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Wiki source code of 3.3 Control

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1 (% data-numbered-headings-start="3" style="--numbered-headings-start: 2;font-size: 0px;color: rgba(0, 0, 0, 0.0);margin-bottom: 0px; margin-top: 0px;" %)
2 = Settings =
3
4 (% data-numbered-headings-start="3" style="--numbered-headings-start: 2;font-size: 0px;color: rgba(0, 0, 0, 0.0);margin-bottom: 0px; margin-top: 0px;" %)
5 == Control ==
6
7 === General parameters ===
8
9 General parameters of BMS Main 3X are configured in the «Control → General» section:
10
11 [[image:1734023979572-693.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="79" width="600"]]
12
13 * Initialization delay – a delay before processing functions after finishing device initialization (initialization includes current sensors calibration and battery modules search), millisecond.
14
15 === Battery modules ===
16
17 The BMS Main 3X allows up to 32 battery modules with BMS Main 3 onboard to be connected in parallel.
18
19 Flags for enabling battery modules are configured in the "Control → Modules → Enable (modules 1 to 8)" and "Control → Modules → Enable (modules 9 to 32)" section:
20
21 [[image:1734023979582-179.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="165" width="600"]]
22
23 The network addresses of the battery modules are configured in the "Control → Modules → Node IDs (modules 1 to 8)” and "Control → Modules → Node IDs (modules 9 to 32)”:
24
25 [[image:1734023979583-589.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="186" width="600"]]
26
27 Each module in a battery must have a unique address. You can change the address in the battery module settings in the “Connectivity → CAN” section of the BMS Main 3 settings.
28
29 In corresponding section you can set up maximum number of found modules to finish initialization.
30
31 === Calculation of battery parameters ===
32
33 The BMS Main 3X device calculates battery parameters based on user settings.
34
35 Calculation of the battery state of charge (SOC) is configured in the "Control → Calculation → Final SOC" section:
36
37 [[image:1734023979584-480.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="80" width="600"]]
38
39 The following battery SOC calculation methods are supported:
40
41 * Minimal SOC – SOC of the modular battery is assumed to be the minimum SOC among the battery modules;
42 * Average SOC – SOC of the modular battery is taken equal to the arithmetic average of the SOC of the battery modules;
43 * Min-Max SOC – the battery SOC is calculated based on the minimum and maximum SOC of the modules. Final SOC will be a) 100% if any module has 100% SOC, b) 0% if any module has 0% SOC;
44 * Max-Min SOC – the battery SOC is calculated based on the minimum and maximum SOC of the modules. Final SOC will be a) 100% if all modules have 100% SOC, b) 0% if all modules have 0% SOC;
45
46 Calculation of the battery state of health (SOH) is configured in the "Control → Calculation → Final SOH" section. The following battery SOH calculation methods are supported:
47
48 * Minimal SOH – SOH of the modular battery is assumed to be the minimum SOH among the battery modules;
49 * Average SOH – SOH of the modular battery is taken equal to the arithmetic average of the SOH of the battery modules.
50
51 === Main contactor ===
52
53 The BMS Main 3X 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 case of sealing of the charging or discharging contactors.
54
55 The Main contactor algorithm supports the following modes:
56
57 * Always on;
58 * Automatic, when the main contactor closes by the internal charging and discharging algorithms at the same time with Precharging, Charging, Discharging and Charging/Discharging contactors.
59
60 In “Always on” mode, the main contactor closes if all the following is true:
61
62 * “Charging” contactor is open;
63 * “Discharging” contactor is open;
64 * there are no errors.
65
66 In “Always on” mode, the main contactor opens if “Charging” and “Discharging” contactors are open and any of the following is true:
67
68 * “Charging current present” is set;
69 * “Discharging current present” is set;
70 * one or more errors persist.
71
72 To change the parameters of the main contactor, select the "Control → Main contactor" section:
73
74 [[image:1734024131196-608.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="94" width="600"]]
75
76 In this section:
77
78 * Enable – a flag to enable the main contactor control;
79 * Algorithm – main contactor control algorithm:
80 ** Always on – contactor is always closed;
81 ** Automatic – contactor closes by internal charge and discharge algorithms;
82 * Time to keep the contactor closed before closing the others – a time for other contactors to be open after the main contactor is closed, millisecond;
83 * Delay before opening the contactor – a time which is used to detect conditions for opening the contactor, millisecond;
84 * Keep the contactor open until the device is restarted – a flag for keeping the main contactor open until the system is reset;
85 * Errors 1 (2) to open the main contactor – error flags that cause the contactor to open.
