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Commercial grade high rate solid state power tool battery cell designed for high torque continuous 7C discharge applications.

ZC Series High-Rate Solid-State Power Cell 4Ah ATOMFAIR®

$200.00

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.

Professional tool grade ZC Series solid-state cell with composite LMO/LMFP cathode. 4Ah capacity, 3.8V nominal, ≤5mΩ IR, 7C discharge. Order now.

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Description

ZC Series High-Rate Power Cells (Professional Tool Grade)

COMMERCIAL GRADE · PRODUCTION

Product Overview
High-torque heavy industrial equipment and intensive pulse current processing demand extreme solid-state kinetic thresholds, and this commercial-grade high energy density lithium ion battery pack cell series eliminates performance restrictions during rapid continuous current loops. Utilizing an advanced, composite manganese-based cathode (LMO + LMFP) and an optimized high-rate graphite anode, the architecture functions as an immaculate, fast-response e motorcycle motive power core alternative or heavy duty tool battery layer. Operating as a pinnacle high rate solid state cell configuration, the system delivers an aggressive continuous 7C discharge capability while locking surface thermal dissipation rises below a controlled 30 °C boundary. This low impedance profile protects internal particle borders from localized structural breakdown, assisting equipment designers implementing intelligent battery management balancing modules across high-frequency industrial manufacturing or remote swapping infrastructures safely. For bulk inquiries or official volume quotations, please contact us via email at inquiry@atomfair.com.

Technical Specifications
HARDWARE PARAMETER ITEM TECHNICAL SPECIFICATION RATINGS
Model SKU Number Selection ZC5078T1-4 (High-Rate Power Focus Variant)
Nominal Electrical Capacity 4 Ah Baseline (4,000 mAh Rating Limit)
Nominal Voltage / Operating Window 3.8 V Nominal potential (Full operating range: 3.0 V – 4.3 V DC)
Internal AC Resistance (IR) ≤ 5 mΩ (Measured @ 1 kHz under a 30% State of Charge)
Continuous Discharge Capacity Rate 7C Constant Current Current Extraction Path
Discharge Surface Thermal Rise ≤ 30 °C Peak Increment under Full Load Run
Verified Lifecycle Metrics ≥ 400 Cycles (@ Room Temperature, 1C Charge / 1C Discharge criteria)
Alternative Catalog Items Explore our alternative collection for high-capacity solid-state swapping cell series (20Ah – 39Ah variants), pre-assembled e-bike mobility battery packs, high-current connector adapters, or diagnostic test cyclers.

Key Features & Advantages
  • High-Discharge Power Capability: Delivers a reliable continuous 7C discharge rate, matching the massive instantaneous torque demands of industrial power tools.
  • Elite Thermal Stability Bounds: Advanced solid-state structural synthesis restricts cell face temperature increments strictly below 30 °C under heavy loading loops.
  • Ultra-Low System Impedance: Internal AC resistance tracks beneath ≤5 mΩ to minimize energy conversion loss and maximize runtime efficiency.
  • Solid-State Infrastructure Safety: Proprietary internal high-performance electrolyte coating layers prevent internal thermal runaway paths under extreme multi-shift operations.

APPLICATION SCOPE: High-rate industrial drills, heavy duty professional power tools, high-speed automated guided vehicles (AGVs), tactical light robotics, and portable high-drain secondary devices.
TECHNICAL CUSTOMIZATION & OEM: Bespoke mechanical cell footprints, customized terminal tab configurations, and complete bulk laboratory-grade validation reports are provided upon project blueprint verification.
OPERATIONAL COMPLIANCE NOTICE: High-rate solid-state cell units carry substantial electrochemical power caps. Store components inside dry, ventilated environments held between a constant 15 °C – 30 °C thermal zone. Prevent terminals from contacting short-circuit tracks, and handle active rows securely within a rigid compression fixture plate structure inside multi-cell assemblies to maintain uniform solid layer contact.
TAILORED SOLUTIONS FOR PRODUCTION
Contact our engineering team for technical support, custom dimensions, or official quotations.
EMAIL: INQUIRY@ATOMFAIR.COM
Manufacturer: ATOMFAIR LLC · ADVANCED ENERGY STORAGE DIVISION
Brand: ATOMFAIR®
Specifications are representative and subject to change without notice. For the latest version and compliance certificates, contact official sales channel.

