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Boost regulators with digital power system management


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LTC7880 Datasheet and Product Info | Analog Devices

Back to Boost Regulators with Digital Power System Management LTC7880. Info : RECOMMENDED FOR NEW DESIGNS. LTC7880 60V Dual Output Step-Up Controller with Digital Power System Management The demo board has a LTC7880 controller, which is a 60V dual output step-up controller with digital power system management. Please see LTC7880

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µModule regulator achieves highest power efficiency

Furthermore, a buck-boost power regulator is very flexible and can be used as a buck-only (step-down) or boost-only (step-up with short-circuit protection) power supply. ADI''s µModule group has developed several buck-boost regulators. Figure 1 illustrates the LTM8045, LTM8049, LTM8083 and LTM4693 targeting lower-current applications.

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Switching Converters & Controllers

By combining our power-optimized IC process, packaging technology, monolithic design and system expertise, MPS provides high-efficiency, small-sized (CSP/QFN/BGA/LGA) management products with integrated low Rds(on)

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MAX1709 Datasheet and Product Info | Analog Devices

Boost Regulators with Digital Power System Management; External Power Switch Boost Controllers; Internal Power Switch Boost Regulators; Micropower Boost Regulators; Back to Internal Power Switch Boost Regulators MAX1709. Info: : PRODUCTION. MAX1709 4A, Low-Noise, High-Frequency, Step-Up DC-DC Converter

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Power Management for all of Tomorrow''s Innovations

Analog Devices Digital Power System Management (DPSM) devices help designers simplify and accelerate power system characterization, optimization, and data mining during prototyping, deployment, and field operation. Learn more about Analog Devices Power System Management MAX20343/MAX20344 Buck-Boost Regulators.

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What is a PSM Buck regulator?

When deployed, PSM devices are seamlessly integrated with existing embedded systems and architectures. Analog Devices buck regulators with digital power system management (PSM) provide accurate information about power systems and autonomously control and supervise dozens of voltages with ease.

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MAX848 Datasheet and Product Info | Analog Devices

Upon power-up, an internal comparator monitors the output voltage to generate a power-good output (POK). The devices differ only in the current limit of the N-channel MOSFET power switch: 0.8A for the MAX848, and 1.4A for the MAX849. Applications. Cell Phones; Digital Cordless Phones; Handheld Instruments (PDAs, Palmtops) Local 3.3V to 5V Supplies

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MAX757 Datasheet and Product Info | Analog Devices

Boost Regulators with Digital Power System Management; External Power Switch Boost Controllers; Internal Power Switch Boost Regulators; Energy Management for Small Portable Systems 03/15/2000. Show More. Design Resources 5 . ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and

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Buck Regulators with Digital Power System Management

Analog Devices buck regulators with digital power system management (PSM) provide accurate information about power systems and autonomously control and supervise dozens of voltages

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MAX15158 Datasheet and Product Info | Analog Devices

The MAX15158, MAX15158A, and MAX15158Z evaluation kits (EV kits) provide proven designs to evaluate the MAX15158, MAX15158A, and MAX15158Z, high-voltage multiphase boost controllers designed to support up to two MOSFET drivers and four external MOSFETs in single-phase or dual-phase inverting-buck-boost configurations.

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MAX17223 Datasheet and Product Info | Analog Devices

Boost Regulators with Digital Power System Management; External Power Switch Boost Controllers; Internal Power Switch Boost Regulators; Micropower Boost Regulators; MAX17223 Back to Internal Power Switch Boost Regulators MAX17223. Info: : PRODUCTION. MAX17223 400mV to 5.5V Input, nanoPower Synchronous Boost Converter with True Shutdown

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MAX1522 Datasheet and Product Info | Analog Devices

The MAX1522/MAX1523/MAX1524 are simple, compact boost controllers designed for a wide range of DC-DC conversion topologies, including step-up, SEPIC, and flyback applications. They are for application

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LTC7841 Datasheet and Product Info | Analog Devices

The demo board has a LTC7841 controller, which is a 60V dual-phase single output boost controller with digital power system management. Please see the LTC7841 data sheet for more detailed information. The DC2798A powers up to default settings and produces power based on the command from the serial bus communication.

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MAX25203 Datasheet and Product Info | Analog Devices

The MAX25203 automotive dual-phase synchronous boost controller enables infotainment systems to stay in regulation during cold-crank or start-stop operation all the way down to a battery input of 1.8V Products. Power Management µModule Regulators; Battery Management; Current Sources; Display Control and Power Boost Regulators with

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How does a boost regulator work?

Inductor selection: The inductor is a key component of the boost regulator: it stores energy during the on-time of the power switch and transfers energy to the output through the output rectifier diode during the off time. The designer must make a trade-off between low inductor current ripple and high efficiency.

