标签:break CNTB 33300 Start 电路 API 测试仪 PWM 超声波
超声波测试仪电路程序2 case 837: // API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4968, 2484); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 847: // API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4909, 2454); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 857: //API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4851, 2425); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 867: //API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4792, 2396); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 878: //API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4734, 2367); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 889: // API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4675, 2337); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 900: // API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4617, 2308); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 912: API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4558, 2279); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 924: // API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4500, 2250); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 936: // API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4440, 2220); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 948: // API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4383, 2191); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 962: // API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4324, 2162); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 975: //API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4266, 2133); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 989: //API_GPIO_Output(0, 1); API_PWM_SetDiv(0, 16);//2850656057 API_PWM_Start(0, 4203, 2103); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1000: API_GPIO_Output(0, 1); API_GPIO_Output(1, 0); API_GPIO_Output(2, 0); API_GPIO_Output(3, 0); API_GPIO_Output(4, 0); API_GPIO_Output(5, 0); API_GPIO_Output(6, 0); API_GPIO_Output(7, 0); API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 33300, 16650); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; // case 1001: // API_PWM_SetDiv(0, 2);//2850656057 // API_PWM_Start(0, 33297, 16649); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 // break; // case 1002: // API_PWM_SetDiv(0, 2);//2850656057 // API_PWM_Start(0, 33294, 16647); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 // break; // case 1003: // API_PWM_SetDiv(0, 2);//2850656057 // API_PWM_Start(0, 33290, 16646); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 // break; // case 1004: // API_PWM_SetDiv(0, 2);//2850656057 // API_PWM_Start(0, 33287, 16642); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 // break; // case 1005: // // API_PWM_SetDiv(0, 2);//2850656057 // API_PWM_Start(0, 33091, 16545); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 // break; case 1010: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 32883, 16441); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1020: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 32645, 16337); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1030: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 32407, 16233); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1040: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 32051, 16025); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1050: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 31635, 15817); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1060: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 31357, 15678); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1070: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 31080, 15539); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1080: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 30802, 15401); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1090: API_PWM_SetDiv(0, 2);//2850656057 277.5 138.6 API_PWM_Start(0, 30525, 15262); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1100: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 30247, 15123); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1110: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 29970, 14985); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1120: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 29732, 14866); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1130: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 29494, 14747); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1140: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 29256, 14628); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1150: API_PWM_SetDiv(0, 2);//2850656057 277.5 138.75 API_PWM_Start(0, 29018, 14509); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1160: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 28780, 14390); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1170: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 28542, 14271); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1180: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 28305, 14152); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1190: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 28067, 14033); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1200: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 27829, 13914); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1210: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 27591, 13795); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1220: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 27353, 13676); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1230: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 27115, 13558); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1240: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 26877, 13439); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1250: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 26640, 13320); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; //标记点 case 1260: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 26455, 13227); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1270: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 26270, 13135); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1280: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 26085, 13042); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1290: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 25900, 12950); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1300: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 25715, 12857); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1310: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 25530, 12765); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1320: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 25345, 12672); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1330: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 25160, 12580); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1340: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 24975, 12487); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1350: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 24790, 12395); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1360: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 24605, 12302); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1370: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 24420, 12210); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1380: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 24235, 12117); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1390: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 24050, 12025); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1400: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 23865, 11932); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1410: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 23680, 11840); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1420: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 23495, 11747); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1430: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 23310, 11655); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; //标记点 case 1440: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 23158, 11579); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1450: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 23007, 11503); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1460: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 22856, 11428); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1470: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 22704, 11352); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1480: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 22553, 11276); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1490: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 22402, 11201); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1500: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 22250, 11125); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1510: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 22099, 11049); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1520: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 21948, 10973); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1530: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 21796, 10898); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1540: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 21645, 10822); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 //标记点 break; case 1550: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 21526, 10763); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1560: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 21407, 10703); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1570: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 21288, 10644); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1580: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 21169, 10584); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1590: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 21050, 10525); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1600: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 20931, 10465); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1610: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 20812, 10406); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1620: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 20694, 10346); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1630: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 20575, 10287); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1640: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 20456, 10227); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1650: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 20337, 10168); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1660: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 20218, 10108); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1670: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 20099, 10049); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1680: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19980, 9989); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1690: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19861, 9930); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1700: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19742, 9871); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1710: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19623, 9811); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1720: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19504, 9751); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1730: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19385, 9692); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1740: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19267, 9633); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1750: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19148, 9573); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1760: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 19029, 9513); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1770: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18910, 9454); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1780: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18791, 9395); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1790: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18672, 9335); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1800: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18553, 9276); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1810: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18434, 9216); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1820: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18315, 9157); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; //标记点 case 1830: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18223, 9111); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1840: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18130, 9064); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1850: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 18038, 9018); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1860: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17945, 8972); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1870: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17853, 8926); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1880: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17760, 8879); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1890: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17668, 8833); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1900: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17575, 8787); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1910: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17483, 8741); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1920: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17390, 8694); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1930: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17298, 8648); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1940: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17205, 8602); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1950: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17113, 