FA.c 169 KB

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  1. /******************************************************************************
  2. 版权所有:
  3. 文件名称: vol_ls.c
  4. 文件版本: 01.01
  5. 创建作者: xxxxxx
  6. 创建日期: 2013-04-15
  7. 功能说明: 上电合闸、失压分闸、合环配网功能
  8. 其它说明:
  9. 修改记录:
  10. */
  11. /*------------------------------- 头文件 --------------------------------------
  12. */
  13. #include "head.h"
  14. const char *fa_s_status[]={"S_0",
  15. "S_INIT",
  16. "S_TEMP",
  17. "S_BSFLASH",
  18. "S_XTIME",
  19. "S_X_ZTIME",
  20. "S_BSXTIME",
  21. "S_YTIME",
  22. "S_Y_ZTIME",
  23. "S_BSYTIME",
  24. "S_USUAL",
  25. "S_BSDOUBLE",
  26. "S_BSHHGZ", //合后故障闭锁状态
  27. "S_BSFZ", //合后闭锁分闸状态
  28. "S_BSDL", //大电流闭锁分闸状态
  29. "S_BS_SW",
  30. "S_ERROR",
  31. };
  32. const char *fa_l_status[13]={"L_0",
  33. "L_INIT", //初始状态
  34. "L_BS_STATE", //联络闭锁,待双侧YL有压解锁
  35. "L_Y_ZTIME", //Y时限计数状态中发生的Z时限计数状态
  36. "L_USUAL", //正常运行状态
  37. "L_XLTIME", //X时限计数状态
  38. "L_XL_ZTIME", //X时限计数中发生的Z时限计数状态
  39. "L_RELAYON", //开关合运行状态
  40. "L_YL_TIME",}; //合闸成功Y计时
  41. //FA.h USDHZ_U
  42. const char *fa_run_falg_str[]={
  43. "UAB有压标志",
  44. "UBC有压标志",
  45. "UAB残压标志",
  46. "UBC残压标志",
  47. "上电记录标志 Uab1侧,电源侧",
  48. "有压标志",
  49. "两侧有压标志",
  50. "一侧失压标志",
  51. "对侧有压标志",
  52. "对侧有瞬时电压标志",
  53. "电源侧有压标志",
  54. "X时间闭锁",
  55. "Y时间闭锁",
  56. "瞬时加压闭锁",
  57. "双侧电源闭锁",
  58. "开关合命令标志",
  59. "告警动作",
  60. "合闸事件",
  61. "X闭锁事件",
  62. "Y闭锁事件"
  63. "瞬时电压闭锁事件 ",
  64. "双电源闭锁事件",
  65. "故障记忆",
  66. "接地记忆",
  67. "零序过压标志",
  68. "X 时间有U0"
  69. ,
  70. "失电过程中的Uab瞬压标志"
  71. ,
  72. "失电过程中的Ubc瞬压标志",
  73. "合闸事件",
  74. "状态保护标志",
  75. "上电记录标志",
  76. "暂态判断小电流接地",
  77. 0,
  78. };
  79. //FA.h UVOT_U
  80. const char *sw_u_str[]={
  81. "失压启动",
  82. "失压启动",
  83. "分闸",
  84. "合闸",
  85. "合后故障闭锁失压分闸标志",
  86. "合后故障闭锁失压分闸标志",
  87. "合后接地故障闭锁失压分闸标志",
  88. "过流启动",
  89. "闭锁",
  90. "保护退出 ",
  91. "保护退出",
  92. "bEvent"
  93. "计数完成",
  94. #if 1
  95. "跳闸2",
  96. "15",
  97. "16",
  98. "17",
  99. "18",
  100. "19",
  101. "20",
  102. "21",
  103. "22",
  104. "23",
  105. "24",
  106. "25",
  107. "26",
  108. "27",
  109. "28",
  110. "29",
  111. "30",
  112. "31",
  113. "32",
  114. #endif
  115. };
  116. //run_status.h USWST
  117. const char *sw_status_str[]={
  118. "重合闸分位信号",
  119. "重合闸合位信号",
  120. "外部开入合位",
  121. "外部开入分位",
  122. "未储能告警",
  123. "控制回路",
  124. "跳位有流告警",
  125. "三相无流",
  126. "手合加速",
  127. "上电加速 ",
  128. "智能分布式联络合闸,加速",
  129. "闭锁跳闸"
  130. "曾有压",
  131. #if 1
  132. "14",
  133. "15",
  134. "16",
  135. "17",
  136. "18",
  137. "19",
  138. "20",
  139. "21",
  140. "22",
  141. "23",
  142. "24",
  143. "25",
  144. "26",
  145. "27",
  146. "28",
  147. "29",
  148. "30",
  149. "31",
  150. "32",
  151. #endif
  152. 0,
  153. };
  154. #if defined FUNC_MODE_JS || defined FUNC_ONLY_MMD_JS
  155. bool gb_js_mode=false;
  156. #endif
  157. static void _volstu_update(void);
  158. static void _volstatus_init(void);
  159. #define FA_BSYTIME_JS //中山局正向闭锁后,不解锁直接来电合闸,合闸3S内两侧有压无故障则解除正向闭锁。如果两侧都闭锁则不执行来电合
  160. #define VOLSTATUS_FILE_VERSION 0X01010101 //文件版本
  161. //上电合闸状态存储数据文件头
  162. struct vol_file_head
  163. {
  164. struct cfg_file_head cfh; //配置文件头
  165. u32 addr; //起始地址
  166. u32 num; //存储总量
  167. u8 reserved[8];
  168. };
  169. u8 g_volfile_open=0;
  170. static u8 vol_filelen;
  171. char *g_volbuf;
  172. struct vol_stu g_vol_stu[SWITCH_NUM_MAX];
  173. struct file * gf_volstu;
  174. #if 0 // 板上瞬压板处理
  175. unsigned short fa_getUFDI(void)
  176. {
  177. unsigned int di=0;
  178. unsigned short ret=0;
  179. if( pRunSet->bTT_SY_Board)
  180. {
  181. di = gpio_get_di();
  182. }
  183. ret = (unsigned short)((di >> 15) & 0x0003); // YX16 Yx17为瞬压信号
  184. return ret;
  185. }
  186. TIMERELAY tUfdiTime;
  187. void fa_RstUFDI(DWORD dStep)
  188. {
  189. static bool brst=false;
  190. static DWORD rstUFDICounter=0;
  191. int ufdi=fa_getUFDI();
  192. RunTR(&tUfdiTime, (ufdi>0), dStep); //延迟 1秒 复归瞬压继电器,防止抖动
  193. if(tUfdiTime.boolTrip) brst=true;
  194. if(brst&&pRunSet->bTT_SY_Board)
  195. {
  196. gpio_pwm_do(1, 2); // PWM2 为复归瞬压信号的开出
  197. if(dTCounter-rstUFDICounter>=T_20ms) //开出20ms开出
  198. {
  199. gpio_pwm_do(0, 2); // PWM2 为复归瞬压信号的开出
  200. brst=false;
  201. rstUFDICounter=dTCounter;
  202. }
  203. }
  204. else
  205. {
  206. rstUFDICounter=dTCounter;
  207. }
  208. }
  209. #endif
  210. /**************************************************************************
  211. 函数名称:FA_Init
  212. 函数版本:1.00
  213. 作者: 电力产品开发部
  214. 创建日期:2011.10.28
  215. 函数功能说明:状态初始化
  216. 输入参数:
  217. 其他输入:
  218. 输出参数:
  219. 返回值:
  220. ***************************************************************************/
  221. void FA_Init(void)
  222. {
  223. u8 sw;
  224. //unsigned short ufdi;
  225. //bool bUab,bUbc;
  226. //ufdi=fa_getUFDI()&0x03;
  227. //bUab=(ufdi&0x01)?true:false;
  228. //bUbc=(ufdi&0x02)?true:false;
  229. for (sw=0; sw< SWITCH_NUM_MAX; sw++)
  230. {
  231. g_tRelay[sw].tSDHZ.S_Status = S_INIT;
  232. g_tRelay[sw].tSDHZ.L_Status = L_INIT;
  233. //g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bUabflashDI=bUab&&pRunSet->tSwSet[sw].bTT_FA;
  234. //g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bUbcflashDI=bUbc&&pRunSet->tSwSet[sw].bTT_FA;
  235. }
  236. //InitTR(&tUfdiTime, T_1s,0 );
  237. _volstatus_init();
  238. }
  239. static void dl_ope_event(int sw,int code,long v1,long v2,long v3)
  240. {
  241. int i;
  242. for(i=EV_FA_HZ;i<=EV_YK_FZ;i++)
  243. {
  244. if(i==code)
  245. {
  246. if(soe_check(i+sw*EV_SW_NUM)==false) //
  247. {
  248. soe_record_ev(i+sw*EV_SW_NUM, 1, v1,v2,v3 );
  249. }
  250. }
  251. else
  252. {
  253. if(soe_check(i+sw*EV_SW_NUM)==true) //
  254. {
  255. soe_record_ev(i+sw*EV_SW_NUM, 0, 0,0,0 );
  256. }
  257. }
  258. }
  259. }
  260. static bool fa_check_all_s_bs(int sw)
  261. {
  262. bool bY=false;
  263. bool bY1=false;
  264. TSETSW *pSet = &pRunSet->tSwSet[sw];
  265. bY=0
  266. ||soe_check(EV_BS_X_L+sw*EV_SW_NUM)
  267. ||soe_check(EV_BS_Y_L+sw*EV_SW_NUM)
  268. ||soe_check(EV_BS_X_P+sw*EV_SW_NUM)
  269. ||soe_check(EV_BS_Y_P+sw*EV_SW_NUM)
  270. ||(soe_check(EV_BS_U0+sw*EV_SW_NUM)&&pSet->bTT_fa_gzbshz)
  271. ||soe_check(EV_BS_HA+sw*EV_SW_NUM)
  272. ||soe_check(EV_BS_UF_P+sw*EV_SW_NUM)
  273. ||soe_check(EV_BSBE_U0+sw*EV_SW_NUM)
  274. ||(soe_check(EV_HHGZ+sw*EV_SW_NUM)&&pSet->bTT_fa_gzbshz)
  275. ||soe_check(EV_BS_FZMORE+sw*EV_SW_NUM)
  276. ||soe_check(EV_BS_UF_L+sw*EV_SW_NUM)
  277. ||soe_check(EV_GOOSE_GZBS_FA)// goose故障闭锁
  278. ||soe_check(EV_GOOSE_TZBS_FA)// goose故障闭锁
  279. #ifdef FA_OC_COUNT
  280. ||soe_check(EV_BS_OC_COUNT+sw*EV_SW_NUM)// 过流脉冲计数闭锁
  281. #endif
  282. #ifdef YK_FA_ENBLE
  283. ||soe_check(EV_YK_BS_FA+sw*EV_SW_NUM) // 遥控闭锁FA
  284. #endif
  285. #ifndef GD_AREA_ECZD_MEIZHOU_2021
  286. || g_tRelay[sw].tPLJL.bLed //解裂动作后需闭锁合闸
  287. #endif
  288. || g_tRelay[sw].tDYJL.bLed; //解裂动作后需闭锁合闸
  289. //||soe_check(EV_BS_DB+sw*EV_SW_NUM); //广西双电源不点闭锁灯
  290. bY1=soe_check(EV_BS_DB+sw*EV_SW_NUM);
  291. if(bY||bY1)
  292. {
  293. if(soe_check(EV_BS_ALL+sw*EV_SW_NUM)==false)
  294. {
  295. soe_record_ev(EV_BS_ALL+sw*EV_SW_NUM, 1, 0,0,0 );
  296. }
  297. }
  298. else
  299. {
  300. if(soe_check(EV_BS_ALL+sw*EV_SW_NUM)==true)
  301. {
  302. soe_record_ev(EV_BS_ALL+sw*EV_SW_NUM, 0, 0,0,0 );
  303. }
  304. }
  305. //return(bY; // 广西FA 双电源闭锁,不点闭锁灯
  306. return (bY||bY1);
  307. }
  308. /**************************************************************************
  309. 函数名称:Pro_LS_LED
  310. 函数版本:1.00
  311. 作者: 电力产品开发部
  312. 创建日期:2011.10.28
  313. 函数功能说明:VSP5开关LED灯处理
  314. 输入参数:
  315. 其他输入:
  316. 输出参数:
  317. 返回值:
  318. ***************************************************************************/
  319. static void fa_ls_led(int sw, bool bFA_L)
  320. {
  321. TSDHZ_T *pSW = &g_tRelay[sw].tSDHZ;
  322. if(!bFA_L)
  323. {
  324. if (pSW->S_Status == S_XTIME)
  325. led_set_sw(sw,SW_LED_XT, LED_ON);
  326. else
  327. led_set_sw(sw,SW_LED_XT, LED_OFF);
  328. if (pSW->S_Status == S_YTIME)
  329. led_set_sw(sw,SW_LED_YT, LED_ON);
  330. else
  331. led_set_sw(sw,SW_LED_YT, LED_OFF);
  332. if(pSW->S_Status == S_XTIME)
  333. led_set_sw(sw,SW_LED_X_YT, LED_ON);
  334. else if(pSW->S_Status == S_YTIME)
  335. led_set_sw(sw,SW_LED_X_YT, LED_QUICK);
  336. else
  337. led_set_sw(sw,SW_LED_X_YT, LED_OFF);
  338. //if(fa_check_all_s_bs(sw))
  339. // led_set_sw(sw,SW_LED_LOCK, LED_ON);
  340. //else
  341. // led_set_sw(sw,SW_LED_LOCK, LED_OFF);
  342. }
  343. else
  344. {
  345. if (pSW->L_Status == L_XLTIME)
  346. led_set_sw(sw,SW_LED_XT, LED_ON);
  347. else
  348. led_set_sw(sw,SW_LED_XT, LED_OFF);
  349. if (((pSW->L_Status == L_BS_STATE) || (pSW->L_Status == L_Y_ZTIME)||(pSW->L_Status == L_YL_TIME) ) && (!pSW->uSdhz_L.bFlag.bLockUFlash))
  350. led_set_sw(sw,SW_LED_YT, LED_ON);
  351. else
  352. led_set_sw(sw,SW_LED_YT, LED_OFF);
  353. if(pSW->L_Status == L_XLTIME)
  354. led_set_sw(sw,SW_LED_X_YT, LED_ON);
  355. else if (((pSW->L_Status == L_BS_STATE) ||(pSW->L_Status == L_Y_ZTIME)||(pSW->L_Status == L_YL_TIME) ) && (!pSW->uSdhz_L.bFlag.bLockUFlash))
  356. led_set_sw(sw,SW_LED_X_YT, LED_QUICK);
  357. else
  358. led_set_sw(sw,SW_LED_X_YT, LED_OFF);
  359. if(pSW->L_Status == L_USUAL)
  360. {
  361. led_set_sw(sw,SW_LED_XT, LED_OFF);
  362. led_set_sw(sw,SW_LED_YT, LED_OFF);
  363. led_set_sw(sw,SW_LED_X_YT, LED_OFF);
  364. }
  365. //if (pSW->uSdhz_L.bFlag.bLockY)
  366. // led_set_sw(sw,SW_LED_LOCK, LED_ON);
  367. //else
  368. // led_set_sw(sw,SW_LED_LOCK, LED_OFF);
  369. }
  370. }
  371. /**************************************************************************
  372. 函数名称:Pro_UF_Clear
  373. 函数版本:1.00
  374. 作者: 电力产品开发部
  375. 创建日期:2011.10.28
  376. 函数功能说明:瞬时电压标志处理
  377. 输入参数:
  378. 其他输入:
  379. 输出参数:
  380. 返回值:
  381. ***************************************************************************/
  382. static void fa_uf_set(int sw, bool bSW_LL, DWORD dStep)
  383. {
  384. bool bY1,bY2;
  385. TRELAY_T *pR=&g_tRelay[sw];
  386. TSWST *pSWST =&pR->tSWST;
  387. TSDHZ_T *pSW=&pR->tSDHZ;
  388. TSETSW *pSet = &pRunSet->tSwSet[sw];
  389. #ifdef FA_PL_PJ
  390. bool bFreq0,bFreq1;
  391. float freq0,freq1;
  392. #endif
  393. //频率在要求范围内
  394. #ifdef FA_PL_PJ
  395. if(pRunSet->bTT_judgeFreq)
  396. {
  397. freq0=freq_get(0);
  398. freq1=freq_get(1);
  399. //电源1频率判断
  400. if((freq0>=48.9) && (freq0<=50.9))
  401. {
  402. bFreq0 = true;
  403. }
  404. else
  405. {
  406. bFreq0 = false;
  407. }
  408. //电源2频率判断
  409. if((freq1>=48.9) && (freq1<=50.9))
  410. {
  411. bFreq1 = true;
  412. }
  413. else
  414. {
  415. bFreq1 = false;
  416. }
  417. if(bSW_LL)
  418. {
  419. RunTR(&pSW->tFREQAB25ms_LCY, bFreq0, dStep);
  420. RunTR(&pSW->tFREQBC25ms_LCY, bFreq1, dStep);
  421. }
  422. else
  423. {
  424. RunTR(&pSW->tFREQAB25ms_SCY, bFreq0, dStep);
  425. RunTR(&pSW->tFREQBC25ms_SCY, bFreq1, dStep);
  426. }
  427. }
  428. #endif
  429. #ifdef FA_PL_PJ
  430. if(pRunSet->bTT_judgeFreq)
  431. {
  432. if(bSW_LL)
  433. {
  434. #ifdef GD_AREA_LIAONING_2021
  435. bY1 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_UF, pSet->dU_UF, 0)&&pSW->tFREQAB25ms_LCY.boolTrip&&pR->run_stu.fa_start_hz;// 电源1瞬压
  436. bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_UF2, pSet->dU_UF2, 0)&&pSW->tFREQBC25ms_LCY.boolTrip;// 电源2瞬压
  437. #else
  438. bY1 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_UF, pSet->dU_UF, 0)&&pSW->tFREQAB25ms_LCY.boolTrip;// 电源1瞬压
  439. bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_UF2, pSet->dU_UF2, 0)&&pR->run_stu.fa_start_hz&&pSW->tFREQBC25ms_LCY.boolTrip;// 电源2瞬压
  440. #endif
  441. }
  442. else
  443. {
  444. #ifdef GD_AREA_LIAONING_2021
  445. bY1 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_UF, pSet->dU_UF, 0)&&pSW->tFREQAB25ms_SCY.boolTrip&&pR->run_stu.fa_start_hz;// 电源1瞬压
  446. bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_UF2, pSet->dU_UF2, 0)&&pSW->tFREQBC25ms_SCY.boolTrip;// 电源2瞬压
  447. #else
  448. bY1 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_UF, pSet->dU_UF, 0)&&pSW->tFREQAB25ms_SCY.boolTrip;// 电源1瞬压
  449. bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_UF2, pSet->dU_UF2, 0)&&pR->run_stu.fa_start_hz&&pSW->tFREQBC25ms_SCY.boolTrip;// 电源2瞬压
  450. #endif
  451. }
  452. }
  453. else
  454. {
  455. #ifdef GD_AREA_LIAONING_2021
  456. bY1 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_UF, pSet->dU_UF, 0)&&pR->run_stu.fa_start_hz;// 电源1瞬压
  457. bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_UF2, pSet->dU_UF2, 0);// 电源2瞬压
  458. #else
  459. bY1 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_UF, pSet->dU_UF, 0);// 电源1瞬压
  460. bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_UF2, pSet->dU_UF2, 0)&&pR->run_stu.fa_start_hz;// 电源2瞬压
  461. #endif
  462. }
  463. #else
  464. bY1 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_UF, pSet->dU_UF, 0);// 电源1瞬压
  465. bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_UF2, pSet->dU_UF2, 0)&&pR->run_stu.fa_start_hz;// 电源2瞬压
  466. #endif
  467. if(bSW_LL)
  468. {
  469. RunTR(&pSW->tUFABL25ms, !bY1, dStep); //确认从无压到有压
  470. RunTR(&pSW->tUFBCL25ms, !bY2, dStep);
  471. RunTR(&pSW->tUFABL80ms, (bY1 && pSW->tUFABL25ms.boolTrip), dStep);
  472. RunTR(&pSW->tUFBCL80ms, (bY2 && pSW->tUFBCL25ms.boolTrip), dStep);
  473. pSW->uSdhz_L.bFlag.bUABFlash = ((pSW->tUFABL80ms.boolTrip&&(!bY1)&&pSW->uSdhz_L.bFlag.bUBCYY)
  474. ||pSW->uSdhz_L.bFlag.bUABFlash)&&pSet->bTT_fa_cybs;
  475. pSW->uSdhz_L.bFlag.bUBCFlash = ((pSW->tUFBCL80ms.boolTrip&&(!bY2)&&pSW->uSdhz_L.bFlag.bUABYY)
  476. ||pSW->uSdhz_L.bFlag.bUBCFlash)&&pSet->bTT_fa_cybs;
  477. }
  478. else
  479. {
  480. RunTR(&pSW->tUFABS25ms, !bY1, dStep);
  481. RunTR(&pSW->tUFBCS25ms, !bY2, dStep);
  482. RunTR(&pSW->tUFABS80ms, (bY1 && pSW->tUFABS25ms.boolTrip&&pSWST->uSWST.bFlag.bDITW), dStep);
  483. RunTR(&pSW->tUFBCS80ms, (bY2 && pSW->tUFBCS25ms.boolTrip&&pSWST->uSWST.bFlag.bDITW), dStep);
  484. pSW->uSdhz_S.bFlag.bUABFlash = ((pSW->tUFABS80ms.boolTrip&&(!bY1)&& pSWST->uSWST.bFlag.bDITW)
  485. || pSW->uSdhz_S.bFlag.bUABFlash)&&pSet->bTT_fa_cybs;
  486. pSW->uSdhz_S.bFlag.bUBCFlash = ((pSW->tUFBCS80ms.boolTrip&&(!bY2)&&pSWST->uSWST.bFlag.bDITW)
  487. || pSW->uSdhz_S.bFlag.bUBCFlash)&&pSet->bTT_fa_cybs;//&&pR->run_stu.fa_start_hz;
  488. }
  489. }
  490. static void fa_uf_clear(int sw, bool bSW_LL)
  491. {
  492. TSDHZ_T *pSW=&g_tRelay[sw].tSDHZ;
  493. if(bSW_LL)
  494. {
  495. ResetTR(&pSW->tUFABL25ms); //清零
  496. ResetTR(&pSW->tUFBCL25ms); //清零
  497. ResetTR(&pSW->tUFABL80ms); //清零
  498. ResetTR(&pSW->tUFBCL80ms); //清零
  499. #ifdef FA_PL_PJ
  500. ResetTR(&pSW->tFREQAB25ms_LCY);
  501. ResetTR(&pSW->tFREQBC25ms_LCY);
  502. #endif
  503. pSW->uSdhz_L.bFlag.bUABFlash = false;
  504. pSW->uSdhz_L.bFlag.bUBCFlash = false;
  505. }
  506. else
  507. {
  508. ResetTR(&pSW->tUFABS25ms);
  509. ResetTR(&pSW->tUFBCS25ms);
  510. ResetTR(&pSW->tUFABS80ms);
  511. ResetTR(&pSW->tUFBCS80ms);
  512. #ifdef FA_PL_PJ
  513. ResetTR(&pSW->tFREQAB25ms_SCY);
  514. ResetTR(&pSW->tFREQBC25ms_SCY);
  515. #endif
  516. pSW->uSdhz_S.bFlag.bUABFlash = false;
  517. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  518. pSW->uSdhz_S.bFlag.bUabflashDI=false;
  519. pSW->uSdhz_S.bFlag.bUbcflashDI=false;
  520. }
  521. }
  522. /**************************************************************************
  523. 函数名称:Pro_CLOSE_LED
  524. 函数版本:1.00
  525. 作者: 电力产品开发部
  526. 创建日期:2011.10.28
  527. 函数功能说明:VSP5关LED灯
  528. 输入参数:
  529. 其他输入:
  530. 输出参数:
  531. 返回值:
  532. ***************************************************************************/
  533. static void fa_close_led(int sw)
  534. {
  535. led_set_sw(sw,SW_LED_XT, LED_OFF);
  536. led_set_sw(sw,SW_LED_YT, LED_OFF);
  537. led_set_sw(sw,SW_LED_LOCK, LED_OFF);
  538. led_set_sw(sw,SW_LED_JD, LED_OFF);
  539. led_set_sw(sw,SW_LED_GL, LED_OFF);
  540. led_set_sw(sw,SW_LED_DZ, LED_OFF);
  541. led_set_sw(sw,SW_LED_TZ, LED_OFF);
  542. g_tRelay[sw].run_stu.dz=0;
  543. g_tRelay[sw].tU0TZ.bU0Led=false;
  544. g_tRelay[sw].tOC[FA_GL].sta.bFlag.bDzLed = false;
  545. g_tRelay[sw].tOC[FA_GL].sta.bFlag.bGj = false;
  546. g_tRelay[sw].tOC[FA_GL_II].sta.bFlag.bDzLed = false;
  547. g_tRelay[sw].tOC[FA_GL_II].sta.bFlag.bGj = false;
  548. g_tRelay[sw].tOC[FA_GL2].sta.bFlag.bDzLed = false;
  549. g_tRelay[sw].tOC[FA_GL2].sta.bFlag.bGj = false;
  550. g_tRelay[sw].tOC[FA_LX].sta.bFlag.bDzLed = false;
  551. g_tRelay[sw].tOC[FA_LX].sta.bFlag.bGj = false;
  552. g_tRelay[sw].tOC[FA_LX2].sta.bFlag.bDzLed = false;
  553. g_tRelay[sw].tOC[FA_LX2].sta.bFlag.bGj = false;
  554. }
  555. void fa_s_set_savestatus(int sw)
  556. {
  557. TRELAY_T *pR=&g_tRelay[sw];
  558. TSDHZ_T *pSW =&pR->tSDHZ;
  559. pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  560. }
  561. //谐波含量
  562. bool fa_XBCalc(int sw,DWORD Iset)
  563. {
  564. TSETSW *pSet = &pRunSet->tSwSet[sw];
  565. TRELAY_T *pR=&g_tRelay[sw];
  566. int index=0;
  567. if(FA_ALL_EN(sw)&&pSet->bTT_fa_xbbs)
  568. {
  569. for(index=0;index<3;index++)
  570. {
  571. if(( g_ui[UI_SW_INDEX(sw,SW_AC_IA+index)].m2[0] > Iset) && ( g_ui[UI_SW_INDEX(sw,SW_AC_IA+index)].m2[1] > pR->tSWST.uSWST.bFlag.bFAWL)) // I 与 Ixb2 均应大于无流定值
  572. {
  573. if( g_ui[UI_SW_INDEX(sw,SW_AC_IA+index)].m2[1] > _MulFac_U(g_ui[UI_SW_INDEX(sw,SW_AC_IA+index)].m2[0], pSet->d_fa_xbcoe ))
  574. return(true);
  575. }
  576. }
  577. }
  578. return(false);
  579. }
  580. void run_vol_refersh(int sw, DWORD dStep)
  581. {
  582. bool bY2, bY3,bQDD1,bQDD2;
  583. #ifdef FUNC_NYY_NWY
  584. bool bY2_n=0,bY3_n=0;
  585. #endif
  586. TRELAY_T *pR=&g_tRelay[sw];
  587. TSDHZ_T *pSW =&pR->tSDHZ;
  588. TSETSW *pSet = &pRunSet->tSwSet[sw];
  589. DWORD Us1,Us2;
  590. int ui_begin;
  591. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  592. bool bY4, bY5;
  593. #endif
  594. //用于保存故障断面
  595. ui_begin = UI_SW_INDEX_BEGIN(sw);
  596. if(pRunSet->bTT_UYYmin)
  597. {
  598. Us1 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_min[2]), 256, pRunSet->dKU[PUB_AC_UAB1]);
  599. Us2 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_min[3]), 256, pRunSet->dKU[pRunSet->pt2vol]);
  600. }
  601. else
  602. {
  603. Us1 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[2]), 256, pRunSet->dKU[PUB_AC_UAB1]);
  604. Us2 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[3]), 256, pRunSet->dKU[pRunSet->pt2vol]);
  605. }
  606. //有压检测
  607. // 电源1上电合闸
  608. if(pRunSet->bTT_UYYmin)
  609. {
  610. bY2 = OverRelay(g_sw_pub.m2_min[2], pSet->dU_fa_YY, pSet->dU_fa_YY_fh, pSW->uSdhz_S.bFlag.bUABYY);
  611. #ifdef FUNC_NYY_NWY
  612. bY2_n = (((g_sw_pub.m2_min[2] > pSet->dU_fa_WY) && (g_sw_pub.m2_min[2] < pSet->dU_fa_YY))?true:false)
  613. || (tPT.uPT1DX.bFlag.bQD && pSW->uSdhz_S.bFlag.bUBCYY)
  614. ;
  615. #endif
  616. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  617. pSW->uSdhz_S.bFlag.bHzEnable_P = true;
  618. if(pSW->uSdhz_S.bFlag.bBsXtime_P)
  619. pSW->uSdhz_S.bFlag.bHzEnable_P = false;
  620. bY4 = LowRelay(g_sw_pub.m2_max[2], pSet->dU_fa_YY, pSet->dU_fa_YY_fh, pSW->uSdhz_S.bFlag.bUABYY);
  621. if(bY4 && pSW->uSdhz_S.bFlag.bBsXtime_P)
  622. {
  623. pSW->uSdhz_S.bFlag.bHzEnable_P = true;
  624. pSW->uSdhz_S.bFlag.bBsXtime_P = false;
  625. }
  626. #endif
  627. }
  628. else
  629. {
  630. bY2 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_fa_YY, pSet->dU_fa_YY_fh, pSW->uSdhz_S.bFlag.bUABYY);
  631. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  632. pSW->uSdhz_S.bFlag.bHzEnable_P = true;
  633. pSW->uSdhz_S.bFlag.bHzEnable_L = true;
  634. #endif
  635. }
  636. RunTR(&pSW->tUABS25ms, bY2, dStep);
  637. #ifdef FUNC_NYY_NWY
  638. RunTR(&pSW->tUABS_NYY_NWY_50ms, bY2_n, dStep);
  639. pSW->uSdhz_S.bFlag.bUAB_NYY_NWY = pSW->tUABS_NYY_NWY_50ms.boolTrip;
  640. #endif
  641. #if defined GD_AREA_LIAONING_2021
  642. pSW->uSdhz_S.bFlag.bUABYY = pSW->tUABS25ms.boolTrip && pR->run_stu.fa_start_hz;
  643. #else
  644. pSW->uSdhz_S.bFlag.bUABYY = pSW->tUABS25ms.boolTrip;
  645. #endif
  646. if(soe_check(EV_YY_P+sw*EV_SW_NUM)!=pSW->uSdhz_S.bFlag.bUABYY)//记录SOE
  647. soe_record_ev(EV_YY_P+sw*EV_SW_NUM, pSW->uSdhz_S.bFlag.bUABYY, Us1,Us2,0 );
  648. // 电源2上电合闸
  649. if(pRunSet->bTT_UYYmin)
  650. {
  651. bY3 = OverRelay(g_sw_pub.m2_min[3], pSet->dU_fa_YY2, pSet->dU_fa_YY2_fh, pSW->uSdhz_S.bFlag.bUBCYY) ;
  652. #ifdef FUNC_NYY_NWY
  653. bY3_n = (((g_sw_pub.m2_min[3] > pSet->dU_fa_WY2) && (g_sw_pub.m2_min[3] < pSet->dU_fa_YY2))?true:false)
  654. || (tPT.uPT2DX.bFlag.bQD && pSW->uSdhz_S.bFlag.bUABYY)
  655. ;
  656. #endif
  657. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  658. pSW->uSdhz_S.bFlag.bHzEnable_L = true;
  659. if(pSW->uSdhz_S.bFlag.bBsXtime_L)
  660. pSW->uSdhz_S.bFlag.bHzEnable_L = false;
  661. bY5 = LowRelay(g_sw_pub.m2_max[3], pSet->dU_fa_YY2, pSet->dU_fa_YY2_fh, pSW->uSdhz_S.bFlag.bUBCYY);
  662. if(bY5 && pSW->uSdhz_S.bFlag.bBsXtime_L)
  663. {
  664. pSW->uSdhz_S.bFlag.bHzEnable_L = true;
  665. pSW->uSdhz_S.bFlag.bBsXtime_L = false;
  666. }
  667. #endif
  668. }
  669. else
  670. {
  671. bY3 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_fa_YY2, pSet->dU_fa_YY2_fh, pSW->uSdhz_S.bFlag.bUBCYY) ;
  672. }
  673. RunTR(&pSW->tUBCS25ms, bY3, dStep);
  674. #ifdef FUNC_NYY_NWY
  675. RunTR(&pSW->tUBCS_NYY_NWY_50ms, bY3_n, dStep);
  676. pSW->uSdhz_S.bFlag.bUBC_NYY_NWY = pSW->tUBCS_NYY_NWY_50ms.boolTrip;
  677. #endif
  678. #if defined GD_AREA_LIAONING_2021
  679. pSW->uSdhz_S.bFlag.bUBCYY = pSW->tUBCS25ms.boolTrip;
  680. #else
  681. pSW->uSdhz_S.bFlag.bUBCYY = pSW->tUBCS25ms.boolTrip && pR->run_stu.fa_start_hz;
  682. #endif
  683. if(soe_check(EV_YY_L+sw*EV_SW_NUM)!=pSW->uSdhz_S.bFlag.bUBCYY)//记录SOE
  684. soe_record_ev(EV_YY_L+sw*EV_SW_NUM, pSW->uSdhz_S.bFlag.bUBCYY, Us1,Us2,0 );
  685. //曾有压标志
  686. if( pSW->uSdhz_S.bFlag.bUABYY || pSW->uSdhz_S.bFlag.bUBCYY)
  687. pSW->uSdhz_S.bFlag.bCYY = TRUE;
  688. //两侧有压
  689. pSW->uSdhz_S.bFlag.bDBYY = pSW->uSdhz_S.bFlag.bUABYY && pSW->uSdhz_S.bFlag.bUBCYY;//双侧有压直接赋值,不需等待稳定时间
  690. //停电时间Z
  691. pR->tSWST.uSWST.bFlag.bFAWL = LowRelay(g_sw[sw].m2_max, pSet->dT_wldz,pSet->dT_wldz,false);
  692. #if defined GD_AREA_LIAONING_2021
  693. bQDD1 = LowRelay(g_sw_pub.m2_max[2], pSet->dU_fa_WY, pSet->dU_fa_WY_fh, false) || !pR->run_stu.fa_start_hz;
  694. bQDD2 = LowRelay(g_sw_pub.m2_max[3], pSet->dU_fa_WY2, pSet->dU_fa_WY2_fh, false);
  695. #else
  696. bQDD1 = LowRelay(g_sw_pub.m2_max[2], pSet->dU_fa_WY, pSet->dU_fa_WY_fh, false);
  697. bQDD2 = LowRelay(g_sw_pub.m2_max[3], pSet->dU_fa_WY2, pSet->dU_fa_WY2_fh, false) || !pR->run_stu.fa_start_hz;
  698. #endif
  699. RunTR(&pR->tLostVot.tLostVotTime, bQDD1 && bQDD2&&pSet->bTT_fa_Lostfz && pR->tSWST.uSWST.bFlag.bFAWL, dStep);
  700. pSW->uSdhz_S.bFlag.bPowerZ=pSW->uSdhz_L.bFlag.bPowerZ = pR->tLostVot.tLostVotTime.boolTrip
  701. && !pSW->uSdhz_S.bFlag.bUABYY && !pSW->uSdhz_S.bFlag.bUBCYY //两侧无压
  702. //&& pR->tSWST.uSWST.bFlag.bHZWZ //在合闸位置
  703. //&& pR->tSWST.uSWST.bFlag.bSXWL; //三相无流
  704. && pSW->uSdhz_S.bFlag.bCYY;
  705. if(soe_check(EV_Z_TIME+sw*EV_SW_NUM)!=pSW->uSdhz_S.bFlag.bPowerZ)//记录SOE
  706. soe_record_ev(EV_Z_TIME+sw*EV_SW_NUM, pSW->uSdhz_S.bFlag.bPowerZ, Us1,Us2,0 );
  707. }
  708. void fa_s_Dataset(int sw, DWORD dStep)
  709. {
  710. bool bY1;//, bY2, bY3,bQDD1,bQDD2;
  711. TRELAY_T *pR=&g_tRelay[sw];
  712. TSDHZ_T *pSW =&pR->tSDHZ;
  713. TSETSW *pSet = &pRunSet->tSwSet[sw];
  714. bool bgl,bjd=false;
  715. DWORD Us1,Us2;
  716. DWORD Ia,Ib,Ic;
  717. DWORD I0,U0;
  718. int ui_begin;
  719. bool xbQD1=false;
  720. DWORD U01,U02;
  721. #if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 || defined GD_AREA_MAIN_2020
  722. bool xbQD2=false;
  723. #endif
  724. bool xbAll=false;
  725. //用于保存故障断面
  726. ui_begin = UI_SW_INDEX_BEGIN(sw);
  727. Us1 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[2]), 256, pRunSet->dKU[PUB_AC_UAB1]);
