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UCC27517

現行

採 SOT-23 封裝且具 5-V UVLO 和 13-ns 傳播延遲的 4-A/4-A 單通道閘極驅動器

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產品規格表

UCC27517

現行
產品規格表 立即訂購

產品詳細資料

Number of channels 1 Power switch GaNFET, IGBT, MOSFET Peak output current (A) 4 Input supply voltage (min) (V) 4.5 Input supply voltage (max) (V) 18 Features Hysteretic Logic Operating temperature range (°C) -40 to 140 Rise time (ns) 9 Fall time (ns) 7 Propagation delay time (µs) 0.013 Input threshold CMOS, TTL Channel input logic Inverting, Non-Inverting Input negative voltage (V) 0 Rating Catalog Undervoltage lockout (typ) (V) 4 Driver configuration Inverting, Non-Inverting
Number of channels 1 Power switch GaNFET, IGBT, MOSFET Peak output current (A) 4 Input supply voltage (min) (V) 4.5 Input supply voltage (max) (V) 18 Features Hysteretic Logic Operating temperature range (°C) -40 to 140 Rise time (ns) 9 Fall time (ns) 7 Propagation delay time (µs) 0.013 Input threshold CMOS, TTL Channel input logic Inverting, Non-Inverting Input negative voltage (V) 0 Rating Catalog Undervoltage lockout (typ) (V) 4 Driver configuration Inverting, Non-Inverting
SOT-23 (DBV) 5 8.12 mm² 2.9 x 2.8
  • Low-Cost Gate-Driver Device Offering Superior Replacement
    of NPN and PNP Discrete Solutions
  • 4-A Peak-Source and 4-A Peak-Sink Symmetrical Drive
  • Fast Propagation Delays (13-ns Typical)
  • Fast Rise and Fall Times (9-ns and 7-ns Typical)
  • 4.5 to 18-V Single-Supply Range
  • Outputs Held Low During VDD UVLO (Ensures Glitch-Free
    Operation at Power Up and Power Down)
  • TTL and CMOS Compatible Input-Logic Threshold (Independent
    of Supply Voltage)
  • Hysteretic-Logic Thresholds for High-Noise Immunity
  • Dual Input Design (Choice of an Inverting (IN– pin) or
    Noninverting (IN+ Pin) Driver Configuration)
    • Unused Input Pin Can Be Used for Enable or Disable Function
  • Output Held Low When Input Pins Are Floating
  • Input Pin Absolute Maximum Voltage Levels Not Restricted
    by VDD Pin Bias Supply Voltage
  • Operating Temperature Range of –40°C to 140°C
  • 5-Pin DBV (SOT-23) and 6-Pin DRS (3-mm ×
    3-mm WSON With Exposed Thermal Pad) Package Options
  • Low-Cost Gate-Driver Device Offering Superior Replacement
    of NPN and PNP Discrete Solutions
  • 4-A Peak-Source and 4-A Peak-Sink Symmetrical Drive
  • Fast Propagation Delays (13-ns Typical)
  • Fast Rise and Fall Times (9-ns and 7-ns Typical)
  • 4.5 to 18-V Single-Supply Range
  • Outputs Held Low During VDD UVLO (Ensures Glitch-Free
    Operation at Power Up and Power Down)
  • TTL and CMOS Compatible Input-Logic Threshold (Independent
    of Supply Voltage)
  • Hysteretic-Logic Thresholds for High-Noise Immunity
  • Dual Input Design (Choice of an Inverting (IN– pin) or
    Noninverting (IN+ Pin) Driver Configuration)
    • Unused Input Pin Can Be Used for Enable or Disable Function
  • Output Held Low When Input Pins Are Floating
  • Input Pin Absolute Maximum Voltage Levels Not Restricted
    by VDD Pin Bias Supply Voltage
  • Operating Temperature Range of –40°C to 140°C
  • 5-Pin DBV (SOT-23) and 6-Pin DRS (3-mm ×
    3-mm WSON With Exposed Thermal Pad) Package Options

The UCC27516 and UCC27517 single-channel, high-speed, low-side gate driver devices can effectively drive MOSFET and IGBT power switches. Using a design that inherently minimizes shoot-through current, UCC27516 and UCC27517 can source and sink high peak-current pulses into capacitive loads offering rail-to-rail drive capability and extremely small propagation delay, typically 13 ns.

The UCC27516 and UCC27517 provides 4-A source, 4-A sink (symmetrical drive) peak-drive current capability at VDD = 12 V.

The UCC27516 and UCC27517 are designed to operate over a wide VDD range of 4.5 to 18 V and wide temperature range of –40°C to 140°C. Internal undervoltage lockout (UVLO) circuitry on the VDD pin holds output low outside VDD operating range. The capability to operate at low voltage levels such as below 5 V, along with best-in-class switching characteristics, is especially suited for driving emerging wide band-gap power-switching devices such as GaN power semiconductor devices.

The UCC27516 and UCC27517 devices feature a dual-input design which offers flexibility of implementing both inverting (IN– pin) and noninverting (IN+ pin) configurations with the same device. Either the IN+ or IN– pin can be used to control the state of the driver output. The unused input pin can be used for enable and disable function. For safety purpose, internal pullup and pulldown resistors on the input pins ensure that outputs are held low when input pins are in floating condition. Hence the unused input pin is not left floating and must be properly biased to ensure that driver output is in enabled for normal operation.

