These are the default settings on delivery:
ID,rtuAddress,caption,value,unit,type
0,1300,Ntc number,4,num,SPA
1,1301,Serial battery number,16,num,SPA
2,1302,Battery high voltage recovery,“54,00″,V,SPA
3,1303,Battery high voltage alarm,“56,00″,V,SPA
4,1304,Battery over voltage recovery,“54,00″,V,SPA
5,1305,Battery over voltage protection,“57,60″,V,SPA
6,1306,Battery low voltage recovery,“48,00″,V,SPA
7,1307,Battery low voltage alarm,“46,40″,V,SPA
8,1308,Battery under voltage recovery,“48,00″,V,SPA
9,1309,Battery under voltage protection,“43,20″,V,SPA
10,130A,Cell high voltage recovery,“3,400″,V,SPA
11,130B,Cell high voltage alarm,“3,500″,V,SPA
12,130C,Cell over voltage recovery,“3,400″,V,SPA
13,130D,Cell over voltage protection,“3,650″,V,SPA
14,130E,Cell low voltage recovery,“3,100″,V,SPA
15,130F,Cell low voltage alarm,“2,900″,V,SPA
16,1310,Cell under voltage recovery,“3,100″,V,SPA
17,1311,Cell under voltage protection,“2,700″,V,SPA
18,1312,Cell under voltage failure,“2,000″,V,SPA
19,1313,Cell diff pressure protection,“1,000″,V,SPA
20,1314,Diff pressure protection recovery,“0,500″,V,SPA
21,1315,Charge over current recovery,103,A,SPA
22,1316,Charge over current alarm,105,A,SPA
23,1317,Charge over current protection,110,A,SPA
24,1318,Charge over current delay,“10,0″,s,SPA
25,1319,Secondary charge over current protection,200,A,SPA
26,131A,Secondary charge over current delay,300,ms,SPA
27,131B,Discharge over current recovery,-103,A,SPA
28,131C,Discharge over current alarm,-105,A,SPA
29,131D,Discharge over current protection,-110,A,SPA
30,131E,Discharge over current delay,“10,0″,s,SPA
31,131F,Secondary discharge over current protection,-250,A,SPA
32,1320,Secondary discharge over current delay,300,ms,SPA
33,1323,Over current recovery delay,“60,0″,s,SPA
34,1324,Number of over current lock times,5,times,SPA
35,1325,Charge current Limit duration,“300,0″,s,SPA
36,1326,Pluse current limiting current,105,A,SPA
37,1327,Pluse current limiting time,“1,0″,s,SPA
38,132B,Short-circuit precharge completion rate,“100,0″,%,SPA
39,132C,Normal precharge completion rate,“80,0″,%,SPA
40,132D,Abnormal precharge completion rate,“20,0″,%,SPA
41,132E,Precharge over time,“3,0″,s,SPA
42,132F,Charge high temperature recovery,“47,0″,℃,SPA
43,1330,Charge high temperature alarm,“50,0″,℃,SPA
44,1331,Charge over temperature recovery,“50,0″,℃,SPA
45,1332,Charge over temperature protection,“55,0″,℃,SPA
46,1333,Charge low temperature recovery,“5,0″,℃,SPA
47,1334,Charge low temperature alarm,“2,0″,℃,SPA
48,1335,Charge under temperature recovery,“0,0″,℃,SPA
49,1336,Charge under temperature protection,“-10,0″,℃,SPA
50,1337,Discharge high temperature recovery,“50,0″,℃,SPA
51,1338,Discharge high temperature alarm,“55,0″,℃,SPA
52,1339,Discharge over temperature recovery,“55,0″,℃,SPA
53,133A,Discharge over temperature protection,“60,0″,℃,SPA
54,133B,Discharge low temperature recovery,“3,0″,℃,SPA
55,133C,Discharge low temperature alarm,“-10,0″,℃,SPA
56,133D,Discharge under temperature recovery,“0,0″,℃,SPA
57,133E,Discharge under temperature protection,“-15,0″,℃,SPA
58,133F,High ambient temperature recovery,“47,0″,℃,SPA
59,1340,High ambient temperature alarm,“50,0″,℃,SPA
60,1341,Over ambient temperature recovery,“55,0″,℃,SPA