8555); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1960: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 17020, 8509); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1970: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16928, 8462); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1980: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16835, 8416); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 1990: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16743, 8370); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2000: API_GPIO_Output(0, 0); API_GPIO_Output(1, 1); API_GPIO_Output(2, 0); API_GPIO_Output(3, 0); API_GPIO_Output(4, 0); API_GPIO_Output(5, 0); API_GPIO_Output(6, 0); API_GPIO_Output(7, 0); API_GPIO_Output(1, 1); API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16650, 8324); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; //标记点 case 2010: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16569, 8272); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2020: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16487, 8220); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2030: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16406, 8168); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2040: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16324, 8116); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2050: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16240, 8081); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2060: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16155, 8047); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2070: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 16071, 8012); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2080: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15987, 7977); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2090: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15902, 7943); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2100: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15818, 7908); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2110: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15749, 7882); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2120: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15679, 7856); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2130: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15610, 7830); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2140: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15541, 7804); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2150: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15471, 7778); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2160: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15402, 7752); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2170: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15332, 7726); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2180: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15263, 7700); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2190: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15194, 7648); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2200: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15124, 7596); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2210: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 15055, 7544); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2220: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14985, 7492); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; //标记点 case 2230: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14924, 7462); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2240: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14864, 7431); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2250: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14803, 7401); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2260: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14742, 7371); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2270: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14682, 7340); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2280: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14621, 7310); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2290: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14548, 7274); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2300: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14475, 7237); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2310: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14403, 7201); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2320: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14330, 7164); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2330: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14257, 7128); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2340: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14196, 7098); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2350: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14136, 7067); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2360: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14075, 7037); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2370: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 14030, 7014); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2380: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13984, 6992); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2390: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13939, 6969); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2400: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13893, 6946); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2410: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13832, 6916); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2420: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13771, 6885); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2430: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13711, 6855); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2440: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13650, 6825); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2450: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13589, 6794); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2460: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13528, 6764); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2470: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13467, 6733); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2480: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13407, 6702); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2490: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13346, 6672); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2500: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13301, 6650); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2510: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13256, 6627); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2520: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13210, 6605); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2530: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13164, 6582); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2540: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13103, 6552); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2550: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 13043, 6521); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2560: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12982, 6491); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2570: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12937, 6468); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2580: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12891, 6446); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2590: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12846, 6423); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2600: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12800, 6400); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2610: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12754, 6377); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2620: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12709, 6354); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2630: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12663, 6332); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2640: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12618, 6309); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2650: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12572, 6286); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2660: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12527, 6263); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2670: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12481, 6240); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2680: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12436, 6218); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2690: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12390, 6195); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2700: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12345, 6172); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2710: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12299, 6149); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2720: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12254, 6126); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2730: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12208, 6103); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2740: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12162, 6081); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2750: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12117, 6058); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2760: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12071, 6035); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; //标记点 case 2770: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 12026, 6012); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2780: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11980, 5990); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2790: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11935, 5967); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2800: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11889, 5944); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2810: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11844, 5921); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2820: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11798, 5899); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2830: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11753, 5876); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2840: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11707, 5853); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2850: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11671, 5835); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2860: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11634, 5817); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2870: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11598, 5798); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2880: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11561, 5780); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2890: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11525, 5762); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2900: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11480, 5739); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2910: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11434, 5717); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2920: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11389, 5794); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2930: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11343, 5671); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2940: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11307, 5653); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2950: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11270, 5635); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2960: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11234, 5616); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2970: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11197, 5598); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2980: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11161, 5580); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 2990: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11125, 5562); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3000: API_GPIO_Output(0, 0); API_GPIO_Output(1, 1); API_GPIO_Output(2, 0); API_GPIO_Output(3, 0); API_GPIO_Output(4, 0); API_GPIO_Output(5, 0); API_GPIO_Output(6, 0); API_GPIO_Output(7, 0); API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11088, 5544); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3010: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11052, 5525); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3020: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 11015, 5507); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3030: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10979, 5489); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3040: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10949, 5474); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3050: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10918, 5459); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3060: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10888, 5444); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3070: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10843, 5421); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3080: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10797, 5398); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3090: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10767, 5383); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3100: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10736, 5368); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3110: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10706, 5353); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3120: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10675, 