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outputs.c@ 61

Last change on this file since 61 was 55, checked in by f.jahn, 5 weeks ago
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File size: 17.2 KB

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1	/******************************************************************************
2	*
3	* @file outputs.c
4	* @author ECS, Falko Jahn
5	* @version V1.0.0
6	* @date 2020-05-01
7	* @brief
8	*
9	******************************************************************************/
10
11	//--- INCLUDES -----------------------------------------------------------------
12	#include "outputs.h"
13	#include "main.h"
14	#include "stdio.h"
15	#include "sysdata.h"
16	//--- EXTERNE VARIABLEN --------------------------------------------------------
17
18	//--- LOKALE DEFINES - bitte hier dokumentieren --------------------------------
19
20	//--- LOKALE TYPE DEFS - bitte hier dokumentieren-------------------------------
21
22	//--- DEFINITIONEN GLOBALER VARIABLEN - Bitte in Header dokumentieren ----------
23
24	//--- LOKALE VARIABLEN - bitte hier dokumentieren ------------------------------
25
26	//--- LOKALE FUNKTIONS PROTOTYPEN ----------------------------------------------
27	/*
28	* @brief Heizungssteuerung
29	* @param kein
30	* @retval kein
31	*/
32	void AuxModeHeaterExec(void);
33
34
35	//--- LOKALE FUNKTIONEN - bitte hier dokumentieren -----------------------------
36
37
38
39	// --- GLOBALE FUNKTIONEN - bitte in Header dokumentieren------------------------
40	void OUTPUTS_Init(void)
41	{
42	sys_data.s.values.lvpState = OUTPUTS_LVP_UNKNOWN;
43	sys_data.s.values.ovpState = OUTPUTS_OVP_UNKNOWN;
44
45	}
46
47
48
49	void OUTPUTS_OverwriteChargeCtrl_ChargeEnabled(void)
50	{
51	GPIO_InitTypeDef GPIO_InitStruct = {0};
52	GPIO_InitStruct.Pin = OVERWRITE_CHARGE_CTRL_Pin;
53	GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;
54	GPIO_InitStruct.Pull = GPIO_NOPULL;
55	HAL_GPIO_Init(OVERWRITE_CHARGE_CTRL_GPIO_Port, &GPIO_InitStruct);
56	HAL_GPIO_WritePin(OVERWRITE_CHARGE_CTRL_GPIO_Port, OVERWRITE_CHARGE_CTRL_Pin, OUTPUTS_CHARGE_ALLOWED);
57
58
59	}
60
61
62	void OUTPUTS_OverwriteChargeCtrl_ChargeDisabled(void)
63	{
64	GPIO_InitTypeDef GPIO_InitStruct = {0};
65	GPIO_InitStruct.Pin = OVERWRITE_CHARGE_CTRL_Pin;
66	GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;
67	GPIO_InitStruct.Pull = GPIO_NOPULL;
68	HAL_GPIO_Init(OVERWRITE_CHARGE_CTRL_GPIO_Port, &GPIO_InitStruct);
69
70	HAL_GPIO_WritePin(OVERWRITE_CHARGE_CTRL_GPIO_Port, OVERWRITE_CHARGE_CTRL_Pin, OUTPUTS_CHARGE_NOT_ALLOWED);
71
72
73	}
74
75
76	void OUTPUTS_OverwriteChargeCtrl_Disabled(void)
77	{
78	GPIO_InitTypeDef GPIO_InitStruct = {0};
79	GPIO_InitStruct.Pin = OVERWRITE_CHARGE_CTRL_Pin;
80	GPIO_InitStruct.Mode = GPIO_MODE_INPUT;
81	GPIO_InitStruct.Pull = GPIO_NOPULL;
82	HAL_GPIO_Init(OVERWRITE_CHARGE_CTRL_GPIO_Port, &GPIO_InitStruct);
83
84
85	}
86
87