86
87 === Charging status ===
88
89 To change the parameters for generating status signals when charging the battery, select the section “Control → Charging status”:
90
91 [[image:1734089608849-849.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="77" width="600"]]
92
93 In this section:
94
95 * Current corresponding to charging – a current level to set the "Charging current present" signal, A;
96 * Current corresponding to no charging – a current level to clear the "Charging current present" signal, A.
97
98 === Discharging status ===
99
100 To change the parameters for generating status signals when discharging the battery, select the section “Control → Discharging status”:
101
102 [[image:1734089656854-598.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="79" width="600"]]
103
104 In this section:
105
106 * Current corresponding to discharging – a current level to set the "Discharging current present" signal, A;
107 * Current corresponding to no discharging – a current level to clear the "Discharging current present" signal, A.
108
109 === Precharge ===
110
111 To change the precharge parameters, select the section “Control → Precharge”:
112
113 In this section:
114
115 [[image:1739290619354-792.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="117" width="600"]]
116
117 * Precharge current threshold to close the discharging contactor – a current value to ensure that precharge process has finished and it is allowed to close the discharging contactor, A;
118 * Check voltages before and after contactors to finish precharging – a flag to check the voltages before and after contactors to ensure that precharge process has finished and it is allowed to close the discharging contactor;
119 * Minimum voltage difference before and after contactors to finish precharging – a minimum voltage difference before and after contactors to ensure precharge process finished, V;
120 * Number of precharging attempts – maximum number of precharging attempts before setting the "Precharge error";
121 * Precharge time – a duration of closing the precharge contactor before closing the discharging contactor, millisecond;
122 * Relaxation between attempts – a duration between precharge attempts, millisecond;
123 * Check the power dissipated in the preacharge resistor - a flag to enable the calculation of power dissipated in precharge resistor;
124 * Precharge resistor resistance, Ohm;
125 * Maximum allowable power dissipated in the resistor, W;
126 * Delay before setting the "Precharge error" when checking power, millisecond;
127 * Delay before clearing the "Precharge error", second;
128 * Lock – a flag to block the error until the device is restarted.
129
130 “Precharge error” generation conditions if any of the following is true:
131
132 * the precharge current does not decrease during the "Precharge time" after "Number of precharging attempts";
133 * voltages before and after contactors are not equal during the "Precharge time" after "Number of precharging attempts";
134 * power dissipated on the precharge resistor is above the maximum value during the “Delay before setting the 'Precharge error' when checking power” time.
135
136 (% class="box warningmessage" %)
137 (((
138 Behavior of contactors at “Precharge error” is configured in corresponding contactor settings!
139 )))
140
141 === Charge ===
142
143 The BMS Main 3X device manages the parallel connection of the battery modules and the connection of the battery to the charging circuit.
144
145 The device supports the following charging modes:
146
147 1. Charging is always allowed (Always on) – the device ignores voltage and current unbalance of the battery modules and commands to close the charging contactors of the battery modules and the main charging contactor “Charging”.
148 1. Charging is allowed if all battery modules are balanced (Balanced).
149 1. Charging is allowed for most balanced battery modules (Partially balanced). Unbalanced modules are disconnected from the common bus and do not participate in the charging.
150
151 The device controls two processes: **joining battery modules **and **closing the main charging contactor “Charging”**.
152
153
154 The operation of the **joining battery modules** is described by the following steps:
155
156 1. Battery modules are disabled. When the “Join to charge” request is received and the voltage and current unbalance errors (Voltage unbalance (CH), Current unbalance (CH), Charging current unbalance) are cleared, go to step 2.
157 1. Checking the voltage unbalance of battery modules (the duration of the check is set in the settings). If there is no imbalance or errors are ignored (“Always on” and “Partially balanced”), go to step 3, otherwise open all charging contactors, and go to step 1.
158 1. Closing the precharging contactors of the battery modules (optional). Go to step 4.
159 1. Closing the charging contactors of the battery modules. The battery modules are self-balancing. Go to step 5.
160 1. Checking intermodular balancing currents (the duration of the check is set in the settings). If there is no current unbalance (“Current unbalance (CH)”) or errors are ignored (“Always on”), go to step 6, otherwise open all charging contactors, and go to step 1.
161 1. The battery modules are joined. If the “Join to charge” request is cleared or the "Charging current unbalance" error occurs, go to step 1.
