Technical notes

mini-lockerTN 1 – VMP, VMP2, MPG or BiStat IP address change

mini-lockerTN 2 – Accessing the VMP, VMP2, MPG or BiStat from other networks through gateways

mini-lockerTN 3 – Computer TCP/IP installation and configuration

mini-lockerTN 4 – VMP2, VMP or MPG firmware upgrading

mini-lockerTN 5 – Importing an EC-Lab® text file into excel on line

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 12 – Low current N’Stat box installation (VMP2, BiStat, VSP, VMP3)

mini-lockerTN 13 – Long cell cables

mini-lockerTN 17 – Instantaneous versus averaged current measurement

mini-lockerTN 18 – Channel board: installation and calibration for VMP2, VMP3, VSP

mini-lockerTN 19 – Network parameters configuration with EC-Lab® and EC-Lab® Express software

mini-lockerTN 20 – MEASURE versus CONTROL mode: extended current ranges

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 27 – SAM-50 : Module for measurements on stack of 50V

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)

mini-lockerTN 40 – Influence of the current range on the response time of a potentiostat

mini-lockerTN 41 – Climate Chamber control with EXTAPP

mini-lockerTN 42 – Bistat3200: A guide to the use of the sync start macro

mini-lockerTN1 single wavelenght kinetic using MOS-LED and SFM100 _manual in absorbance mode

mini-lockerTN2 single wavelenght kinetic using MOS-LED and SFM100_motorized in absorbance mode

mini-lockerTN3 single wavelenght kinetic using MOS-LED and SFM100_manual in Fluorescence mode

mini-lockerTN03 Installation of SFM 20 on the J810 spectropolarimeter

mini-lockerTN4 single wavelenght kinetic using MOS-LED and SFM100_motorized in fluorescence mode

mini-lockerTN5 dual wavelenght kinetic using MOS-LED and SFM100_manual in absorbance mode

mini-lockerTN05 Quenched-flow mode_ Rate constant determination using Biokine

mini-lockerTN6 dual wavelenght kinetic using MOS-LED and SFM100_motorized in absorbance mode

mini-lockerTN08 Steady state spectral recording using MOS450-AF or AF-CD in absorbance mode

mini-lockerTN09 Spectral recording using MOS450_AF-CD in Circular Dichroism mode

mini-lockerTN10 Spectral recording MOS450_AF-CD in anisotropy mode

mini-lockerTN11 Single wavelength kinetics experiment using MOS 450_AF or AF-CD in absorbance mode

mini-lockerTN12 Single wavelength kinetics experiment using MOS450_AF or AF-CD in fluorescence mode

mini-lockerTN13 Single wavelength kinetics experiment using MOS450_AF-CD in anisotropy mode

mini-lockerTN14 Single wavelength kinetics experiment using MOS450_AF-CD in CD mode

mini-lockerTN15 Single wavelength kinetics experiment using MOS450_AF-CD in CD and Fluorescence mode

mini-lockerTN16 Steady state spectral recording using MOS250 in absorbance mode

mini-lockerTN17 Single wavelength kinetics experiment using MOS250 in absorbance mode

mini-lockerTN18 Create a stopped-flow sequence using MPS32 software

mini-lockerTN20 Single wavelength kinetics experiment using MOS250 in fluorescence mode

mini-lockerTN22 Thermal denaturation of cytochrome-c using TCU-250 and MOS450

mini-lockerTN23 Different acquisition modes using the titrator accessory combined with MOS250

mini-lockerTN24 Titration of cytochrome-c using the titrator accessory combined with MOS250

mini-lockerTN25 Performing emission fluorescence spectra using MOS250

mini-lockerTN31 Determination of your experimental dead time in absorbance mode

mini-lockerTN32 SFM-20 used in anaerobic conditions _loading of instrument

mini-lockerTN33 Stopped-flow_Diode array detection using Kinspec

mini-lockerTN34 Design of stopped flow sequence, determination of minimum washing volume