88	void OUTPUTS_OverwriteDischargeCtrl_DischargeEnabled(void)
89	{
90	GPIO_InitTypeDef GPIO_InitStruct = {0};
91	GPIO_InitStruct.Pin = OVERWRITE_DISCHARGE_CTRL_Pin;
92	GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;
93	GPIO_InitStruct.Pull = GPIO_NOPULL;
94	HAL_GPIO_Init(OVERWRITE_DISCHARGE_CTRL_GPIO_Port, &GPIO_InitStruct);
95	HAL_GPIO_WritePin(OVERWRITE_DISCHARGE_CTRL_GPIO_Port, OVERWRITE_DISCHARGE_CTRL_Pin, OUTPUTS_DISCHARGE_ALLOWED);
96
97
98	}
99
100
101	void OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled(void)
102	{
103	GPIO_InitTypeDef GPIO_InitStruct = {0};
104	GPIO_InitStruct.Pin = OVERWRITE_DISCHARGE_CTRL_Pin;
105	GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;
106	GPIO_InitStruct.Pull = GPIO_NOPULL;
107	HAL_GPIO_Init(OVERWRITE_DISCHARGE_CTRL_GPIO_Port, &GPIO_InitStruct);
108
109	HAL_GPIO_WritePin(OVERWRITE_DISCHARGE_CTRL_GPIO_Port, OVERWRITE_DISCHARGE_CTRL_Pin, OUTPUTS_CHARGE_NOT_ALLOWED);
110
111
112	}
113
114
115	void OUTPUTS_OverwriteDischargeCtrl_Disabled(void)
116	{
117	GPIO_InitTypeDef GPIO_InitStruct = {0};
118	GPIO_InitStruct.Pin = OVERWRITE_DISCHARGE_CTRL_Pin;
119	GPIO_InitStruct.Mode = GPIO_MODE_INPUT;
120	GPIO_InitStruct.Pull = GPIO_NOPULL;
121	HAL_GPIO_Init(OVERWRITE_DISCHARGE_CTRL_GPIO_Port, &GPIO_InitStruct);
122
123
124	}
125
126	/*
127	* @brief Prüfen ob LVP Signal abgeschaltet werden muss
128	* LVP Signal kommt vom BMS und schaltet die Lasten ab. Wird hier auch abgeschaltet wenn der Laststrom zu hoch ist,
129	* oder wenn die Geräte Temperatur zu hoch oder zu niedrig ist.
130	* @param kein
131	* @retval kein
132	*/
133	void OUTPUTS_CheckLVP(void)
134	{
135	static uint16_t lastMode;
136
137	if (sys_data.s.parameter.lvpMode == OUTPUTS_LVP_MODE_AUTO)
138	{
139	if (lastMode != OUTPUTS_LVP_MODE_AUTO)
140	{
141	sys_data.s.values.lvpState = OUTPUTS_LVP_UNKNOWN;
142	}
143
144	if ((sys_data.s.values.lvpState == OUTPUTS_LVP_OK) \|\| (sys_data.s.values.lvpState == OUTPUTS_LVP_UNKNOWN))
145	{
146	if(sys_data.s.values.batteryVoltage < sys_data.s.parameter.lvpStart)
147	{
148	printf("OUTPUTS_LVP_BATTERY_UNDERVOLTAGE\n");
149	sys_data.s.values.lvpState = OUTPUTS_LVP_BATTERY_UNDERVOLTAGE;
150	OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled();
151	}
152	else if(sys_data.s.values.batteryCurrent < ((int32_t)sys_data.s.parameter.loadCurrentLimit*1000))
153	{
154	printf("OUTPUTS_LVP_OVERCURRENT\n");
155	sys_data.s.values.lvpState = OUTPUTS_LVP_OVERCURRENT;
156	OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled();
157	}
158	else if(sys_data.s.values.shuntTemperature > sys_data.s.parameter.dischargeStopHighTemperatureStart)
159	{
160	printf("OUTPUTS_LVP_SHUNT_OVERTEMPERATURE\n");
161	sys_data.s.values.lvpState = OUTPUTS_LVP_SHUNT_OVERTEMPERATURE;
162	OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled();
163	}
164	else if(sys_data.s.values.chipTemperature > sys_data.s.parameter.dischargeStopHighTemperatureStart)
165	{