162
163 The operation of** closing main charging contactor** is described in the following steps:
164
165 1. The main charging contactor “Charging” is open. When the “Charge request” is received, the voltage and current unbalance errors (“Voltage unbalance (CH)”, “Current unbalance (CH)”, “Charging current unbalance”) are cleared, and the battery modules are joined, go to step 2.
166 1. Closing the main precharging contactor “Precharging” (optional). Go to step 3.
167 1. Closing the main charging contactor "Charging". Go to step 4.
168 1. The main charging contactor “Charging” is closed. If the "Charge request" is cleared, the battery modules are disconnected, or errors occur, go to step 1.
169
170 The command to turn on the main charging contactor "Charging" can be issued either to the upper-level system via the CAN1 (ext) bus, or to the intelligent switch of the device, which serves for direct control of the main charging contactor "Charging".
171
172
173 In addition to controlling the charging contactors, the charge controller calculates and transmits to the upper-level system the value of the maximum allowable current, which can be used to charge the modular battery (“Charge current limit”). The calculation of the charging current of the entire battery is performed based on the number of battery modules operating per charge and the values of the current limits transmitted by them.
174
175
176 The battery charge management is configured in the "Control → Charge" section:
177
178 [[image:1738081025199-282.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="162" width="600"]]
179
180 In this section:
181
182 * Enable – a flag to enable battery charge controller;
183 * Algorithm:
184 ** Always on – charging is always allowed;
185 ** Balanced – charging is allowed provided that all battery modules are balanced;
186 ** Partially balanced – charging is allowed for most balanced battery modules;
187 * Minimum number of modules allowed to join – a minimum number of battery modules that can be connected in parallel;
188 * Allowable battery current to rejoin modules – a battery current at which joining of battery modules is permitted, A;
189 * Allowable voltage difference to rejoin modules – a difference between the voltage of the disconnected module and the battery voltage at which its joining is permitted, V;
190 * Checking voltages time – a time of checking voltages of battery modules before starting joining modules, millisecond;
191 * Balancing modules time – a time of balancing battery modules after joining modules and before closing main charging contactor, millisecond;
192 * Control the precharging contactor – a flag to control the main precharging contactor;
193 * Canceling charging time – a delay before opening the main charging contactor, ms;
194 * Disconnect modules that are not ready to charge – a flag for disconnecting modules that have the “Ready to charge” signal cleared.
195 * Disconnect all modules if one is not ready to charge – a flag for disconnecting all modules if any of the modules have the “Ready to charge” signal cleared;
196 * Join modules on the “Charge request” signal – a flag to enable automatic modules joining if “Charge request” signal appears;
197 * Maximum CONTINUOUS charge current limit – a maximum continuous allowed charging current of all battery, A;
198 * Maximum charge current limit – a maximum allowed charging current of all battery, A;
199 * Errors 1 (2) to disconnect all battery modules – errors that cause all battery modules to be disconnected from the common bus;
200 * Errors 1 (2) to open the charging contactor – errors that cause the main charging contactor "Charging" to open;
201 * Switch of the charging contactor on errors without a delay – a flag that allows the main charging contactor “Charging” to be opened without delay if errors are detected.
202
203 === Discharge ===
204
205 The BMS Main 3X device manages the parallel connection of the battery modules and the connection of the battery to the discharging circuit.
206
207 The device supports the following discharging modes:
208
209 1. Discharging is always allowed (Always on) – the device ignores voltage and current unbalance of the battery modules and commands to close the discharging contactors of the battery modules and the main discharging contactor.
210 1. Discharging is allowed if all battery modules are balanced (Balanced).
211 1. Discharging is allowed for most balanced battery modules (Partially balanced). Unbalanced modules are disconnected from the common bus and do not participate in the discharging.
212
213 The device controls two processes: **joining battery modules** and **closing the main discharging contactor** “Discharging”.
214
215
216 The operation of the **joining battery modules** is described by the following steps:
217
218 1. Battery modules are disabled. When the “Join to discharge” request is received and the voltage and current unbalance errors (Voltage unbalance (DCH), Current unbalance (DCH), Discharging current unbalance) are cleared, go to step 2.
219 1. Checking the voltage unbalance of battery modules (the duration of the check is set in the settings). If there is no imbalance or errors are ignored (“Always on” and “Partially balanced”), go to step 3, otherwise open all discharging contactors, and go to step 1.
