Dual channel. EIS capability. Analog Ramp Generator
Versatile insturment capable of generating any bipot measurement, such as Rotating Ring Disk Electrode (RRDE) and InterDigitated Array (IDA) electrodes.
The BP-300 is a twin channel potentiostat / galvanostat equipped with EIS capability and an analog ramp generator (ARG).
The ARG provides an analog voltage scan of up to 1 MV/s with an acquisition time down to 1 μs. To be able to carry out electrolysis in the most resistive media, BP-300 includes also one 2A/30V booster.
With the BioLogic’s proprietary EC-Lab® product control mode, CE to Ground mode, the BP- 300 is capable of generating any bipot measurement, such as Rotating Ring Disk Electrode (RRDE) set-up and InterDigitated Array (IDA) electrodes.
The BP-300 can also be used as multichannel instrument with two measuring channels controllable by one or more computers.
Powerful, modular and easy to use
The most powerful hardware is only as performant as the software that sits behind it. BioLogic’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: 2 A to 10 nA (with 2 A booster); down to 1 pA (Ultra Low Current)
- Maximum current: ±2 A (with 2 A booster)); 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 2 channels
- Connection 2,3,4,5 terminal lead
- Best acquisition time: 200 µs; 1 µs with ARG option
- Floating mode
- Analog filtering
- Calibration board
- Full stability control mode (9 bandwidths)
Ohmic drop measurement techniques – Electrochemistry & Battery – Application Note 28
Systems and EIS quality indicators – Electrochemistry
Electrochemistry Instrument catalog
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 44: How to check the accuracy of your instrument ?
EC-Lab Technical Notes 45: Connection for high power system: Guide for a proper connection.
Boost your instrument with...
Ultra Low current (down to aA resolution)
You may want to complete your set-up with.
The following accessories may be of interest if you are looking at the BP-300
BluRev Rotating Disk Electrode (RDE)
Small volume analytical cells
Large volume analytical cells
Standard corrosion cells
CBH-4 / CBH-8
BluRev Rotating Disk and Ring-Disk Electrode (RDE/RRDE)
Greater Scope. Increased Flexiblity
The following instrument may help you go further with your research.
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