166	printf("OUTPUTS_LVP_CHIP_OVERTEMPERATURE\n");
167	sys_data.s.values.lvpState = OUTPUTS_LVP_CHIP_OVERTEMPERATURE;
168	OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled();
169	}
170	else if(sys_data.s.values.shuntTemperature < sys_data.s.parameter.dischargeStopLowTemperatureStart)
171	{
172	printf("OUTPUTS_LVP_SHUNT_UNDERTEMPERATURE\n");
173	sys_data.s.values.lvpState = OUTPUTS_LVP_SHUNT_UNDERTEMPERATURE;
174	OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled();
175	}
176	else if(sys_data.s.values.chipTemperature < sys_data.s.parameter.dischargeStopLowTemperatureStart)
177	{
178	printf("OUTPUTS_LVP_CHIP_OVERTEMPERATURE\n");
179	sys_data.s.values.lvpState = OUTPUTS_LVP_CHIP_UNDERTEMPERATURE;
180	OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled();
181	}
182	}
183
184	if ((sys_data.s.values.lvpState != OUTPUTS_LVP_OK) &&
185	(sys_data.s.values.batteryVoltage > sys_data.s.parameter.lvpStop) &&
186	(sys_data.s.values.batteryCurrent > ((int32_t)sys_data.s.parameter.loadCurrentLimit * 1000)) &&
187	(sys_data.s.values.shuntTemperature < sys_data.s.parameter.dischargeStopHighTemperatureStop) &&
188	(sys_data.s.values.chipTemperature < sys_data.s.parameter.dischargeStopHighTemperatureStop) &&
189	(sys_data.s.values.shuntTemperature > sys_data.s.parameter.dischargeStopLowTemperatureStop) &&
190	(sys_data.s.values.chipTemperature > sys_data.s.parameter.dischargeStopLowTemperatureStop))
191	{
192	//Abschaltkriterien für LVP liegen nicht mehr vor
193	//Wenn Abschaltung aufgrund zu hohem Lade/Lastrom erfolgt ist, muss Fehler durch Geräte Reset zurück gesetzt werden
194	//Andere Fehler automatisches Reset, wenn Fehler nicht mehr vorliegt.
195	//Kunde könnte automatische Reset verhindern, indem er die Stop Werte anders programmiert
196	//z.B.
197	//Temperabschaltung Start 80°C
198	//Temperaturabschaltung Stop -99°C
199	if ((sys_data.s.values.lvpState != OUTPUTS_LVP_OVERCURRENT) && (sys_data.s.values.lvpState != OUTPUTS_LVP_SHORT_PROTECTION))
200	{
201	//Andere Fehler, automatisches zurücksetzen, wenn keine Fehlerbedingungen mehr vorliegen
202	printf("OUTPUT LVP OK\n");
203	sys_data.s.values.lvpState = OUTPUTS_LVP_OK;
204	OUTPUTS_OverwriteDischargeCtrl_Disabled();
205	}
206	}
207	}
208	else if (sys_data.s.parameter.lvpMode == OUTPUTS_LVP_MODE_MANUAL_ON)
209	{
210	OUTPUTS_OverwriteDischargeCtrl_DischargeEnabled();
211	}
212	else if (sys_data.s.parameter.lvpMode == OUTPUTS_LVP_MODE_MANUAL_OFF)
213	{
214	OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled();
215	}
216	else
217	{
218	OUTPUTS_OverwriteDischargeCtrl_DischargeDisabled();
219	}
220
221	lastMode = sys_data.s.parameter.lvpMode;
222	}
223
224	/*
225	* @brief Prüfen ob OVP Signal abgeschaltet werden muss
226	* OVP Signal kommt vom BMS und schaltet die Ladequellen ab. Wird hier auch abgeschaltet wenn der Ladestrom zu hoch ist,
227	* oder wenn die Geräte Temperatur zu hoch oder zu niedrig ist.
