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MEC201-10P SPICE Model

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Tsuyoshi Horigome
Tsuyoshi Horigome

MEC201-10P SPICE Model

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All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 1 Device Modeling Report Bee Technologies Inc. COMPONENTS:Thin-Film Micro-Energy Cell PART NUMBER: MEC201-10P MANUFACTURER:Infinite Power Solutions
All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 2 TypicalCharge CurveCharacteristic Circuit Simulation Result Evaluation circuit  SOC is measured from the Sub-circuit inside the Thin-Film model – V(U1:SOC) (minutes) SOC (%) Current Over-Voltage Protector −−− P-Type MEC Recharge Current −−− P-Type MEC SOC
All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 3 TypicalCharge CurveCharacteristic Reference Typical Charge Curve @ 25°C
All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 4 TypicalDischarge Curves Characteristic Circuit Simulation Result Evaluation circuit  SOC is measured from the Sub-circuit inside the Thin-Film model – V(U1:SOC) −−− 0.33mA Discharge −−− 1.65mA Discharge −−− 3.30mA Discharge −−− 16.5mA Discharge −−− 25.0mA Discharge −−− 40.0mA Discharge 1.0 mAh Performance Grade
All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 5 TypicalDischarge CurveCharacteristic Reference Typical Discharge Curves @ 25°C
All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 6 NS is the number of cells in series – e.g. NS=1 for 1 cell battery, NS=2 for 2 cells battery (battery voltage is double from 1 cell) SOC is the initial state of charge in percent – e.g. SOC=0 for a empty battery (0%), SOC=1 for a full charged battery (100%) TSCALE turns TSCALE seconds into a second – e.g. TSCALE=60 turns 60s or 1min into a second, Appendix:ParameterSettings SYMBOL

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MEC201-10P SPICE Model

  • 1. All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 1 Device Modeling Report Bee Technologies Inc. COMPONENTS:Thin-Film Micro-Energy Cell PART NUMBER: MEC201-10P MANUFACTURER:Infinite Power Solutions
  • 2. All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 2 TypicalCharge CurveCharacteristic Circuit Simulation Result Evaluation circuit  SOC is measured from the Sub-circuit inside the Thin-Film model – V(U1:SOC) (minutes) SOC (%) Current Over-Voltage Protector −−− P-Type MEC Recharge Current −−− P-Type MEC SOC
  • 3. All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 3 TypicalCharge CurveCharacteristic Reference Typical Charge Curve @ 25°C
  • 4. All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 4 TypicalDischarge Curves Characteristic Circuit Simulation Result Evaluation circuit  SOC is measured from the Sub-circuit inside the Thin-Film model – V(U1:SOC) −−− 0.33mA Discharge −−− 1.65mA Discharge −−− 3.30mA Discharge −−− 16.5mA Discharge −−− 25.0mA Discharge −−− 40.0mA Discharge 1.0 mAh Performance Grade
  • 5. All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 5 TypicalDischarge CurveCharacteristic Reference Typical Discharge Curves @ 25°C
  • 6. All Rights Reserved Copyright (c) Bee Technologies Inc. 2012 6 NS is the number of cells in series – e.g. NS=1 for 1 cell battery, NS=2 for 2 cells battery (battery voltage is double from 1 cell) SOC is the initial state of charge in percent – e.g. SOC=0 for a empty battery (0%), SOC=1 for a full charged battery (100%) TSCALE turns TSCALE seconds into a second – e.g. TSCALE=60 turns 60s or 1min into a second, Appendix:ParameterSettings SYMBOL