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A research-grade multichannel potentiostat/galvanostat, the VSP-3e was purpose-built to meet the demands of energy research applications. With space allocated for up to eight channels, the instrument is flexible enough to meet the demands of researchers and R&D specialists alike. And with +/- 1A (expandable up to 800A with boosters), Ethernet LAN for improved multiple user/PC connectivity and built-in EIS, the instrument is especially suited to battery research applications. Home Products Electrochemistry Potentiostats VSP3e Essential VSP-3e VSP3e: tailor-made for energy research Eight channels, +/- 1A (expandable up to 800A); Ethernet connectivity, Built-in EIS Request a quote A research-grade multichannel potentiostat/galvanostat, the VSP-3e was purpose-built to meet the demands of energy research applications. With space allocated for up to eight channels, the instrument is flexible enough to meet the demands of researchers and R&D specialists alike. And with +/- 1A (expandable up to 800A with boosters), Ethernet LAN for improved multiple user/PC connectivity and built-in EIS, the instrument is especially suited to battery research applications. Powered by EC-Lab, the advanced, ergonomic software that has earned itself the reputation as a benchmark for potentiostat/galvanostat control software, the VSP-3e boasts a wide range of unique functionality. Only EC-Lab enables users to build and modify experiments incrementally with “modify-on-the-fly” as well as give users the choice to plan their experiment from a vast array of technical presets. Energy-specific functionality unique to Bio-Logic includes: Fast CCCV shift (constant current, constant voltage) Stack mode (follow individual elements in the pack) BCD (Battery capacity determination) Automatic plotting for Coloumbic efficiency A compact, upright design reduces the instrument’s footprint and saves space in the laboratory and users can choose from independent channel or multi-electrode (CE to GND mode) configurations (a feature unique to Bio-Logic potentiostat/galvanostats) opening up new scientific research opportunities and enabling users to tailor electrode configurations to their application of choice. VSP-3e Specifications Voltage Control voltage: ±10 V adjustable between[-20; to +20] V (standard); up to 60 V with FlexP0060/FlexP0160 Voltage resolution: 5 µV on 200 mV range Compliance: ±10 V adjustable between [-20; to +20] V (standard) Current 1A with “e” type board (400mA with standard board) down to 10µA (1nA with low current option) Maximum current: ±1 A (continuous); up to 800 A with four FlexP0012 Current resolution: 0.760 nA; down to 76 fA (Low Current) EIS Frequency range: 1 MHz down to 10 µHz EIS Quality Indicators (with “e” type board) Advanced Up to 8 channels Connection 2,3,4,5 terminal lead Best acquisition time: 200 µs Stability control mode (7 bandwidths) VSP-3e Electrochemisty Instrument Catalog