228	* @param kein
229	* @retval kein
230	*/
231	void OUTPUTS_CheckOVP(void)
232	{
233	static uint16_t lastMode;
234
235	if (sys_data.s.parameter.ovpMode == OUTPUTS_OVP_MODE_AUTO)
236	{
237	if (lastMode != OUTPUTS_OVP_MODE_AUTO)
238	{
239	sys_data.s.values.ovpState = OUTPUTS_OVP_UNKNOWN;
240	}
241
242	if ((sys_data.s.values.ovpState == OUTPUTS_OVP_OK) \|\| (sys_data.s.values.ovpState == OUTPUTS_OVP_UNKNOWN))
243	{
244	if(sys_data.s.values.batteryVoltage > sys_data.s.parameter.ovpStart)
245	{
246	printf("OUTPUTS_OVP_BATTERY_OVERVOLTAGE\n");
247	sys_data.s.values.ovpState = OUTPUTS_OVP_BATTERY_OVERVOLTAGE;
248	OUTPUTS_OverwriteChargeCtrl_ChargeDisabled();
249	}
250	else if(sys_data.s.values.batteryCurrent > ((int32_t) sys_data.s.parameter.chargeCurrentLimit * 1000))
251	{
252	printf("OUTPUTS_OVP_OVERCURRENT\n");
253	sys_data.s.values.ovpState = OUTPUTS_OVP_OVERCURRENT;
254	OUTPUTS_OverwriteChargeCtrl_ChargeDisabled();
255	}
256	else if(sys_data.s.values.shuntTemperature > sys_data.s.parameter.chargeStopHighTemperatureStart)
257	{
258	printf("OUTPUTS_OVP_SHUNT_OVERTEMPERATURE\n");
259	sys_data.s.values.ovpState = OUTPUTS_OVP_SHUNT_OVERTEMPERATURE;
260	OUTPUTS_OverwriteChargeCtrl_ChargeDisabled();
261	}
262	else if(sys_data.s.values.chipTemperature > sys_data.s.parameter.chargeStopHighTemperatureStart)
263	{
264	printf("OUTPUTS_OVP_CHIP_OVERTEMPERATURE\n");
265	sys_data.s.values.ovpState = OUTPUTS_OVP_CHIP_OVERTEMPERATURE;
266	OUTPUTS_OverwriteChargeCtrl_ChargeDisabled();
267	}
268	else if(sys_data.s.values.shuntTemperature < sys_data.s.parameter.chargeStopLowTemperatureStart)
269	{
270	printf("OUTPUTS_OVP_SHUNT_UNDERTEMPERATURE\n");
271	sys_data.s.values.ovpState = OUTPUTS_OVP_SHUNT_UNDERTEMPERATURE;
272	OUTPUTS_OverwriteChargeCtrl_ChargeDisabled();
273	}
274	else if(sys_data.s.values.chipTemperature < sys_data.s.parameter.chargeStopLowTemperatureStart)
275	{
276	printf("OUTPUTS_OVP_CHIP_UNDETEMPERATURE\n");
277	sys_data.s.values.ovpState = OUTPUTS_OVP_CHIP_UNDERTEMPERATURE;
278	OUTPUTS_OverwriteChargeCtrl_ChargeDisabled();
279	}
280	}
281
282	if ((sys_data.s.values.ovpState != OUTPUTS_OVP_OK) &&
283	(sys_data.s.values.batteryVoltage < sys_data.s.parameter.ovpStop) &&
284	(sys_data.s.values.batteryCurrent < ( (int32_t) sys_data.s.parameter.chargeCurrentLimit*1000)) &&
285	(sys_data.s.values.shuntTemperature < sys_data.s.parameter.chargeStopHighTemperatureStop) &&
286	(sys_data.s.values.chipTemperature < sys_data.s.parameter.chargeStopHighTemperatureStop) &&
287	(sys_data.s.values.shuntTemperature > sys_data.s.parameter.chargeStopLowTemperatureStop) &&
288	(sys_data.s.values.chipTemperature > sys_data.s.parameter.chargeStopLowTemperatureStop))
289	{
290	//Abschaltkriterien für OVP liegen nicht mehr vor
291	//Wenn Abschaltung aufgrund zu hohem Lade/Lastrom erfolgt ist, dann muss Rücksetzen durch Reset Button erfolgen
292	//Andere Fehler, automatisches zurücksetzen, wenn keine Fehlerbedingungen mehr vorliegen
293	if ((sys_data.s.values.ovpState != OUTPUTS_OVP_OVERCURRENT) && (sys_data.s.values.ovpState != OUTPUTS_OVP_SHORT_PROTECTION) )
294	{
295	printf("OUTPUT OVP OK\n");
296	sys_data.s.values.ovpState = OUTPUTS_OVP_OK;
