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VSP-300

EC-Lab demo/freeware v11.21
mini-lockerEC-Lab software v11.21
mini-lockerEc-lab version history

Note

    • If you have some problems with software download (especially with IE browser), please download (save) the software first, then open it and launch it directly from the download folder.
    • – Compatible with Windows XP© (SP3), 7, 8 (32 or 64 bits), 10 (32 or 64 bits).
    • This version is installed in two different folders due to administration authorization. the installation has to be done by the administrator. A part of the program is installed in “Program files” where only the administrator of the computer can write while the other part is installed in the “Documents” folder of the Windows session user. if several users access the computer this second part has to be duplicated in every Windows users sessions in the same “documents” folder.
    • The setup program installs the PDF files into the “./Manual” folder (“.” being the directory where the EC-Lab has been installed). Then the manual can be opened directly or with EC-Lab through the menu : “?, Manual”.

AN#1-Protocols for studying intercalation electrodes materials: Part I: Galvanostatic cycling with potential limitation (GCPL) AN#2-Protocols for studying intercalation electrodes materials: Part II: Potentiodynamic Cycling with Galvanostatic Acceleration (PCGA) AN#3-Galvanostatic Cycling with Potential limitation 4: Low Earth Orbit battery satellite protocol AN#4-Potentiostat stability mystery explained AN#5-Precautions for good impedance measurements AN#6-Constant power technique (updated November 5, 2010) AN#7-Application of the bipotentiostat to an experiment with a rotating ring-disk electrode. AN#8-Impedance, admittance, Nyquist, Bode, Black, etc… AN#9-Linear vs. non linear systems in impedance measurements AN#10-Corrosion current measurement for an iron electrode in an acid solution (updated February 24, 2011) AN#11-Calculation of the platinum’s active surface AN#12-UV-Visible Spectroscopy and Electrochemistry coupling: Spectroelectrochemical experiment feasibility on a polypyrrol film AN#13-VMP3 and Quartz Crystal Microbalance coupling: mass measurement during a polypyrrol film deposition AN#14-ZFit and equivalent electrical circuits AN#15-Two questions about Kramers-Kronig transformations AN#17-Drift correction in electrochemical impedance measurements AN#18-Staircase Potentio Electrochemical Impedance Spectroscopy and automatic successive ZFit analysis AN#19-EIS measurements with multisine AN#20-Pseudo capacitance calculation (updated December 9, 2010) AN#21-Measurements of the double layer capacitance AN#22-Corrosion of reinforced concrete AN#23-EIS measurements on Li-ion batteries-EC-Lab software parameters adjustment (updated December 9, 2010) AN#24-Photovoltaic Characterizations: Polarization and Mott Schottky plot AN#25-Multi Pitting Corrosion AN#26-Graphic Customization AN#27-Ohmic Drop: Part I: Effect on measurements AN#28-Ohmic Drop: Part II: Introduction to Ohmic Drop measurement techniques AN#29-Ohmic Drop Part III: Suitable use of the ZIR techniques? AN#30-IMVS investigation on photovoltaic cell (updated June 8, 2010) AN#33-Supercapacitors investigations-Part I: Charge/discharge cycling (updated August 28, 2012) AN#34-Supercapacitors investigations-Part II: Time constant determination (updated May 2, 2014) AN#35-Application of the Capacitance-Voltage curve to photovoltaic cell characterizations AN#36-VASP: An innovative and exclusive technique for corrosion monitoring AN#37-CASP: a new method for the determination of corrosion parameters (updated October 20, 2011) AN#38-Dynamic resistance determination. A relation between AC and DC measurements? AN#39-I-Electrochemical Noise Measurements-Part I : ASTM assessment and validation of the instrumental noise AN#39-II-Electrochemical Noise Measurements-Part II : ASTM assessment and validation on a real electrochemical system AN#39-III-Electrochemical Noise Measurements-Part III : Determination of the noise resistance Rn AN#40-Differential (Incremental) Capacity Analysis AN#41-I – CV Sim-Simulation of the simple redox reaction (E)-Part I : The effect of the scan rate AN#41-II – CV Sim-Simulation of the simple redox reaction (E)-Part II : The effect of the ohmic drop and the double layer capacitance AN#42-ZFit : The modified inductance element La. AN#43-How to fit transmission lines with ZFit AN#44 – Artefacts in EIS measurements AN#45 – Using ZFit for multiple cycles analysis AN#46 – Dilatometer AN#47 – Corrosion current determination with mass transfer limitation AN#48 – Inaccuracy of the corrosion current determination in presence of an ohmic drop: EC-Lab® solutions AN#49 – EIS measurements: Potentio (PEIS) vs. Galvano (GEIS) mode, that is the question! AN#50-I – Math Reminder for electrochemists: I. The simplicity of complex number and impedance diagrams AN#50-II-Math Reminder for electrochemists: II. The simplicity of Laplace transform AN#51-Supercapacitor characterization by galvanostatic polarization method-(.pdf 597 Ko) AN#52-UFS-SEC: the spectroElectrochemical Cell for UV-Vis, NIR and IR measurement-( .pdf 208 Ko ) AN#53 – Precision and Accuracy in Coulombic Efficiency Measurements (.pdf 654 Ko). Sample data (.mpr 16 Mo). AN#54 – How to read EIS accuracy contour plots AN#55 – Interpretation problems of impedance measurements made on time variant systems AN#56 – Electrochemical reaction kinetics measurement: the Levich and Koutecký-Levich analysis tools AN#57 – Differential Coulometry Spectroscopy (DCS) AN#58 – Cycling battery with reference electrode by using the PAT-cell test cell AN#61 – How to interpret lower frequencies impedance in batteries ? AN#62 – How to measure the internal resistance of a battery using EIS ? Local Electrochemistry Investigation AN#16 – Intermittent Contact (ic) SECM for relief of major topographic features