The input pin threshold of the UCC27516 and UCC27517 devices are based on TTL and CMOS compatible low-voltage logic which is fixed and independent of the VDD supply voltage. Wide hysteresis between the high and low thresholds offers excellent noise immunity.

The UCC27516 and UCC27517 single-channel, high-speed, low-side gate driver devices can effectively drive MOSFET and IGBT power switches. Using a design that inherently minimizes shoot-through current, UCC27516 and UCC27517 can source and sink high peak-current pulses into capacitive loads offering rail-to-rail drive capability and extremely small propagation delay, typically 13 ns.

The UCC27516 and UCC27517 provides 4-A source, 4-A sink (symmetrical drive) peak-drive current capability at VDD = 12 V.

The UCC27516 and UCC27517 are designed to operate over a wide VDD range of 4.5 to 18 V and wide temperature range of –40°C to 140°C. Internal undervoltage lockout (UVLO) circuitry on the VDD pin holds output low outside VDD operating range. The capability to operate at low voltage levels such as below 5 V, along with best-in-class switching characteristics, is especially suited for driving emerging wide band-gap power-switching devices such as GaN power semiconductor devices.

The UCC27516 and UCC27517 devices feature a dual-input design which offers flexibility of implementing both inverting (IN– pin) and noninverting (IN+ pin) configurations with the same device. Either the IN+ or IN– pin can be used to control the state of the driver output. The unused input pin can be used for enable and disable function. For safety purpose, internal pullup and pulldown resistors on the input pins ensure that outputs are held low when input pins are in floating condition. Hence the unused input pin is not left floating and must be properly biased to ensure that driver output is in enabled for normal operation.

The input pin threshold of the UCC27516 and UCC27517 devices are based on TTL and CMOS compatible low-voltage logic which is fixed and independent of the VDD supply voltage. Wide hysteresis between the high and low thresholds offers excellent noise immunity.
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類型 標題 日期
* Data sheet UCC2751x Single-Channel, High-Speed, Low-Side Gate Driver (With 4-A Peak Source and 4-A Peak Sink) datasheet (Rev. D) PDF | HTML 2014年 12月 31日
Application note Selecting Gate Drivers for HVAC Systems PDF | HTML 2024年 4月 4日
Technical article GaN 開關整合如何在 PFC 中實現低 THD 與高效率 PDF | HTML 2024年 3月 21日
Application note Benefits of a Compact, Powerful, and Robust Low-Side Gate Driver PDF | HTML 2021年 11月 10日
Application brief External Gate Resistor Selection Guide (Rev. A) 2020年 2月 28日
Application brief Understanding Peak IOH and IOL Currents (Rev. A) 2020年 2月 28日
E-book E-book: An engineer’s guide to industrial robot designs 2020年 2月 12日
Application brief How to overcome negative voltage transients on low-side gate drivers' inputs 2019年 1月 18日
More literature Fundamentals of MOSFET and IGBT Gate Driver Circuits (Replaces SLUP169) (Rev. A) 2018年 10月 29日
Application brief Enable Function with Unused Differential Input 2018年 7月 11日
Selection guide Power Management Guide 2018 (Rev. R) 2018年 6月 25日
Application brief Low-Side Gate Drivers With UVLO Versus BJT Totem-Pole 2018年 3月 16日
Technical article A bite-size gate drive: replacing BJTs with an integrated solution PDF | HTML 2017年 11月 30日
More literature Design Review of a Full-Featured 350-W Offline Power Converter 2013年 10月 29日

設計與開發

如需其他條款或必要資源,請按一下下方的任何標題以檢視詳細頁面 (如有)。

開發板

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The Texas Instruments UCD3138PFCEVM-026 evaluation module (EVM) is a digitally controlled single phase PFC pre-regulator based on the UCD3138 programmable digital power controller. The EVM accepts universal ac line input from 90Vac to 264Vac, 47Hz to 63Hz. The nominal output voltage is 390VDC. (...)

使用指南: PDF | HTML
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模擬型號

UCC27517 PSpice Transient Model (Rev. B)

SLUM286B.ZIP (51 KB) - PSpice Model
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模擬型號

UCC27517 TINA-TI Transient Reference Design

SLUM317.TSC (67 KB) - TINA-TI Reference Design
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模擬型號

UCC27517 TINA-TI Transient Spice Model

SLUM318.ZIP (8 KB) - TINA-TI Spice Model
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模擬型號

UCC27517 Unencrypted PSpice Transient Model

SLUM491.ZIP (2 KB) - PSpice Model
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計算工具

SLURB28 UCC27516 and UCC27517 Schematic Review Template

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低壓側驅動器
UCC27516 採 SON 封裝且具 5-V UVLO 和 13-ns 傳播延遲的 4-A/4-A 單通道閘極驅動器 UCC27517 採 SOT-23 封裝且具 5-V UVLO 和 13-ns 傳播延遲的 4-A/4-A 單通道閘極驅動器
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模擬工具

PSPICE-FOR-TI — PSpice® for TI 設計與模擬工具

PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
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參考設計

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Design guide: PDF
電路圖: PDF
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Test report: PDF
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Design guide: PDF
電路圖: PDF
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Design guide: PDF
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Design guide: PDF
參考設計

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Test report: PDF
參考設計

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Test report: PDF
電路圖: PDF
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Design guide: PDF
電路圖: PDF
參考設計

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電路圖: PDF
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Test report: PDF
電路圖: PDF
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SOT-23 (DBV) 5 Ultra Librarian
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