5337); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3130: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10645, 5322); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3140: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10614, 5307); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3150: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10578, 5289); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3160: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10541, 5271); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3170: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10505, 5252); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3180: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10468, 5234); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3190: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10432, 5216); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3200: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10402, 5201); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3210: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10371, 5186); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3220: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10341, 5170); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3230: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10311, 5155); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3240: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10280, 5140); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3250: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10250, 5125); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3260: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10220, 5107); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3270: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10189, 5088); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3280: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10158, 5070); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3290: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10128, 5051); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3300: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10098, 5033); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3310: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10068, 5014); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3320: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10038, 5002); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3330: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 10007, 4990); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3340: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9977, 4979); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3350: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9947, 4967); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3360: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9916, 4955); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3370: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9886, 4943); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3380: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9856, 4928); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3390: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9825, 4913); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3400: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9795, 4897); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3410: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9765, 4882); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3420: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9734, 4867); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3430: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9704, 4852); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3440: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9674, 4837); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3450: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9643, 4821); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3460: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9613, 4806); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3470: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9583, 4791); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3480: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9552, 4775); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3490: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9527, 4766); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3500: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9502, 4759); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3510: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9478, 4749); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3520: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9453, 4740); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3530: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9429, 4731); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3540: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9404, 4722); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3550: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9379, 4718); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3560: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9354, 4714); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3570: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9330, 4696); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3580: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9305, 4687); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3590: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9280, 4678); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3600: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9256, 4669); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3610: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9207, 4624); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3620: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9182, 4601); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3630: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9157, 4578); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3640: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9132, 4567); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3650: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9112, 4555); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3660: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9089, 4544); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3670: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9066, 4532); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3680: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9043, 4521); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3690: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 9021, 4510); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3700: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8998, 4498); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3710: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8975, 4487); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3720: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8949, 4474); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3730: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8923, 4461); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3740: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8897, 4448); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3750: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8871, 4435); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3760: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8845, 4422); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3770: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8819, 4409); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3780: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8793, 4396); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3790: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8770, 4385); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3800: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8748, 4374); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3810: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8725, 4362); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3820: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8702, 4351); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3830: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8679, 4339); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3840: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8656, 4328); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3850: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8634, 4317); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3860: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8611, 4305); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3870: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8593, 4296); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3880: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8575, 4287); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3890: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8556, 4278); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3900: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8538, 4269); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3910: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8520, 4260); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3920: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8497, 4249); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3930: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8475, 4237); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3940: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8452, 4226); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3950: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8429, 4214); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3960: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8406, 4203); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3970: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8384, 4192); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3980: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8361, 4180); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 3990: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8338, 4169); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4000: API_GPIO_Output(0, 0); API_GPIO_Output(1, 0); API_GPIO_Output(2, 1); API_GPIO_Output(3, 0); API_GPIO_Output(4, 0); API_GPIO_Output(5, 0); API_GPIO_Output(6, 0); API_GPIO_Output(7, 0); API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8315, 4158); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4010: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8293, 4146); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4020: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8270, 4135); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4030: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8247, 4123); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4040: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8231, 4115); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4050: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8216, 4108); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4060: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8200, 4100); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4070: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8178, 4089); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4080: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8156, 4078); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4090: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8139, 4070); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4100: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8123, 4063); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4110: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8106, 4055); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4120: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8085, 4044); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4130: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8065, 4032); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4140: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8042, 4021); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4150: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 8020, 4010); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4160: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7997, 3998); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4170: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7974, 3987); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4180: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7956, 3978); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4190: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7937, 3969); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4200: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7919, 3959); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4210: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7900, 3950); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4220: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7882, 3941); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4230: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7864, 3932); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4240: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7846, 3923); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4250: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7827, 3914); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4260: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7809, 3905); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4270: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7791, 3896); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4280: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7773, 3887); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4290: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7755, 3878); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4300: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7736, 3868); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4310: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7718, 3859); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4320: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7700, 