_PAUSE_LEN
- 1;
1284 pulse_1_len
= SIRCS_1_PULSE_LEN
;
1285 pause_1_len
= SIRCS_PAUSE_LEN
- 1;
1286 pulse_0_len
= SIRCS_0_PULSE_LEN
;
1287 pause_0_len
= SIRCS_PAUSE_LEN
- 1;
1288 has_stop_bit
= SIRCS_STOP_BIT
;
1289 complete_data_len
= SIRCS_MINIMUM_DATA_LEN
+ sircs_additional_bitlen
;
1290 n_auto_repetitions
= (repeat_counter
== 0) ? SIRCS_FRAMES
: 1; // 3 frames auto repetition if first frame
1291 auto_repetition_pause_len
= SIRCS_AUTO_REPETITION_PAUSE_LEN
; // 25ms pause
1292 repeat_frame_pause_len
= SIRCS_FRAME_REPEAT_PAUSE_LEN
;
1293 irsnd_set_freq (IRSND_FREQ_40_KHZ
);
1297 #if IRSND_SUPPORT_NEC_PROTOCOL == 1
1298 case IRMP_NEC_PROTOCOL
:
1300 startbit_pulse_len
= NEC_START_BIT_PULSE_LEN
;
1302 if (repeat_counter
> 0)
1304 startbit_pause_len
= NEC_REPEAT_START_BIT_PAUSE_LEN
- 1;
1305 complete_data_len
= 0;
1309 startbit_pause_len
= NEC_START_BIT_PAUSE_LEN
- 1;
1310 complete_data_len
= NEC_COMPLETE_DATA_LEN
;
1313 pulse_1_len
= NEC_PULSE_LEN
;
1314 pause_1_len
= NEC_1_PAUSE_LEN
- 1;
1315 pulse_0_len
= NEC_PULSE_LEN
;
1316 pause_0_len
= NEC_0_PAUSE_LEN
- 1;
1317 has_stop_bit
= NEC_STOP_BIT
;
1318 n_auto_repetitions
= 1; // 1 frame
1319 auto_repetition_pause_len
= 0;
1320 repeat_frame_pause_len
= NEC_FRAME_REPEAT_PAUSE_LEN
;
1321 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1325 #if IRSND_SUPPORT_NEC16_PROTOCOL == 1
1326 case IRMP_NEC16_PROTOCOL
:
1328 startbit_pulse_len
= NEC_START_BIT_PULSE_LEN
;
1329 startbit_pause_len
= NEC_START_BIT_PAUSE_LEN
- 1;
1330 pulse_1_len
= NEC_PULSE_LEN
;
1331 pause_1_len
= NEC_1_PAUSE_LEN
- 1;
1332 pulse_0_len
= NEC_PULSE_LEN
;
1333 pause_0_len
= NEC_0_PAUSE_LEN
- 1;
1334 has_stop_bit
= NEC_STOP_BIT
;
1335 complete_data_len
= NEC16_COMPLETE_DATA_LEN
+ 1; // 1 more: sync bit
1336 n_auto_repetitions
= 1; // 1 frame
1337 auto_repetition_pause_len
= 0;
1338 repeat_frame_pause_len
= NEC_FRAME_REPEAT_PAUSE_LEN
;
1339 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1343 #if IRSND_SUPPORT_NEC42_PROTOCOL == 1
1344 case IRMP_NEC42_PROTOCOL
:
1346 startbit_pulse_len
= NEC_START_BIT_PULSE_LEN
;
1347 startbit_pause_len
= NEC_START_BIT_PAUSE_LEN
- 1;
1348 pulse_1_len
= NEC_PULSE_LEN
;
1349 pause_1_len
= NEC_1_PAUSE_LEN
- 1;
1350 pulse_0_len
= NEC_PULSE_LEN
;
1351 pause_0_len
= NEC_0_PAUSE_LEN
- 1;
1352 has_stop_bit
= NEC_STOP_BIT
;
1353 complete_data_len
= NEC42_COMPLETE_DATA_LEN
;
1354 n_auto_repetitions
= 1; // 1 frame
1355 auto_repetition_pause_len
= 0;
1356 repeat_frame_pause_len
= NEC_FRAME_REPEAT_PAUSE_LEN
;
1357 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1361 #if IRSND_SUPPORT_SAMSUNG_PROTOCOL == 1
1362 case IRMP_SAMSUNG_PROTOCOL
:
1364 startbit_pulse_len
= SAMSUNG_START_BIT_PULSE_LEN
;
1365 startbit_pause_len
= SAMSUNG_START_BIT_PAUSE_LEN
- 1;
1366 pulse_1_len
= SAMSUNG_PULSE_LEN
;
1367 pause_1_len
= SAMSUNG_1_PAUSE_LEN
- 1;
1368 pulse_0_len
= SAMSUNG_PULSE_LEN
;
1369 pause_0_len
= SAMSUNG_0_PAUSE_LEN
- 1;
1370 has_stop_bit
= SAMSUNG_STOP_BIT
;
1371 complete_data_len
= SAMSUNG_COMPLETE_DATA_LEN
;
1372 n_auto_repetitions
= 1; // 1 frame
1373 auto_repetition_pause_len
= 0;
1374 repeat_frame_pause_len
= SAMSUNG_FRAME_REPEAT_PAUSE_LEN
;
1375 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1379 case IRMP_SAMSUNG32_PROTOCOL
:
1381 startbit_pulse_len
= SAMSUNG_START_BIT_PULSE_LEN
;
1382 startbit_pause_len
= SAMSUNG_START_BIT_PAUSE_LEN
- 1;
1383 pulse_1_len
= SAMSUNG_PULSE_LEN
;
1384 pause_1_len
= SAMSUNG_1_PAUSE_LEN
- 1;
1385 pulse_0_len
= SAMSUNG_PULSE_LEN
;
1386 pause_0_len
= SAMSUNG_0_PAUSE_LEN
- 1;
1387 has_stop_bit
= SAMSUNG_STOP_BIT
;
1388 complete_data_len
= SAMSUNG32_COMPLETE_DATA_LEN
;
1389 n_auto_repetitions
