Changes for page 3.3 Control

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Details

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1		-Battery management systems.BMS Mini S.3\. Configuration.WebHome
	1	+drafts.BMS Mini S.3\. Configuration.WebHome

Content

...	...	@@ -8,7 +8,7 @@
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]]
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 ===
...	...	@@ -41,7 +41,7 @@
41	41
42	42	To change the estimation algorithm for calculating the battery SOC, select the "Control → SOC estimation → Algorithm" section:
43	43
44		-[[image:1733746733477-590.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="166" width="800"]]
	39	+[[image:1733746733477-590.png]]
45	45
46	46	The following estimation algorithms supported:
47	47
...	...	@@ -49,45 +49,56 @@
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
63		-[[image:1733746733478-414.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="167" width="800"]]
	58	+[[image:1733746733478-414.png]]
64	64
65	65	The following battery Final SOC calculation methods are supported:
66	66
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.
	62	+*
	63	+** Minimal SOC – SOC of the modular battery is assumed to be the minimum SOC among the battery modules;
	64	+** Average SOC – SOC of the modular battery is taken equal to the arithmetic average of the SOC of the battery modules.
71	71
72		-Other parameters:
	66	+To change other settings of SOC estimation, select the "Control → SOC estimation” section:
73	73
	68	+[[image:1733746733479-261.png]]
	69	+
	70	+In this section:
	71	+
74	74	* Scale the final SOC – a flag to scale the battery SOC by the following values;
75		-* SOC corresponding to 0% – the battery SOC that sets to be 0%;
76		-* SOC corresponding to 100% – the battery SOC that sets to be 100%.
	73	+* SOC corresponding to 0% – battery SOC that sets to be 0%;
	74	+* SOC corresponding to 100% – battery SOC that sets to be 100%.
77	77	* Uocv (open-circuit voltage) table – the dependence of the cell open circuit voltage Uocv on SOC and the cell temperature (selected for specific batteries);
78		-* Linear zone - linear zone of the Uocv = Uocv(SOC, t°C) dependency, inside which the cell voltage changes insignificantly:
79		-** Linear zone: point 1 – starting point of the Uocv linear zone;
80		-** Linear zone: point 2 – ending point of the Uocv linear zone;
	76	+
	77	+[[image:1733746733480-919.png]]
	78	+
	79	+* Linear zone: point 1 – starting point of the linear zone of Uocv dependence;
	80	+* Linear zone: point 2 – ending point of the linear zone of Uocv dependence;
81	81	* Coulomb counting correction (temperature) – the dependence of battery capacity on temperature;
	82	+
	83	+[[image:1733746733481-286.png]]
	84	+
82	82	* Coulomb counting correction (cycles) – the dependence of battery capacity on the number of charge-discharge cycles.
83	83
	87	+[[image:1733746733482-538.png]]
	88	+
	89	+
84	84	=== SOC correction ===
85	85
86		-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"]]).
	92	+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 section **SOC estimation**).
87	87
88	88	To configure parameters for periodically correcting the battery state of charge, select the "Control → SOC correction" section:
89	89
90		-[[image:1733746733483-444.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="160" width="800"]]
	96	+[[image:1733746733483-444.png]]
91	91
92	92	In this section:
93	93
...	...	@@ -98,35 +98,29 @@
98	98	* Ignore the linear zone – a flag to ignore linear SOC zone while correction;
99	99	* Last correction timestamp – time when last correction was made.
100	100
101		-=== Resistance estimation ===
	107	+1.
	108	+11.
	109	+111. Resistance estimation
102	102
103	103	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
104	104
105		-{{formula fontSize="SMALL" imageType="PNG"}}
106		-R = \frac{U-U_{ocv}}{I_{stable}}
107		-{{/formula}}
	113	+R = (U-U,,ocv,,) / I,,stable,,,
108	108
109	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.
110	110
111	111	The second method is used for a stepwise change in the current through the cell, while the value of the cell resistance:
112	112
113		-{{formula fontSize="SMALL"}}
114		-R = \frac{U_2-U_1}{I_{stable2}-I_{stable1}}
115		-{{/formula}}
	119	+R = (U,,2,,-U,,1,,) / (I,,stable2,,-I,,stable1,,) provided that | I,,stable2,,-I,,stable1,, | > 0.2 × Q,,max,,
116	116
117		-provided that
	121	+(Q,,max,, is the maximum cell capacity),
118	118
119		-{{formula fontSize="SMALL"}}
120		-| I_{stable2}-I_{stable1} | > 0.2 × Qmax
121		-{{/formula}}
	123	+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.