  728. Us2 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[3]), 256, pRunSet->dKU[pRunSet->pt2vol]);
  729. Ia = _Mul_Div_U(sqrt_32fix(g_ui[ui_begin + SW_AC_IA].m2[0]), 256, g_ui[ui_begin + SW_AC_IA].m2_factor_k);
  730. Ib = _Mul_Div_U(sqrt_32fix(g_ui[ui_begin + SW_AC_IB].m2[0]), 256, g_ui[ui_begin + SW_AC_IB].m2_factor_k);
  731. Ic = _Mul_Div_U(sqrt_32fix(g_ui[ui_begin + SW_AC_IC].m2[0]), 256, g_ui[ui_begin + SW_AC_IC].m2_factor_k);
  732. I0 = _Mul_Div_U(sqrt_32fix(g_ui[ui_begin + SW_AC_I0].m2[0]), 256, g_ui[ui_begin + SW_AC_I0].m2_factor_k);
  733. U0 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U01].m2[0]), 256, g_ui[PUB_AC_U01].m2_factor_k);
  734. U01 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U01].m2[0]), 256, g_ui[PUB_AC_U01].m2_factor_k);
  735. U02 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U02].m2[0]), 256, g_ui[PUB_AC_U02].m2_factor_k);
  736. //遮断电流
  737. bgl = OverRelay(g_sw[sw].m2_max, pSet->toc[FA_DLBS].dI, pSet->toc[FA_DLBS].dI_fh, 0);//
  738. RunTR(&g_tRelay[sw].tOC[FA_DLBS].tQDTime,bgl && !pR->tSWST.uSWST.bFlag.bFAWL, dStep);
  739. pR->bBSTZ = g_tRelay[sw].tOC[FA_DLBS].tQDTime.boolTrip&&pSet->toc[FA_DLBS].bTz;
  740. pR->tOC[FA_DLBS].sta.bFlag.bGj = pR->tOC[FA_DLBS].sta.bFlag.bTz =pR->tOC[FA_DLBS].sta.bFlag.bDzLed = pR->bBSTZ;
  741. if(soe_check(EV_BSTZ+sw*EV_SW_NUM)!=pR->bBSTZ)//记录SOE
  742. soe_record_ev(EV_BSTZ+sw*EV_SW_NUM, pR->bBSTZ, Ia,Ib,Ic );
  743. //相间故障谐波
  744. xbQD1 = fa_XBCalc(sw,pSet->toc[FA_GL].dI);
  745. RunTR(&g_tRelay[sw].tOC[FA_GL].tXBTime, xbQD1, dStep);//谐波含量
  746. //xbQD1 = g_tRelay[sw].tOC[FA_GL].tXBTime.boolTrip;
  747. #if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 || defined GD_AREA_MAIN_2020
  748. xbQD2 = fa_XBCalc(sw,pSet->toc[FA_GL_II].dI);
  749. RunTR(&g_tRelay[sw].tOC[FA_GL_II].tXBTime, xbQD2, dStep);//谐波含量
  750. //xbQD2 = g_tRelay[sw].tOC[FA_GL_II].tXBTime.boolTrip;
  751. #else
  752. g_tRelay[sw].tOC[FA_GL_II].tXBTime.boolTrip=false;
  753. #endif
  754. xbAll = (g_tRelay[sw].tOC[FA_GL].tXBTime.boolTrip||g_tRelay[sw].tOC[FA_GL_II].tXBTime.boolTrip);
  755. if(FA_ALL_EN(sw))
  756. {
  757. if(soe_check(EV_XBBS+sw*EV_SW_NUM)!=xbAll) //记录谐波SOE
  758. {
  759. if(pSW->S_Status==S_YTIME || pSW->L_Status==L_YL_TIME)//非Y时限内,不产生谐波闭锁SOE
  760. soe_record_ev(EV_XBBS+sw*EV_SW_NUM, xbAll, 0,0,0 );
  761. else if(soe_check(EV_XBBS+sw*EV_SW_NUM))
  762. soe_record_ev(EV_XBBS+sw*EV_SW_NUM, 0, 0,0,0 );
  763. }
  764. }
  765. //相间故障
  766. bgl = OverRelay(g_sw[sw].m2_max, pSet->toc[FA_GL].dI, pSet->toc[FA_GL].dI_fh, pSW->uSdhz_S.bFlag.bGL) && (pSet->bTT_fa_Icheck||pSet->toc[FA_GL].bTz);//
  767. pR->tOC[FA_GL].sta.bFlag.bQD = bgl; // add xxxxxx 20220705 需要置上启动标志,否则会启动后马上进入整组复归
  768. #ifdef EV_GL_STATR
  769. gl_start_soe_set( bgl,sw,EV_FA_GL_START);
  770. #endif
  771. RunTR(&pSW->tGZJYRstGLTime, bgl&&!xbQD1 ,dStep); //跳闸位置、超过故障记忆过流复归时间,清跳闸次数
  772. pSW->uSdhz_S.bFlag.bGL=pSW->uSdhz_L.bFlag.bGL = pSW->tGZJYRstGLTime.boolTrip && !xbQD1;//时间&&谐波含量
  773. //#if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 //潮州局要求合后电流两段处理
  774. #if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 || defined GD_AREA_MAIN_2020
  775. //相间II段故障
  776. bgl = OverRelay(g_sw[sw].m2_max, pSet->toc[FA_GL_II].dI, pSet->toc[FA_GL_II].dI_fh, pSW->uSdhz_S.bFlag.bGL_II) && (pSet->bTT_fa_Icheck||pSet->toc[FA_GL_II].bTz);//
  777. RunTR(&pSW->tGZJYRstGL_II_Time, bgl&&!xbQD2,dStep); //跳闸位置、超过故障记忆过流复归时间,清跳闸次数
  778. pSW->uSdhz_S.bFlag.bGL_II=pSW->uSdhz_L.bFlag.bGL_II = pSW->tGZJYRstGL_II_Time.boolTrip && !xbQD2;//时间&&谐波含量
  779. pR->tOC[FA_GL_II].sta.bFlag.bQD = bgl; // add xxxxxx 20220705 需要置上启动标志,否则会启动后马上进入整组复归
  780. #ifdef GD_AREA_ECZD_2020
  781. gl_start_soe_set( bgl,sw,EV_FA_GL2_START);
  782. #endif
  783. #else
  784. pSW->uSdhz_S.bFlag.bGL_II=pSW->uSdhz_L.bFlag.bGL_II=0;
  785. #endif
  786. //相间告警
  787. #ifdef GD_AREA_ECZD_2020
  788. bgl = OverRelay(g_sw[sw].m2_max, pSet->toc[FA_GL2].dI, pSet->toc[FA_GL2].dI_fh, pSW->uSdhz_S.bFlag.bGL2)
  789. &&(LowRelay(g_sw_pub.m2_min[2], pSet->toc[FA_GL2].dU, pSet->toc[FA_GL2].dU_fh, pSW->uSdhz_S.bFlag.bGL2)||OverRelay(Us1_120.vect2, pSet->toc[FA_GL2].dU2, pSet->toc[FA_GL2].dU2_fh, pSW->uSdhz_S.bFlag.bGL2))
  790. &&(pSet->bTT_fa_gl2);
  791. #else
  792. bgl = OverRelay(g_sw[sw].m2_max, pSet->toc[FA_GL2].dI, pSet->toc[FA_GL2].dI_fh, pSW->uSdhz_S.bFlag.bGL2)&&(pSet->bTT_fa_gl2);
  793. #endif
  794. pR->tOC[FA_GL2].sta.bFlag.bQD = bgl; // add xxxxxx 20220705 需要置上启动标志,否则会启动后马上进入整组复归
  795. #ifdef FUN_JDXX
  796. bjd |= ((soe_check(EV_JDXX_TZ+sw*EV_SW_NUM) || soe_check(EV_JDXX_GJ+sw*EV_SW_NUM)) ? true : false);
  797. #endif
  798. RunTR(&pSW->tGZJYRstGL2Time, bgl,dStep); //跳闸位置、超过故障记忆过流复归时间,清跳闸次数
  799. pSW->uSdhz_S.bFlag.bGL2 = pSW->tGZJYRstGL2Time.boolTrip;
  800. pR->tOC[FA_GL2].sta.bFlag.bGj = pR->tOC[FA_GL2].sta.bFlag.bGjLed = pSW->uSdhz_S.bFlag.bGL2;
  801. if(soe_check(EV_FA_GL_GJ+sw*EV_SW_NUM)!=pSW->uSdhz_S.bFlag.bGL2)//记录SOE
  802. soe_record_ev(EV_FA_GL_GJ+sw*EV_SW_NUM, pSW->uSdhz_S.bFlag.bGL2, Ia,Ib,Ic );
  803. if(soe_check(EV_FA_GL_TZ+sw*EV_SW_NUM)&& !soe_check(EV_FA_GL_GJ+sw*EV_SW_NUM))
  804. {
  805. soe_record_ev(EV_FA_GL_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  806. }
  807. //接地故障
  808. bjd = OverRelay(g_ui[UI_SW_INDEX(sw,SW_AC_I0)].m2[0], pSet->toc[FA_LX].dI, pSet->toc[FA_LX].dI_fh,pSW->uSdhz_S.bFlag.bJD) && (pSet->bTT_fa_Icheck||pSet->toc[FA_LX].bTz);
  809. pR->tOC[FA_LX].sta.bFlag.bQD = bjd; // add xxxxxx 20220705 需要置上启动标志,否则会启动后马上进入整组复归
  810. #ifdef EV_GL_STATR
  811. lx_start_soe_set( bjd,sw,EV_FA_LX_START);
  812. #endif
  813. RunTR(&pSW->tGZJYRstJDTime, bjd,dStep); //跳闸位置、超过故障记忆过流复归时间,清跳闸次数
  814. pSW->uSdhz_S.bFlag.bJD=pSW->uSdhz_L.bFlag.bJD=pSW->tGZJYRstJDTime.boolTrip;
  815. //接地告警
  816. bjd = OverRelay(g_ui[UI_SW_INDEX(sw,SW_AC_I0)].m2[0], pSet->toc[FA_LX2].dI, pSet->toc[FA_LX2].dI_fh, pSW->uSdhz_S.bFlag.bJD2) && (pSet->bTT_fa_lx2);
  817. pR->tOC[FA_LX2].sta.bFlag.bQD = bjd; // add xxxxxx 20220705 需要置上启动标志,否则会启动后马上进入整组复归
  818. RunTR(&pSW->tGZJYRstJD2Time, bjd,dStep); //跳闸位置、超过故障记忆过流复归时间,清跳闸次数
  819. pSW->uSdhz_S.bFlag.bJD2=pSW->tGZJYRstJD2Time.boolTrip;
  820. pR->tOC[FA_LX2].sta.bFlag.bGj = pSW->uSdhz_S.bFlag.bJD2;
  821. if(soe_check(EV_FA_LX_GJ+sw*EV_SW_NUM)!=pSW->uSdhz_S.bFlag.bJD2)//记录SOE
  822. soe_record_ev(EV_FA_LX_GJ+sw*EV_SW_NUM, pSW->uSdhz_S.bFlag.bJD2, I0, U01>U02?U01:U02,0 );
  823. #ifdef GD_AREA_ZHONGSHAN_2020//中山2020要求Y时间内失压,且FA二段或者零序一段满足条件后报Y闭锁 2020-10-24
  824. RunTR(&pSW->tOnOCingTime, soe_check(EV_FA_GL2_START+sw*EV_SW_NUM),dStep);
  825. RunTR(&pSW->tOnLXingTime, soe_check(EV_FA_LX_START+sw*EV_SW_NUM),dStep);
  826. pSW->uSdhz_S.bFlag.bOCing = (pSW->tOnOCingTime.boolTrip||pSW->tOnLXingTime.boolTrip);
  827. #endif
  828. //零序电压判断
  829. bjd = OverRelay(g_ui[PUB_AC_U01].m2[0], pSet->dU_OverU0, pSet->dU_OverU0_fh, pSW->uSdhz_S.bFlag.bOverU0);
  830. #ifdef EV_GL_STATR
  831. lx_start_soe_set( bjd,sw,EV_FA_U0_STATR);
  832. #endif
  833. RunTR(&pR->tU0TZ.tZOVTime, bjd,dStep);
  834. pSW->uSdhz_S.bFlag.bOverU0 = pR->tU0TZ.tZOVTime.boolTrip;
  835. pSW->uSdhz_L.bFlag.bOverU0 = pSW->uSdhz_S.bFlag.bOverU0;
  836. pR->tU0TZ.bU0GjLed = 0;
  837. if(pSet->bTT_fa_U0Gj)
  838. pR->tU0TZ.bU0GjLed = pSW->uSdhz_S.bFlag.bOverU0;
  839. if ((soe_check(EV_FA_U0GJ + sw * EV_SW_NUM) != pSW->uSdhz_S.bFlag.bOverU0) &&
  840. pSet->bTT_fa_U0Gj &&
  841. (pSW->S_Status == S_YTIME || pSW->L_Status == L_YL_TIME ||
  842. ((pSW->S_Status == S_USUAL) && pSW->uSdhz_S.bFlag.bYtOn) ||
  843. ((pSW->L_Status == L_RELAYON) && pSW->uSdhz_L.bFlag.bYtOn)))
  844. {
  845. soe_record_ev(EV_FA_U0GJ + sw * EV_SW_NUM, pSW->uSdhz_S.bFlag.bOverU0, U01 > U02 ? U01 : U02, I0, 0);
  846. }
  847. if(soe_check(EV_BE_UO+sw*EV_SW_NUM) && !pSW->uSdhz_S.bFlag.bOverU0) // 合前零压返回
  848. soe_record_ev(EV_BE_UO+sw*EV_SW_NUM, 0, 0,0,0 );
  849. if(pR->tSWST.uSWST.bFlag.bDITW)
  850. {
  851. pSW->uSdhz_L.bFlag.bYtOn = false;
  852. pSW->uSdhz_S.bFlag.bYtOn = false;
  853. }
  854. //残压检测
  855. fa_uf_set(sw, pR->run_stu.fa_ls>0, dStep);
  856. //有压标志
  857. pSW->uSdhz_S.bFlag.bYY = pSW->uSdhz_S.bFlag.bUABYY || pSW->uSdhz_S.bFlag.bUBCYY; //有压
  858. //初始化完成
  859. if((pR->tSWST.uSWST.bFlag.bDIHW && pSW->uSdhz_S.bFlag.bYY) //合位时,无压变有压才能动作
  860. ||(pR->tSWST.uSWST.bFlag.bDITW && !pSW->uSdhz_S.bFlag.bYY))//分位时,有压变无压才能动作
  861. {
  862. pSW->bSDHZinit=1;
  863. }
  864. /*对侧有残压压标志
  865. pSW->uSdhz_S.bFlag.bOppositeUF = (pSW->uSdhz_S.bFlag.bUABFlash && (!pSW->uSdhz_S.bFlag.bPower))
  866. || (pSW->uSdhz_S.bFlag.bUBCFlash && pSW->uSdhz_S.bFlag.bPower);
  867. */
  868. //对侧来电
  869. bY1 = ((pSW->uSdhz_S.bFlag.bUABYY && (!pSW->uSdhz_S.bFlag.bUBCYY) && (!pSW->uSdhz_S.bFlag.bPower))
  870. ||((!pSW->uSdhz_S.bFlag.bUABYY) && pSW->uSdhz_S.bFlag.bUBCYY && pSW->uSdhz_S.bFlag.bPower));
  871. RunTR(&pSW->tOpsiteYY100ms, bY1, dStep);
  872. pSW->uSdhz_S.bFlag.bOppositeYY = pSW->tOpsiteYY100ms.boolTrip && pSet->bTT_fa_poweron && pSet->bTT_fa_lineon;
  873. //上电侧来电
  874. bY1 = ((pSW->uSdhz_S.bFlag.bUABYY && (!pSW->uSdhz_S.bFlag.bUBCYY) && (pSW->uSdhz_S.bFlag.bPower))
  875. || ((!pSW->uSdhz_S.bFlag.bUABYY) && pSW->uSdhz_S.bFlag.bUBCYY && (!pSW->uSdhz_S.bFlag.bPower)));
  876. RunTR(&pSW->tPowerYY100ms, bY1, dStep);
  877. pSW->uSdhz_S.bFlag.bPowerYY = pSW->tPowerYY100ms.boolTrip;
  878. }
  879. static void fa_unlock_s_bs(int sw)
  880. {
  881. if(soe_check(EV_BS_X_L+sw*EV_SW_NUM)==true) //
  882. {
  883. soe_record_ev(EV_BS_X_L+sw*EV_SW_NUM, 0, 0,0,0 );
  884. }
  885. if(soe_check(EV_BS_X_P+sw*EV_SW_NUM)==true) //
  886. {
  887. soe_record_ev(EV_BS_X_P+sw*EV_SW_NUM, 0, 0,0,0 );
  888. }
  889. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true) //
  890. {
  891. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  892. }
  893. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true) //
  894. {
  895. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  896. }
  897. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true) //
  898. {
  899. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  900. }
  901. if(soe_check(EV_BSBE_U0+sw*EV_SW_NUM)==true) //
  902. {
  903. soe_record_ev(EV_BSBE_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  904. }
  905. if(soe_check(EV_BS_DB+sw*EV_SW_NUM)==true) //
  906. {
  907. soe_record_ev(EV_BS_DB+sw*EV_SW_NUM, 0, 0,0,0 );
  908. }
  909. #ifdef GD_AREA_ZHONGSHAN_FTU
  910. if(!g_tRelay[sw].run_stu.bs_bhz)
  911. #endif
  912. {
  913. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)==true) //
  914. {
  915. soe_record_ev(EV_BS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  916. }
  917. }
  918. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==true) //
  919. {
  920. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 0, 0,0,0 );
  921. }
  922. if(soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==true) //
  923. {
  924. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 0, 0,0,0 );
  925. }
  926. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  927. {
  928. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  929. }
  930. if(soe_check(EV_BS_FZMORE+sw*EV_SW_NUM)==true)
  931. {
  932. soe_record_ev(EV_BS_FZMORE+sw*EV_SW_NUM, 0, 0,0,0 );
  933. }
  934. //if(soe_check(EV_GOOSE_GZBS_FA)==true) // goose故障闭锁
  935. // soe_record_ev(EV_GOOSE_GZBS_FA, 0, 0,0,0 );
  936. //if(soe_check(EV_GOOSE_TZBS_FA)==true) // goose故障闭锁
  937. // soe_record_ev(EV_GOOSE_TZBS_FA, 0, 0,0,0 );
  938. #ifdef FA_OC_COUNT
  939. if(soe_check(EV_BS_OC_COUNT+sw*EV_SW_NUM)==true)
  940. {
  941. soe_record_ev(EV_BS_OC_COUNT+sw*EV_SW_NUM, 0, 0,0,0 );
  942. }
  943. g_tRelay[sw].tSDHZ.fa_oc_count=0;
  944. #endif
  945. fa_s_set_savestatus(sw);
  946. }
  947. static bool fa_check_s_bs_hz(int sw)
  948. {
  949. #if 0
  950. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true) //
  951. {
  952. return true;
  953. }
  954. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true) //
  955. {
  956. return true;
  957. }
  958. #endif
  959. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)==true) //
  960. {
  961. return true;
  962. }
  963. #ifdef FA_OC_COUNT
  964. if(soe_check(EV_BS_OC_COUNT+sw*EV_SW_NUM)==true) //
  965. {
  966. return true;
  967. }
  968. #endif
  969. if(soe_check(EV_BS_FZMORE+sw*EV_SW_NUM)==true) //
  970. {
  971. return true;
  972. }
  973. #ifdef YK_FA_ENBLE
  974. if(soe_check(EV_YK_BS_FA+sw*EV_SW_NUM)==true) //
  975. {
  976. return true;
  977. }
  978. #endif
  979. if(g_tRelay[sw].tDYJL.bLed==true)
  980. {
  981. return true;
  982. }
  983. #ifndef GD_AREA_ECZD_MEIZHOU_2021
  984. if(g_tRelay[sw].tPLJL.bLed==true)
  985. {
  986. return true;
  987. }
  988. #endif
  989. if(soe_check(EV_GOOSE_GZBS_FA)==true) // goose故障闭锁
  990. return true;
  991. if(soe_check(EV_GOOSE_TZBS_FA)==true) // goose故障闭锁
  992. return true;
  993. return false;
  994. }
  995. static void fa_unlock_l_bs(int sw)
  996. {
  997. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)==true) //
  998. {
  999. soe_record_ev(EV_BS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  1000. }
  1001. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==true) //
  1002. {
  1003. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1004. }
  1005. if(soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==true) //
  1006. {
  1007. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1008. }
  1009. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  1010. {
  1011. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  1012. }
  1013. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true) //
  1014. {
  1015. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  1016. }
  1017. if(soe_check(EV_BS_FZMORE+sw*EV_SW_NUM)==true)
  1018. {
  1019. soe_record_ev(EV_BS_FZMORE+sw*EV_SW_NUM, 0, 0,0,0 );
  1020. }
  1021. /*if(soe_check(EV_GOOSE_GZBS_FA)==true) // goose故障闭锁
  1022. soe_record_ev(EV_GOOSE_GZBS_FA, 0, 0,0,0 );
  1023. if(soe_check(EV_GOOSE_TZBS_FA)==true) // goose故障闭锁
  1024. soe_record_ev(EV_GOOSE_TZBS_FA, 0, 0,0,0 );
  1025. */
  1026. }
  1027. #if 0
  1028. static bool fa_check_l_bs_hz(int sw)
  1029. {
  1030. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)==true) //
  1031. {
  1032. return true;
  1033. }
  1034. return false;
  1035. }
  1036. #endif
  1037. static bool fa_check_all_l_bs(int sw)
  1038. {
  1039. bool bY=false;
  1040. bY=0
  1041. ||soe_check(EV_BS_UF_P+sw*EV_SW_NUM)
  1042. ||soe_check(EV_BS_UF_L+sw*EV_SW_NUM)
  1043. ||soe_check(EV_HHGZ+sw*EV_SW_NUM)
  1044. ||soe_check(EV_BS_U0+sw*EV_SW_NUM)
  1045. ||soe_check(EV_BS_HA+sw*EV_SW_NUM)
  1046. #ifdef YK_FA_ENBLE
  1047. ||soe_check(EV_YK_BS_FA+sw*EV_SW_NUM)
  1048. #endif
  1049. ||soe_check(EV_GOOSE_GZBS_FA)// goose故障闭锁
  1050. ||soe_check(EV_GOOSE_TZBS_FA);// goose故障闭锁
  1051. if(bY)
  1052. {
  1053. if(soe_check(EV_BS_ALL+sw*EV_SW_NUM)==false)
  1054. {
  1055. soe_record_ev(EV_BS_ALL+sw*EV_SW_NUM, 1, 0,0,0 );
  1056. }
  1057. }
  1058. else
  1059. {
  1060. if(soe_check(EV_BS_ALL+sw*EV_SW_NUM)==true)
  1061. {
  1062. soe_record_ev(EV_BS_ALL+sw*EV_SW_NUM, 0, 0,0,0 );
  1063. }
  1064. }
  1065. return bY;
  1066. }
  1067. bool fa_check_auto_l_bs(int sw)
  1068. {
  1069. bool bY=false;
  1070. bY=0
  1071. //||soe_check(EV_BS_U0+sw*EV_SW_NUM)
  1072. ||soe_check(EV_BS_HA+sw*EV_SW_NUM);
  1073. return bY;
  1074. }
  1075. void fa_rstbs_soe(int sw)
  1076. {
  1077. if(soe_check(EV_BS_X_P+sw*EV_SW_NUM)==true)
  1078. {
  1079. soe_record_ev(EV_BS_X_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1080. }
  1081. if(soe_check(EV_BS_X_L+sw*EV_SW_NUM)==true)
  1082. {
  1083. soe_record_ev(EV_BS_X_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1084. }
  1085. #ifndef FA_BSYTIME_JS //不允许直接解锁
  1086. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)
  1087. {
  1088. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1089. }
  1090. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)
  1091. {
  1092. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1093. }
  1094. if(soe_check(EV_HHGZ_P+sw*EV_SW_NUM)==true)
  1095. {
  1096. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1097. }
  1098. if(soe_check(EV_HHGZ_L+sw*EV_SW_NUM)==true)
  1099. {
  1100. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1101. }
  1102. #endif
  1103. if(soe_check(EV_BS_DB+sw*EV_SW_NUM)==true)
  1104. {
  1105. soe_record_ev(EV_BS_DB+sw*EV_SW_NUM, 0, 0,0,0 );
  1106. }
  1107. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==true)
  1108. {
  1109. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1110. }
  1111. if(soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==true)
  1112. {
  1113. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1114. }
  1115. if(soe_check(EV_JS_HA+sw*EV_SW_NUM)==true) //
  1116. {
  1117. soe_record_ev(EV_JS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  1118. }
  1119. if(soe_check(EV_JS_HZ+sw*EV_SW_NUM)==true) //
  1120. {
  1121. soe_record_ev(EV_JS_HZ+sw*EV_SW_NUM, 0, 0,0,0 );
  1122. }
  1123. if(soe_check(EV_BE_UO+sw*EV_SW_NUM)==true) //
  1124. {
  1125. soe_record_ev(EV_BE_UO+sw*EV_SW_NUM, 0, 0,0,0 );
  1126. }
  1127. if(soe_check(EV_FA_GL_TZ+sw*EV_SW_NUM)==true)
  1128. soe_record_ev(EV_FA_GL_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  1129. //#if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 //潮州局要求合后电流两段处理
  1130. #if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 || defined GD_AREA_MAIN_2020
  1131. if(soe_check(EV_FA_GL_TZ2+sw*EV_SW_NUM)==true)
  1132. soe_record_ev(EV_FA_GL_TZ2+sw*EV_SW_NUM, 0, 0,0 ,0 );
  1133. #endif
  1134. if(soe_check(EV_FA_LX_TZ+sw*EV_SW_NUM)==true)
  1135. soe_record_ev(EV_FA_LX_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  1136. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  1137. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0 ,0 );
  1138. if(soe_check(EV_FA_FZ+sw*EV_SW_NUM)==true) //
  1139. soe_record_ev(EV_FA_FZ+sw*EV_SW_NUM, 0, 0,0,0 );
  1140. if(soe_check(EV_X_SWFAIL+sw*EV_SW_NUM)==true) //
  1141. soe_record_ev(EV_X_SWFAIL+sw*EV_SW_NUM, 0, 0,0,0 );
  1142. if(soe_check(EV_SH_BSFZ+sw*EV_SW_NUM)==true) //
  1143. soe_record_ev(EV_SH_BSFZ+sw*EV_SW_NUM, 0, 0,0,0 );
  1144. }
  1145. void fa_change_status_print(WORD oldStatus,WORD newStatus,const char **str)
  1146. {
  1147. if(oldStatus==newStatus)
  1148. return;
  1149. rt_printf_time("status: %s -> %s \r\n",str[oldStatus],str[newStatus]);
  1150. }
  1151. //S 状态转换
  1152. void fa_s_state_change(int sw,int state)
  1153. {
  1154. TRELAY_T *pR=&g_tRelay[sw];
  1155. TSDHZ_T *pSW = &pR->tSDHZ;
  1156. #ifdef FA_BSYTIME_JS
  1157. if(pSW->uSdhz_S.bFlag.bTempJS && S_YTIME==pSW->S_Status && S_BSYTIME==state)//之前已正向闭锁未解锁,再次进入Y闭锁
  1158. pSW->uSdhz_S.bFlag.bTempJS = false;//产生Y闭锁SOE后,再次=TURE
  1159. #endif
  1160. ResetTR(&pSW->tOnXSTime);//X
  1161. if(state!=S_BSHHGZ && state!=S_BSDL)//合后故障/大电流闭锁可以继续报Y闭锁SOE,所以不清Y计时器
  1162. ResetTR(&pSW->tOnYSTime);//Y
  1163. //ResetTR(&pSW->tOnZSTime);//Z
  1164. ResetTR(&pR->tSDHZ.tOnBSTZTime);
  1165. if(pSW->S_Status == state)
  1166. return;
  1167. fa_change_status_print(pSW->S_Status,state,fa_s_status);
  1168. pSW->S_Status = state;
  1169. pSW->s_flag_save=pSW->uSdhz_S.wfFlag;
  1170. pSW->S_Status_save=pSW->S_Status;
  1171. // pSW->uSdhz_S.bFlag.bSNChange = pSW->uSdhz_S.bFlag.bUABYY;
  1172. // pSW->uSdhz_S.bFlag.bPower = pSW->uSdhz_S.bFlag.bUABYY;
  1173. pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  1174. }
  1175. static void fa_l_state_change(int sw,int state)
  1176. {
  1177. TRELAY_T *pR=&g_tRelay[sw];
  1178. TSDHZ_T *pSW = &pR->tSDHZ;
  1179. if(pSW->L_Status == state)
  1180. return;
  1181. fa_change_status_print(pSW->L_Status,state,fa_l_status);
  1182. pSW->L_Status = state;
  1183. pSW->l_flag_save=pSW->uSdhz_L.wfFlag;
  1184. pSW->L_Status_save=pSW->L_Status;
  1185. pSW->L_Status = state;
  1186. pSW->uSdhz_L.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  1187. }
  1188. static bool soe_check_pt_ok(u32 sw)
  1189. {
  1190. TSETSW *pSet = &pRunSet->tSwSet[sw];
  1191. if(!pSet->bTT_fa_ptdx)//PT告警
  1192. return true;//未投入,直接返回OK
  1193. return ((soe_check(EV_PT1ERR)==false) && (soe_check(EV_PT2ERR)==false));
  1194. }
  1195. static bool cheak_pt_ok_ing(u32 sw)//检查PT实时状态
  1196. {
  1197. if(!soe_check_pt_ok(sw))
  1198. return FALSE;//返回异常
  1199. if(tPT.tTPT1DXTime.dTimer>T_100ms || tPT.tTPT2DXTime.dTimer>T_100ms)
  1200. return FALSE;//返回异常
  1201. return TRUE;//返回OK
  1202. }
  1203. #ifdef FA_OC_COUNT
  1204. static bool isBs_fa_oc_count(int sw)
  1205. {
  1206. TRELAY_T *pR=&g_tRelay[sw];
  1207. TSDHZ_T *pSW = &pR->tSDHZ;
  1208. TSETSW *pSet = &pRunSet->tSwSet[sw];
  1209. bool bVIok;
  1210. static bool oc_flag;
  1211. bVIok = pSW->uSdhz_S.bFlag.bGL2;
  1212. if(!pSet->bTT_fa_oc_count)//压板退出
  1213. return FALSE;
  1214. if(pSW->fa_oc_count >= pSet->fa_oc_count_m)//次数已满足闭锁条件
  1215. return TRUE;
  1216. if(bVIok)
  1217. {
  1218. if(oc_flag==false)
  1219. {
  1220. //rt_printf("count=%d m=%d\r\n",pSW->fa_oc_count,pSet->fa_oc_count_m);
  1221. pSW->fa_oc_count++ ;
  1222. }
  1223. oc_flag=TRUE;
  1224. }
  1225. else
  1226. {
  1227. oc_flag=FALSE;
  1228. }
  1229. return FALSE;
  1230. }
  1231. #endif
  1232. static void fa_sw_opt(int sw,u16 soeCode)
  1233. {
  1234. TRELAY_T *pR=&g_tRelay[sw];
  1235. TSDHZ_T *pSW =&pR->tSDHZ;
  1236. TU0_T *pU0=&pR->tU0TZ;
  1237. TOC_T *poc ;
  1238. DWORD Us1,Us2;
  1239. DWORD Ia,Ib,Ic;
  1240. DWORD I0,U01,U02;
  1241. int ui_begin;
  1242. ui_begin = UI_SW_INDEX_BEGIN(sw);
  1243. Us1 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[2]), 256, pRunSet->dKU[PUB_AC_UAB1]);
  1244. Us2 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[3]), 256, pRunSet->dKU[pRunSet->pt2vol]);
  1245. Ia = _Mul_Div_U(sqrt_32fix(g_ui[ui_begin + SW_AC_IA].m2[0]), 256, g_ui[ui_begin + SW_AC_IA].m2_factor_k);
  1246. Ib = _Mul_Div_U(sqrt_32fix(g_ui[ui_begin + SW_AC_IB].m2[0]), 256, g_ui[ui_begin + SW_AC_IB].m2_factor_k);
  1247. Ic = _Mul_Div_U(sqrt_32fix(g_ui[ui_begin + SW_AC_IC].m2[0]), 256, g_ui[ui_begin + SW_AC_IC].m2_factor_k);
  1248. I0 = _Mul_Div_U(sqrt_32fix(g_ui[ui_begin + SW_AC_I0].m2[0]), 256, g_ui[ui_begin + SW_AC_I0].m2_factor_k);
  1249. U01 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U01].m2[0]), 256, g_ui[PUB_AC_U01].m2_factor_k);
  1250. U02 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U02].m2[0]), 256, g_ui[PUB_AC_U02].m2_factor_k);
  1251. //复归合闸原因SOE
  1252. if(soe_check(EV_YK_HZ+sw*EV_SW_NUM)==true) // 遥控合闸
  1253. soe_record_ev(EV_YK_HZ+sw*EV_SW_NUM,0, 0,0,0 );
  1254. if(soe_check(EV_DL_HZ+sw*EV_SW_NUM)==true) //
  1255. soe_record_ev(EV_DL_HZ+sw*EV_SW_NUM,0, 0,0,0 );
  1256. if(soe_check(EV_HA_HZ+sw*EV_SW_NUM)==true) //
  1257. soe_record_ev(EV_HA_HZ+sw*EV_SW_NUM,0, 0,0,0 );
  1258. switch(soeCode)
  1259. {
  1260. case EV_FA_FZ:
  1261. if(soe_check(EV_FA_FZ+sw*EV_SW_NUM)==false) // EV_FA_FZ
  1262. soe_record_ev(EV_FA_FZ+sw*EV_SW_NUM, 1, Us1,Us2,0 );
  1263. rcd_start(sw,RECORD_TYPE_XLSY, RECORD_LEN_TZQD); //录波类型:跳闸类
  1264. pR->tLostVot.bLostVotLed = true;
  1265. pR->tLostVot.uLostVot.bFlag.bEvent = true;
  1266. pR->tSWST.uSWST.bFlag.bCYY = false; //清曾有压标志
  1267. //ResetTR(&pR->tLostVot.tCYY25ms0ms);
  1268. pR->tLostVot.uLostVot.bFlag.bTz=true;
  1269. //InitTR_Time(&pR->tLostVot.tLostVotTime, pSet->dT_Z, T_20ms); //
  1270. pR->tLostVot.uLostVot.bFlag.bQD=true;
  1271. break;
  1272. case EV_HHGZ://合后故障分:相间、接地、零序电压
  1273. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==false)
  1274. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 1, 0,0,0 );
  1275. #if defined GD_AREA_ECZD_2020 && !defined GD_AREA_ZHONGSHAN_2020
  1276. pSW->uSdhz_S.bFlag.bHhgz = true;
  1277. #endif
  1278. if(pSW->uSdhz_S.bFlag.bGL)
  1279. {
  1280. poc = &g_tRelay[sw].tOC[FA_GL];
  1281. //poc->sta.bFlag.bIaQD=true;
  1282. poc->sta.bFlag.bQD = true;
  1283. poc->sta.bFlag.bTz = true;
  1284. poc->sta.bFlag.bTripBak = true;
  1285. poc->sta.bFlag.bDzLed = true;
  1286. poc->sta.bFlag.bGj = true; // 告警
  1287. poc->sta.bFlag.bGjEvent = true;
  1288. poc->tQDTime.boolTrip = true;