= SAMSUNG32_FRAMES
; // 2 frames
1390 auto_repetition_pause_len
= SAMSUNG32_AUTO_REPETITION_PAUSE_LEN
; // 47 ms pause
1391 repeat_frame_pause_len
= SAMSUNG32_FRAME_REPEAT_PAUSE_LEN
;
1392 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1396 #if IRSND_SUPPORT_MATSUSHITA_PROTOCOL == 1
1397 case IRMP_MATSUSHITA_PROTOCOL
:
1399 startbit_pulse_len
= MATSUSHITA_START_BIT_PULSE_LEN
;
1400 startbit_pause_len
= MATSUSHITA_START_BIT_PAUSE_LEN
- 1;
1401 pulse_1_len
= MATSUSHITA_PULSE_LEN
;
1402 pause_1_len
= MATSUSHITA_1_PAUSE_LEN
- 1;
1403 pulse_0_len
= MATSUSHITA_PULSE_LEN
;
1404 pause_0_len
= MATSUSHITA_0_PAUSE_LEN
- 1;
1405 has_stop_bit
= MATSUSHITA_STOP_BIT
;
1406 complete_data_len
= MATSUSHITA_COMPLETE_DATA_LEN
;
1407 n_auto_repetitions
= 1; // 1 frame
1408 auto_repetition_pause_len
= 0;
1409 repeat_frame_pause_len
= MATSUSHITA_FRAME_REPEAT_PAUSE_LEN
;
1410 irsnd_set_freq (IRSND_FREQ_36_KHZ
);
1414 #if IRSND_SUPPORT_KASEIKYO_PROTOCOL == 1
1415 case IRMP_KASEIKYO_PROTOCOL
:
1417 startbit_pulse_len
= KASEIKYO_START_BIT_PULSE_LEN
;
1418 startbit_pause_len
= KASEIKYO_START_BIT_PAUSE_LEN
- 1;
1419 pulse_1_len
= KASEIKYO_PULSE_LEN
;
1420 pause_1_len
= KASEIKYO_1_PAUSE_LEN
- 1;
1421 pulse_0_len
= KASEIKYO_PULSE_LEN
;
1422 pause_0_len
= KASEIKYO_0_PAUSE_LEN
- 1;
1423 has_stop_bit
= KASEIKYO_STOP_BIT
;
1424 complete_data_len
= KASEIKYO_COMPLETE_DATA_LEN
;
1425 n_auto_repetitions
= (repeat_counter
== 0) ? KASEIKYO_FRAMES
: 1; // 2 frames auto repetition if first frame
1426 auto_repetition_pause_len
= KASEIKYO_AUTO_REPETITION_PAUSE_LEN
; // 75 ms pause
1427 repeat_frame_pause_len
= KASEIKYO_FRAME_REPEAT_PAUSE_LEN
;
1428 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1432 #if IRSND_SUPPORT_RECS80_PROTOCOL == 1
1433 case IRMP_RECS80_PROTOCOL
:
1435 startbit_pulse_len
= RECS80_START_BIT_PULSE_LEN
;
1436 startbit_pause_len
= RECS80_START_BIT_PAUSE_LEN
- 1;
1437 pulse_1_len
= RECS80_PULSE_LEN
;
1438 pause_1_len
= RECS80_1_PAUSE_LEN
- 1;
1439 pulse_0_len
= RECS80_PULSE_LEN
;
1440 pause_0_len
= RECS80_0_PAUSE_LEN
- 1;
1441 has_stop_bit
= RECS80_STOP_BIT
;
1442 complete_data_len
= RECS80_COMPLETE_DATA_LEN
;
1443 n_auto_repetitions
= 1; // 1 frame
1444 auto_repetition_pause_len
= 0;
1445 repeat_frame_pause_len
= RECS80_FRAME_REPEAT_PAUSE_LEN
;
1446 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1450 #if IRSND_SUPPORT_RECS80EXT_PROTOCOL == 1
1451 case IRMP_RECS80EXT_PROTOCOL
:
1453 startbit_pulse_len
= RECS80EXT_START_BIT_PULSE_LEN
;
1454 startbit_pause_len
= RECS80EXT_START_BIT_PAUSE_LEN
- 1;
1455 pulse_1_len
= RECS80EXT_PULSE_LEN
;
1456 pause_1_len
= RECS80EXT_1_PAUSE_LEN
- 1;
1457 pulse_0_len
= RECS80EXT_PULSE_LEN
;
1458 pause_0_len
= RECS80EXT_0_PAUSE_LEN
- 1;
1459 has_stop_bit
= RECS80EXT_STOP_BIT
;
1460 complete_data_len
= RECS80EXT_COMPLETE_DATA_LEN
;
1461 n_auto_repetitions
= 1; // 1 frame
1462 auto_repetition_pause_len
= 0;
1463 repeat_frame_pause_len
= RECS80EXT_FRAME_REPEAT_PAUSE_LEN
;
1464 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1468 #if IRSND_SUPPORT_RC5_PROTOCOL == 1
1469 case IRMP_RC5_PROTOCOL
:
1471 startbit_pulse_len
= RC5_BIT_LEN
;
1472 startbit_pause_len
= RC5_BIT_LEN
;
1473 pulse_len
= RC5_BIT_LEN
;
1474 pause_len
= RC5_BIT_LEN
;
1475 has_stop_bit
= RC5_STOP_BIT
;
1476 complete_data_len
= RC5_COMPLETE_DATA_LEN
;
1477 n_auto_repetitions
= 1; // 1 frame
1478 auto_repetition_pause_len
= 0;
1479 repeat_frame_pause_len
= RC5_FRAME_REPEAT_PAUSE_LEN
;
1480 irsnd_set_freq (IRSND_FREQ_36_KHZ
);
1484 #if IRSND_SUPPORT_RC6_PROTOCOL == 1
1485 case IRMP_RC6_PROTOCOL
:
1487 startbit_pulse_len
= RC6_START_BIT_PULSE_LEN
;
1488 startbit_pause_len