122	122
123		-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.
124		-
125	125	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.
126	126
127	127	To change parameters of the algorithm for calculating the cell resistance, select the "Control → Resistance estimation" section:
128	128
129		-[[image:1733746733484-681.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="104" width="800"]]
	129	+[[image:1733746733484-681.png]]
130	130
131	131	In this section:
132	132
...	...	@@ -136,64 +136,8 @@
136	136	* Minimum SOC – minimum cell SOC value for resistance calculation;
137	137	* Maximum SOC – maximum cell SOC value for resistance calculation.
138	138
139		-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 [[Common settings>>doc:||anchor="HCommonsettings"]]). 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).
	139	+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 Common settings). 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).
140	140
141		-=== Low SOC (signal) ===
142		-
143		-To change the parameters of the generation a signal about low battery level, select the "Control → Low SOC (signal)" section:
144		-
145		-[[image:1740396460923-423.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="141" width="800"]]
146		-
147		-In this section:
148		-
149		-* Enable – a flag to enable signal generation;
150		-* Minimum SOC, %;
151		-* Tolerant SOC, %;
152		-* Delay before setting the signal, second;
153		-* Delay before clearing the signal, second;
154		-* Lock – lock the signal until the device is reset.
155		-
156		-Signal generation conditions:
157		-
158		-* the battery SOC is less than the “Minimum SOC” value during the “Delay before setting the signal” time.
159		-
160		-Conditions for clearing the signal:
161		-
162		-* the battery SOC is greater than the “Tolerant SOC” during the “Delay before clearing the signal” time.
163		-
164		-(% class="box infomessage" %)
165		-(((
166		-The "Low SOC signal" is indicative and can be output to a discrete output or a power switch.
167		-)))
168		-
169		-=== High charging current (signal) ===
170		-
171		-To change the parameters of the generation high-current signal, select the "Control → High charging current (signal)" section:
172		-
173		-[[image:1740396996935-403.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="144" width="800"]]
174		-
175		-In this section:
176		-
177		-* Enable – a flag to enable signal generation;
178		-* Maximum charging current, А;
179		-* Tolerant charging current, А;
180		-* Delay before setting the signal, second;
181		-* Delay before clearing the signal, second;
182		-* Lock – lock the signal until the device is reset.
183		-
184		-Signal generation conditions:
185		-
186		-* the measured current is greater than the “Maximum charging current” value during the “Delay before setting the signal” time.
187		-
188		-Conditions for clearing the signal:
189		-
190		-* the measured current is less than the “Tolerant charging current” value during the “Delay before clearing the signal” time.
191		-
192		-(% class="box infomessage" %)
193		-(((
194		-The "High charging current" signal is indicative and can be output to a discrete output or a power switch.
195		-)))
196		-
197	197	=== Charge map ===
198	198
199	199	The BMS Mini device calculates maximum allowable charge current values in respect to SOC, battery temperature, contactor temperature and cell voltage.
...	...	@@ -202,25 +202,32 @@
202	202
203	203	To configure parameters for determining the charge current limit, select the "Control → Charge map" section:
204	204
205		-[[image:1740397188247-315.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="179" width="800"]]
	149	+[[image:1733746766504-864.png]]
	150	+
206	206	In this section:
207	207
208	208	* Enable – a flag to start calculation of the charge current limit;
209		-* Maximum charge current – a maximum allowable value of the charge current (under normal conditions), A;
210		-* Rate of change – a rate of change the current limit to a new value (0 is for immediate change), A/s;
211		-* Option 1: Limit charge current by the battery SOC and temperature – a flag to enable correction of maximum allowable charging current** Kcs** depending on SOC and battery temperature;
	154	+* Maximum charge current – a maximum allowable value of the charge current (under normal conditions):
	155	+* Option 1: Limit charge current by the battery SOC and temperature – a flag to enable correction of maximum allowable charging current Kcs depending on SOC and battery temperature;
212	212	* Option 1: SOC x Temperature x Factor – the dependence of the correction factor on SOC and battery temperature;
213		-* Option 2: Limit charge current by the contactor temperature – a flag to enable correction of maximum allowable charging current **Kcc** depending on contactor temperature;
	157	+
	158	+[[image:1733746766506-660.png]]
	159	+
	160	+* Option 2: Limit charge current by the contactor temperature – a flag to enable correction of maximum allowable charging current Kcc depending on contactor temperature;
214	214	* Option 2: Contactor temperature x Factor – the dependence of the correction factor on SOC and contactor temperature;
215		-* Option 3: Limit charge current by the maximum cell voltage - a flag to enable correction of maximum allowable charging current **Kcv** depending on maximum cell voltage;
216		-* Option 3: Cell voltage x Factor – the dependence of the correction factor on maximum cell voltage;
217		-* Option 4: Limit charge current by the cell temperature - a flag to enable correction of maximum allowable charging current **Kct** depending on maximum cell temperature;
218		-* Option 4: Cell temperature x Factor – the dependence of the correction factor on maximum cell temperature.
