Changes for page 3.3 Control

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45	45	To change the estimation algorithm for calculating the battery SOC, select the "Control → SOC estimation → Algorithm" section:
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	47	+[[image:1733322611549-423.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="148" width="800"]]
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48		-[[image:1735056107942-306.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="141" width="800"]]
49		-
50	50	The following estimation algorithms supported:
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52	52	* Voltage – by open circuit voltage;
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71	71	* Minimal SOC – the battery SOC is assumed to be the minimum SOC among the cells;
72	72	* Average SOC – the battery SOC is taken equal to the arithmetic average of the cell SOC;
73		-* Min-Max SOC – the battery SOC is calculated based on the minimum and maximum SOC of the cells. Final SOC will be a) 100% if any cell have 100% SOC, b) 0% if any cell have 0% SOC;
74		-* Max-Min SOC – the battery SOC is calculated based on the minimum and maximum SOC of the cells. Final SOC will be a) 100% if all cells have 100% SOC, b) 0% if all cells have 0% SOC;
	72	+* Min-Max SOC – the battery SOC is taken based on the minimum and maximum SOC of the cells (recommended method).
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76	76	Other parameters:
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107	107	Calculation of the resistance of cells is carried out in two ways. The first method is used when the battery passes from a relaxation state to a charge or discharge state, wherein the cell resistance value
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109		-{{formula fontSize="SMALL" imageType="PNG"}}
110		-R = \frac{U-U_{ocv}}{I_{stable}}
111		-{{/formula}}
	107	+R = (U-U,,ocv,,) / I,,stable,,,
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113		-where U — the cell voltage measured in the charge or discharge state, V; U,,ocv,, — cell voltage measured in the state of relaxation (before switching to the state of charge or discharge); I,,stable,, — stabilized current through the cell in the state of charge or discharge.
	109	+where U is the cell voltage measured in the charge or discharge state, V; U,,ocv,, is the cell voltage measured in the state of relaxation (before switching to the state of charge or discharge); I,,stable,, – stabilized current through the cell in the state of charge or discharge.
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115	115	The second method is used for a stepwise change in the current through the cell, while the value of the cell resistance:
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117		-{{formula fontSize="SMALL"}}
118		-R = \frac{U_2-U_1}{I_{stable2}-I_{stable1}}
119		-{{/formula}}
	113	+R = (U,,2,,-U,,1,,) / (I,,stable2,,-I,,stable1,,) provided that | I,,stable2,,-I,,stable1,, | > 0.2 × Q,,max,,
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121		-provided that
	115	+(Q,,max,, is the maximum cell capacity),
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123		-{{formula fontSize="SMALL"}}
124		-| I_{stable2}-I_{stable1} | > 0.2 × Qmax
125		-{{/formula}}
	117	+where U,,2,, is the voltage on the cell at the moment when the stabilized current I,,stable2,, is flowing through it; U,,1,, – the voltage on the cell at the moment when the stabilized current I,,stable1,, flowing through it.
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127		-where Q,,max,, — the maximum cell capacity,U,,2,, — voltage on the cell at the moment when the stabilized current I,,stable2,, is flowing through it; U,,1,, — the voltage on the cell at the moment when the stabilized current I,,stable1,, flowing through it.
128		-
129	129	The stabilized current I,,stable,, = I, if during the stabilization time the instantaneous current I is in the range from 0.95 × I to 1.05 × I.
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131	131	To change parameters of the algorithm for calculating the cell resistance, select the "Control → Resistance estimation" section:

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1		-XWiki.admin

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