= RC6_START_BIT_PAUSE_LEN
- 1;
1489 pulse_len
= RC6_BIT_LEN
;
1490 pause_len
= RC6_BIT_LEN
;
1491 has_stop_bit
= RC6_STOP_BIT
;
1492 complete_data_len
= RC6_COMPLETE_DATA_LEN_SHORT
;
1493 n_auto_repetitions
= 1; // 1 frame
1494 auto_repetition_pause_len
= 0;
1495 repeat_frame_pause_len
= RC6_FRAME_REPEAT_PAUSE_LEN
;
1496 irsnd_set_freq (IRSND_FREQ_36_KHZ
);
1500 #if IRSND_SUPPORT_RC6A_PROTOCOL == 1
1501 case IRMP_RC6A_PROTOCOL
:
1503 startbit_pulse_len
= RC6_START_BIT_PULSE_LEN
;
1504 startbit_pause_len
= RC6_START_BIT_PAUSE_LEN
- 1;
1505 pulse_len
= RC6_BIT_LEN
;
1506 pause_len
= RC6_BIT_LEN
;
1507 has_stop_bit
= RC6_STOP_BIT
;
1508 complete_data_len
= RC6_COMPLETE_DATA_LEN_LONG
;
1509 n_auto_repetitions
= 1; // 1 frame
1510 auto_repetition_pause_len
= 0;
1511 repeat_frame_pause_len
= RC6_FRAME_REPEAT_PAUSE_LEN
;
1512 irsnd_set_freq (IRSND_FREQ_36_KHZ
);
1516 #if IRSND_SUPPORT_DENON_PROTOCOL == 1
1517 case IRMP_DENON_PROTOCOL
:
1519 startbit_pulse_len
= 0x00;
1520 startbit_pause_len
= 0x00;
1521 pulse_1_len
= DENON_PULSE_LEN
;
1522 pause_1_len
= DENON_1_PAUSE_LEN
- 1;
1523 pulse_0_len
= DENON_PULSE_LEN
;
1524 pause_0_len
= DENON_0_PAUSE_LEN
- 1;
1525 has_stop_bit
= DENON_STOP_BIT
;
1526 complete_data_len
= DENON_COMPLETE_DATA_LEN
;
1527 n_auto_repetitions
= DENON_FRAMES
; // 2 frames, 2nd with inverted command
1528 auto_repetition_pause_len
= DENON_AUTO_REPETITION_PAUSE_LEN
; // 65 ms pause after 1st frame
1529 repeat_frame_pause_len
= DENON_FRAME_REPEAT_PAUSE_LEN
;
1530 irsnd_set_freq (IRSND_FREQ_36_KHZ
); // in theory 32kHz, in practice 36kHz is better
1534 #if IRSND_SUPPORT_THOMSON_PROTOCOL == 1
1535 case IRMP_THOMSON_PROTOCOL
:
1537 startbit_pulse_len
= 0x00;
1538 startbit_pause_len
= 0x00;
1539 pulse_1_len
= THOMSON_PULSE_LEN
;
1540 pause_1_len
= THOMSON_1_PAUSE_LEN
- 1;
1541 pulse_0_len
= THOMSON_PULSE_LEN
;
1542 pause_0_len
= THOMSON_0_PAUSE_LEN
- 1;
1543 has_stop_bit
= THOMSON_STOP_BIT
;
1544 complete_data_len
= THOMSON_COMPLETE_DATA_LEN
;
1545 n_auto_repetitions
= THOMSON_FRAMES
; // only 1 frame
1546 auto_repetition_pause_len
= THOMSON_AUTO_REPETITION_PAUSE_LEN
;
1547 repeat_frame_pause_len
= DENON_FRAME_REPEAT_PAUSE_LEN
;
1548 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1552 #if IRSND_SUPPORT_NUBERT_PROTOCOL == 1
1553 case IRMP_NUBERT_PROTOCOL
:
1555 startbit_pulse_len
= NUBERT_START_BIT_PULSE_LEN
;
1556 startbit_pause_len
= NUBERT_START_BIT_PAUSE_LEN
- 1;
1557 pulse_1_len
= NUBERT_1_PULSE_LEN
;
1558 pause_1_len
= NUBERT_1_PAUSE_LEN
- 1;
1559 pulse_0_len
= NUBERT_0_PULSE_LEN
;
1560 pause_0_len
= NUBERT_0_PAUSE_LEN
- 1;
1561 has_stop_bit
= NUBERT_STOP_BIT
;
1562 complete_data_len
= NUBERT_COMPLETE_DATA_LEN
;
1563 n_auto_repetitions
= NUBERT_FRAMES
; // 2 frames
1564 auto_repetition_pause_len
= NUBERT_AUTO_REPETITION_PAUSE_LEN
; // 35 ms pause
1565 repeat_frame_pause_len
= NUBERT_FRAME_REPEAT_PAUSE_LEN
;
1566 irsnd_set_freq (IRSND_FREQ_36_KHZ
);
1570 #if IRSND_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
1571 case IRMP_BANG_OLUFSEN_PROTOCOL
:
1573 startbit_pulse_len
= BANG_OLUFSEN_START_BIT1_PULSE_LEN
;
1574 startbit_pause_len
= BANG_OLUFSEN_START_BIT1_PAUSE_LEN
- 1;
1575 pulse_1_len
= BANG_OLUFSEN_PULSE_LEN
;
1576 pause_1_len
= BANG_OLUFSEN_1_PAUSE_LEN
- 1;
1577 pulse_0_len
= BANG_OLUFSEN_PULSE_LEN
;
1578 pause_0_len
= BANG_OLUFSEN_0_PAUSE_LEN
- 1;
1579 has_stop_bit
= BANG_OLUFSEN_STOP_BIT
;
1580 complete_data_len
= BANG_OLUFSEN_COMPLETE_DATA_LEN
;
1581 n_auto_repetitions
= 1; // 1 frame
1582 auto_repetition_pause_len
= 0;
1583 repeat_frame_pause_len
= BANG_OLUFSEN_FRAME_REPEAT_PAUSE_LEN
;
1585 irsnd_set_freq (IRSND_FREQ_455_KHZ