297	OUTPUTS_OverwriteChargeCtrl_Disabled(); // externer steuerung
298	}
299	}
300	}
301	else if (sys_data.s.parameter.ovpMode == OUTPUTS_OVP_MODE_MANUAL_ON)
302	{
303	OUTPUTS_OverwriteChargeCtrl_ChargeEnabled(); //ACHTUNG: Manual On
304	}
305	else if (sys_data.s.parameter.ovpMode == OUTPUTS_OVP_MODE_MANUAL_OFF)
306	{
307	OUTPUTS_OverwriteChargeCtrl_ChargeDisabled();
308	}
309	else
310	{
311	OUTPUTS_OverwriteChargeCtrl_ChargeDisabled();
312	}
313
314	lastMode = sys_data.s.parameter.ovpMode;
315	}
316
317
318
319	#define LVP_DETECTION_LEVEL 6000 //< 6 V
320	#define CHARGE_DETECT_HYSTERESE 10
321
322	void AuxModeHeaterExec(void)
323	{
324	static int outputState=0;
325
326	int offv = sys_data.s.parameter.auxOutputSetpointOn - CHARGE_DETECT_HYSTERESE;
327	int onv = sys_data.s.parameter.auxOutputSetpointOn + CHARGE_DETECT_HYSTERESE;
328
329	if ((sys_data.s.values.shuntVoltage > onv) && (sys_data.s.values.ovp_sense < LVP_DETECTION_LEVEL) && (outputState == 0))
330	{
331	printf("Heater on\r\n");
332	outputState = 1;
333	if (sys_data.s.parameter.auxOutputInverted == 0)
334	{
335	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_SET);
336	}
337	else
338	{
339	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_RESET);
340	}
341
342	}
343
344	//Ausschalten
345	//Wenn Spannung am Shunt < setpoint (ladegeräteerkennung 14,8V?) und Entladung
346	//Oder wenn OVP wieder da ist
347	//sys_data.s.values.batteryCurrent < sys_data.s.parameter.auxOutputSetpointOff
348
349	if ((sys_data.s.values.shuntVoltage < offv ) \|\| (sys_data.s.values.ovp_sense > LVP_DETECTION_LEVEL))
350	{
351	if (outputState == 1)
352	{
353	printf("Heater off\r\n");
354	outputState = 0;
355	if (sys_data.s.parameter.auxOutputInverted == 0)
356	{
357	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_RESET);
358	}
359	else
360	{
361	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_SET);
362	}
363	}
364	}
365	}
366
367	void AuxModeSOCExec(void)
368	{
369	static int outputState=0;
370
371
372	if ((sys_data.s.values.soc > (sys_data.s.parameter.auxOutputSetpointOn*1000)) && (outputState == 0))
373	{
374	printf("AUX on (SOC Mode)\r\n");
375	outputState = 1;
376	if (sys_data.s.parameter.auxOutputInverted == 0)
377	{
378	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_SET);
379	}
380	else
381	{
382	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_RESET);
383	}
384
385	}
386
387
388	if ((sys_data.s.values.soc < (sys_data.s.parameter.auxOutputSetpointOff*1000)) && (outputState == 1))
389	{
390	printf("AUX off (SOC Mode)\r\n");
391	outputState = 0;
392	if (sys_data.s.parameter.auxOutputInverted == 0)
393	{
394	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_RESET);
395	}
396	else
397	{
398	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_SET);
399	}
400	}
401
402
403	}
404
405
406	int16_t loadCurrentLimit; // 30 maximaler Laststrom in A wenn der Strom grer ist als der eingestelle Wert dann wird die Laststrom Protection aktiv, darf nicht unsigned sein, da Entladestrom mit Minus angegeben [A] Default -500 A
407	int16_t chargeCurrentLimit; // 31 maximaler Ladestrom in A wenn der Strom grer ist als der eingestelle Wert dann wird die Ladestrom Protection aktiv [A] Default:500A