BCS-800 series is a modular battery testing system designed to meet the needs of every level of the battery value chain, from R&D to pilot production, from production testing to quality control. Made up of three core products (BCS-805, 810 and 815), these advanced battery cyclers offer 8 independent channels with a maximum current of ±150 mA, ±1.5 A and ±15A, respectively per channel. Home Products Battery Cyclers BCS-800 Ultra Precision BCS-800 series Powerful, flexible, ultra-precise battery cycling equipment with EIS capability. BCS-800 series is a modular battery testing system designed to meet the needs of every level of the battery value chain, from R&D to pilot production, from production testing to quality control. Made up of three core products (BCS-805, 810 and 815), these advanced battery cyclers offer 8 independent channels with a maximum current of ±150 mA, ±1.5 A and ±15A, respectively per channel. Request a quote The BCS Series: Modularity, flexibility and ultra-precision. The high-performance BSC-800 series boasts an impressive range of specifications, as standard, that surpasses all other cyclers currently available on the market. This range of ultra-precise cyclers features five current ranges, 18 bit current and voltage resolution, high-precision coulometry, fast bandwidths (rise and fall times), smart sampling, interfacing with external equipment and temperature probes amongst many other high-end functions. The result is a powerful, modular system suitable for any organization specializing in battery testing and research, from industry to academia, quality control to certification. High-performance battery cyclers that excel at every level of the value chain. The BCS-800 battery cycling series is available in three core modules, all of which have been built around the same high-end technological framework, but which each offers specific current ranges targeted at key industrial/academic applications. The BCS-805 is the smallest unit with a maximum current of ±150 mA per channel, making it highly suited for small batteries such as coin cells. The BCS-810, with a maximum current of ±1.5 A per channel, is a medium-size unit, making it ideally positioned for R&D laboratories and pilot lines. Finally, the BCS-815, the workhorse of the family, with its maximum current of ±15 A per channel is ideally suited for high-power tests, and offers the possibility to connect channels in parallel, in order to reach ±30, ±60 or even ±120 A. Precision, accuracy & modularity: three reasons to choose the BCS-800 Series. With an 18-bit current and voltage resolution, the BCS-800 series has been developed to generate high-precision high-accuracy measurements. Five current ranges yield excellent resolution down to 0.2/2/20 nA. Moreover, a large voltage range of 0 – 9*/10 V (815*) with a 40 µV resolution offers a wide potential window for demanding applications with an outstanding resolution. And the calibration offered by BCS-CAL kit will ensure that your instrument continues to consistently perform throughout its lifespan. An optional built-in FRA (Frequency Response Analyzer) is available for every BCS-800 module enabling Electrochemical Impedance Spectroscopy (EIS) experiments over the frequency range of 10 kHz to 10 mHz on each channel in either galvano or potentio mode. EIS measurements are as fast and precise as those obtained with our research-grade equipment – no compromise on quality has been made. High accuracy and precision for both control and measurement allow users to perform challenging experiments such as dQ/dV or HPC (high precision coulometry). Coupled with EIS, the evolution of your batteries’ parameters can be precisely determined (SOC, SOH, internal resistance Ri). The instrument offers a fast data acquisition with a 2 ms sampling rate and time base. There is no need to stop your experiment if you want to add a module to your system! The plug and play design of all our BCS-800 modules facilitates the installation, replacement and maintenance of modules without disrupting any units already in operation. Thanks to their modularity and compatibility, different BCS-800 modules can be combined in a single cabinet, in one of 4 units (6U, 12U, 24U and 38U), allowing users to build a custom-made system that meets their exact requirements that can be easily upgraded for the future, if necessary. Centralized control for external devices. Your instrument also includes analog input/output and trigger input/output that can be used to control and communicate with an external device, such as a thermostatic chamber. Every BCS-810 and 815 modules are also equipped with a dedicated K-type thermocouple input on each channel to allow temperature measurement on each cell. BCS-800 Series Brochure BCS Series Specifications

The SP-50 is a user-friendly potentiostat designed to address applications in general electrochemistry and corrosion. Home Products Electrochemistry Potentiostats SP-50 Essential SP-50 Single channel, user-friendly potentiostat. User-friendly potentiostat/galvanostat designed to address general electrochemistry/corrosion applications Request a quote The SP-50 is a user-friendly potentiostat designed to address applications in general electrochemistry and corrosion. Built around a simple, compact chassis, the instrument is a fixed configuration unit with no additional options available. It is targeted at new researchers in the field of electrochemistry and is an ideal instrument for teaching and education. This highly cost-effective electrochemical workstation offers high-performance for electrochemists and benefits from all the EC-Lab® software features. SP-50 Specifications Voltage Control voltage: ±10 V Voltage resolution: 5 µV on 200 mV range Compliance: ±10 V Current Current ranges: 800 mA to 10 µA Maximum current: ±800 mA Current resolution: 0.760 nA Advanced Connection 2,3,4,5 terminal lead Best acquisition time: 20 µs with EC-Lab Express; Stability control mode (7 bandwidths) SP-50/150 Brochure Electrochemisty Instrument Catalog

In Scanning Kelvin Probe (SKP) the probe is used to measure the Volta potential of a sample compared to the probe material. The resolution of the SKP experiment is directly related to the diameter of the SKP probe used. All SKP probes offered by BioLogic are composed of tungsten wire shielded from parasitic noise by a metallic casing with an air gap. Home Products Electrochemistry SECM Accessories SKP Probes Probes Scanning Kelvin Probe (SKP) 500 and 150 µm SK Probe. Accessory designed for use in SKP (scanning kelvin probe) technique Request a quote In Scanning Kelvin Probe (SKP) the probe is used to measure the Volta potential of a sample compared to the probe material. The resolution of the SKP experiment is directly related to the diameter of the SKP probe used. All SKP probes offered by BioLogic are composed of tungsten wire shielded from parasitic noise by a metallic casing with an air gap. The probe is composed of a brass casing and a W (Tungsten) wire. Shielding of the signal is ensured by the air gap between the brass casing and the W wire. The SKP probe is available with two diameters of W wire: 500 µm and 150 µm. The 150 µm probe hence allows users to perform SKP measurements on much smaller features than the larger probe. Part number : U-SKP370/1 and U-SKP-150 Electrochemistry Accessories Catalog SKP Specifications Ordering information

