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Battery Pack Information Lookup

Get Data of Your Gobel Power Battery
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GP-SR1-PC200 Premium Example: GPEV280H240520R1006
GP-SR1-PC200 Standard Example: GPHC280H240401R1003
GP-SR1-PC200 Standard Example: GPEV280H240927R1001
GP-SR1-PC200 Basic Example: GPCN280L240809R1001
GP-SR1-PC314 Premium Example: GPEV314H240921R1012
GP-SR3-PC100 Example: GPEV100H240930R1003
GP-LA12-280AH Premium Example: GDEV280H240307R1008
GP-LA12-280AH Standard Example: GDHC280H240312R1401
More Examples
SN Capacity (Ah) Max Charge Voltage (V) Min Discharge Voltage (V) BMS
GPEV314H240921R1003 324.00 57.03 42.43 GP-PC200 BMS
GPRP280L231012R1308 289.00 57.62 40.04 GP-PC200 BMS
GPEV280H240918R1007 306.00 57.60 42.05 GP-PC200 BMS
GPEV280H240831R1008 307.00 57.99 42.31 GP-RN200 BMS
GPEV314H241010R1001 322.00 57.49 42.44 GP-PC200 BMS
GPEV280H231030R1019 298.00 57.71 41.75 GP-PC200 BMS
GPEV100H241106R1001 103.00 57.38 43.54 GP-PC100 BMS
GPEV314H241031R1009 326.00 57.61 42.13 GP-PC200 BMS
GPHC280H240705R1006 293.00 57.18 40.95 GP-PC200 BMS
GPEV280H230911R1005 299.00 56.79 41.72 GP-PC200 BMS
GPEV280H240926R1007 307.00 57.64 41.63 GP-PC200 BMS
GPEV280H240515R1004 302.00 58.00 41.76 GP-PC200 BMS
GPHC280H240926R1301 292.00 57.98 42.90 GP-RN200 BMS
GPEV280H240905R1022 308.00 57.99 42.51 GP-RN200 BMS
GPEV280H240105R1012 297.00 58.00 43.50 GP-PC200 BMS
GPEV314H241015R1009 325.00 57.66 42.45 GP-PC200 BMS
GPHC280H240422R1001 295.00 57.38 41.79 GP-JK200 BMS
GPEV314H240829R1001 323.00 58.00 42.48 GP-JK200 BMS
GPEV314H240921R1001 323.00 57.59 42.16 GP-PC200 BMS
GPEV280H240515R1012 303.00 57.99 42.22 GP-PC200 BMS
Specification of The Battery

Pack SN:GPHC280H240822R2902
Pack Type: 51.2V LiFePO4 Battery
Pack Grade: Standard
BMS Type: JK200 BMS
Balancer: 4A Bluetooth Active Balancer + Built-in BMS 2A
Heater: With Heater
Cell Type: Hithium 280
Cell Grade: HSEV
Cells Connection: 16S1P
Pack Test Result

Full Capacity: 294.00 Ah (15.05 kWh)
Max Charge Voltage: 57.09 V
Min Discharge Voltage: 42.18 V
Charge Test Steps
  • Charging at a constant current of 100A, with a maximum charging voltage of 55.5V.
  • Charging at a constant voltage of 55.5V, with a cutoff current of 40A.
  • Charging at a constant current of 40A, with a maximum charging voltage of 58V.
  • Document the maximum charging voltage when the voltage of a single cell reaches 3.65V.
  • * Tested without deliberated active balance procedure.
Discharge Test Steps
  • Discharging at a constant current of 100A.
  • Document the minimum discharging voltage when the voltage of a single cell reaches 2.5V.
  • * Please be aware that the charge/discharge curve and capacity of batteries can vary with changing temperatures throughout the seasons. In winter, tested capacity will be relatively lower.
Charge/Discharge Curve
(Based on GPHC280H240822R2902 Test Data)