  1289. poc->tQD25ms.boolTrip =true;
  1290. if(soe_check(EV_FA_GL_TZ+sw*EV_SW_NUM)==false) //
  1291. soe_record_ev(EV_FA_GL_TZ+sw*EV_SW_NUM, 1, Ia,Ib,Ic );
  1292. if(g_ui[ui_begin + SW_AC_IA].m2[0] > pRunSet->tSwSet[sw].toc[FA_GL].dI)
  1293. {
  1294. pR->bYcRefresh.bAGl = true;
  1295. }
  1296. if(g_ui[ui_begin + SW_AC_IB].m2[0] > pRunSet->tSwSet[sw].toc[FA_GL].dI)
  1297. {
  1298. pR->bYcRefresh.bBGl = true;
  1299. }
  1300. if(g_ui[ui_begin + SW_AC_IC].m2[0] > pRunSet->tSwSet[sw].toc[FA_GL].dI)
  1301. {
  1302. pR->bYcRefresh.bCGl = true;
  1303. }
  1304. rcd_start(sw,RECORD_TYPE_GLGZ, RECORD_LEN_TZQD); //录波类型:跳闸类
  1305. poc->sta.bFlag.bQDWave=true;
  1306. }
  1307. else if(pSW->uSdhz_S.bFlag.bGL_II)
  1308. {
  1309. poc = &g_tRelay[sw].tOC[FA_GL_II];
  1310. //poc->sta.bFlag.bIaQD=true;
  1311. poc->sta.bFlag.bQD = true;
  1312. poc->sta.bFlag.bTz = true;
  1313. poc->sta.bFlag.bTripBak = true;
  1314. poc->sta.bFlag.bDzLed = true;
  1315. poc->sta.bFlag.bGj = true; // 告警
  1316. poc->sta.bFlag.bGjEvent = true;
  1317. poc->tQDTime.boolTrip = true;
  1318. poc->tQD25ms.boolTrip =true;
  1319. //#if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 //潮州局要求合后电流两段处理
  1320. #if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 || defined GD_AREA_MAIN_2020
  1321. if(soe_check(EV_FA_GL_TZ2+sw*EV_SW_NUM)==false) //
  1322. soe_record_ev(EV_FA_GL_TZ2+sw*EV_SW_NUM, 1, Ia,Ib,Ic );
  1323. #endif
  1324. rcd_start(sw,RECORD_TYPE_GLGZ, RECORD_LEN_TZQD); //录波类型:跳闸类
  1325. poc->sta.bFlag.bQDWave=true;
  1326. if(g_ui[ui_begin + SW_AC_IA].m2[0] > pRunSet->tSwSet[sw].toc[FA_GL_II].dI)
  1327. {
  1328. pR->bYcRefresh.bAGl = true;
  1329. }
  1330. if(g_ui[ui_begin + SW_AC_IB].m2[0] > pRunSet->tSwSet[sw].toc[FA_GL_II].dI)
  1331. {
  1332. pR->bYcRefresh.bBGl = true;
  1333. }
  1334. if(g_ui[ui_begin + SW_AC_IC].m2[0] > pRunSet->tSwSet[sw].toc[FA_GL_II].dI)
  1335. {
  1336. pR->bYcRefresh.bCGl = true;
  1337. }
  1338. }
  1339. else if (pSW->uSdhz_S.bFlag.bJD)
  1340. {
  1341. poc = &g_tRelay[sw].tOC[FA_LX];
  1342. poc->sta.bFlag.bQD = true;
  1343. poc->sta.bFlag.bTz = true;
  1344. poc->sta.bFlag.bTripBak = true;
  1345. poc->sta.bFlag.bDzLed = true;
  1346. poc->sta.bFlag.bGj = true; // 告警
  1347. poc->sta.bFlag.bGjEvent = true;
  1348. if(soe_check(EV_FA_LX_TZ+sw*EV_SW_NUM)==false) //
  1349. soe_record_ev(EV_FA_LX_TZ+sw*EV_SW_NUM, 1, I0, U01>U02?U01:U02,0 );
  1350. rcd_start(sw,RECORD_TYPE_LXGL, RECORD_LEN_TZQD); //录波类型:跳闸类
  1351. poc->sta.bFlag.bQDWave=true;
  1352. if(g_ui[ui_begin + SW_AC_I0].m2[0] > pRunSet->tSwSet[sw].toc[FA_LX].dI)
  1353. {
  1354. pR->bYcRefresh.bLx = true;
  1355. }
  1356. }
  1357. else if (pSW->uSdhz_S.bFlag.bOverU0)
  1358. {
  1359. pU0->uZOV.bFlag.bQD = true;
  1360. pU0->uZOV.bFlag.bTz = true;
  1361. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==false)
  1362. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 1, U01>U02?U01:U02,I0 ,0 );
  1363. rcd_start(sw,RECORD_TYPE_LXDY, RECORD_LEN_TZQD);
  1364. pU0->uZOV.bFlag.bEvent = true;
  1365. pU0->bU0Led = true;
  1366. }
  1367. else
  1368. {
  1369. rt_printf_time("error HHGZ\r\n");
  1370. if(soe_check(EV_FA_FZ+sw*EV_SW_NUM)==false) // EV_FA_FZ
  1371. soe_record_ev(EV_FA_FZ+sw*EV_SW_NUM, 1, Us1,Us2,0 );
  1372. rcd_start(sw,RECORD_TYPE_XLSY, RECORD_LEN_TZQD); //录波类型:跳闸类
  1373. pR->tLostVot.bLostVotLed = true;
  1374. pR->tLostVot.uLostVot.bFlag.bEvent = true;
  1375. pR->tSWST.uSWST.bFlag.bCYY = false; //清曾有压标志
  1376. pR->tLostVot.uLostVot.bFlag.bTz=true;
  1377. pR->tLostVot.uLostVot.bFlag.bQD=true;
  1378. //fa_s_state_change(sw,S_INIT);
  1379. }
  1380. break;
  1381. }
  1382. }
  1383. #ifdef FA_BSYTIME_JS
  1384. static void rst_ybs_soe(int sw)
  1385. {
  1386. TRELAY_T *pR=&g_tRelay[sw];
  1387. TSDHZ_T *pSW = &pR->tSDHZ;
  1388. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)
  1389. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1390. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)
  1391. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1392. if(soe_check(EV_HHGZ_P+sw*EV_SW_NUM)==true)
  1393. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1394. if(soe_check(EV_HHGZ_L+sw*EV_SW_NUM)==true)
  1395. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1396. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  1397. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  1398. pR->tU0TZ.bU0Led=false;
  1399. pSW->uSdhz_S.bFlag.bTempJS = false;
  1400. fa_close_led(sw);
  1401. }
  1402. void fa_s_bsYtime_js(int sw, DWORD dStep)
  1403. {
  1404. TRELAY_T *pR=&g_tRelay[sw];
  1405. TSDHZ_T *pSW = &pR->tSDHZ;
  1406. //TSETSW *pSet = &pRunSet->tSwSet[sw];
  1407. {
  1408. //fa_rstbs_soe(sw);
  1409. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_INIT; //返回初始状态
  1410. //pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  1411. pSW->uSdhz_S.bFlag.bUABFlash = false;
  1412. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  1413. }
  1414. pSW->uSdhz_S.bFlag.bTempJS = TRUE;
  1415. ResetTR(&pSW->tOnY_JSTime); //js时间计数
  1416. }
  1417. #endif
  1418. /**************************************************************************
  1419. 函数名称:Pro_S_Status_Run
  1420. 函数版本:1.00
  1421. 作者: 电力产品开发部
  1422. 创建日期:2011.10.28
  1423. 函数功能说明:分段开关状态流程
  1424. 输入参数:
  1425. 其他输入:
  1426. 输出参数:
  1427. 返回值:
  1428. ***************************************************************************/
  1429. static void fa_s_status_run(int sw, DWORD dStep)
  1430. {
  1431. TRELAY_T *pR=&g_tRelay[sw];
  1432. TSDHZ_T *pSW = &pR->tSDHZ;
  1433. TSETSW *pSet = &pRunSet->tSwSet[sw];
  1434. bool bVTok,bVIok,bUoOk;
  1435. DWORD U01 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U01].m2[0]), 256, g_ui[PUB_AC_U01].m2_factor_k);
  1436. DWORD U02 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U02].m2[0]), 256, g_ui[PUB_AC_U02].m2_factor_k);
  1437. #ifdef FA_PL_PJ
  1438. bool bFreq0,bFreq1;
  1439. float freq0,freq1;
  1440. #endif
  1441. #ifdef GD_AREA_ECZD_MEIZHOU_2021
  1442. static bool bLockHZ=false;
  1443. #endif
  1444. if(!pSW->bSDHZinit) return;//#ifdef GD_AREA_ZHONGSHAN_2020
  1445. #ifdef FA_PL_PJ
  1446. if(pRunSet->bTT_judgeFreq)
  1447. {
  1448. //频率在要求范围内
  1449. freq0=freq_get(0);
  1450. freq1=freq_get(1);
  1451. //电源1频率判断
  1452. if((freq0>=48.9) && (freq0<=50.9))
  1453. {
  1454. bFreq0 = true;
  1455. }
  1456. else
  1457. {
  1458. bFreq0 = false;
  1459. }
  1460. //电源2频率判断
  1461. if((freq1>=48.9) && (freq1<=50.9))
  1462. {
  1463. bFreq1 = true;
  1464. }
  1465. else
  1466. {
  1467. bFreq1 = false;
  1468. }
  1469. }
  1470. else
  1471. {
  1472. bFreq0 = true;
  1473. bFreq1 = true;
  1474. }
  1475. #endif
  1476. #if defined GD_AREA_ECZD_2020
  1477. if(!pSW->uSdhz_S.bFlag.bYY)
  1478. {
  1479. pSW->uSdhz_S.bFlag.bJS=false;
  1480. }
  1481. #endif
  1482. switch(pSW->S_Status)
  1483. {
  1484. case S_INIT:
  1485. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  1486. pSW->uSdhz_S.bFlag.bBsXtime_P = false;
  1487. pSW->uSdhz_S.bFlag.bBsXtime_L = false;
  1488. #endif
  1489. #ifdef FA_OC_COUNT
  1490. if(pSet->bTT_fa_oc_count && pR->tSWST.uSWST.bFlag.bDIHW)
  1491. {
  1492. fa_s_state_change(sw,S_USUAL);
  1493. return; //开关在合闸位置且双侧有压,进入正常运行态
  1494. }
  1495. #endif
  1496. if((!pSet->bTT_fa_poweron)&&(!pSet->bTT_fa_lineon))
  1497. {
  1498. fa_uf_clear(sw,false);//两侧上电合闸压板退出,清残压标志
  1499. return;
  1500. }
  1501. if(pR->tSWST.uSWST.bFlag.bDIHW && pSW->uSdhz_S.bFlag.bUABYY && pSW->uSdhz_S.bFlag.bUBCYY)
  1502. {
  1503. //rt_printf("双侧有压,开关合位 %d %d \r\n",pSW->uSdhz_S.bFlag.bUABYY,pSW->uSdhz_S.bFlag.bUBCYY);
  1504. fa_s_state_change(sw,S_USUAL);
  1505. pSW->bSDHZinit=1;
  1506. return; //开关在合闸位置且双侧有压,进入正常运行态
  1507. }
  1508. ResetTR(&pSW->tOnXSTime);
  1509. ResetTR(&pSW->tOnYSTime);
  1510. ResetTR(&pSW->tOnZSTime);
  1511. #ifdef FA_PL_PJ
  1512. ResetTR(&pSW->tFREQSAB25ms);
  1513. ResetTR(&pSW->tFREQSBC25ms);
  1514. #endif
  1515. #ifdef GD_AREA_ECZD_MEIZHOU_2021
  1516. if(pR->tPLJL.sta.bFlag.bTz || bLockHZ)
  1517. {//中山局要求频率解列后需判掉电再上电的过程才允许得电合闸
  1518. fa_uf_clear(sw,false);
  1519. if(pSW->uSdhz_S.bFlag.bYY)
  1520. {
  1521. bLockHZ = true;
  1522. return;
  1523. }
  1524. else
  1525. {
  1526. bLockHZ = false;
  1527. }
  1528. }
  1529. #endif
  1530. if (pSW->uSdhz_S.bFlag.bUABFlash||pSW->uSdhz_S.bFlag.bUBCFlash) //如果对侧有瞬时电压
  1531. {
  1532. //pSW->S_Status = S_BSFLASH; //进入瞬时电压闭锁状态
  1533. pSW->uSdhz_S.bFlag.bPower = pSW->uSdhz_S.bFlag.bUABFlash;//电压方向保存残压方向
  1534. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1535. fa_s_state_change(sw,S_BSFLASH);
  1536. return;
  1537. }
  1538. else if (pSW->uSdhz_S.bFlag.bYY) //有压&&PT正常&&soe_check_pt_ok(sw)
  1539. {
  1540. if(pSW->bSDHZinit==0)//先无压再有压
  1541. {
  1542. return;
  1543. }
  1544. if((pSW->uSdhz_S.bFlag.bUabflashDI && !pSW->uSdhz_S.bFlag.bUABYY)
  1545. ||(pSW->uSdhz_S.bFlag.bUbcflashDI && !pSW->uSdhz_S.bFlag.bUBCYY))
  1546. {
  1547. pSW->uSdhz_S.bFlag.bPower = pSW->uSdhz_S.bFlag.bUABYY;//电压方向保存残压方向
  1548. pSW->uSdhz_S.bFlag.bSNChange = !pSW->uSdhz_S.bFlag.bPower;
  1549. fa_s_state_change(sw,S_BSFLASH); //进入瞬时电压闭锁状态
  1550. return;
  1551. }
  1552. pSW->uSdhz_S.bFlag.bPower = pSW->uSdhz_S.bFlag.bUABYY;
  1553. if(pR->tSWST.uSWST.bFlag.bHZWZ)
  1554. {
  1555. fa_s_state_change(sw,S_YTIME);//有压且合位直接进入Y时限
  1556. #ifdef FUNC_DRIVE_JY
  1557. ResetTR(&gb_drive.tDriveFaBSTime);
  1558. #endif
  1559. }
  1560. #ifdef FA_PL_PJ
  1561. else if((pSW->uSdhz_S.bFlag.bUABYY&&pSet->bTT_fa_poweron&&bFreq0) || (pSW->uSdhz_S.bFlag.bUBCYY && pSet->bTT_fa_lineon&&bFreq1))
  1562. #else
  1563. else if((pSW->uSdhz_S.bFlag.bUABYY&&pSet->bTT_fa_poweron) || (pSW->uSdhz_S.bFlag.bUBCYY && pSet->bTT_fa_lineon))
  1564. #endif
  1565. {
  1566. if(pSW->uSdhz_S.bFlag.bJS)
  1567. return;
  1568. #ifdef FUNC_NYY_NWY
  1569. if((pSW->uSdhz_S.bFlag.bUABYY && pSW->uSdhz_S.bFlag.bUBC_NYY_NWY)
  1570. ||(pSW->uSdhz_S.bFlag.bUBCYY && pSW->uSdhz_S.bFlag.bUAB_NYY_NWY))
  1571. return;
  1572. #endif
  1573. fa_s_state_change(sw,S_XTIME);//;//pSW->S_Status = S_TEMP; //进入临时状态
  1574. }
  1575. }
  1576. else if(!pSW->uSdhz_S.bFlag.bYY && pSW->uSdhz_S.bFlag.bUabflashDI!=pSW->uSdhz_S.bFlag.bUbcflashDI)//无压且单侧有残压
  1577. {
  1578. pSW->uSdhz_S.bFlag.bPower = pSW->uSdhz_S.bFlag.bUabflashDI;//电压方向保存残压方向
  1579. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1580. fa_s_state_change(sw,S_BSFLASH); //进入瞬时电压闭锁状态
  1581. return;
  1582. }
  1583. else if(!pSW->uSdhz_S.bFlag.bYY && pSW->uSdhz_S.bFlag.bUabflashDI&&pSW->uSdhz_S.bFlag.bUbcflashDI)//开机的时候两侧都残压闭锁,等待有压信号
  1584. {
  1585. return;
  1586. }
  1587. else if(!pSW->uSdhz_S.bFlag.bYY)
  1588. {
  1589. pSW->uSdhz_S.bFlag.bJS=false;
  1590. }
  1591. if (pR->tSWST.uSWST.bFlag.bDIHW && !pSW->uSdhz_S.bFlag.bYY) //开关合位且两侧失压
  1592. pR->tSWST.uSWST.bFlag.bCYY=true;
  1593. fa_rstbs_soe(sw);
  1594. break;
  1595. case S_BSFLASH:
  1596. if((pSW->uSdhz_S.bFlag.bUABFlash||pSW->uSdhz_S.bFlag.bUabflashDI)&&!pSW->uSdhz_S.bFlag.bUABYY)
  1597. {
  1598. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==false) // 瞬压闭锁
  1599. {
  1600. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 1, 0,0,0 );
  1601. }
  1602. pSW->uSdhz_S.bFlag.bUBCFlash=false;
  1603. pSW->uSdhz_S.bFlag.bUbcflashDI=false;
  1604. }
  1605. else if((pSW->uSdhz_S.bFlag.bUBCFlash||pSW->uSdhz_S.bFlag.bUbcflashDI)&&!pSW->uSdhz_S.bFlag.bUBCYY)
  1606. {
  1607. if(soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==false) // 瞬压闭锁
  1608. {
  1609. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 1, 0,0,0 );
  1610. }
  1611. pSW->uSdhz_S.bFlag.bUABFlash=false;
  1612. pSW->uSdhz_S.bFlag.bUabflashDI=false;
  1613. }
  1614. if(pSW->bSDHZinit==0)
  1615. {
  1616. return;
  1617. }
  1618. if ((pSW->uSdhz_S.bFlag.bUABYY&&((pSW->uSdhz_S.bFlag.bUABFlash||pSW->uSdhz_S.bFlag.bUabflashDI)&&soe_check(EV_BS_UF_P+sw*EV_SW_NUM))) // 本侧检出有压
  1619. ||(pSW->uSdhz_S.bFlag.bUBCYY&&((pSW->uSdhz_S.bFlag.bUBCFlash||pSW->uSdhz_S.bFlag.bUbcflashDI)&&soe_check(EV_BS_UF_L+sw*EV_SW_NUM)))
  1620. )
  1621. {
  1622. #if defined GD_AREA_ZHONGSHAN || defined GD_AREA_ZHONGSHAN_2020 || defined GD_AREA_ECZD_2020 || defined GD_AREA_ECZD_MEIZHOU_2021//中山局、广东二次指导意见要求残压经过解锁时间才能解锁
  1623. RunTR(&pSW->tOnJSTime, TRUE , dStep); //js时间计数
  1624. if(!pSW->tOnJSTime.boolTrip)
  1625. break;
  1626. #endif
  1627. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==false) // 单侧来电解锁
  1628. {
  1629. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 1, 0,0,0 );
  1630. #ifdef GD_AREA_ECZD_2020
  1631. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  1632. #endif
  1633. }
  1634. fa_uf_clear(sw,false);
  1635. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_INIT; //进入临时状态
  1636. //pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  1637. pSW->uSdhz_S.bFlag.bUABFlash = false;
  1638. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  1639. pSW->uSdhz_S.wfFlag = 0;
  1640. pSW->uSdhz_S.wfFlag = 0;
  1641. pSW->bS_BSLed = 0;
  1642. }
  1643. else
  1644. {
  1645. ResetTR(&pSW->tOnJSTime);
  1646. }
  1647. break;
  1648. case S_XTIME:
  1649. {
  1650. #ifdef GD_AREA_ECZD_MEIZHOU_2021
  1651. if(pR->tPLJL.sta.bFlag.bTz)
  1652. { //X计时过程中频率解列跳闸后回到INIT状态
  1653. fa_s_state_change(sw,S_INIT);
  1654. ResetTR(&pSW->tOnXSTime);
  1655. fa_uf_clear(sw,false);
  1656. return;
  1657. }
  1658. #endif
  1659. #ifdef GD_AREA_ZHONGSHAN
  1660. if(soe_check(EV_HHGZ+sw*EV_SW_NUM))
  1661. {
  1662. if(!(soe_check(EV_HHGZ_P+sw*EV_SW_NUM) && soe_check(EV_HHGZ_L+sw*EV_SW_NUM)))
  1663. {
  1664. if((soe_check(EV_HHGZ_P+sw*EV_SW_NUM) && pSW->uSdhz_S.bFlag.bUBCYY)
  1665. || (soe_check(EV_HHGZ_L+sw*EV_SW_NUM) && pSW->uSdhz_S.bFlag.bUABYY))
  1666. {
  1667. RunTR(&pSW->tOnXSTime, true, dStep); //X时间计数
  1668. }
  1669. else
  1670. {
  1671. ResetTR(&pSW->tOnXSTime);
  1672. }
  1673. if(pSW->tOnXSTime.boolTrip)
  1674. {
  1675. pSW->uSdhz_S.bFlag.bRLONFLAG = TRUE;
  1676. fa_s_state_change(sw,S_YTIME); //进入Y计时状态
  1677. }
  1678. }
  1679. break;
  1680. }
  1681. #endif
  1682. #ifdef FA_PL_PJ
  1683. if(pRunSet->bTT_judgeFreq)
  1684. {
  1685. RunTR(&pSW->tFREQSAB25ms, bFreq0, dStep);
  1686. RunTR(&pSW->tFREQSBC25ms, bFreq1, dStep);
  1687. }
  1688. else
  1689. {
  1690. pSW->tFREQSAB25ms.boolTrip = true;
  1691. pSW->tFREQSBC25ms.boolTrip = true;
  1692. }
  1693. #endif
  1694. #ifdef FA_PL_PJ
  1695. if(pSW->uSdhz_S.bFlag.bYY && !pSW->uSdhz_S.bFlag.bPowerZ && (pSW->tFREQSAB25ms.boolTrip || pSW->tFREQSBC25ms.boolTrip))
  1696. #else
  1697. if(pSW->uSdhz_S.bFlag.bYY && !pSW->uSdhz_S.bFlag.bPowerZ)//无压暂停计时&& soe_check_pt_ok(sw)
  1698. #endif
  1699. {
  1700. if ( pSW->uSdhz_S.bFlag.bPower != pSW->uSdhz_S.bFlag.bUABYY && pSW->uSdhz_S.bFlag.bUABYY != pSW->uSdhz_S.bFlag.bUBCYY) //无压暂停过程中,对侧有压
  1701. {
  1702. #if defined GD_AREA_ZHONGSHAN_2020
  1703. if(!pSW->tOnYSTime.boolTrip)
  1704. {
  1705. fa_s_state_change(sw,S_BSFLASH);//
  1706. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1707. break;
  1708. }
  1709. else
  1710. {
  1711. fa_uf_clear(sw,false);
  1712. ResetTR(&pSW->tOnYSTime);
  1713. //fa_s_state_change(sw,S_BSFLASH);//
  1714. //pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1715. break;
  1716. }
  1717. #endif
  1718. fa_s_state_change(sw,S_BSXTIME);//
  1719. pSW->uSdhz_S.bFlag.bUABFlash = false;
  1720. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  1721. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1722. }
  1723. else
  1724. {
  1725. RunTR(&pSW->tOnXSTime, TRUE, dStep); //X时间计数
  1726. #if defined GD_AREA_ZHONGSHAN_2020 || defined FA_PL_PJ
  1727. RunTR(&pSW->tOnYSTime,TRUE, dStep);
  1728. #endif
  1729. }
  1730. }
  1731. //合前零压
  1732. if(pSW->uSdhz_S.bFlag.bOverU0 && (pSet->bTT_fa_U0Tz||pSet->bTT_fa_U0Gj))
  1733. {
  1734. if(soe_check(EV_BE_UO+sw*EV_SW_NUM)==false) //
  1735. soe_record_ev(EV_BE_UO+sw*EV_SW_NUM, 1, U01>U02?U01:U02,0,0 );
  1736. }
  1737. if (pSW->uSdhz_S.bFlag.bPowerZ&&pR->tSWST.uSWST.bFlag.bFAWL) //如果两侧失压且无流,停电Z
  1738. {
  1739. #if defined GD_AREA_ECZD_MEIZHOU_2021
  1740. if(!pSW->tOnYSTime.boolTrip)//肇庆封开县要求X上电计时的Y时间内失压为残压
  1741. {
  1742. fa_s_state_change(sw,S_BSFLASH);//
  1743. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1744. break;
  1745. }
  1746. #endif
  1747. #if defined GD_AREA_ZHONGSHAN_2020 //X上电计时的Y时间内失压为残压,否则返回初始状态 2020-12-3
  1748. if(!pSW->tOnYSTime.boolTrip)
  1749. {
  1750. fa_s_state_change(sw,S_BSFLASH);//
  1751. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1752. break;
  1753. }
  1754. else
  1755. {
  1756. fa_uf_clear(sw,false);
  1757. fa_s_state_change(sw,S_INIT);//
  1758. break;
  1759. }
  1760. #endif
  1761. fa_s_state_change(sw,S_BSXTIME);//pSW->S_Status = S_BSXTIME; //进入X-Z状态,即X计时中的Z计时状态,置X计时暂停标志
  1762. pSW->uSdhz_S.bFlag.bUABFlash = false;
  1763. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  1764. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1765. //pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  1766. }
  1767. else if((pSW->uSdhz_S.bFlag.bPower&&pSW->uSdhz_S.bFlag.bUBCFlash)||(!pSW->uSdhz_S.bFlag.bPower&&pSW->uSdhz_S.bFlag.bUABFlash)) //对侧有残压
  1768. {
  1769. pSW->uSdhz_S.bFlag.bPower=!pSW->uSdhz_S.bFlag.bPower;
  1770. fa_s_state_change(sw,S_BSFLASH);
  1771. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1772. //pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  1773. }
  1774. #ifdef FUNC_NYY_NWY
  1775. else if(pSW->tOnXSTime.boolTrip && ((pSW->uSdhz_S.bFlag.bUABYY && pSW->uSdhz_S.bFlag.bUBC_NYY_NWY)
  1776. ||(pSW->uSdhz_S.bFlag.bUBCYY && pSW->uSdhz_S.bFlag.bUAB_NYY_NWY)))
  1777. {
  1778. ResetTR(&pSW->tOnXSTime);
  1779. fa_uf_clear(sw,false);
  1780. fa_s_state_change(sw,S_INIT);
  1781. break;
  1782. }
  1783. #endif
  1784. else if (pSW->tOnXSTime.boolTrip||pR->tSWST.uSWST.bFlag.bDIHW //如果X计时完毕
  1785. #ifdef FUNC_DRIVE_JY
  1786. || gb_drive.b_fa_reclose
  1787. #endif
  1788. )
  1789. {
  1790. #if 1 //在X计时结束后,仍然双侧有压才判为双电源闭锁
  1791. if(!pR->tSWST.uSWST.bFlag.bDIHW)
  1792. {
  1793. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  1794. if (pSW->uSdhz_S.bFlag.bDBYY||(pSW->uSdhz_S.bFlag.bUABYY&&pSW->uSdhz_S.bFlag.bUBCYY)
  1795. || (pSW->uSdhz_S.bFlag.bUABYY && soe_check(EV_PT2ERR))
  1796. || (pSW->uSdhz_S.bFlag.bUBCYY && soe_check(EV_PT1ERR))
  1797. ) //如果双侧有压,潮州要求就地FA分段PT断线不闭锁得电合
  1798. #else
  1799. if (pSW->uSdhz_S.bFlag.bDBYY||(pSW->uSdhz_S.bFlag.bUABYY&&pSW->uSdhz_S.bFlag.bUBCYY)|| !cheak_pt_ok_ing(sw)) //如果双侧有压
  1800. #endif
  1801. {
  1802. #ifdef FUNC_PRINT_PT_ERR
  1803. if(!cheak_pt_ok_ing(sw))
  1804. {
  1805. rt_printf("分段模式有上电合闸需求但PT断线,不允许合闸!\r\n");
  1806. }
  1807. #endif
  1808. fa_s_state_change(sw,S_BSDOUBLE);//pSW->S_Status = S_BSDOUBLE; //进入双侧电源闭锁状态
  1809. fa_uf_clear(sw,false);
  1810. break;
  1811. }
  1812. }
  1813. #endif
  1814. pSW->uSdhz_S.bFlag.bRLONFLAG = TRUE;
  1815. pSW->uSdhz_S.bFlag.bGL = false;
  1816. pSW->uSdhz_S.bFlag.bGL_II = false;
  1817. pSW->uSdhz_S.bFlag.bJD = false;
  1818. pSW->uSdhz_S.bFlag.bXOverUo=pSW->uSdhz_S.bFlag.bOverU0;
  1819. pR->tU0TZ.uZOV.bFlag.bU0Ov=false;
  1820. pR->tLostVot.uLostVot.bFlag.bStartLock = false;
  1821. pR->tLostVot.uLostVot.bFlag.bGL = false;
  1822. pR->tLostVot.uLostVot.bFlag.bJD = false;
  1823. pR->tLostVot.uLostVot.bFlag.bFault=false;
  1824. pR->tLostVot.uLostVot.bFlag.bSHWY = false;
  1825. ResetTR(&pSW->tGZJYRstGLTime);
  1826. ResetTR(&pSW->tGZJYRstGL_II_Time);
  1827. ResetTR(&pSW->tGZJYRstJDTime);
  1828. ResetTR(&pSW->tGZJYRstGL2Time);
  1829. ResetTR(&pSW->tGZJYRstJD2Time);
  1830. ResetTR(&pSW->tOnYSTime);
  1831. #ifdef FA_PL_PJ
  1832. ResetTR(&pSW->tFREQSAB25ms);
  1833. ResetTR(&pSW->tFREQSBC25ms);
  1834. #endif
  1835. #ifdef FUNC_DRIVE_JY
  1836. ResetTR(&gb_drive.tDriveFaBSTime);
  1837. gb_drive.b_fa_reclose = false;
  1838. gb_drive.b_clear_bs = true;
  1839. #endif
  1840. //ResetTR(&pSW->tOnJSTime); //js时间计数
  1841. pR->tLostVot.uLostVot.bFlag.bSHWY=false;//清手合无压标志
  1842. fa_s_state_change(sw,S_YTIME);//pSW->S_Status = S_YTIME; //进入Y计时状态
  1843. }
  1844. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  1845. if(!pSW->uSdhz_S.bFlag.bUABYY && !pSW->uSdhz_S.bFlag.bUBCYY && !pSW->uSdhz_S.bFlag.bPowerZ && pR->tSWST.uSWST.bFlag.bFAWL)
  1846. { //双侧有压返回但电压未低于无压值时
  1847. ResetTR(&pSW->tOnXSTime);
  1848. fa_s_state_change(sw,S_BSXTIME);
  1849. pSW->uSdhz_S.bFlag.bUABFlash = false;
  1850. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  1851. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  1852. }
  1853. #endif
  1854. }
  1855. break;
  1856. case S_BSXTIME:
  1857. if(pSW->uSdhz_S.bFlag.bPower)
  1858. {
  1859. if(soe_check(EV_BS_X_P+sw*EV_SW_NUM)==false) // x闭锁
  1860. {
  1861. soe_record_ev(EV_BS_X_P+sw*EV_SW_NUM, 1, 0,0,0 );
  1862. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  1863. pSW->uSdhz_S.bFlag.bBsXtime_P = true;
  1864. pSW->uSdhz_S.bFlag.bHzEnable_P = false;
  1865. #endif
  1866. }
  1867. }
  1868. else
  1869. {
  1870. if(soe_check(EV_BS_X_L+sw*EV_SW_NUM)==false) // x闭锁
  1871. {
  1872. soe_record_ev(EV_BS_X_L+sw*EV_SW_NUM, 1, 0,0,0 );
  1873. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  1874. pSW->uSdhz_S.bFlag.bBsXtime_L = true;
  1875. pSW->uSdhz_S.bFlag.bHzEnable_L = false;
  1876. #endif
  1877. }
  1878. }
  1879. #if defined GD_AREA_ECZD_CHAOZHOU_2022
  1880. if (pSW->uSdhz_S.bFlag.bPowerYY && ((pSW->uSdhz_S.bFlag.bPowerYY == pSW->uSdhz_S.bFlag.bUABYY)?(pSW->uSdhz_S.bFlag.bHzEnable_P):(pSW->uSdhz_S.bFlag.bHzEnable_L))) //上电侧掉电再来电
  1881. #else
  1882. if (pSW->uSdhz_S.bFlag.bPowerYY) //上电侧来电
  1883. #endif
  1884. {
  1885. #if defined GD_AREA_ZHONGSHAN || defined GD_AREA_ZHONGSHAN_2020 || defined GD_AREA_ECZD_2020 //中山、广东二次指导意见要求X闭锁需经过解锁时间才能解
  1886. RunTR(&pSW->tOnJSTime, TRUE, dStep); //js时间计时器
  1887. if(!pSW->tOnJSTime.boolTrip)
  1888. break;
  1889. #endif
  1890. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_INIT; //返回初始状态
  1891. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==false) // 对侧来电解锁
  1892. {
  1893. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 1, 0,0,0 );
  1894. #ifdef GD_AREA_ECZD_2020
  1895. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  1896. #endif
  1897. }
  1898. pSW->uSdhz_S.bFlag.bUABFlash = false;
  1899. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  1900. }
  1901. #ifdef GD_AREA_ZHONGSHAN_2020
  1902. else if(pSW->uSdhz_S.bFlag.bDBYY)
  1903. {
  1904. RunTR(&pSW->tOnJSTime, TRUE, dStep); //js时间计时器
  1905. if(!pSW->tOnJSTime.boolTrip)
  1906. break;
  1907. fa_s_state_change(sw,S_BSDOUBLE);
  1908. }
  1909. #endif
  1910. else
  1911. {
  1912. ResetTR(&pSW->tOnJSTime); //js时间计时器
  1913. }
  1914. fa_uf_clear(sw,false);
  1915. break;
  1916. case S_BSDOUBLE:
  1917. #ifdef GD_AREA_ZHONGSHAN_2020
  1918. #if 0
  1919. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==false) // 对侧来电解锁
  1920. {
  1921. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 1, 0,0,0 );
  1922. }
  1923. #endif
  1924. pSW->uSdhz_S.bFlag.bUABFlash = false;
  1925. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  1926. if(soe_check(EV_BS_X_P+sw*EV_SW_NUM)==true)
  1927. {
  1928. soe_record_ev(EV_BS_X_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1929. }
  1930. if(soe_check(EV_BS_X_L+sw*EV_SW_NUM)==true)
  1931. {
  1932. soe_record_ev(EV_BS_X_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1933. }
  1934. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==true)
  1935. {
  1936. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1937. }
  1938. if(soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==true)
  1939. {
  1940. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1941. }
  1942. if(soe_check(EV_BE_UO+sw*EV_SW_NUM)==true) //
  1943. {
  1944. soe_record_ev(EV_BE_UO+sw*EV_SW_NUM, 0, 0,0,0 );
  1945. }
  1946. if(soe_check(EV_FA_GL_TZ+sw*EV_SW_NUM)==true)
  1947. {
  1948. soe_record_ev(EV_FA_GL_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  1949. }
  1950. if(soe_check(EV_FA_GL_TZ2+sw*EV_SW_NUM)==true)
