This Single Cell Super Capacitor Protection IC has been tailored explicitly for charging backup power sources under extreme conditions.
Backup power is essential in numerous settings, but lithium-ion batteries' limited temperature tolerance often restricts their application. In response, Littelfuse has engineered the LS0502SCD33S, leveraging supercapacitor technology, to deliver a solution that works well in a broad temperature range and offers superior power/energy density. This single-cell approach ensures a reliable and compact backup option.
A standout feature of the LS0502SCD33S is its proficiency in managing high operational voltages (above 3 V), eliminating the necessity for intricate power management arrangements. The device protects against potential system impairments with its integrated input overvoltage and current protection mechanisms. It offers an adaptable, all-in-one, and space-efficient solution for storage capacitors or capacitor banks.
Additionally, it incorporates an ideal diode for reverse blocking to maintain performance and efficiency when the input voltage drops.
The LS0502SCD33S Single Cell Super Capacitor Protection IC is suited for various SuperCap uses, such as:
- Automotive dash cameras,
- Smart utility meters,
- IoT gadgets,
- Industrial handheld devices,
- Portable electronics with removable batteries.
The LS0502SCD33S supports an extensive array of protection functionalities, such as Over-Current Protection (OCP) and Over-Voltage Protection (OVP), while also being energy-efficient and facilitating automatic primary/backup switchover, distinguishing it from competing products.
Beyond its protective capabilities, it offers numerous advantages. It enhances reliability and extends the lifespan, helping manufacturers lower maintenance costs. Moreover, it promotes extended battery durability and minimizes the end-products' size due to its compact design, an essential feature for devices that require prolonged standby times.
The LS0502SCD33S is a comprehensive backup storage capacitor system solution that integrates input overvoltage, overcurrent protection, a reverse blocking switch, and supercapacitor charging control circuits. It ensures balanced charging for single cell supercapacitor configurations, operates with a minimal 2.5 μA current draw after the storage component is fully charged, and signals the disconnection of the input supply, allowing the primary system to react swiftly.