219	219
220		-Value of the charge current limit at given SOC, temperature, contactors temperature, maximum cell voltage and maximum cell temperature is calculated as follows:
	163	+[[image:1733746766508-178.png]]
221	221
222		-**Charge current limit = Maximum charge current × Kcs × Kcc × Kcv × Kct**
	165	+* Option 3: Limit charge current by the maximum cell voltage - a flag to enable correction of maximum allowable charging current Kcv depending on maximum cell voltage;
	166	+* Option 3: Cell voltage x Factor – the dependence of the correction factor on maximum cell voltage.
223	223
	168	+[[image:1733746766509-971.png]]
	169	+
	170	+Value of the charge current limit at given SOC, temperature, contactors temperature and maximum cell voltage is calculated as follows:
	171	+
	172	+Charging current limit = Maximum charging current × Kcs × Kcc × Kcv
	173	+
	174	+
224	224	=== Discharge map ===
225	225
226	226	The BMS Mini device calculates maximum allowable discharge current values in respect to SOC, battery temperature, contactor temperature and cell voltage.
...	...	@@ -229,72 +229,32 @@
229	229
230	230	To configure parameters for determining the discharge current limit, select the "Control → Discharge map" section:
231	231
232		-[[image:1740397304972-174.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="182" width="800"]]
	183	+[[image:1733746766511-477.png]]
233	233
234	234	In this section:
235	235
236	236	* Enable – a flag to start calculation of the discharge current limit;
237		-* Maximum discharge current – a maximum allowable value of the discharge current (under normal conditions), A;
238		-* Rate of change – a rate of change the current limit to a new value (0 is for immediate change), A/s;
239		-* Option 1: Limit discharging current by the battery SOC and temperature – a flag to enable correction of maximum allowable discharging current **Kds **depending on SOC and temperature;
	188	+* Maximum discharge current – a maximum allowable value of the discharge current (under normal conditions):
	189	+* Option 1: Limit discharging current by the battery SOC and temperature – a flag to enable correction of maximum allowable discharging current Kds depending on SOC and temperature;
240	240	* Option 1: SOC x Temperature x Factor – the dependence of the correction factor on SOC and battery temperature;
241		-* Option 2: Limit discharge current by the contactor temperature – a flag to enable correction of maximum allowable discharging current **Kdc** depending on contactor temperature;
242		-* Option 2: Contactor temperature x Factor – the dependence of the correction factor on SOC and contactor temperature;
243		-* Option 3: Limit discharge current by the cell voltage - a flag to enable correction of maximum allowable discharging current **Kdv** depending on minimum cell voltage;
244		-* Option 3: Cell voltage x Factor – the dependence of the correction factor on minimum cell voltage;
245		-* Option 4: Limit discharge current by the cell temperature - a flag to enable correction of maximum allowable discharging current **Kdt** depending on maximum cell temperature;
246		-* Option 4: Cell voltage x Factor – the dependence of the correction factor on minimum cell temperature.
247	247
248		-Value of the discharge current limit at given SOC, temperature, contactors temperature, minimum cell voltage and maximum cell temperature is calculated as follows:
	192	+[[image:1733746766512-300.png]]
249	249
250		-**Discharge current limit = Maximum discharge current × Kds × Kdc × Kdv × Kdt**
	194	+* Option 2: Limit discharge current by the contactor temperature – a flag to enable correction of maximum allowable discharging current Kdc depending on contactor temperature;
	195	+* Option 2: Contactor temperature x Factor – the dependence of the correction factor on SOC and contactor temperature;
251	251
252		-=== Main contactor ===
	197	+[[image:1733746766513-161.png]]
253	253
254		-The BMS Mini device controls the main contactor. The main contactor is usually placed in the common (minus) battery line for opening the charge and discharge circuits in a case of sealing of the charging or discharging contactors.
