UCD7231

アクティブ

電流検出および障害保護付き、デジタル制御対応、同期整流バック・ゲート・ドライバ

製品詳細

Supply voltage (Min) (V) 4.7 Supply voltage (Max) (V) 15 Number of outputs 1 Peak output current (A) 6 Input threshold CMOS, TTL Prop delay (ns) 50 Driver configuration Dual Operating temperature range (C) -40 to 125 Rating Catalog
Supply voltage (Min) (V) 4.7 Supply voltage (Max) (V) 15 Number of outputs 1 Peak output current (A) 6 Input threshold CMOS, TTL Prop delay (ns) 50 Driver configuration Dual Operating temperature range (C) -40 to 125 Rating Catalog
WQFN (RTJ) 20 16 mm² 4 x 4
  • Dual High Current Drivers.
  • Full Compatibility with TI Fusion Digital Power Supply Controllers, such as UCD91xx and UCD92xx Families
  • Operational to 2 MHz Switching Frequency
  • High-Side FET and Output Current Limit Protection with Independently Adjustable Thresholds
  • Fast High-Side Over-Current Sense Circuit with Fault Flag Output – Prevents Catastrophic Current Levels on a Cycle by Cycle Basis
  • Differential High-Gain Current Sense Amplifier
  • Voltage Proportional to Load Current Monitor Output
  • Wide Input Voltage Range: 4.7 V to 15 V
    Operation to 2.2 V Input Supported with an External 4.5-6.5 V Bias Supply
  • Onboard Regulated Supplies for Gate Drive and Internal Circuits
  • Integrated Thermal Shutdown
  • Selectable Operation Modes:
    • PWM plus Synchronous Rectifier Enable (SRE) with Automatic Dead-Time Control
    • Direct High-Gate and Low-Gate Inputs for Direct FET Control
  • 3-State PWM Input for Power Stage Shutdown
  • UVLO Housekeeping Circuit
  • Rated from –40°C to +125°C Junction Temperature
  • Pb (Lead) Free Packaging
  • APPLICATIONS
    • Digitally-Controlled Synchronous-Buck Power Stages for Single- and Multi-Phase Applications
    • Digitally-Controlled Power Modules
  • Dual High Current Drivers.
  • Full Compatibility with TI Fusion Digital Power Supply Controllers, such as UCD91xx and UCD92xx Families
  • Operational to 2 MHz Switching Frequency
  • High-Side FET and Output Current Limit Protection with Independently Adjustable Thresholds
  • Fast High-Side Over-Current Sense Circuit with Fault Flag Output – Prevents Catastrophic Current Levels on a Cycle by Cycle Basis
  • Differential High-Gain Current Sense Amplifier
  • Voltage Proportional to Load Current Monitor Output
  • Wide Input Voltage Range: 4.7 V to 15 V
    Operation to 2.2 V Input Supported with an External 4.5-6.5 V Bias Supply
  • Onboard Regulated Supplies for Gate Drive and Internal Circuits
  • Integrated Thermal Shutdown
  • Selectable Operation Modes:
    • PWM plus Synchronous Rectifier Enable (SRE) with Automatic Dead-Time Control
    • Direct High-Gate and Low-Gate Inputs for Direct FET Control
  • 3-State PWM Input for Power Stage Shutdown
  • UVLO Housekeeping Circuit
  • Rated from –40°C to +125°C Junction Temperature
  • Pb (Lead) Free Packaging
  • APPLICATIONS
    • Digitally-Controlled Synchronous-Buck Power Stages for Single- and Multi-Phase Applications
    • Digitally-Controlled Power Modules

The UCD7231 high current driver is specifically designed for digitally-controlled, point-of-load, synchronous buck switching power supplies. Two driver circuits provide high charge and discharge current for the high-side NMOS switch and the low-side NMOS synchronous rectifier in a synchronous buck circuit. The MOSFET gates are driven to +6 V by an internally regulated VGG supply. The internal VGG regulator can be disabled to permit the user to supply their own gate drive voltage. This flexibility allows a wide power conversion input voltage range of 2.2 to 15 V. Internal under voltage lockout (UVLO) logic insures VGG is good before allowing chip operation.

A drive logic block allows operation in one of two modes selected by the SRE Mode pin. In Synchronous Mode, the logic block uses the PWM signal to control both the high-side and low-side gate drive signals. Dead time is automatically adjusted to prevent cross conduction. The Synchronous Rectifier Enable (SRE) pin controls whether or not the low-side FET is turned on when the PWM signal is low. In Independent Mode, the PWM and SRE pins control the high-side and low-side gates directly. No anti-cross-conduction logic is used in this mode.

On-board comparators monitor the voltage across the high side switch and the voltage across an external current sense element to safeguard the power stage from sudden high current loads. Blanking delay is set for the high side comparator by a single resistor in order to avoid false reports coincident with switching edge noise. In the event of a high-side fault or an over-current fault, the high-side FET turned off and the Fault Flag (FLT) is asserted to alert the digital controller. The fault thresholds are independently set by the HS Sense and ILIM pins.

Output current is measured and monitored by a precision, high gain, switched capacitor differential amplifier that processes the voltage present across an external current sense element. The amplified signal is available for use by the digital controller on the IMON pin. The current sense amplifier has output offset of 0.5 V so that both positive (sourcing) and negative (sinking) current can be sensed.