A modern materials science lab faces challenging measurements every day, and impedance spectroscopy is a primary tool in materials research enabling the characterization of the electrical properties of materials. Materials Research Home Products Electrochemistry Materials Research Product Range Materials Research A modern materials science lab faces challenging measurements every day, and impedance spectroscopy is a primary tool in materials research enabling the characterization of the electrical properties of materials. More info MTZ-35 More info MTZ-35 More info HTF-1100 More info HTF-1100 ITS More info ITS More info

As a leader in this field, BioLogic has over 30 years of experience of developing equipment designed to give researchers a cutting-edge. Originally dedicated to rapid kinetics measurements, BioLogic now also develops, integrates and manufactures a wide range of instrumentation for steady-state spectroscopy including spectropolarimeters. Kinetics & Spectroscopy Home Products Kinetics and Spectroscopy Product Range Spectrometers A wide range of kinetics and steady state spectrometers. As a leader in this field, BioLogic has over 30 years of experience of developing equipment designed to give researchers a cutting-edge. Originally dedicated to rapid kinetics measurements, BioLogic now also develops, integrates and manufactures a wide range of instrumentation for steady-state spectroscopy including spectropolarimeters. JTS-150 JTS-150 More info MOS200 - MOS200M MOS200 - MOS200M More info MOS-500 MOS-500 More info Product Range Stopped-flow/quench flow The most efficient micro-volume, stopped-flow and quench flow solutions available on the market The premium stopped-flow family (SFM) lies at the heart of BioLogic’s rapid kinetics instrumentation range. Based on independent stepping-motor technology, the SFM product line has been designed to achieve the shortest possible dead time, and the highest precision, in order to minimize sample consumption and accommodate the largest range of detectors. SFM-2000, SFM-3000 SFM-4000 Stopped-flow More info SFM-2000, SFM-3000 SFM-4000 Stopped-flow More info µSFM More info µSFM More info QFM-4000 More info QFM-4000 More info Cryogenic Stopped Flow More info Cryogenic Stopped Flow More info Freeze quench More info Freeze quench More info

The HCP-1005 is a compact high-current potentiostat/galvanostat/FRA specifically designed to study high-capacity secondary batteries. Home Products Electrochemistry Potentiostats HCP-1005 Essential HCP-1005 1 channel - More power for battery testing A compact high-current potentiostat/galvanostat/FRA specifically designed to study high-capacity secondary batteries Request a quote Power and precision: Ideal for battery testing. The HCP-1005 is a compact high-current potentiostat/galvanostat/FRA specifically designed to study high-capacity secondary batteries With a voltage range of 0.6 to 5 V and a current range of ±100 A, this unit is perfect for Li-ion battery tests. The EIS capability integrated in the chassis also makes it ideal for to follow up the performances of the cell during ageing tests. The HCP-1005 combines the precision and control of a research-grade potentiostat with the power of a 100 A booster in the same chassis. HCP-1005 Specifications Current ranges up to +/-100 A Voltage range: 0.6 – 5 V EIS capability from 10 µHz to 10 kHz and up to 1 MHz without booster Control software: EC-Lab® Disconnectable current booster to use the system as a research-grade potentiostat HCP-1005 Electrochemisty Instrument Catalog

