Wave Driver 100
Model: WaveDriver 100
Brand:American PINE
Place of Origin: USA
PINE has launched a new generation of WaveDriver100 electrochemical workstation/constant potential meter/constant current meter/zero resistance ammeter, which can be used in two-electrode, three-electrode and mode with AC impedance function (EIS), and it can be widely used in fuel cells, lithium batteries, solar batteries, diaphragms, supercapacitors, sensors, coatings, corrosion inhibitors, physical chemistry and other research fields.
Wiring: two electrodes, three electrodes mode
Floating ground function
Minimum voltage resolution: 78 μV
Minimum current resolution: 3.13 pA
Sweep rate: 10 V/μs max
Ripple noise: <10 mVRMS
Analog to digital converter: 16 bit
Compliance voltage: ±17 V
Leakage current: <10 pA
Bandwidth (3 dB): >15 MHz
Maximum sampling points: 10 million per experiment
Instrument size: 160(W)*255(H)*324(L)mm
Instrument weight: 4.6 kg
IR compensation: AC impedance method (EIS), current interruption method (CI), positive feedback method (PF)
EIS AC Impedance:
AC impedance frequency range: 10 μHz-1 MHz
Frequency accuracy: ±10 ppm
Data curve: Lissajous, Bode, Nyqusit, Mott-Schottky
Data model: Circuit fit, Transmission line, Kramers-Kronig
Circuit fitting methods: modified Levenberg-Marquardt method, Simplex method, Powell method
Circuit fitting options: dynamic selection of points, units and parameters
Scanning methods: linear, logarithmic, customized
Voltage parameters:
Maximum applied voltage: ±15 V
Accuracy: ±0.2% (set voltage), ±0.05% (measured voltage)
Voltage range: 3 ranges (±2.5 V, ±10 V, ±15 V)
Voltage resolution: 78 μV/bit, 313 μV/bit, and 469 μV/bit for the above three ranges, respectively.
Current Parameters:
Maximum applied current: ±1 A
Applicable current operating range: ±5 pA to ±1 A
Accuracy: ±0.2% (set current), ±0.05% (measured current)
Current range: 8 steps (from ±100 nA to ±1 A)
Current resolution: 0.0031%
electrochemical method
Open Circuit Potential 开路电位法(OCP)
Bulk electrolysis 电解法(BE)
Cyclic Voltammetry 循环伏安法(CV)
Linear Sweep Voltammetry线性扫描伏安法(LSV)
Spectroelectrochemistry 光谱电化学测试方法(SPECE)
Staircase Voltammetry 阶跃伏安法(SCV)
Chronoamperometry 计时电流法/恒电位法(CA)
Double Potential StepChronoamperometry 双电位阶跃计时电流法(DPSCA)
Cyclic StepChronoamperometry 循环阶跃计时电流法(CSCA)
Chronopotentiometry 计时电位法(CP)
Ramp Chronopotentiometry斜坡计时电位法(RCP)
StaircasePotentiometry 阶跃计时电位法(SCP)
Cyclic StepChronopotentiometry 循环阶跃计时电位法(CSCP)
Differential pulseVoltammetry 差分脉冲伏安法(DPV)
Square-Wave Voltammetry 方波循环伏安法 (SWV)
NormalPulse Voltammetry 常规脉冲伏安法(NPV)
RotatingMethods 旋转圆盘圆环电极测试方法
RotatingDisk Voltammetry (RDE)
RotatingDisk Koutecky-Levich (KL-RDE)
RotatingDisk Electrolysis (BE-RDE)
RotatingDisk Chronopotentiometry (CP-RDE)
RotatingDisk Ramp Chronopotentiometry (RCP-RDE)
Corrosion Methods 腐蚀电化学方法
Linear PolarizationResistance (LPR)
Rotating CylinderVoltammetry (RCE)
Rotating CylinderElectrolysis (BE-RCE)
Rotating CylinderEisenberg Study (EZB-RCE)
Rotating Cylinder Open CircuitPotential (OCP-RCE)
Rotating CylinderPolarization Resistance (LPR-RCE)
Rotating Cylinder Chronopotentiometry(CP-RCE)
Rotating Cylinder Ramp Chronopotentiometry(RCP-RCE)