61,1342,Over ambient temperature protection,“60,0″,℃,SPA
62,1343,Low ambient temperature recovery,“3,0″,℃,SPA
63,1344,Low ambient temperature alarm,“0,0″,℃,SPA
64,1345,Under ambient temperature recovery,“0,0″,℃,SPA
65,1346,Under ambient temperature protection,“-10,0″,℃,SPA
66,1347,Power high temperature recovery,“85,0″,℃,SPA
67,1348,power high temperature alarm,“95,0″,℃,SPA
68,1349,Power over temperature recovery,“85,0″,℃,SPA
69,134A,Power over temperature protection,“110,0″,℃,SPA
70,134B,Temperature regulate stop,“10,0″,℃,SPA
71,134C,Temperature regulate open,“0,0″,℃,SPA
72,134D,Equalization high temperature prohibition,“50,0″,℃,SPA
73,134E,Equalization low temperature prohibition,“0,0″,℃,SPA
74,134F,Static equalization timing,10,H,SPA
75,1350,Equalization open voltage,“3,400″,V,SPA
76,1351,Equalization open difference pressure,“0,050″,V,SPA
77,1352,Equalization stop difference pressure,“0,030″,V,SPA
78,1353,Power supply SOC ,“96,0″,%,SPA
79,1354,SOC low recovery,“15,0″,%,SPA
80,1355,SOC low alarm,“10,0″,%,SPA
81,1356,SOC protection recovery,“5,0″,%,SPA
82,1357,SOC low protection,“2,0″,%,SPA
83,1358,Rated battery capacity,“100,00″,Ah,SPA
84,1359,Total battery capacity,“100,00″,Ah,SPA
85,135A,Battery remaining capacity,“50,10″,Ah,SPA
86,135B,Stand-by time,48,H,SPA
87,135C,Forced output delay,“6,0″,s,SPA
88,135D,Forced output splite,240,Min,SPA
89,135E,Number of forced output ,10,times,SPA
90,135F,Compensation site 1,7,Cell,SPA
91,1360,Compensation site 1 resistance,“0,0″,mΩ,SPA
92,1361,Compensating site 2,13,Cell,SPA
93,1362,Compensation site 2 resistance,“0,0″,mΩ,SPA
94,1363,Cell diff pressure alarm,150,mV,SPA
95,1364,Diff pressure alarm recovery,100,mV,SPA
96,1365,Charging request voltage,“57,60″,V,SPA
97,1366,Charging request current,80,A,SPA
98,1367,Discharge request current,-80,A,SPA
99,1400,Cell high voltage alarm,1,-,SFA
100,1401,Cell over voltage protection,1,-,SFA
101,1402,Cell low voltage alarm,1,-,SFA
102,1403,Cell under voltage protection,1,-,SFA
103,1404,Battery high voltage alarm,1,-,SFA
104,1405,Battery over voltage protection,1,-,SFA
105,1406,Battery low voltage alarm,1,-,SFA
106,1407,Battery under voltage protection,1,-,SFA
107,1408,Charge high temperature alarm,1,-,SFA
108,1409,Charge over temperature protection,1,-,SFA
109,140A,Charge low temperature alarm,1,-,SFA
110,140B,Charge under temperature protection,1,-,SFA
111,140C,Discharge high temperature alarm,1,-,SFA
112,140D,Discharge over temperature protection,1,-,SFA
113,140E,Discharge low temperature alarm,1,-,SFA
114,140F,Discharge under temperature protection,1,-,SFA
115,1410,High ambient temperature alarm,1,-,SFA
116,1411,Over ambient temperature protection,1,-,SFA
117,1412,Low ambient temperature alarm,1,-,SFA
118,1413,Under ambient temperature protection,1,-,SFA
119,1414,Power high temperature alarm,1,-,SFA
120,1415,Power over temperature protection,1,-,SFA
121,1416,Cell temperature low heating,0,-,SFA
122,1419,Heat dissipation turned on,0,-,SFA
123,141A,CapLeds idle display ,0,-,SFA
124,1420,Charge current alarm,1,-,SFA
125,1421,Charge over current protection,1,-,SFA
126,1422,Secondary charge over current protection,1,-,SFA
127,1423,Discharge current alarm,1,-,SFA
128,1424,Discharge over current protection,1,-,SFA
