16SVPK330M Alunimum Solid Capacitors: Datasheet, CAD-Model

16SVPK330M OS-CON Conductive Polymer Alunimum Solid Capacitors image

Catalog

16SVPK330M Description

16SVPK330M Polarity Marking

16SVPK330M CAD-Model

16SVPK330M Feature

16SVPK330M Application

16SVPK330M Diagram

16SVPK330M Dimension

16SVPK330M PDF

Today we are going to introduce Panasonic Electronic Components 16SVPK330M: Enhancing Efficiency and Reliability in Electronic Devices

16SVPK330M is a OS-CON Conductive Polymer Alunimum Solid Capacitors (Wound Type) features: LOW ESR, High voltage, Large capacitance

Introduction:

In the fast-paced world of electronics, efficiency and reliability are crucial factors that determine the success of electronic devices. Panasonic Electronic Components, a renowned global manufacturer, has consistently pushed the boundaries of innovation to meet these demands. One of their notable products, the Panasonic Electronic Components 16SVPK330M, has gained recognition for its exceptional performance and reliability. This article explores the features and benefits of this component and how it contributes to the advancement of electronic devices.

16SVPK330M Description

System power is determined by 1.04A @ 100kHz ripple current on a high frequency.Electrical device with 22mOhm ESR

(Equivalent Series Resistance).To fully perform the function of 52mA @ 120Hz, a ripple current at low frequency must be provided.

It is recommended to operate at -55°C~125°C for stable operation.

16SVPK330M Polarity Marking

16SVPK330M CAD-Model

Symbol

Footprint

3D-Model

Feature

High voltage (50 V max.)

125 C 1000 h

RoHS compliance, Halogen free

16SVPK330M Features

1.04A @ 100kHz ripple current on a high frequency

a 22mOhm in ESR (Equivalent Series Resistance) in this electrical device

an operating temperature of -55°C~125°C

16SVPK330M Applications

The following devices are a lot of Panasonic Electronic Components

16SVPK330M applications of aluminum polymer capacitors.

LED driver power supplies

Phone chargers

Motherboards

Servers and adapters (laptop power supplies)

Medical equipment

Switching Power Supply and DC/DC Converter.

Buck up Power Supplies of CPU(VRM etc.)

Miniature high Power Supply.

Superior Capacitance:

The Panasonic Electronic Components 16SVPK330M is a surface-mount type aluminum electrolytic capacitor. With a capacitance of 33µF and a voltage rating of 16V, it offers high capacitance in a compact size. This feature makes it suitable for a wide range of electronic applications, including power supplies, audio equipment, and communication devices.

Low ESR and High Ripple Current:

One of the key advantages of the 16SVPK330M is its low equivalent series resistance (ESR) and high ripple current capability. The low ESR ensures minimal energy loss and improved power efficiency, making it ideal for high-performance applications. Additionally, the high ripple current rating enables stable operation under demanding conditions, ensuring reliable performance even in power-hungry devices.

Long Service Life:

Panasonic Electronic Components is committed to delivering products with exceptional durability. The 16SVPK330M is designed to withstand harsh operating conditions, thanks to its high-quality materials and construction. It offers a long service life, ensuring the longevity and reliability of electronic devices.

AEC-Q200 Compliance:

The 16SVPK330M is compliant with the Automotive Electronics Council’s AEC-Q200 standard, which sets rigorous requirements for electronic components used in automotive applications. This compliance ensures that the capacitor meets the industry’s stringent quality and reliability standards, making it suitable for automotive electronics, such as engine control units, infotainment systems, and lighting systems.

RoHS and REACH Compliance:

Panasonic Electronic Components prioritizes environmental responsibility and safety. The 16SVPK330M is compliant with the Restriction of Hazardous Substances (RoHS) directive, which restricts the use of hazardous substances in electronic products. It also complies with the Registration, Evaluation, Authorization, and Restriction of Chemicals (REACH) regulation, ensuring the absence of harmful chemicals in its composition.

16SVPK330M Dimension

Marking

16SVPK330M PDF

Conclusion:

The Panasonic Electronic Components 16SVPK330M is a high-performance aluminum electrolytic capacitor that offers exceptional efficiency, reliability, and longevity. With its superior capacitance, low ESR, high ripple current capability, and compliance with industry standards, it has become a trusted choice for electronic designers and manufacturers worldwide. Whether in automotive applications or various electronic devices, this component plays a vital role in enhancing performance and ensuring the reliability of electronic systems. Panasonic Electronic Components continues to innovate and deliver cutting-edge solutions that drive the advancement of electronic technology.

Frequently Asked Questions

What is 16SVPK330M ?