	199	+* Option 3: Limit discharge current by the cell voltage - a flag to enable correction of maximum allowable discharging current Kdv depending on minimum cell voltage;
	200	+* Option 3: Cell voltage x Factor – the dependence of the correction factor on minimum cell voltage.
255	255
256		-The Main contactor algorithm supports the following modes:
	202	+[[image:1733746766514-686.png]]
257	257
258		-* Always on;
259		-* Automatic.
	204	+Value of the discharge current limit at given SOC, temperature, contactors temperature and minimum cell voltage is calculated as follows:
260	260
261		-In “Always on” mode main contactor closes if all the following is true:
	206	+Discharging current limit = Maximum discharging current × Kds × Kdc × Kdv
262	262
263		-* Other contactors are open;
264		-* There are no errors from the "Errors 1, 2 ..." bitfileds.
265	265
266		-In “Always on” mode main contactor opens if all the following is true:
267		-
268		-* Other contactors are open;
269		-* There is an error from the the "Errors 1, 2 ..." bitfileds.
270		-
271		-In “Automatic” mode, the main contactor closes by internal algorithms at the same time with other contactors.
272		-
273		-In “On demand” mode, the main contactor closes by external the “Close Main contactor” request.
274		-
275		-(% class="box infomessage" %)
276		-(((
277		-**Note: **when errors occur in the system, the **Main **contactor opens either immediately or with the delay T,,off,, (depends on the settings described below).
278		-)))
279		-
280		-To change the parameters of the main contactor, select the "Control → Main contactor" section:
281		-
282		-[[image:1740397558976-651.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="144" width="800"]]
283		-
284		-In this section:
285		-
286		-* Enable – a flag to enable the main contactor control;
287		-* Algorithm – main contactor control algorithm:
288		-** Always on – contactor is always closed;
289		-** Automatic – contactor closes by internal charge and discharge algorithms;
290		-** On demand – contactor is closed by an external request;
291		-* Time to keep the contactor closed before closing the others – a time for other contactors to be open after the main contactor is closed;
292		-* Delay before opening the contactor – a time which is used to detect conditions for opening the contactor, s;
293		-* Keep the contactor open until the device is restarted – a flag for keeping the main contactor open until the system is reset;
294		-* Errors 1, 2 to open the main contactor – bitfields to choose the errors which will open the main contactor.
295		-
296		-*
297		-
298	298	=== Charge ===
299	299
300	300	There are two contactors that serve charging the battery: a charging contactor and an allow charging contactor. With the help of the allow charging contactor, the BMS commands the charger to start or stop charging.
...	...	@@ -336,16 +336,13 @@
336	336	* If in the process of charging the voltage on the cell exceeds the “Ready to charge” level, the allow charging contactor opens (while the charging contactor remains closed);
337	337	* If errors in the list above occur the charging contactor and allow charging contactor open.
338	338
339		-(% class="box infomessage" %)
340		-(((
341		-Note: when errors occur in the system, the **charging **contactor opens either immediately or with the delay T,,off,, (depends on the settings described below).
342		-)))
	250	+Note – When errors occur in the system, the charging contactor opens either immediately or with the delay T,,off,, (depends on the settings described below).
343	343
344	344	When the power down request occurs, the allow charging contactor opens immediately and the charging contactor opens after the delay T,,off,,. Reclosing the charging contactor and allow charging contactor is performed if the power down request is removed.
345	345
346	346	To change the parameters of the battery charge control algorithm, select the "Control → Charge" section:
347	347
348		-[[image:1733746766516-845.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="319" width="800"]]
	256	+[[image:1733746766516-845.png]]
349	349
350	350	In this section:
351	351
...	...	@@ -366,10 +366,7 @@
366	366	* Voltage to reset the “Ready to charge” – a tolerant voltage level on the cell, V; if all cell voltages are below the tolerant level, the “Ready to charge” (hence, the “Allow charging”) signal is set;
367	367	* Delay before recharging – a time after which the previously opened the allow charging contactor closes again, minute; to disable the operation by timeout set "Delay before recharging" to 0.
368	368
369		-(% class="box infomessage" %)
370		-(((
371	371	Note – The allow charging contactor closes under two independent conditions: 1) the voltage on the cells reaches the “Voltage to reset the “Ready to charge"” level and 2) the "Delay before recharging" time has passed since the opening of the allow charging contactor.
