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With Flexxon Power Loss Protection Features Dram What is Power Loss Protection (PLP)? Need to secure your data against unexpected power shutdowns? Your wait is over - Flexxon’s SSD Power Loss protection offers the best-in-class data security with NEVER LOSE YOUR DATA AGAIN! DRAM-less design, reliable supercapacitors, and standalone tantalum capacitor array that lasts for WITH FLEXXON POWER LOSS decades. PROTECTION FEATURES High-performance data storage devices are available at affordable prices in the market, but with a major drawback. The problem is that they are unable to protect data during power failure. That’s where Flexxon SSDs come to the rescue. During SSD operation, data is temporarily stored in DRAM for improved performance. But DRAM needs an external power supply to function. So, in case of sudden power failure, power to DRAM is cut abruptly and critical data is lost. DRAM-less Design Capacitor provide power to the DRAM during sudden power External DRAM puts in-flight data at risk. failure, making it possible to flush data from DRAM to NAND memory. How Does PLP protect my data? The data is temporarily stored in DRAM for better performance. But DRAM functions on external power, so data can be lost during sudden power failure. Flexxon Supercapacitor Technology Power Loss Protection provides a time window to quickly More efficient than industrial batteries, secure data by flushing it from DRAM to NAND memory. supercapacitors offset risks from power loss. This is achieved because of power loss solutions added that power up the DRAM so that data flushing to NAND is complete. As a result, you no longer have to worry about power losses Tantalum Capacitor Array Protect data in the write cache with capacitors that last for decades. PLP with Supercapacitor Technology Flexxon Group Website : http://www.flexxon.com/ Home | Products | Contacts The Need For Power Loss Protection During normal shutdown, host systems initiate a ‘STANDBY IMMEDIATE’ command so that SSD gets enough time to shut SSD POWER LOSS PROTECTION down. But during abrupt power failures, SSD loses power without having enough time to shut down. Power losses TECHNOLOGY can be short or long, both put your data at risk. While it’s impossible to predict sudden power failures, it’s possible to take protective measures beforehand. DRAM-less Design Whether you operate in the Industrial, Medical, or Automotive space, securing your data is important to keep Flexxon SSD comes with a DRAM-less design applications running. Data loss can lead to significant to secure against power loss. Most SSDs have losses in time and revenue. Hence, it’s important to an external DRAM, in which in-flight data can safeguard your data against power failures. be lost during sudden power failures. Flexxon SSD secures data with its innovate DRAM-less design, providing high performance and data integrity. Supercapacitor Technology WHY CHOOSE FLEXXON? Supercapacitors have a very high capacitance and their energy discharge per second is greater than industrial batteries. This makes sure that your data is always secured in case By providing top quality storage solutions to a of power loss. Regular supercapacitors wear out quickly due to high and low temperature diverse clientele in the Industrial, Medical, cycling. But supercapacitors in Flexxon SSDs and Automotive (IMA) space, Flexxon has last much longer because of excessive positioned itself as the global leader in the redundancy and higher level cooling techniques. flash storage industry. Flexxon’s relentless focus on innovation, efficiency, and reliability has led its exponential growth in the recent Standalone Tantalum years. While others focus on profits, Flexxon Capacitor Array focuses on delivering products of unmatched quality to its customers. Tantalum capacitors protect data in the write cache during power failure. Tantalum capacitors provide power and keep the drive running so that the ongoing drive functions aren’t disrupted due to power failure. Tantalum capacitors don’t have any liquid to dry-out, so they can last for decades. Flexxon Group Website : http://www.flexxon.com/ Home | Products | Contacts .
