SATS Potentiostat
SATS MedPstat 2.0 Advance is a high-performance, compact potentiostat/galvanostat designed for precise electrochemical measurements. It delivers excellent accuracy, versatility, and ease of use — ideal for research, academic, and industrial applications.
Available Methods
Cyclic Voltammetry (CV), Linear Sweep Voltammetry (LSV), Chronoamperometry, Open Circuit Potential (OCP), Differential Pulse Voltammetry (DPV), Square Wave Voltammetry (SWV), Chronopotentiometry, Charge–Discharge, Corrosion Analysis (Tafel), and Corrosion Analysis (Linear Polarization).
Electrochemical Measurement Specifications
Applied Potential Range
Operates within ±10 V range, suitable for a wide spectrum of electrochemical and galvanostatic testing conditions.
Applied Potential Accuracy
Maintains high accuracy of 0.1% of the setpoint or 1 mV (maximum), ensuring precise voltage control.
Applied Potential Resolution
Provides a fine resolution of 152 µV for accurate potential adjustments during experiments.
Measured Potential Accuracy
Ensures 0.1% of setpoint or 1 mV (maximum) measurement accuracy for reliable potential monitoring.
Measured Potential Resolution
Delivers high-resolution potential measurement capability at 156 µV.
Compliance Voltage
±15 V compliance voltage provides operational flexibility across different electrochemical systems.
Maximum Current
Supports ±250 mA maximum current, suitable for both low-current analytical and moderate-load electrochemical tests.
Current Ranges
Offers 7 selectable ranges from 10 nA to 250 mA, accommodating both micro- and macro-scale measurements.
Measured Current Accuracy
Accuracy of 0.5% of range or 50 pA (maximum) ensures dependable current detection and quantification.
Measured Current Resolution
Provides a fine resolution of 0.015% of range or 1.5 pA, allowing precise low-current measurements.
Applied Current Resolution (Galvanostat Mode)
Achieves 1.52 nA current resolution, ensuring accurate control in galvanostatic operation mode.
Measured Potential Range (Galvanostat Mode)
Supports ±10 V potential measurement range in galvanostatic mode for flexible electrochemical analysis.
Input Impedance
Ultra-high input impedance of 10 TΩ minimizes signal interference and enhances measurement precision.
Input Bias Current
Maintains a minimal input bias current of 1 pA, reducing noise and ensuring stable signal integrity.
Applications
Battery & Supercapacitor Research – Ideal for studying charge–discharge behavior, energy density, and cycle performance of energy storage systems.
Fundamental Electrochemical Studies – Enables investigation of redox reactions, electrode kinetics, and ion transport mechanisms.
Electrochemical Sensor Development – Supports the design, calibration, and testing of chemical and biosensors for analytical applications.