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NEWARE CT/CTE-8000 & 9000 Series Battery Simulation Testers

The NEWARE CT/CTE-8000 and 9000 Series battery testing systems deliver the next level of precision and real-world simulation to electric vehicle (EV) and portable device battery development. Built for today's demanding research laboratories and manufacturing lines, these systems empower engineers to perform dynamic drive cycle simulations, pulse testing, and detailed analytics for every stage of product validation. Whether you innovate with solid-state chemistries, optimize lithium-ion packs, or seek breakthrough reliability in consumer electronics, NEWARE's multi-channel architecture, rapid response, and granular safety controls ensure your battery research leads the industry. Designed with tiered current ranges, energy recycling options, and high-frequency sampling, the CT/CTE-8000 and 9000 Series are the trusted standard for future-focused battery preparation, certification, and lifecycle management.

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CT/CTE-8000 Simulation Battery Testing System

CT/CTE-8000 Simulation Battery Testing System

CT/CTE-8000 Simulation Battery Testing System
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    CT-9000 Ultra-Precision Battery Testing System

    CT-9000 Ultra-Precision Battery Testing System

    CT-9000 Ultra-Precision Battery Testing System
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      NEWARE CT/CTE-8000 Series: Simulation Battery Testing System

      The CT/CTE-8000 Series is engineered to reproduce complex, real-world load profiles for EV and portable device batteries. It simulates actual driving conditions by loading CSV or text-based waveform data sometimes millions of points at intervals as fast as 10ms allowing researchers and manufacturers to create authentic test scenarios that mirror user applications. This methodology is vital for range prediction, thermal management assessment, and validating battery pack durability over an array of environmental and electrical conditions.

      Features & Specifications

      • Real-world Drive Profile Simulation: Implements varied current and power waveforms for dynamic testing.​

      • Multi-Range Support: Current range per channel from microamp (μA) to high ampere (A) for versatile application, including module and pack testing.​

      • Pulse Testing: Minimum pulse width down to milliseconds; essential for advanced material R&D.​

      • Fast Response & High Sampling: ≤20μs charge/discharge switching, up to 1000Hz recording/sampling frequency for transient response capture.​

      • Precision Accuracy: Voltage & current accuracy of ±0.01%–0.05% F.S.; stability at ±0.01% F.S..​

      • Comprehensive Functions: Supports constant current/voltage/power charge-discharge, pulse, constant resistance discharge, CV and EIS testing in one platform.​

      • Safety & Analytics: Advanced cutoff protocols, discharge data protection, capacity/voltage limits, and integrated environmental test chambers for thorough evaluation.​

      • Energy Efficiency: >65%; supports energy feedback/recycling to internal network or other test channels.​

      • Auxiliary Measurements: Integrated temperature, voltage, and environmental chamber options for multidimensional analytics.​

      Application Scenarios

      • EV Battery Pack Performance Validation: Simulate authentic road-driving loads and scenarios; assess range, capacity, and thermal management.​

      • Portable Device Testing: Useful for smartphone, power bank, and wearables development where fine current control is required.​

      • Lifecycle & Pulse Simulation: Support for cycle life, DCIR, pulse, and dQ/dV analyses for advanced R&D.​

      • Custom Testing Protocols: Rapid switch and step times allow creation of complex, multi-variable test sequences for emerging chemistries and novel battery architectures.

      NEWARE CT-9000 Ultra-Precision Battery Testing System

      The CT-9000 Series is NEWARE's flagship platform designed for ultra-precision battery analysis—ideal for material research, production QC, and demanding industrial and EV applications.

      Key Features

      • Ultra-High Precision: Voltage & current accuracy of ±0.02% F.S., stability up to 0.01%, and 16–24 bit resolution AD/DA for nanovolt and nanoamp measurements.​

      • Multi-Channel & Multi-Range Capability: Supports parallel testing on multiple channels, current output range from 0.015mA to 15A for widely varying battery types and sizes.​

      • Rapid Response: Current rise time ≤150μs; up to 1000Hz recording/sampling frequency for capturing fast battery events.​

      • Comprehensive Test Modes: DCIR, pulse simulation, cycle life, rate charging/discharging, and dQ/dV differential capacity curve analysis provide a full suite for research and production.​

      • SMBus Communication & Integration: Smart battery communication and easy connection to auxiliary voltage, temperature sensors, and environmental chambers.​

      • Energy Recycling & Eco-Friendly Design: Regenerative discharge capability returns energy to local power networks or other channels; lowering operating cost while supporting green objectives.​

      • Protection Features: Overvoltage, overcurrent, capacity, voltage, and current fluctuation protections; supports precise measurement even at the smallest scales.​

      • Offline Testing & Data Handling: Supports high-capacity offline data logging (1GB/channel); full compatibility with modern analysis workflows.​

      Industry Use Cases

      • EV Industry: Cycle life, pulse simulation, rate charge/discharge (C-rate), and DCIR tests for pack and cell R&D; critical for validating performance, safety, and warranty claims.​

      • Material Science & Advanced R&D: High-frequency sampling and multi-range output for dQ/dV curves, solid-state battery exploration, electrode innovation, and interface stability studies.​

      • Consumer Electronics & Portable Devices: From smartphones to wearables, the CT-9000 ensures batteries not only last but perform reliably over their life.​

      • Manufacturing Quality Control: Ensures each module/cell meets rigorous performance criteria across mass production, integrating with environmental chamber testing as needed.​

      Comparing CT/CTE-8000 vs CT-9000 Series

      Feature CT/CTE-8000 Series CT-9000 Ultra-Precision Series
      Simulation Capability Real-world EV/Device load simulation Pulse, DCIR, and differential curve tests
      Accuracy ±0.01%–0.05% F.S. ±0.02% F.S.
      Recording Frequency 100Hz–1000Hz Up to 1000Hz
      Fast Pulse Response ≤20μs–20ms ≤150μs
      Safety Cutoff Advanced cutoff protocols Over/under voltage, current, capacity
      Parallel Channels Multiple (configurable) Multiple (supports cross-unit paralleling)
      Energy Feedback/Recycle Yes Yes
      SMBus & Aux Integration Available Available
      Target Applications EV, wearables, power tools, R&D Research labs, QC, material studies
      Typical Use Cases Drive cycle simulation, device QA UHP pulse, cycle life, advanced analytics
       
       

      Technical Excellence

      NEWARE's CT/CTE-8000 and 9000 Series embed the latest advances in battery testing: sub-millisecond response times, nanovolt/nanoamp resolution, and robust protection mechanisms. Their software enables fully programmatic control for custom test strategies and seamless integration of auxiliary measurement systems, making them the backbone of battery innovation laboratories worldwide. Redundant safety protections ensure your samples, equipment, and staff are safeguarded even under the most demanding test scenarios.

      Getting Started & Contact

      Unlock the full potential of your EV and portable device battery testing workflow with NEWARE. Contact ScienceGears for product demonstrations, technical documentation, pricing quotations, and deployment support. Discover why leading institutions and manufacturers trust NEWARE for their research and mass production requirements.