Run the Electrochemical Energy Potentiostatic standard technique by selecting Experiment>Electrochemical Energy>Potentiostatic from the Framework™ menu bar. This initiates the following sequence of events: The Framework creates a Runner window, and… read more →
The standard Potentiostatic analysis contains the following pages at startup: Chart The Chart page is the heart of the Differential Pulse analysis. It contains the data plotted as Idifference versus… read more →
Default button Restores all the parameters on the screen to their default values. Use it to fix typing errors or find out previous values for a parameter you have already… read more →
This is a general-purpose experimental technique to potentiostatically hold a cell or battery. This experiment actually runs in a galvanostatic mode with a software feedback to give a potentiostatic response.… read more →
Run the Galvanostatic standard technique by selecting Experiment>Electrochemical Energy>Galvanostatic from the Framework™ menu bar. This initiates the following sequence of events: The Framework creates a Runner window, and the pwr… read more →
The standard Galvanostatic analysis contains the following pages at startup: Chart The Chart page is the heart of the Differential Pulse analysis. It contains the data plotted as Idifference versus… read more →
This is a general-purpose experimental technique which can be used to either charge a battery or discharge a battery or cell. Like other Electrochemical Energy scripts, this script allows you… read more →
Type: INSTANCE FUNCTION Purpose:Return the real portion of the AC impedance. Usage: Result = FraCurve.Zreal() Result REAL RMS AC impedance in Ω.
Type: INSTANCE FUNCTION Purpose:Return the phase of the AC impedance Usage: Result = FraCurve.Zphz() Result REAL Phase of AC impedance in degrees.