);
1589 #if IRSND_SUPPORT_GRUNDIG_PROTOCOL == 1
1590 case IRMP_GRUNDIG_PROTOCOL
:
1592 startbit_pulse_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1593 startbit_pause_len
= GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN
- 1;
1594 pulse_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1595 pause_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1596 has_stop_bit
= GRUNDIG_NOKIA_IR60_STOP_BIT
;
1597 complete_data_len
= GRUNDIG_COMPLETE_DATA_LEN
;
1598 n_auto_repetitions
= GRUNDIG_FRAMES
; // 2 frames
1599 auto_repetition_pause_len
= GRUNDIG_AUTO_REPETITION_PAUSE_LEN
; // 20m sec pause
1600 repeat_frame_pause_len
= GRUNDIG_NOKIA_IR60_FRAME_REPEAT_PAUSE_LEN
; // 117 msec pause
1601 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1605 #if IRSND_SUPPORT_IR60_PROTOCOL == 1
1606 case IRMP_IR60_PROTOCOL
:
1608 startbit_pulse_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1609 startbit_pause_len
= GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN
- 1;
1610 pulse_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1611 pause_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1612 has_stop_bit
= GRUNDIG_NOKIA_IR60_STOP_BIT
;
1613 complete_data_len
= IR60_COMPLETE_DATA_LEN
;
1614 n_auto_repetitions
= IR60_FRAMES
; // 2 frames
1615 auto_repetition_pause_len
= IR60_AUTO_REPETITION_PAUSE_LEN
; // 20m sec pause
1616 repeat_frame_pause_len
= GRUNDIG_NOKIA_IR60_FRAME_REPEAT_PAUSE_LEN
; // 117 msec pause
1617 irsnd_set_freq (IRSND_FREQ_30_KHZ
);
1621 #if IRSND_SUPPORT_NOKIA_PROTOCOL == 1
1622 case IRMP_NOKIA_PROTOCOL
:
1624 startbit_pulse_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1625 startbit_pause_len
= GRUNDIG_NOKIA_IR60_PRE_PAUSE_LEN
- 1;
1626 pulse_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1627 pause_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
1628 has_stop_bit
= GRUNDIG_NOKIA_IR60_STOP_BIT
;
1629 complete_data_len
= NOKIA_COMPLETE_DATA_LEN
;
1630 n_auto_repetitions
= NOKIA_FRAMES
; // 2 frames
1631 auto_repetition_pause_len
= NOKIA_AUTO_REPETITION_PAUSE_LEN
; // 20 msec pause
1632 repeat_frame_pause_len
= GRUNDIG_NOKIA_IR60_FRAME_REPEAT_PAUSE_LEN
; // 117 msec pause
1633 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1637 #if IRSND_SUPPORT_SIEMENS_PROTOCOL == 1
1638 case IRMP_SIEMENS_PROTOCOL
:
1640 startbit_pulse_len
= SIEMENS_BIT_LEN
;
1641 startbit_pause_len
= SIEMENS_BIT_LEN
;
1642 pulse_len
= SIEMENS_BIT_LEN
;
1643 pause_len
= SIEMENS_BIT_LEN
;
1644 has_stop_bit
= SIEMENS_OR_RUWIDO_STOP_BIT
;
1645 complete_data_len
= SIEMENS_COMPLETE_DATA_LEN
- 1;
1646 n_auto_repetitions
= 1; // 1 frame
1647 auto_repetition_pause_len
= 0;
1648 repeat_frame_pause_len
= SIEMENS_FRAME_REPEAT_PAUSE_LEN
;
1649 irsnd_set_freq (IRSND_FREQ_36_KHZ
);
1653 #if IRSND_SUPPORT_FDC_PROTOCOL == 1
1654 case IRMP_FDC_PROTOCOL
:
1656 startbit_pulse_len
= FDC_START_BIT_PULSE_LEN
;
1657 startbit_pause_len
= FDC_START_BIT_PAUSE_LEN
- 1;
1658 complete_data_len
= FDC_COMPLETE_DATA_LEN
;
1659 pulse_1_len
= FDC_PULSE_LEN
;
1660 pause_1_len
= FDC_1_PAUSE_LEN
- 1;
1661 pulse_0_len
= FDC_PULSE_LEN
;
1662 pause_0_len
= FDC_0_PAUSE_LEN
- 1;
1663 has_stop_bit
= FDC_STOP_BIT
;
1664 n_auto_repetitions
= 1; // 1 frame
1665 auto_repetition_pause_len
= 0;
1666 repeat_frame_pause_len
= FDC_FRAME_REPEAT_PAUSE_LEN
;
1667 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1671 #if IRSND_SUPPORT_RCCAR_PROTOCOL == 1
1672 case IRMP_RCCAR_PROTOCOL
:
1674 startbit_pulse_len
= RCCAR_START_BIT_PULSE_LEN
;
1675 startbit_pause_len
= RCCAR_START_BIT_PAUSE_LEN
- 1;
1676 complete_data_len
= RCCAR_COMPLETE_DATA_LEN
;
1677 pulse_1_len
= RCCAR_PULSE_LEN