Recommended publications
  • Reliability of Tantalum Capacitors
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  • Failure Mechanisms in Wet Tantalum Capacitors
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  • The Tantalum Capacitor Electric Parameters Tantalum Capacitor Manufacturer
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    Product Sample & Technical Tools & Support & 参考資料 Folder Buy Documents Software Community LM2594, LM2594HV JAJS844D –DECEMBER 1999–REVISED MAY 2016 LM2594、LM2594HV SIMPLE SWITCHER®電力コンバータ、150kHz 0.5A降圧型電圧レギュレータ 1 特長 3 概要 1• 3.3V、5V、12V、および可変出力バージョン LM2594xxシリーズのレギュレータは、降圧型(バック)ス • 可変出力電圧バージョンは1.2Vから最大37V(HV イッチング・レギュレータのすべてのアクティブ機能を内蔵 バージョンは57V)の出力電圧範囲で、入力と負 したモノリシックICで、優れたラインおよび負荷レギュレー 荷の全条件で±4%の許容誤差 ションで0.5Aの負荷を駆動できます。3.3V、5V、12Vの固 • 8ピン表面実装パッケージおよび8ピンPDIPパッ 定出力電圧と、可変出力電圧のバージョンがあり、8ピン ケージで供給 PDIPと8ピン表面実装SOICパッケージで供給されます。 • 0.5Aの出力電流を保証 • 最大60Vの入力電圧範囲 必要な外付け部品が少なくてすみ、使い方が簡単で、内 • 4個の外付け部品で動作可能 部的な周波数補償、固定周波数のオシレータが搭載さ • 150kHz固定周波数の内部オシレータ れ、ラインおよび負荷のレギュレーション仕様が強化され • TTLシャットダウン機能 ています。 • 低消費電力のスタンバイ・モード、IQの標準値 LM2594xxシリーズは150kHzのスイッチング周波数で動 85μA 作するため、低周波数で動作するスイッチング・レギュレー • 高効率 タに比べて、サイズの小さなフィルタ部品を使用できます。 • 容易に入手可能な標準インダクタ使用 効率が高いため、通常はプリント基板の銅配線のみが必 • サーマル・シャットダウンおよび電流制限保護 要なヒートシンクになります。 2 アプリケーション 製品情報(1) • シンプルな高効率降圧型(バック)レギュレータ 型番 パッケージ 本体サイズ(公称) • リニア・レギュレータ用の高効率プリレギュレー LM2597、 SOIC (8) 4.90mm×3.91mm タ LM2597HV PDIP (8) 9.81mm×6.35mm • オンボード・スイッチング・レギュレータ (1) 提供されているすべてのパッケージについては、巻末の注文情報 • 反転型コンバータ を参照してください。 代表的なアプリケーション 固定出力電圧バージョン 1 英語版のTI製品についての情報を翻訳したこの資料は、製品の概要を確認する目的で便宜的に提供しているものです。該当する正式な英語版の最新情報は、www.ti.comで閲覧でき、その内 容が常に優先されます。TIでは翻訳の正確性および妥当性につきましては一切保証いたしません。実際の設計などの前には、必ず最新版の英語版をご参照くださいますようお願いいたします。 English Data Sheet: SNVS118 LM2594, LM2594HV JAJS844D –DECEMBER 1999–REVISED MAY 2016 www.tij.co.jp 目次 1 特長.......................................................................... 1 8.1 Overview ................................................................
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  • THE ELECTRICAL CHARACTERIZATION of TANTALUM CAPACITORS AS MIS DEVICES Brian Holman Clemson University, [email protected]
    Clemson University TigerPrints All Theses Theses 6-2008 THE ELECTRICAL CHARACTERIZATION OF TANTALUM CAPACITORS AS MIS DEVICES Brian Holman Clemson University, [email protected] Follow this and additional works at: https://tigerprints.clemson.edu/all_theses Part of the Electrical and Computer Engineering Commons Recommended Citation Holman, Brian, "THE ELECTRICAL CHARACTERIZATION OF TANTALUM CAPACITORS AS MIS DEVICES" (2008). All Theses. 393. https://tigerprints.clemson.edu/all_theses/393 This Thesis is brought to you for free and open access by the Theses at TigerPrints. It has been accepted for inclusion in All Theses by an authorized administrator of TigerPrints. For more information, please contact [email protected]. THE ELECTRICAL CHARACTERIZATION OF TANTALUM CAPACITORS AS MIS DEVICES A Thesis Presented to the Graduate School of Clemson University In Partial Fulfillment of the Requirements for the Degree Master of Science Electrical Engineering by Brian Holman August 2008 Accepted by: Dr. William R. Harrell, Committee Chair Dr. James E. Harriss Dr. Pingshan Wang 1 ABSTRACT Electrical characteristics of a new class of tantalum capacitor are presented. Specifically, this type of tantalum capacitor is manufactured by KEMET Electronics Corporation and utilizes Poly(3,4-ethylenedioxythiolphene) (PEDOT) as the cathode material. There are two capacitor varieties based on the polymerization method used for the PEDOT. One uses In-Situ polymerization, and the other uses Pre-Polymerization. Existing polymer Ta capacitors use In-Situ polymerization while Pre-Polymerization is a new technique of cathode application. We investigated both types of devices to determine what, if any, performance benefits were gained by using Pre-Poly. In a basic form Ta capacitors consist of a Ta anode, Ta2O5 dielectric, and PEDOT cathode polymerized to be a semiconductor.
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  • Tantalum Capacitor
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