24-WQFN.jpg
Image shown is a representation only. Exact specifications should be obtain- ed from the product data sheet.

Texas Instruments LP3907QSQ-JXI7/NOPB

Manufacturer Part Number : LP3907QSQ-JXI7/NOPB
Manufacturer : Texas Instruments
Description : IC REG QD BUCK/LINEAR SYNC 24QFN
Lead Free Status / RoHS Status : Lead free / RoHS Compliant
Datasheet : LP3907QSQ-JXI7/NOPB.PDF LP3907QSQ-JXI7/NOPB PDF
EDA / CAD Models : LP3907QSQ-JXI7/NOPB by SnapEDA
Quantity:
1 153 7626605 /Datasheets/IntegratedCircuits/lp3907.pdf Texas-Instruments/LP3907QSQ-JXI7-NOPB 7626605
Topology:Step-Down (Buck) Synchronous (2), Linear (LDO) (2)
Function:Any Function
Frequency - Switching:2.1MHz
Voltage/Current - Output 1:1.2V, 1A
Voltage/Current - Output 2:3.3V, 600mA
Voltage/Current - Output 3:1.8V, 300mA
w/LED Driver:No
w/Supervisor:No
w/Sequencer:Yes
Voltage - Supply:2.8 V ~ 5.5 V
Operating Temperature:-40~C ~ 125~C
Mounting Type:Surface Mount
Package / Case:24-WFQFN Exposed Pad
Supplier Device Package:24-WQFN (4x4)

Overview

Embark on a journey of cutting-edge power management with the LP3907QSQ-JXI7/NOPB, a technological marvel crafted by Texas Instruments. As a distinguished member of the PMIC - Voltage Regulators - Linear + Switching category, this Power Management IC (PMIC) embodies the fusion of linear and switching voltage regulation, addressing the intricate power delivery needs of modern electronic systems.

Features

1. Triple-Output Power Dynamics: Immerse yourself in the versatility of a triple-output power solution within the LP3907QSQ-JXI7/NOPB, seamlessly integrating linear and switching voltage regulators. This ensures optimal efficiency across diverse load conditions, delivering peak performance in dynamic operational environments.

2. Programmable Output Voltage: Tailor your power supply precisely to your application needs with programmable output voltage, providing adaptability and customization for electronic systems requiring distinct voltage levels. This feature ensures a tailored and optimized power delivery solution for various applications.

3. Dynamic Voltage Scaling: Adapt to varying load conditions seamlessly with dynamic voltage scaling, intelligently adjusting the output voltage. This feature ensures consistent and efficient power delivery, contributing to optimal system performance and energy efficiency.

4. Ultra-Fast Transient Response: Navigate dynamic load changes effortlessly with ultra-fast transient response, a feature that ensures swift and precise adjustment to sudden shifts in power requirements. This contributes to maintaining stability and reliability in the face of varying operational conditions.

5. Comprehensive Fault Protection: Safeguard your system with comprehensive fault protection mechanisms, including overcurrent and thermal protection. The LP3907QSQ-JXI7/NOPB remains resilient under challenging operating conditions, ensuring long-term reliability and system integrity.

Applications

1. Mobile Devices: Optimize the power delivery in mobile devices with the LP3907QSQ-JXI7/NOPB, ensuring efficient and stable voltage regulation for smartphones, tablets, and other portable electronics.

2. Wearable Technology: Enhance the power efficiency of wearable devices with the LP3907QSQ-JXI7/NOPB, providing tailored power solutions for applications such as smartwatches, fitness trackers, and other wearable gadgets.

3. Consumer Electronics: Elevate the performance of consumer electronic devices with the LP3907QSQ-JXI7/NOPB, ensuring consistent power delivery for an enhanced user experience. Ideal for applications ranging from smart home devices to entertainment systems.

4. Industrial IoT: Navigate the dynamic demands of Industrial Internet of Things (IoT) devices with confidence. The LP3907QSQ-JXI7/NOPB provides robust power management for IoT sensors, controllers, and communication modules, ensuring stability in industrial settings.