129,1425,Secondary discharge over current protection,1,-,SFA
130,1428,Output short-circuit lock,1,-,SFA
131,142A,Secondary charge over current lock,1,-,SFA
132,142B,Secondary discharge over current lock,1,-,SFA
133,1430,Low SOC alarm,1,-,SFA
134,1431,Intermittent charge,1,-,SFA
135,1432,External switch control,0,-,SFA
136,1433,Static stand-by sleep,1,-,SFA
137,1434,History data recording,1,-,SFA
138,1435,Under SOC protect,0,-,SFA
139,1436,Active-limited current,0,-,SFA
140,1437,Passive-limited current,1,-,SFA
141,1438,Equilibrium module to open,1,-,SFA
142,1439,Static equilibrium indicate,1,-,SFA
143,143A,Static equilibrium overtime,1,-,SFA
144,143B,Equalization temperature limit,1,-,SFA
145,1441,LCD display,1,-,SFA
146,1442,Manual forced output,0,-,SFA
147,1443,Auto forced output,0,-,SFA
148,1445,Aerosol detection function,1,-,SFA
149,1446,Aerosol normally disconnected mode,1,-,SFA
150,1447,Current detector temperature compensation,0,-,SFA
151,1448,NTC failure,1,-,SFA
152,1449,AFE failure,1,-,SFA
153,144A,Charge mosfets failure,1,-,SFA
154,144B,Discharge mosfets failure,1,-,SFA
155,144C,Cell diff failure,0,-,SFA
156,144D,Cell break,1,-,SFA
157,144E,Key failure,1,-,SFA
158,170a,RemoteModualName,SG16S100A-SP94B-B,-,VIA
What I first changed was:
Rated battery capacity and Total battery capacity, according to the cells I used.
Battery remaining capacity was set to the last known state, but it will balance itself out on the first charge anyway
Settings explained:
Equalization open voltage: The BMS will drain cells with some internal resistor to even out DiffCellV, but only cells that currently are above this value. Lowring it doesn‘t make that much sense, because the lower you go, the more inaccurate the expected cell capacity is going to be.
According to LFP standards, 3.4 is the supposed 100% resting state (54.4V for the full 16s battery pack). During charging, a cell may go up to 3.65V (Full pack 58.4V). You could theoretically go highter but it will put wear on the cells.
https://www.jackery.com/blogs/knowledge/ultimate-guide-to-lifepo4-voltage-chart
At 98% (~54.1V), the charging amperage will be throtthled to 16A (800W)
At around 90%, it will already start dropping
typical values on bms2 were:
absorption v 55.6 Beim Absorptionsladen wird eine Konstantspannungsregelung angewendet, der Strom wird jedoch reduziert, wenn die Solarbatterien ihren vollen Ladezustand erreichen . Dies verhindert eine Erwärmung und übermäßige Gasbildung der Batterie. Am Ende des Absorptionsladens ist die Batterie typischerweise zu 98 % oder mehr geladen.
float v 53.2, Die Spannung, die die Batterie beim „Schwimmen“ im vollgeladenen Zustand anzeigt. Sie dient dazu, die Batterie in einem optimalen Zustand zu halten und Überladung zu vermeiden may be raised to 55 to start a current draw Die Float-Spannung für LiFePO4-Batterien liegt typischerweise zwischen 3.2 V und 3.3 V pro Zelle. Dies stellt sicher, dass die Batterie im vollgeladenen Zustand bleibt, ohne dass es im Laufe der Zeit zu einer Verschlechterung kommt. Für 12V-Batterien ist die Float-Spannung oft 13.6 V, während sie für 48V-Batterien 54.4 V beträgt
Hat das Seplos aber nicht.
Vergleich mit tianpower:
??,????,????,????,???,???,???,??,??????