As a leader in this field, BioLogic has over 30 years of experience of developing equipment designed to give researchers a cutting-edge. Originally dedicated to rapid kinetics measurements, BioLogic now also develops, integrates and manufactures a wide range of instrumentation for steady-state spectroscopy including spectropolarimeters. Home Products Active Technologies Pulse Generators AWG-4000 Pulse Generator Range ARB RIDER AWG-4000 PULSE GENERATOR 2, 4 and 8 Channel Pulse Generator up to 24V output range The ARB Rider AWG-4000 series is a powerful set of 2, 4 and 8 channel Pulse Generators from Active Technologies. AWG-4000 offers up to 1 GHz bandwidth, up to 24Vpp output range and up to 1024 Msample memory depth, making this family the ideal choice for Automotive, Aerospace & Defense, Big Physics and Semiconductor Test applications. Up to 8 analog channels per unit and up to 32 digital lines (TTL or LVDS standards) allows the user to create a mixed signal generation setup to generate analog and digital stimuli. Models Get a Quote AWG-4018: 1.2 GS/S | 16 BITS | 8 CHANNEL PULSE GENERATOR 7" Capacitive Touch Screen Display Soft Keyboard 8 BNC Analog Outputs 4 BNC Marker Outputs and 1 Trigger Input 4-IN-1 Instrument The AWG-4000 Series instruments are multifunctional signal generator s that combine four functions in one instrument, including Function Generator, Arbitrary Waveform Generator, Digital Pattern Generator and Serial Data Pattern Generator . These four-different functionalities expand the HW flexibility adopting two different technologies: Improved DDS in AFG mode and variable clock, true-arbitrary technology in AWG mode. The AFG mode allows the user to change glitch free on-the-fly all the parameters preserving the waveform shape and to create/generate the waveform in a glace. The AWG mode lets the user create complex wavefevorm of analog and digital patterns, insert them in a sequence, apply loops, jumps and conditional branches. The Serial Data Pattern mode is designed to generate a stream of binary information. With up to 8 channels of data stream, built-in PRBS sequences, modulation features, transition shaping, and the flexibility of a powerful analog front-end, the SPG is the perfect tool for the most challenging applications. Highlights Up to 1024 Mpoints of waveform memory on each channel 16384 sequencer entries Analog and Digital signals fully synchronized Serial Data Patterns Generation Aerospace & Defence Electronics warfare signals driven by Radar or Sonar systems perfectly match with AWG-4000 Series generators. The AWG-4000 Series AWGs can be used on digital modulation systems for Radio Applications or others I/Q signal modulation. Moreover pulses can be easily generated for applications such as Pulse Electron Beam or X Ray Sources, Flash X-ray Radiography, Lighting pulse simulators, high Power Microwave modulators. Highlights Generate Radar test signals with excellent spurious performance Create Electronic Warfare complex scenarios with up to 16384 sequencer entries and Advanced Sequencer conditional/unconditional jumps. Up to 12Vpp into 50 Ohm Pulse Amplitude with ± 2.5V hardware offset Fast Rise Time Pulses: up to 900 ps rise/fall time Automotive, IoT and Ind. 4.0 Today’s cars are including lots of highly sophisticated electronic control units (ECU) with very sensitive electronic components. The 16-bits vertical resolution combined with High-Sampling Rate and 12Vpp (24 Vpp on High Impedance Load) output amplitude range, make the AWG-4000 Series instruments indispensable tools for successfully addressing the new testing challenges in automotive. Wireless technologies are driving the next industrial revolution, taking productivity and efficiency to new levels. Manufacturing is becoming more intelligent, flexible and dynamic. As result, wireless connectivity is becoming even more business and mission critical, leading to very strict requirements with respect to reliability, latency and security. Following those scenarios, the AWG-4000 Series Waveform Generators gives you the possibility to emulate complex RF I/Q modulation for simulation and Test on wireless devices or working on Internet of things of industry 4.0 applications. Highlights CAN, CAN-FD, LIN, Flexray, SENT emulation and troubleshooting 100BASE-T1, 1000BASE-T1, BroadR-Reach emulation and immunity from interference signal and noise Power Integrity testing of electric and electronic components for use in motor vehicles at low voltage Sensors signals generation: emulation of ideal signals or generation of real world signals after acquisition with an High Definition Oscilloscope . MOSFET gate drive amplitude signal emulation for MOSFET characterization and optimization Electrical standards emulation up to 24 V MEMS sensor testing : up to 24 V – 2.5ns rise and fall time Multi-Instrument Synchronization You can synchronize up to 4 units to build a system made of 32 analog channels and 128 digital channels fully synchronized and integrated with the True-Arb software. Main Features Synchronize up to 4 units: 32 Analog channels and 128 Digital channels Easy to use Multi-Instrument control through True-Arb software Address modern applications that require an high number of channels Quantum Computing Systems with Multiple Qubits Technical Specifications 1.2 GS/s, 16 Bit Vertical Resolution Minimum Edge time down to 1.1 ns Maximum dynamic range up to 12Vpp into 50 ohms Up to 1024 Mpts per Channel 8 Digital Channels in synchronous with analog Generation SW User Interfaces: Expert Rider for AWG mode and Simple Rider for AFG mode Semiconductors Test and Research Centers Researches require to emulate signals adding amplitude and timing variation imperfections in an accurate, detailed and repeatable controlled manner. Physics, electronics, chemistry, mechanics and other disciplines can benefit from the super intuitive user interface and from the hardware flexibility. The most challenging setup for your tests can be addressed in few minutes. Today’s IC, components, electronic circuits and sensors are required to be highly reliable extending the operating range in many variables. Emulation of complex signals generated with inclusion of noise or distortions may became an excellent way to provide Compliance Components Test to help semiconductors engineers. Highlights Clock generation for component overclock behavior and operating range limit and stress test Power up sequences of IC using the low impedance feature (5 Ω output impedance) Emulation of signal sources adding noise and known modulation distortion Quantum Computing Modulating and driving laser diode with detailed waveform generation Generation/playback of real-world signals previously acquired using an Oscilloscope and imported into the AWG-4000 Series generator Double pulse test setup in few seconds to measure switching parameters and evaluate the dynamic behaviors of MOSFET and IGBT power devices Emulation of long PRBS sequences with the SPG option Generation of multi-level and multi-edge pulses long waveforms with the SPG option Test With Confidence Software User Interface Key Features Download Documents Superior Testing Touch Gesture 7″ Touch Screen display and Soft Keyboard Digital Analog Channel + 32 Digital Channels Trigger, View, Generate and Sync AFG and DPG all in One Instrument Easily Create Waveforms and Pulses with Simple Rider UI Get a Quote