Cells Information

Cell Id QR Capacity (Ah) OCV1 (mV) RI1 (mΩ) Self Discharge Thick (mm) Test Date
1 142 0IJCBA0B161111DBW0023027 295.71 3,284.1 0.1781 0.0212 71.49 2023-11-30
2 147 0IJCBA0B161111DBW0022275 295.72 3,284.0 0.1764 0.0213 71.55 2023-11-30
3 148 0IJCBA0B161111DBW0023561 295.90 3,284.1 0.1783 0.0209 71.55 2023-12-01
4 160 0IJCBA0B161111DBW0024425 295.74 3,284.3 0.1817 0.0214 71.57 2023-12-01
5 170 0IJCBA0B161111DBW0024423 296.73 3,284.2 0.1781 0.0226 71.55 2023-12-01
6 186 0IJCBA0B161111DBW0023926 295.92 3,282.8 0.1753 0.0222 71.64 2023-11-30
7 188 0IJCBA0B161111DBW0025453 295.96 3,283.5 0.1775 0.0211 71.53 2023-12-01
8 196 0IJCBA0B161111DBW0023901 296.70 3,282.9 0.1757 0.0226 71.56 2023-11-30
9 198 0IJCBA0B161111DBW0024429 295.77 3,284.4 0.1810 0.0206 71.57 2023-12-01
10 200 0IJCBA0B161111DBW0023897 296.24 3,282.8 0.1772 0.0223 71.58 2023-11-30
11 217 0IJCBA0B161111DBW0023943 296.25 3,283.6 0.1753 0.0220 71.56 2023-11-30
12 219 0IJCBA0B161111DBW0022375 295.93 3,284.0 0.1758 0.0212 71.52 2023-11-30
13 228 0IJCBA0B161111DBX0002556 295.79 3,283.8 0.1748 0.0208 71.57 2023-12-02
14 277 0IJCBA0B161111DBW0023675 295.74 3,283.6 0.1753 0.0208 71.63 2023-11-30
15 301 0IJCBA0B161111DBW0023459 295.91 3,283.5 0.1761 0.0214 71.54 2023-11-30
16 303 0IJCBA0B161111DBW0023461 296.84 3,283.6 0.1745 0.0228 71.53 2023-11-30
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Why Cells Consistency is Important?

Cell consistency in a LiFePO4 (Lithium Iron Phosphate) battery, or indeed any type of battery, refers to the uniformity of the performance and characteristics of the individual cells within the battery.

When a battery is made up of multiple cells, it's important that each cell has the same capacity, internal resistance, self-discharge rate, and other performance characteristics. This is because the overall performance of the battery is only as good as its weakest cell. If one cell has a lower capacity or higher internal resistance, it can reduce the performance of the entire battery, and can even lead to premature failure of the battery.

In a series configuration, the same current flows through all cells. If one cell has a lower capacity, it will discharge faster than the others. Once this cell is fully discharged, the overall battery voltage will drop significantly, even though the other cells still have charge left. This can lead to underutilization of the overall battery capacity.

In a parallel configuration, all cells share the same voltage. If one cell has a higher self-discharge rate, it will drain the other cells to balance its voltage, leading to a faster overall discharge rate.

Moreover, inconsistencies between cells can lead to issues with balancing. Balancing is the process of ensuring all cells in a battery are at the same state of charge. This is typically done by either transferring charge from higher charged cells to lower charged ones (active balancing), or by dissipating excess charge in the higher charged cells (passive balancing). If the cells are inconsistent, it can make balancing more difficult and less effective.

Therefore, cell consistency is crucial for maximizing the performance, longevity, and safety of a battery. This is why Gobel Power puts a lot of effort into cell selection and sorting, to ensure that only cells with similar characteristics are used together in a battery.

Static parameters such as capacities, internal resistances, and voltage levels, though informative, may not provide a comprehensive picture of cell consistency in a LiFePO4 (Lithium Iron Phosphate) battery. A more practical and straightforward method to assess cell consistency involves monitoring the maximum charge voltage when a single cell reaches 3.65V. This is based on the understanding that if the cells exhibit good consistency, the voltage variation across them will be minimal, resulting in a higher overall maximum charge voltage. Therefore, observing the maximum charge voltage when one cell attains 3.65V can serve as a reliable indicator of the battery's cell consistency.

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