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Changes for page 3.3 Control

Last modified by Admin on 2025/04/09 12:15
From version 6.3
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on 2025/02/24 10:58
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To version 6.1
edited by Admin
on 2025/02/24 10:55
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Summary

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8 8  
9 9  To change the common BMS settings, select the "Control → Common settings" section:
10 10  
11 -[[image:1740394523706-519.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="127" width="800"]]
11 +[[image:1733746733473-873.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="124" width="800"]]
12 12  
13 13  In this section:
14 14  
... ... @@ -16,18 +16,13 @@
16 16  * Cell resistance – nominal (maximum) internal resistance of the cell, Ohm;
17 17  * Relax time (after charging) – a relaxation time after charging, second;
18 18  * Relax time (atfer discharging) – the relaxation time after discharging, second;
19 +* Number of cycles – a number of charge-discharge cycles;
19 19  * Reset parameters– a command to reset cells state of charge, capacity, and resistance.
20 20  
21 -The values “Capacity” and “Resistance” are used to calculate the SOC of cells and the battery.
22 +The values “Capacity”, “Resistance”, “Cycles” are used to calculate the SOC of cells and the battery.
22 22  
23 23  The values of “Relax time” are used to determine the state of the battery. If the battery is in a state of relaxation, the system recalculates the voltage on the cells to the state of charge of the battery.
24 24  
25 -The “Reset parameters” will reset:
26 -
27 -* state of charge (new cell SOC values will be calculated based on cell voltage and “Uocv (open-circuit voltage) table”: in the “Control → SOC estimation” section);
28 -* cell resistance to “Cell resistance” value;
29 -* battery capacity to “Cell capacity” value.
30 -
31 31  The “Reset parameters” command is used for starting-up and adjustment of the battery.
32 32  
33 33  === SOC estimation ===
... ... @@ -49,14 +49,14 @@
49 49  * Current and voltage (simplified);
50 50  * Current and voltage (enhanced);
51 51  
52 -The **“Voltage”** SOC calculation algorithm calculates cells SOC based on the tabular dependence Uocv = Uocv(SOC, t °C).
47 +The SOC calculation algorithm for voltage calculates cells SOC based on the tabular dependence Uocv = Uocv(SOC, t °C).
53 53  
54 -The **“Current and voltage (simplified)”** SOC calculation algorithm works as follows:
49 +The SOC calculation algorithm “Current and voltage (simplified)” works as follows:
55 55  
56 56  * if I = 0, the battery is in a state of relaxation and the cell voltage Uocv is outside the [U,,ocv[point 1],,; U,,ocv[point 2],,], the SOC calculation based on the tabular dependence Uocv = Uocv(SOC, t °C);
57 57  * in any other cases, the SOC value is proportional to the charge (coulomb) passed through the battery (current time integral).
58 58  
59 -The **“Current and voltage (enhanced)” **SOC calculation algorithm differs from the simplified algorithm by online correction of effective capacitance. When using this algorithm, it is necessary to fine tune the tabular dependence Uocv = Uocv (SOC, t °C).
54 +The SOC calculation algorithm “Current and voltage (enhanced)” differs from the simplified algorithm by online correction of effective capacitance. When using this algorithm, it is necessary to fine tune the tabular dependence Uocv = Uocv (SOC, t °C).
60 60  
61 61  To change the algorithm for calculating the Final SOC, select the "Control → SOC estimation → Final SOC" section:
62 62  
... ... @@ -65,29 +65,32 @@
65 65  The following battery Final SOC calculation methods are supported:
66 66  
67 67  * Minimal SOC – SOC of the modular battery is assumed to be the minimum SOC among the battery modules;
68 -* Average SOC – SOC of the modular battery is taken equal to the arithmetic average of the SOC of the battery modules;
69 -* 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 has 100% SOC, b) 0% if any cell has 0% SOC;
70 -* 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.
63 +* Average SOC – SOC of the modular battery is taken equal to the arithmetic average of the SOC of the battery modules.
71 71  
72 72  To change other settings of SOC estimation, select the "Control → SOC estimation” section:
73 73  
67 +[[image:1733746733479-261.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="165" width="800"]]
74 74  
75 75  In this section:
76 76  
77 -* (((
78 -Other parameters:
79 -)))
80 80  * Scale the final SOC – a flag to scale the battery SOC by the following values;
81 -* SOC corresponding to 0% – the battery SOC that sets to be 0%;
82 -* SOC corresponding to 100% – the battery SOC that sets to be 100%.
72 +* SOC corresponding to 0% – battery SOC that sets to be 0%;
73 +* SOC corresponding to 100% – battery SOC that sets to be 100%.
83 83  * Uocv (open-circuit voltage) table – the dependence of the cell open circuit voltage Uocv on SOC and the cell temperature (selected for specific batteries);
84 -* Linear zone - linear zone of the Uocv = Uocv(SOC, t°C) dependency, inside which the cell voltage changes insignificantly:
85 -** Linear zone: point 1 – starting point of the Uocv linear zone;
86 -** Linear zone: point 2 – ending point of the Uocv linear zone;
75 +
76 +[[image:1733746733480-919.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="484" width="800"]]
77 +
78 +* Linear zone: point 1 – starting point of the linear zone of Uocv dependence;
79 +* Linear zone: point 2 – ending point of the linear zone of Uocv dependence;
87 87  * Coulomb counting correction (temperature) – the dependence of battery capacity on temperature;
81 +
82 +[[image:1733746733481-286.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="160" width="800"]]
83 +
88 88  * Coulomb counting correction (cycles) – the dependence of battery capacity on the number of charge-discharge cycles.
89 89  
86 +[[image:1733746733482-538.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="161" width="800"]]
90 90  
88 +
91 91  === SOC correction ===
92 92  
93 93  The BMS Mini device 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 [[SOC estimation>>doc:||anchor="HSOCestimation"]]).