A versatile stopped-flow mixing system designed to offer extreme precision as well as minimize the consumption of often expensive samples. Home Products Kinetics and Spectroscopy SFM Series Product Overview SFM-2000, SFM-3000, SFM-4000 Stopped-flow A versatile stopped-flow mixing system designed to offer extreme precision as well as minimize the consumption of often expensive samples. A range of single, double or triple stopped-flow mixing systems designed to ensure the shortest possible dead time. Request a quote The stopped-flow mixing system offering accuracy, precision, and versatility. A stopped-flow mixing system is an essential instrument for rapid kinetics investigations. A complete stopped-flow instrument is a mixing device coupled to a detection system. Two, three or four sample solutions are rapidly mixed and injected into an observation cell. When the flow is stopped, the kinetics are recorded with a detector chosen according to the chemical properties of the solutions and the information of interest (e.g. particle size, the environment of fluorophore, chromophore). The SFM-4000 stopped-flow series is available for single, double or triple mixing applications (two reaction steps or one reaction step and one concentration change step before the final observed reaction). The SFM-4000 stopped-flow family has been designed to ensure the shortest possible dead time the highest precision and to minimize sample consumption as much as possible. Applications include protein folding/refolding, protein-protein interactions, fluorescence resonance energy transfer (FRET), ligand binding, water and ion transport in vesicles and membranes, enzyme/substrate reactions, coordination reactions in inorganic chemistry, as well as identification or capture of intermediates, and more. Virtually any application with a timescale in the range of 0.5 ms. to minutes is observable by our stopped-flow systems. The same stopped-flow mixers can be used with chemical quench or freeze quench accessories to collect time point samples for EPR, NMR, Mossbauer, or GC/MS analysis when the reaction has no appropriate optical signature. Free mixing ratio change. Mixing ratios can be freely changed by the user because our stopped-flow mixers use independent stepping motor technology. This technology provides microliter precision and accuracy at all flow rates, over a wide viscosity, temperature, and mixing ratio range. The user has a full control of volume, speed and mixing ratio from within Biokine software. A series of shots at various concentration can be programmed and run quickly without refilling or changing syringes. Advanced Berger-Ball technology mixers are used to provide the best turbulent mixing over the widest range of flow conditions. Short dead time. With our SFM series technology, it is possible to achieve sub-microsecond dead times for following kinetics with a rate constant up to 3500 s-1. The standard dead time reachable by our SFM-4000 family systems is 700 µs, and 200µs is possible using the optional microcuvette for the most demanding applications. This extremely low dead time is achievable thanks to the precision drive mechanism and the quality of the stop mechanism. Quench flow and freeze quench applications have minimum ageing times of 2 ms. Stopped-flow Modularity. The stopped-flow is easily adaptable to a wide variety of rapid mixing techniques and applications. The unique design is based on open access to the mixing chamber and the use of independent stepping motor technology. Therefore, the stopped-flow system can be switched from optical stopped-flow to chemical quench-flow, to freeze quench, to cryo stopped-flow to a beamline, to laboratory designed optical benches, all in minutes, with off the shelf options. A range of off-the-shelf accessories enables you to adapt the SFM-series to your specific needs in the lab, without buying a complete new system. Additionally, our R&D team provides special development services to customize the stopped-flow system and produce bespoke systems to meet your specific needs and applications. SFM Series brochure