  1951. {
  1952. soe_record_ev(EV_FA_GL_TZ2+sw*EV_SW_NUM, 0, 0,0 ,0 );
  1953. }
  1954. if(soe_check(EV_FA_LX_TZ+sw*EV_SW_NUM)==true)
  1955. {
  1956. soe_record_ev(EV_FA_LX_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  1957. }
  1958. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  1959. {
  1960. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0 ,0 );
  1961. }
  1962. if(soe_check(EV_FA_FZ+sw*EV_SW_NUM)==true) //
  1963. {
  1964. soe_record_ev(EV_FA_FZ+sw*EV_SW_NUM, 0, 0,0,0 );
  1965. }
  1966. if(soe_check(EV_X_SWFAIL+sw*EV_SW_NUM)==true) //
  1967. {
  1968. soe_record_ev(EV_X_SWFAIL+sw*EV_SW_NUM, 0, 0,0,0 );
  1969. }
  1970. if(soe_check(EV_SH_BSFZ+sw*EV_SW_NUM)==true) //
  1971. {
  1972. soe_record_ev(EV_SH_BSFZ+sw*EV_SW_NUM, 0, 0,0,0 );
  1973. }
  1974. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  1975. {
  1976. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  1977. }
  1978. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)
  1979. {
  1980. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1981. }
  1982. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)
  1983. {
  1984. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1985. }
  1986. if(soe_check(EV_HHGZ_P+sw*EV_SW_NUM)==true)
  1987. {
  1988. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 0, 0,0,0 );
  1989. }
  1990. if(soe_check(EV_HHGZ_L+sw*EV_SW_NUM)==true)
  1991. {
  1992. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 0, 0,0,0 );
  1993. }
  1994. #endif
  1995. #ifndef GD_AREA_ZHONGSHAN_2020 //中山2020要求双电源不报双电源闭锁SOE
  1996. if(soe_check(EV_BS_DB+sw*EV_SW_NUM)==false && pSW->uSdhz_S.bFlag.bDBYY) //双电源闭锁
  1997. {
  1998. soe_record_ev(EV_BS_DB+sw*EV_SW_NUM, 1, 0,0,0 );
  1999. }
  2000. #endif
  2001. if (!pSW->uSdhz_S.bFlag.bDBYY&&pSW->uSdhz_S.bFlag.bPowerZ) //如果失压
  2002. {
  2003. fa_uf_clear(sw,false);
  2004. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_D_ZTIME; //进入D-Z状态
  2005. }
  2006. break;
  2007. case S_YTIME:
  2008. {
  2009. #ifdef GD_AREA_ECZD_MEIZHOU_2021
  2010. if(pR->tPLJL.sta.bFlag.bTz)
  2011. { //Y计时过程中频率解列跳闸后回到INIT状态
  2012. fa_s_state_change(sw,S_INIT);
  2013. ResetTR(&pSW->tOnYSTime);
  2014. fa_uf_clear(sw,false);
  2015. return;
  2016. }
  2017. #endif
  2018. #ifdef GD_AREA_ZHONGSHAN_2020 //中山2020要求手合无压进入Y时间,如果Y时间合后故障则闭锁双侧 2020-12-23
  2019. if((pSW->uSdhz_S.bFlag.bYY && !pSW->uSdhz_S.bFlag.bPowerZ)||pR->tLostVot.uLostVot.bFlag.bSHWY )//无压暂停计时
  2020. RunTR(&pSW->tOnYSTime, TRUE, dStep); //启动Y时间计数
  2021. #else
  2022. if(pSW->uSdhz_S.bFlag.bYY && !pSW->uSdhz_S.bFlag.bPowerZ)//无压暂停计时
  2023. RunTR(&pSW->tOnYSTime, TRUE, dStep); //启动Y时间计数
  2024. #endif
  2025. #ifdef GD_AREA_ZHONGSHAN
  2026. if((soe_check(EV_HHGZ_P+sw*EV_SW_NUM) && !soe_check(EV_HHGZ_L+sw*EV_SW_NUM))
  2027. || (!soe_check(EV_HHGZ_P+sw*EV_SW_NUM) && soe_check(EV_HHGZ_L+sw*EV_SW_NUM)))
  2028. {
  2029. if(!pSW->uSdhz_S.bFlag.bYY)
  2030. {
  2031. ResetTR(&pSW->tOnJSTime);
  2032. fa_s_state_change(sw,S_XTIME);
  2033. fa_sw_opt(sw, EV_FA_FZ);//失压分闸
  2034. }
  2035. RunTR(&pSW->tOnJSTime, (pSW->uSdhz_S.bFlag.bDBYY || pSW->uSdhz_S.bFlag.bOppositeYY) && (soe_check(EV_HHGZ+sw*EV_SW_NUM)==true), dStep);
  2036. if(pSW->tOnJSTime.boolTrip)
  2037. {
  2038. fa_close_led(sw);
  2039. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  2040. {
  2041. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  2042. }
  2043. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  2044. {
  2045. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2046. }
  2047. if(soe_check(EV_HHGZ_P+sw*EV_SW_NUM)==true)
  2048. {
  2049. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2050. }
  2051. if(soe_check(EV_HHGZ_L+sw*EV_SW_NUM)==true)
  2052. {
  2053. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2054. }
  2055. }
  2056. bVTok=!pSet->bTT_fa_Icheck ; //电压时间型,不判故障电流
  2057. bVIok=(pSW->uSdhz_S.bFlag.bGL||pSW->uSdhz_S.bFlag.bGL_II||pSW->uSdhz_S.bFlag.bJD);//合后故障跳闸
  2058. bUoOk = pSW->uSdhz_S.bFlag.bOverU0 && pSet->bTT_fa_U0Tz && soe_check(EV_BE_UO+sw*EV_SW_NUM)==false;
  2059. if(((bVIok&&pSet->bTT_fa_gzTz)||bUoOk)&& !pR->bBSTZ) //合后有故障 且未遮断闭锁
  2060. {
  2061. fa_sw_opt(sw, EV_HHGZ);//合后故障分闸
  2062. if((soe_check(EV_HHGZ_P+sw*EV_SW_NUM) && pSW->uSdhz_S.bFlag.bUBCYY)
  2063. || (soe_check(EV_HHGZ_L+sw*EV_SW_NUM) && pSW->uSdhz_S.bFlag.bUABYY))
  2064. {
  2065. pSW->uSdhz_S.bFlag.bPower = !pSW->uSdhz_S.bFlag.bPower;
  2066. }
  2067. if(pSet->bTT_fa_gzbshz||bUoOk)//合后故障闭锁合闸
  2068. fa_s_state_change(sw,S_BSHHGZ);
  2069. ResetTR(&pSW->tOnJSTime);
  2070. }
  2071. break;
  2072. }
  2073. #endif
  2074. //X上电合闸失败
  2075. #ifdef FUNC_DRIVE_JY
  2076. //为避免传动合闸时直接进入YTIME而合闸拒动SOE未返回而导致进入错误态;
  2077. //正常逻辑进入YTIME时合闸拒动已返回,无需此延时;
  2078. if(gb_drive.b_clear_bs)
  2079. {
  2080. RunTR(&gb_drive.tDriveFaBSTime,true,dStep);
  2081. if(gb_drive.tDriveFaBSTime.boolTrip)
  2082. {
  2083. gb_drive.b_clear_bs = false;
  2084. if(soe_check(EV_HZFAIL+sw*EV_SW_NUM))
  2085. {
  2086. pSW->uSdhz_S.bFlag.bSNChange = pSW->uSdhz_S.bFlag.bPower;
  2087. if(soe_check(EV_X_SWFAIL+sw*EV_SW_NUM)==false)
  2088. soe_record_ev(EV_X_SWFAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  2089. fa_s_state_change(sw,S_BS_SW);// pSW->uSdhz_S.bFlag.bUABFlash = false;
  2090. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  2091. break;
  2092. }
  2093. }
  2094. }
  2095. else
  2096. #endif
  2097. {
  2098. if(soe_check(EV_HZFAIL+sw*EV_SW_NUM))
  2099. {
  2100. pSW->uSdhz_S.bFlag.bSNChange = pSW->uSdhz_S.bFlag.bPower;
  2101. if(soe_check(EV_X_SWFAIL+sw*EV_SW_NUM)==false)
  2102. soe_record_ev(EV_X_SWFAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  2103. fa_s_state_change(sw,S_BS_SW);// pSW->uSdhz_S.bFlag.bUABFlash = false;
  2104. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  2105. break;
  2106. }
  2107. }
  2108. #ifdef FA_BSYTIME_JS
  2109. #ifdef GD_AREA_ZHONGSHAN
  2110. RunTR(&pSW->tOnY_JSTime, pSW->uSdhz_S.bFlag.bTempJS && !pR->bBSTZ , dStep); //js时间计数
  2111. #else
  2112. RunTR(&pSW->tOnY_JSTime, pSW->uSdhz_S.bFlag.bDBYY&&pSW->uSdhz_S.bFlag.bTempJS && !pR->bBSTZ , dStep); //js时间计数
  2113. #endif
  2114. if(pSW->tOnY_JSTime.boolTrip)
  2115. rst_ybs_soe(sw);
  2116. #endif
  2117. pR->tSWST.uSWST.bFlag.bCYY = true; //防止开关位置遥信未来得及检测到,CYY标志未及时置一,CYY判断开关位置为合状态
  2118. if(pSW->uSdhz_S.bFlag.bGL||pSW->uSdhz_S.bFlag.bGL_II) //合后故障时间内发生故障在判故障时已与控制字关联
  2119. {
  2120. pR->tLostVot.uLostVot.bFlag.bGL = true;
  2121. }
  2122. if(pSW->uSdhz_S.bFlag.bJD) //合后故障时间内发生故障
  2123. {
  2124. pR->tLostVot.uLostVot.bFlag.bJD = true;
  2125. }
  2126. if(pSW->uSdhz_S.bFlag.bOverU0) //合后有接地故障启动零序过压
  2127. {
  2128. pR->tU0TZ.uZOV.bFlag.bU0Ov = true&&(!pSW->uSdhz_S.bFlag.bXOverUo);
  2129. }
  2130. pR->tLostVot.uLostVot.bFlag.bStartLock = pSW->tOnYSTime.boolTrip&&(!pR->tLostVot.uLostVot.bFlag.bGL)&&(!pR->tLostVot.uLostVot.bFlag.bJD); //Y时间内无失压且无故障,启动失压闭锁
  2131. if (pR->tLostVot.uLostVot.bFlag.bGL||pSW->uSdhz_S.bFlag.bGL_II||pR->tLostVot.uLostVot.bFlag.bJD||pR->tU0TZ.uZOV.bFlag.bU0Ov)
  2132. {
  2133. //if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==false)
  2134. //{
  2135. //soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 1, 0,0,0 );
  2136. //}
  2137. pR->tLostVot.uLostVot.bFlag.bFault=true;
  2138. }
  2139. bVTok=!pSet->bTT_fa_Icheck ; //电压时间型,不判故障电流
  2140. bVIok=(pSW->uSdhz_S.bFlag.bGL||pSW->uSdhz_S.bFlag.bGL_II||pSW->uSdhz_S.bFlag.bJD);//合后故障跳闸
  2141. bUoOk = pSW->uSdhz_S.bFlag.bOverU0 && pSet->bTT_fa_U0Tz && soe_check(EV_BE_UO+sw*EV_SW_NUM)==false;
  2142. if(((bVIok&&pSet->bTT_fa_gzTz)||bUoOk)&& !pR->bBSTZ) //合后有故障 且未遮断闭锁
  2143. {
  2144. fa_sw_opt(sw, EV_HHGZ);//合后故障分闸
  2145. pSW->uSdhz_S.bFlag.bSNChange = pSW->uSdhz_S.bFlag.bPower;
  2146. //pSW->uSdhz_S.bFlag.bPower=pSW->uSdhz_S.bFlag.bUABYY;
  2147. if(pSet->bTT_fa_gzbshz||bUoOk)//合后故障闭锁合闸
  2148. fa_s_state_change(sw,S_BSHHGZ);
  2149. else if(!pSet->bTT_fa_gzbshz&&bVTok)//电压时间型,主动跳闸后没投“合到故障闭锁合闸”,进入Y闭锁
  2150. fa_s_state_change(sw,S_BSYTIME);//
  2151. else
  2152. {
  2153. if(pSW->uSdhz_S.bFlag.bTempJS)//!!!正向闭锁临时解锁,电压方向需取反
  2154. pSW->uSdhz_S.bFlag.bPower=!pSW->uSdhz_S.bFlag.bPower;
  2155. fa_s_state_change(sw,S_USUAL);//直接切换至正常运行态
  2156. }
  2157. #ifdef FUNC_DRIVE_JY
  2158. gb_drive.b_clear_bs = false;
  2159. #endif
  2160. ResetTR(&pSW->tOnJSTime);
  2161. break;
  2162. }
  2163. #ifdef GD_AREA_ZHONGSHAN_2020//中山2020最新要求失压的时候有故障延时到报Y闭锁
  2164. else if(pSW->uSdhz_S.bFlag.bPowerZ && !pR->tLostVot.uLostVot.bFlag.bSHWY && !pR->bBSTZ && pR->tSWST.uSWST.bFlag.bFAWL)//Z停电&&未遮断闭锁,被动跳闸
  2165. #else
  2166. else if(pSW->uSdhz_S.bFlag.bPowerZ && !pR->bBSTZ && pR->tSWST.uSWST.bFlag.bFAWL)//Z停电&&未遮断闭锁,被动跳闸
  2167. #endif
  2168. {
  2169. pSW->uSdhz_S.bFlag.bSNChange = pSW->uSdhz_S.bFlag.bPower;
  2170. if(bVTok||(bVIok&&(pSet->bTT_fa_gzTz||pSet->bTT_fa_Icheck)))//电压时间型失压 或 电压电流型过流且失压
  2171. fa_s_state_change(sw,S_BSYTIME);//pSW->S_Status = S_BSYTIME; //进入Y闭锁状态
  2172. else if(pSW->uSdhz_S.bFlag.bTempJS)//!!!正向闭锁临时解锁,电压方向需取反
  2173. { //
  2174. pSW->uSdhz_S.bFlag.bPower=!pSW->uSdhz_S.bFlag.bPower;
  2175. fa_s_state_change(sw,S_BSYTIME);
  2176. }
  2177. #ifdef GD_AREA_ZHONGSHAN_2020//中山2020最新要求失压的时候有故障延时到报Y闭锁
  2178. else if(pSW->uSdhz_S.bFlag.bOCing)
  2179. {
  2180. fa_s_state_change(sw,S_BSYTIME);
  2181. }
  2182. #endif
  2183. else
  2184. {
  2185. fa_uf_clear(sw,false);
  2186. fa_s_state_change(sw,S_INIT);
  2187. }
  2188. #ifdef FUNC_DRIVE_JY
  2189. gb_drive.b_clear_bs = false;
  2190. #endif
  2191. fa_sw_opt(sw, EV_FA_FZ);
  2192. }
  2193. else if ( pSW->tOnYSTime.boolTrip)//如果Y计时完毕
  2194. {
  2195. pSW->uSdhz_S.bFlag.bYtOn = true;
  2196. if(pR->bBSTZ //闭锁
  2197. ||(!pR->tSWST.uSWST.bFlag.bFAWL&&pSW->uSdhz_S.bFlag.bPowerZ)//有流且失压
  2198. )
  2199. {
  2200. fa_s_state_change(sw,S_BSDL); //为满足分闸条件,等待至满足分闸条件为止
  2201. }
  2202. else if(pSet->bTT_fa_bsTz)
  2203. {
  2204. if(soe_check(EV_BSTZ_FA+sw*EV_SW_NUM)==false)
  2205. soe_record_ev(EV_BSTZ_FA+sw*EV_SW_NUM, 1, 0,0,0 );
  2206. fa_s_state_change(sw,S_BSFZ); //合闸成功进入闭锁分闸状态
  2207. }
  2208. else
  2209. {
  2210. if(pSW->uSdhz_S.bFlag.bTempJS)//!!!正向闭锁临时解锁,电压方向需取反
  2211. pSW->uSdhz_S.bFlag.bPower=!pSW->uSdhz_S.bFlag.bPower;
  2212. fa_s_state_change(sw,S_USUAL); //进入正常运行状态
  2213. pR->tLostVot.uLostVot.bFlag.bFault=false;
  2214. }
  2215. if(soe_check(EV_X_SWFAIL+sw*EV_SW_NUM)==false && pR->tSWST.uSWST.bFlag.bDITW)//X上电合闸失败
  2216. {
  2217. soe_record_ev(EV_X_SWFAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  2218. }
  2219. #ifdef FUNC_DRIVE_JY
  2220. gb_drive.b_clear_bs = false;
  2221. #endif
  2222. }
  2223. break;
  2224. }
  2225. case S_BS_SW:
  2226. if((soe_check(EV_X_SWFAIL+sw*EV_SW_NUM)||soe_check(EV_HZFAIL+sw*EV_SW_NUM)) && !pSW->uSdhz_S.bFlag.bPowerZ)//X上电合闸失败且未失压
  2227. {
  2228. #ifdef FUNC_DRIVE_JY
  2229. if(gb_drive.b_fa_reclose)
  2230. {
  2231. fa_s_state_change(sw,S_XTIME);
  2232. }
  2233. #endif
  2234. break;
  2235. }
  2236. else if((soe_check(EV_X_SWFAIL+sw*EV_SW_NUM)||soe_check(EV_HZFAIL+sw*EV_SW_NUM)) && pSW->uSdhz_S.bFlag.bPowerZ)////X上电合闸失败且失压
  2237. {
  2238. if(soe_check(EV_X_SWFAIL+sw*EV_SW_NUM))
  2239. soe_record_ev(EV_X_SWFAIL+sw*EV_SW_NUM, 0, 0,0,0 );
  2240. if(soe_check(EV_HZFAIL+sw*EV_SW_NUM))
  2241. soe_record_ev(EV_HZFAIL+sw*EV_SW_NUM, 0, 0,0,0 );
  2242. fa_s_state_change(sw,S_INIT);
  2243. break;
  2244. }
  2245. break;
  2246. case S_BSYTIME:
  2247. if(pR->tSWST.uSWST.bFlag.bDIHW )
  2248. {
  2249. if( soe_check(EV_TZFAIL+sw*EV_SW_NUM))//
  2250. {
  2251. fa_s_state_change(sw,S_BS_SW);
  2252. }
  2253. break;
  2254. }
  2255. if(!pSW->uSdhz_S.bFlag.bTempJS)//未临时解锁,则报Y闭锁SOE
  2256. {
  2257. if(pSW->uSdhz_S.bFlag.bPower)
  2258. {
  2259. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==false) // Y闭锁
  2260. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 1, 0,0,0 );
  2261. }
  2262. else
  2263. {
  2264. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==false) // Y闭锁
  2265. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 1, 0,0,0 );
  2266. }
  2267. }
  2268. #ifdef GD_AREA_ZHONGSHAN //中山局Y闭锁,需合闸且双侧有压才能解锁
  2269. pSW->uSdhz_S.bFlag.bTempJS = true;
  2270. ResetTR(&pSW->tOnY_JSTime); //js时间计数
  2271. if (pSW->uSdhz_S.bFlag.bOppositeYY &&
  2272. (soe_check(EV_BS_Y_P+sw*EV_SW_NUM)!=soe_check(EV_BS_Y_L+sw*EV_SW_NUM)||soe_check(EV_HHGZ_P+sw*EV_SW_NUM)!=soe_check(EV_HHGZ_L+sw*EV_SW_NUM)) )//对侧来电且双侧未闭锁
  2273. {
  2274. fa_s_bsYtime_js(sw,dStep);
  2275. }
  2276. #else//非中山局Y闭锁,反向来压直接解锁
  2277. #ifdef GD_AREA_ZHONGSHAN_2020
  2278. if(pSW->uSdhz_S.bFlag.bPowerZ)//(!pSW->uSdhz_S.bFlag.bDBYY && !pSW->uSdhz_S.bFlag.bOppositeYY)
  2279. {
  2280. ResetTR(&pSW->tOnJSTime);
  2281. }
  2282. RunTR(&pSW->tOnJSTime, (pSW->uSdhz_S.bFlag.bDBYY || pSW->uSdhz_S.bFlag.bOppositeYY)&&((soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)||(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)), dStep);
  2283. if(pSW->tOnJSTime.boolTrip) //如果双侧有压,js时间计时器
  2284. {
  2285. if(pSW->uSdhz_S.bFlag.bDBYY)
  2286. {
  2287. fa_s_state_change(sw,S_BSDOUBLE);
  2288. }
  2289. else if(pSW->uSdhz_S.bFlag.bOppositeYY)
  2290. {
  2291. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==false) // 对侧来电解锁
  2292. {
  2293. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 1, 0,0,0 );
  2294. #ifdef GD_AREA_ECZD_2020
  2295. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  2296. #endif
  2297. }
  2298. fa_rstbs_soe(sw);
  2299. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_INIT; //返回初始状态
  2300. //pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  2301. pSW->uSdhz_S.bFlag.bUABFlash = false;
  2302. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  2303. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  2304. {
  2305. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  2306. }
  2307. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  2308. {
  2309. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2310. }
  2311. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)
  2312. {
  2313. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2314. }
  2315. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)
  2316. {
  2317. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2318. }
  2319. if(soe_check(EV_HHGZ_P+sw*EV_SW_NUM)==true)
  2320. {
  2321. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2322. }
  2323. if(soe_check(EV_HHGZ_L+sw*EV_SW_NUM)==true)
  2324. {
  2325. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2326. }
  2327. }
  2328. }
  2329. #else
  2330. //对侧来电,且非双侧有压
  2331. if (pSW->uSdhz_S.bFlag.bOppositeYY) //对侧来电
  2332. {
  2333. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==false) // 对侧来电解锁
  2334. {
  2335. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 1, 0,0,0 );
  2336. #ifdef GD_AREA_ECZD_2020
  2337. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  2338. #endif
  2339. }
  2340. fa_rstbs_soe(sw);
  2341. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_INIT; //返回初始状态
  2342. //pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  2343. pSW->uSdhz_S.bFlag.bUABFlash = false;
  2344. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  2345. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  2346. {
  2347. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  2348. }
  2349. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  2350. {
  2351. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2352. }
  2353. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)
  2354. {
  2355. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2356. }
  2357. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)
  2358. {
  2359. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2360. }
  2361. if(soe_check(EV_HHGZ_P+sw*EV_SW_NUM)==true)
  2362. {
  2363. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2364. }
  2365. if(soe_check(EV_HHGZ_L+sw*EV_SW_NUM)==true)
  2366. {
  2367. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2368. }
  2369. }
  2370. #endif
  2371. #endif
  2372. break;
  2373. case S_BSHHGZ://合后故障
  2374. if(pR->tSWST.uSWST.bFlag.bDIHW)
  2375. {
  2376. if(soe_check(EV_TZFAIL+sw*EV_SW_NUM))//
  2377. {
  2378. fa_s_state_change(sw,S_BS_SW);
  2379. }
  2380. break;
  2381. }
  2382. #ifdef GD_AREA_ZHONGSHAN_2020
  2383. if(pR->tLostVot.uLostVot.bFlag.bSHWY)
  2384. { //手合无压进入Y时间闭锁后禁止解锁 2020-12-23
  2385. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==false) // EV_HHGZ闭锁
  2386. {
  2387. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 1, 0,0,0 );
  2388. }
  2389. break;
  2390. }
  2391. #endif
  2392. //if(pSW->uSdhz_S.bFlag.bYY && !pSW->uSdhz_S.bFlag.bPowerZ)//无压暂停计时
  2393. RunTR(&pSW->tOnYSTime, TRUE, dStep); //启动Y时间计数
  2394. if (!pSW->tOnYSTime.boolTrip)//Y计时未完毕失压
  2395. {
  2396. if(pSW->uSdhz_S.bFlag.bPowerZ)//当前失压且在合位
  2397. {
  2398. //合后故障后,Y时间内失压,加记录Y闭锁SOE
  2399. if(pSW->uSdhz_S.bFlag.bPower)
  2400. {
  2401. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==false) // Y闭锁
  2402. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 1, 0,0,0 );
  2403. }
  2404. else
  2405. {
  2406. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==false) // Y闭锁
  2407. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 1, 0,0,0 );
  2408. }
  2409. }
  2410. }
  2411. if(pSW->uSdhz_S.bFlag.bPower)
  2412. {
  2413. if(soe_check(EV_HHGZ_P+sw*EV_SW_NUM)==false) // Y闭锁
  2414. {
  2415. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 1, 0,0,0 );
  2416. }
  2417. }
  2418. else
  2419. {
  2420. if(soe_check(EV_HHGZ_L+sw*EV_SW_NUM)==false) // Y闭锁
  2421. {
  2422. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 1, 0,0,0 );
  2423. }
  2424. }
  2425. //if(pSW->uSdhz_S.bFlag.bPowerZ && pR->tSWST.uSWST.bFlag.bHZWZ)//当前失压且在合位
  2426. // fa_sw_opt(sw, EV_HHGZ);
  2427. //if(pSW->uSdhz_S.bFlag.bPower)
  2428. {
  2429. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==false) // EV_HHGZ闭锁
  2430. {
  2431. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 1, 0,0,0 );
  2432. }
  2433. }
  2434. #if defined GD_AREA_ZHUHAI_FTU//珠海局2019供货要求合后故障只能在有压且开关合位的时候才能解锁
  2435. break;
  2436. #endif
  2437. #ifdef FA_BSYTIME_JS
  2438. #ifdef GD_AREA_ZHONGSHAN_2020
  2439. if(!pSW->uSdhz_S.bFlag.bDBYY && !pSW->uSdhz_S.bFlag.bOppositeYY)
  2440. {
  2441. ResetTR(&pSW->tOnJSTime);
  2442. }
  2443. RunTR(&pSW->tOnJSTime, (pSW->uSdhz_S.bFlag.bDBYY || pSW->uSdhz_S.bFlag.bOppositeYY) && (soe_check(EV_HHGZ+sw*EV_SW_NUM)==true), dStep);
  2444. if(pSW->tOnJSTime.boolTrip)
  2445. {
  2446. if(pSW->uSdhz_S.bFlag.bDBYY)//如果双侧有压,js时间计时器
  2447. {
  2448. fa_s_state_change(sw,S_BSDOUBLE);
  2449. }
  2450. else if(pSW->uSdhz_S.bFlag.bOppositeYY)//对侧来电,且非双侧有压
  2451. {
  2452. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==false) // 对侧来电解锁
  2453. {
  2454. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 1, 0,0,0 );
  2455. #ifdef GD_AREA_ECZD_2020
  2456. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  2457. #endif
  2458. }
  2459. fa_rstbs_soe(sw);
  2460. fa_close_led(sw);
  2461. fa_s_state_change(sw,S_INIT);
  2462. pSW->uSdhz_S.bFlag.bUABFlash = false;
  2463. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  2464. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  2465. {
  2466. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  2467. }
  2468. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  2469. {
  2470. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2471. }
  2472. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)
  2473. {
  2474. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2475. }
  2476. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)
  2477. {
  2478. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2479. }
  2480. if(soe_check(EV_HHGZ_P+sw*EV_SW_NUM)==true)
  2481. {
  2482. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2483. }
  2484. if(soe_check(EV_HHGZ_L+sw*EV_SW_NUM)==true)
  2485. {
  2486. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2487. }
  2488. }
  2489. }
  2490. #elif defined GD_AREA_ZHONGSHAN
  2491. if(pSW->uSdhz_S.bFlag.bDBYY || pSW->uSdhz_S.bFlag.bOppositeYY)
  2492. {
  2493. fa_s_state_change(sw,S_XTIME);
  2494. if(soe_check(EV_FA_GL_TZ+sw*EV_SW_NUM)==true)
  2495. soe_record_ev(EV_FA_GL_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  2496. if(soe_check(EV_FA_LX_TZ+sw*EV_SW_NUM)==true)
  2497. soe_record_ev(EV_FA_LX_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  2498. }
  2499. #else
  2500. if (pSW->uSdhz_S.bFlag.bOppositeYY && !pSW->uSdhz_S.bFlag.bDBYY &&soe_check(EV_HHGZ_P+sw*EV_SW_NUM)!=soe_check(EV_HHGZ_L+sw*EV_SW_NUM)) //对侧来电,且非双侧有压
  2501. {
  2502. fa_s_bsYtime_js(sw,dStep);
  2503. }
  2504. #endif
  2505. #else
  2506. if (pSW->uSdhz_S.bFlag.bOppositeYY && !pSW->uSdhz_S.bFlag.bDBYY) //对侧来电,且非双侧有压
  2507. {
  2508. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==false) // 对侧来电解锁
  2509. {
  2510. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 1, 0,0,0 );
  2511. #ifdef GD_AREA_ECZD_2020
  2512. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  2513. #endif
  2514. }
  2515. fa_rstbs_soe(sw);
  2516. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_INIT; //返回初始状态
  2517. //pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  2518. pSW->uSdhz_S.bFlag.bUABFlash = false;
  2519. pSW->uSdhz_S.bFlag.bUBCFlash = false;
  2520. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  2521. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  2522. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  2523. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2524. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)
  2525. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2526. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)
  2527. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2528. }
  2529. #endif
  2530. break;
  2531. case S_BSDL://遮断电流
  2532. if(pSW->uSdhz_S.bFlag.bYY && !pSW->uSdhz_S.bFlag.bPowerZ)//无压暂停计时
  2533. RunTR(&pSW->tOnYSTime, TRUE, dStep); //启动Y时间计数
  2534. if (!pSW->tOnYSTime.boolTrip)//Y计时未完毕失压
  2535. {
  2536. if(pSW->uSdhz_S.bFlag.bPowerZ)
  2537. {
  2538. //合后故障后,Y时间内失压,加记录Y闭锁SOE
  2539. if(pSW->uSdhz_S.bFlag.bPower)
  2540. {
  2541. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==false) // Y闭锁
  2542. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 1, 0,0,0 );
  2543. }
  2544. else
  2545. {
  2546. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==false) // Y闭锁
  2547. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 1, 0,0,0 );
  2548. }
  2549. }
  2550. }
  2551. bVTok=!pSet->bTT_fa_Icheck ; //电压时间型,不判故障电流
  2552. bVIok=(pSW->uSdhz_S.bFlag.bGL||pSW->uSdhz_S.bFlag.bGL_II||pSW->uSdhz_S.bFlag.bJD)&&pSet->bTT_fa_gzbshz;
  2553. bUoOk = pSW->uSdhz_S.bFlag.bOverU0 && pSet->bTT_fa_U0Tz;
  2554. if((bVIok||bUoOk) //合后有故障
  2555. &&pSet->bTT_fa_gzTz //合后故障跳闸
  2556. && !pR->bBSTZ) //未遮断闭锁 -> //合后故障,主动跳闸
  2557. {
  2558. fa_sw_opt(sw, EV_HHGZ);
  2559. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  2560. fa_s_state_change(sw,S_BSHHGZ);//主动跳闸过了Y时限,不报Y闭锁
  2561. }
  2562. else if(pSW->uSdhz_S.bFlag.bPowerZ&& !pR->bBSTZ&&pR->tSWST.uSWST.bFlag.bFAWL)//Z停电,被动跳闸,电压时间型
  2563. {
  2564. fa_sw_opt(sw, EV_FA_FZ);
  2565. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  2566. //if(bVTok)//电压时间型失压
  2567. fa_s_state_change(sw,S_BSYTIME);//pSW->S_Status = S_BSYTIME; //进入Y闭锁状态
  2568. //else
  2569. // fa_s_state_change(sw,S_INIT);
  2570. }
  2571. break;
  2572. case S_BSFZ://合闸成功闭锁失压分
  2573. RunTR(&pSW->tOnBSTZTime, TRUE, dStep); //启动Y时间计数
  2574. if(pSW->uSdhz_S.bFlag.bYY)
  2575. {
  2576. pR->tLostVot.uLostVot.bFlag.bSHWY=false;//清手分闭锁标志
  2577. }
  2578. if(pSW->tOnBSTZTime.boolTrip||!KZ_OUT_ALL_EN(sw))
  2579. {
  2580. //if (pSW->uSdhz_S.bFlag.bPowerZ || !pR->tSWST.uSWST.bFlag.bHZWZ)//失压或者当前分位
  2581. if(soe_check(EV_BSTZ_FA+sw*EV_SW_NUM)==true)
  2582. soe_record_ev(EV_BSTZ_FA+sw*EV_SW_NUM, 0, 0,0,0 );
  2583. fa_s_state_change(sw,S_USUAL);
  2584. }
  2585. else if(!pR->tSWST.uSWST.bFlag.bHZWZ)//手分?