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MAX15258 Datasheet and Product Info | Analog Devices

The MAX15258, a high-voltage, multiphase boost controller with a I 2 C digital interface, is designed to support up to two MOSFET drivers and four external MOSFETs in single-phase or dual-phase boost/inverting-buck-boost configurations. Two devices can be stacked up for triple-phase or quad-phase operation. When configured as inverting-buck-boost converter, the

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DC-DC Switching Converters and Voltage Regulators

Our boost converters are capable of input voltages ranging from below 1V up to 40V and output voltages up to 65V to provide simple, high-power density and cost-effective solutions for a multitude of applications including battery

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µModule Technology Simplifies Design of Power Applications

The µModule product portfolio includes different subcategories, such as isolated converters, inverting, buck, boost, and buck-boost regulators, battery chargers, LED drivers

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What voltages can a boost converter handle?

Our boost converters are capable of input voltages ranging from below 1V up to 40V and output voltages up to 65V to provide simple, high-power density and cost-effective solutions for a multitude of applications including battery-powered devices and driving LEDs.

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Is tps610993yfft a low power boost regulator?

The TPS610993YFFT from Texas Instruments is an example of a low-power boost regulator (Figure 2). It is a synchronous device that consumes only one microampere (µA) of quiescent current, but it can deliver up to 800 milliamperes (mA) and generate an output voltage of 3.0 volts with an input voltage as low as 0.7 volts.

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µModule Power Products

Digital Power System Management. Control and monitor the switching regulator through a PMBus/SMbus/I2C Bus digital interface. The control and monitor functions include the following: Output voltage monitoring trimming, sequencing, and margining Buck-Boost μModule Regulator Easily Parallels for Increased Power

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MAX38888 Datasheet and Product Info | Analog Devices

The MAX38888 evaluation kit (EV kit) evaluates the MAX38888 IC. The MAX38888 is a super cap backup regulator designed to transfer power between a super cap and a system supply rail. When the main battery is present and above the minimum system supply voltage, the regulator charges the super cap at up to a 500mA rate.

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MAX618 Datasheet and Product Info | Analog Devices

The MAX618 CMOS, PWM, step-up DC-DC converter generates output voltages up to 28V and accepts inputs from +3V to +28V. An internal 2A, 0.3Ω switch eliminates the need for external power MOSFETs while

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MAX17222 Datasheet and Product Info | Analog Devices

Boost Regulators with Digital Power System Management; External Power Switch Boost Controllers; Internal Power Switch Boost Regulators; Micropower Boost Regulators; MAX17222 Back to Internal Power Switch Boost Regulators MAX17222. Info: : PRODUCTION. MAX17222 400mV to 5.5V Input, nanoPower Synchronous Boost Converter with True Shutdown

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Switching Regulators | Analog Devices

Analog Devices offers true buck/boost synchronous dc-to-dc converters. With their unique internal four MOSFET switch combination, these switching regulators can seamlessly transition from step-down mode through 100% dropout operation and then to step-up mode to allow a fixed output voltage even when the input voltage fluctuates above or below the output.

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Level Shifting Challenges in Inverting Buck-Boost Circuits

It is especially complicated when a switching regulator IC uses a digital bus such as the Power Management Bus (PMBus). Then, the entire bus connection has to be operated with level shifting or galvanic isolation. Figure 3. A MAX17579 is designed as an inverting buck-boost regulator with level shifting already integrated.

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Step Up (Boost) Synchronous

Synchronous Step-up (Boost) switching regulators can support low and high power boost applications, operating with input voltage from 0.8V to 20V, up to 21A switching current limit and high efficiency up to 40W Peak Power. These boost convertesr come with selectable PSM/USM/FCCM in Light-Load Condition, Programmable UVLO and Hysteresis,

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LT8331 Datasheet and Product Info | Analog Devices

To open the project file for this circuit: Step 1: Download and install LTpowerCAD on your computer. Step 2: Click on the link(s) in the section below to download part-specific project files. Step 3: If the project file doesn''t run, right-click the link and select "Save Target As." Then start the LTpowerCAD tool and open the project file by selecing "Open Project" from the "File" menu.

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LTM4682 Datasheet and Product Info | Analog Devices

The LTM ® 4682 is a quad 31.25A or single 125A step-down power μModule ® (power micromodule) DC/DC regulator featuring remote configurability and telemetry monitoring of power management parameters over PMBus. The LTM4682 is comprised of digitally programmable analog control loops, and is optimized for higher bandwidth and transient response. The

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About Boost regulators with digital power system management

About Boost regulators with digital power system management

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