220 1. Closing the precharging contactors of the battery modules (optional). Go to step 4.
221 1. Closing the discharging contactors of the battery modules. The battery modules are self-balancing. Go to step 5.
222 1. Checking intermodular balancing currents (the duration of the check is set in the settings). If there is no current unbalance (“Current unbalance (DCH)”) or errors are ignored (“Always on”), go to step 6, otherwise open all discharging contactors, and go to step 1.
223 1. The battery modules are joined. If the “Join to discharge” request is cleared or "Discharging current unbalance" error occurs, go to step 1.
224
225 The operation of **closing main discharging contactor** is described in the following steps:
226
227 1. The main discharging contactor “Discharging” is open. When the “Discharge request” is received, the voltage and current unbalance errors (“Voltage unbalance (DCH)”, “Current unbalance (DCH)”, “Discharging current unbalance”) are cleared, and the battery modules are joined, go to step 2.
228 1. Closing the main precharging contactor (optional). Go to step 3.
229 1. Closing the main discharging contactor "Discharging". Go to step 4.
230 1. The main discharging contactor “Discharging” is closed. If the "Discharge request" is cleared, the battery modules are disconnected, or errors occur, go to step 1.
231
232 The command to turn on the main charging contactor "Discharging" can be issued either to the upper-level system via the CAN1 (ext) bus, or to the intelligent switch of the device, which serves for direct control of the main discharging contactor "Discharging".
233
234
235 In addition to controlling the discharge contactors, the discharge controller calculates and transmits to the upper-level system the maximum allowable current value with which the modular battery can be discharged ("Discharge current limit"), as well as the maximum regeneration current value with which the modular battery can be charged during operation under load ("Regeneration current limit"). The calculation of the discharge current and regeneration current of the entire battery is performed based on the number of battery modules operating for discharge and the maximum discharge and charge current values ​​transmitted by them.
236
237
238 The battery discharge management is configured in the "Control → Discharge" section:
239
240 [[image:1738081173083-894.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="162" width="600"]]
241
242 In this section:
243
244 * Enable – a flag to enable battery discharge controller;
245 * Algorithm:
246 ** Always on – discharging is always allowed;
247 ** Balanced – discharging is allowed provided that all battery modules are balanced;
248 ** Partially balanced – discharging is allowed for most balanced battery modules;
249 * Minimum number of modules allowed to join – a minimum number of battery modules that can be connected in parallel;
250 * Allowable battery current to rejoin modules – a battery current at which joining of battery modules is permitted, A;
251 * Allowable voltage difference to rejoin modules – a difference between the voltage of the disconnected module and the battery voltage at which its joining is permitted, V;
252 * Checking voltages time – a time of checking voltages of battery modules before starting joining modules, millisecond;
253 * Balancing modules time – a time of balancing battery modules after joining modules and before closing main discharging contactor, millisecond;
254 * Control the precharging contactor – a flag to control the main precharging contactor;
255 * Canceling discharging time – a delay before opening the main discharging contactor, millisecond;
256 * Disconnect modules that are not ready to discharge – a flag for disconnecting modules that have the “Ready to discharge” signal cleared.
257 * Disconnect all modules if one is not ready to discharge – a flag for disconnecting all modules if one of the modules have the “Ready to discharge” signal cleared;
258 * Join modules on the “Discharge request” signal – a flag to enable automatic modules joining if “Discharge request” signal appears;
259 * Maximum CONTINUOUS discharge current limit – a maximum allowed continuous discharging current of all the battery, A;
260 * Maximum discharge current limit – a maximum allowed discharging current of all the battery, A;
261 * Errors 1 (2) to disconnect all battery modules – errors that cause all battery modules to be disconnected from the common bus;
262 * Errors 1 (2) to open the discharging contactor – errors that cause the main discharging contactor "Discharging" to open,
263 * Switch of the discharging contactor on errors without a delay – a flag that allows the main discharging contactor “Discharging” to be opened without delay if errors are detected.
264
265 === Charge/Discharge ===
266
267 The BMS Main 3X can control the charging/discharging contactor that is used to both charge and discharge the battery.
268
269 Charge/Discharge contactor has two algorithms of operation:
270
271 * Dependent - Charge/Discharge contactor depends on Charge and Discharge algorithms and their signals and behaves as Charging contactor if "Charging" signal is set, otherwise – as Discharging contactor;
272 * Independent - Charge/Discharge contactor is based on its own controller.
