Changes for page 3.3 Control

Summary

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Details

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1		-drafts.BMS Main 3.3\. Settings.WebHome
	1	+drafts.bms-main-3.3\. Settings.WebHome

Content

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2		-= Settings =
	1	+=== 3.3.1 Common settings ===
3	3
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5		-== Control ==
6		-
7		-=== Common settings ===
8		-
9	9	To change the common BMS settings, select the "Control → Common settings" section:
10	10
11	11	[[image:1733322611547-671.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="124" width="800"]]
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31	31
32	32	The “Reset parameters” command is used for starting-up and adjustment of the battery.
33	33
34		-=== SOC estimation ===
	28	+=== 3.3.2 SOC estimation ===
35	35
36	36	The BMS Main 3 device calculates the state of charge of the battery (SOC) using two algorithms:
37	37
...	...	@@ -81,7 +81,7 @@
81	81	* Coulomb counting correction (temperature) – the dependence of battery capacity on temperature;
82	82	* Coulomb counting correction (cycles) – the dependence of battery capacity on the number of charge-discharge cycles.
83	83
84		-=== SOC correction ===
	78	+=== 3.3.3 SOC correction ===
85	85
86	86	The BMS Main 3 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** **2.3.2).
87	87
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98	98	* Ignore the linear zone – a flag to ignore linear SOC zone while correction (recommended to be unset);
99	99	* Last correction timestamp – time when last correction was made.
100	100
101		-=== Resistance estimation ===
	95	+=== 3.3.4 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
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130	130
131	131	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 2.3.1). 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).
132	132
133		-=== Low SOC (signal) ===
	127	+=== 3.3.5 Low SOC (signal) ===
134	134
135	135	To change the parameters of the generation a signal about low battery level, select the "Control → Low SOC (signal)" section:
136	136
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155	155
156	156	The "Low SOC signal" is indicative and can be output to a discrete output or a power switch.
157	157
158		-=== High charging current (signal) ===
	152	+=== 3.3.6 High charging current (signal) ===
159	159
160	160	To change the parameters of the generation high-current signal, select the "Control → High charging current (signal)" section:
161	161
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180	180
181	181	The "High charging current" signal is indicative and can be output to a discrete output or a power switch.
182	182
183		-=== Charge map ===
	177	+=== 3.3.7 Charge map ===
184	184
185	185	The BMS Main 3 device calculates the maximum allowable charge current values in respect to SOC, battery temperature, contactor temperature and cell voltage.
186	186
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208	208
209	209	Charging current limit = Maximum charging current × Kcs × Kcc × Kcv × Kct
210	210
211		-=== Discharge map ===
	205	+=== 3.3.8 Discharge map ===
212	212
213	213	The BMS Main 3 device calculates the maximum allowable discharge current values in respect to SOC, battery temperature, contactor temperature and cell voltage.
214	214
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236	236
237	237	Discharging current limit = Maximum discharging current × Kds × Kdc × Kdv × Kdt
238	238
239		-=== Charge map (PEAK & CONTINUOUS) ===
	233	+=== 3.3.9 Charge map (PEAK & CONTINUOUS) ===
240	240
241	241	The BMS Main 3 has an alternative algorithm for the maximum allowed charging current based on peak and continuous battery operating modes.
242	242
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264	264	I,,continuous,, = Maximum CONTINUOUS charge current × K,,cc,,
265	265
266	266
267		-=== Discharge map (PEAK & CONTINUOUS) ===
	261	+=== 3.3.10 Discharge map (PEAK & CONTINUOUS) ===
268	268
269	269	The BMS Main 3 has an alternative algorithm for the maximum allowed discharging current based on peak and continuous battery operating modes.
270	270
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291	291
292	292	I,,continuous,, = Maximum CONTINUOUS discharge current × K,,dc,,
293	293
294		-=== Charge ===
	288	+=== 3.3.11 Charge ===
295	295
296	296	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.
297	297
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366	366
367	367	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.
368	368
369		-=== Discharge ===
	363	+=== 3.3.12 Discharge ===
370	370
371	371	The device controls the discharging contactor to connect battery to the load.
372	372
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440	440	* Voltage to clear the “Ready to discharge” – a threshold voltage level on the cell, V; if the voltage of any cell is below this level, the “Ready to discharge” signal is cleared;
441	441	* Voltage to reset the “Ready to discharge” – a tolerant voltage level on the cell, V; if all cells voltages are above the tolerant level, the “Ready to discharge” signal is set;
