Welcome to this comprehensive application note, crafted to offer detailed guidance on utilizing the Dummy cell for potentiostat calibration, specifically focusing on the Linear Sweep Voltammetry (LSV) technique. This document aims to equip you with the necessary...
Handheld Potentiostat, Electrochemical Analyzer (MedPstat 1.0 Basic – 30mA)
$799.00
- Handheld, Portable, Most Affordable & Highly Precise Potentiostat
- Applied Potential Range: ±2.4 V
- Max Current Range: 30mA
- USB Communication
- Software for PC Data acquisition & plotting
MedPstat 1.0 Basic is the most cost-effective Electrochemical Analyzer, Handheld / Portable, Affordable, and precise Potentiostat, with a wide range of ±2.4 V, 30mA. It is optimal for electrochemistry learning and the best for any electrochemistry research applications. It comes with high-quality dummy cells for learning/calibration applications and software for PC data acquisition and plotting.
Detailed Specifications:
- Electrochemical Methods: CV, LSV, ChronoAmp, OCP, DPV, SWV
- Channels Per Unit: 1
- Applied potential range: ±2.4 V
- Applied Potential Accuracy: 0.1% of the setpoint, 1mV Max
- Applied Potential Resolution: 76 µV
- Measured Potential Accuracy: 0.1% of the setpoint, 1mV Max
- Measured Potential Resolution: 156 µV
- Compliance Voltage: ±8 V
- Maximum Current: 30mA
- Current ranges: 5 Ranges
- Measured Current Accuracy: 0.1% of the range, 1nA max
- Measured Current Resolution: 0.015% of range, 0.156nA
- Input Impedance: >10 TΩ
- Input Bias Current: 1pA Max
- Computer Interface: USB
- Channel Cable Length: 0.8 meters
- Power supply: 12V DC
- Power Supply Requirements: 100V - 240V AC
- Weight: 285 grams
- Physical Dimensions: 181mm * 91.5mm * 42mm
- Operating temperature range: 0 to 50°C
- Communication: USB
- PC Software: Available with a lifetime license
- Bandwidth: up to 4 MHz
- Max. data acquisition rate: 1 KHz
- ADC/DAC Resolution: 16-bit
- Slew Rate (No Load): 3.5 V/µs
- Maximum ADC Sampling Speed: 5,00,000 samples/sec
Additional information
Weight | 1.4 kg |
---|---|
Dimensions | 340 × 300 × 90 cm |
Select Model | MedPstat 1.0 (Basic) 30mA, MedPstat 1.0 (Advance) 100mA, MedPstat 1.0 (EC Kit) with Cell Setup |
MedPstat 1.0 Advance proudly featured in the Latest Publication by IIT-K
The MedPstat 1.0 Advance potentiostat is extremely lightweight & high in precision and was selected for Microbial Fuel Cell Research by the Department of Materials Science and Engineering, Indian Institute of Technology Kanpur, India.
Since then it has been a huge part of the scientific community and has been utilized for testing and research by many other Universities!
The MedPStat 1.0 Advance was featured in Y. Budania, M. Chauhan, S. Mishra, S. Singh, Chemical Engineering Journal (2024) 156018.
Key Electrochemistry characterizations were tested and performed in this publication! Read all about it!

Software


MedPstat comes with lifetime free licensed version of MedEplot data acquisition & plotting software. It is compatible with any PC or laptop with windows OS.

Simple User Interface
Light Weight Software
Live Data View
Save Data in CSV
Open / Overlay Plot
Windows / IOs
MedPstat Models
MedPstat 1.0 (Basic)
Most Affordable Potentiostat
-
Applied Potential Range: ± 2.4 V
-
Max Current Range: 30 mA
-
Current Resolution: 100 nA
-
Mini Dummy Cell
-
Warranty: 6 months

MedPstat 1.0 (Advance)
Most Versatile Potentiostat
-
Applied Potential Range: ±2.4 V
-
Max Current Range: 100 mA
-
Current Resolution: 1.5 pA
-
Mini Dummy Cell
-
Warranty: 1 Year

MedPstat 1.0 (EC Kit)
Affordable Electrochemistry Learning Kit
- Applied Potential Range: ±2.4 V
- Max Current Range: 100 mA
- Current Resolution: 1.5 pA
- Mini Dummy Cell
- Mini Gas Tight Cell, Pt wire Ag/AgCl, Pt Coil
- Experimental Manual
- Warranty: 1 Year


Video Tutorial
Application Notes
A Comprehensive Guide to conduct Cyclic Voltammetry with MedPstat 1.0 Instrument:
This application note provides a comprehensive manual for using the MedPstat device in Ferro/Ferri cyanide redox couple investigations. This Ferro/Ferri cyanide redox system is an excellent model for understanding cyclic voltammetry and electrochemical processes....
FAQs
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