372		-)))
373	373
374	374	=== Discharge ===
375	375
...	...	@@ -409,11 +409,9 @@
409	409	* if there is signal “Discharge request”, the charging contactor is opened and there are no errors (see the list above), then through the delay time T,,on,, the discharging contactor closes;
410	410	* If the signal “Discharge request” disappears or errors occur (see the list above), then after the delay time T,,off,, the discharging contactor opens.
411	411
412		-(% class="box infomessage" %)
413		-(((
414		-Note: in case of errors in the system operation, the opening of the **discharging **contactor is performed either immediately or with a delay T,,off,, (depends on the settings described below).
415		-)))
	317	+Note – In case of errors in the system operation, the opening of the discharging contactor is performed either immediately or with a delay T,,off,, (depends on the settings described below).
416	416
	319	+
417	417	The device supports controlling the precharging contactor. The duration of switching on the precharging contactor before closing the discharging (load) contactor is adjusted.
418	418
419	419	When the power down request occurs, the discharging contactor opens after delay T,,off,,. Reclosing the discharging contactor is performed if the power down request is removed.
...	...	@@ -420,8 +420,9 @@
420	420
421	421	To change the parameters of the battery discharge control algorithm, select the "Control → Discharge" section:
422	422
423		-[[image:1733746885414-479.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="319" width="800"]]
424	424
	327	+[[image:1733746885414-479.png]]
	328	+
425	425	In this section:
426	426
427	427	* Enable – a flag to activate the discharge control;
...	...	@@ -448,8 +448,11 @@
448	448
449	449	The charging/discharging contactor control is configured in the “Control – Charge/Discharge” section:
450	450
451		-[[image:1733746901779-991.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="95" width="800"]]In this section:
	355	+[[image:1733746901779-991.png]]
452	452
	357	+
	358	+In this section:
	359	+
453	453	* Enable – a flag to enable the charge/discharge controller.
454	454
455	455	=== Discharge (AUX) ===
...	...	@@ -466,8 +466,9 @@
466	466
467	467	To change the parameters of the powering of external equipment, select the "Control → Discharge (AUX)" section:
468	468
469		-[[image:1733746932199-845.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="137" width="800"]]
470	470
	377	+[[image:1733746932199-845.png]]
	378	+
471	471	In this section:
472	472
473	473	* Enable – a flag to activate the auxiliary discharge control;
...	...	@@ -477,10 +477,41 @@
477	477	* Switch off the discharging (AUX) contactor if the battery voltage is out of the range;
478	478	* Minimum voltage – minimum battery voltage, V;
479	479	* Maximum voltage – maximum battery voltage, V;
480		-* Switch off the discharging (AUX) contactor on errors – the auxiliary (AUX) discharging contactor opens if the following errors occur: Undervoltage, Overcurrent, High temperature (DCH), Short circuit, Critical error.
481	481
482		-=== ===
	389	+Switch off the discharging (AUX) contactor on errors – the auxiliary (AUX) discharging contactor opens if the following errors occur: Undervoltage, Overcurrent, High temperature (DCH), Short circuit, Critical error.
483	483
	391	+=== Main contactor ===
	392	+
	393	+The BMS Mini device controls the main contactor. The main contactor is usually placed in the common (minus) battery line for opening the charge and discharge circuits in a case of sealing of the charging or discharging contactors.
	394	+
	395	+The main contactor closes if there are no errors from the list below:
	396	+
	397	+* Overcurrent;
	398	+* Undervoltage;
	399	+* Overvoltage;
	400	+* High temperature (CH);
	401	+* High temperature (DCH);
	402	+* Unallowable charging;
	403	+* Critical error.
	404	+
	405	+The main contactor opens if the charging and discharging contactors are opened and any of the following conditions is met:
	406	+
	407	+* charging or discharging current is detected during a set time;
	408	+* voltage of any cell is lower than the minimum cell voltage configured in the section "Protections → Undervoltage" during a set time;
	409	+* voltage of any cell is greater than the maximum cell voltage configured in the section "Protections → Overvoltage" during a set time;
	410	+* temperature of any cell is greater than the maximum cell temperature configured in the section "Protections → High temperature" during a set time;
	411	+* Critical error stays on during a set time.
	412	+
	413	+To change the parameters of the main contactor, select the "Control → Main contactor" section:
	414	+
	415	+[[image:1733746797002-498.png]]
	416	+
	417	+In this section:
	418	+
	419	+* Enable – a flag to enable the main contactor control;
	420	+* Delay before opening the contactor – a time which is used to detect conditions for opening the contactor, second;
	421	+* Keep the contactor open until the device is restarted – a flag for keeping the main contactor opened until the system be reset.