  2586. {
  2587. if(soe_check(EV_BSTZ_FA+sw*EV_SW_NUM)==true)
  2588. soe_record_ev(EV_BSTZ_FA+sw*EV_SW_NUM, 0, 0,0,0 );
  2589. fa_uf_clear(sw,false);
  2590. fa_s_state_change(sw,S_INIT);
  2591. }
  2592. break;
  2593. case S_USUAL:
  2594. #ifdef FA_OC_COUNT
  2595. if(isBs_fa_oc_count(sw))//过流脉冲计数闭锁
  2596. {
  2597. if(!pSW->uSdhz_S.bFlag.bYY && pR->tSWST.uSWST.bFlag.bFAWL)
  2598. {
  2599. fa_sw_opt(sw, EV_FA_FZ);
  2600. fa_uf_clear(sw,false);
  2601. if(soe_check(EV_BS_OC_COUNT+sw*EV_SW_NUM)==false) // 脉冲计数闭锁
  2602. soe_record_ev(EV_BS_OC_COUNT+sw*EV_SW_NUM,1, 0,0,0 );
  2603. }
  2604. break;
  2605. }
  2606. #endif
  2607. if(!pR->tSWST.uSWST.bFlag.bHZWZ || !pR->tSWST.uSWST.bFlag.bDIHW)//开关拉杆分闸,手分
  2608. {
  2609. fa_uf_clear(sw,false);
  2610. #ifdef FA_BSYTIME_JS
  2611. if(pSW->uSdhz_S.bFlag.bTempJS)
  2612. { //当前正向闭锁未解锁,需切换至Y闭锁状态
  2613. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  2614. fa_s_state_change(sw,S_BSYTIME);
  2615. }
  2616. else
  2617. #endif
  2618. {
  2619. fa_s_state_change(sw,S_INIT);
  2620. }
  2621. break;
  2622. }
  2623. if(pR->tLostVot.uLostVot.bFlag.bSHWY && !pSet->bTT_fa_shbs)//手合无压,闭锁合闸
  2624. {
  2625. if(pSW->uSdhz_S.bFlag.bYY) //有压
  2626. pR->tLostVot.uLostVot.bFlag.bSHWY = FALSE; //清手合无压标志
  2627. else
  2628. break;
  2629. }
  2630. #ifdef FA_BSYTIME_JS
  2631. //正向闭锁需等待解锁处理
  2632. #ifdef GD_AREA_ZHONGSHAN
  2633. RunTR(&pSW->tOnY_JSTime, pSW->uSdhz_S.bFlag.bTempJS && !pR->bBSTZ , dStep); //js时间计数
  2634. #elif defined GD_AREA_ECZD_2020
  2635. RunTR(&pSW->tOnY_JSTime,((pR->tSWST.uSWST.bFlag.bDITW && pSW->uSdhz_S.bFlag.bDBYY)// 双侧有压 && 分位
  2636. || (pR->tSWST.uSWST.bFlag.bDIHW && pSW->uSdhz_S.bFlag.bYY))// 有压 && 合位
  2637. && pSW->uSdhz_S.bFlag.bTempJS,dStep);
  2638. #else
  2639. RunTR(&pSW->tOnY_JSTime, pSW->uSdhz_S.bFlag.bDBYY&&pSW->uSdhz_S.bFlag.bTempJS && !pR->bBSTZ , dStep); //js时间计数
  2640. #endif
  2641. if(pSW->tOnY_JSTime.boolTrip)
  2642. rst_ybs_soe(sw);
  2643. else if(!pSW->tOnY_JSTime.boolTrip && pSW->uSdhz_S.bFlag.bPowerZ&&pSW->uSdhz_S.bFlag.bTempJS)//正向闭锁后未解锁,且失压 再次Y闭锁
  2644. {
  2645. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  2646. fa_s_state_change(sw,S_BSYTIME);
  2647. }
  2648. #endif
  2649. if (!pSW->uSdhz_S.bFlag.bPowerZ)//等待无压
  2650. break;
  2651. if (pSW->uSdhz_S.bFlag.bPowerZ&&pR->tSWST.uSWST.bFlag.bHZWZ && pR->tSWST.uSWST.bFlag.bFAWL) //失压
  2652. {
  2653. if(pSet->bTT_hzbs)//正常运行,连续闭锁分闸投入
  2654. {
  2655. pR->thzbs.fztimes++;
  2656. rt_printf("连续闭锁分闸次数 = %d次 \r\n",pR->thzbs.fztimes);
  2657. }
  2658. fa_sw_opt(sw, EV_FA_FZ);
  2659. fa_uf_clear(sw,false);
  2660. #ifdef FA_BSYTIME_JS
  2661. if(pSW->uSdhz_S.bFlag.bTempJS)
  2662. { //当前正向闭锁未解锁,需切换至Y闭锁状态
  2663. pSW->uSdhz_S.bFlag.bSNChange=pSW->uSdhz_S.bFlag.bPower;
  2664. fa_s_state_change(sw,S_BSYTIME);
  2665. }
  2666. else
  2667. #endif
  2668. {
  2669. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_INIT; //进入U-Z状态,即正常运行中的失电状态
  2670. }
  2671. if(soe_check(EV_SH_BSFZ+sw*EV_SW_NUM)==true) //
  2672. {
  2673. soe_record_ev(EV_SH_BSFZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2674. }
  2675. }
  2676. break;
  2677. default:
  2678. break;
  2679. }
  2680. }
  2681. /**************************************************************************
  2682. 函数名称:Pro_L_Status_RUN
  2683. 函数版本:1.00
  2684. 作者: 电力产品开发部
  2685. 创建日期:2011.10.28
  2686. 函数功能说明:联络点状态流程
  2687. 输入参数:
  2688. 其他输入:
  2689. 输出参数:
  2690. 返回值:
  2691. ***************************************************************************/
  2692. static void fa_l_status_run(int sw, DWORD dStep)
  2693. {
  2694. TRELAY_T *pR=&g_tRelay[sw];
  2695. TSDHZ_T *pSW = &pR->tSDHZ;
  2696. TSETSW *pSet = &pRunSet->tSwSet[sw];
  2697. bool bVTok,bVIok,bUoOk;
  2698. DWORD U01 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U01].m2[0]), 256, g_ui[PUB_AC_U01].m2_factor_k);
  2699. DWORD U02 = _Mul_Div_U(sqrt_32fix(g_ui[PUB_AC_U02].m2[0]), 256, g_ui[PUB_AC_U02].m2_factor_k);
  2700. static bool TempBSTZ;//保存Y时间内产生的遮断信息
  2701. #ifdef FA_PL_PJ
  2702. bool bFreq0,bFreq1;
  2703. float freq0,freq1;
  2704. //频率在要求范围内
  2705. freq0=freq_get(0);
  2706. freq1=freq_get(1);
  2707. //电源1频率判断
  2708. if((freq0>=48.9) && (freq0<=50.9))
  2709. {
  2710. bFreq0 = true;
  2711. }
  2712. else
  2713. {
  2714. bFreq0 = false;
  2715. }
  2716. //电源2频率判断
  2717. if((freq1>=48.9) && (freq1<=50.9))
  2718. {
  2719. bFreq1 = true;
  2720. }
  2721. else
  2722. {
  2723. bFreq1 = false;
  2724. }
  2725. #endif
  2726. if(pSW->uSdhz_L.bFlag.bYY)
  2727. pSW->bSDHZinit=true;
  2728. if(!pSW->bSDHZinit)//未曾有压
  2729. return;
  2730. switch(pSW->L_Status)
  2731. {
  2732. case L_INIT:
  2733. ResetTR(&pSW->tOnXLTime);
  2734. #ifdef GD_AREA_ZHONGSHAN_2020//中山2020需要独立设置联络充电时间
  2735. ResetTR(&pSW->tOnLLCDYLTime);
  2736. #endif
  2737. ResetTR(&pSW->tOnYLTime);
  2738. ResetTR(&pSW->tOnZLTime);
  2739. #ifdef FA_PL_PJ
  2740. ResetTR(&pSW->tFREQLAB25ms);
  2741. ResetTR(&pSW->tFREQLBC25ms);
  2742. #endif
  2743. ResetTR(&pSW->tL_RELAYONL3s);
  2744. pR->uRmtSW.bYH_fajs_flag=false;
  2745. pR->run_stu.fa_ll_cd=0;
  2746. //if(fa_check_auto_l_bs(sw))return;
  2747. if (pSW->uSdhz_L.bFlag.bYY)
  2748. pSW->uSdhz_L.bFlag.bPower = pSW->uSdhz_L.bFlag.bUABYY; //记录上电侧
  2749. #ifdef GD_AREA_ZHONGSHAN_2020
  2750. if(pSW->uSdhz_L.bFlag.bYY) //有压
  2751. {
  2752. pR->tLostVot.uLostVot.bFlag.bSHWY = FALSE; //清手合无压标志
  2753. }
  2754. if(!pR->tLostVot.uLostVot.bFlag.bSHWY )//手合无压,闭锁合闸
  2755. {
  2756. if(pR->tSWST.uSWST.bFlag.bDIHW && pSW->uSdhz_L.bFlag.bPowerZ)//防止开关在合位不分闸 2020-11-13
  2757. {
  2758. pR->tLostVot.uLostVot.bFlag.bSHWY= true;//防止分闸过程中未检测到合位,多次进入失压分闸操作函数 2020-11-16
  2759. fa_sw_opt(sw, EV_FA_FZ);
  2760. }
  2761. }
  2762. //中山2020要求闭锁后需经双侧有压、分位且持续6s解锁 2020-10-24
  2763. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)
  2764. ||soe_check(EV_BS_Y_P+sw*EV_SW_NUM)
  2765. ||soe_check(EV_BS_Y_L+sw*EV_SW_NUM)
  2766. ||soe_check(EV_BS_UF_P+sw*EV_SW_NUM)
  2767. ||soe_check(EV_BS_UF_L+sw*EV_SW_NUM)
  2768. ||soe_check(EV_BS_HA+sw*EV_SW_NUM)
  2769. )
  2770. {
  2771. RunTR(&pSW->tOnJSTime, pSW->uSdhz_L.bFlag.bDBYY && !pR->tSWST.uSWST.bFlag.bDIHW, dStep); //js时间计数
  2772. if(!pSW->tOnJSTime.boolTrip)
  2773. break;
  2774. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)==true) // 手动分闸,闭锁合闸
  2775. {
  2776. soe_record_ev(EV_BS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  2777. }
  2778. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  2779. {
  2780. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2781. }
  2782. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==true)
  2783. {
  2784. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2785. }
  2786. if(soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==true)
  2787. {
  2788. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2789. }
  2790. }
  2791. #endif
  2792. if(soe_check(EV_L_LST_T+sw*EV_SW_NUM)==true)
  2793. {
  2794. soe_record_ev(EV_L_LST_T+sw*EV_SW_NUM, 0, 0,0,0 ); //联络单侧失压时间到
  2795. }
  2796. if(soe_check(EV_FA_FZ+sw*EV_SW_NUM)==true)
  2797. {
  2798. soe_record_ev(EV_FA_FZ+sw*EV_SW_NUM, 0, 0,0,0 ); //失电分闸
  2799. }
  2800. if(soe_check(EV_FA_GL_TZ+sw*EV_SW_NUM)==true)
  2801. soe_record_ev(EV_FA_GL_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  2802. //#if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 //潮州局要求合后电流两段处理
  2803. #if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 || defined GD_AREA_MAIN_2020
  2804. if(soe_check(EV_FA_GL_TZ2+sw*EV_SW_NUM)==true)
  2805. soe_record_ev(EV_FA_GL_TZ2+sw*EV_SW_NUM, 0, 0,0 ,0 );
  2806. #endif
  2807. if(soe_check(EV_FA_LX_TZ+sw*EV_SW_NUM)==true)
  2808. soe_record_ev(EV_FA_LX_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  2809. if(soe_check(EV_SH_BSFZ+sw*EV_SW_NUM)==true) //
  2810. soe_record_ev(EV_SH_BSFZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2811. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  2812. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0 ,0 );
  2813. //2020-03-17
  2814. #if defined GD_AREA_ZHONGSHAN || defined GD_AREA_ZHONGSHAN_2020
  2815. if(soe_check(EV_FA_LL_EN+sw*EV_SW_NUM)==true)//自转电功能投入SOE返回
  2816. {
  2817. soe_record_ev(EV_FA_LL_EN+sw*EV_SW_NUM, 0, 0,0,0 );
  2818. }
  2819. #ifdef GD_AREA_ZHONGSHAN_2020
  2820. if(soe_check(EV_FA_HZ_OK+sw*EV_SW_NUM)==true)//联络合闸成功返回
  2821. {
  2822. soe_record_ev(EV_FA_HZ_OK+sw*EV_SW_NUM, 0, 0,0,0 );
  2823. }
  2824. if(soe_check(EV_FA_HZ_FAIL+sw*EV_SW_NUM)==true)//自转电失败SOE返回
  2825. {
  2826. soe_record_ev(EV_FA_HZ_FAIL+sw*EV_SW_NUM, 0, 0,0,0 );
  2827. }
  2828. #endif
  2829. #endif
  2830. #ifdef GD_AREA_ZHONGSHAN
  2831. if(soe_check(EV_GOOSE_HZ_OK+sw*EV_SW_NUM)==true)
  2832. {
  2833. soe_record_ev(EV_GOOSE_HZ_OK+sw*EV_SW_NUM, 0, 0,0,0 );
  2834. }
  2835. #endif
  2836. if(soe_check(EV_FA_HZ_OK+sw*EV_SW_NUM)==true)//联络合闸成功返回
  2837. {
  2838. soe_record_ev(EV_FA_HZ_OK+sw*EV_SW_NUM, 0, 0,0,0 );
  2839. }
  2840. if(soe_check(EV_FA_LL_CD+sw*EV_SW_NUM)==true)
  2841. {
  2842. soe_record_ev(EV_FA_LL_CD+sw*EV_SW_NUM, 0, 0,0,0 );
  2843. }
  2844. if (pSW->uSdhz_L.bFlag.bDBYY) //两侧有压
  2845. {
  2846. fa_uf_clear(sw,true);
  2847. if(pR->tSWST.uSWST.bFlag.bDIHW)
  2848. fa_l_state_change(sw,L_YL_TIME);
  2849. else
  2850. {
  2851. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  2852. if((!soe_check(EV_PT2ERR) && pSW->uSdhz_L.bFlag.bHzEnable_P) || (!soe_check(EV_PT1ERR) && pSW->uSdhz_L.bFlag.bHzEnable_L))
  2853. #endif
  2854. {
  2855. fa_l_state_change(sw,L_BS_STATE);
  2856. }
  2857. }
  2858. }
  2859. else if(pSW->uSdhz_L.bFlag.bYY && pR->tSWST.uSWST.bFlag.bDIHW)
  2860. {
  2861. fa_uf_clear(sw,true);
  2862. fa_l_state_change(sw,L_YL_TIME);
  2863. }
  2864. #ifdef GD_TEST_2021
  2865. if(soe_check(EV_L_A_LST_ALA+sw*EV_SW_NUM))
  2866. soe_record_ev(EV_L_A_LST_ALA+sw*EV_SW_NUM, 0, 0,0,0 );
  2867. if(soe_check(EV_L_A_LST_HZ+sw*EV_SW_NUM))
  2868. soe_record_ev(EV_L_A_LST_HZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2869. if(soe_check(EV_L_B_LST_ALA+sw*EV_SW_NUM))
  2870. soe_record_ev(EV_L_B_LST_ALA+sw*EV_SW_NUM, 0, 0,0,0 );
  2871. if(soe_check(EV_L_B_LST_HZ+sw*EV_SW_NUM))
  2872. soe_record_ev(EV_L_B_LST_HZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2873. #endif
  2874. break;
  2875. case L_BS_STATE:
  2876. #ifdef GD_AREA_ZHONGSHAN_2020//中山2020需要独立设置联络充电时间
  2877. //if(pSW->uSdhz_L.bFlag.bYY && soe_check_pt_ok(sw))//无压暂停计时
  2878. RunTR(&pSW->tOnLLCDYLTime, TRUE, dStep); //启动Y时间计数
  2879. #else
  2880. //if(pSW->uSdhz_L.bFlag.bYY && soe_check_pt_ok(sw))//无压暂停计时
  2881. RunTR(&pSW->tOnYLTime, TRUE, dStep); //启动Y时间计数
  2882. #endif
  2883. //零序电压不允许解锁 2021-4-27
  2884. if((pSW->uSdhz_L.bFlag.bOverU0 && (pSet->bTT_fa_U0Tz||pSet->bTT_fa_U0Gj))
  2885. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  2886. || (!soe_check_pt_ok(sw))
  2887. #endif
  2888. )
  2889. ResetTR(&pSW->tOnYLTime);
  2890. #if defined GD_AREA_MAIN_2020 || defined GD_AREA_ECZD_2020
  2891. if(soe_check(EV_BS_DB+sw*EV_SW_NUM)==false)
  2892. {
  2893. soe_record_ev(EV_BS_DB+sw*EV_SW_NUM, 1, 0,0,0 );
  2894. }
  2895. #endif
  2896. #ifdef GD_AREA_ZHONGSHAN_2020
  2897. if ((!pSW->tOnLLCDYLTime.boolTrip) && pSW->uSdhz_L.bFlag.bOneLostV)//如果Y计时未完成且一侧失压
  2898. #else
  2899. if ((!pSW->tOnYLTime.boolTrip) && pSW->uSdhz_L.bFlag.bOneLostV)//如果Y计时未完成且一侧失压
  2900. #endif
  2901. {
  2902. ResetTR(&pSW->tOnZLTime);
  2903. fa_l_state_change(sw,L_Y_ZTIME);
  2904. #if defined GD_AREA_MAIN_2020 || defined GD_AREA_ECZD_2020
  2905. if(soe_check(EV_BS_DB+sw*EV_SW_NUM))
  2906. {
  2907. soe_record_ev(EV_BS_DB+sw*EV_SW_NUM, 0, 0,0,0 );
  2908. }
  2909. #endif
  2910. }
  2911. #ifdef GD_AREA_ZHONGSHAN_2020//中山2020需要独立设置联络充电时间
  2912. else if (pSW->tOnLLCDYLTime.boolTrip && soe_check_pt_ok(sw)) //如果Y计时完毕
  2913. #else
  2914. else if (pSW->tOnYLTime.boolTrip && soe_check_pt_ok(sw)) //如果Y计时完毕
  2915. #endif
  2916. {
  2917. pR->run_stu.fa_ll_cd=1;
  2918. fa_uf_clear(sw,true);
  2919. fa_close_led(sw);
  2920. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  2921. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  2922. fa_l_state_change(sw,L_USUAL);
  2923. if((soe_check(EV_JS_L+sw*EV_SW_NUM)==false)&&(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)||soe_check(EV_BS_UF_L+sw*EV_SW_NUM)))
  2924. {
  2925. soe_record_ev(EV_JS_L+sw*EV_SW_NUM, 1, 0,0,0 );
  2926. }
  2927. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==true)
  2928. {
  2929. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 0, 0,0,0 );
  2930. }
  2931. if(soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==true)
  2932. {
  2933. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 0, 0,0,0 );
  2934. }
  2935. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)==true)
  2936. {
  2937. soe_record_ev(EV_BS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  2938. }
  2939. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)==true)
  2940. {
  2941. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 0, 0,0,0 );
  2942. }
  2943. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)==true)
  2944. {
  2945. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 0, 0,0,0 );
  2946. }
  2947. //2020-03-17
  2948. #ifdef GD_AREA_ZHONGSHAN
  2949. if(soe_check(EV_GOOSE_HZ_FAIL+sw*EV_SW_NUM)==true)//自转电失败SOE返回
  2950. {
  2951. soe_record_ev(EV_GOOSE_HZ_FAIL+sw*EV_SW_NUM, 0, 0,0,0 );
  2952. }
  2953. #endif
  2954. if(soe_check(EV_FA_HZ_FAIL+sw*EV_SW_NUM)==true)//自转电失败SOE返回
  2955. {
  2956. soe_record_ev(EV_FA_HZ_FAIL+sw*EV_SW_NUM, 0, 0,0,0 );
  2957. }
  2958. if(soe_check(EV_FA_LL_CD+sw*EV_SW_NUM)==false)
  2959. {
  2960. soe_record_ev(EV_FA_LL_CD+sw*EV_SW_NUM, 1, 0,0,0 );
  2961. }
  2962. #if defined GD_AREA_ZHONGSHAN || defined GD_AREA_ZHONGSHAN_2020
  2963. if(soe_check(EV_FA_LL_EN+sw*EV_SW_NUM)==false)//自转电功能SOE置位
  2964. {
  2965. soe_record_ev(EV_FA_LL_EN+sw*EV_SW_NUM, 1, 0,0,0 );
  2966. }
  2967. #endif
  2968. pSW->uSdhz_L.bFlag.bLockUFlash = FALSE;
  2969. }
  2970. break;
  2971. case L_Y_ZTIME:
  2972. RunTR(&pSW->tOnZLTime, TRUE, dStep); //启动Z时间计数
  2973. if ((!pSW->tOnZLTime.boolTrip) && pSW->uSdhz_L.bFlag.bDBYY) //如果Z计时未完时失压侧恢复供电
  2974. {
  2975. ResetTR(&pSW->tOnZLTime);
  2976. //pSW->L_Status = L_BS_STATE; //返回Y计时状态
  2977. fa_l_state_change(sw,L_BS_STATE);
  2978. }
  2979. else if (pSW->tOnZLTime.boolTrip) //如果Z计时完成
  2980. {
  2981. ResetTR(&pSW->tOnYLTime); //清零Y计时
  2982. pSW->uSdhz_L.wfFlag = 0; //返回初始状态
  2983. fa_l_state_change(sw,L_INIT);
  2984. }
  2985. break;
  2986. case L_USUAL:
  2987. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  2988. if(!cheak_pt_ok_ing(sw))
  2989. {
  2990. if(soe_check(EV_PT1ERR))
  2991. {
  2992. pSW->uSdhz_L.bFlag.bPtErr_P = true;
  2993. }
  2994. if(soe_check(EV_PT2ERR))
  2995. {
  2996. pSW->uSdhz_L.bFlag.bPtErr_L = true;
  2997. }
  2998. }
  2999. #endif
  3000. #ifdef FUNC_YL_FZ_SOE
  3001. if(soe_check(EV_YL_FZ+sw*EV_SW_NUM))
  3002. {
  3003. soe_record_ev(EV_YL_FZ+sw*EV_SW_NUM, 0, 0,0,0 );
  3004. }
  3005. #endif
  3006. if (pSW->uSdhz_L.bFlag.bOneLostV) //如果一侧失压
  3007. {
  3008. pSW->uSdhz_L.bFlag.bPower = pSW->uSdhz_L.bFlag.bUABYY;
  3009. //pSW->L_Status = L_XLTIME; //进入X延时投入状态,
  3010. ResetTR(&pSW->tOnYLTime); //清零Y计时
  3011. ResetTR(&pSW->tUFDBTime); //清零
  3012. fa_uf_clear(sw,true);
  3013. if((pSW->uSdhz_L.bFlag.bPower&&(!pSet->bTT_fa_lineoff)) //负荷侧失压,负荷侧失压合闸退出
  3014. || ((!pSW->uSdhz_L.bFlag.bPower)&&(!pSet->bTT_fa_poweroff)) // 电源侧失压,电源侧侧失压合闸退出
  3015. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  3016. || (pSW->uSdhz_L.bFlag.bPtErr_P || pSW->uSdhz_L.bFlag.bPtErr_L)
  3017. #endif
  3018. )
  3019. {
  3020. //pSW->L_Status = L_INIT; //进入初始状态,重新充电
  3021. fa_l_state_change(sw,L_INIT);
  3022. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  3023. if(!pSW->uSdhz_L.bFlag.bPower && pSW->uSdhz_L.bFlag.bPtErr_P)
  3024. {
  3025. pSW->uSdhz_L.bFlag.bBsXtime_P = true;
  3026. pSW->uSdhz_L.bFlag.bPtErr_P = false;
  3027. }
  3028. if(pSW->uSdhz_L.bFlag.bPower && pSW->uSdhz_L.bFlag.bPtErr_L)
  3029. {
  3030. pSW->uSdhz_L.bFlag.bBsXtime_L = true;
  3031. pSW->uSdhz_L.bFlag.bPtErr_L = false;
  3032. }
  3033. #endif
  3034. }
  3035. else
  3036. {
  3037. fa_l_state_change(sw,L_XLTIME);
  3038. }
  3039. #if defined GD_AREA_MAIN_2020 || defined GD_AREA_ECZD_2020
  3040. if(soe_check(EV_BS_DB+sw*EV_SW_NUM))
  3041. {
  3042. soe_record_ev(EV_BS_DB+sw*EV_SW_NUM, 0, 0,0,0 );
  3043. }
  3044. #endif
  3045. }
  3046. else if(!pSW->uSdhz_L.bFlag.bYY)
  3047. {
  3048. //pSW->L_Status = L_INIT; //两侧失压进入初始状态
  3049. fa_l_state_change(sw,L_INIT);
  3050. #if defined GD_AREA_MAIN_2020 || defined GD_AREA_ECZD_2020
  3051. if(soe_check(EV_BS_DB+sw*EV_SW_NUM))
  3052. {
  3053. soe_record_ev(EV_BS_DB+sw*EV_SW_NUM, 0, 0,0,0 );
  3054. }
  3055. #endif
  3056. }
  3057. break;
  3058. case L_XLTIME:
  3059. #if defined GD_AREA_MAIN_2020 || defined GD_AREA_ECZD_2020
  3060. if(soe_check(EV_BS_DB+sw*EV_SW_NUM))
  3061. {
  3062. soe_record_ev(EV_BS_DB+sw*EV_SW_NUM, 0, 0,0,0 );
  3063. }
  3064. #endif
  3065. #ifdef FA_PL_PJ
  3066. if(pRunSet->bTT_judgeFreq)
  3067. {
  3068. RunTR(&pSW->tFREQLAB25ms,bFreq0,dStep);
  3069. RunTR(&pSW->tFREQLBC25ms,bFreq1,dStep);
  3070. }
  3071. else
  3072. {
  3073. pSW->tFREQLAB25ms.boolTrip = true;
  3074. pSW->tFREQLBC25ms.boolTrip = true;
  3075. }
  3076. #endif
  3077. #ifdef FA_PL_PJ
  3078. if(((pSW->uSdhz_L.bFlag.bUABYY && pSW->tFREQLAB25ms.boolTrip) || (pSW->uSdhz_L.bFlag.bUBCYY && pSW->tFREQLBC25ms.boolTrip))
  3079. && !pSW->uSdhz_L.bFlag.bOppositeYY)
  3080. #else
  3081. #ifdef GD_AREA_ECZD_2020
  3082. if(pSW->uSdhz_L.bFlag.bYY && !pSW->uSdhz_L.bFlag.bOppositeYY)
  3083. #endif
  3084. #endif
  3085. {
  3086. RunTR(&pSW->tOnXLTime, soe_check_pt_ok(sw), dStep); //启动X时间计数
  3087. }
  3088. RunTR(&pSW->tOnZLTime, TRUE, dStep); //启动Z时间计数
  3089. //if (pSW->uSdhz_L.bFlag.bPower != pSW->uSdhz_L.bFlag.bUABYY) //电压方向有变化
  3090. //{
  3091. // fa_l_state_change(sw,L_INIT);
  3092. // break;
  3093. //}
  3094. //合前零压
  3095. if(pSW->uSdhz_L.bFlag.bOverU0 && (pSet->bTT_fa_U0Tz||pSet->bTT_fa_U0Gj))
  3096. {
  3097. if(soe_check(EV_BE_UO+sw*EV_SW_NUM)==false) //
  3098. soe_record_ev(EV_BE_UO+sw*EV_SW_NUM, 1, U01>U02?U01:U02,0,0 );
  3099. }
  3100. if (pSW->uSdhz_L.bFlag.bUABFlash||pSW->uSdhz_L.bFlag.bUBCFlash||pSW->uSdhz_L.bFlag.bDBYY)//如果X计数过程中有瞬时电压
  3101. {
  3102. if(pSW->uSdhz_L.bFlag.bDBYY)//在YL时间内双侧有压认为是残压,过了YL时间则进入初始状态
  3103. {
  3104. pSW->uSdhz_L.bFlag.bUABFlash = !pSW->uSdhz_L.bFlag.bPower;
  3105. pSW->uSdhz_L.bFlag.bUBCFlash = pSW->uSdhz_L.bFlag.bPower;
  3106. }
  3107. ResetTR(&pSW->tOnYLTime);
  3108. pSW->uSdhz_L.bFlag.bSNChange = pSW->uSdhz_L.bFlag.bUABFlash;//残压方向
  3109. fa_l_state_change(sw,L_XL_ZTIME);
  3110. }
  3111. else if (pSW->tOnXLTime.boolTrip && pSW->uSdhz_L.bFlag.bOneLostV ) //如果X计数完毕
  3112. {
  3113. #ifdef FUNC_NYY_NWY
  3114. if((pSW->uSdhz_L.bFlag.bUABYY && pSW->uSdhz_L.bFlag.bUBC_NYY_NWY)
  3115. || (pSW->uSdhz_L.bFlag.bUBCYY && pSW->uSdhz_L.bFlag.bUAB_NYY_NWY))
  3116. {
  3117. pSW->uSdhz_L.wfFlag = 0;
  3118. fa_l_state_change(sw,L_INIT);
  3119. }
  3120. else
  3121. #endif
  3122. {
  3123. #ifdef GD_TEST_2021
  3124. if(pSW->uSdhz_L.bFlag.bUABYY){
  3125. if(pSet->bTT_fa_lineoff == 1){
  3126. if(!soe_check(EV_L_B_LST_ALA+sw*EV_SW_NUM))
  3127. soe_record_ev(EV_L_B_LST_ALA+sw*EV_SW_NUM, 1, 0,0,0 );
  3128. }else{
  3129. pSW->uSdhz_L.bFlag.bRLONFLAG = TRUE;
  3130. if(!soe_check(EV_L_B_LST_HZ+sw*EV_SW_NUM))
  3131. soe_record_ev(EV_L_B_LST_HZ+sw*EV_SW_NUM, 1, 0,0,0 );
  3132. }
  3133. }else{
  3134. if(pSet->bTT_fa_poweroff == 1){
  3135. if(!soe_check(EV_L_A_LST_ALA+sw*EV_SW_NUM))
  3136. soe_record_ev(EV_L_A_LST_ALA+sw*EV_SW_NUM, 1, 0,0,0 );
  3137. }else{
  3138. pSW->uSdhz_L.bFlag.bRLONFLAG = TRUE;
  3139. if(!soe_check(EV_L_A_LST_HZ+sw*EV_SW_NUM))
  3140. soe_record_ev(EV_L_A_LST_HZ+sw*EV_SW_NUM, 1, 0,0,0 );
  3141. }
  3142. }
  3143. #else
  3144. pSW->uSdhz_L.bFlag.bRLONFLAG = TRUE;
  3145. soe_record_ev(EV_L_LST_T+sw*EV_SW_NUM, 1, 0,0,0 ); //联络单侧失压时间到
  3146. #endif
  3147. //pSW->L_Status = L_RELAYON; //进入合闸状态
  3148. ResetTR(&pSW->tOnYLTime);
  3149. #ifdef FA_PL_PJ
  3150. ResetTR(&pSW->tFREQLAB25ms);
  3151. ResetTR(&pSW->tFREQLBC25ms);
  3152. #endif
  3153. TempBSTZ=false;
  3154. fa_l_state_change(sw,L_YL_TIME);//fa_l_state_change(sw,L_RELAYON);
  3155. pSW->uSdhz_L.bFlag.bXOverUo= pSW->uSdhz_L.bFlag.bOverU0;
  3156. }
  3157. }
  3158. else if (pSW->tOnXLTime.boolTrip||pSW->uSdhz_L.bFlag.bPowerZ
  3159. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  3160. || !soe_check_pt_ok(sw)
  3161. #endif
  3162. )
  3163. {
  3164. pSW->uSdhz_L.wfFlag = 0;
  3165. //pSW->L_Status = L_INIT; //返回初始状态
  3166. fa_l_state_change(sw,L_INIT);
  3167. }
  3168. break;
  3169. case L_XL_ZTIME: // 有瞬压产生
  3170. RunTR(&pSW->tOnYLTime, TRUE, dStep); //启动Y时间计数
  3171. if(pSW->tOnYLTime.boolTrip && !soe_check(EV_BS_UF_P+sw*EV_SW_NUM) && !soe_check(EV_BS_UF_L+sw*EV_SW_NUM))//有压持续时间超过YL延时,不认为残压,进入初始状态
  3172. {
  3173. pSW->uSdhz_L.wfFlag = 0;
  3174. fa_l_state_change(sw,L_INIT);
  3175. break;
  3176. }
  3177. if (pSW->uSdhz_L.bFlag.bOneLostV||pSW->uSdhz_L.bFlag.bPowerZ)
  3178. {
  3179. if(pSW->uSdhz_L.bFlag.bUABFlash)
  3180. {
  3181. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==false)
  3182. {
  3183. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 1, 0,0,0 );
  3184. }
  3185. }
  3186. if(pSW->uSdhz_L.bFlag.bUBCFlash)
  3187. {
  3188. if(soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==false)
  3189. {
  3190. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 1, 0,0,0 );
  3191. }
  3192. }
  3193. //ResetTR(&pSW->tOnJSTime); //js时间计数
  3194. }
  3195. #ifdef GD_AREA_ZHONGSHAN_2020 //中山2020要求双侧有压经过解锁时间6s才能解锁 2020-10-24
  3196. if( (pSW->uSdhz_L.bFlag.bUABYY && pSW->uSdhz_L.bFlag.bUBCYY)
  3197. &&(soe_check(EV_BS_UF_P+sw*EV_SW_NUM) || soe_check(EV_BS_UF_L+sw*EV_SW_NUM)) )
  3198. #else
  3199. //感受到残压一侧得电,延时6s解除残压闭锁 (中山局交底文件需求 2019-10)
  3200. if( (pSW->uSdhz_L.bFlag.bUABYY&&soe_check(EV_BS_UF_P+sw*EV_SW_NUM))
  3201. ||(pSW->uSdhz_L.bFlag.bUBCYY&&soe_check(EV_BS_UF_L+sw*EV_SW_NUM)) )
  3202. #endif
  3203. {
  3204. RunTR(&pSW->tOnJSTime, TRUE, dStep); //js时间计数
  3205. if(!pSW->tOnJSTime.boolTrip)
  3206. break;
  3207. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==true)
  3208. {
  3209. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 0, 0,0,0 );
  3210. }
  3211. if(soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==true)
  3212. {
  3213. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 0, 0,0,0 );
  3214. }
  3215. pSW->uSdhz_L.wfFlag = 0;
  3216. fa_l_state_change(sw,L_INIT);
  3217. ResetTR(&pSW->tUABL25ms);
  3218. ResetTR(&pSW->tUBCL25ms);
  3219. }
  3220. else
  3221. {
  3222. ResetTR(&pSW->tOnJSTime); //js时间计数
  3223. }
  3224. break;
  3225. case L_YL_TIME:
  3226. if(!pR->bBSTZ)//遮断暂停计时
  3227. RunTR(&pSW->tOnYLTime, pSW->uSdhz_L.bFlag.bYY , dStep);
  3228. else
  3229. TempBSTZ = true;//保存之前遮断闭锁信号
  3230. #ifdef GD_AREA_ZHONGSHAN_2020//中山2020最新要求失压的时候有故障延时到报Y闭锁
  3231. if(pSW->uSdhz_L.bFlag.bYY) //有压
  3232. {
  3233. pR->tLostVot.uLostVot.bFlag.bSHWY = FALSE; //清手合无压标志
  3234. }
  3235. bVTok=(!pSet->bTT_fa_Icheck && pSW->uSdhz_L.bFlag.bPowerZ && pR->tSWST.uSWST.bFlag.bFAWL && !pR->tLostVot.uLostVot.bFlag.bSHWY); //电压时间型,不判故障电流
  3236. #else
  3237. bVTok=(!pSet->bTT_fa_Icheck && pSW->uSdhz_L.bFlag.bPowerZ && pR->tSWST.uSWST.bFlag.bFAWL); //电压时间型,不判故障电流
  3238. #endif
  3239. bVIok=(pSW->uSdhz_L.bFlag.bGL||pSW->uSdhz_L.bFlag.bGL_II||pSW->uSdhz_L.bFlag.bJD)&&pSet->bTT_fa_gzTz;
  3240. bUoOk = pSW->uSdhz_L.bFlag.bOverU0 && pSet->bTT_fa_U0Tz && soe_check(EV_BE_UO+sw*EV_SW_NUM)==false;
  3241. if(!pR->bBSTZ)
  3242. {
  3243. if(bVTok||bVIok||bUoOk||TempBSTZ)
  3244. {
  3245. if(bVTok)
  3246. fa_sw_opt(sw, EV_FA_FZ);
  3247. else
  3248. fa_sw_opt(sw, EV_HHGZ);
  3249. TempBSTZ=false;
  3250. ResetTR(&pSW->tUABL25ms);//跳闸后,将电压计时器清零,防止INIT 状态后,合位未及时检测到又返回 L_YL_TIME
  3251. ResetTR(&pSW->tUBCL25ms);
  3252. pSW->uSdhz_L.bFlag.bDBYY=0;
  3253. fa_l_state_change(sw,L_INIT);
  3254. #ifdef FUNC_YL_FZ_SOE
  3255. if(soe_check(EV_YL_FZ+sw*EV_SW_NUM)==false)
  3256. {
  3257. soe_record_ev(EV_YL_FZ+sw*EV_SW_NUM, 1, 0,0,0 );
  3258. }
  3259. #endif
  3260. #ifdef GD_AREA_ECZD_2020
  3261. fa_uf_clear(sw,true);
  3262. #endif
  3263. //2020-03-17 EV_GOOSE_HZ_FAIL
  3264. #if defined GD_AREA_ZHONGSHAN_2020
  3265. if(soe_check(EV_FA_HZ_FAIL+sw*EV_SW_NUM)==false)
  3266. {
  3267. soe_record_ev(EV_FA_HZ_FAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  3268. }
  3269. #elif defined GD_AREA_ZHONGSHAN
  3270. if(soe_check(EV_GOOSE_HZ_FAIL+sw*EV_SW_NUM)==false)