0,,µ¥Ìåµçѹ±£»¤,CELL_Vol_Protect,,,,,,
1,Y,µ¥Ìå¹ý³ä±£»¤µçѹ>=,CELL_OV_Start,3.65,1,6,V,,
2,Y,µ¥Ìå¹ý³ä±£»¤ÑÓʱ,CELL_OV_Delay,1000,50,65000,mS,,
3,Y,µ¥Ìå¹ý³ä±£»¤»Ö¸´µçѹ<=,CELL_OV_Stop,3.35,0,6,V,,
4,Y,µ¥Ìå¹ý·Å±£»¤µçѹ<=,CELL_UV_Start,2.7,1,6,V,,
5,Y,µ¥Ìå¹ý·Å±£»¤ÑÓʱ,CELL_UV_Delay,1000,50,65000,mS,,
6,Y,µ¥Ìå¹ý·Å±£»¤»Ö¸´µçѹ>=,CELL_UV_Stop,3,0,6,V,,
7,,×ÜÌåµçѹ±£»¤,PACK_Vol_Protect,,,,,,
8,Y,×ÜÌå¹ý³ä±£»¤µçѹ>=,PACK_OV_Start,58.4,3,200,V,,
9,Y,×ÜÌå¹ý³ä±£»¤ÑÓʱ,PACK_OV_Delay,1000,50,65000,mS,,
10,Y,×ÜÌå¹ý³ä±£»¤»Ö¸´µçѹ<=,PACK_OV_Stop,54,0,200,V,,
11,Y,×ÜÌå¹ý·Å±£»¤µçѹ<=,PACK_UV_Start,43.2,3,200,V,,
12,Y,×ÜÌå¹ý·Å±£»¤ÑÓʱ,PACK_UV_Delay,1000,50,65000,mS,,
13,Y,×ÜÌå¹ý·Å±£»¤»Ö¸´µçѹ>=,PACK_UV_Stop,47.2,0,200,V,,
14,Y,ºãѹֵ>=,Const_Pack_V,56,10,200,V,,
15,Y,ºãÁ÷Öµ<=,Const_Current,4000,0,50000,mA,,
16,,³ä/·Åµç¹ýÁ÷±£»¤,Current_Protect,,,,,,
17,Y,³äµç¹ýÁ÷±£»¤1µçÁ÷>=,CHG_OC1_Start,210,5,300,A,,
18,Y,³äµç¹ýÁ÷±£»¤1ÑÓʱ,CHG_OC1_Delay,20000,50,65000,mS,,
19,Y,·Åµç¹ýÁ÷±£»¤1µçÁ÷>=,DISC_OC1_Start,210,5,300,A,,
20,Y,·Åµç¹ýÁ÷±£»¤1ÑÓʱ,DISC_OC1_Delay,20000,50,65000,mS,,
21,Y,³äµç¹ýÁ÷±£»¤2µçÁ÷>=,CHG_OC2_Start,250,5,300,A,,
22,Y,³äµç¹ýÁ÷±£»¤2ÑÓʱ,CHG_OC2_Delay,500,50,65000,mS,,
23,Y,·Åµç¹ýÁ÷±£»¤2µçÁ÷>=,DISC_OC2_Start,250,5,300,A,,
24,Y,·Åµç¹ýÁ÷±£»¤2ÑÓʱ,DISC_OC2_Delay,500,50,65000,mS,,
25,,ζȱ£»¤,Temperature_Protect,,,,,,
26,Y,³äµç¸ßα£»¤Î¶È>,CHG_OT_START,65,5,200,¡æ,,
27,Y,³äµç¸ßα£»¤ÑÓʱ,CHG_OT_Delay,1000,50,65000,mS,,
28,Y,³äµç¸ßα£»¤»Ö¸´Î¶È<,CHG_OT_STOP,55,5,200,¡æ,,
29,Y,·Åµç¸ßα£»¤Î¶È>,DISC_OT_START,70,5,200,¡æ,,
30,Y,·Åµç¸ßα£»¤ÑÓʱ,DISC_OT_Delay,1000,50,65000,mS,,
31,Y,·Åµç¸ßα£»¤»Ö¸´Î¶È<,DISC_OT_STOP,60,5,200,¡æ,,
32,Y,³äµçµÍα£»¤Î¶È<,CHG_UT_START,-5,-50,200,¡æ,,
33,Y,³äµçµÍα£»¤ÑÓʱ,CHG_UT_Delay,1000,50,65000,mS,,
34,Y,³äµçµÍα£»¤»Ö¸´Î¶È>,CHG_UT_STOP,0,-50,200,¡æ,,