;
1678 pause_1_len
= RCCAR_1_PAUSE_LEN
- 1;
1679 pulse_0_len
= RCCAR_PULSE_LEN
;
1680 pause_0_len
= RCCAR_0_PAUSE_LEN
- 1;
1681 has_stop_bit
= RCCAR_STOP_BIT
;
1682 n_auto_repetitions
= 1; // 1 frame
1683 auto_repetition_pause_len
= 0;
1684 repeat_frame_pause_len
= RCCAR_FRAME_REPEAT_PAUSE_LEN
;
1685 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1689 #if IRSND_SUPPORT_JVC_PROTOCOL == 1
1690 case IRMP_JVC_PROTOCOL
:
1692 if (repeat_counter
!= 0) // skip start bit if repetition frame
1697 startbit_pulse_len
= JVC_START_BIT_PULSE_LEN
;
1698 startbit_pause_len
= JVC_START_BIT_PAUSE_LEN
- 1;
1699 complete_data_len
= JVC_COMPLETE_DATA_LEN
;
1700 pulse_1_len
= JVC_PULSE_LEN
;
1701 pause_1_len
= JVC_1_PAUSE_LEN
- 1;
1702 pulse_0_len
= JVC_PULSE_LEN
;
1703 pause_0_len
= JVC_0_PAUSE_LEN
- 1;
1704 has_stop_bit
= JVC_STOP_BIT
;
1705 n_auto_repetitions
= 1; // 1 frame
1706 auto_repetition_pause_len
= 0;
1707 repeat_frame_pause_len
= JVC_FRAME_REPEAT_PAUSE_LEN
;
1708 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1712 #if IRSND_SUPPORT_NIKON_PROTOCOL == 1
1713 case IRMP_NIKON_PROTOCOL
:
1715 startbit_pulse_len
= NIKON_START_BIT_PULSE_LEN
;
1716 startbit_pause_len
= NIKON_START_BIT_PAUSE_LEN
;
1717 complete_data_len
= NIKON_COMPLETE_DATA_LEN
;
1718 pulse_1_len
= NIKON_PULSE_LEN
;
1719 pause_1_len
= NIKON_1_PAUSE_LEN
- 1;
1720 pulse_0_len
= NIKON_PULSE_LEN
;
1721 pause_0_len
= NIKON_0_PAUSE_LEN
- 1;
1722 has_stop_bit
= NIKON_STOP_BIT
;
1723 n_auto_repetitions
= 1; // 1 frame
1724 auto_repetition_pause_len
= 0;
1725 repeat_frame_pause_len
= NIKON_FRAME_REPEAT_PAUSE_LEN
;
1726 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1730 #if IRSND_SUPPORT_LEGO_PROTOCOL == 1
1731 case IRMP_LEGO_PROTOCOL
:
1733 startbit_pulse_len
= LEGO_START_BIT_PULSE_LEN
;
1734 startbit_pause_len
= LEGO_START_BIT_PAUSE_LEN
- 1;
1735 complete_data_len
= LEGO_COMPLETE_DATA_LEN
;
1736 pulse_1_len
= LEGO_PULSE_LEN
;
1737 pause_1_len
= LEGO_1_PAUSE_LEN
- 1;
1738 pulse_0_len
= LEGO_PULSE_LEN
;
1739 pause_0_len
= LEGO_0_PAUSE_LEN
- 1;
1740 has_stop_bit
= LEGO_STOP_BIT
;
1741 n_auto_repetitions
= 1; // 1 frame
1742 auto_repetition_pause_len
= 0;
1743 repeat_frame_pause_len
= LEGO_FRAME_REPEAT_PAUSE_LEN
;
1744 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1748 #if IRSND_SUPPORT_A1TVBOX_PROTOCOL == 1
1749 case IRMP_A1TVBOX_PROTOCOL
:
1751 startbit_pulse_len
= A1TVBOX_BIT_PULSE_LEN
; // don't use A1TVBOX_START_BIT_PULSE_LEN
1752 startbit_pause_len
= A1TVBOX_BIT_PAUSE_LEN
; // don't use A1TVBOX_START_BIT_PAUSE_LEN
1753 pulse_len
= A1TVBOX_BIT_PULSE_LEN
;
1754 pause_len
= A1TVBOX_BIT_PAUSE_LEN
;
1755 has_stop_bit
= A1TVBOX_STOP_BIT
;
1756 complete_data_len
= A1TVBOX_COMPLETE_DATA_LEN
+ 1; // we send stop bit as data
1757 n_auto_repetitions
= 1; // 1 frame
1758 auto_repetition_pause_len
= 0;
1759 repeat_frame_pause_len
= A1TVBOX_FRAME_REPEAT_PAUSE_LEN
;
1760 irsnd_set_freq (IRSND_FREQ_38_KHZ
);
1777 switch (irsnd_protocol
)
1779 #if IRSND_SUPPORT_SIRCS_PROTOCOL == 1
1780 case IRMP_SIRCS_PROTOCOL
:
1782 #if IRSND_SUPPORT_NEC_PROTOCOL == 1
1783 case IRMP_NEC_PROTOCOL
:
1785 #if IRSND_SUPPORT_NEC16_PROTOCOL == 1
1786 case IRMP_NEC16_PROTOCOL
:
1788 #if IRSND_SUPPORT_NEC42_PROTOCOL == 1
1789 case IRMP_NEC42_PROTOCOL
:
1791 #if IRSND_SUPPORT_SAMSUNG_PROTOCOL == 1
1792 case IRMP_SAMSUNG_PROTOCOL
:
1793 case IRMP_SAMSUNG32_PROTOCOL
:
1795 #if IRSND_SUPPORT_MATSUSHITA_PROTOCOL == 1
1796 case IRMP_MATSUSHITA_PROTOCOL
:
1798 #if IRSND_SUPPORT_KASEIKYO_PROTOCOL == 1
1799 case IRMP_KASEIKYO_PROTOCOL
:
1801 #if IRSND_SUPPORT_RECS80_PROTOCOL == 1
1802 case IRMP_RECS80_PROTOCOL
:
1804 #if IRSND_SUPPORT_RECS80EXT_PROTOCOL == 1
1805 case IRMP_RECS80EXT_PROTOCOL
:
1807 #if IRSND_SUPPORT_DENON_PROTOCOL == 1
1808 case IRMP_DENON_PROTOCOL
:
1810 #if IRSND_SUPPORT_THOMSON_PROTOCOL == 1
1811 case IRMP_THOMSON_PROTOCOL
:
1813 #if IRSND_SUPPORT_NUBERT_PROTOCOL == 1
1814 case IRMP_NUBERT_PROTOCOL
:
1816 #if IRSND_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
1817 case IRMP_BANG_OLUFSEN_PROTOCOL
:
1819 #if IRSND_SUPPORT_FDC_PROTOCOL == 1
1820 case IRMP_FDC_PROTOCOL
:
1822 #if IRSND_SUPPORT_RCCAR_PROTOCOL == 1
1823 case IRMP_RCCAR_PROTOCOL
:
1825 #if IRSND_SUPPORT_JVC_PROTOCOL == 1
1826 case IRMP_JVC_PROTOCOL
:
1828 #if IRSND_SUPPORT_NIKON_PROTOCOL == 1
1829 case IRMP_NIKON_PROTOCOL
:
1831 #if IRSND_SUPPORT_LEGO_PROTOCOL == 1
1832 case IRMP_LEGO_PROTOCOL
:
1835 #if IRSND_SUPPORT_SIRCS_PROTOCOL == 1 || IRSND_SUPPORT_NEC_PROTOCOL == 1 || IRSND_SUPPORT_NEC16_PROTOCOL == 1 || IRSND_SUPPORT_NEC42_PROTOCOL == 1 || \
1836 IRSND_SUPPORT_SAMSUNG_PROTOCOL == 1 || IRSND_SUPPORT_MATSUSHITA_PROTOCOL == 1 || \
1837 IRSND_SUPPORT_KASEIKYO_PROTOCOL == 1 || IRSND_SUPPORT_RECS80_PROTOCOL == 1 || IRSND_SUPPORT_RECS80EXT_PROTOCOL == 1 || IRSND_SUPPORT_DENON_PROTOCOL == 1 || \
1838 IRSND_SUPPORT_NUBERT_PROTOCOL == 1 || IRSND_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1 || IRSND_SUPPORT_FDC_PROTOCOL == 1 || IRSND_SUPPORT_RCCAR_PROTOCOL == 1 || \
1839 IRSND_SUPPORT_JVC_PROTOCOL == 1 || IRSND_SUPPORT_NIKON_PROTOCOL == 1 || IRSND_SUPPORT_LEGO_PROTOCOL == 1 || IRSND_SUPPORT_THOMSON_PROTOCOL == 1
1841 #if IRSND_SUPPORT_DENON_PROTOCOL == 1
1842 if (irsnd_protocol
== IRMP_DENON_PROTOCOL
)
1844 if (auto_repetition_pause_len
> 0) // 2nd frame distance counts from beginning of 1st frame!
1846 auto_repetition_pause_len
--;
1849 if (repeat_frame_pause_len
> 0) // frame repeat distance counts from beginning of 1st frame!
1851 repeat_frame_pause_len
--;
1856 if (pulse_counter
== 0)
1858 if (current_bit
== 0xFF) // send start bit
1860 pulse_len
= startbit_pulse_len
;
1861 pause_len
= startbit_pause_len
;
1863 else if (current_bit
< complete_data_len
) // send n'th bit
1865 #if IRSND_SUPPORT_SAMSUNG_PROTOCOL == 1
1866 if (irsnd_protocol
== IRMP_SAMSUNG_PROTOCOL
)
1868 if (current_bit
< SAMSUNG_ADDRESS_LEN
) // send address bits
1870 pulse_len
= SAMSUNG_PULSE_LEN
;
1871 pause_len
= (irsnd_buffer
[current_bit
/ 8] & (1<<(7-(current_bit
% 8)))) ?
1872 (SAMSUNG_1_PAUSE_LEN
- 1) : (SAMSUNG_0_PAUSE_LEN
- 1);
1874 else if (current_bit
== SAMSUNG_ADDRESS_LEN
) // send SYNC bit (16th bit)
1876 pulse_len
= SAMSUNG_PULSE_LEN
;
1877 pause_len
= SAMSUNG_START_BIT_PAUSE_LEN
- 1;
1879 else if (current_bit
< SAMSUNG_COMPLETE_DATA_LEN
) // send n'th bit
1881 uint8_t cur_bit
= current_bit
- 1; // sync skipped, offset = -1 !
1883 pulse_len
= SAMSUNG_PULSE_LEN
;
1884 pause_len
= (irsnd_buffer
[cur_bit
/ 8] & (1<<(7-(cur_bit
% 8)))) ?
1885 (SAMSUNG_1_PAUSE_LEN
- 1) : (SAMSUNG_0_PAUSE_LEN
- 1);
1891 #if IRSND_SUPPORT_NEC16_PROTOCOL == 1
1892 if (irsnd_protocol
== IRMP_NEC16_PROTOCOL
)
1894 if (current_bit
< NEC16_ADDRESS_LEN
) // send address bits
1896 pulse_len
= NEC_PULSE_LEN
;
1897 pause_len
= (irsnd_buffer
[current_bit
/ 8] & (1<<(7-(current_bit
% 8)))) ?
1898 (NEC_1_PAUSE_LEN
- 1) : (NEC_0_PAUSE_LEN
- 1);
1900 else if (current_bit
== NEC16_ADDRESS_LEN
) // send SYNC bit (8th bit)
1902 pulse_len
= NEC_PULSE_LEN
;
1903 pause_len
= NEC_START_BIT_PAUSE_LEN
- 1;
1905 else if (current_bit
< NEC16_COMPLETE_DATA_LEN
+ 1) // send n'th bit
1907 uint8_t cur_bit
= current_bit
- 1; // sync skipped, offset = -1 !
1909 pulse_len
= NEC_PULSE_LEN
;
1910 pause_len
= (irsnd_buffer
[cur_bit
/ 8] & (1<<(7-(cur_bit
% 8)))) ?