273
274
275 The device supports the following charging/discharging modes:
276
277 1. Charging/Discharging is always allowed (Always on) – the device ignores voltage and current unbalance of the battery modules and commands to close the discharging contactors of the battery modules and the main discharging contactor.
278 1. Charging/Discharging is allowed if all battery modules are balanced (Balanced).
279 1. Charging/Discharging is allowed for most balanced battery modules (Partially balanced). Unbalanced modules are disconnected from the common bus and do not participate in the discharging.
280
281 The device controls two processes: **joining battery modules** and **closing the main charging/discharging contactor**.
282
283 The operation of the **joining battery modules** depends on the signal received:
284
285 * If "Join to charge" is received, joining procedure is
286
287 The operation of **closing main charging/discharging contactor **depends on the signal received:
288
289 If "Charge request" is received, joining procedure is
290
291 1. The main discharging contactor “Discharging” is open. When the “Discharge request” is received, the voltage and current unbalance errors (“Voltage unbalance (DCH)”, “Current unbalance (DCH)”, “Discharging current unbalance”) are cleared, and the battery modules are joined, go to step 2.
292 1. Closing the main precharging contactor (optional). Go to step 3.
293 1. Closing the main discharging contactor "Discharging". Go to step 4.
294 1. The main discharging contactor “Discharging” is closed. If the "Discharge request" is cleared, the battery modules are disconnected, or errors occur, go to step 1.
295
296 The command to turn on the main charging contactor "Discharging" can be issued either to the upper-level system via the CAN1 (ext) bus, or to the intelligent switch of the device, which serves for direct control of the main discharging contactor "Discharging".
297
298
299 In addition to controlling the discharge contactors, the discharge controller calculates and transmits to the upper-level system the maximum allowable current value with which the modular battery can be discharged ("Discharge current limit"), as well as the maximum regeneration current value with which the modular battery can be charged during operation under load ("Regeneration current limit"). The calculation of the discharge current and regeneration current of the entire battery is performed based on the number of battery modules operating for discharge and the maximum discharge and charge current values ​​transmitted by them.
300
301
302 The charge/discharge contactor control is configured in the “Control → Charge/Discharge” section:
303
304 [[image:1734089702994-738.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="92" width="600"]]
305
306 In this section:
307
308 * Enable – a flag to enable the charge/discharge controller.
309
310 === Module balancing ===
311
312 The BMS Main 3X device supports active balancing of battery modules both in the process of charging and in the process of discharging the battery.
313
314 When the battery is charging, balancing is performed by disconnecting the most charged battery modules from the common bus. Before disconnecting the modules, the BMS Main 3X sends a request to the upper-level system (charger) to reduce the charge current to zero, and after the current becomes zero, disconnects the most charged battery modules.
315
316 When the battery is discharging, balancing is performed by disconnecting the most discharged battery modules from the common bus. Battery modules are disconnected only if the battery discharge current has dropped to the threshold value set in the device settings.
317
318 Module balancing is configured in the “Control → Module balancing” section:
319
320 [[image:1734089714536-690.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="102" width="600"]]
321
322 In this section:
323
324 * Balance on charging – a flag to enable module balancing when the battery is charging;
325 * Delta voltage – a voltage difference at which the most charged modules are switched off (those modules whose voltage exceeds the minimum voltage among the modules by the “Delta voltage” value are switched off), V;
326 * Delta current – a current difference at which the most charged modules are switched off (those modules are switched off, the charge current of which is less than the maximum charge current among the modules by the “Delta current” value), A;
327 * Waiting time – a time the battery modules are in the disconnected state (after this time, the modules previously disconnected during the balancing process are reconnected to the common bus), second;
328 * Balance on discharging – a flag to enable module balancing when the battery is discharging (if flag is enabled operation logic and settings are equal to balancing on charging);
329 * Required discharging current – a value of the discharge current at which the device switches off the most discharged battery modules, A.
330
331 === Power down ===
332
333 The BMS Main 3X device can shut down itself if KEYRUN and CHARGE_ON signals are cleared, and if the “Power down request” signal appears.
334
335 To change the parameters of the power down control, select the "Control → Power down" section:
336
337 [[image:1734089714537-964.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="57" width="600"]]
338
339 In this section:
340
341 * Power down if KEYRUN and CHARGE_ON are cleared – a flag to power down the device if KEYRUN and CHARGE_ON signals are cleared;
342 * Delay before setting the internal power down signal – a delay before turning off the device power when removing KEYRUN and CHARGE_ON or receiving the “Power down request” command, millisecond.
