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ATOMFAIR® gray battery tester testing system with seven alligator clip cables on a white background.

5V 8-Channel Coin Cell Battery Tester 10/20/50mA ATOMFAIR®

$1,799.50

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

Commercial grade 8-channel coin cell precision battery tester with 5V range, ±0.05% FS accuracy, and selectable 10/20/50mA currents. In stock.

SKU: AF-EQ-329
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Description

Multi-Channel Battery Testing System (8-Channel Precision 5V)

COMMERCIAL GRADE · PRODUCTION

Product Overview
High-throughput energy storage analysis and baseline materials indexing require strict hardware execution, and this premium multi channel battery testing system delivers exceptional electrical current and potential stability across extensive cycling windows. Functioning as a high-precision multi-range high precision galvanostat potentiostat analyzer, the hardware environment monitors 8 entirely decoupled testing nodes to generate highly synchronized charge, discharge, and pulse profiling arrays. Engineered explicitly to automate rigorous coin cell cycle life evaluation routines, the circuit tracks subtle potential fluctuations down to a 25 mV floor up to a 5 V peak with an elite ±0.05% Full Scale (FS) calibrated metric. The system relies on a central command firmware block for independent channel data logging, seamlessly isolating localized cell impedance transitions without disturbing adjoining active testing streams. It serves as an essential primary analytical benchmark for advanced corporate energy platforms, university cleanroom environments, and automated quality control sorting bays.

Technical Specifications
ANALYTICAL HARDWARE PARAMETER TECHNICAL SPECIFICATION RATINGS
Decoupled Testing Nodes 8 Independent Channels (Simultaneous Asynchronous Operations)
Input Grid Utility Requirements AC 220V / 110V ±10% Swappable Switch Setup | 50 Hz Configuration
Maximum Frame Power Consumption 25 W Under Peak Continuous Operational Load Metrics
Potential Measuring Window 25 mV – 5 V Calibrated Operating Range
Voltage Sampling Accuracy & Stability ± 0.05% FS (Full Scale Geometric Tracking Consistency)
Current Configuration Settings Available in Selectable Component Multi-tier Options: 5V10mA, 5V20mA, and 5V50mA Ranges
Current Measurement Precision ± 0.05% FS Under Temperature-Stabilized Operational Frames
Maximum Programmed Cycle Sequences 65,535 Interconnected Automation Steps Per Profile Instruction
Physical Equipment Dimensions 483 mm × 310 mm × 48 mm (Standard Chassis Assembly Profile)
Alternative Catalog Items Explore our complete laboratory metrology database for split-test cells, high-temperature pouch cell vacuum sealers, automated hydraulic pellet presses, or multi-point impedance analysis fixtures.

Key Features & Advantages
  • High-Precision Metrology Deck: Delivers sub-millivolt potential resolving power with ±0.05% FS accuracy, capturing exact chemical transformation plateaus seamlessly.
  • Decoupled 8-Channel Matrix Architecture: Permits simultaneous, asynchronous execution of distinct experimental routines across multiple channels to maximize laboratory space output.
  • Three Distinct Current Tiers: Segmented into fine functional currents supporting custom configurations across 10mA, 20mA, and 50mA boundaries for dynamic coin-cell testing breadth.
  • Automated Cycle Sequence Logic: Drives up to 65,535 iterative loops to compile long-term capacity retention aging profiles without user intervention.

TECHNICAL COMPATIBILITY & CROSS-REFERENCE: This premium multi-channel evaluation instrument is processed to meet strict laboratory-grade electronic metrics, exhibiting identical low-current response accuracy and data step mapping to pre-existing standard research testing grids. It functions as a highly reliable institutional alternative for research groups presently utilizing enterprise-grade multi-point analysis modules, matching physical component performance standards seamlessly.
EXPERIMENTAL APPLICATION & SETUP GUIDE: Our testing chassis is optimized for high-precision validation loops and battery health diagnostics. Due to its standard mechanical housing tolerances, it integrates smoothly into mainstream server rack layouts. For instance, when validating half-cell active materials or monitoring long-term coin cell degradation vectors, this unit interfaces directly with typical button-cell holder blocks or pouch clip lines without demanding custom intermediate calibration hardware adjustments.
OPERATIONAL COMPLIANCE NOTICE: Standard equipment includes premium coin cell clamp testing fixtures; please communicate specific alternative cable requests prior to dispatch logistics processing. Ground the device housing properly and secure input ventilation clearance lines to safeguard the internal power transformer matrix from thermal accumulation errors. Our manufacturing chains conform fully with environmental verification tracing structures, and modules are processed through verified instrumentation freight channels.

Frequently Asked Technical Questions

Can this low-current testing system replace alternative automated cycling units in existing materials verification lines?

Yes. This analysis assembly features exact technical metrics (including ±0.05% FS accuracy parameters, dynamic multi-tier current sensing, and robust digital step triggers) that align perfectly with the performance standards of industry-leading analytical testing systems. Many academic and corporate energy storage laboratories utilize this hardware frame as an independent hardware alternative to optimize research budgeting while tracking identical electrochemical reproducibility bounds.