442	442
443		-=== Charge/Discharge ===
	437	+=== 3.3.13 Charge/Discharge ===
444	444
445	445	The BMS Main 3 device can control the charging/discharging contactor, which combines algorithms of charging and discharging contactor. It behaves as a charging contactor when “Charge request” or “Charger connected” is set, otherwise – as a discharging contactor.
446	446
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452	452
453	453	* Enable – a flag to enable the charge/discharge controller.
454	454
455		-=== Discharge (AUX) ===
	449	+=== 3.3.14 Discharge (AUX) ===
456	456
457	457	The BMS Main 3 device can control the power supply of external equipment using the auxiliary (AUX) discharging contactor. An example of external equipment can be an inverter that converts DC to AC to power a service laptop and other devices.
458	458
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479	479	* Maximum voltage – maximum battery voltage, V;
480	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		-=== Main contactor ===
	476	+=== 3.3.15 Main contactor ===
483	483
484	484	The BMS Main 3 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.
485	485
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534	534	* Delay before opening the contactor – a time which is used to detect conditions for opening the contactor, s;
535	535	* Keep the contactor open until the device is restarted – a flag for keeping the main contactor open until the system is reset.
536	536
537		-=== Cell balancing ===
	531	+=== 3.3.16 Cell balancing ===
538	538
539	539	Balancing makes the voltage of all cells equal to the minimum cell voltage.
540	540
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577	577	* Voltage deviation to stop balancing;
578	578	* Command to discharge all cells – a flag to force the balancing of all cells.
579	579
580		-=== Series balancing ===
	574	+=== 3.3.17 Series balancing ===
581	581
582	582	The BMS Main 3 device supports work with two independent (galvanically unrelated) cell series. To monitor the status of two series, two current sensors are used. A series of cells must be equivalent: they must have the same number of cells and the same capacity.
583	583
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604	604	* Period – a period to reset of charge counters for each series (to avoid accumulation of error), second;
605	605	* Do not sum series voltages – a flag to disable the summing of series voltages.3
606	606
607		-=== Power down ===
	601	+=== 3.3.18 Power down ===
608	608
609	609	The BMS Main 3 device can shut down itself if the battery voltage is low or the battery is idle for a long time.
610	610
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627	627	* Power down if KEYRUN and CHARGE_ON are cleared – a flag to power down the device if KEYRUN and CHARGE_ON signals are cleared;
628	628	* 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, ms.
629	629
630		-=== Heater ===
	624	+=== 3.3.19 Heater ===
631	631
632	632	To change the parameters of the heater control algorithm, select the "Control → Heater" section:
633	633
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654	654
655	655	If there is the "Heater" signal, the heater contactor closes and/or a signal is output to the corresponding digital output.
656	656
657		-=== Cooler ===
	651	+=== 3.3.20 Cooler ===
658	658
659	659	To change the parameters of the cooler control algorithm, select the "Control → Cooler" section:
660	660
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681	681
682	682	If there is the "Cooler" signal, the cooler contactor closes and/or a signal is output to the corresponding digital output.
683	683
684		-=== High voltage ===
685	685
	679	+1.
	680	+11.
	681	+111. High voltage
	682	+
686	686	The BMS Main 3 device has an ability to measure high voltages before and after contactors.
687	687
688	688	To change the parameters of high voltage fault, select the "Control → High voltage" section:
689	689
690		-[[image:1733322914683-203.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="87" width="800"]]
	687	+[[image:1733322914683-203.png]]
691	691
692	692	In this section:
693	693
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699	699
700	700	**If there is the “High voltage fault”, the “Critical error” is generated and all contactors open.**
701	701
702		-=== Cell analysis ===
703	703
	700	+1.
	701	+11.
	702	+111. Cell analysis
	703	+
704	704	The battery discharge characteristic – the dependence Uocv = Uocv(DOD) – is used to determine the tabular dependence Uocv = Uocv(SOC, t°C), which is necessary for calculating the battery charge level.
705	705
706	706	The BMS Main 3 device can automatically determine the battery discharge characteristic.
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712	712
713	713	To configure parameters for determining the discharge characteristic of the battery, select the "Control → Cell analysis" section:
714	714
715		-[[image:1733322914685-558.png||data-xwiki-image-style-alignment="center" data-xwiki-image-style-border="true" height="107" width="800"]]
	715	+[[image:1733322914685-558.png]]
716	716
717	717	In this section:
718	718