343
344 While receiving the “Power down request” signal, BMS Main 3X sends that signal to all connected battery modules with BMS Main 3 onboard.
345
346 === Heater ===
347
348 To change the parameters of the heater control algorithm, select the "Control → Heater" section:
349
350 [[image:1734089714538-716.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="102" width="600"]]
351
352 In this section:
353
354 * Enable – a flag to enable the heater control;
355 * Charge: Minimum module temperature, °C;
356 * Charge: Tolerant module temperature, °C;
357 * Discharge: Minimum module, °C;
358 * Discharge: Tolerant module temperature, °C;
359 * Delay before starting the heater, millisecond;
360 * Delay before stopping the heater, millisecond;
361 * Errors 1 (2) to turn off the heater – errors that cause the heater to shut down.
362
363 Conditions for signal generation:
364
365 * the minimum temperature among all cells of the battery is less than the “Charge (Discharge): Minimum cell temperature” value during the “Delay before starting the heater” time.
366
367 Conditions for clearing the signal:
368
369 * the minimum temperature among all cells of the battery is greater than the “Charge (Discharge): Tolerant cell temperature” value during the “Delay before stopping the heater” time.
370
371 === Cooler ===
372
373 To change the parameters of the cooler control algorithm, select the "Control → Cooler" section:
374
375 [[image:1734089726356-617.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="102" width="600"]]
376
377 In this section:
378
379 * Enable – a flag to enable the cooler control;
380 * Charge: Maximum module temperature, °C;
381 * Charge: Tolerant module temperature, °C;
382 * Discharge: Maximum module temperature, °C;
383 * Discharge: Tolerant module temperature, °C;
384 * Delay before starting the cooler, millisecond;
385 * Delay before stopping the cooler, millisecond;
386 * Errors 1 (2) to turn off the cooler – errors that cause the cooler to shut down.
387
388 Conditions for signal generation:
389
390 * the maximum temperature among all cells of the battery is greater than the “Charge (Discharge): Maximum cell temperature” value during the “Delay before starting the cooler” time.
391
392 Conditions for clearing the signal:
393
394 * the maximum temperature among all cells of the battery is less than the “Charge (Discharge): Tolerant cell temperature” value during the “Delay before stopping the cooler” time.
395
396 === Coolant pump ===
397
398 To change the parameters of the coolant pump control algorithm, select the "Control → Coolant pump" section:
399
400 [[image:1734089726358-589.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="103" width="600"]]
401
402 In this section:
403
404 * Enable – a flag to enable the coolant pump control;
405 * Charge: Maximum cell temperature difference, °C;
406 * Charge: Tolerant cell temperature difference, °C;
407 * Discharge: Maximum cell temperature difference, °C;
408 * Discharge: Tolerant cell temperature difference, °C;
409 * Delay before starting the coolant pump, millisecond;
410 * Delay before stopping the coolant pump, millisecond;
411 * Errors 1 (2) to turn off the coolant pump – errors that cause the coolant pump to shut down.
412
413 Conditions for signal generation:
414
415 * the maximum temperature difference among all cells of the battery is greater than the “Charge (Discharge): Maximum cell temperature difference” value during the “Delay before starting the coolant pump” time.
416
417 Conditions for clearing the signal:
418
419 * the maximum temperature difference among all cells of the battery is less than the “Charge (Discharge): Tolerant cell temperature difference” value during the “Delay before stopping the coolant pump” time.
420
421 === High voltage ===
422
423 The BMS Main 3X device has an ability to measure high voltages before and after contactors.
424
425 To change the parameters of high voltage fault, select the "Control → High voltage" section:
426
427 [[image:1734089726359-199.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="68" width="600"]]
428
429 In this section:
430
431 * Enable – a flag to enable High voltage control;
432 * Delay before clearing the High voltage fault, second;
433 * Lock the High voltage fault.
434
435 === Load open counter ===
436
437 The BMS Main 3X device counts the number of times the main charge/discharge contactor "Charging/Discharging" opens when high current flows.
438
439 To configure the parameters for counting the number of contactor openings, select the section “Control → Load open counter”:
440
441 [[image:1734089726360-887.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="83" width="600"]]
442
443 In this section:
444
445 * Enable – a flag for enabling the contactor opening count;
446 * Threshold – a current threshold, upon exceeding which the contactor opening counter is incremented, A.