36V Switching Charger with Power Path Management and Narrow NTC Window for 1-Cell to 6-Cell Batteries
Active Part Numbers:
MP2759AGQ-xxxx-Z MP2759AGQ-xxxx-P MP2759AGQ-0000-Z MP2759AGQ-0000-P
Meaning of P & Z
BATTERY CHARGER FUNDAMENTALS
Li-ion battery charger ICs are devices that regulate battery charging current and voltage, and are commonly used for portable devices, such as cellphones, laptops, and tablets. Compared to other battery chemistries, Li-ion batteries have one of the highest energy densities, provide a higher voltage per cell, can tolerate higher currents, and do not have to be trickle charged when the battery is fu...
HIGHLY INTEGRATED BATTERY CHARGER IC USE CASE: BATTERY BACKUP SYSTEMS
In this use case, well consider the application of fully integrated switching charger ICs in battery backup systems. Battery backup systems used in applications such as solar-powered outdoor cameras, lighting, and small cell systems like 4G/5G access points need multi-cell battery chargers for power. The traditional solution for multi-cell battery chargers is composed of several discrete power ...
MP2760 & MP2651: COMPACT BUCK-BOOST CHARGERS WITH INTEGRATED FETS FOR USB PD 3.0
The MP2760 and MP2651 are 5V to 21V, 6A, integrated FET buck-boost chargers capable of supporting 1 to 4 cells in series. As the lowest RDS(ON) integrated FET buck-boost chargers on the market, offering excellent thermals for fast charging applications. They provide full dual-role USB PD 3.0 support, and their compact size saves space in a variety of multi-cell applications, including tablets, USB...
MP2629: UNBOXING AND GETTING STARTED
Our engineers walk you through unboxing and getting started with the evaluation kit for the MP2629, a buck charger IC with NVDC and an I2C interface. The EV2629-QC-00A evaluation board provides the ability to test and configure following features: 3.7V to 5.8V operating input voltage NVDC power path with 4.5A charge current Adjustable 4.8V to 5.5V output voltage Configurable charging paramet...
MP2759 REFERENCE DESIGN - AN IMPLEMENTATION TO ADJUST ICC WITH A DIGITAL PWM SIGNAL
MP2659 REFERENCE DESIGN: 12V LEAD-ACID BATTERY CHARGING SOLUTION
LITHIUM-ION BATTERY CHARGER IC BASED MAXIMUM POWER POINT TRACKING SYSTEM
In an era characterized by the internet of things (IoT), more connectivity means more outdoor devices are now battery-powered and constantly communicating. In particular, an increasing number of outdoor devices are being powered through solar panels. The charger should be suitable for maximum power point tracking (MPPT) in outdoor designs with a solar panel. This article illustrates design tips fo...
HOW TO ACHIEVE FAST CHARGING WITH USB PD IN PORTABLE DEVICES
Today’s consumers want to conveniently and quickly charge their portable devices anywhere, whether they are in a business center or shopping mall, or waiting for a flight or train. However, there are many different types of charging adapters and connectors, which can make determining which charger or chargers to have on hand confusing for the end user. If the consumer has to carry multiple d...
HOW TO SELECT A LITHIUM-ION BATTERY CHARGE MANAGEMENT IC
John B. Goodenough, considered the father of lithium-ion (Li-ion) batteries, became the oldest Nobel Prize winner when he was awarded the Nobel Prize in Chemistry in 2019 for his pioneering work. Nowadays, Li-ion batteries are utilized in all aspects of life for most consumers since they make electronic devices lightweight and long-lasting. For example, most mobile phones rely on a Li-ion battery ...
INTEGRATED SOLUTION FOR MULTIPLE LI-ION/LI-POLYMER BATTERIES
Electrical equipment such as industrial medical equipment, robot vacuums, drones, and high-power speakers need multi-cell battery chargers for power. The traditional solution for multi-cell battery chargers is composed of several discrete power MOSFETs and multiple auxiliary components. Figure 1 shows that in a traditional solution, designers need at least two power MOSFETs for a power converter,...
BATTERY CHARGER WITH MPPT REFERENCE DESIGN
HIGHLY INTEGRATED BATTERY-CHARGING SOLUTION WITH INNOVATIVE POWER PATH MANAGEMENT
To achieve compact design for battery-powered devices, the battery is usually not removable and the capacity is limited by the space reserved for the battery. As a result, the operation time of the device is a major concern as devices are built with more and more power-consuming functions. To improve the portability of battery-powered devices, another auxiliary charging device with greater battery...
A CHARGER IC, N KINDS OF APPLICATIONS
The MP2639A is a fully integrated and flexible battery charge management IC that can charge two cells in series from a 5V power supply. USB ports are widely used by portable devices due to their universal compatibility and reduced e-waste of in-box power supplies. Furthermore, with the increased proliferation of USB Type-C, it is now possible to draw up to 15W of power from a standard USB power su...
SINGLE CELL SWITCH MODE BATTERY CHARGER
Highly-integrated switch-mode battery charger with system power path management and system boost designed for single-cell Li-ion or Li-Polymer batteries. Battery Management > MP2636
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