UCC27222

Name: UCC27222
Brand: TI
SKU: UCC27222
Price: 1.943 USD

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Hocheffizienter prädiktiver synchroner Abwärtswandler

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Datenblatt

document-pdfAcrobat High-Efficiency Predictive Synchronous Buck Driver datasheet (Rev. B) (Englisch)

UCC27222

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Datenblatt

Jetzt bestellen

Produktdetails

Bootstrap supply voltage (max) (V)

30

Power switch

MOSFET

Input supply voltage (min) (V)

5

Input supply voltage (max) (V)

20

Peak output current (A)

3

Operating temperature range (°C)

-40 to 105

Undervoltage lockout (typ) (V)

4

Rating

Catalog

Propagation delay time (µs)

0.06

Rise time (ns)

17

Fall time (ns)

17

Iq (mA)

4.7

Input threshold

TTL

Channel input logic

TTL

Switch node voltage (V)

-0.3

Features

Dead time control, Soft switching, Synchronous Rectification

Driver configuration

Inverting, Noninverting

Bootstrap supply voltage (max) (V)

30

Power switch

MOSFET

Input supply voltage (min) (V)

5

Input supply voltage (max) (V)

20

Peak output current (A)

3

Operating temperature range (°C)

-40 to 105

Undervoltage lockout (typ) (V)

4

Rating

Catalog

Propagation delay time (µs)

0.06

Rise time (ns)

17

Fall time (ns)

17

Iq (mA)

4.7

Input threshold

TTL

Channel input logic

TTL

Switch node voltage (V)

-0.3

Features

Dead time control, Soft switching, Synchronous Rectification

Driver configuration

Inverting, Noninverting

HTSSOP (PWP)

14

32 mm² 5 x 6.4

Maximizes Efficiency by Minimizing Body-Diode Conduction and Reverse Recovery Losses
Transparent Synchronous Buck Gate Drive Operation From the Single Ended PWM Input Signal
12-V or 5-V Input Operation
3.3-V Input Operation With Availability of 12-V Bus Bias
High-Side and Low-Side ±3-A Dual Drivers
On-Board 6.5-V Gate Drive Regulator
±3.3-A TrueDrive™ Gate Drives for High Current Delivery at MOSFET Miller Thresholds
Automatically Adjusts for Changing Operating Conditions
Thermally Enhanced 14-Pins PowerPAD™ HTSSOP Package Minimizes Board Area and Junction Temperature Rise
APPLICATIONS
- Non-Isolated Single or Multi-phased DC-to-DC Converters for Processor Power, General Computer, Telecom and Datacom Applications

Predictive Gate Drive™ and PowerPAD™ are trademarks of Texas Instruments Incorporated.

Maximizes Efficiency by Minimizing Body-Diode Conduction and Reverse Recovery Losses
Transparent Synchronous Buck Gate Drive Operation From the Single Ended PWM Input Signal
12-V or 5-V Input Operation
3.3-V Input Operation With Availability of 12-V Bus Bias
High-Side and Low-Side ±3-A Dual Drivers
On-Board 6.5-V Gate Drive Regulator
±3.3-A TrueDrive™ Gate Drives for High Current Delivery at MOSFET Miller Thresholds
Automatically Adjusts for Changing Operating Conditions
Thermally Enhanced 14-Pins PowerPAD™ HTSSOP Package Minimizes Board Area and Junction Temperature Rise
APPLICATIONS
- Non-Isolated Single or Multi-phased DC-to-DC Converters for Processor Power, General Computer, Telecom and Datacom Applications

Predictive Gate Drive™ and PowerPAD™ are trademarks of Texas Instruments Incorporated.

The UCC27221 and UCC27222 are high-speed synchronous buck drivers for today’s high-efficiency, lower-output voltage designs. Using Predictive Gate Drive™ (PGD) control technology, these drivers reduce diode conduction and reverse recovery losses in the synchronous rectifier MOSFET(s). The UCC27221 has an inverted PWM input while the UCC27222 has a non-inverting PWM input.

Predictive Gate Drive™ technology uses control loops which are stabilized internally and are therefore transparent to the user. These loops use no external components, so no additional design is needed to take advantage of the higher efficiency of these drivers.

This closed loop feedback system detects body-diode conduction, and adjusts deadtime delays to minimize the conduction time interval. This virtually eliminates body-diode conduction while adjusting for temperature, load- dependent delays, and for different MOSFETs. Precise gate timing at the nanosecond level reduces the reverse recovery time of the synchronous rectifier MOSFET body-diode, reducing reverse recovery losses seen in the main (high-side) MOSFET. The lower junction temperature in the low-side MOSFET increases product reliability. Since the power dissipation is minimized, a higher switching frequency can also be used, allowing for smaller component sizes.

The UCC27221 and UCC27222 are offered in the thermally enhanced 14-pin PowerPAD package with 2°C/W _jc.

The UCC27221 and UCC27222 are high-speed synchronous buck drivers for today’s high-efficiency, lower-output voltage designs. Using Predictive Gate Drive™ (PGD) control technology, these drivers reduce diode conduction and reverse recovery losses in the synchronous rectifier MOSFET(s). The UCC27221 has an inverted PWM input while the UCC27222 has a non-inverting PWM input.

Predictive Gate Drive™ technology uses control loops which are stabilized internally and are therefore transparent to the user. These loops use no external components, so no additional design is needed to take advantage of the higher efficiency of these drivers.

This closed loop feedback system detects body-diode conduction, and adjusts deadtime delays to minimize the conduction time interval. This virtually eliminates body-diode conduction while adjusting for temperature, load- dependent delays, and for different MOSFETs. Precise gate timing at the nanosecond level reduces the reverse recovery time of the synchronous rectifier MOSFET body-diode, reducing reverse recovery losses seen in the main (high-side) MOSFET. The lower junction temperature in the low-side MOSFET increases product reliability. Since the power dissipation is minimized, a higher switching frequency can also be used, allowing for smaller component sizes.

The UCC27221 and UCC27222 are offered in the thermally enhanced 14-pin PowerPAD package with 2°C/W _jc.

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Alle anzeigen 10

	Typ	Titel	Datum
*	Data sheet	High-Efficiency Predictive Synchronous Buck Driver datasheet (Rev. B)	16 Jul 2003
	Application brief	External Gate Resistor Selection Guide (Rev. A)	28 Feb 2020
	Application brief	Understanding Peak IOH and IOL Currents (Rev. A)	28 Feb 2020
	More literature	Fundamentals of MOSFET and IGBT Gate Driver Circuits (Replaces SLUP169) (Rev. A)	29 Okt 2018
	Selection guide	Power Management Guide 2018 (Rev. R)	25 Jun 2018
	Application note	Increasing UCC27221/2 Gate Drive Voltage	20 Jun 2003
	Application note	Low Voltage Feedback in PWM Applications	27 Feb 2003
	Application note	Predictive Gate Drive Boosts Converter Efficiency	18 Dez 2002
	Application note	UCC27221/2 Predictive Gate Drive FAQ	18 Dez 2002
	More literature	Seminar 1400 Topic 7 The Implication of Synchronous Rectifiers to the Design of	22 Apr 2002

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UCC27222

Hocheffizienter prädiktiver synchroner Abwärtswandler

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