2TPE330MADGB - Panasonic Electronic Components

Manufacturer Part Number

2TPE330MADGB

Manufacturer

Panasonic

Introduction

The 2TPE330MADGB is a surface-mount, tantalum-polymer capacitor from Panasonic's POSCAP™ TPE series.

Product Features and Performance

High capacitance of 330 µF

Tolerates voltage fluctuations with a rated voltage of 2 V

Low ESR of 13mOhm @ 100kHz for better filtering

Capable of operating across a wide temperature range from -55°C to 105°C

Stable performance with a molded case design

Long operational life with an endurance of 1000 hours at 105°C

Product Advantages

Compact form factor suited for space-sensitive applications with dimensions 3.50mm x 2.80mm x 2.00mm

Offers superior volumetric efficiency compared to traditional capacitors

Polymer cathode enables lower ESR and higher ripple current handling

Enhances circuit reliability due to stable characteristics over the lifetime

Key Technical Parameters

Capacitance: 330 µF

Voltage - Rated: 2 V

ESR: 13mOhm @ 100kHz

Operating Temperature Range: -55°C ~ 105°C

Lifetime @ Temp.: 1000 Hrs @ 105°C

Quality and Safety Features

Constructed to meet stringent industry standards

Built with materials designed to ensure reliable performance and safety

Compatibility

The surface-mount package compatible with standard SMT processes

Uniform size makes it an easy fit for the standard 1411 (3528 Metric) footprint

Application Areas

Can be used in a range of electronic circuits such as decoupling, smoothing, and filtering applications

Particularly useful for portable electronics, industrial machinery, and automotive systems

Product Lifecycle

Obsolete status, with the possibility of limited stock availability

Recommendations for replacements or upgrades may be necessary

Several Key Reasons to Choose This Product

High reliability proven by the Panasonic brand

Can handle high ripple currents due to polymer cathode technology

Minimizes impedance and improves the performance of high-frequency circuits

Proven track record in diverse applications

Size and performance suitable for upgrading existing designs without re-engineering circuit layouts