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SPICE MODEL of RF-500TB-1.5V in SPICE PARK

Tsuyoshi Horigome
Tsuyoshi Horigome

SPICE MODEL of RF-500TB-1.5V in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.

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Device Modeling Report COMPONENTS: SOLAR MOTOR PART NUMBER: RF-500TB MANUFACTURER: TAMIYA REMARK: SOLAR CELL =1.5VDC Bee Technologies Inc. All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
Theory: Auto Balancing Bridge Method Optimization of Simulation Range of adjustment Frequency:40 to10K(Hz) Frequency vs.|Z| and Frequency vs.θz Characteristic Attention) Please use SPICE MODEL within the range from 40 to 10K(Hz) for best accuracy. LM RS CP All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
DC Motor Voltage and Current Characteristics at No load Circuit simulation result 600mA 3.0V 1 2 500mA 2.5V 400mA 2.0V 300mA 1.5V 200mA 1.0V 100mA 0.5V 0A 0V -100mA -0.5V >> -200mA -1.0V -100ms 100ms 300ms 500ms 700ms 900ms 1 I(V2) 2 V1(X_U3.E_E_EMF) Time Evaluation circuit V2 V1 = 0 0Vdc V2 = 1.5 TD = 0 U3 V1 TR = .4m + RF-500TB_1_5 - IL = 20m TF = 10n PW = 10 PER = 100 0 All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
DC Motor Voltage and Current Characteristics (No load) Reference All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
DC Motor Voltage and Current Characteristics at Fan load Circuit simulation result 600mA 3.0V 1 2 500mA 2.5V 400mA 2.0V 300mA 1.5V 200mA 1.0V 100mA 0.5V 0A 0V -100mA -0.5V >> -200mA -1.0V -100ms 100ms 300ms 500ms 700ms 900ms 1 I(V2) 2 V1(X_U3.E_E_EMF) Time Evaluation circuit V2 V1 = 0 0Vdc V2 = 1.5 TD = 0 U3 V1 TR = .4m + RF-500TB_1_5 - IL = 30m TF = 10n PW = 10 PER = 100 0 All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
DC Motor Voltage and Current Characteristics (Fan load) Reference All Rights Reserved Copyright (c) Bee Technologies Inc. 2005

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SPICE MODEL of RF-500TB-1.5V in SPICE PARK

  • 1. Device Modeling Report COMPONENTS: SOLAR MOTOR PART NUMBER: RF-500TB MANUFACTURER: TAMIYA REMARK: SOLAR CELL =1.5VDC Bee Technologies Inc. All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
  • 2. Theory: Auto Balancing Bridge Method Optimization of Simulation Range of adjustment Frequency:40 to10K(Hz) Frequency vs.|Z| and Frequency vs.θz Characteristic Attention) Please use SPICE MODEL within the range from 40 to 10K(Hz) for best accuracy. LM RS CP All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
  • 3. DC Motor Voltage and Current Characteristics at No load Circuit simulation result 600mA 3.0V 1 2 500mA 2.5V 400mA 2.0V 300mA 1.5V 200mA 1.0V 100mA 0.5V 0A 0V -100mA -0.5V >> -200mA -1.0V -100ms 100ms 300ms 500ms 700ms 900ms 1 I(V2) 2 V1(X_U3.E_E_EMF) Time Evaluation circuit V2 V1 = 0 0Vdc V2 = 1.5 TD = 0 U3 V1 TR = .4m + RF-500TB_1_5 - IL = 20m TF = 10n PW = 10 PER = 100 0 All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
  • 4. DC Motor Voltage and Current Characteristics (No load) Reference All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
  • 5. DC Motor Voltage and Current Characteristics at Fan load Circuit simulation result 600mA 3.0V 1 2 500mA 2.5V 400mA 2.0V 300mA 1.5V 200mA 1.0V 100mA 0.5V 0A 0V -100mA -0.5V >> -200mA -1.0V -100ms 100ms 300ms 500ms 700ms 900ms 1 I(V2) 2 V1(X_U3.E_E_EMF) Time Evaluation circuit V2 V1 = 0 0Vdc V2 = 1.5 TD = 0 U3 V1 TR = .4m + RF-500TB_1_5 - IL = 30m TF = 10n PW = 10 PER = 100 0 All Rights Reserved Copyright (c) Bee Technologies Inc. 2005
  • 6. DC Motor Voltage and Current Characteristics (Fan load) Reference All Rights Reserved Copyright (c) Bee Technologies Inc. 2005