35,Y,·ÅµçµÍα£»¤Î¶È<,DISC_UT_START,-20,-50,200,¡æ,,
36,Y,·ÅµçµÍα£»¤ÑÓʱ,DISC_UT_Delay,1000,50,65000,mS,,
37,Y,·ÅµçµÍα£»¤»Ö¸´Î¶È>,DISC_UT_STOP,-15,-50,200,¡æ,,
38,Y,MOS¸ßα£»¤Î¶È>,MOS_OT_START,110,-50,200,¡æ,,
39,Y,MOS¸ßα£»¤ÑÓʱ,MOS_OT_Delay,1000,50,65000,mS,,
40,Y,MOS¸ßα£»¤»Ö¸´Î¶È<,MOS_OT_STOP,85,-50,200,¡æ,,
41,Y,»·¾³¸ßα£»¤Î¶È>,ENV_OT_START,70,-50,200,¡æ,,
42,Y,»·¾³¸ßα£»¤ÑÓʱ,ENV_OT_Delay,1000,50,65000,mS,,
43,Y,»·¾³¸ßα£»¤»Ö¸´Î¶È<,ENV_OT_STOP,65,-50,200,¡æ,,
44,Y,»·¾³µÍα£»¤Î¶È<,ENV_UT_START,-25,-50,200,¡æ,,
45,Y,»·¾³µÍα£»¤ÑÓʱ,ENV_UT_Delay,1000,50,65000,mS,,
46,Y,»·¾³µÍα£»¤»Ö¸´Î¶È>,ENV_UT_STOP,-20,-50,200,¡æ,,
47,,ÆäËûÏîÄ¿,OTHERS,,,,,,
48,Y,¾ùºâ¿ªÆôµçѹ>=,Balance_Start_Vol,3.34,1,6,V,,
49,Y,¾ùºâ¿ªÆôѹ²î>=,Balance_Start_Diff,30,5,2000,mV,,
50,Y,¶Ì·±£»¤ÑÓʱ,Shorts_Delay,500,50,65000,uS,,
51,Y,´ý»úʱ¼ä>=,Standby_Time,7200,0,7200,Min,,
52,Y,ÐÝÃßʱ¼ä>=,Sleep_Time,60,0,65535,Min,,
53,Y,ǷѹOFFʱ¼ä,UV_OFF_Time,28800,0,65535,Sec,,
54,Y,ÏÞÁ÷ģʽ[0²»Ê¹ÄÜ],LC_Style,4,0,10,N,,
55,Y,µ¥ÌåÐÝÃßµçѹ<=,Sleep_Cell_Volt,3.3,0,10,V,,
56,Y,¶î¶¨ÈÝÁ¿,Set_Full_charge_capacity,200,0,65535,Ah,,
57,Y,Ê£ÓàÈÝÁ¿,Set_Remaining capacity,120,0,65535,Ah,,
2,2,2,2,2,2,2,2,2,
0,,µ¥Ìåµçѹ¸æ¾¯,CELL_Vol_Alarm,,,,,,
1,Y,µ¥Ìå¹ý³ä¸æ¾¯µçѹ>=,CELL_OV_Start,3.6,1,6,V,,
2,Y,µ¥Ìå¹ý³ä¸æ¾¯ÑÓʱ,CELL_OV_Delay,2000,50,65000,mS,,
3,Y,µ¥Ìå¹ý³ä¸æ¾¯»Ö¸´µçѹ<=,CELL_OV_Stop,3.5,0,6,V,,
4,Y,µ¥Ìå¹ý·Å¸æ¾¯µçѹ<=,CELL_UV_Start,2.8,1,6,V,,
5,Y,µ¥Ìå¹ý·Å¸æ¾¯ÑÓʱ,CELL_UV_Delay,2000,50,65000,mS,,
6,Y,µ¥Ìå¹ý·Å¸æ¾¯»Ö¸´µçѹ>=,CELL_UV_Stop,3.1,0,6,V,,
7,,×ÜÌåµçѹ¸æ¾¯,PACK_Vol_Alarm,,,,,,
8,Y,×ÜÌå¹ý³ä¸æ¾¯µçѹ>=,PACK_OV_Start,56.8,3,200,V,,
9,Y,×ÜÌå¹ý³ä¸æ¾¯ÑÓʱ,PACK_OV_Delay,1000,50,65000,mS,,
10,Y,×ÜÌå¹ý³ä¸æ¾¯»Ö¸´µçѹ<=,PACK_OV_Stop,55,0,200,V,,
11,Y,×ÜÌå¹ý·Å¸æ¾¯µçѹ<=,PACK_UV_Start,46.4,3,200,V,,