  3271. {
  3272. soe_record_ev(EV_GOOSE_HZ_FAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  3273. }
  3274. #endif
  3275. break;
  3276. }
  3277. }
  3278. //开关拒动
  3279. if(soe_check(EV_HZFAIL+sw*EV_SW_NUM)==true)
  3280. {
  3281. #if defined GD_AREA_ZHONGSHAN_2020
  3282. if(soe_check(EV_FA_HZ_FAIL+sw*EV_SW_NUM)==false)
  3283. {
  3284. soe_record_ev(EV_FA_HZ_FAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  3285. }
  3286. #elif defined GD_AREA_ZHONGSHAN
  3287. if(soe_check(EV_GOOSE_HZ_FAIL+sw*EV_SW_NUM)==false)
  3288. {
  3289. soe_record_ev(EV_GOOSE_HZ_FAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  3290. }
  3291. #endif
  3292. fa_l_state_change(sw,L_INIT);
  3293. }
  3294. if(pSW->tOnYLTime.boolTrip)
  3295. {
  3296. TempBSTZ=false;
  3297. fa_l_state_change(sw,L_RELAYON);
  3298. pSW->uSdhz_L.bFlag.bYtOn = true;
  3299. //2020-03-17 EV_GOOSE_HZ_OK
  3300. if(pR->tSWST.uSWST.bFlag.bHZWZ)//开关合位,SOE转供电成功
  3301. {
  3302. #if defined GD_AREA_ZHONGSHAN_2020
  3303. if(soe_check(EV_FA_HZ_OK+sw*EV_SW_NUM)==false)
  3304. {
  3305. soe_record_ev(EV_FA_HZ_OK+sw*EV_SW_NUM, 1, 0,0,0 );
  3306. }
  3307. #elif defined GD_AREA_ZHONGSHAN
  3308. if(soe_check(EV_GOOSE_HZ_OK+sw*EV_SW_NUM)==false)
  3309. {
  3310. soe_record_ev(EV_GOOSE_HZ_OK+sw*EV_SW_NUM, 1, 0,0,0 );
  3311. }
  3312. #endif
  3313. }
  3314. else
  3315. {
  3316. #if defined GD_AREA_ZHONGSHAN_2020
  3317. if(soe_check(EV_FA_HZ_FAIL+sw*EV_SW_NUM)==false)
  3318. {
  3319. soe_record_ev(EV_FA_HZ_FAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  3320. }
  3321. #elif defined GD_AREA_ZHONGSHAN
  3322. if(soe_check(EV_GOOSE_HZ_FAIL+sw*EV_SW_NUM)==false)
  3323. {
  3324. soe_record_ev(EV_GOOSE_HZ_FAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  3325. }
  3326. #endif
  3327. fa_l_state_change(sw,L_INIT);
  3328. }
  3329. }
  3330. else if(pSW->uSdhz_L.bFlag.bPowerZ && pR->tSWST.uSWST.bFlag.bFAWL && !pR->bBSTZ)
  3331. {
  3332. #if defined GD_AREA_ZHONGSHAN_2020
  3333. if(pR->tLostVot.uLostVot.bFlag.bSHWY)
  3334. break;
  3335. #endif
  3336. fa_sw_opt(sw, EV_FA_FZ);
  3337. TempBSTZ=false;
  3338. ResetTR(&pSW->tUABL25ms);//跳闸后,将电压计时器清零,防止INIT 状态后,合位未及时检测到又返回 L_YL_TIME
  3339. ResetTR(&pSW->tUBCL25ms);
  3340. pSW->uSdhz_L.bFlag.bDBYY=0;
  3341. #ifdef FUNC_YL_FZ_SOE
  3342. if(soe_check(EV_YL_FZ+sw*EV_SW_NUM)==false)
  3343. {
  3344. soe_record_ev(EV_YL_FZ+sw*EV_SW_NUM, 1, 0,0,0 );
  3345. }
  3346. #endif
  3347. fa_l_state_change(sw,L_INIT);
  3348. break;
  3349. }
  3350. break;
  3351. case L_RELAYON:
  3352. if(pR->tLostVot.uLostVot.bFlag.bSHWY && !pSet->bTT_fa_shbs)//手合无压,闭锁合闸
  3353. {
  3354. if(pSW->uSdhz_L.bFlag.bYY) //有压
  3355. pR->tLostVot.uLostVot.bFlag.bSHWY = FALSE; //清手合无压标志
  3356. else
  3357. break;
  3358. if(pSW->uSdhz_L.bFlag.bPowerZ && pR->tSWST.uSWST.bFlag.bHZWZ && pR->tSWST.uSWST.bFlag.bFAWL)//双侧失压&&在合位
  3359. {
  3360. fa_sw_opt(sw, EV_FA_FZ);
  3361. pSW->uSdhz_L.wfFlag = 0;
  3362. fa_l_state_change(sw,L_INIT);
  3363. break;
  3364. }
  3365. }
  3366. pR->uRmtSW.bYH_fajs_flag=false;
  3367. RunTR(&pSW->tL_RELAYONL3s, TRUE, dStep); //启动合闸确认时间计数
  3368. if(!pSW->tL_RELAYONL3s.boolTrip)
  3369. {
  3370. pR->tU0TZ.uZOV.bFlag.bU0Ov=pSW->uSdhz_L.bFlag.bOverU0&&!pSW->uSdhz_L.bFlag.bXOverUo;
  3371. }
  3372. if ((pR->tSWST.uSWST.bFlag.bTZWZ) && pSW->tL_RELAYONL3s.boolTrip)
  3373. {
  3374. pSW->uSdhz_L.wfFlag = 0;
  3375. //fa_sw_opt(sw, EV_FA_FZ);
  3376. //pSW->L_Status = L_INIT; //返回初始状态
  3377. fa_l_state_change(sw,L_INIT);
  3378. break;
  3379. }
  3380. if(pSW->uSdhz_L.bFlag.bPowerZ && pR->tSWST.uSWST.bFlag.bFAWL)//双侧失压
  3381. {
  3382. if(pR->tSWST.uSWST.bFlag.bHZWZ)
  3383. fa_sw_opt(sw, EV_FA_FZ);
  3384. pSW->uSdhz_L.wfFlag = 0;
  3385. //pSW->L_Status = L_INIT; //返回初始状态
  3386. fa_l_state_change(sw,L_INIT);
  3387. break;
  3388. }
  3389. break;
  3390. default:
  3391. break;
  3392. }
  3393. }
  3394. bool get_s_bs(WORD s_status)
  3395. {
  3396. switch(s_status)
  3397. {
  3398. case S_BSFLASH:
  3399. case S_BSXTIME:
  3400. #ifndef GD_AREA_ZHONGSHAN
  3401. case S_BSYTIME:
  3402. case S_BSHHGZ:
  3403. #endif
  3404. return true;
  3405. default:
  3406. return false;
  3407. }
  3408. return false;
  3409. }
  3410. /**************************************************************************
  3411. 函数名称:fa_s_run
  3412. 函数版本:1.00
  3413. 作者: 电力产品开发部
  3414. 创建日期:2011.10.28
  3415. 函数功能说明:顺送/逆送运行
  3416. 输入参数:
  3417. 其他输入:
  3418. 输出参数:
  3419. 返回值:
  3420. ***************************************************************************/
  3421. static void fa_s_run(int sw, DWORD dStep)
  3422. {
  3423. TRELAY_T *pR=&g_tRelay[sw];
  3424. TSDHZ_T *pSW = &pR->tSDHZ;
  3425. TSETSW *pSet = &pRunSet->tSwSet[sw];
  3426. int bJS=0,bFWJS=0;
  3427. #if defined GD_AREA_ECZD_2020 && !defined GD_AREA_ZHONGSHAN_2020
  3428. static int i=0;
  3429. bool b_SyFinish=false;
  3430. #endif
  3431. #ifdef FA_OC_COUNT
  3432. RunTR(&pSW->tFaOcCountTime,pSet->bTT_fa_oc_count&&pSW->fa_oc_count,dStep);
  3433. if(pSW->tFaOcCountTime.boolTrip)
  3434. {
  3435. pSW->fa_oc_count=0;//过流脉冲计数清零,复归
  3436. }
  3437. #endif
  3438. if ((pR->uRmtSW.bYTExecute || pR->uRmtSW.bHandTz||pSW->bDL_Tz) && pSet->bTT_fa_sfbs)
  3439. {
  3440. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)==false) // 手动分闸,闭锁合闸
  3441. {
  3442. soe_record_ev(EV_BS_HA+sw*EV_SW_NUM, 1, 0,0,0 );
  3443. fa_s_set_savestatus(sw);
  3444. }
  3445. if(soe_check(EV_SH_BSFZ+sw*EV_SW_NUM)==true) //
  3446. {
  3447. soe_record_ev(EV_SH_BSFZ+sw*EV_SW_NUM, 0, 0,0,0 );
  3448. }
  3449. if(soe_check(EV_BSTZ_FA+sw*EV_SW_NUM)==true)
  3450. {
  3451. soe_record_ev(EV_BSTZ_FA+sw*EV_SW_NUM, 0, 0,0,0 );
  3452. }
  3453. ResetTR(&pSW->tOnJSTime); //js时间计数
  3454. pSW->bDL_Tz=false;
  3455. pR->uRmtSW.bYHExecute_fa=false; //遥控合
  3456. pR->uRmtSW.bHandHz_fa=false; //遥信合
  3457. g_run_stu.js=false; //遥信解锁
  3458. //pSW->bDL_Hz=false; //拉杆合
  3459. g_run_stu.rmtjs=false; //按钮解锁
  3460. pR->uRmtSW.bYH_fajs_flag=false; //状态保持合
  3461. pR->uBHDZ.bFlag.bTZSB=false;
  3462. }
  3463. #if (0)
  3464. // 合位 && 闭锁 && 未跳闸失败 ,则可以直接合位解锁
  3465. RunTR(&pSW->tOnHW_FA_JSTime,
  3466. pR->tSWST.uSWST.bFlag.bHZWZ
  3467. && (soe_check(EV_BS_ALL+sw*EV_SW_NUM) || get_s_bs(pSW->S_Status) )
  3468. && !soe_check(EV_TZFAIL+sw*EV_SW_NUM)
  3469. && pSW->S_Status != S_BS_SW ,dStep); //js时间计数
  3470. if(pSW->tOnHW_FA_JSTime.boolTrip) //合位直接解锁,防止闭锁且合位无法解锁 2020-7-28
  3471. pSW->bDL_Hz = true;
  3472. #elif defined GD_AREA_ECZD_2020 && !defined GD_AREA_ZHONGSHAN_2020
  3473. //合后故障后需等双侧完全失压才允许判解锁逻辑,
  3474. //因解锁时间判50ms,合后故障后50ms内有压来不及变为无压导致判定分位、双侧有压进入解锁会执行逻辑出错
  3475. if(pSW->uSdhz_S.bFlag.bHhgz && pSW->uSdhz_S.bFlag.bDBYY)
  3476. {
  3477. b_SyFinish = false;
  3478. }
  3479. else
  3480. {
  3481. b_SyFinish = true;
  3482. pSW->uSdhz_S.bFlag.bHhgz = false;
  3483. }
  3484. RunTR(&pSW->tOnHW_FA_JSTime,
  3485. ((pR->tSWST.uSWST.bFlag.bDITW && pSW->uSdhz_S.bFlag.bDBYY && (soe_check(EV_BS_DB+sw*EV_SW_NUM)==false))// 双侧有压 && 分位 && 非双电源闭锁
  3486. || (pR->tSWST.uSWST.bFlag.bDIHW && pSW->uSdhz_S.bFlag.bYY)) // 有压 && 合位
  3487. #ifdef GD_AREA_ECZD_MAOMING
  3488. && ((soe_check(EV_BS_ALL+sw*EV_SW_NUM) && soe_check(EV_BS_HA+sw*EV_SW_NUM)) || get_s_bs(pSW->S_Status) )
  3489. #else
  3490. && ((soe_check(EV_BS_ALL+sw*EV_SW_NUM) && !soe_check(EV_BS_HA+sw*EV_SW_NUM)) || get_s_bs(pSW->S_Status) )
  3491. #endif
  3492. && !soe_check(EV_TZFAIL+sw*EV_SW_NUM)
  3493. && b_SyFinish
  3494. ,dStep);
  3495. //&& pSW->S_Status != S_BS_SW ,dStep);
  3496. if(pSW->tOnHW_FA_JSTime.boolTrip)
  3497. {
  3498. if(pR->tSWST.uSWST.bFlag.bDIHW && pSW->uSdhz_S.bFlag.bYY)
  3499. {
  3500. bJS=1;
  3501. }
  3502. else
  3503. {//双侧有压且分位满足解锁条件后进入init状态,报对侧来电解锁SOE
  3504. bFWJS=1;
  3505. }
  3506. }
  3507. if(pR->tSWST.uSWST.bFlag.bDIHW && soe_check(EV_BS_ALL+sw*EV_SW_NUM))
  3508. {//有闭锁合闸事件且开关在合位,如果失压应能报失电分闸
  3509. if(((i==0)||(i==2)) && pSW->uSdhz_S.bFlag.bYY)
  3510. {//如果开关合后有压
  3511. i=1;
  3512. }
  3513. else if(((i==0)||(i==2)) && !pSW->uSdhz_S.bFlag.bYY)
  3514. {
  3515. i=2;
  3516. }
  3517. if(i==1)
  3518. {
  3519. if(pSW->uSdhz_S.bFlag.bPowerZ && pR->tSWST.uSWST.bFlag.bFAWL) //停电或无流则报失电分闸
  3520. {
  3521. i=0;
  3522. fa_sw_opt(sw, EV_FA_FZ);
  3523. }
  3524. }
  3525. }
  3526. else
  3527. {
  3528. i=0;
  3529. }
  3530. if(soe_check(EV_BS_X_P+sw*EV_SW_NUM)==false
  3531. && soe_check(EV_BS_X_L+sw*EV_SW_NUM)==false
  3532. && soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==false
  3533. && soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==false
  3534. && soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==false
  3535. && soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==false
  3536. && soe_check(EV_HHGZ+sw*EV_SW_NUM)==false
  3537. )
  3538. {//合位解锁手分闭锁合闸
  3539. #ifndef GD_AREA_ECZD_MAOMING
  3540. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)&&(pSW->bDL_Hz||pR->uRmtSW.bHandHz_fa||pR->uRmtSW.bYHExecute_fa||soe_check(EV_DL_HZ+sw*EV_SW_NUM)))//手分/遥分闭锁后,再次手合/遥控合立即解锁
  3541. {
  3542. bJS = 1;
  3543. }
  3544. #endif
  3545. }
  3546. #elif defined GD_AREA_ZHONGSHAN
  3547. RunTR(&pSW->tOnHW_FA_JSTime,
  3548. pR->tSWST.uSWST.bFlag.bDIHW
  3549. && (pSW->uSdhz_S.bFlag.bUABYY || pSW->uSdhz_S.bFlag.bUBCYY)
  3550. && (get_s_bs(pSW->S_Status)
  3551. || (soe_check(EV_HHGZ+sw*EV_SW_NUM) && !(soe_check(EV_HHGZ_P+sw*EV_SW_NUM) && soe_check(EV_HHGZ_L+sw*EV_SW_NUM))) //非双侧合后故障
  3552. || (soe_check(EV_BS_Y_P+sw*EV_SW_NUM) != soe_check(EV_BS_Y_L+sw*EV_SW_NUM))) //非双侧Y闭锁
  3553. && !soe_check(EV_TZFAIL+sw*EV_SW_NUM)
  3554. && pSW->S_Status != S_BS_SW ,dStep); //js时间计数
  3555. if(pSW->tOnHW_FA_JSTime.boolTrip)
  3556. {
  3557. pR->uRmtSW.bYH_fajs_flag= true;
  3558. }
  3559. if(pSW->S_Status == S_XTIME)
  3560. {
  3561. if(pR->run_stu.sw==2)
  3562. { //X计时过程有合信号时,先记录上电侧,因本体合闸有100ms延时,往下代码在本体合后才判上电侧会导致逻辑出错
  3563. pSW->uSdhz_S.bFlag.bPower=pSW->uSdhz_S.bFlag.bUABYY;
  3564. }
  3565. }
  3566. #elif defined GD_AREA_ZHONGSHAN_2020
  3567. RunTR(&pSW->tOnHW_FA_JSTime,
  3568. pR->tSWST.uSWST.bFlag.bDIHW
  3569. && (pSW->uSdhz_S.bFlag.bUABYY || pSW->uSdhz_S.bFlag.bUBCYY)
  3570. && (soe_check(EV_BS_ALL+sw*EV_SW_NUM) || get_s_bs(pSW->S_Status) )
  3571. && !soe_check(EV_TZFAIL+sw*EV_SW_NUM)
  3572. && pSW->S_Status != S_BS_SW ,dStep); //js时间计数
  3573. if(pSW->tOnHW_FA_JSTime.boolTrip)//合位直接解锁,防止闭锁且合位无法解锁 2020-7-28
  3574. {
  3575. pR->uRmtSW.bYH_fajs_flag= true;
  3576. }
  3577. #if 1
  3578. if(soe_check(EV_BS_X_P+sw*EV_SW_NUM)==false
  3579. && soe_check(EV_BS_X_L+sw*EV_SW_NUM)==false
  3580. && soe_check(EV_BS_Y_P+sw*EV_SW_NUM)==false
  3581. && soe_check(EV_BS_Y_L+sw*EV_SW_NUM)==false
  3582. && soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==false
  3583. && soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==false
  3584. && soe_check(EV_HHGZ+sw*EV_SW_NUM)==false
  3585. )
  3586. {
  3587. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)&&(pSW->bDL_Hz||pR->uRmtSW.bHandHz_fa||soe_check(EV_DL_HZ+sw*EV_SW_NUM)))//手分闭锁后,再次手合立即解锁
  3588. {
  3589. pR->uRmtSW.bYH_fajs_flag= true;
  3590. }
  3591. }
  3592. #endif
  3593. //拉杆合、遥信合、遥控合进入Y计时 2020-12-23
  3594. if((pSW->bDL_Hz||pR->uRmtSW.bHandHz_fa||pR->uRmtSW.bYHExecute_fa)&&pR->tSWST.uSWST.bFlag.bHZWZ && pSW->S_Status != S_YTIME)
  3595. {
  3596. //pR->uRmtSW.bYH_fajs_flag= true;
  3597. pR->tLostVot.uLostVot.bFlag.bSHWY=!(pSW->uSdhz_S.bFlag.bUABYY||pSW->uSdhz_S.bFlag.bUBCYY);//将手合状态电压保存
  3598. fa_s_state_change(sw,S_YTIME);//
  3599. if(soe_check(EV_BS_HA+sw*EV_SW_NUM))//手分闭锁清
  3600. soe_record_ev(EV_BS_HA, 0, 0,0,0 );
  3601. pSW->bDL_Hz = false;
  3602. pR->uRmtSW.bHandHz_fa=false;
  3603. pR->uRmtSW.bYHExecute_fa=false;
  3604. //#if defined GD_AREA_ZHONGSHAN_2020 //中山2020允许无压进入Y实现即时,需将故障定时器清零
  3605. ResetTR(&pSW->tGZJYRstGLTime);
  3606. ResetTR(&pSW->tGZJYRstGL_II_Time);
  3607. ResetTR(&pSW->tGZJYRstJDTime);
  3608. ResetTR(&pSW->tGZJYRstGL2Time);
  3609. ResetTR(&pSW->tGZJYRstJD2Time);
  3610. ResetTR(&pR->tU0TZ.tZOVTime);
  3611. #ifdef FUNC_DRIVE_JY
  3612. ResetTR(&gb_drive.tDriveFaBSTime);
  3613. #endif
  3614. //#endif
  3615. }
  3616. else
  3617. {
  3618. pSW->bDL_Hz = false;
  3619. //pR->uRmtSW.bHandHz_fa=false;
  3620. //pR->uRmtSW.bYHExecute_fa=false;
  3621. }
  3622. #endif
  3623. #ifdef FUNC_REBOOT_BS_HA_JS_3S
  3624. RunTR(&pSW->tHW_JS_HA_3STime, (g_tRelay[sw].uRmtSW.b_bsha && pR->tSWST.uSWST.bFlag.bDIHW), dStep);
  3625. if(pSW->tHW_JS_HA_3STime.boolTrip)
  3626. {
  3627. g_tRelay[sw].uRmtSW.b_bsha = false;
  3628. g_run_stu.js = true;
  3629. }
  3630. #endif
  3631. //手合、遥合解锁
  3632. if ((pR->uRmtSW.bYHExecute_fa&&pR->tSWST.uSWST.bFlag.bHZWZ) //遥控合
  3633. ||(pR->uRmtSW.bHandHz_fa&&pR->tSWST.uSWST.bFlag.bHZWZ) //遥信合
  3634. ||g_run_stu.js //遥信解锁
  3635. ||pSW->bDL_Hz //拉杆合
  3636. ||g_run_stu.rmtjs //按钮解锁
  3637. ||(pR->uRmtSW.bYH_fajs_flag&&pR->tSWST.uSWST.bFlag.bHZWZ) //状态保持合
  3638. || bFWJS || bJS
  3639. ) // 解锁
  3640. {
  3641. bool bUAB,bUBC;
  3642. bool bU0;
  3643. #ifdef GD_AREA_ZHONGSHAN
  3644. bool b_temp; //记录清所有标志前的上电侧标志
  3645. #endif
  3646. bUAB = pSW->uSdhz_S.bFlag.bUABYY;
  3647. bUBC = pSW->uSdhz_S.bFlag.bUBCYY;
  3648. bU0=pSW->uSdhz_S.bFlag.bOverU0;
  3649. //遥控合&遥信合
  3650. #ifndef GD_AREA_ZHONGSHAN
  3651. if(pR->uRmtSW.bYHExecute_fa||pR->uRmtSW.bHandHz_fa)
  3652. pR->uRmtSW.bYH_fajs_flag=true;
  3653. #endif
  3654. #if defined GD_AREA_ZHUHAI_FTU || (defined GD_AREA_ECZD_2020 && !defined GD_AREA_ZHONGSHAN_2020) || defined GD_AREA_ZHONGSHAN//有压且合位的时候才能解锁
  3655. #ifdef GD_AREA_ZHONGSHAN
  3656. if(soe_check(EV_HHGZ+sw*EV_SW_NUM) || soe_check(EV_BS_UF_L+sw*EV_SW_NUM) || soe_check(EV_BS_UF_P+sw*EV_SW_NUM)
  3657. || soe_check(EV_BS_X_P+sw*EV_SW_NUM) || soe_check(EV_BS_X_L+sw*EV_SW_NUM)
  3658. || soe_check(EV_BS_Y_P+sw*EV_SW_NUM) || soe_check(EV_BS_Y_L+sw*EV_SW_NUM))
  3659. #else
  3660. if(soe_check(EV_HHGZ+sw*EV_SW_NUM))
  3661. #endif
  3662. {
  3663. #if defined GD_AREA_ECZD_2020 && !defined GD_AREA_ZHONGSHAN_2020
  3664. if(bFWJS || bJS || g_run_stu.rmtjs || g_run_stu.js) //满足解锁条件解锁/按钮解锁/遥信解锁
  3665. {
  3666. ;
  3667. }
  3668. #elif defined GD_AREA_ZHONGSHAN
  3669. if(g_run_stu.rmtjs || g_run_stu.js || ((bUAB||bUBC) && pR->uRmtSW.bYH_fajs_flag && pR->tSWST.uSWST.bFlag.bHZWZ ))// 有压 && 合位
  3670. {
  3671. ;//解锁
  3672. }
  3673. #else
  3674. if((bUAB||bUBC) && pR->tSWST.uSWST.bFlag.bHZWZ )// 有压 && 合位
  3675. ;//解锁
  3676. #endif
  3677. else
  3678. {
  3679. g_run_stu.js=0;
  3680. g_run_stu.rmtjs=0;
  3681. return ;//不允许解锁;
  3682. }
  3683. }
  3684. #ifdef GD_AREA_ZHUHAI_FTU//珠海之前提出Y闭锁后有压不允许解锁,合后故障有压且合位才能解锁
  3685. if(soe_check(EV_BS_Y_P+sw*EV_SW_NUM)||soe_check(EV_BS_Y_L+sw*EV_SW_NUM))
  3686. {
  3687. if(bUAB||bUBC)// 有压
  3688. {
  3689. g_run_stu.js=0;
  3690. g_run_stu.rmtjs=0;
  3691. return ;//不允许解锁;
  3692. }
  3693. }
  3694. #endif
  3695. #endif
  3696. #if defined GD_AREA_ECZD_2020 && !defined GD_AREA_ZHONGSHAN_2020
  3697. if(soe_check(EV_BS_ALL+sw*EV_SW_NUM))
  3698. {
  3699. if(bFWJS || bJS || g_run_stu.rmtjs || g_run_stu.js) //满足解锁条件解锁/按钮解锁/遥信解锁
  3700. {
  3701. ;
  3702. }
  3703. else
  3704. {
  3705. g_run_stu.js=0;
  3706. g_run_stu.rmtjs=0;
  3707. return ;//不允许解锁;
  3708. }
  3709. }
  3710. #endif
  3711. #if defined GD_AREA_ZHONGSHAN || defined GD_AREA_ZHONGSHAN_2020 //中山&东莞 有压不允许直接解锁
  3712. #if 0//def GD_AREA_ZHONGSHAN//中山局要求手合闸后,双侧有压且合位6S后才能解锁(正向解锁方式)
  3713. if( (pSW->bDL_Hz||pR->uRmtSW.bHandHz_fa||pR->uRmtSW.bYHExecute_fa||pR->uRmtSW.bYH_fajs_flag) &&soe_check(EV_BS_ALL+sw*EV_SW_NUM))
  3714. {
  3715. RunTR(&pSW->tOnJSTime,pSW->uSdhz_S.bFlag.bDBYY,dStep); //js时间计数
  3716. if(!pSW->tOnJSTime.boolTrip )
  3717. {
  3718. return;
  3719. }
  3720. }
  3721. #endif
  3722. if (g_run_stu.js||g_run_stu.rmtjs)
  3723. {
  3724. if(soe_check(EV_BS_ALL+sw*EV_SW_NUM))//闭锁合闸
  3725. {
  3726. if(bUAB||bUBC)//有压
  3727. {
  3728. //pR->uRmtSW.bYHExecute_fa=0;
  3729. //pR->uRmtSW.bHandHz_fa=0;
  3730. g_run_stu.js=0;
  3731. g_run_stu.rmtjs=0;
  3732. return ;//有压不允许直接解锁
  3733. }
  3734. }
  3735. }
  3736. #endif
  3737. #if 0
  3738. else if(pSW->bDL_Hz || pR->uRmtSW.bYH_fajs_flag || pR->uRmtSW.bHandHz_fa)//分段(?) -> 手合或遥控合闸,开关两侧至少有一侧电压正常,延时6s解除残压闭锁。(中山局新增)
  3739. {
  3740. if(pSW->S_Status == S_BSFLASH||soe_check(EV_BS_UF_L+sw*EV_SW_NUM)==true||soe_check(EV_BS_UF_P+sw*EV_SW_NUM)==true)
  3741. {
  3742. //手合或遥控合闸,开关两侧至少有一侧电压正常,延时6s解除残压闭锁。
  3743. RunTR(&pSW->tOnJSTime, (bUAB||bUBC), dStep); //js时间计数
  3744. if(!pSW->tOnJSTime.boolTrip)//残压闭锁后 开关合位且双侧有压才能解锁
  3745. return;
  3746. }
  3747. ResetTR(&pSW->tOnJSTime); //js时间计数
  3748. SignalReset(0,false);
  3749. }
  3750. #endif
  3751. #if defined GD_AREA_ECZD_2020
  3752. if((pSW->bDL_Hz||pR->uRmtSW.bYHExecute_fa||pR->uRmtSW.bHandHz_fa||bJS)&&pSW->uSdhz_S.bFlag.bYY&&pR->tSWST.uSWST.bFlag.bHZWZ)
  3753. {
  3754. pR->tLostVot.uLostVot.bFlag.bSHWY=!(pSW->uSdhz_S.bFlag.bUABYY||pSW->uSdhz_S.bFlag.bUBCYY);
  3755. fa_s_state_change(sw,S_YTIME);
  3756. bJS = false;
  3757. pSW->bDL_Hz = false;
  3758. pR->uRmtSW.bHandHz_fa=false;
  3759. pR->uRmtSW.bYHExecute_fa=false;
  3760. ResetTR(&pSW->tGZJYRstGLTime);
  3761. ResetTR(&pSW->tGZJYRstGL_II_Time);
  3762. ResetTR(&pSW->tGZJYRstJDTime);
  3763. ResetTR(&pSW->tGZJYRstGL2Time);
  3764. ResetTR(&pSW->tGZJYRstJD2Time);
  3765. ResetTR(&pR->tU0TZ.tZOVTime);
  3766. #ifdef FUNC_DRIVE_JY
  3767. ResetTR(&gb_drive.tDriveFaBSTime);
  3768. #endif
  3769. }
  3770. #endif
  3771. SignalReset(0,false);
  3772. g_tRelay[sw].tDYJL.bLed=false;
  3773. g_tRelay[sw].tPLJL.bLed=false;
  3774. #ifdef GD_AREA_ZHONGSHAN
  3775. b_temp = pSW->uSdhz_S.bFlag.bPower;
  3776. #endif
  3777. pSW->uSdhz_S.wfFlag = 0;
  3778. pSW->bS_BSLed = 0;
  3779. pSW->uSdhz_S.bFlag.bUABYY = bUAB;
  3780. pSW->uSdhz_S.bFlag.bUBCYY = bUBC;
  3781. #ifdef GD_AREA_ZHONGSHAN
  3782. if(pSW->S_Status == S_YTIME)
  3783. { //X计时过程中本体合进入YTIME,本体合瞬间UAB已有压,但本体合信号需延时100ms,所以应以100ms前的上电侧为准
  3784. pSW->uSdhz_S.bFlag.bPower = b_temp;
  3785. }
  3786. else
  3787. #endif
  3788. {
  3789. pSW->uSdhz_S.bFlag.bPower=pSW->uSdhz_S.bFlag.bUABYY;
  3790. }
  3791. //pSW->uSdhz_S.bFlag.bTempJS = false;
  3792. #ifdef FA_BSYTIME_JS
  3793. rst_ybs_soe( sw);
  3794. #endif
  3795. pR->bBSHZ=false; // 解锁合闸闭锁
  3796. fa_close_led(sw);
  3797. pR->tU0TZ.bU0Led=false;
  3798. if(g_run_stu.js||g_run_stu.rmtjs||bFWJS||bJS) // 解锁后,进入初始状态
  3799. {//解锁条件后期需更改?无闭锁直接退出?
  3800. if(pR->tSWST.uSWST.bFlag.bHZWZ)//当前在合位且正常运行态,直接切换至正常运行
  3801. {
  3802. pR->tLostVot.uLostVot.bFlag.bSHWY=!(bUAB||bUBC);//将手合状态电压保存
  3803. pSW->uSdhz_S.bFlag.bPowerZ=0;
  3804. ResetTR(&pR->tLostVot.tLostVotTime);//重新开始Z计时
  3805. fa_s_state_change(sw,S_USUAL);//
  3806. pR->thzbs.fztimes=0; //连续分闸计数清零
  3807. pSW->uSdhz_S.bFlag.bOppositeYY =false;
  3808. pR->tSWST.uSWST.bFlag.bSDJS =true;
  3809. ResetTR(&pSW->tOpsiteYY100ms);
  3810. ResetTR(&pSW->tGZJYRstGLTime);
  3811. ResetTR(&pSW->tGZJYRstGL_II_Time);
  3812. ResetTR(&pSW->tGZJYRstJDTime);
  3813. ResetTR(&pSW->tGZJYRstGL2Time);
  3814. ResetTR(&pSW->tGZJYRstJD2Time);
  3815. }
  3816. else
  3817. {
  3818. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_INIT;
  3819. //pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  3820. }
  3821. SignalReset(0,true);
  3822. }
  3823. else if(pSW->S_Status != S_YTIME)//手合启动Y时限// if(bUAB||bUBC) //手合遥控合,开关合,单侧有电压
  3824. {
  3825. ResetTR(&pSW->tOnYSTime); //清零Y计时
  3826. pR->tU0TZ.uZOV.bFlag.bU0Ov=false;
  3827. pR->tLostVot.uLostVot.bFlag.bStartLock = false;
  3828. pR->tLostVot.uLostVot.bFlag.bGL = false;
  3829. pSW->uSdhz_S.bFlag.bGL = false;
  3830. pSW->uSdhz_S.bFlag.bGL_II=false;
  3831. pSW->uSdhz_S.bFlag.bJD = false;
  3832. pSW->uSdhz_S.bFlag.bXOverUo=bU0;
  3833. pR->tLostVot.uLostVot.bFlag.bSHWY=!(bUAB||bUBC);//将手合状态电压保存
  3834. #ifndef GD_AREA_ZHONGSHAN_2020 //中山2020要求手合无压进入Y时间,如果Y时间合后故障则闭锁双侧 2020-12-23
  3835. if(pR->tLostVot.uLostVot.bFlag.bSHWY || pSW->S_Status == S_USUAL)
  3836. {
  3837. pSW->uSdhz_S.bFlag.bPowerZ=0;
  3838. ResetTR(&pR->tLostVot.tLostVotTime);//重新开始Z计时
  3839. fa_s_state_change(sw,S_USUAL);//pSW->S_Status = S_USUAL;//手合于无压,闭锁合闸
  3840. if(soe_check(EV_SH_BSFZ+sw*EV_SW_NUM)==false && !pSet->bTT_fa_shbs) //
  3841. {
  3842. soe_record_ev(EV_SH_BSFZ+sw*EV_SW_NUM, 1, 0,0,0 );
  3843. }
  3844. pR->thzbs.fztimes=0; //连续分闸计数清零
  3845. }
  3846. else
  3847. #endif
  3848. {
  3849. #ifdef GD_AREA_ZHONGSHAN
  3850. if(pSW->S_Status != S_BSFZ)
  3851. #endif
  3852. fa_s_state_change(sw,S_YTIME);//pSW->S_Status = S_YTIME;//手合启动Y时限
  3853. if(soe_check(EV_FA_GL_TZ+sw*EV_SW_NUM)==true)
  3854. soe_record_ev(EV_FA_GL_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  3855. //#if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 //潮州局要求合后电流两段处理
  3856. #if defined GD_AREA_SHANTOU || defined GD_AREA_ECZD_2020 || defined GD_AREA_MAIN_2020
  3857. if(soe_check(EV_FA_GL_TZ2+sw*EV_SW_NUM)==true)
  3858. soe_record_ev(EV_FA_GL_TZ2+sw*EV_SW_NUM, 0, 0,0 ,0 );
  3859. #endif
  3860. if(soe_check(EV_FA_LX_TZ+sw*EV_SW_NUM)==true)
  3861. soe_record_ev(EV_FA_LX_TZ+sw*EV_SW_NUM, 0, 0,0 ,0 );
  3862. }
  3863. pSW->uSdhz_S.bFlag.bOppositeYY =false;
  3864. pR->tSWST.uSWST.bFlag.bSDJS =true;
  3865. ResetTR(&pSW->tOpsiteYY100ms);
  3866. ResetTR(&pSW->tGZJYRstGLTime);
  3867. ResetTR(&pSW->tGZJYRstGL_II_Time);
  3868. ResetTR(&pSW->tGZJYRstJDTime);
  3869. ResetTR(&pSW->tGZJYRstGL2Time);
  3870. ResetTR(&pSW->tGZJYRstJD2Time);
  3871. #ifdef FUNC_DRIVE_JY
  3872. ResetTR(&gb_drive.tDriveFaBSTime);
  3873. #endif
  3874. }
  3875. /*else
  3876. {
  3877. pSW->S_Status = S_INIT;
  3878. pSW->uSdhz_S.bFlag.bSaveStatus = TRUE; //存储状态标志、来电切换状态
  3879. }*/
  3880. if(soe_check(EV_GOOSE_GZBS_FA)==true) // goose故障闭锁
  3881. soe_record_ev(EV_GOOSE_GZBS_FA, 0, 0,0,0 );
  3882. if(soe_check(EV_GOOSE_TZBS_FA)==true) // goose故障闭锁
  3883. soe_record_ev(EV_GOOSE_TZBS_FA, 0, 0,0,0 );
  3884. if(g_run_stu.js||g_run_stu.rmtjs)
  3885. {
  3886. if(soe_check(EV_JS_HA+sw*EV_SW_NUM)==false) //
  3887. {
  3888. soe_record_ev(EV_JS_HA+sw*EV_SW_NUM, 1, 0,0,0 );
  3889. }
  3890. if(soe_check(EV_JS_HZ+sw*EV_SW_NUM)==true) //
  3891. {
  3892. soe_record_ev(EV_JS_HZ+sw*EV_SW_NUM, 0, 0,0,0 );
  3893. }
  3894. if(soe_check(EV_JS_L+sw*EV_SW_NUM)==true) //
  3895. {
  3896. soe_record_ev(EV_JS_L+sw*EV_SW_NUM, 0, 0,0,0 );
  3897. }
  3898. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==true) //
  3899. {
  3900. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  3901. }
  3902. if(soe_check(EV_BSTZ_FA+sw*EV_SW_NUM)==true)
  3903. {
  3904. soe_record_ev(EV_BSTZ_FA+sw*EV_SW_NUM, 0, 0,0,0 );
  3905. }
  3906. if(soe_check(EV_FA_U0GJ+sw*EV_SW_NUM)==true)
  3907. {
  3908. soe_record_ev(EV_FA_U0GJ+sw*EV_SW_NUM, 0, 0,0,0 );
  3909. }
  3910. }
  3911. #ifdef GD_AREA_ECZD_2020
  3912. else if(bFWJS)
  3913. {
  3914. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==false) //
  3915. {
  3916. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 1, 0,0,0 );
  3917. }
  3918. if(soe_check(EV_JS_HA+sw*EV_SW_NUM)==true) //
  3919. {
  3920. soe_record_ev(EV_JS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  3921. }
  3922. if(soe_check(EV_JS_HZ+sw*EV_SW_NUM)==true) //
  3923. {
  3924. soe_record_ev(EV_JS_HZ+sw*EV_SW_NUM, 0, 0,0,0 );
  3925. }
  3926. if(soe_check(EV_JS_HA+sw*EV_SW_NUM)==true) //
  3927. {
  3928. soe_record_ev(EV_JS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  3929. }
  3930. if(soe_check(EV_JS_L+sw*EV_SW_NUM)==true) //
  3931. {
  3932. soe_record_ev(EV_JS_L+sw*EV_SW_NUM, 0, 0,0,0 );
  3933. }
  3934. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==true) //
  3935. {
  3936. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  3937. }
  3938. }
  3939. #endif
  3940. else
  3941. {
  3942. if(soe_check(EV_JS_HZ+sw*EV_SW_NUM)==false&&soe_check(EV_BS_ALL+sw*EV_SW_NUM)==true) //
  3943. {
  3944. soe_record_ev(EV_JS_HZ+sw*EV_SW_NUM, 1, 0,0,0 );
  3945. }
  3946. if(soe_check(EV_JS_HA+sw*EV_SW_NUM)==true) //
  3947. {
  3948. soe_record_ev(EV_JS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  3949. }
  3950. if(soe_check(EV_JS_L+sw*EV_SW_NUM)==true) //
  3951. {
  3952. soe_record_ev(EV_JS_L+sw*EV_SW_NUM, 0, 0,0,0 );
  3953. }
  3954. if(soe_check(EV_JS_POWER+sw*EV_SW_NUM)==true) //
  3955. {
  3956. soe_record_ev(EV_JS_POWER+sw*EV_SW_NUM, 0, 0,0,0 );
  3957. }
  3958. }
  3959. {
  3960. TLOSTVOT_T *pSW = &pR->tLostVot;
  3961. pSW->losttimes=0;
  3962. }
  3963. g_run_stu.rmtjs=false;
  3964. #if defined FUNC_MODE_JS || defined FUNC_ONLY_MMD_JS
  3965. if(!gb_js_mode)
  3966. #endif
  3967. {
  3968. g_run_stu.js=false;
  3969. }
  3970. pSW->bDL_Hz=false;
  3971. pR->uRmtSW.bYHExecute_fa=false;
  3972. pR->uRmtSW.bHandHz_fa=false;