3850); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4330: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7682, 3841); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4340: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7664, 3832); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4350: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7645, 3823); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4360: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7627, 3814); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4370: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7609, 3805); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4380: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7594, 3797); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4390: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7579, 3790); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4400: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7564, 3782); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4410: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7548, 3774); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4420: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7533, 3767); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4430: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7518, 3759); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4440: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7500, 3750); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4450: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7482, 3741); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4460: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7463, 3732); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4470: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7445, 3723); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4480: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7427, 3714); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4490: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7412, 3706); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4500: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7397, 3699); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4510: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7382, 3691); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4520: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7367, 3683); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4530: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7351, 3675); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4540: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7336, 3668); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4550: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7318, 3658); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4560: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7300, 3648); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4570: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7281, 3638); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4580: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7263, 3628); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4590: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7245, 3618); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4600: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7230, 3610); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4610: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7215, 3601); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4620: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7200, 3593); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4630: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7185, 3584); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4640: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7169, 3576); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4650: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7154, 3567); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4660: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7139, 3560); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4670: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7124, 3554); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4680: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7109, 3547); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4690: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7094, 3540); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4700: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7078, 3534); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4710: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7063, 3527); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4720: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7048, 3520); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4730: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7033, 3514); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4740: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7018, 3507); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4750: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 7003, 3500); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4760: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6987, 3493); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4770: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6972, 3486); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4780: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6957, 3479); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4790: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6942, 3471); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4800: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6927, 3464); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4810: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6916, 3458); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4820: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6904, 3453); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4830: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6893, 3447); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4840: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6881, 3441); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4850: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6866, 3433); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4860: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6851, 3426); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4870: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6836, 3418); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4880: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6821, 3410); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4890: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6805, 3403); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4900: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6790, 3395); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4910: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6775, 3388); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4920: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6760, 3380); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4930: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6745, 3373); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4940: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6734, 3367); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4950: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6723, 3362); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4960: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6711, 3356); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4970: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6700, 3350); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4980: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6685, 3342); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 4990: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6670, 3336); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5000: API_GPIO_Output(0, 0); API_GPIO_Output(1, 0); API_GPIO_Output(2, 1); API_GPIO_Output(3, 0); API_GPIO_Output(4, 0); API_GPIO_Output(5, 0); API_GPIO_Output(6, 0); API_GPIO_Output(7, 0); API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6654, 3327); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5010: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6643, 3321); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5020: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6631, 3315); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5030: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6620, 3309); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5040: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6608, 3304); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5050: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6593, 3296); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5060: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6577, 3288); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5070: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6562, 3281); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5080: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6551, 3276); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5090: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6540, 3270); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5100: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6528, 3265); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5110: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6517, 3259); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5120: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6502, 3251); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5130: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6487, 3244); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5140: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6472, 3236); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5150: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6461, 3230); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5160: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6449, 3224); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5170: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6437, 3219); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5180: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6426, 3213); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5190: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6411, 3206); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5200: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6395, 3198); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5210: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6380, 3191); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5220: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6369, 3185); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5230: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6357, 3180); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5240: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6345, 3174); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5250: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6335, 3168); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5260: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6324, 3162); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5270: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6312, 3156); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5280: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6301, 3151); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5290: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6290, 3145); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5300: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6278, 3139); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5310: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6267, 3133); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5320: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6255, 3127); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; //case 3650: // API_PWM_SetDiv(0, 2);//2850656057 // API_PWM_Start(0, 5272, 2636); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 // break; case 5330: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6244, 3122); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5340: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6233, 3116); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5350: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6222, 3111); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5360: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6211, 3105); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5370: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6200, 3100); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5380: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6186, 3092); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5390: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6172, 3084); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5400: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6158, 3076); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5410: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6147, 3070); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5420: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6136, 3065); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5430: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6125, 3058); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5440: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6115, 3053); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5450: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6104, 3047); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5460: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6093, 3042); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break; case 5470: API_PWM_SetDiv(0, 2);//2850656057 API_PWM_Start(0, 6081, 3036); //PWM计算方法是66.6MHZ 除以DIV CNTB,此例分别为2,和33300 break;标签:break,CNTB,33300,Start,电路,API,测试仪,PWM,超声波 来源: https://www.cnblogs.com/zgdcnyhl/p/12344290.html
本站声明: 1. iCode9 技术分享网(下文简称本站)提供的所有内容,仅供技术学习、探讨和分享; 2. 关于本站的所有留言、评论、转载及引用,纯属内容发起人的个人观点,与本站观点和立场无关; 3. 关于本站的所有言论和文字,纯属内容发起人的个人观点,与本站观点和立场无关; 4. 本站文章均是网友提供,不完全保证技术分享内容的完整性、准确性、时效性、风险性和版权归属;如您发现该文章侵犯了您的权益,可联系我们第一时间进行删除; 5. 本站为非盈利性的个人网站,所有内容不会用来进行牟利,也不会利用任何形式的广告来间接获益,纯粹是为了广大技术爱好者提供技术内容和技术思想的分享性交流网站。