The 16SVPK330M refers to a specific model of surface-mount aluminum electrolytic capacitor manufactured by Panasonic Electronic Components. It is a capacitor with a capacitance of 33µF and a voltage rating of 16V. This component is designed to provide high capacitance in a compact size, making it suitable for various electronic applications, including power supplies, audio equipment, and communication devices. The 16SVPK330M capacitor is known for its low equivalent series resistance (ESR), high ripple current capability, long service life, and compliance with industry standards such as AEC-Q200, RoHS, and REACH. It is widely used in electronic devices to enhance efficiency and reliability.

Related Articles

2N5551 vs BC547 BJTs Comparison

Release time:2024-05-05       Page View：2149

The 2N5551 and BC547 are both NPN bipolar junction transistors (BJTs) commonly used in various electronic circuits. While they share some similarities, there are also key differences between them, making them suitable for different applications. This article provides a comprehensive comparison of these two transistors, focusing on their specifica...

LM3914 vs LM3915 vs LM3916 vs LM3917 How They Work?

Release time:2024-05-04       Page View：1695

This post is about LM3914 vs LM3915 vs LM3916 vs LM3917 detailed comparison.

Top 12 electronic component distributors 2024

Release time:2024-04-25       Page View：6217

Explore the leading electronic component distributors of 2023. From Arrow Electronics to WPG Holdings, discover how top distributors are shaping the global market.

TPS5450DDAR Datasheet, Pinout, Specification

Release time:2024-04-22       Page View：551

Understanding the : A Comprehensive GuideThe TPS5450DDAR is a highly integrated, step-down converter with an integrated MOSFET, designed to deliver up to 3A of continuous output current.

C945 Transistor Datasheet:C1815 VS C945 Comparison

Release time:2024-04-18       Page View：3138

C945 Transistor Datasheet: Features, Applications, and Comparison with C1815. Learn about the C945's pinout, circuits,operation, and how to use it. C945 VS C1815

Lithium Battery Charger TP4056: Datasheet, Schematic, Price

Release time:2024-04-15       Page View：12754

TP4056 charging module: Single-cell Li-ion charger. Find TP4056 datasheet & TP4056 pinout & TP4056 power path circuit here

TDA7265 Audio Amplifier:How To Connect And Test?

Release time:2024-04-02       Page View：3065

TDA7265 DatasheetTDA7265 PinoutTDA7265 Circuit DiagramTDA7265 EquivalentTDA7265 ICPriceTDA7265 FeaturesTDA7265 PackageTDA7265 ApplicationsTDA7265 Applications CircuitHow to Connect and TestTDA7265 Audio Amplifier?TDA7265 VS TDA7269VS TDA2050VS TDA7294What isTDA7265?The TDA7265 is a pop...

1n4007 vs 1n5399 Rectifier Diode: Pinout, Datasheet, Specifications

Release time:2024-03-30       Page View：5127

**1N4007 vs 1N5399 Rectifier Diode: Pinout, Datasheet, Specifications****Introduction**Rectifier diodes are essential components in electronic circuits, responsible for converting alternating current (AC) to direct current (DC). Among the commonly used rectifier diodes are the 1N4007 and 1N5399.

SN74HC595N vs SN74HC574N Shift Register Datasheet,Specs

Release time:2024-03-20       Page View：728

Dear friends，this post will help you make a better choice betweenSN74HC595N vs SN74HC574N for you, and revealShift Register Datasheet,Specs.SN74HC595N:Shift Register 2/6V -40°C~85°C Shift Register 74HC Series 74HC595 16 Pin 5V 16-DIP (0.300, 7.62mm)SN74HC574N:2V~6V 36MHz 8 Bit D-Type Flip Flop DUAL 74...

H6 vs H7 vs H8 vs H9 Battery Difference and Choosing Guide

Release time:2024-03-14       Page View：11154

This post is about H6 vs H7 vs H8 vs H9 Battery Difference and Choosing Guide: Understanding the Variances and Making Informed Decisions

ADRV9009BBCZ RF Description, Datasheet, Specification

Release time:2024-03-14       Page View：360

This post will help you go through the infomation about ADRV9009BBCZ,including Datasheet,Pinout, block diagram, Specification ,etc.ADRV9009BBCZOverviewADRV9009BBCZGeneral DescriptionTheADRV9009is a highly integrated, radio frequency (RF), agiletransceiver offering dual transmitters and receivers, integratedsynthesizers, ...

A3141, A3142, A3143, and A3144 Hall Effect Sensor Differences

Release time:2024-03-11       Page View：1590

Introduction:Hall effect sensors are widely used for various sensing applications, ranging from position sensing to current measurement. The A3141, A3142, A3143, and A3144 are popular Hall effect sensor models manufactured by Allegro Microsystems. While they may appear similar at first glance, each sensor in this series offers unique features and ...