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Texas Instruments D-CAP™ series Voltage Regulators - Linear + Switching

Introduction, stock information and FAQs of D-CAP™ series Switching Voltage Regulators

In this post, you will learn features, applications, PDF datasheets, substitute products and the latest stock and pricing information of Texas Instruments D-CAP™ series Switching Voltage Regulators.

Applications

Industrial transport (non-car & non-light truck)
Medical

Associated Products

Part Number	Description	Stock	RFQ
TPS51225RUKT	Switching Controllers Dual Sync Step-Down Controller	500	RFQ
TPS51275BRUKT	IC REG QD BCK/LINEAR SYNC 20WQFN	5	RFQ
TPS51123ARGET	IC REG QD BCK/LINEAR SYNC 24VQFN	6	RFQ
TPS51275BRUKR	IC REG QUAD BUCK/LNR SYNC 20WQFN	480	RFQ
TPS51275RUKR	IC REG QUAD BUCK/LNR SYNC 20WQFN	1834	RFQ
TPS65321QPWPRQ1	IC REG DL BUCK/LINEAR 14HTSSOP	2000	RFQ
TPS65320BQPWPRQ1	IC REG DL BUCK/LINEAR 14HTSSOP	1999	RFQ
TPS51225CRUKT	IC REG QUAD BUCK/LNR SYNC 20WQFN	250	RFQ
TPS51285ARUKR	Switching Controllers ULQT Dual Sync SD Cntlr	85	RFQ
TPS51275B-1RUKR	IC REG BUCK/LINEAR SYNC 20WQFN	44596	RFQ
TPS51285BRUKR	Switching Controllers ULQT Dual Sync SD Cntlr	2750	RFQ
TPS65320QPWPRQ1	Automotive 3.6V to 36V, 3.2A Buck Converter with Auto-Sourced 280mA LDO Regulator 14-HTSSOP -40 to 125	17546	RFQ
TPS51225CRUKR	LDO Voltage Controllers Dual Sync Step-Down Controller	30000	RFQ
TPS51275B-1RUKT	TEXAS INSTRUMENTS TPS51275B-1RUKT DC/DC Controller, 5V to 24V, 2 Outputs, Synchronous Buck, 355kHz, WQFN-20	2250	RFQ
TPS65320CQPWPRQ1	IC REG DL BUCK/LDO 14HTSSOP	688	RFQ
TPS51225BRUKT	DC DC Cntrlr Dual-OUT Sync Buck 5.5V to 24V Input 20-Pin WQFN EP T/R	6778	RFQ
TPS51123ARGER	IC REG QD BCK/LINEAR SYNC 24VQFN	78	RFQ
TPS51285BRUKT	IC REG QD BUCK/LDO SYNC 20WQFN	168	RFQ
TPS51285ARUKT	IC REG QD BUCK/LDO SYNC 20WQFN	154	RFQ
TPS51123RGET	IC REG QD BCK/LINEAR 24-VQFN	3000	RFQ

Technical Documents

Description

Texas Instruments' D-CAP™ series PMIC - Voltage Regulators - Linear + Switching is a family of integrated power management solutions designed to provide high-efficiency, low-noise power conversion for a wide range of applications. The D-CAP™ series offers a variety of features, including high-efficiency synchronous rectification, low-noise operation, and adjustable output voltage. The D-CAP™ series also offers a wide range of output current ratings, from 1A to 10A, and a wide input voltage range, from 4.5V to 28V. With its high-efficiency, low-noise operation, and adjustable output voltage, the D-CAP™ series is an ideal solution for a variety of applications, including automotive, industrial, and consumer electronics.

Features

• High-efficiency, low-noise, and low-dropout (LDO) linear regulators

• High-efficiency, low-noise, and low-dropout (LDO) switching regulators

• Low-noise, low-dropout (LDO) linear regulators

• Low-noise, low-dropout (LDO) switching regulators

• High-efficiency, low-noise, and low-dropout (LDO) buck regulators

• High-efficiency, low-noise, and low-dropout (LDO) boost regulators

Related Series

Texas Instruments D-CAP™ series Voltage Regulators - Linear + Switching

24 May 202348

Frequently Asked Questions

What are the Alternative Products of Texas Instruments D-CAP™ series PMIC - Voltage Regulators - Linear + Switching?

1. ON Semiconductor NCP15XB Series 2. STMicroelectronics L78 Series 3. Microchip Technology MCP1700 Series 4. NXP Semiconductors MC33269 Series 5. Analog Devices ADP3300 Series 6. Linear Technology LT1763 Series 7. Maxim Integrated MAX1763 Series 8. Renesas Electronics R2A20117 Series 9. Infineon Technologies BCR401 Series 10. Diodes Incorporated AP7331 Series

What are the differences between the types of Texas Instruments D-CAP™ series PMIC - Voltage Regulators - Linear + Switching?

The main difference between the types of Texas Instruments D-CAP™ series PMIC - Voltage Regulators - Linear + Switching is the type of control used to regulate the output voltage. Linear regulators use a linear control loop to regulate the output voltage, while switching regulators use a switching control loop to regulate the output voltage. Linear regulators are typically more efficient than switching regulators, but switching regulators are more efficient at higher output currents. Additionally, switching regulators are more compact and can provide higher output currents than linear regulators.