How does the dynamic low-current switching mechanism optimize data accuracy for micro-scale coin cells?

The internal instrumentation amplifier segments low-current routines across fine micro-amp scales. By automatically adjusting resolution parameters according to real-time cell responses across your selected 10mA, 20mA, or 50mA hardware range, the system suppresses operational background noise floor interference and prevents micro-capacity calculation drift errors during slow C-rate material testing loops.

What specific step parameters and protection constraints are programmable inside the software interface?

The automated software configuration allows researchers to program explicit constant current (CC), constant voltage (CV), and rest periods up to 65,535 consecutive loops. Safety upper and lower bounds can be defined for potential limits, continuous current limits, and step capacity ceilings, which immediately trip independent channel relay locks if unexpected material failure anomalies occur.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: INQUIRY@ATOMFAIR.COM
Manufacturer: PRODUCTION DIVISION · ADVANCED ENERGY STORAGE DIVISION
Brand: INDUSTRIAL TESTING HARDWARE
Specifications are representative and subject to change without notice. For the latest version and compliance certificates, contact official sales channel.

Store the instrument in a dry, static-free environment to prevent electrical component degradation. Operate only within the rated AC input voltage configuration and ensure proper grounding to avoid shock hazard.

  • Electrical Safety: Connect the AC power cord to a grounded outlet matching the configured voltage setting to prevent electrical shock.
  • Environmental Condition: Avoid exposure to conductive dust, moisture, or corrosive atmospheres that may compromise circuit insulation and accuracy.
  • Current Limitation: Do not exceed the maximum rated current per channel as specified by the model variant to prevent channel overload.
  • Ventilation Requirement: Place the instrument on a stable, non-flammable surface with adequate airflow to dissipate heat during continuous operation.

This procedure describes the safe setup and execution of a coin cell cycling test using the multi-channel battery tester. Follow the steps sequentially to ensure accurate data acquisition and prevent electrical hazards.

Required Equipment:

  1. Power Connection
    Connect the AC power cable to a grounded outlet and set the voltage selector switch to match the local mains supply.
  2. Channel Preparation
    Insert coin cells into the designated holders on each channel, ensuring correct orientation of anode and cathode.
  3. Parameter Configuration
    Configure the test parameters including current range and voltage limits via the firmware interface according to the experimental protocol.
  4. Test Initiation
    Initiate the charge/discharge cycling sequence from the control software to begin synchronized data logging.
  5. Monitoring
    Monitor real-time voltage and current profiles on the display to verify stable operation within the calibrated range.
  6. Termination
    Terminate the test sequence after the desired number of cycles and safely remove coin cells from the holders.

How does the Atomfair 5V10mA battery tester maintain ±0.05% FS voltage accuracy across its full 25 mV to 5 V range when testing coin cells at low currents?

The system achieves this accuracy through segmented current ranges—10 mA, 20 mA, and 50 mA—each optimized to minimize noise and drift. With ±0.05% FS voltage stability, the tester reliably resolves microvolt-level changes even at the lowest currents, critical for coin cell characterization.

Can the Atomfair 5V10mA battery tester accommodate different coin cell form factors without additional fixtures?

Yes, it ships with standard coin cell clips that directly clamp onto common cell sizes. For specialized electrode geometries or non-standard leads, custom cable types can be specified at purchase, ensuring seamless integration into varied experimental setups without requiring third-party adapters.

What are the power and rack-mount requirements for installing the Atomfair 5V10mA battery tester in a laboratory setup?

The tester operates on AC 220V/110V ±10% at 50 Hz with only 25W power consumption, compatible with standard lab outlets. Its 1U rack-mountable chassis (483 x 310 x 48 mm) fits standard 19-inch racks, and built-in safety features (overcurrent/overvoltage protection) meet industry standards for safe operation.

The Atomfair 5V10mA/20mA/50mA Battery Tester delivers ±0.05% FS voltage and current accuracy across eight independent channels, enabling high-throughput coin cell testing. Its fixed 50Hz mains requirement and reliance on custom cabling for non-coin cell formats are key operational constraints.

Positive

  • High Measurement Precision: Voltage and current accuracy of ±0.05% FS ensures reliable data for performance evaluation of coin cell batteries.
  • Multi-Channel Parallel Testing: Eight independent channels allow simultaneous testing of multiple cells, increasing throughput in R&D and quality control settings.

Trade-offs

  • 50Hz Mains Frequency Dependency: The system operates on AC 220V/110V at a fixed 50Hz frequency, requiring a compatible mains supply or a frequency converter in 60Hz regions.
  • Form Factor Cable Restriction: Included coin cell clips limit testing to coin cells; other battery types require custom cables specified at time of purchase.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

Additional information

Weight 5 kg
Dimensions 60 × 40 × 10 cm
Current range

5V10ma, 5V20ma, 5V50ma

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