  3973. pR->uRmtSW.bYH_fajs_flag=false;
  3974. pSW->uSdhz_S.bFlag.bJS=true;
  3975. fa_unlock_s_bs(sw);
  3976. fa_uf_clear(sw,false);
  3977. pSW->bS_BSLed=fa_check_all_s_bs(sw);
  3978. return;
  3979. }
  3980. //运行状态流程处理
  3981. if(!fa_check_s_bs_hz(sw))
  3982. {
  3983. fa_s_status_run(sw, dStep);
  3984. }
  3985. else
  3986. {
  3987. fa_s_state_change(sw,S_INIT);//pSW->S_Status = S_USUAL;
  3988. }
  3989. pSW->bS_BSLed=fa_check_all_s_bs(sw);
  3990. //闭锁标志处理
  3991. pSW->uSdhz_S.bFlag.bLockUFlash = (pSW->S_Status == S_BSFLASH) && pSW->uSdhz_S.bFlag.bPowerYY;
  3992. // pSW->uSdhz_S.bFlag.bLockX = (pSW->S_Status == S_BSXTIME) && pSW->uSdhz_S.bFlag.bOppositeYY;
  3993. pSW->uSdhz_S.bFlag.bLockY = (pSW->S_Status == S_BSYTIME) && pSW->uSdhz_S.bFlag.bPowerYY;
  3994. // pSW->uSdhz_S.bFlag.bLockUDouble = (pSW->S_Status == S_BSDOUBLE) && pSW->uSdhz_S.bFlag.bYY;
  3995. //pSW->bS_BSLed = pSW->uSdhz_S.bFlag.bLockUFlash
  3996. // || pSW->uSdhz_S.bFlag.bLockX
  3997. // || pSW->uSdhz_S.bFlag.bLockY
  3998. // || pSW->uSdhz_S.bFlag.bLockUDouble;
  3999. //
  4000. //LED灯处理
  4001. fa_ls_led(sw, false);
  4002. /*********************合闸判断***********************/
  4003. RunTR(&pSW->tHzS100ms, pSW->uSdhz_S.bFlag.bRLONFLAG, dStep); // 合闸信号,限制在合闸脉冲时间以内
  4004. pSW->uSdhz_S.bFlag.bHz = pSW->tHzS100ms.boolTrip;
  4005. //上电加速
  4006. RunTR(&pSW->tTSDHzHJS, (pSW->uSdhz_S.bFlag.bHz && pR->tSWST.uSWST.bFlag.bTZWZ), dStep);
  4007. pR->tSWST.uSWST.bFlag.bSDJS = pSW->tTSDHzHJS.boolTrip && (!pR->tSWST.uSWST.bFlag.bTZWZ);
  4008. /************事件记录及出口****************************/
  4009. if(pSW->uSdhz_S.bFlag.bHz)
  4010. {
  4011. if(!pSW->uSdhz_S.bFlag.bHZEvent)
  4012. {
  4013. DWORD Us1,Us2;
  4014. if(pRunSet->bTT_UYYmin)
  4015. {
  4016. Us1 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_min[2]), 256, pRunSet->dKU[PUB_AC_UAB1]);
  4017. Us2 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_min[3]), 256, pRunSet->dKU[pRunSet->pt2vol]);
  4018. }
  4019. else
  4020. {
  4021. Us1 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[2]), 256, pRunSet->dKU[PUB_AC_UAB1]);
  4022. Us2 = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[3]), 256, pRunSet->dKU[pRunSet->pt2vol]);
  4023. }
  4024. //rcd_start(sw,RECORD_WAVE_TYPE_TZ, RECORD_LEN_TZQD); //录波类型:跳闸类
  4025. soe_record_ev(EV_FA_HZ+sw*EV_SW_NUM, 1, Us1,Us2,0 );
  4026. #if defined GD_AREA_ECZD_MEIZHOU_2021
  4027. if(pSW->uSdhz_S.bFlag.bPower)
  4028. soe_record_ev(EV_FA_HZ_L+sw*EV_SW_NUM, 1, Us1,Us2,0 );
  4029. else
  4030. soe_record_ev(EV_FA_HZ_P+sw*EV_SW_NUM, 1, Us1,Us2,0 );
  4031. #endif
  4032. pSW->uSdhz_S.bFlag.bHZEvent = true;
  4033. pSW->uSdhz_S.bFlag.bRLONFLAG = false;
  4034. }
  4035. }
  4036. else
  4037. {
  4038. if(pSW->uSdhz_S.bFlag.bHZEvent)
  4039. {
  4040. soe_record_ev(EV_FA_HZ+sw*EV_SW_NUM, 0, 0,0,0 );
  4041. #if defined GD_AREA_ECZD_MEIZHOU_2021
  4042. if(pSW->uSdhz_S.bFlag.bPower)
  4043. soe_record_ev(EV_FA_HZ_L+sw*EV_SW_NUM,0, 0,0,0 );
  4044. else
  4045. soe_record_ev(EV_FA_HZ_P+sw*EV_SW_NUM, 0, 0,0,0 );
  4046. #endif
  4047. pSW->uSdhz_S.bFlag.bHZEvent = false;
  4048. }
  4049. }
  4050. }
  4051. /**************************************************************************
  4052. 函数名称:Pro_L_RUN
  4053. 函数版本:1.00
  4054. 作者: 电力产品开发部
  4055. 创建日期:2011.10.28
  4056. 函数功能说明:环网点运行
  4057. 输入参数:
  4058. 其他输入:
  4059. 输出参数:
  4060. 返回值:
  4061. ***************************************************************************/
  4062. static void fa_l_run(int sw, DWORD dStep)
  4063. {
  4064. bool bY1=FALSE;
  4065. bool bY2=FALSE;
  4066. #ifdef FUNC_NYY_NWY
  4067. bool bY1_n=0,bY2_n=0;
  4068. #endif
  4069. TRELAY_T *pR=&g_tRelay[sw];
  4070. TSDHZ_T *pSW = &pR->tSDHZ;
  4071. TSETSW *pSet = &pRunSet->tSwSet[sw];
  4072. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  4073. bool bY3=false,bY4=false;
  4074. #endif
  4075. //有压检测
  4076. // 电源1上电合闸
  4077. if(pRunSet->bTT_UYYmin)
  4078. {
  4079. bY1 = OverRelay(g_sw_pub.m2_min[2], pSet->dU_fa_YY, pSet->dU_fa_WY, pSW->uSdhz_L.bFlag.bUABYY);
  4080. bY2 = OverRelay(g_sw_pub.m2_min[3], pSet->dU_fa_YY2, pSet->dU_fa_WY2, pSW->uSdhz_L.bFlag.bUBCYY);
  4081. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  4082. //电源侧
  4083. {
  4084. pSW->uSdhz_L.bFlag.bHzEnable_P = true;
  4085. if(pSW->uSdhz_L.bFlag.bBsXtime_P)
  4086. pSW->uSdhz_L.bFlag.bHzEnable_P = false;
  4087. bY3 = LowRelay(g_sw_pub.m2_max[2], pSet->dU_fa_YY, pSet->dU_fa_YY_fh, pSW->uSdhz_L.bFlag.bUABYY);
  4088. if(bY3 && pSW->uSdhz_L.bFlag.bBsXtime_P && cheak_pt_ok_ing(sw))
  4089. {
  4090. pSW->uSdhz_L.bFlag.bHzEnable_P = true;
  4091. pSW->uSdhz_L.bFlag.bBsXtime_P = false;
  4092. }
  4093. }
  4094. //负荷侧
  4095. {
  4096. pSW->uSdhz_L.bFlag.bHzEnable_L = true;
  4097. if(pSW->uSdhz_L.bFlag.bBsXtime_L)
  4098. pSW->uSdhz_L.bFlag.bHzEnable_L = false;
  4099. bY4 = LowRelay(g_sw_pub.m2_max[2], pSet->dU_fa_YY, pSet->dU_fa_YY_fh, pSW->uSdhz_L.bFlag.bUABYY);
  4100. if(bY4 && pSW->uSdhz_L.bFlag.bBsXtime_L && cheak_pt_ok_ing(sw))
  4101. {
  4102. pSW->uSdhz_L.bFlag.bHzEnable_L = true;
  4103. pSW->uSdhz_L.bFlag.bBsXtime_L = false;
  4104. }
  4105. }
  4106. #endif
  4107. #ifdef FUNC_NYY_NWY
  4108. bY1_n = (((g_sw_pub.m2_min[2] > pSet->dU_fa_WY) && (g_sw_pub.m2_min[2] < pSet->dU_fa_YY))?true:false)
  4109. || (tPT.uPT1DX.bFlag.bQD && pSW->uSdhz_L.bFlag.bUBCYY)
  4110. ;
  4111. bY2_n = (((g_sw_pub.m2_min[3] > pSet->dU_fa_WY2) && (g_sw_pub.m2_min[3] < pSet->dU_fa_YY2))?true:false)
  4112. || (tPT.uPT2DX.bFlag.bQD && pSW->uSdhz_L.bFlag.bUABYY)
  4113. ;
  4114. #endif
  4115. }
  4116. else
  4117. {
  4118. bY1 = OverRelay(g_sw_pub.m2_max[2], pSet->dU_fa_YY, pSet->dU_fa_WY, pSW->uSdhz_L.bFlag.bUABYY);
  4119. bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_fa_YY2, pSet->dU_fa_WY2, pSW->uSdhz_L.bFlag.bUBCYY);
  4120. #ifdef GD_AREA_ECZD_CHAOZHOU_2022
  4121. pSW->uSdhz_L.bFlag.bHzEnable_P = true;
  4122. pSW->uSdhz_L.bFlag.bHzEnable_L = true;
  4123. #endif
  4124. }
  4125. RunTR(&pSW->tUABL25ms, bY1, dStep);
  4126. #ifdef GD_AREA_LIAONING_2021
  4127. pSW->uSdhz_L.bFlag.bUABYY = pSW->tUABL25ms.boolTrip && pR->run_stu.fa_start_hz;
  4128. #else
  4129. pSW->uSdhz_L.bFlag.bUABYY = pSW->tUABL25ms.boolTrip;
  4130. #endif
  4131. // 电源2上电合闸
  4132. //bY2 = OverRelay(g_sw_pub.m2_max[3], pSet->dU_fa_YY, pSet->dU_fa_YY_fh, pSW->uSdhz_L.bFlag.bUBCYY);
  4133. RunTR(&pSW->tUBCL25ms, bY2, dStep);
  4134. pSW->uSdhz_L.bFlag.bUBCYY = pSW->tUBCL25ms.boolTrip;
  4135. #ifdef FUNC_NYY_NWY
  4136. RunTR(&pSW->tUABL_NYY_NWY_50ms, bY1_n, dStep);
  4137. pSW->uSdhz_L.bFlag.bUAB_NYY_NWY = pSW->tUABL_NYY_NWY_50ms.boolTrip;
  4138. RunTR(&pSW->tUBCL_NYY_NWY_50ms, bY2_n, dStep);
  4139. pSW->uSdhz_L.bFlag.bUBC_NYY_NWY = pSW->tUBCL_NYY_NWY_50ms.boolTrip;
  4140. #endif
  4141. //两侧有压
  4142. pSW->uSdhz_L.bFlag.bDBYY = pSW->uSdhz_L.bFlag.bUABYY && pSW->uSdhz_L.bFlag.bUBCYY;
  4143. /*对侧有瞬时电压
  4144. pSW->uSdhz_L.bFlag.bOppositeUF = (pSW->uSdhz_L.bFlag.bUABFlash && (!pSW->uSdhz_L.bFlag.bPower))
  4145. || (pSW->uSdhz_L.bFlag.bUBCFlash && pSW->uSdhz_L.bFlag.bPower);
  4146. */
  4147. //一侧失压
  4148. pSW->uSdhz_L.bFlag.bOneLostV = pSW->uSdhz_L.bFlag.bUABYY ^ pSW->uSdhz_L.bFlag.bUBCYY;
  4149. //有压
  4150. pSW->uSdhz_L.bFlag.bYY = pSW->uSdhz_L.bFlag.bUABYY || pSW->uSdhz_L.bFlag.bUBCYY;
  4151. bY1 = ((pSW->uSdhz_L.bFlag.bUABYY && (!pSW->uSdhz_L.bFlag.bUBCYY) && (!pSW->uSdhz_L.bFlag.bPower))
  4152. ||((!pSW->uSdhz_L.bFlag.bUABYY) && pSW->uSdhz_L.bFlag.bUBCYY && pSW->uSdhz_L.bFlag.bPower));
  4153. RunTR(&pSW->tOpsiteYY100ms, bY1, dStep);
  4154. pSW->uSdhz_L.bFlag.bOppositeYY = pSW->tOpsiteYY100ms.boolTrip && pSet->bTT_fa_poweron && pSet->bTT_fa_lineon;
  4155. if (pR->uRmtSW.bYTExecute || pR->uRmtSW.bHandTz||pSW->bDL_Tz)
  4156. {
  4157. #ifndef GD_AREA_ZHONGSHAN_2020//中山2020联络模式不报手分闭锁SOE 2020-11-3
  4158. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)==false) // 手动分闸,闭锁合闸
  4159. {
  4160. soe_record_ev(EV_BS_HA+sw*EV_SW_NUM, 1, 0,0,0 );
  4161. }
  4162. #endif
  4163. pSW->bDL_Tz=false;
  4164. //pSW->L_Status = L_INIT;
  4165. fa_l_state_change(sw,L_INIT);
  4166. pSW->uSdhz_L.wfFlag = 0;
  4167. //pSW->bL_BSLed = 0;
  4168. }
  4169. #ifdef FUNC_REBOOT_BS_HA_JS_3S
  4170. RunTR(&pSW->tHW_JS_HA_3STime, (g_tRelay[sw].uRmtSW.b_bsha && pR->tSWST.uSWST.bFlag.bDIHW), dStep);
  4171. if(pSW->tHW_JS_HA_3STime.boolTrip)
  4172. {
  4173. g_tRelay[sw].uRmtSW.b_bsha = false;
  4174. g_run_stu.js = true;
  4175. }
  4176. #endif
  4177. if (pR->uRmtSW.bYHExecute_fa || pR->uRmtSW.bHandHz_fa||g_run_stu.js||pSW->bDL_Hz||g_run_stu.rmtjs||pR->uRmtSW.bYH_fajs_flag) //如果有手合、遥合事件,
  4178. {
  4179. bool bUAB,bUBC;
  4180. bUAB = pSW->uSdhz_L.bFlag.bUABYY;
  4181. bUBC = pSW->uSdhz_L.bFlag.bUBCYY;
  4182. pSW->uSdhz_L.bFlag.bUABYY = bUAB;
  4183. pSW->uSdhz_L.bFlag.bUBCYY = bUBC;
  4184. #ifdef GD_AREA_ZHONGSHAN_2020
  4185. //if(pSW->uSdhz_L.bFlag.bYY && (pSW->bDL_Hz || pR->uRmtSW.bHandHz_fa))
  4186. {
  4187. fa_l_state_change(sw,L_YL_TIME);
  4188. }
  4189. g_run_stu.rmtjs=false;
  4190. g_run_stu.js=false;
  4191. pSW->bDL_Hz=false;
  4192. pR->uRmtSW.bYHExecute_fa=false;
  4193. pR->uRmtSW.bHandHz_fa=false;
  4194. pR->uRmtSW.bYH_fajs_flag=false;
  4195. //if(pSW->L_Status == L_INIT)
  4196. {
  4197. pR->tLostVot.uLostVot.bFlag.bSHWY=!(bUAB||bUBC);//将手合状态电压保存
  4198. }
  4199. //#if defined GD_AREA_ZHONGSHAN_2020 //中山2020允许无压进入Y实现即时,需将故障定时器清零
  4200. ResetTR(&pSW->tGZJYRstGLTime);
  4201. ResetTR(&pSW->tGZJYRstGL_II_Time);
  4202. ResetTR(&pSW->tGZJYRstJDTime);
  4203. ResetTR(&pSW->tGZJYRstGL2Time);
  4204. ResetTR(&pSW->tGZJYRstJD2Time);
  4205. ResetTR(&pR->tU0TZ.tZOVTime);
  4206. ResetTR(&pSW->tOnYLTime);
  4207. //#endif
  4208. return;//中山2020要求不允许任何人为情况干预解锁
  4209. #endif
  4210. if(pR->uRmtSW.bYHExecute_fa||pR->uRmtSW.bHandHz_fa)
  4211. pR->uRmtSW.bYH_fajs_flag=true;
  4212. //rt_printf_time("遥控合闸解锁 bYHExecute_fa=%d bHandHz_fa=%d js=%d bDL_Hz=%d rmtjs=%d\r\n",pR->uRmtSW.bYHExecute_fa , pR->uRmtSW.bHandHz_fa,g_run_stu.js,pSW->bDL_Hz,g_run_stu.rmtjs);
  4213. //if (g_run_stu.js||g_run_stu.rmtjs)
  4214. // ;//除了合位解锁条件
  4215. //else if(pSW->bDL_Hz || pR->uRmtSW.bYH_fajs_flag || pR->uRmtSW.bHandHz_fa)//联络 -> 手合或遥控合闸,开关两侧至少有一侧电压正常,延时6s解除残压闭锁。(中山局新增)
  4216. {
  4217. if(soe_check(EV_BS_UF_P+sw*EV_SW_NUM)||soe_check(EV_BS_UF_L+sw*EV_SW_NUM))
  4218. {
  4219. if(!bUAB&&!bUBC)
  4220. return;
  4221. RunTR(&pSW->tOnJSTime, TRUE, dStep); //js时间计数
  4222. if(!pSW->tOnJSTime.boolTrip)
  4223. return;
  4224. }
  4225. pR->tLostVot.uLostVot.bFlag.bSHWY=!(bUAB||bUBC);//将手合状态电压保存
  4226. if(pR->tSWST.uSWST.bFlag.bDIHW || pR->uRmtSW.bYH_fajs_flag)//合位或者手合遥控合
  4227. {
  4228. ResetTR(&pSW->tOnYLTime);
  4229. if(soe_check(EV_SH_BSFZ+sw*EV_SW_NUM)==false && !pSet->bTT_fa_shbs) //
  4230. {
  4231. soe_record_ev(EV_SH_BSFZ+sw*EV_SW_NUM, 1, 0,0,0 );
  4232. }
  4233. if((pR->tLostVot.uLostVot.bFlag.bSHWY && pR->uRmtSW.bYH_fajs_flag) ||pR->tLostVot.uLostVot.bFlag.bSHWY)
  4234. {
  4235. pSW->uSdhz_L.bFlag.bPowerZ=0;
  4236. ResetTR(&pR->tLostVot.tLostVotTime);//重新开始Z计时
  4237. fa_l_state_change(sw,L_RELAYON);
  4238. }
  4239. else
  4240. {
  4241. fa_l_state_change(sw,L_YL_TIME);
  4242. }
  4243. }
  4244. else
  4245. {
  4246. ResetTR(&pSW->tOnYLTime);
  4247. if(pR->tSWST.uSWST.bFlag.bDIHW)
  4248. fa_l_state_change(sw,L_BS_STATE);
  4249. else
  4250. fa_l_state_change(sw,L_INIT);
  4251. }
  4252. }
  4253. ResetTR(&pSW->tOnJSTime); //js时间计数
  4254. pSW->uSdhz_L.wfFlag = 0;
  4255. pSW->bL_BSLed = 0;
  4256. SignalReset(0,true);
  4257. fa_close_led(sw);
  4258. if(g_run_stu.js||g_run_stu.rmtjs)
  4259. {
  4260. SignalReset(0,false);
  4261. if(soe_check(EV_JS_HA+sw*EV_SW_NUM)==false) //
  4262. {
  4263. soe_record_ev(EV_JS_HA+sw*EV_SW_NUM, 1, 0,0,0 );
  4264. }
  4265. if(soe_check(EV_JS_L+sw*EV_SW_NUM)==true) //
  4266. {
  4267. soe_record_ev(EV_JS_L+sw*EV_SW_NUM, 0, 0,0,0 );
  4268. }
  4269. if(soe_check(EV_JS_HZ+sw*EV_SW_NUM)==true) //
  4270. {
  4271. soe_record_ev(EV_JS_HZ+sw*EV_SW_NUM, 0, 0,0,0 );
  4272. }
  4273. if(soe_check(EV_FA_U0GJ+sw*EV_SW_NUM)==true)
  4274. {
  4275. soe_record_ev(EV_FA_U0GJ+sw*EV_SW_NUM, 0, 0,0,0 );
  4276. }
  4277. }
  4278. else
  4279. {
  4280. if(soe_check(EV_JS_HZ+sw*EV_SW_NUM)==false&&soe_check(EV_BS_ALL+sw*EV_SW_NUM)==true) //
  4281. {
  4282. soe_record_ev(EV_JS_HZ+sw*EV_SW_NUM, 1, 0,0,0 );
  4283. }
  4284. if(soe_check(EV_JS_L+sw*EV_SW_NUM)==true) //
  4285. {
  4286. soe_record_ev(EV_JS_L+sw*EV_SW_NUM, 0, 0,0,0 );
  4287. }
  4288. if(soe_check(EV_JS_HA+sw*EV_SW_NUM)==true) //
  4289. {
  4290. soe_record_ev(EV_JS_HA+sw*EV_SW_NUM, 0, 0,0,0 );
  4291. }
  4292. }
  4293. g_run_stu.rmtjs=false;
  4294. #if defined FUNC_MODE_JS || defined FUNC_ONLY_MMD_JS
  4295. if(!gb_js_mode)
  4296. #endif
  4297. {
  4298. g_run_stu.js=false;
  4299. }
  4300. pSW->bDL_Hz=false;
  4301. pR->uRmtSW.bYHExecute_fa=false;
  4302. pR->uRmtSW.bHandHz_fa=false;
  4303. pR->uRmtSW.bYH_fajs_flag=false;
  4304. fa_unlock_l_bs(sw);
  4305. return;
  4306. }
  4307. //if (!pSW->uSdhz_L.bFlag.bYY) //如果两侧失压
  4308. //{
  4309. // pSW->L_Status = L_INIT;
  4310. // pSW->uSdhz_L.wfFlag = 0;
  4311. // pSW->bL_BSLed = 0;
  4312. // _pro_close_led();
  4313. // return;
  4314. //}
  4315. //运行状态流程处理
  4316. //if(!check_l_bs_hz(sw))
  4317. {
  4318. fa_l_status_run(sw, dStep);
  4319. }
  4320. //pSW->bL_BSLed=check_all_l_bs(sw);
  4321. //闭锁标志处理
  4322. #if defined GD_AREA_ZHONGSHAN_2020
  4323. pSW->uSdhz_L.bFlag.bLockY = pSW->uSdhz_L.bFlag.bLockUFlash;//( ((pSW->L_Status == L_BS_STATE) && (!pSW->tOnYLTime.boolTrip))
  4324. //|| (pSW->uSdhz_L.bFlag.bLockUFlash)); //L_Status == L_Y_ZTIME));
  4325. #else
  4326. pSW->uSdhz_L.bFlag.bLockY = (((pSW->L_Status == L_INIT) && pSW->uSdhz_L.bFlag.bYY)
  4327. || ((pSW->L_Status == L_BS_STATE) && (!pSW->tOnYLTime.boolTrip))
  4328. || (pSW->uSdhz_L.bFlag.bLockUFlash)); //L_Status == L_Y_ZTIME));
  4329. #endif
  4330. pSW->bL_BSLed = pSW->uSdhz_L.bFlag.bLockY||fa_check_all_l_bs(sw);
  4331. //LED灯处理
  4332. fa_ls_led(sw, true);
  4333. //合闸判断
  4334. RunTR(&pSW->tHzS100ms, pSW->uSdhz_L.bFlag.bRLONFLAG, dStep); // 合闸信号,限制在合闸脉冲时间以内
  4335. pSW->uSdhz_L.bFlag.bHz = pSW->tHzS100ms.boolTrip;
  4336. //上电加速
  4337. RunTR(&pSW->tTSDHzHJS, (pSW->uSdhz_L.bFlag.bHz && pR->tSWST.uSWST.bFlag.bTZWZ), dStep);
  4338. pR->tSWST.uSWST.bFlag.bSDJS = pSW->tTSDHzHJS.boolTrip && (!pR->tSWST.uSWST.bFlag.bTZWZ); //上电后加速标志
  4339. /************事件记录及出口****************************/
  4340. if(pSW->uSdhz_L.bFlag.bHz)
  4341. {
  4342. if(!pSW->uSdhz_L.bFlag.bHZEvent)
  4343. {
  4344. DWORD Uab,Ubc;
  4345. Uab = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[2]), 256, pRunSet->dKU[PUB_AC_UAB1]);
  4346. Ubc = _Mul_Div_U(sqrt_32fix(g_sw_pub.m2_max[3]), 256, pRunSet->dKU[pRunSet->pt2vol]);
  4347. //rcd_start(sw,RECORD_WAVE_TYPE_TZ, RECORD_LEN_TZQD); //录波类型:跳闸类
  4348. soe_record_ev(EV_FA_LL_HZ+sw*EV_SW_NUM, 1, Uab,Ubc,0 );
  4349. pSW->uSdhz_L.bFlag.bHZEvent = true;
  4350. pSW->uSdhz_L.bFlag.bRLONFLAG = false;
  4351. pSW->uSdhz_L.bFlag.bX_HZEvent = true;
  4352. }
  4353. }
  4354. else
  4355. {
  4356. if(pSW->uSdhz_L.bFlag.bHZEvent)
  4357. {
  4358. soe_record_ev(EV_FA_LL_HZ+sw*EV_SW_NUM, 0, 0,0,0 );
  4359. pSW->uSdhz_L.bFlag.bHZEvent = false;
  4360. }
  4361. }
  4362. }
  4363. void fa_status_print(int sw)
  4364. {
  4365. {
  4366. TRELAY_T *pR=&g_tRelay[sw];
  4367. TSDHZ_T *pSW =&pR->tSDHZ;
  4368. if(pSW->uSdhz_L.wfFlag!=pSW->l_flag_save||pSW->L_Status!=pSW->L_Status_save)
  4369. {
  4370. //if(pSW->uSdhz_L.wfFlag!=pSW->l_flag_save)
  4371. // fa_change_flag_print(sw,pSW->l_flag_save,pSW->uSdhz_L.wfFlag,fa_run_falg_str);
  4372. //fa_change_status_print(pSW->L_Status_save,pSW->L_Status,fa_l_status);
  4373. pSW->l_flag_save=pSW->uSdhz_L.wfFlag;
  4374. pSW->L_Status_save=pSW->L_Status;
  4375. }
  4376. if(pSW->uSdhz_S.wfFlag!=pSW->s_flag_save||pSW->S_Status!=pSW->S_Status_save)
  4377. {
  4378. //if(pSW->uSdhz_S.wfFlag!=pSW->s_flag_save)
  4379. // fa_change_flag_print(sw,pSW->s_flag_save,pSW->uSdhz_S.wfFlag,fa_run_falg_str);
  4380. //fa_change_status_print(pSW->S_Status_save,pSW->S_Status,fa_s_status);
  4381. pSW->s_flag_save=pSW->uSdhz_S.wfFlag;
  4382. pSW->S_Status_save=pSW->S_Status;
  4383. }
  4384. #if 0
  4385. if(pR->tLostVot.uLostVot.wfFlag!=pR->tLostVot.wfFlagsave)
  4386. {
  4387. //fa_change_flag_print(sw,pR->tLostVot.wfFlagsave,pR->tLostVot.uLostVot.wfFlag,sw_u_str);
  4388. rt_printf("sw=%d tLostFlag=%08x losttimes=%d\r\n",sw,pR->tLostVot.uLostVot.wfFlag,pR->tLostVot.losttimes);
  4389. pR->tLostVot.wfFlagsave=pR->tLostVot.uLostVot.wfFlag;
  4390. }
  4391. if(pR->tSWST.uSWST.wfFlag!=pR->tSWST.wfFlagsave)
  4392. {
  4393. //fa_change_flag_print(sw,pR->tSWST.wfFlagsave,pR->tSWST.uSWST.wfFlag,sw_status_str);
  4394. rt_printf("\r\n sw=%d tSWST Flag=%08x\r\n",sw,pR->tSWST.uSWST.wfFlag);
  4395. pR->tSWST.wfFlagsave=pR->tSWST.uSWST.wfFlag;
  4396. }
  4397. #endif
  4398. }
  4399. }
  4400. int fa_UFDI_Init(void)
  4401. {
  4402. int sw, i;
  4403. if(!pRunSet->bTT_SY_Board)return 1; //无瞬压模块
  4404. #if (1) /* TODO lch */
  4405. for (sw=0; sw< SWITCH_NUM_MAX; sw++)
  4406. {
  4407. g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bUabflashDI=g_tRelay[sw].run_stu.pt1uf&&pRunSet->tSwSet[sw].bTT_FA;
  4408. g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bUbcflashDI=g_tRelay[sw].run_stu.pt2uf&&pRunSet->tSwSet[sw].bTT_FA;
  4409. }
  4410. #else // DTU需采集初始遥信才能返回
  4411. for(i=0; i<g_equ_config->equ_slot_num; i++)
  4412. {
  4413. int di_num = equ_get_di_num(i);
  4414. if(di_num>0)
  4415. {
  4416. if(g_board_info[i].type != BOARD_TYPE_DI)continue;
  4417. if(g_di[i].bInited==false) return 0;
  4418. }
  4419. }
  4420. #endif
  4421. for (sw=0; sw< SWITCH_NUM_MAX; sw++)
  4422. {
  4423. g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bUabflashDI=g_tRelay[sw].run_stu.pt1uf&&pRunSet->tSwSet[sw].bTT_FA;
  4424. g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bUbcflashDI=g_tRelay[sw].run_stu.pt2uf&&pRunSet->tSwSet[sw].bTT_FA;
  4425. }
  4426. return 1;
  4427. }
  4428. void fa_RstUFDI(int sw)
  4429. {
  4430. if(!pRunSet->bTT_SY_Board)return;
  4431. sw_do(sw,SW_FBT_SY,SW_DO_TYPE_ON);
  4432. if(g_tRelay[sw].run_stu.pt1uf||g_tRelay[sw].run_stu.pt2uf)
  4433. {
  4434. sw_do(sw,SW_RST_SY,SW_DO_TYPE_ON);
  4435. sw_do(sw,SW_RST_SY1,SW_DO_TYPE_OFF);
  4436. }
  4437. else
  4438. {
  4439. sw_do(sw,SW_RST_SY1,SW_DO_TYPE_ON);
  4440. sw_do(sw,SW_RST_SY,SW_DO_TYPE_OFF);
  4441. }
  4442. }
  4443. //清启动跳闸启动条件
  4444. static void fa_cls_qd(int sw)
  4445. {
  4446. TRELAY_T *pR=&g_tRelay[sw];
  4447. //TSDHZ_T *pSW =&pR->tSDHZ;
  4448. //TSETSW *pSet = &pRunSet->tSwSet[sw];
  4449. TU0_T *pU0=&pR->tU0TZ;
  4450. TOC_T *poc ;
  4451. if(pR->bBSTZ)//遮断电流的时候防止提前清掉启动标志
  4452. return;
  4453. // if(!pR->tSWST.uSWST.bFlag.bDIHW)
  4454. {
  4455. pR->tLostVot.uLostVot.bFlag.bQD = false;//失压启动返回
  4456. pR->tLostVot.uLostVot.bFlag.bTz = false;
  4457. }
  4458. //if(pSW->uSdhz_S.bFlag.bGL)
  4459. {
  4460. poc = &g_tRelay[sw].tOC[FA_GL];
  4461. poc->sta.bFlag.bQD = false;
  4462. poc->sta.bFlag.bTz = false;
  4463. }
  4464. //else if(pSW->uSdhz_S.bFlag.bGL_II)
  4465. {
  4466. poc = &g_tRelay[sw].tOC[FA_GL_II];
  4467. poc->sta.bFlag.bQD = false;
  4468. poc->sta.bFlag.bTz = false;
  4469. }
  4470. //else if (pSW->uSdhz_S.bFlag.bJD)
  4471. {
  4472. poc = &g_tRelay[sw].tOC[FA_LX];
  4473. poc->sta.bFlag.bQD = false;
  4474. poc->sta.bFlag.bTz = false;
  4475. }
  4476. //else if (pSW->uSdhz_S.bFlag.bOverU0)
  4477. {
  4478. pU0->uZOV.bFlag.bQD = false;
  4479. pU0->uZOV.bFlag.bTz = false;
  4480. }
  4481. }
  4482. //fa闭锁分合闸
  4483. bool fa_bs_fz(int sw)
  4484. {
  4485. TRELAY_T *pR=&g_tRelay[sw];
  4486. //TSDHZ_T *pSW = &pR->tSDHZ;
  4487. TSETSW *pSet = &pRunSet->tSwSet[sw];
  4488. if (!(FA_ALL_EN(sw)) || !pSet->bTT_FA) // FA功能未投入
  4489. return false;
  4490. if(pR->bBSTZ) //
  4491. {
  4492. rt_printf("遮断电流,禁止分闸\r\n");
  4493. return true;
  4494. }
  4495. return false;
  4496. }
  4497. bool fa_bs_hz(int sw)
  4498. {
  4499. TRELAY_T *pR=&g_tRelay[sw];
  4500. TSDHZ_T *pSW = &pR->tSDHZ;
  4501. TSETSW *pSet = &pRunSet->tSwSet[sw];
  4502. RUN_STU_SW *prun=&g_tRelay[sw].run_stu;
  4503. if (!(FA_ALL_EN(sw)) || !pSet->bTT_FA ) // FA功能未投入
  4504. return false;
  4505. if((soe_check(EV_BS_DB+(sw)*EV_SW_NUM)||pSW->uSdhz_S.bFlag.bDBYY) && pSet->bTT_fa_scyy_bs)
  4506. {
  4507. rt_printf("FA双侧有压,禁止合\r\n");
  4508. return true;//
  4509. }
  4510. if (prun->fa_ls) // 联络
  4511. {
  4512. if(pSW->bL_BSLed && pRunSet->bTT_bs_ykon)
  4513. {
  4514. rt_printf("联络双侧有压,禁止合闸\r\n");
  4515. return true;
  4516. }
  4517. }
  4518. else
  4519. {
  4520. if(soe_check(EV_BS_ALL+(sw)*EV_SW_NUM) && pRunSet->bTT_bs_ykon)
  4521. {
  4522. rt_printf("FA闭锁合闸,禁止合\r\n");
  4523. return true;//
  4524. }
  4525. }
  4526. return false;
  4527. }
  4528. #ifdef FUNC_MODE_JS
  4529. //清重合闸闭锁
  4530. void Reset_chz_bs(int sw)
  4531. {
  4532. if(soe_check(EV_ARBS+sw*EV_SW_NUM)==true)
  4533. {
  4534. g_tRelay[sw].tCHZ.sta.bFlag.bCHBS=false;
  4535. soe_record_ev(EV_ARBS+sw*EV_SW_NUM, 0, 0,0,0); // 重合闸闭锁
  4536. led_set_sw(sw,SW_LED_CHZBS, LED_OFF);
  4537. led_set_sw(sw,SW_LED_CHZBS_LOCK, LED_OFF);
  4538. ResetTR(&g_tRelay[sw].tCHZ.tTCHJBSTime);
  4539. }
  4540. }
  4541. #endif
  4542. /**************************************************************************
  4543. 函数名称:Pro_LS_RUN
  4544. 函数版本:1.00
  4545. 作者: 电力产品开发部
  4546. 创建日期:2011.10.28
  4547. 函数功能说明:环网点运行
  4548. 输入参数:
  4549. 其他输入:
  4550. 输出参数:
  4551. 返回值:
  4552. ***************************************************************************/
  4553. void FA_Run(DWORD dStep)
  4554. {
  4555. int sw=g_protect.sw;
  4556. bool bSW_LL,bY1;
  4557. TRELAY_T *pR=&g_tRelay[sw];
  4558. TSDHZ_T *pSW =&pR->tSDHZ;
  4559. TSETSW *pSet = &pRunSet->tSwSet[sw];
  4560. #ifdef FUNC_MODE_JS
  4561. static bool sb_first=true,sb_first_ll = true,sb_first_fd = true;
  4562. #endif
  4563. #ifdef FUNC_DRIVE
  4564. gb_drive.b_fa_drive = true;
  4565. #endif
  4566. if(!pSW->bInitUF)
  4567. {
  4568. int ret;
  4569. ret=fa_UFDI_Init();
  4570. if(ret==0)return;
  4571. pSW->bInitUF=true;
  4572. }
  4573. run_vol_refersh(sw, dStep);
  4574. if (!(FA_ALL_EN(sw)) || !pSet->bTT_FA) // FA功能未投入
  4575. {
  4576. pR->tU0TZ.bU0Led=false;
  4577. pR->tU0TZ.bU0GjLed = false;
  4578. pR->tOC[FA_GL].sta.bFlag.bDzLed = false;
  4579. pR->tOC[FA_GL].sta.bFlag.bGj = false;
  4580. pR->tOC[FA_GL_II].sta.bFlag.bDzLed = false;
  4581. pR->tOC[FA_GL_II].sta.bFlag.bGj = false;
  4582. pR->tOC[FA_GL2].sta.bFlag.bDzLed = false;
  4583. pR->tOC[FA_GL2].sta.bFlag.bGj = false;
  4584. pR->tOC[FA_LX].sta.bFlag.bDzLed = false;
  4585. pR->tOC[FA_LX].sta.bFlag.bGj = false;
  4586. pR->tOC[FA_LX2].sta.bFlag.bDzLed = false;
  4587. pR->tOC[FA_LX2].sta.bFlag.bGj = false;
  4588. if(soe_check(EV_BS_HA+sw*EV_SW_NUM))//手分闭锁后,切换至其他模式应保持该信号 2020-11-3
  4589. {
  4590. pSW->bDL_Tz=true;
  4591. }
  4592. if(pR->tSWST.uSWST.bFlag.bDIHW)
  4593. {
  4594. pSW->bDL_Tz=false;//合位清手分闭锁标志 2020-11-3
  4595. }
  4596. pSW->bS_BSLed = 0;
  4597. pSW->bL_BSLed = 0;
  4598. #ifndef GD_AREA_ECZD_2020
  4599. fa_unlock_s_bs(sw);
  4600. #endif
  4601. //非FA逻辑下实时清以下状态
  4602. pR->uRmtSW.bYHExecute_fa =0;
  4603. pR->uRmtSW.bHandHz_fa=0;
  4604. #if !defined FUNC_MODE_JS && !defined FUNC_ONLY_MMD_JS
  4605. g_run_stu.js=0;
  4606. #endif
  4607. pSW->bDL_Hz=0;
  4608. g_run_stu.rmtjs=0;
  4609. pR->tLostVot.uLostVot.bFlag.bSHWY = FALSE; //清手合无压标志
  4610. pR->uRmtSW.bYTExecute=0 ;
  4611. pR->uRmtSW.bHandTz=0;
  4612. //pSW->bDL_Tz=0;
  4613. pSW->bSDHZinit=0;
  4614. //开关状态监测计时器
  4615. ResetTR(&pSW->tHw100ms100ms);
  4616. ResetTR(&pSW->tTw100ms100ms);
  4617. ResetTR(&pSW->tTz0ms1s);
  4618. ResetTR(&pSW->tHz0ms1s);
  4619. ResetTR(&pSW->tOnYLTime);
  4620. ResetTR(&pSW->tUABL25ms);
  4621. ResetTR(&pSW->tUBCL25ms);
  4622. ResetTR(&pSW->tOnHW_FA_JSTime);
  4623. if(pSW->S_Status==S_XTIME)
  4624. {
  4625. ResetTR(&pSW->tOnXSTime);
  4626. }
  4627. if(pSW->S_Status==S_YTIME)
  4628. {
  4629. ResetTR(&pSW->tOnYSTime);
  4630. }
  4631. //fa_s_state_change(sw,S_INIT);
  4632. //fa_l_state_change(sw,L_INIT);
  4633. //#ifdef FA_BSYTIME_JS
  4634. //rst_ybs_soe( sw);
  4635. //#endif
  4636. //fa_close_led(sw);
  4637. #if defined FUNC_MODE_JS || defined FUNC_ONLY_MMD_JS
  4638. {
  4639. bool b_js_mode=false,b_js_mmd=false;
  4640. #ifdef FUNC_MODE_JS
  4641. b_js_mode = (!sb_first_ll || !sb_first_fd);
  4642. #endif
  4643. #ifdef FUNC_ONLY_MMD_JS
  4644. b_js_mmd = g_run_stu.b_mmdjs;
  4645. #endif
  4646. if(b_js_mode || b_js_mmd)
  4647. {
  4648. #ifdef FUNC_MODE_JS
  4649. if(b_js_mode)
  4650. {