An on-chip temperature sense monitors the die temperature. If it exceeds approximately 165°C, the temperature sensor will initiate a thermal shutdown that halts output switching and sets the FLT flag. The temperature fault automatically clears when the die temperatures falls by approximately 20°.

The UCD7231 high current driver is specifically designed for digitally-controlled, point-of-load, synchronous buck switching power supplies. Two driver circuits provide high charge and discharge current for the high-side NMOS switch and the low-side NMOS synchronous rectifier in a synchronous buck circuit. The MOSFET gates are driven to +6 V by an internally regulated VGG supply. The internal VGG regulator can be disabled to permit the user to supply their own gate drive voltage. This flexibility allows a wide power conversion input voltage range of 2.2 to 15 V. Internal under voltage lockout (UVLO) logic insures VGG is good before allowing chip operation.

A drive logic block allows operation in one of two modes selected by the SRE Mode pin. In Synchronous Mode, the logic block uses the PWM signal to control both the high-side and low-side gate drive signals. Dead time is automatically adjusted to prevent cross conduction. The Synchronous Rectifier Enable (SRE) pin controls whether or not the low-side FET is turned on when the PWM signal is low. In Independent Mode, the PWM and SRE pins control the high-side and low-side gates directly. No anti-cross-conduction logic is used in this mode.

On-board comparators monitor the voltage across the high side switch and the voltage across an external current sense element to safeguard the power stage from sudden high current loads. Blanking delay is set for the high side comparator by a single resistor in order to avoid false reports coincident with switching edge noise. In the event of a high-side fault or an over-current fault, the high-side FET turned off and the Fault Flag (FLT) is asserted to alert the digital controller. The fault thresholds are independently set by the HS Sense and ILIM pins.

Output current is measured and monitored by a precision, high gain, switched capacitor differential amplifier that processes the voltage present across an external current sense element. The amplified signal is available for use by the digital controller on the IMON pin. The current sense amplifier has output offset of 0.5 V so that both positive (sourcing) and negative (sinking) current can be sensed.

An on-chip temperature sense monitors the die temperature. If it exceeds approximately 165°C, the temperature sensor will initiate a thermal shutdown that halts output switching and sets the FLT flag. The temperature fault automatically clears when the die temperatures falls by approximately 20°.

ダウンロード

技術資料

star =TI が選定したこの製品の主要ドキュメント
結果が見つかりませんでした。検索条件をクリアして、もう一度検索を行ってください。
3 をすべて表示
種類 タイトル 最新の英語版をダウンロード 日付
* データシート Digital Control Compatible Synchronous-Buck Gate Driver with Current Sense & Fau データシート (Rev. A) 2009年 1月 21日
セレクション・ガイド 電源 IC セレクション・ガイド 2018 (Rev. R 翻訳版) 英語版をダウンロード (Rev.R) 2018年 9月 13日
Analog Design Journal System telemetry: What, why and how? 2014年 4月 11日

設計および開発

追加の事項や他のリソースを参照するには、以下のタイトルをクリックすると、詳細ページを表示できます。

アプリケーション・ソフトウェアとフレームワーク

FUSION_DIGITAL_POWER_DESIGNER — デジタル電源用ソフトウェア

Fusion Digital Power™ は、TI のデジタル電源コントローラとシーケンサ / ヘルス・モニタの構成および監視を行うためのグラフィカル・ユーザー・インターフェイス (GUI) ソフトウェアです。アプリケーションは PMBus プロトコルを使用し、TI の USB アダプタとシリアル・バス経由でデバイスとの通信を行います。
アプリケーション・ソフトウェアとフレームワーク

FUSION_MFR_GUI — Fusion Digital Power 作成ツール

The Fusion Digital Power Manufacturing Tool (aka MFR GUI) is a Graphical User Interface used to download firmware, upgrade firmware, configure, calibrate and test .

The MFR GUI supports the same devices as Fusion Digital Power Designer software.  This tool is typically used in manufacturing (...)

シミュレーション・ツール

PSPICE-FOR-TI — TI Design / シミュレーション・ツール向け PSpice®

PSpice® for TI は、各種アナログ回路の機能評価に役立つ、設計とシミュレーション向けの環境です。設計とシミュレーションに適したこのフル機能スイートは、Cadence® のアナログ分析エンジンを使用しています。PSpice for TI は無償で使用でき、アナログや電源に関する TI の製品ラインアップを対象とする、業界でも有数の大規模なモデル・ライブラリが付属しているほか、選択された一部のアナログ動作モデルも利用できます。

設計とシミュレーション向けの環境である PSpice for TI (...)
パッケージ ピン数 ダウンロード
QFN (RTJ) 20 オプションの表示

購入と品質

記載されている情報:
  • RoHS
  • REACH
  • デバイスのマーキング
  • リード端子の仕上げ / ボールの原材料
  • MSL rating / リフローピーク温度
  • MTBF/FIT 推定値
  • 原材料組成
  • 認定試験結果
  • 継続的な信頼性モニタ試験結果

推奨製品には、この TI 製品に関連するパラメータ、評価基板、またはリファレンス・デザインが存在する可能性があります。

サポートとトレーニング

TI E2E™ Forums (英語) では、TI のエンジニアからの技術サポートが活用できます

コンテンツは、TI 投稿者やコミュニティ投稿者によって「現状のまま」提供されるもので、TI による仕様の追加を意図するものではありません。使用条件をご確認ください。

TI 製品の品質、パッケージ、ご注文に関するお問い合わせは、TI サポートをご覧ください。​​​​​​​​​​​​​​

ビデオ