Changes for page 3.4 Battery parameters

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3	3	To change the default cell settings, select the menu "Cells → Cell defaults":
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7	7	In this section:
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32	32	To change the parameters of the algorithm for calculating the battery SOC, select the menu "Cells → SOC estimation":
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	34	+[[image:1732206031847-819.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="849" width="356"]]
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36	36	In this section:
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45	45	* Scale the final SOC – flag to scale the battery SOC by the following values;
46	46	* Internal SOC corresponding to 0% – battery SOC that sets to be 0%;
47	47	* Internal SOC corresponding to 100% – battery SOC that sets to be 100%.
48		-* Uocv = Uocv(SOC, t °C) – the dependence of the cell open circuit voltage Uocv on SOC and the cell temperature (selected for specific batteries, can be established experimentally – see section Determining the discharge characteristic);
	48	+* Uocv = Uocv(SOC, t °C) – the dependence of the cell open circuit voltage Uocv on SOC and the cell temperature (selected for specific batteries, can be established experimentally – see [[3.4.6 Cell analysis>>doc:||anchor="3.4.6 Cell analysis"]]);
49	49	* Linear zone – linear zone of dependence Uocv = Uocv(SOC, t °C):
50	50	** Uocv ,,[point 1],, – starting point of the linear zone;
51	51	** Uocv ,,[point 2],, – end point of the linear zone;
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82	82	To change parameters of the algorithm for calculating the cell resistance, select the menu "Cells → Cell resistance estimation":
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	84	+[[image:1732207338609-903.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="187" width="337"]]
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86	86	In this section:
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91	91	* Minimum SOC – minimum cell SOC value for resistance calculation;
92	92	* Maximum SOC – maximum cell SOC value for resistance calculation.
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94		-The calculated resistance is accepted by the system as valid (and therefore updated) if its value is in the range from Resistance/2 to “Maximum resistance factor” × Resistance, where "Resistance" is the nominal resistance of the cell (see section Cell defaults). If the calculated resistance value is greater than the value (Maximum resistance factor × Resistance), the updated resistance value will be equal to the value (Maximum resistance factor × Resistance).
	94	+The calculated resistance is accepted by the system as valid (and therefore updated) if its value is in the range from Resistance/2 to “Maximum resistance factor” × Resistance, where "Resistance" is the nominal resistance of the cell (see [[3.4.1 Cell defaults>>doc:||anchor="3.4.1 Cell defaults"]]). If the calculated resistance value is greater than the value (Maximum resistance factor × Resistance), the updated resistance value will be equal to the value (Maximum resistance factor × Resistance).
95	95
96	96	== 3.4.4 Cell balancing ==
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115	115	* the voltage on the cell is higher than the starting voltage of the balancing;
116	116	* the difference between the cell voltage and the minimum voltage among the cells of the battery is greater than the balancing threshold.
117	117
118		-If the BMS Logic board overheats, then the balancing of the cells connected to this board will not be performed (see Logic high temperature protection).
	118	+If the BMS Logic board overheats, then the balancing of the cells connected to this board will not be performed (see [[3.6.18 Logic high temperature protection>>doc:drafts.BMS Main 2\.1.3\. Configuration.3\.6 Battery protection.WebHome||anchor="3.6.18 Logic high temperature protection"]]).
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120	120	To change the cell balancing parameters, select the menu "Cell → Cell balancing":
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	122	+[[image:1732207485773-804.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="264" width="387"]]
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124	124	In this section:
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141	141	The BMS Main 2.x board supports work with two independent (galvanically unrelated) cell series. To monitor the status of two series, two current sensors are used: primary and secondary (AUX). A series of cells must be equivalent: they must have the same number of cells and the same capacity.
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143		-Since the series of cells can operate at different loads, they must be balanced. For this, the BMS Main 2.x provides two relays: “Balancing series 1” and “Balancing series 2” (see section Configuration of output discrete signals and relays), as well as a combined algorithm that considers both the voltage of each series and the charge that these series gave load. “Balancing series 1” and “Balancing series 2” relays are used to connect high-power balancing resistors in parallel with cells series 1 and 2.
	143	+Since the series of cells can operate at different loads, they must be balanced. For this, the BMS Main 2.x provides two relays: “Balancing series 1” and “Balancing series 2” (see [[3.3 Input and output signals>>doc:drafts.BMS Main 2\.1.3\. Configuration.3\.3 Input and output signals.WebHome]]), as well as a combined algorithm that considers both the voltage of each series and the charge that these series gave load. “Balancing series 1” and “Balancing series 2” relays are used to connect high-power balancing resistors in parallel with cells series 1 and 2.
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145	145	When charging the battery, balancing is performed based on the voltage of the series. A balancing resistor is connected to the cell series if:
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152	152	To change the series balancing parameters, select the menu "Cell → Series balancing":
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	154	+[[image:1732207584941-447.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="258" width="438"]]
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156	156	In this section:
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164	164
165	165	== 3.4.6 Cell analysis ==
166	166
167		-Discharge characteristics of the battery – the dependence Uocv = Uocv (DOD) – is used to determine the tabular dependence Uocv = Uocv (SOC, t °C) (see section Calculating the state of charge (SOC)), which is necessary for calculating the state of charge of the battery.
	167	+Discharge characteristics of the battery – the dependence Uocv = Uocv (DOD) – is used to determine the tabular dependence Uocv = Uocv (SOC, t °C) (see [[3.4.2 SOC estimation>>doc:||anchor="3.4.2 SOC estimation"]]), which is necessary for calculating the state of charge of the battery.
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169	169	The BMS Main 2.x board can automatically determine the battery discharge characteristic.
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177	177	To configure parameters for determining the discharge characteristic of the battery, select the menu "Cells → Cell analysis":
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181	181	In this section:
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234	234	To configure parameters for determining the charge current limit, select the menu "Cells → Charge current map":
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238	238	In this section:
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257	257	To configure parameters for determining the charge current limit, select the menu "Cells → Charge current map":
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261	261	In this section:
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275	275	== 3.4.9 SOC correction ==
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277		-The BMS Main 2.x board can recalculate the battery SOC after long-term storage or after long-term working in the case when the battery was not charged fully or discharged totally. Recalculation is done based on the tabular dependency Uocv = Uocv (SOC, t) (see section Calculating the state of charge (SOC)).
	277	+The BMS Main 2.x board can recalculate the battery SOC after long-term storage or after long-term working in the case when the battery was not charged fully or discharged totally. Recalculation is done based on the tabular dependency Uocv = Uocv (SOC, t) (see [[3.4.2 SOC estimation>>doc:||anchor="3.4.2 SOC estimation"]]).
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279	279	To configure parameters for periodically correcting the battery state of charge, select the menu "Cells → SOC correction":
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	281	+[[image:1732206262509-786.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="291" width="298"]]
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283	283	In this section:
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