408
409
410	int16_t chargeStopHighTemperatureStart; // 32 Abschalttemperatur Ladung wegen zu hoher Temperatur [C * 100]
411	int16_t chargeStopHighTemperatureStop; // 33 Wiedereinschalttemperatur [C * 100]
412
413	int16_t chargeStopLowTemperatureStart; // 34 Abschalttemperatur Ladung wegen zu niedriger Temperatur [C * 100]
414	int16_t chargeStopLowTemperatureStop; // 35 Wiedereinschalttemperatur [C * 100]
415
416	int16_t dischargeStopHighTemperatureStart; // 36 Abschalttemperatur Entladung wegen zu hoher Temperatur [C * 100]
417	int16_t dischargeStopHighTemperatureStop; // 37 Wiedereinschalttemperatur[C * 100]
418
419	int16_t dischargeStopLowTemperatureStart; // 38 Abschalttemperatur EntLadung wegen zu niedriger Temperatur
420	int16_t dischargeStopLowTemperatureStop; // 39 Wiedereinschalttemperatur
421
422
423
424	void AuxModeAlarmExec(void)
425	{
426	static int outputState=0;
427
428
429	if (
430	(sys_data.s.values.shuntTemperature > (chargeStopHighTemperatureStart - 500)) \|\|
431	(sys_data.s.values.chipTemperature > (chargeStopHighTemperatureStart - 500)) \|\|
432	(sys_data.s.values.shuntTemperature < (chargeStopLowTemperatureStart + 500)) \|\|
433	(sys_data.s.values.chipTemperature < (chargeStopLowTemperatureStart + 500)) \|\|
434	(sys_data.s.values.shuntTemperature > (dischargeStopHighTemperatureStart - 500)) \|\|
435	(sys_data.s.values.chipTemperature > (dischargeStopHighTemperatureStart - 500)) \|\|
436	(sys_data.s.values.shuntTemperature < (dischargeStopLowTemperatureStart + 500)) \|\|
437	(sys_data.s.values.chipTemperature < (dischargeStopLowTemperatureStart + 500)) \|\|
438	(sys_data.s.values.batteryCurrent > ((chargeCurrentLimit*1000LL) - 10000)) \|\|
439	(sys_data.s.values.batteryCurrent < ((loadCurrentLimit*1000LL) + 10000))
440
441	)
442	{
443	if ( outputState == 0)
444	{
445	printf("AUX on (Alarm Mode)\r\n");
446	outputState = 1;
447	if (sys_data.s.parameter.auxOutputInverted == 0)
448	{
449	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_SET);
450	}
451	else
452	{
453	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_RESET);
454	}
455	}
456	}
457	else // Alles OK
458	{
459	if ( outputState == 0)
460	{
461	printf("AUX off (Alarm Mode)\r\n");
462	outputState = 0;
463	if (sys_data.s.parameter.auxOutputInverted == 0)
464	{
465	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_RESET);
466	}
467	else
468	{
469	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_SET);
470	}
471	}
472	}
473	}
474
475
476	void OUTPUTS_CheckAUX(void)
477	{
478
479	switch (sys_data.s.parameter.auxOutputMode)
480	{
481	case AUX_MODE_OFF:
482	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_RESET);
483	break;
484
485	case AUX_MODE_HEATER:
486	AuxModeHeaterExec();
487	break;
488
489	case AUX_MODE_SOC:
490	AuxModeSOCExec();
491	break;
492
493	case AUX_MODE_ALARM:
494	AuxModeAlarmExec();
495	break;
496
497
498	default:
499	HAL_GPIO_WritePin(AUX_EN_GPIO_Port, AUX_EN_Pin, GPIO_PIN_RESET);
500	break;
501
502
503	}
504
505
506	}
507
508	/************************* End of file **************************/

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