The ZC Series cells must be maintained within a 3.0–4.3 V operating window to prevent accelerated degradation or hazardous failure. Continuous high-rate discharge must be limited to keep the surface temperature rise below 30 °C and avoid localized structural breakdown.

  • Voltage Window: Operation outside the 3.0–4.3 V range can cause irreversible capacity loss or safety risks.
  • Thermal Rise Limit: Surface temperature must not exceed 30 °C above ambient during sustained discharge to protect internal particle integrity.
  • BMS Integration: An intelligent battery management system with balancing functionality is required to monitor cell voltages and prevent over-discharge.

Follow these steps to prepare the cells for integration into a high-rate power tool battery pack. Proper initialization minimizes risk and ensures optimal performance.

Required Equipment: Calibrated multimeter, Intelligent battery management system (BMS), Compatible lithium-ion charger with voltage cutoff at 4.3 V

  1. Inspect cell condition
    Inspect the cell for any physical damage, swelling, or terminal corrosion before proceeding.
  2. Verify open-circuit voltage
    Confirm the cell's open-circuit voltage is between 3.0 V and 4.3 V using a calibrated multimeter.
  3. Connect to BMS
    Connect the cell terminals to an intelligent BMS capable of balancing and protecting against overvoltage and undervoltage conditions.
  4. Perform initial charge
    Charge the cell using a compatible lithium-ion charger limited to 4.3 V per cell and an appropriate current rate for the initial cycle.

How does the 7C continuous discharge rate of the ZC Series cell impact cycle life under sustained high-load operation?

The ZC Series cell delivers a continuous 7C discharge rate while maintaining a verified lifecycle of ≥400 cycles at room temperature under 1C charge/1C discharge criteria. The ultra-low internal AC resistance of ≤5 mΩ minimizes energy conversion loss and heat generation, with surface thermal rise capped at ≤30 °C under full load, preserving electrode integrity during sustained high-rate operation.

Can the ZC5078T1-4 cell be integrated into existing e-motorcycle battery pack designs without modifying the BMS?

Yes, the ZC5078T1-4 cell is designed as a drop-in high-rate solid-state cell for e-motorcycle motive power cores, with a nominal voltage of 3.8 V and an operating window of 3.0 V–4.3 V DC that aligns with standard lithium-ion BMS topologies. Its low impedance profile (≤5 mΩ) supports intelligent battery management balancing modules, but designers must verify that the BMS can handle the 7C continuous discharge current (28 A for a 4 Ah cell) to avoid current-limiting bottlenecks.

What storage and handling conditions are required to prevent performance degradation in the ZC Series solid-state cells?

The ZC Series cells require storage within the specified operating voltage window of 3.0 V–4.3 V DC to avoid over-discharge damage, and should be kept at room temperature to maintain the verified ≥400 cycle life. The proprietary solid-state electrolyte coating layers prevent thermal runaway, but cells must be handled with standard lithium-ion safety protocols to avoid short circuits given the ≤5 mΩ internal resistance, which can deliver high instantaneous currents.

The ZC Series delivers a robust 7C continuous discharge rate with ultra-low impedance (≤5 mΩ) and controlled thermal rise (≤30°C), ideal for high-rate power tool applications. However, its 400-cycle lifespan under standard testing and dependence on external BMS for safe high-rate operation are key deployment factors.

Positive

  • High-rate 7C discharge capability: The cell sustains a continuous 7C discharge current, enabling high-torque output for professional power tools and e-motorcycle applications without voltage sag.
  • Ultra-low impedance and thermal stability: With internal AC resistance ≤5 mΩ and surface temperature rise capped at 30°C under full load, the cell minimizes energy loss and reduces thermal stress on internal structures.

Trade-offs

  • Moderate cycle life under standard test: The cell is rated for ≥400 cycles at 1C charge/discharge at room temperature, which may be shorter when subjected to continuous high-rate discharge in real-world use.
  • Requires external BMS for safe operation: The product is designed for integration with intelligent battery management balancing modules to prevent overcharge, overdischarge, and cell imbalance during high-frequency pulse current loops.

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).

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