1911 (NEC_1_PAUSE_LEN
- 1) : (NEC_0_PAUSE_LEN
- 1);
1917 #if IRSND_SUPPORT_BANG_OLUFSEN_PROTOCOL == 1
1918 if (irsnd_protocol
== IRMP_BANG_OLUFSEN_PROTOCOL
)
1920 if (current_bit
== 0) // send 2nd start bit
1922 pulse_len
= BANG_OLUFSEN_START_BIT2_PULSE_LEN
;
1923 pause_len
= BANG_OLUFSEN_START_BIT2_PAUSE_LEN
- 1;
1925 else if (current_bit
== 1) // send 3rd start bit
1927 pulse_len
= BANG_OLUFSEN_START_BIT3_PULSE_LEN
;
1928 pause_len
= BANG_OLUFSEN_START_BIT3_PAUSE_LEN
- 1;
1930 else if (current_bit
== 2) // send 4th start bit
1932 pulse_len
= BANG_OLUFSEN_START_BIT2_PULSE_LEN
;
1933 pause_len
= BANG_OLUFSEN_START_BIT2_PAUSE_LEN
- 1;
1935 else if (current_bit
== 19) // send trailer bit
1937 pulse_len
= BANG_OLUFSEN_PULSE_LEN
;
1938 pause_len
= BANG_OLUFSEN_TRAILER_BIT_PAUSE_LEN
- 1;
1940 else if (current_bit
< BANG_OLUFSEN_COMPLETE_DATA_LEN
) // send n'th bit
1942 uint8_t cur_bit_value
= (irsnd_buffer
[current_bit
/ 8] & (1<<(7-(current_bit
% 8)))) ? 1 : 0;
1943 pulse_len
= BANG_OLUFSEN_PULSE_LEN
;
1945 if (cur_bit_value
== last_bit_value
)
1947 pause_len
= BANG_OLUFSEN_R_PAUSE_LEN
- 1;
1951 pause_len
= cur_bit_value
? (BANG_OLUFSEN_1_PAUSE_LEN
- 1) : (BANG_OLUFSEN_0_PAUSE_LEN
- 1);
1952 last_bit_value
= cur_bit_value
;
1958 if (irsnd_buffer
[current_bit
/ 8] & (1<<(7-(current_bit
% 8))))
1960 pulse_len
= pulse_1_len
;
1961 pause_len
= pause_1_len
;
1965 pulse_len
= pulse_0_len
;
1966 pause_len
= pause_0_len
;
1969 else if (has_stop_bit
) // send stop bit
1971 pulse_len
= pulse_0_len
;
1973 if (auto_repetition_counter
< n_auto_repetitions
)
1975 pause_len
= pause_0_len
;
1979 pause_len
= 255; // last frame: pause of 255
1984 if (pulse_counter
< pulse_len
)
1986 if (pulse_counter
== 0)
1992 else if (pause_counter
< pause_len
)
1994 if (pause_counter
== 0)
2004 if (current_bit
>= complete_data_len
+ has_stop_bit
)
2007 auto_repetition_counter
++;
2009 if (auto_repetition_counter
== n_auto_repetitions
)
2012 auto_repetition_counter
= 0;
2024 #if IRSND_SUPPORT_RC5_PROTOCOL == 1
2025 case IRMP_RC5_PROTOCOL
:
2027 #if IRSND_SUPPORT_RC6_PROTOCOL == 1
2028 case IRMP_RC6_PROTOCOL
:
2030 #if IRSND_SUPPORT_RC6A_PROTOCOL == 1
2031 case IRMP_RC6A_PROTOCOL
:
2033 #if IRSND_SUPPORT_SIEMENS_PROTOCOL == 1
2034 case IRMP_SIEMENS_PROTOCOL
:
2036 #if IRSND_SUPPORT_GRUNDIG_PROTOCOL == 1
2037 case IRMP_GRUNDIG_PROTOCOL
:
2039 #if IRSND_SUPPORT_IR60_PROTOCOL == 1
2040 case IRMP_IR60_PROTOCOL
:
2042 #if IRSND_SUPPORT_NOKIA_PROTOCOL == 1
2043 case IRMP_NOKIA_PROTOCOL
:
2045 #if IRSND_SUPPORT_A1TVBOX_PROTOCOL == 1
2046 case IRMP_A1TVBOX_PROTOCOL
:
2049 #if IRSND_SUPPORT_RC5_PROTOCOL == 1 || IRSND_SUPPORT_RC6_PROTOCOL == 1 || IRSND_SUPPORT_RC6A_PROTOCOL == 1 || IRSND_SUPPORT_SIEMENS_PROTOCOL == 1 || \
2050 IRSND_SUPPORT_GRUNDIG_PROTOCOL == 1 || IRSND_SUPPORT_IR60_PROTOCOL == 1 || IRSND_SUPPORT_NOKIA_PROTOCOL == 1 || IRSND_SUPPORT_A1TVBOX_PROTOCOL == 1
2052 if (pulse_counter
== pulse_len
&& pause_counter
== pause_len
)
2056 if (current_bit
>= complete_data_len
)
2060 #if IRSND_SUPPORT_GRUNDIG_PROTOCOL == 1 || IRSND_SUPPORT_IR60_PROTOCOL == 1 || IRSND_SUPPORT_NOKIA_PROTOCOL == 1
2061 if (irsnd_protocol
== IRMP_GRUNDIG_PROTOCOL
|| irsnd_protocol
== IRMP_IR60_PROTOCOL
|| irsnd_protocol
== IRMP_NOKIA_PROTOCOL
)
2063 auto_repetition_counter
++;
2065 if (repeat_counter
> 0)
2066 { // set 117 msec pause time
2067 auto_repetition_pause_len
= GRUNDIG_NOKIA_IR60_FRAME_REPEAT_PAUSE_LEN
;
2070 if (repeat_counter
< n_repeat_frames
) // tricky: repeat n info frames per auto repetition before sending last stop frame
2072 n_auto_repetitions
++; // increment number of auto repetitions
2075 else if (auto_repetition_counter
== n_auto_repetitions
)
2078 auto_repetition_counter
= 0;
2097 uint8_t first_pulse
;
2099 #if IRSND_SUPPORT_GRUNDIG_PROTOCOL == 1 || IRSND_SUPPORT_IR60_PROTOCOL == 1 || IRSND_SUPPORT_NOKIA_PROTOCOL == 1
2100 if (irsnd_protocol
== IRMP_GRUNDIG_PROTOCOL
|| irsnd_protocol
== IRMP_IR60_PROTOCOL
|| irsnd_protocol
== IRMP_NOKIA_PROTOCOL
)
2102 if (current_bit
== 0xFF || // start bit of start-frame
2103 (irsnd_protocol
== IRMP_GRUNDIG_PROTOCOL