Dual absorbance fluorescence spectrometer for rapid kinetics. A simple, fast and sensitive rapid kinetics spectrometer featuring a minimum 10µs time resolution and nM sensitivity. Home Products Kinetics and Spectroscopy MOS200 – MOS200M Product Overview MOS200 – MOS200M Dual absorbance fluorescence spectrometer for rapid kinetics. A simple, fast and sensitive rapid kinetics spectrometer featuring a minimum 10µs time resolution and nM sensitivity Request a quote Dual absorbance/fluorescence spectrometer. Stopped-flow systems have now reached dead time specifications well below one millisecond. There is, therefore, a need for detectors able to measure the signal on a microsecond time scale and with the highest signal to noise possible in order to save precious samples. Fluorescence and absorbance changes have been the most popular detection modes in rapid kinetics because these techniques are usually easy to set-up and are also highly sensitive. Modern spectrometers now use a single detector for absorbance and fluorescence measurements. The detection is made using a high-sensitivity photomultiplier tube (PMT) optimized for the full wavelength range of the spectrometer. The switch from absorbance to fluorescence is made in a few seconds. A second detector is available as an option for simultaneous absorbance/fluorescence measurements, or to extend the detection range to FRET fluorescence, dual fluorescence or T-format anisotropy. Speed and sensitivity. The MOS-200 is a simple, fast and sensitive rapid kinetics spectrometer. With its minimum 10µs time resolution and nM sensitivity, it is the ideal instrument for stopped-flow studies. Multi-time base acquisition modes are available so complex reactions with different steps can be followed easily. A motorized monochromator version (MOS-200/M) also exists for excitation scanning and multi-wavelength experiments, and its double light source allows the user to switch from steady-state to rapid kinetics almost instantaneously. MOS-200 brochure

Dual channel electrochemical workstation. EIS capability. Analog Ramp Generator. A versatile potentiostat capable of generating any bipot measurement, such as Rotating Ring Disk Electrode (RRDE) and InterDigitated Array (IDA) electrodes. Home Products Electrochemistry Potentiostats BP-300 Premium BP-300 Dual channel electrochemical workstation. EIS capability. Analog Ramp Generator. A versatile potentiostat capable of generating any bipot measurement, such as Rotating Ring Disk Electrode (RRDE) and InterDigitated Array (IDA) electrodes. Request a quote The BP-300 is a twin channel potentiostat 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 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 a multichannel potentiostat with two measuring channels controllable by one or more computers. Voltage 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 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 EIS Frequency range: 7 MHz (3%, 3°) down to 10 µHz; 3 MHz (1%, 1°) EIS quality indicators Advanced 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) BP-300 Brochure Electrochemisty Instrument Catalog

The unmatched combination of Speed & Speed. A booster pack designed specifically for battery pack characterizations. Continuous maximum current of +/-30 A extendable by +/-120 Home Products Electrochemistry Boosters HCV-3048 Premium Range HCV-3048 The unmatched combination of Speed & Speed. A booster pack designed specifically for battery pack characterizations. Continuous maximum current of +/-30 A extendable by +/-120 The HCV-3048 booster is designed for battery pack characterizations. The continuous maximum current of +/-30 A for a single unit can be extended up to +/-120 A by connecting four units in parallel. Thanks to the wide bandwidth of HCV-3048, EIS measurements can be performed up to 500 kHz. The instrument configuration can be easily modified, in-situ, to meet the end user’s specific requirements. The instrument does not need to be sent back to the factory to be upgraded thanks to the plug and play capability of the booster modules. The EC-Lab® interface will automatically detect any new configuration ensuring that the transition to the new upgrade occurs seamlessly. Request a quote HCV-3048 Specifications ±30 A / 0-48 V Up to ±120 A with 4 unit in parallel EIS measurement up to 500 kHz HCV-3048 Brochure Electrochemisty Instrument Catalog