  4651. sb_first_ll = true;
  4652. sb_first_fd = true;
  4653. sb_first = false;
  4654. }
  4655. #endif
  4656. #ifdef FUNC_ONLY_MMD_JS
  4657. if(b_js_mmd)
  4658. {
  4659. pSW->bDL_Tz=false;
  4660. }
  4661. #endif
  4662. gb_js_mode = true;
  4663. if(gb_js_mode)
  4664. {
  4665. g_run_stu.js = true;
  4666. fa_s_run(sw, dStep);
  4667. fa_l_run(sw, dStep);
  4668. fa_rstbs_soe(sw);
  4669. pSW->bL_BSLed=fa_check_all_l_bs(sw);
  4670. pSW->bS_BSLed=fa_check_all_s_bs(sw);
  4671. fa_uf_clear(sw,false);
  4672. fa_uf_clear(sw,true);
  4673. }
  4674. gb_js_mode = false;
  4675. #ifdef FUNC_ONLY_MMD_JS
  4676. g_run_stu.b_mmdjs = false;
  4677. #endif
  4678. }
  4679. //解锁标志在宏定义FUNC_MODE_JS开启时有用到,需在用完后再清,所以调整到此位置
  4680. g_run_stu.js=0;
  4681. }
  4682. #endif
  4683. return;
  4684. }
  4685. #if defined FUNC_MODE_JS || defined FUNC_ONLY_MMD_JS
  4686. gb_js_mode = false;
  4687. #endif
  4688. #ifdef FUNC_ONLY_MMD_JS
  4689. //FA模式下要将此标志一直置0,否则可能出现FA下有解锁需求将此标志置位后,切模式后会因为此标志一直未清零而自动解锁一次
  4690. g_run_stu.b_mmdjs = false;
  4691. #endif
  4692. fa_cls_qd(sw);
  4693. fa_RstUFDI(sw); //复归瞬压继电器
  4694. fa_s_Dataset(sw, dStep);
  4695. bSW_LL=(pR->run_stu.fa_ls>0)?true:false;
  4696. #if 1
  4697. if (pR->uRmtSW.bYTExecute )
  4698. {
  4699. dl_ope_event(sw,EV_YK_FZ, 0,0,0 );
  4700. }
  4701. if (pR->uRmtSW.bYHExecute )
  4702. {
  4703. dl_ope_event(sw,EV_YK_HZ, 0,0,0 );
  4704. }
  4705. if (pR->uRmtSW.bHandTz )
  4706. {
  4707. dl_ope_event(sw,EV_HA_FZ, 0,0,0 );
  4708. }
  4709. if (pR->uRmtSW.bHandHz )
  4710. {
  4711. dl_ope_event(sw,EV_HA_HZ, 0,0,0 );
  4712. }
  4713. RunTR(&pSW->tHw100ms100ms,( (pR->run_stu.sw==2)?true:false), dStep);
  4714. RunTR(&pSW->tTz0ms1s,(pR->uBHDZ.bFlag.bBHT||pR->uRmtSW.bYTExecute || pR->uRmtSW.bHandTz || pR->tgoc.bTzout), dStep); //
  4715. bY1=pSW->tHw100ms100ms.boolTrip&&((pR->run_stu.sw==1)?true:false);
  4716. if(bY1) // 开关由合到分
  4717. {
  4718. //ResetTR(&pSW->tHz0ms2s);
  4719. if(!pSW->tTz0ms1s.boolTrip)
  4720. {
  4721. if(pR->run_stu.kgyf)
  4722. {
  4723. dl_ope_event(sw,EV_HA_FZ, 0,0,0 );
  4724. }
  4725. else
  4726. {
  4727. dl_ope_event(sw,EV_DL_FZ, 0,0,0 );
  4728. pSW->bDL_Tz=true;
  4729. }
  4730. }
  4731. }
  4732. RunTR(&pSW->tTw100ms100ms,( (pR->run_stu.sw==1)?true:false), dStep);
  4733. RunTR(&pSW->tHz0ms1s,(pR->uBHDZ.bFlag.bBHH||pR->uRmtSW.bYHExecute || pR->uRmtSW.bHandHz||pR->tTQHz.uTQHz.bFlag.bHz||pR->tgoc.sta.bFlag.bllhz), dStep);
  4734. bY1=pSW->tTw100ms100ms.boolTrip&&((pR->run_stu.sw==2)?true:false);
  4735. if(bY1) // 开关由分到合
  4736. {
  4737. //ResetTR(&pSW->tTz0ms2s);
  4738. if(!pSW->tHz0ms1s.boolTrip)
  4739. {
  4740. if(pR->run_stu.kgyf)
  4741. {
  4742. dl_ope_event(sw,EV_HA_HZ, 0,0,0 );
  4743. }
  4744. else
  4745. {
  4746. dl_ope_event(sw,EV_DL_HZ, 0,0,0 );
  4747. pSW->bDL_Hz=true;
  4748. }
  4749. if(pSW->uSdhz_L.bFlag.bX_HZEvent)
  4750. {
  4751. //if(soe_check(EV_GOOSE_HZ_OK+sw*EV_SW_NUM)==false)
  4752. // soe_record_ev(EV_GOOSE_HZ_OK+sw*EV_SW_NUM, 1, 0,0,0 );
  4753. }
  4754. pSW->uSdhz_L.bFlag.bX_HZEvent = false;
  4755. }
  4756. }
  4757. #endif
  4758. if (!(FA_ALL_EN(sw)) ||!pSet->bTT_FA) // FA功能未投入
  4759. {
  4760. if(!BH_GOOSE_EN(sw))fa_close_led(sw);
  4761. if (pSW->S_Status != S_USUAL)
  4762. {
  4763. fa_s_state_change(sw,S_USUAL);//pSW->S_Status = S_USUAL;
  4764. pSW->uSdhz_S.wfFlag = 0;
  4765. pSW->bS_BSLed = 0;
  4766. }
  4767. if (pSW->L_Status != L_INIT)
  4768. {
  4769. //pSW->L_Status = L_INIT;
  4770. fa_l_state_change(sw,L_INIT);
  4771. pSW->uSdhz_L.wfFlag = 0;
  4772. pSW->bL_BSLed = 0;
  4773. }
  4774. return;
  4775. }
  4776. fa_status_print(sw);
  4777. if (!bSW_LL) // 分段功能
  4778. {
  4779. #ifdef FUNC_MODE_JS
  4780. if(sb_first_fd && !sb_first)
  4781. {
  4782. sb_first_fd = false;
  4783. sb_first_ll = true;
  4784. g_run_stu.js=true;
  4785. fa_l_run(sw, dStep);
  4786. fa_rstbs_soe(sw);
  4787. Reset_chz_bs(sw);
  4788. pSW->bL_BSLed=fa_check_all_l_bs(sw);
  4789. fa_uf_clear(sw,false);
  4790. fa_uf_clear(sw,true);
  4791. }
  4792. if(sb_first_fd)
  4793. {
  4794. sb_first_fd = false;
  4795. sb_first_ll = true;
  4796. sb_first = false;
  4797. }
  4798. #endif
  4799. fa_s_run(sw, dStep);
  4800. //pSW->L_Status = L_INIT;
  4801. if(pSW->L_Status==L_XL_ZTIME)
  4802. fa_rstbs_soe( sw);
  4803. fa_l_state_change(sw,L_INIT);
  4804. pSW->bL_BSLed = 0;
  4805. #ifdef FUNC_DRIVE_JY
  4806. if(gb_drive.b_drive_success_again || gb_drive.b_drive_success)
  4807. {
  4808. if(fa_check_all_s_bs(sw))
  4809. {
  4810. gb_drive.b_drive_success_again = false;
  4811. gb_drive.b_drive_success = false;
  4812. if(soe_check(EV_DRIVE_HZ_FAIL+sw*EV_SW_NUM) == false)
  4813. {
  4814. soe_record_ev(EV_DRIVE_HZ_FAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  4815. }
  4816. if(soe_check(EV_DRIVE_END+sw*EV_SW_NUM)==false) //传动结束
  4817. {
  4818. soe_record_ev(EV_DRIVE_END+sw*EV_SW_NUM, 1, 0,0,0 );
  4819. }
  4820. if(soe_check(EV_DRIVE_END+sw*EV_SW_NUM)==true) //传动结束返回
  4821. {
  4822. soe_record_ev(EV_DRIVE_END+sw*EV_SW_NUM, 0, 0,0,0 );
  4823. }
  4824. }
  4825. }
  4826. #endif
  4827. }
  4828. else // 联络功能
  4829. {
  4830. #ifdef FUNC_MODE_JS
  4831. if(sb_first_ll && !sb_first)
  4832. {
  4833. sb_first_fd = true;
  4834. sb_first_ll = false;
  4835. g_run_stu.js=true;
  4836. fa_s_run(sw, dStep);
  4837. fa_rstbs_soe(sw);
  4838. Reset_chz_bs(sw);
  4839. pSW->bS_BSLed=fa_check_all_s_bs(sw);
  4840. fa_uf_clear(sw,false);
  4841. fa_uf_clear(sw,true);
  4842. }
  4843. if(sb_first_ll)
  4844. {
  4845. sb_first_ll = false;
  4846. sb_first_fd = true;
  4847. sb_first = false;
  4848. }
  4849. #endif
  4850. if (pSW->S_Status != S_USUAL)
  4851. {
  4852. fa_s_state_change(sw,S_USUAL);//pSW->S_Status = S_USUAL;
  4853. pSW->uSdhz_S.wfFlag = 0;
  4854. pSW->bS_BSLed = 0;
  4855. }
  4856. fa_l_run(sw, dStep);
  4857. #ifdef FUNC_DRIVE_JY
  4858. if(gb_drive.b_drive_success_again || gb_drive.b_drive_success)
  4859. {
  4860. if(fa_check_all_l_bs(sw))
  4861. {
  4862. gb_drive.b_drive_success_again = false;
  4863. gb_drive.b_drive_success = false;
  4864. if(soe_check(EV_DRIVE_HZ_FAIL+sw*EV_SW_NUM) == false)
  4865. {
  4866. soe_record_ev(EV_DRIVE_HZ_FAIL+sw*EV_SW_NUM, 1, 0,0,0 );
  4867. }
  4868. if(soe_check(EV_DRIVE_END+sw*EV_SW_NUM)==false) //传动结束
  4869. {
  4870. soe_record_ev(EV_DRIVE_END+sw*EV_SW_NUM, 1, 0,0,0 );
  4871. }
  4872. if(soe_check(EV_DRIVE_END+sw*EV_SW_NUM)==true) //传动结束返回
  4873. {
  4874. soe_record_ev(EV_DRIVE_END+sw*EV_SW_NUM, 0, 0,0,0 );
  4875. }
  4876. }
  4877. }
  4878. #endif
  4879. }
  4880. }
  4881. static int _volstatus_createfile(void)
  4882. {
  4883. unsigned int addr,file_length;
  4884. u16 crc;
  4885. loff_t pos;
  4886. struct vol_file_head volstatus_file;
  4887. // 写文件头
  4888. memset(&volstatus_file,0,sizeof(volstatus_file));
  4889. volstatus_file.cfh.signature = SIG_VOL_STATUS_FILE;
  4890. volstatus_file.cfh.version = VOLSTATUS_FILE_VERSION;
  4891. volstatus_file.addr = FILE_ADDR_ALGIN(sizeof(volstatus_file));
  4892. volstatus_file.num = SWITCH_NUM_MAX;
  4893. // 得到文件长度
  4894. addr = volstatus_file.addr + volstatus_file.num * sizeof(struct vol_stu);
  4895. file_length = FILE_ADDR_ALGIN(addr);
  4896. vol_filelen = file_length+2;
  4897. // 分配并初始化空间
  4898. g_volbuf = rt_malloc(file_length + 2);
  4899. if(!g_volbuf)
  4900. {
  4901. g_volbuf = 0;
  4902. return -1;
  4903. }
  4904. memset(g_volbuf, 0, file_length + 2);
  4905. // 写入文件头
  4906. memcpy(g_volbuf, (char *)&volstatus_file, sizeof(volstatus_file));
  4907. // 写上电合闸状态
  4908. memcpy(g_volbuf+volstatus_file.addr, (char *)&g_vol_stu, volstatus_file.num * sizeof(struct vol_stu));
  4909. // 计算CRC
  4910. crc = CrcStr(g_volbuf, file_length);
  4911. memcpy(g_volbuf+file_length, &crc, 2);
  4912. // 创建数据文件
  4913. gf_volstu = rt_file_open("/app/data/vol_status.bin",O_CREAT|O_RDWR|O_TRUNC,0);
  4914. if(IS_ERR(gf_volstu))
  4915. {
  4916. rt_free(g_volbuf);
  4917. gf_volstu = 0;
  4918. g_volbuf = 0;
  4919. return -2;
  4920. }
  4921. pos = 0;
  4922. rt_file_write(gf_volstu, g_volbuf, file_length+2, &pos);
  4923. return 0;
  4924. }
  4925. /**************************************************************************
  4926. 函数名称:StatusRead
  4927. 函数版本:1.00
  4928. 作者: 电力产品开发部
  4929. 创建日期:2011.10.28
  4930. 函数功能说明:上电后对相关状态进行读取
  4931. 输入参数:
  4932. 其他输入:
  4933. 输出参数:
  4934. 返回值:
  4935. ***************************************************************************/
  4936. static int _volstatus_readfile(void)
  4937. {
  4938. u32 len;
  4939. u16 crc, crc1;
  4940. loff_t pos;
  4941. struct vol_file_head *brh;
  4942. // 创建并打开文件
  4943. gf_volstu = rt_file_open("/app/data/vol_status.bin",O_RDWR,0);
  4944. if(IS_ERR(gf_volstu))
  4945. {
  4946. gf_volstu = 0;
  4947. return -1;
  4948. }
  4949. // 得到文件长度
  4950. len = rt_file_getfile_size(gf_volstu);
  4951. if(len <= 0)
  4952. {
  4953. rt_file_close(gf_volstu,0);
  4954. return -11;
  4955. }
  4956. // 分配内存
  4957. g_volbuf = rt_malloc(len);
  4958. if((g_volbuf) == NULL)
  4959. {
  4960. rt_file_close(gf_volstu,0);
  4961. g_volbuf = 0;
  4962. return -2;
  4963. }
  4964. // 读出内容
  4965. pos = 0;
  4966. if(rt_file_read(gf_volstu,g_volbuf,len,&pos) != len)
  4967. {
  4968. rt_file_close(gf_volstu,0);
  4969. rt_free(g_volbuf);
  4970. gf_volstu = 0;
  4971. g_volbuf = 0;
  4972. return -3;
  4973. }
  4974. // 检查CRC
  4975. crc = CrcStr(g_volbuf,len-2);
  4976. crc1 = *(u16*)(g_volbuf+len-2);
  4977. if(crc != crc1)
  4978. {
  4979. rt_file_close(gf_volstu,0);
  4980. rt_free(g_volbuf);
  4981. gf_volstu = 0;
  4982. g_volbuf = 0;
  4983. return -4;
  4984. }
  4985. // 检查文件签名
  4986. brh = (struct vol_file_head*)g_volbuf;
  4987. if(brh->cfh.signature != SIG_VOL_STATUS_FILE)
  4988. {
  4989. rt_file_close(gf_volstu,0);
  4990. rt_free(g_volbuf);
  4991. gf_volstu = 0;
  4992. g_volbuf = 0;
  4993. return -5;
  4994. }
  4995. // 检查开关个数是否对应
  4996. if(brh->num != SWITCH_NUM_MAX)
  4997. {
  4998. rt_file_close(gf_volstu,0);
  4999. rt_free(g_volbuf);
  5000. gf_volstu = 0;
  5001. g_volbuf = 0;
  5002. return -6;
  5003. }
  5004. //检查数据长度
  5005. if((len-2) != FILE_ADDR_ALGIN((SWITCH_NUM_MAX * sizeof(struct vol_stu) + sizeof(struct vol_file_head))))
  5006. {
  5007. rt_printf("当前volstatus文件长度为%d,正确文件长度为%d\r\n",len-2,FILE_ADDR_ALGIN((SWITCH_NUM_MAX * sizeof(struct vol_stu) + sizeof(struct vol_file_head))));
  5008. rt_file_close(gf_volstu,0);
  5009. rt_free(g_volbuf);
  5010. gf_volstu = 0;
  5011. g_volbuf = 0;
  5012. return -7;
  5013. }
  5014. #if 0
  5015. // 检测文件长度是否合法
  5016. if(len-sizeof(struct vol_file_head ) != sizeof(struct vol_stu)*brh->num+2)
  5017. {
  5018. rt_printf("vol_status.bin is err len=%d %d addr=%d %d\r\n",len,sizeof(struct vol_stu)*brh->num,brh->addr ,sizeof(struct vol_file_head ));
  5019. return -7;
  5020. }
  5021. #endif
  5022. //取出文件中存储内容
  5023. memcpy (&g_vol_stu, g_volbuf+brh->addr, sizeof(struct vol_stu)*brh->num);
  5024. vol_filelen = len;
  5025. return 0;
  5026. }
  5027. bool gb_wake_soe=false;
  5028. static void _volstu_update(void)
  5029. {
  5030. int sw;
  5031. gb_wake_soe = true;
  5032. for (sw=0; sw<SWITCH_NUM_MAX; sw++)
  5033. {
  5034. TSDHZ_T *pSW = &g_tRelay[sw].tSDHZ;
  5035. if (!(FA_ALL_EN(sw)) || !pRunSet->tSwSet[sw].bTT_FA) // FA功能未投入
  5036. continue;
  5037. if (pRunSet->tSwSet[sw].bTT_FA&&!g_tRelay[sw].run_stu.fa_ls)
  5038. {
  5039. pSW->S_Status = g_vol_stu[sw].status;//初始化FA状态
  5040. pSW->uSdhz_S.bFlag.bPower= g_vol_stu[sw].shangdiance;
  5041. rt_printf_time("\r\n当前分段模式 FA S_Status >>>>>>>>>上电方向=%d 上电状态=%s\r\n",pSW->uSdhz_S.bFlag.bPower,fa_s_status[pSW->S_Status]);
  5042. if(pSW->S_Status==S_BSXTIME)
  5043. {
  5044. pSW->S_Status=S_BSXTIME;
  5045. if(pSW->uSdhz_S.bFlag.bPower)
  5046. soe_record_ev(EV_BS_X_P+sw*EV_SW_NUM, 1, 0,0,0 );
  5047. else
  5048. soe_record_ev(EV_BS_X_L+sw*EV_SW_NUM, 1, 0,0,0 );
  5049. }
  5050. else if(pSW->S_Status==S_BSFLASH)
  5051. {
  5052. pSW->S_Status=S_BSFLASH;
  5053. pSW->uSdhz_S.bFlag.bUABFlash = pSW->uSdhz_S.bFlag.bPower;
  5054. pSW->uSdhz_S.bFlag.bUBCFlash = !pSW->uSdhz_S.bFlag.bUABFlash;
  5055. if(pSW->uSdhz_S.bFlag.bPower)
  5056. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 1, 0,0,0 );
  5057. else
  5058. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 1, 0,0,0 );
  5059. }
  5060. else if(g_vol_stu[sw].S_lockstatus&(1<<0))//零序电压合后故障
  5061. {
  5062. pSW->S_Status = S_BSHHGZ ;
  5063. soe_record_ev(EV_BS_U0+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_BS_U0+sw*EV_SW_NUM,1);
  5064. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_HHGZ+sw*EV_SW_NUM,1);
  5065. pSW->tOnYSTime.boolTrip=true;//强制将Y计时器置一,防止开机后再次产生Y闭锁
  5066. if(pSW->uSdhz_S.bFlag.bPower)
  5067. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_HHGZ_P+sw*EV_SW_NUM,1);
  5068. else
  5069. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_HHGZ_L+sw*EV_SW_NUM,1);
  5070. }
  5071. else if(pSW->S_Status==S_BSYTIME|| pSW->S_Status==S_BSHHGZ ||pSW->S_Status==S_BSDL)
  5072. {
  5073. if(pSW->uSdhz_S.bFlag.bPower)
  5074. {
  5075. if(pSW->S_Status==S_BSYTIME)
  5076. soe_record_ev(EV_BS_Y_P+sw*EV_SW_NUM, 1, 0,0,0 ); //soe_ev_set(EV_BS_Y_P+sw*EV_SW_NUM,1);
  5077. else if(pSW->S_Status==S_BSHHGZ||pSW->S_Status==S_BSDL)
  5078. {
  5079. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_HHGZ+sw*EV_SW_NUM,1);
  5080. soe_record_ev(EV_HHGZ_P+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_HHGZ_P+sw*EV_SW_NUM,1);
  5081. pSW->tOnYSTime.boolTrip=true;//强制将Y计时器置一,防止开机后再次产生Y闭锁
  5082. }
  5083. }
  5084. else
  5085. {
  5086. if(pSW->S_Status==S_BSYTIME)
  5087. soe_record_ev(EV_BS_Y_L+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_BS_Y_L+sw*EV_SW_NUM,1);
  5088. else if(pSW->S_Status==S_BSHHGZ||pSW->S_Status==S_BSDL)
  5089. {
  5090. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_HHGZ+sw*EV_SW_NUM,1);
  5091. soe_record_ev(EV_HHGZ_L+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_HHGZ_L+sw*EV_SW_NUM,1);
  5092. pSW->tOnYSTime.boolTrip=true;//强制将Y计时器置一,防止开机后再次产生Y闭锁
  5093. }
  5094. }
  5095. }
  5096. else if(pSW->S_Status!=S_INIT)
  5097. {
  5098. fa_s_state_change(sw,S_INIT);//pSW->S_Status=S_INIT;
  5099. pSW->uSdhz_S.bFlag.bPower=0;
  5100. }
  5101. if(g_vol_stu[sw].S_lockstatus&(1<<1))
  5102. {
  5103. soe_record_ev(EV_BS_HA+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_BS_HA+sw*EV_SW_NUM,1);
  5104. #ifdef FUNC_REBOOT_BS_HA_JS_3S
  5105. g_tRelay[sw].uRmtSW.b_bsha = true;
  5106. #endif
  5107. }
  5108. if(g_vol_stu[sw].S_lockstatus&(1<<2))
  5109. {
  5110. soe_record_ev(EV_BS_FZMORE+sw*EV_SW_NUM, 1, 0,0,0 );//soe_ev_set(EV_BS_FZMORE+sw*EV_SW_NUM,1);
  5111. }
  5112. #if defined GD_AREA_ZHUHAI_FTU //珠海局要求合后故障,有压且合位的时候才能解锁
  5113. if(soe_check(EV_HHGZ+sw*EV_SW_NUM))
  5114. {
  5115. g_tRelay[sw].uRmtSW.bYH_fajs_flag=true;
  5116. pSW->bS_BSLed=fa_check_all_s_bs(sw);//点灯
  5117. }
  5118. #endif
  5119. g_vol_stu[sw].L_status = L_INIT;//重置联络模式保存信息
  5120. }
  5121. else if (pRunSet->tSwSet[sw].bTT_FA && g_tRelay[sw].run_stu.fa_ls)
  5122. {
  5123. rt_printf_time("\r\n当前联络模式 FA L_Status >>>>>>>>>上电方向=%d 上电状态=%s\r\n",g_vol_stu[sw].shangdiance,fa_l_status[g_vol_stu[sw].L_status]);
  5124. if(g_vol_stu[sw].L_status == L_XL_ZTIME)
  5125. {
  5126. pSW->uSdhz_L.bFlag.bUABFlash = g_vol_stu[sw].shangdiance;//残压方向
  5127. pSW->uSdhz_L.bFlag.bUBCFlash = !pSW->uSdhz_L.bFlag.bUABFlash;
  5128. ResetTR(&pSW->tOnYLTime);
  5129. fa_l_state_change(sw,L_XL_ZTIME);
  5130. #ifdef GD_AREA_ZHONGSHAN_2020
  5131. if(pSW->uSdhz_L.bFlag.bUABFlash)
  5132. soe_record_ev(EV_BS_UF_P+sw*EV_SW_NUM, 1, 0,0,0 );
  5133. if(pSW->uSdhz_L.bFlag.bUBCFlash)
  5134. soe_record_ev(EV_BS_UF_L+sw*EV_SW_NUM, 1, 0,0,0 );
  5135. #endif
  5136. }
  5137. else
  5138. {
  5139. g_vol_stu[sw].L_status = L_INIT;//重置联络模式保存信息
  5140. }
  5141. if(g_vol_stu[sw].L_lockstatus&(1<<0))//合后故障
  5142. soe_record_ev(EV_HHGZ+sw*EV_SW_NUM, 1, 0,0,0 );
  5143. #ifdef FUNC_REBOOT_BS_HA_JS_3S
  5144. if(g_vol_stu[sw].L_lockstatus&(1<<1))
  5145. {
  5146. soe_record_ev(EV_BS_HA+sw*EV_SW_NUM, 1, 0,0,0 );
  5147. g_tRelay[sw].uRmtSW.b_bsha = true;
  5148. }
  5149. #endif
  5150. g_vol_stu[sw].status = S_INIT;//重置分段模式保存信息
  5151. }
  5152. }
  5153. gb_wake_soe = false;
  5154. }
  5155. #if 0
  5156. static void _volstu_update(void)
  5157. {
  5158. int sw;
  5159. for (sw=0; sw<SWITCH_NUM_MAX; sw++)
  5160. {
  5161. TSDHZ_T *pSW = &g_tRelay[sw].tSDHZ;
  5162. if (pRunSet->tSwSet[sw].bTT_FA&&!g_tRelay[sw].run_stu.fa_ls)
  5163. {
  5164. pSW->S_Status = g_vol_stu[sw].status;//初始化FA状态
  5165. pSW->uSdhz_S.bFlag.bPower= g_vol_stu[sw].shangdiance;
  5166. if(pSW->S_Status==S_BSXTIME||pSW->S_Status==S_BSFLASH)
  5167. {
  5168. pSW->S_Status=S_BSXTIME;
  5169. if(pSW->uSdhz_S.bFlag.bPower)
  5170. {
  5171. soe_ev_set(EV_BS_X_P+sw*EV_SW_NUM,1);
  5172. }
  5173. else
  5174. {
  5175. soe_ev_set(EV_BS_X_L+sw*EV_SW_NUM,1);
  5176. }
  5177. }
  5178. else if(pSW->S_Status==S_BSYTIME||pSW->S_Status==S_BSHHGZ||pSW->S_Status==S_BSDL)
  5179. {
  5180. if(pSW->uSdhz_S.bFlag.bPower)
  5181. {
  5182. soe_ev_set(EV_BS_Y_P+sw*EV_SW_NUM,1);
  5183. }
  5184. else
  5185. {
  5186. soe_ev_set(EV_BS_Y_L+sw*EV_SW_NUM,1);
  5187. }
  5188. }
  5189. else if(pSW->S_Status!=S_INIT)
  5190. {
  5191. fa_s_state_change(sw,S_INIT);//pSW->S_Status=S_INIT;
  5192. pSW->uSdhz_S.bFlag.bPower=0;
  5193. }
  5194. if(g_vol_stu[sw].lockstatus&(1<<0))
  5195. {
  5196. soe_ev_set(EV_BS_U0+sw*EV_SW_NUM,1);
  5197. }
  5198. if(g_vol_stu[sw].lockstatus&(1<<1))
  5199. {
  5200. soe_ev_set(EV_BS_HA+sw*EV_SW_NUM,1);
  5201. }
  5202. if(g_vol_stu[sw].lockstatus&(1<<2))
  5203. {
  5204. soe_ev_set(EV_BS_FZMORE+sw*EV_SW_NUM,1);
  5205. }
  5206. }
  5207. }
  5208. }
  5209. #endif
  5210. static void _volstatus_init(void)
  5211. {
  5212. int i;
  5213. int sw;
  5214. for(sw=0; sw<SWITCH_NUM_MAX; sw++)
  5215. {
  5216. // 仅保护投入时,才初始化上电合闸标志
  5217. if (pRunSet->tSwSet[sw].bTT_FA)
  5218. {
  5219. i = _volstatus_readfile();
  5220. if (i != 0)
  5221. {
  5222. rt_printf("上电合闸标志文件错误: %d\r\n", i);
  5223. // 上电合闸状态
  5224. memset (g_vol_stu, 0, sizeof(g_vol_stu));
  5225. g_vol_stu[sw].status = 1;
  5226. _volstatus_createfile();
  5227. }
  5228. g_volfile_open = 1;
  5229. break;
  5230. }
  5231. }
  5232. _volstu_update();
  5233. }
  5234. static void _volstatus_reinit(void)
  5235. {
  5236. int i;
  5237. int sw;
  5238. for(sw=0; sw<SWITCH_NUM_MAX; sw++)
  5239. {
  5240. // 仅保护投入时,才初始化上电合闸标志
  5241. if (pRunSet->tSwSet[sw].bTT_FA&& FA_ALL_EN(sw))
  5242. {
  5243. i = _volstatus_readfile();
  5244. if (i != 0)
  5245. {
  5246. rt_printf("上电合闸标志文件错误: %d\r\n", i);
  5247. // 上电合闸状态
  5248. memset (g_vol_stu, 0, sizeof(g_vol_stu));
  5249. g_vol_stu[sw].status = 0;
  5250. _volstatus_createfile();
  5251. }
  5252. g_volfile_open = 1;
  5253. break;
  5254. }
  5255. }
  5256. }
  5257. int vol_stu_printf(void)
  5258. {
  5259. int sw;
  5260. rt_printf("\r\nsw\tS_Status\tshangdiance\r\n");
  5261. for (sw=0; sw<SWITCH_NUM_MAX; sw++)
  5262. {
  5263. rt_printf("%d\t%02d\t%02d\r\n",
  5264. sw,
  5265. g_vol_stu[sw].status,
  5266. g_vol_stu[sw].shangdiance);
  5267. }
  5268. return 0;
  5269. }
  5270. int FA_status_write(void)
  5271. {
  5272. int sw, writeflag=0, bhTT=0;
  5273. loff_t pos;
  5274. int ret;
  5275. u16 crc;
  5276. //确保文件曾经打开
  5277. if (!g_volfile_open)
  5278. {
  5279. _volstatus_reinit();
  5280. return -1;
  5281. }
  5282. //文件句柄被清0,释放缓存
  5283. if(gf_volstu == 0)
  5284. {
  5285. if(g_volbuf)
  5286. {
  5287. rt_free(g_volbuf);
  5288. g_volbuf = 0;
  5289. g_volfile_open = 0;
  5290. }
  5291. return -2;
  5292. }
  5293. //判断保护是否投入,判断是否有存储标志
  5294. for (sw=0; sw<SWITCH_NUM_MAX; sw++)
  5295. {
  5296. if (pRunSet->tSwSet[sw].bTT_FA&& FA_ALL_EN(sw))
  5297. {
  5298. bhTT = 1;
  5299. }
  5300. if(g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bSaveStatus)
  5301. {
  5302. g_vol_stu[sw].status = g_tRelay[sw].tSDHZ.S_Status;
  5303. g_vol_stu[sw].shangdiance = g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bSNChange;
  5304. g_vol_stu[sw].S_lockstatus=0;
  5305. if(soe_check(EV_BS_U0+sw*EV_SW_NUM)) // 合后零压
  5306. {
  5307. g_vol_stu[sw].S_lockstatus|=(1<<0);
  5308. }
  5309. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)) //手分闭锁
  5310. {
  5311. g_vol_stu[sw].S_lockstatus|=(1<<1);
  5312. }
  5313. if(soe_check(EV_BS_FZMORE+sw*EV_SW_NUM))//多次分闸闭锁
  5314. {
  5315. g_vol_stu[sw].S_lockstatus|=(1<<2);
  5316. }
  5317. writeflag = 1;
  5318. g_tRelay[sw].tSDHZ.uSdhz_S.bFlag.bSaveStatus=false;
  5319. }
  5320. else if(g_tRelay[sw].tSDHZ.uSdhz_L.bFlag.bSaveStatus)
  5321. {
  5322. g_vol_stu[sw].status = 0;
  5323. g_vol_stu[sw].shangdiance = g_tRelay[sw].tSDHZ.uSdhz_L.bFlag.bSNChange;
  5324. g_vol_stu[sw].L_lockstatus=0;
  5325. if(soe_check(EV_HHGZ+sw*EV_SW_NUM)) // 合后故障
  5326. {
  5327. g_vol_stu[sw].L_lockstatus|=(1<<0);
  5328. }
  5329. #ifdef FUNC_REBOOT_BS_HA_JS_3S
  5330. if(soe_check(EV_BS_HA+sw*EV_SW_NUM)) // 手分闭锁
  5331. {
  5332. g_vol_stu[sw].L_lockstatus|=(1<<1);
  5333. }
  5334. #endif
  5335. g_vol_stu[sw].L_status = g_tRelay[sw].tSDHZ.L_Status;
  5336. writeflag = 1;
  5337. g_tRelay[sw].tSDHZ.uSdhz_L.bFlag.bSaveStatus=false;
  5338. }
  5339. }
  5340. //所有上电合闸保护全部退出时,关闭文件,释放缓存
  5341. if (!bhTT)
  5342. {
  5343. if(gf_volstu != 0)
  5344. {
  5345. rt_file_close(gf_volstu,0);
  5346. }
  5347. if(g_volbuf)
  5348. {
  5349. rt_free(g_volbuf);
  5350. gf_volstu = 0;
  5351. g_volbuf = 0;
  5352. g_volfile_open = 0;
  5353. }
  5354. return -3;
  5355. }
  5356. //巡检上电合闸的存储标志
  5357. if (!writeflag)
  5358. {
  5359. return -4;
  5360. }
  5361. //存储标志
  5362. memcpy(g_volbuf+sizeof(struct vol_file_head), g_vol_stu, sizeof(g_vol_stu));
  5363. // 计算CRC
  5364. crc = CrcStr(g_volbuf, vol_filelen-2);
  5365. //CRC的位置需考虑16对齐
  5366. memcpy(g_volbuf+vol_filelen-2, &crc, 2);
  5367. pos = 0;
  5368. ret = rt_file_write(gf_volstu, g_volbuf, vol_filelen, &pos);
  5369. if(ret != vol_filelen)
  5370. {
  5371. rt_file_close(gf_volstu,0);
  5372. rt_free(g_volbuf);
  5373. gf_volstu = 0;
  5374. g_volbuf = 0;
  5375. g_volfile_open = 0;
  5376. rt_printf("\r\n write error");
  5377. return -5;
  5378. }
  5379. return 0;
  5380. }
  5381. int FA_exit(void)
  5382. {
  5383. if(gf_volstu != 0)
  5384. {
  5385. rt_file_close(gf_volstu,0);
  5386. }
  5387. if(g_volbuf)
  5388. {
  5389. rt_free(g_volbuf);
  5390. gf_volstu = 0;
  5391. g_volbuf = 0;
  5392. g_volfile_open = 0;
  5393. }
  5394. return 0;
  5395. }
  5396. void Pro_hzbs(int sw,DWORD dStep)
  5397. {
  5398. TRELAY_T *pR=&g_tRelay[sw];
  5399. THZBS_T *pSW = &pR->thzbs;
  5400. TSETSW *pSet = &pRunSet->tSwSet[sw];
  5401. bool bY1;
  5402. RunTR(&pSW->tTw100ms100ms,( (pR->run_stu.sw==2)?true:false), dStep);
  5403. bY1=pSW->tTw100ms100ms.boolTrip&&((pR->run_stu.sw==1)?true:false);
  5404. #if 1
  5405. if(pR->run_stu.sw==1 && soe_check(EV_BS_FZMORE+sw*EV_SW_NUM))
  5406. {
  5407. pSW->fztimes = 0;
  5408. }
  5409. #endif
  5410. RunTR(&pSW->tBSHZTime,((pSW->fztimes>0)?true:false), dStep);
  5411. bY1=FA_ALL_EN(sw)
  5412. &&pSet->bTT_hzbs //连续分闸闭锁投退
  5413. &&!pSW->tBSHZTime.boolTrip; //时间未到, 设定时间内连续失压分闸
  5414. if(bY1)
  5415. {
  5416. if(pSW->fztimes>=pSet->hzbstimes) //分闸次数大于整定值,
  5417. {
  5418. pR->bBSHZ=true;
  5419. if(soe_check(EV_BS_FZMORE+sw*EV_SW_NUM)==false)
  5420. {
  5421. soe_record_ev(EV_BS_FZMORE+sw*EV_SW_NUM, 1, 0,0,0 );
  5422. fa_s_set_savestatus(sw);
  5423. }
  5424. pSW->fztimes=0;
  5425. ResetTR(&pSW->tBSHZTime);
  5426. }
  5427. }
  5428. else //超时清零
  5429. {
  5430. pSW->fztimes = 0;
  5431. ResetTR(&pSW->tBSHZTime);
  5432. }
  5433. if(pSet->bTT_hzbs) //
  5434. {
  5435. if(g_run_stu.js||g_run_stu.rmtjs)
  5436. {
  5437. if(pSW->fztimes)
  5438. rt_printf("js:连续分闸闭锁\r\n");
  5439. pR->bBSHZ=false;
  5440. pSW->fztimes=0;
  5441. ResetTR(&pSW->tBSHZTime);
  5442. if(soe_check(EV_BS_FZMORE+sw*EV_SW_NUM)==true)
  5443. {
  5444. soe_record_ev(EV_BS_FZMORE+sw*EV_SW_NUM, 0, 0,0,0 );
  5445. fa_s_set_savestatus(sw);
  5446. }
  5447. }
  5448. }
  5449. }
  5450. #ifdef FUN_JDXX
  5451. /**************************************************************************
  5452. 函数名称:get_power_on_dir
  5453. 函数版本:1.00
  5454. 作者:
  5455. 创建日期:
  5456. 函数功能说明:获取上电方向(目前暂未使用,仅用作返回参数,后续小电流接地需判方向时再做完整功能)
  5457. 输入参数:
  5458. 其他输入:
  5459. 输出参数:
  5460. 返回值:true----负荷侧送电 false电源侧送电
  5461. ***************************************************************************/
  5462. bool get_power_on_dir(int sw)
  5463. {
  5464. return false;
  5465. }
  5466. #endif
  5467. // = ========================= 本文件结束 =============================