&& current_bit
== 15) || // start bit of info-frame (Grundig)
2104 (irsnd_protocol
== IRMP_IR60_PROTOCOL
&& current_bit
== 7) || // start bit of data frame (IR60)
2105 (irsnd_protocol
== IRMP_NOKIA_PROTOCOL
&& (current_bit
== 23 || current_bit
== 47))) // start bit of info- or stop-frame (Nokia)
2107 pulse_len
= startbit_pulse_len
;
2108 pause_len
= startbit_pause_len
;
2111 else // send n'th bit
2113 pulse_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
2114 pause_len
= GRUNDIG_NOKIA_IR60_BIT_LEN
;
2115 first_pulse
= (irsnd_buffer
[current_bit
/ 8] & (1<<(7-(current_bit
% 8)))) ? TRUE
: FALSE
;
2118 else // if (irsnd_protocol == IRMP_RC5_PROTOCOL || irsnd_protocol == IRMP_RC6_PROTOCOL || irsnd_protocol == IRMP_RC6A_PROTOCOL ||
2119 // irsnd_protocol == IRMP_SIEMENS_PROTOCOL)
2122 if (current_bit
== 0xFF) // 1 start bit
2124 #if IRSND_SUPPORT_RC6_PROTOCOL == 1 || IRSND_SUPPORT_RC6A_PROTOCOL == 1
2125 if (irsnd_protocol
== IRMP_RC6_PROTOCOL
|| irsnd_protocol
== IRMP_RC6A_PROTOCOL
)
2127 pulse_len
= startbit_pulse_len
;
2128 pause_len
= startbit_pause_len
;
2132 #if IRSND_SUPPORT_A1TVBOX_PROTOCOL == 1
2133 if (irsnd_protocol
== IRMP_A1TVBOX_PROTOCOL
)
2145 else // send n'th bit
2147 #if IRSND_SUPPORT_RC6_PROTOCOL == 1 || IRSND_SUPPORT_RC6A_PROTOCOL == 1
2148 if (irsnd_protocol
== IRMP_RC6_PROTOCOL
|| irsnd_protocol
== IRMP_RC6A_PROTOCOL
)
2150 pulse_len
= RC6_BIT_LEN
;
2151 pause_len
= RC6_BIT_LEN
;
2153 if (irsnd_protocol
== IRMP_RC6_PROTOCOL
)
2155 if (current_bit
== 4) // toggle bit (double len)
2157 pulse_len
= 2 * RC6_BIT_LEN
;
2158 pause_len
= 2 * RC6_BIT_LEN
;
2161 else // if (irsnd_protocol == IRMP_RC6A_PROTOCOL)
2163 if (current_bit
== 4) // toggle bit (double len)
2165 pulse_len
= 2 * RC6_BIT_LEN
+ RC6_BIT_LEN
; // hack!
2166 pause_len
= 2 * RC6_BIT_LEN
;
2168 else if (current_bit
== 5) // toggle bit (double len)
2170 pause_len
= 2 * RC6_BIT_LEN
;
2175 first_pulse
= (irsnd_buffer
[current_bit
/ 8] & (1<<(7-(current_bit
% 8)))) ? TRUE
: FALSE
;
2178 if (irsnd_protocol
== IRMP_RC5_PROTOCOL
)
2180 first_pulse
= first_pulse
? FALSE
: TRUE
;
2186 // printf ("first_pulse: current_bit: %d %d < %d %d < %d\n", current_bit, pause_counter, pause_len, pulse_counter, pulse_len);
2188 if (pulse_counter
< pulse_len
)
2190 if (pulse_counter
== 0)
2196 else // if (pause_counter < pause_len)
2198 if (pause_counter
== 0)
2207 // printf ("first_pause: current_bit: %d %d < %d %d < %d\n", current_bit, pause_counter, pause_len, pulse_counter, pulse_len);
2209 if (pause_counter
< pause_len
)
2211 if (pause_counter
== 0)
2217 else // if (pulse_counter < pulse_len)
2219 if (pulse_counter
== 0)
2229 #endif // IRSND_SUPPORT_RC5_PROTOCOL == 1 || IRSND_SUPPORT_RC6_PROTOCOL == 1 || || IRSND_SUPPORT_RC6A_PROTOCOL == 1 || IRSND_SUPPORT_SIEMENS_PROTOCOL == 1 ||
2230 // IRSND_SUPPORT_GRUNDIG_PROTOCOL == 1 || IRSND_SUPPORT_IR60_PROTOCOL == 1 || IRSND_SUPPORT_NOKIA_PROTOCOL == 1
2242 if (repeat_counter
< n_repeat_frames
)
2244 #if IRSND_SUPPORT_FDC_PROTOCOL == 1
2245 if (irsnd_protocol
== IRMP_FDC_PROTOCOL
)
2247 irsnd_buffer
[2] |= 0x0F;
2255 irsnd_busy
= TRUE
; //Rainer
2256 send_trailer
= TRUE
;
2257 n_repeat_frames
= 0;
2279 // main function - for unix/linux + windows only!
2281 // Compile it under linux with:
2282 // cc irsnd.c -o irsnd
2284 // usage: ./irsnd protocol hex-address hex-command >filename
2287 main (int argc
, char ** argv
)
2292 IRMP_DATA irmp_data
;
2294 if (argc
!= 4 && argc
!= 5)
2296 fprintf (stderr
, "usage: %s protocol hex-address hex-command [repeat] > filename\n", argv
[0]);
2300 if (sscanf (argv
[1], "%d", &protocol
) == 1 &&
2301 sscanf (argv
[2], "%x", &address
) == 1 &&
2302 sscanf (argv
[3], "%x", &command
) == 1)
2304 irmp_data
.protocol
= protocol
;
2305 irmp_data
.address
= address
;
2306 irmp_data
.command
= command
;
2310 irmp_data
.flags
= atoi (argv
[4]);
2314 irmp_data
.flags
= 0;
2319 (void) irsnd_send_data (&irmp_data
, TRUE
);
2328 #if 1 // enable here to send twice
2329 (void) irsnd_send_data (&irmp_data
, TRUE
);
2341 fprintf (stderr
, "%s: wrong arguments\n", argv
[0]);