ACTUATOR COMPARISON Filters Actuator Type AllCPCNTDESWCN Graph 1 Enable X-Axis LengthWidthThicknessOuter DiameterInner DiameterVolumeNumber of StrandsTurnsDensityDielectric ConstantConductivityYoung’s ModulusTensile StrengthStrain at BreakConcentrationRatio (1st:2nd Solution)pHVoltage Min.Voltage Max.Voltage DifferencePrestrain (Primary Axis)Prestrain (Secondary Axis)Constant LoadFrequencyWork DensityTypical StrainOperating StressPower DensityContinuous PowerCycles (Minimum)EfficiencyElectrochemical Strain CoefficientChargeCapacitanceBandwidthStrain RateStress RateStress Relax Rate (Active)Stress Relax Rate (Inactive)Creep Rate (Active)Creep Rate (Inactive)Peak PowerPeak Engineering StrainAverage Strain RateAverage Stress RateCharge/VolumeCharge/MassCapacitance/VolumeElectric Field Intensity Y-Axis LengthWidthThicknessOuter DiameterInner DiameterVolumeNumber of StrandsTurnsDensityDielectric ConstantConductivityYoung’s ModulusTensile StrengthStrain at BreakConcentrationRatio (1st:2nd Solution)pHVoltage Min.Voltage Max.Voltage DifferencePrestrain (Primary Axis)Prestrain (Secondary Axis)Constant LoadFrequencyWork DensityTypical StrainOperating StressPower DensityContinuous PowerCycles (Minimum)EfficiencyElectrochemical Strain CoefficientChargeCapacitanceBandwidthStrain RateStress RateStress Relax Rate (Active)Stress Relax Rate (Inactive)Creep Rate (Active)Creep Rate (Inactive)Peak PowerPeak Engineering StrainAverage Strain RateAverage Stress RateCharge/VolumeCharge/MassCapacitance/VolumeElectric Field Intensity Graph 2 Enable X-Axis LengthWidthThicknessOuter DiameterInner DiameterVolumeNumber of StrandsTurnsDensityDielectric ConstantConductivityYoung’s ModulusTensile StrengthStrain at BreakConcentrationRatio (1st:2nd Solution)pHVoltage Min.Voltage Max.Voltage DifferencePrestrain (Primary Axis)Prestrain (Secondary Axis)Constant LoadFrequencyWork DensityTypical StrainOperating StressPower DensityContinuous PowerCycles (Minimum)EfficiencyElectrochemical Strain CoefficientChargeCapacitanceBandwidthStrain RateStress RateStress Relax Rate (Active)Stress Relax Rate (Inactive)Creep Rate (Active)Creep Rate (Inactive)Peak PowerPeak Engineering StrainAverage Strain RateAverage Stress RateCharge/VolumeCharge/MassCapacitance/VolumeElectric Field Intensity Y-Axis LengthWidthThicknessOuter DiameterInner DiameterVolumeNumber of StrandsTurnsDensityDielectric ConstantConductivityYoung’s ModulusTensile StrengthStrain at BreakConcentrationRatio (1st:2nd Solution)pHVoltage Min.Voltage Max.Voltage DifferencePrestrain (Primary Axis)Prestrain (Secondary Axis)Constant LoadFrequencyWork DensityTypical StrainOperating StressPower DensityContinuous PowerCycles (Minimum)EfficiencyElectrochemical Strain CoefficientChargeCapacitanceBandwidthStrain RateStress RateStress Relax Rate (Active)Stress Relax Rate (Inactive)Creep Rate (Active)Creep Rate (Inactive)Peak PowerPeak Engineering StrainAverage Strain RateAverage Stress RateCharge/VolumeCharge/MassCapacitance/VolumeElectric Field Intensity Graph 3 Enable X-Axis LengthWidthThicknessOuter DiameterInner DiameterVolumeNumber of StrandsTurnsDensityDielectric ConstantConductivityYoung’s ModulusTensile StrengthStrain at BreakConcentrationRatio (1st:2nd Solution)pHVoltage Min.Voltage Max.Voltage DifferencePrestrain (Primary Axis)Prestrain (Secondary Axis)Constant LoadFrequencyWork DensityTypical StrainOperating StressPower DensityContinuous PowerCycles (Minimum)EfficiencyElectrochemical Strain CoefficientChargeCapacitanceBandwidthStrain RateStress RateStress Relax Rate (Active)Stress Relax Rate (Inactive)Creep Rate (Active)Creep Rate (Inactive)Peak PowerPeak Engineering StrainAverage Strain RateAverage Stress RateCharge/VolumeCharge/MassCapacitance/VolumeElectric Field Intensity Y-Axis LengthWidthThicknessOuter DiameterInner DiameterVolumeNumber of StrandsTurnsDensityDielectric ConstantConductivityYoung’s ModulusTensile StrengthStrain at BreakConcentrationRatio (1st:2nd Solution)pHVoltage Min.Voltage Max.Voltage DifferencePrestrain (Primary Axis)Prestrain (Secondary Axis)Constant LoadFrequencyWork DensityTypical StrainOperating StressPower DensityContinuous PowerCycles (Minimum)EfficiencyElectrochemical Strain CoefficientChargeCapacitanceBandwidthStrain RateStress RateStress Relax Rate (Active)Stress Relax Rate (Inactive)Creep Rate (Active)Creep Rate (Inactive)Peak PowerPeak Engineering StrainAverage Strain RateAverage Stress RateCharge/VolumeCharge/MassCapacitance/VolumeElectric Field Intensity Graph 4 Enable X-Axis LengthWidthThicknessOuter DiameterInner DiameterVolumeNumber of StrandsTurnsDensityDielectric ConstantConductivityYoung’s ModulusTensile StrengthStrain at BreakConcentrationRatio (1st:2nd Solution)pHVoltage Min.Voltage Max.Voltage DifferencePrestrain (Primary Axis)Prestrain (Secondary Axis)Constant LoadFrequencyWork DensityTypical StrainOperating StressPower DensityContinuous PowerCycles (Minimum)EfficiencyElectrochemical Strain CoefficientChargeCapacitanceBandwidthStrain RateStress RateStress Relax Rate (Active)Stress Relax Rate (Inactive)Creep Rate (Active)Creep Rate (Inactive)Peak PowerPeak Engineering StrainAverage Strain RateAverage Stress RateCharge/VolumeCharge/MassCapacitance/VolumeElectric Field Intensity Y-Axis LengthWidthThicknessOuter DiameterInner DiameterVolumeNumber of StrandsTurnsDensityDielectric ConstantConductivityYoung’s ModulusTensile StrengthStrain at BreakConcentrationRatio (1st:2nd Solution)pHVoltage Min.Voltage Max.Voltage DifferencePrestrain (Primary Axis)Prestrain (Secondary Axis)Constant LoadFrequencyWork DensityTypical StrainOperating StressPower DensityContinuous PowerCycles (Minimum)EfficiencyElectrochemical Strain CoefficientChargeCapacitanceBandwidthStrain RateStress RateStress Relax Rate (Active)Stress Relax Rate (Inactive)Creep Rate (Active)Creep Rate (Inactive)Peak PowerPeak Engineering StrainAverage Strain RateAverage Stress RateCharge/VolumeCharge/MassCapacitance/VolumeElectric Field Intensity