	422	+
484	484	=== Cell balancing ===
485	485
486	486	Balancing makes the voltage of all cells be equal to the minimum cell voltage.
...	...	@@ -496,14 +496,11 @@
496	496	* the voltage on the cell is higher than the starting voltage of the balancing;
497	497	* the difference between the cell voltage and the minimum voltage among the cells of the battery is greater than the balancing deviation.
498	498
499		-(% class="box infomessage" %)
500		-(((
501	501	If the BMS Mini overheats, then the balancing of the cells connected to this device will not be performed.
502		-)))
503	503
504	504	To change the cell balancing parameters, select the "Control → Cell balancing" section:
505	505
506		-[[image:1733746797003-364.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="104" width="800"]]
	442	+[[image:1733746797003-364.png]]
507	507
508	508	In this section:
509	509
...	...	@@ -513,7 +513,7 @@
513	513	** Balance on charge or relaxed;
514	514	** Balance always;
515	515
516		-[[image:1733746797004-660.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="104" width="800"]]
	452	+[[image:1733746797004-660.png]]
517	517
518	518	* Minimum cell voltage to start balancing, V;
519	519	* Balancing deviation, V.
...	...	@@ -531,19 +531,20 @@
531	531
532	532	To change the parameters of the power down control, select the "Control → Power down" section:
533	533
534		-[[image:1733746797005-459.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="115" width="800"]]
	470	+[[image:1733746797005-459.png]]
535	535
536	536	In this section:
537	537
538	538	* Minimum voltage to power down – a minimum voltage level of the battery below which the BMS commands to shut down the battery, V;
539	539	* Idle time to power down – a time of battery inactivity after which the battery is shut down, minute;
540		-* Wait the "Power up/down request" is cleared (on startup) – a flag to enable delay for clearing the “Power up/down request” signal while starting the BMS.
541	541
	477	+Wait the "Power up/down request" is cleared (on startup) – a flag to enable delay for clearing the “Power up/down request” signal while starting the BMS.
	478	+
542	542	=== Heater ===
543	543
544	544	To change the parameters of the heater control algorithm, select the "Control → Heater" section:
545	545
546		-[[image:1733746808496-606.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="116" width="800"]]
	483	+[[image:1733746808496-606.png]]
547	547
548	548	In this section:
549	549
...	...	@@ -564,16 +564,14 @@
564	564
565	565	* the minimum temperature among all cells of the battery is greater than the “Tolerant cell temperature” value during the “Delay before stopping the heater” time.
566	566
567		-(% class="box infomessage" %)
568		-(((
569	569	If there is the "Heater" signal, the heater contactor closes and/or a signal is output to the corresponded digital output.
570		-)))
571	571
	506	+
572	572	=== Cooler ===
573	573
574	574	To change the parameters of the cooler control algorithm, select the "Control → Cooler" section:
575	575
576		-[[image:1733746808497-424.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="113" width="800"]]
	511	+[[image:1733746808497-424.png]]
577	577
578	578	In this section:
579	579
...	...	@@ -594,11 +594,9 @@
594	594
595	595	* the maximum temperature among all cells of the battery is less than the “Tolerant cell temperature” value during the “Delay before stopping the cooler” time.
596	596
597		-(% class="box infomessage" %)
598		-(((
599	599	If there is the "Cooler" signal, the cooler contactor closes and/or a signal is output to the corresponded digital output.
600		-)))
601	601
	534	+
602	602	=== Cell analysis ===
603	603
604	604	Discharge characteristics of the battery – the dependence Uocv = Uocv (DOD) – is used to determine the tabular dependence Uocv = Uocv (SOC, t °C), which is necessary for calculating the state of charge of the battery.
...	...	@@ -612,7 +612,7 @@
612	612
613	613	To configure parameters for determining the discharge characteristic of the battery, select the "Control → Cell analysis" section:
614	614
615		-[[image:1733746808498-116.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="103" width="800"]]
	548	+[[image:1733746808498-116.png]]
616	616
617	617	In this section:
618	618
...	...	@@ -657,4 +657,5 @@
657	657	* DOD – depth of discharge, Ah;
658	658	* Cell – position of the analyzed cell for which OCV and Resistance values are provided;
659	659	* OCV – cell voltage Uocv, V;
660		-* Resistance – cell resistance, Ohm.
	593	+
	594	+Resistance – cell resistance, Ohm.

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