6 channels - A research-grade multichannel potentiostat/galvanostats with a compact footprint
Perfect for group working the VSP-300 can be connected to a LAN and controlled independently by multiple users
BioLogic’s VSP-300 is a state-of-the-art research grade potentiostat / galvanostat /FRA boasting an impressive array of specifications.
The VSP-300 draws upon BioLogic’s long history of design and innovation through a flexible, modular potentiostat/galvanostat that incorporates the latest technology to deliver unparalleled performance.
The VSP-300 multichannel potentiostat/galvanostat is a versatile instrument featuring 6 slots that can be set from 1 to 6 channel boards.
Each channel board can accommodate an ultra-Low current cable and can be connected to one of several high current booster kits. Up to 4 booster boards can be plugged in parallel in one VSP-300 chassis. The instrument can reach up to 40 A.
Four booster kits are available: ±10 A/ [-1;6] V, ±4 A/ [-3;14] V, ±2 A/ ±30 V and ±1 A/±48 V. Each channel board can be equipped with an Analog Ramp Generator.
Perfect for group work, the VSP-300 can be connected to a LAN and controlled independently by several users. An upright design helps make the instrument the most compact multichannel potentiostat/galvanostats with EIS available.
Powerful, modular and easy to use
The most powerful hardware is only as performant as the software that sits behind it. Bio-Logic’s EC-Lab has earned itself the reputation as the benchmark for potentiostat control software based on a combination of intuitive control and analytic power.
- Compliance: ±12 V ; ±49 V with 1A/48V booster
- Control voltage: ± 10 V ; ±48 V with 1A/48V booster
- Voltage resolution: 1 µV on 60 mV range
- Current ranges: 500 mA to 10 nA (standard); down to 1 pA (Ultra Low Current)
- Maximum current: ±500 mA (standard); up to 120 A with four HCV-3048
- Current resolution: 760 fA (standard)
- Low current: 6 ranges from 100 nA to 1 pA with resolution to 76 aA
- Frequency range: 7 MHz (3%, 3°) down to 10 µHz; 3 MHz (1%, 1°)
- EIS quality indicators
- Up to 6 channels
- Connection 2,3,4,5 terminal lead
- Best acquisition time: 12 µs with EC-Lab Express; 1 µs with ARG option
- Floating mode
- Analog filtering
- Calibration board
- Full stability control mode (9 bandwidths)
Internal resistance determination EIS – Electrochemistry & Battery- Application Note 38
Systems and EIS quality indicators – Electrochemistry
Electrochemistry Instrument catalog
Electrochemical polymerization of pyrene derivatives on functionalized carbon nanotubes for pseudocapacitive electrodes
EC-Lab Technical Notes 44: How to check the accuracy of your instrument ?
EC-Lab Technical Notes 01: VMP, VMP2, MPG or BiStat IP address change
EC-Lab Technical Notes 02 Accessing the VMP, VMP2, MPG or BiStat from other networks through gateways
EC-Lab Technical Notes 03 Computer TCP/IP installation and configuration
EC-Lab Technical Notes 04: VMP2, VMP or MPG firmware upgrading
EC-Lab Technical Notes 05: Importing an EC-Lab® text file into excel on line
EC-Lab Technical Notes 07: The “compact” Function in the PCGA protocol
EC-Lab Technical Notes 08: Adjustment of the potential control resolution
EC-Lab Technical Notes 09: Various connection modes Part I: Ewe vs. Ece control in the standard mode
EC-Lab Technical Notes 10: “p” low current option: installation and calibration
EC-Lab Technical Notes 11: Other channel to cell connection mode Part II: CE to Ground mode
EC-Lab Technical Notes 12: Low current N’Stat box installation (VMP2, BiStat, VSP, VMP3)
EC-Lab Technical Notes 17: Instantaneous versus averaged current measurement
EC-Lab Technical Notes 18: Channel board: installation and calibration for VMP2, VMP3, VSP
EC-Lab Technical Notes 19: Network parameters configuration with EC-Lab® and EC-Lab® Express software
EC-Lab Technical Notes 20: MEASURE versus CONTROL mode: extended current ranges
EC-Lab Technical Notes 21: External device control and recording
EC-Lab Technical Notes 22: Graphic properties Part I: Graph Style definition
EC-Lab Technical Notes 23: Graphic properties Part II: Graph Representation definition
EC-Lab Technical Notes 24: Potentiostat board installation on SP-300 chassis (BiPotentiostat option)
EC-Lab Technical Notes 25a: Control of the potential/current signal by an external device Part I : control by a Low Frequency Generator (LFG)
EC-Lab Technical Notes 25b: Control of the potential/current signal by an external device Part II : control by a channel of the potentiostat
EC-Lab Technical Notes 26: How to configure an experiment with a platinum temperature probe?
EC-Lab Technical Notes 27: SAM-50 : Module for measurements on stack of 50V
EC-Lab Technical Notes 30: Which GCPL technique is the most appropriate for my measurement?
EC-Lab Technical Notes 31: Isolation System IS1 How and why?
EC-Lab Technical Notes 32: How to set the data recording conditions of my measurement?
EC-Lab Technical Notes 33: DC-DC boards for SP-300 technology instruments
EC-Lab Technical Notes 34: How fast the instrument is able to switch from potentio to galvano mode & vice versa?
EC-Lab Technical Notes 37: Peristaltic pump Installation
EC-Lab Technical Notes 38: BCD technique: Battery Capacity Determination
EC-Lab Technical Notes 39: Import urban profile (txt file)
EC-Lab Technical Notes 40: Influence of the current range on the response time of a potentiostat
EC-Lab Technical Notes 41: Climate Chamber control with EXTAPP
EC-Lab Technical Notes 42: Bistat3200: A guide to the use of the sync start macro
EC-Lab Technical Notes 43: Battery Holders : Guide to make a wise choice and a proper use.
EC-Lab Technical Notes 45: Connection for high power system: Guide for a proper connection.
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Boost your instrument with...
Ultra Low current (down to aA resolution)
You may want to complete your set-up with.
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Greater Scope. Increased flexibility
The following equipment may help you do more with your BioLogic instrument
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