NIC Components Unveils Double Layer Supercapacitors for Consumer Electronics
NIC Components Unveils NDLC Series Standard Coin-Type Supercapacitors for Reliable and Versatile Energy Storage
BonChip Electronics, a trusted distributor of NIC Components' high-quality passive components, is excited to announce the release of the NDLC Series of standard coin-type supercapacitors. These innovative supercapacitors offer a compelling combination of high capacitance, wide operating temperature range, and long cycle life, making them ideal for a broad range of applications.
Key Features for Enhanced Performance and Reliability
The NDLC Series supercapacitors boast a set of impressive features:
- Standard Coin Type Construction: Ensures compatibility with industry-standard PCB layouts and simplifies integration into existing designs.
- High Temperature Operation: Withstands a wide operating temperature range of -25°C to +70°C, enabling use in demanding environments.
- RoHS Compliant: Meets stringent environmental regulations, ensuring compatibility with eco-conscious products.
- Extended Cycle Life: Maintains high capacitance over an extended number of charge-discharge cycles, ensuring long-term reliability.
- Low Leakage Current: Minimizes self-discharge, making them suitable for applications requiring long-term memory retention.
Diverse Applications for Reliable Energy Storage
The NDLC Series supercapacitors are well-suited for a wide range of applications where reliable energy storage is critical:
- Backup Power for Real-Time Clocks (RTCs): Provides uninterrupted power to RTCs, ensuring accurate timekeeping even during power outages or battery failures.
- Memory Retention: Maintains data integrity in electronic devices, preventing memory loss when primary power sources are unavailable.
- Button Cell Battery Replacement: Offers a long-lasting and environmentally friendly alternative to disposable button cell batteries.
Contact BonChip Electronics today to learn more about the NDLC Series supercapacitors and explore how they can elevate the energy storage capabilities of your next design.