mini-lockerTN 3 – Computer TCP/IP installation and configuration mini-lockerTN 4 – VMP2, VMP or MPG firmware upgrading mini-lockerTN 6 – The Data smooth option (updated February 8, 2010) mini-lockerTN 7 – The “compact” Function in the PCGA protocol mini-lockerTN 8 – Adjustment of the potential control resolution mini-lockerTN 9 – Various connection modes Part I: Ewe vs. Ece control in the standard mode mini-lockerTN 10 – “p” low current option: installation and calibration mini-lockerTN 11 – Other channel to cell connection mode – Part II: CE to Ground mode mini-lockerTN 13 – Long cell cables mini-lockerTN 17 – Instantaneous versus averaged current measurement mini-lockerTN 19 – Network parameters configuration with EC-Lab® and EC-Lab® Express software mini-lockerTN 21 – External device control and recording mini-lockerTN 22 – Graphic properties – Part I: Graph Style definition mini-lockerTN 23 – Graphic properties – Part II: Graph Representation definition mini-lockerTN 24 – Potentiostat board installation on SP-300 chassis (BiPotentiostat option) mini-lockerTN 25a – Control of the potential/current signal by an external device Part I : control by a Low Frequency Generator (LFG) mini-lockerTN 25b – Control of the potential/current signal by an external device Part II : control by a channel of the potentiostat mini-locker TN 26 – How to configure an experiment with a platinum temperature probe? mini-lockerTN 28 – EQCM cell Set-up mini-lockerTN 29 – How to use the purge tube? mini-lockerTN 30 – Which GCPL technique is the most appropriate for my measurement? mini-lockerTN 31 – Isolation System IS1 – How and why? mini-lockerTN 32 – How to set the data recording conditions of my measurement? mini-lockerTN 33 – DC-DC boards for SP-300 technology instruments mini-lockerTN 34 – How fast the instrument is able to switch from potentio to galvano mode & vice versa? mini-lockerTN 35 – Bandwidth selection mini-lockerTN 36 – Boards validation mini-lockerTN 37-Peristaltic pump Installation mini-lockerTN 38-BCD technique: Battery Capacity Determination mini-lockerTN 39 – Import urban profile (txt file)

WP#1  – Studying batteries with Electrochemical Impedance Spectroscopy (EIS)