5. Embedded Systems: Power your embedded systems confidently with the LP3907QSQ-JXI7/NOPB, offering precise and efficient voltage regulation for a variety of applications, from automotive electronics to industrial control systems.

Request for Quotation

Technical Parameters of LP3907QSQ-JXI7/NOPB

Topology:Step-Down (Buck) Synchronous (2), Linear (LDO) (2)
Function:Any Function
Frequency - Switching:2.1MHz
Voltage/Current - Output 1:1.2V, 1A
Voltage/Current - Output 2:3.3V, 600mA
Voltage/Current - Output 3:1.8V, 300mA
w/LED Driver:No
w/Supervisor:No
w/Sequencer:Yes
Voltage - Supply:2.8 V ~ 5.5 V
Operating Temperature:-40~C ~ 125~C
Mounting Type:Surface Mount
Package / Case:24-WFQFN Exposed Pad
Supplier Device Package:24-WQFN (4x4)

Product Details

Overview

Embark on a journey of cutting-edge power management with the LP3907QSQ-JXI7/NOPB, a technological marvel crafted by Texas Instruments. As a distinguished member of the PMIC - Voltage Regulators - Linear + Switching category, this Power Management IC (PMIC) embodies the fusion of linear and switching voltage regulation, addressing the intricate power delivery needs of modern electronic systems.

Features

1. Triple-Output Power Dynamics: Immerse yourself in the versatility of a triple-output power solution within the LP3907QSQ-JXI7/NOPB, seamlessly integrating linear and switching voltage regulators. This ensures optimal efficiency across diverse load conditions, delivering peak performance in dynamic operational environments.

2. Programmable Output Voltage: Tailor your power supply precisely to your application needs with programmable output voltage, providing adaptability and customization for electronic systems requiring distinct voltage levels. This feature ensures a tailored and optimized power delivery solution for various applications.

3. Dynamic Voltage Scaling: Adapt to varying load conditions seamlessly with dynamic voltage scaling, intelligently adjusting the output voltage. This feature ensures consistent and efficient power delivery, contributing to optimal system performance and energy efficiency.

4. Ultra-Fast Transient Response: Navigate dynamic load changes effortlessly with ultra-fast transient response, a feature that ensures swift and precise adjustment to sudden shifts in power requirements. This contributes to maintaining stability and reliability in the face of varying operational conditions.

5. Comprehensive Fault Protection: Safeguard your system with comprehensive fault protection mechanisms, including overcurrent and thermal protection. The LP3907QSQ-JXI7/NOPB remains resilient under challenging operating conditions, ensuring long-term reliability and system integrity.

Applications

1. Mobile Devices: Optimize the power delivery in mobile devices with the LP3907QSQ-JXI7/NOPB, ensuring efficient and stable voltage regulation for smartphones, tablets, and other portable electronics.

2. Wearable Technology: Enhance the power efficiency of wearable devices with the LP3907QSQ-JXI7/NOPB, providing tailored power solutions for applications such as smartwatches, fitness trackers, and other wearable gadgets.

3. Consumer Electronics: Elevate the performance of consumer electronic devices with the LP3907QSQ-JXI7/NOPB, ensuring consistent power delivery for an enhanced user experience. Ideal for applications ranging from smart home devices to entertainment systems.

4. Industrial IoT: Navigate the dynamic demands of Industrial Internet of Things (IoT) devices with confidence. The LP3907QSQ-JXI7/NOPB provides robust power management for IoT sensors, controllers, and communication modules, ensuring stability in industrial settings.

5. Embedded Systems: Power your embedded systems confidently with the LP3907QSQ-JXI7/NOPB, offering precise and efficient voltage regulation for a variety of applications, from automotive electronics to industrial control systems.

LP3907QSQ-JXI7/NOPB Related Products

Popular Categories

Hot Sale

Related Manufacturers

Electronic Parts Index
More
# 0 1 2 3 4 5 6 7 8 9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

We value your privacy

Our website uses cookies to ensure you are getting the best browsing experience, serve personalized content, and analyze our traffic.
By clicking "Accept Cookies", you consent to our use of cookies. Privacy Policy