Description
Ultra-High-Temperature Solid-State Battery (4-Pack)COMMERCIAL GRADE · PRODUCTION
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TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: inquiry@atomfair.com
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Manufacturer: Atomfair LLC
Brand: ATOMFAIR®
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Store and operate the battery strictly within 25°C to 150°C to maintain performance and safety. The battery requires pairing with a BMS rated for high-temperature solid-state operation and must not be mechanically overstressed above 120°C.
- Moisture Sensitivity: The battery is sensitive to moisture and must be stored in the provided moisture-barrier bags when not in use.
- Mechanical Overstress Limit: Mechanical overstress above 120°C may compromise the cell integrity and must be avoided.
- BMS Compatibility: Only use a BMS specifically rated for high-temperature solid-state batteries to ensure safe operation.
- Pre-conditioning Requirement: Pre-condition the battery at elevated temperature before first use as recommended by the manufacturer.
Follow these steps to safely initialize and operate the battery in extreme thermal environments. Each action is derived from the product's safety and handling instructions.
Required Equipment: High-temperature solid-state battery BMS, Thermal management system
- Inspect Battery
Inspect the battery for any physical damage or deformation before installing or charging. - Pre-condition the Cell
Pre-condition the battery at an elevated temperature as specified by the manufacturer before first use. - Connect BMS
Connect the battery to a BMS rated for high-temperature solid-state operation following the BMS wiring diagram. - Manage Thermal Environment
Ensure proper thermal management is in place for operation above 120°C to prevent overheating. - Verify Mechanical Mounting
Verify that the battery is mounted without mechanical overstress, especially in high-vibration environments.
How does the LSR60100 solid-state battery maintain capacity stability at 150°C compared to conventional lithium-ion batteries?
The LSR60100 is designed with a fully solid-state electrolyte, eliminating liquid components that degrade at high temperatures. The source states it offers stable capacity retention and cycle life even under prolonged high-temperature exposure up to 150°C. However, for operation above 120°C, proper thermal management and avoidance of mechanical overstress are recommended to sustain performance.
What BMS or protection circuit is required for integrating the LSR60100 solid-state battery into a high-temperature system?
The source explicitly states to always pair the LSR60100 with a BMS rated for high-temperature solid-state batteries. Additionally, pre-conditioning at high temperature is recommended before first use. This ensures compatibility and safe operation in extreme environments like geothermal probes or aircraft engine nacelles.
What special handling or storage conditions are required for the LSR60100 solid-state battery before installation?
The source specifies that each cell is individually sealed in moisture-barrier bags and packed in high-temperature-resistant anti-static trays with ceramic-coated terminal covers. This packaging is designed to protect the battery during storage and transport. For operation above 120°C, pre-conditioning at high temperature is recommended before first use to ensure optimal performance.
This all-solid-state battery offers continuous operation up to 150°C with intrinsic safety from no liquid electrolyte, but requires careful thermal management above 120°C and pre-conditioning for optimal performance.
Positive
- Ultra-high temperature operation up to 150°C: Continuous operation from 25°C to 150°C enables deployment in geothermal drilling, aerospace engine compartments, and industrial furnaces without risk of electrolyte leakage or thermal runaway.
- Exceptional mechanical robustness: Fully solid-state design withstands high-frequency, high-intensity external shocks and vibrations, making it suitable for downhole drilling and other harsh environments.
Trade-offs
- Thermal management required above 120°C: For operation above 120°C, proper thermal management and avoidance of mechanical overstress are necessary to maintain performance and safety.
- Pre-conditioning and compatible BMS needed: Pre-conditioning at high temperature is recommended before first use, and the battery must always be paired with a BMS rated for high-temperature solid-state batteries.
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).



