Other Echem experiments
for versatile AC impedance experiment of serial connected multi cells such as fuel cell stack/battery pack etc.
6 signal input channel/1 signal output channel per set
5 series cells EIS measurement or 4 cells EIS with stack voltage EIS measurement
a flexible frequency generator/analyzer
generate various waveforms (e.g. Sinusoidal etc.)
designed for spectrum analysis in the electrochemical field
simulation and fitting with ZmanTM
- no license is needed.
high current application with external load and/or potentiostat/galvanostat
dual real time graph (Bode, Nyquist etc.) during measurement
Z100 Navigator software free upgrade
supporting external load/potentiostat
- TDI Power's Dynaload RBL488 & XBL series electronic load
- WonATech's WEL series electronic load
- 3rd parties potentiostat/galvanostat having I-OUT, E-OUT, SIG-IN terminal
For the past two decades, electrochemical impedance spectroscopy(EIS) has emerged as the most powerful of electrochemical techniques for defining reaction mechanisms, for investigating corrosion processes and for the characterization of batteries and fuel cells.
The Z# series provide all tools for the application of fuel cell stack, battery pack, multi cells and general electrochemcial study requiring multichannel EIS for serial connected cells.
By employing electronic load, the Z# can be used to determine the efficiency of fuel cell and anodic/cathodic process mechanism by calculating impedance with the measurements of I and E at given frequency. The complete system is software-controlled and all functions such as ranging, calibration, and measurements can be automated.
- with electronic load
* frequency response analyzer (FRA)
* high frequency resistometry (HFR)
- with 3rd parties potentiostat/galvanostat
* galvanostatic electrochemical impedance spectroscopy(GEIS)
* galvanostatic HFR (GHFR)
* potentiostatic EIS (PEIS)
* cyclic voltammetry (CV)
* linear sweep voltammetry (LSV)
* square wave voltammetry (SWV)
- channel selection : enable/disable
- power spectrum display
- waveform generation
please refer to Z100 Navigator for more detailed information.
Z# Front view
Z# Channel expansion
For 20 cells EIS measurement, 4 sets of Z#106are needed.
Then, you can measure EIS of 20 cells or 19 cells with one total
fuel cell stack(or battery pack).
One Z#106 will work as master and other 3 sets will work as slaves.
Z#106 with Dynaload RBL488 sereis electronic load
Z#106 with WonATech WELsereis electronic load