12,Y,×ÜÌå¹ý·Å¸æ¾¯ÑÓʱ,PACK_UV_Delay,1000,50,65000,mS,,
13,Y,×ÜÌå¹ý·Å¸æ¾¯»Ö¸´µçѹ>=,PACK_UV_Stop,47.2,0,200,V,,
14,,³ä/·Åµç¹ýÁ÷¸æ¾¯,Current_Alarm,,,,,,
15,Y,³äµç¹ýÁ÷¸æ¾¯µçÁ÷>=,CHG_OC_Start,205,5,300,A,,
16,Y,³äµç¹ýÁ÷¸æ¾¯ÑÓʱ,CHG_OC_Delay,5000,50,65000,mS,,
17,Y,³äµç¹ýÁ÷¸æ¾¯»Ö¸´µçÁ÷<=,CHG_OC_Stop,203,1,300,A,,
18,Y,·Åµç¹ýÁ÷¸æ¾¯µçÁ÷>=,DISC_OC_Start,205,5,300,A,,
19,Y,·Åµç¹ýÁ÷¸æ¾¯ÑÓʱ,DISC_OC_Delay,5000,50,65000,mS,,
20,Y,·Åµç¹ýÁ÷¸æ¾¯»Ö¸´µçÁ÷<=,DISC_OC_Stop,203,1,300,A,,
21,,ζȸ澯,Temperature_Alarm,,,,,,
22,Y,³äµç¸ßθ澯ζÈ>,CHG_OT_START,55,5,200,¡æ,,
23,Y,³äµç¸ßθ澯ÑÓʱ,CHG_OT_Delay,4000,50,65000,mS,,
24,Y,³äµç¸ßθ澯»Ö¸´Î¶È<,CHG_OT_STOP,45,5,200,¡æ,,
25,Y,³äµçµÍθ澯ζÈ<,CHG_UT_START,0,-50,200,¡æ,,
26,Y,³äµçµÍθ澯ÑÓʱ,CHG_UT_Delay,4000,50,65000,mS,,
27,Y,³äµçµÍθ澯»Ö¸´Î¶È>,CHG_UT_STOP,10,-50,200,¡æ,,
28,Y,·Åµç¸ßθ澯ζÈ>,DISC_OT_START,55,-50,200,¡æ,,
29,Y,·Åµç¸ßθ澯ÑÓʱ,DISC_OT_Delay,4000,50,65000,mS,,
30,Y,·Åµç¸ßθ澯»Ö¸´Î¶È<,DISC_OT_STOP,45,-50,200,¡æ,,
31,Y,·ÅµçµÍθ澯ζÈ<,DISC_UT_START,-10,-50,200,¡æ,,
32,Y,·ÅµçµÍθ澯ÑÓʱ,DISC_UT_Delay,4000,50,65000,mS,,
33,Y,·ÅµçµÍθ澯»Ö¸´Î¶È>,DISC_UT_STOP,5,-50,200,¡æ,,
34,Y,»·¾³¸ßθ澯ζÈ>,ENV_OT_START,55,5,200,¡æ,,
35,Y,»·¾³¸ßθ澯ÑÓʱ,ENV_OT_Delay,4000,50,65000,mS,,
36,Y,»·¾³¸ßθ澯»Ö¸´Î¶È<,ENV_OT_STOP,45,5,200,¡æ,,
37,Y,»·¾³µÍθ澯ζÈ<,ENV_UT_START,0,-50,200,¡æ,,
38,Y,»·¾³µÍθ澯ÑÓʱ,ENV_UT_Delay,4000,50,65000,mS,,
39,Y,»·¾³µÍθ澯»Ö¸´Î¶È>,ENV_UT_STOP,10,-50,200,¡æ,,
40,Y,MOS¸ßθ澯ζÈ>,MOS_OT_START,90,5,200,¡æ,,
41,Y,MOS¸ßθ澯ÑÓʱ,MOS_OT_Delay,4000,50,65000,mS,,
42,Y,MOS¸ßθ澯»Ö¸´Î¶È<,MOS_OT_STOP,85,5,200,¡æ,,
43,,ÆäËûÏîÄ¿,OTHERS,,,,,,
44,Y,ÈÝÁ¿¹ýµÍ¸æ¾¯<=,Capacity_Low_Start,10,1,50,%,,
45,Y,ÈÝÁ¿¹ýµÍ¸æ¾¯»Ö¸´>=,Capacity_Low_Stop,15,1,50,%,,
46,Y,ѹ²î¹ý´ó¸æ¾¯>=,Vol_Diff_Start,800,10,3000,mV,,
47,Y,ѹ²î¹ý´ó¸æ¾¯»Ö¸´<=,Vol_Diff_Stop,500,10,3000,mV,,