6. Rated Charge................ 0.2C5 [A] ( SoC=100% )1.1 Ni-MH Battery Specification All Rights Reserved Copyright (C) Bee Technologies Corporation 2011 2 10 Ni-MH cells are in series.
7. 1.2 Discharge Time Characteristics All Rights Reserved Copyright (C) Bee Technologies Corporation 2011 3 1C ( 177A ) 2C ( 354A ) 0.2C ( 35.4A ) TSCALE=3600 means “Time Scale” (Simulation time : Real time) is 1:3600 0.5C ( 88.5A ) Batteries Pack Model Parameters NS (number of batteries in series) = 1 Unit (10 Ni-MH cells) C (capacity) = 177 Ah SOC1 (initial state of charge) = 1 (100%) TSCALE (time scale) , simulation : real time 1 : 3600s or 1s : 1h Discharge Rate : 0.2C(35.4A), 0.5C(88.5A), 1C(177A) and 2C(354A)
8. 1.3 Battery Voltage vs. SOC Discharge Characteristics VBAT vs. SOC Discharge Characteristics are compared between measurement data and simulation data. All Rights Reserved Copyright (C) Bee Technologies Corporation 2011 4 10 Ni-MH cells are in series for total rated current 12V (Each cell have 1.2V rated voltage). Simulation Measurement
9. 1.4 Charge Time Characteristics All Rights Reserved Copyright (C) Bee Technologies Corporation 2011 5 1C ( 177A ) 0.2C ( 35.4A ) TSCALE=3600 means “Time Scale” (Simulation time : Real time) is 1:3600 0.5C ( 88.5A ) Batteries Pack Model Parameters NS (number of batteries in series) = 1 Unit (10 Ni-MH cells) C (capacity) = 177 Ah SOC1 (initial state of charge) = 1 (100%) TSCALE (time scale) , simulation : real time 1 : 3600s or 1s : 1h Charge Rate : 0.2C(35.4A), 0.5C(88.5A), and 1C(177A)
10. 1.5 Battery Voltage vs. SOC Charge Characteristics VBAT vs. SOC Charge Characteristics are compared between measurement data and simulation data. All Rights Reserved Copyright (C) Bee Technologies Corporation 2011 6 Simulation Measurement