mini-lockerTN35 DNPA hydrolysis using QFM-400

mini-lockerTN36 DNPA hydrolysis using the low temperature accessory

mini-lockerTN37 Anisotropy T-format using MOS200 and an additional PMS250

mini-lockerTN38 Anisotropy T-format using MOS250 and two additional channels

mini-lockerTN39 Determination of the minimal ageing time for each delay line

mini-lockerTN40 QFM-400 upgrade for slow reactions studies

mini-lockerTN41-excitation fluorescence scan using MOS450AF-CD

mini-lockerTN42 Spectral recording using MOS450_AF-CD and Emission monochromator in fluorescence mode

mini-lockerTN43 Ageing methods for long time reaction using MPS software and biokine up to the version 4.04

mini-lockerTN44 Pulsed flow method for Quench flow experiment

mini-lockerTN45 Installation of SFM20 on the J810 spectropolarimeter

mini-lockerTN46 Installation of SFM-X00 on the J810 spectropolarimeter

mini-lockerTN47 Installation of SFMX00 on the J810 spectropolarimeter with advanced mode

mini-lockerTN48 Installation of SFM20 on the J810 spectropolarimeter using spectra manager with advanced mode

mini-locker TN49 Determination of minimum washing volume for the microcuvette (mFC-08)

mini-lockerTN50 Global mode experiment using MOS-200M in absorbance mode

mini-lockerTN52 Designing double mixing quench flow experiments

mini-lockerTN53 Determination of your experimental dead time in fluorescence mode

mini-lockerTN54 Determination of your experimental dead time in fluorescence mode

mini-lockerTN55 Single wavelength kinetics using J715-720 and Bio-Kine32 in CD mode-reaction 1

mini-lockerTN56 Single wavelength kinetics using J715-720 and Bio-Kine32 in CD mode-reaction 2

mini-lockerTN57 Single wavelength kinetic using J715-720 and Bio-Kine in fluorescence mode

mini-lockerTN58 Titration of Cytochrome c

mini-lockerTN59 Single wavelength kinetics experiment using MOS200M_CD in CD mode

mini-lockerTN60 X-ray head

mini-lockerTN61 – Anisotropy T- format using MOS-200/M and an additio nal PMS-250

mini-lockerTN62 – Dead time determination using DCIP and acid ascorbic with the microcuvette μFC-08

mini-lockerTN63 – Single wavelength kinetic of cytochrome c in fluorescence mode

mini-lockerTN64 Single wavelength kinetics experiment using MOS200 in absorbance mode

mini-lockerTN66-3D trace using a diode array in absorbance mode

mini-lockerTN67 – Steady state spectral recording using MOS-450 in ORD mode

mini-lockerTN73 – Determination of your experimental dead time in fluorescence mode using μFC-08 and SFM-4000/S

mini-lockerTN74 Spectral recording using MOS-500 in Circular Dichroism mode

mini-lockerTN75 Thermal denaturation of cytochrome-c using TCU-250 and MOS-500

mini-lockerTN76 Single wavelength kinetics experiment using MOS200 in fluorescence mode

mini-lockerTN77 excitation fluorescence scan using MOS-500

mini-lockerTN78 Thermal denaturation of lysozyme in spectra mode using single peltier and MOS-500

mini-lockerTN79 Single wavelength kinetics experiment using MOS-500 in CD mode

mini-lockerTN80 single wavelength kinetic using MOS-500 in fluorescence mode

mini-lockerTN81 single wavelenght kinetic using MOS-500 in absorbance mode

mini-lockerTN82 Steady state spectral recording in absorbance mode using MOS-500

mini-lockerTN83 Spectral recording MOS-500 in anisotropy mode

mini-lockerTN84 single wavelength kinetic using MOS-500 in anisotropy mode

mini-lockerTN85 SFM-X000 used in anaerobic conditions_ loading of instrument

mini-lockerTN86 – MOS-500 – Installation of MCD accessory and example of MCD spectrum

mini-locker TN87 – μSFM – Absorbance kinetics using a 200μl stock solution and MOS-200

mini-locker TN88 – μSFM – Refolding of lysozyme using a 50μl stock solution and MOS-200