MUNICH, Germany – October 2, 2019 – With the lowest quiescent current (IQ) in its class of 6µA, as well as the highest peak efficiency of 96 percent in the market, designers can now maximize a portable device’s battery life with the MAX77827 buck-boost converter from Maxim Integrated Products, Inc. (NASDAQ: MXIM). This 1.5A high-efficiency, compact converter allows 1.8V to 5.5V input and 2.3V to 5.3V output, while providing the system stability needed to minimize abrupt or unexpected shutdowns. The MAX77827 addresses the power requirements of low-power wide-area network (LPWAN) applications, asset tracking devices and many internet of things (IoT) applications.
The growing lithium-ion battery market is largely driven by an increasing inclination towards smart electronic devices with expanding functionalities packed within. Primary cell batteries based on Lithium Thionyl Chloride (Li-SOCl2) chemistry or dual-cell Alkaline (AA or AAA) with operations as low as 1.8V is also gaining popularity in the long-life portable market segment. However, regardless of the types of batteries used, these devices will discharge through a wide range of voltages while sustaining a power rail between 2.8V to 3.8V, specifically for powering MCU, Wi-Fi, BLE and GPS features. The traditional buck or bypass boost plus low dropout (LDO) topologies are not ideal solutions for these sophisticated devices because they are not the most efficient at prolonging battery life. Additionally, a simple buck converter topology may cause earlier system shutdown when battery voltage is high to maintain the required power for the aforementioned applications, leaving underutilized battery capacity.
With the lowest quiescent current in the market, highest efficiency gains and small solution size, the MAX77827 buck-boost converter sets the standard for maximizing battery life. It is an ideal solution to support applications with low power requirements because, regardless of the battery voltage variations, it can automatically transition between buck and boost modes to provide a consistent output power supply. Compared with the current means of utilizing a bypass boost converter followed by an LDO, the MAX77827 improves efficiency by up to 12 percent. Compared with utilizing a buck converter, it allows continuous system operation with lower voltage from the battery to further utilize the battery capacity. The MAX77827 is the latest buck-boost converter in Maxim’s portfolio.
Key Advantages
Commentary
“High adoption of lithium ion batteries in smart consumer electronics is driving the increasing demand for this market, which is projected to reach $106,493 million by 2024,” said Rishab Sharma, analyst for P&S Intelligence. “Complimentary technologies that help prolong battery life and stability can only contribute to their continued growth.”
“For any system design where battery life is critical, there is no better solution than the MAX77827,” said Eric Pittana, director for Mobile Power Solutions at Maxim Integrated. “With the lowest quiescent current and highest efficiency, designers can truly optimize their solutions and maximize their system performance. Specifically, for applications such as GPS asset tracking devices with single-use discharge, prolonging battery life is essential.”
Availability and Pricing
Company expands AI order-taking solution to tackle rising labor costs and improve customer experience Hi…
Outperforming competitors like OpenAI and ElevenLabs across standard datasets and specialized jargon recognition, Jargonic sets…
NVIDIA announced KAI Scheduler, the open-source version of the NVIDIA Run:ai Scheduler, available as a…
Partnership will deliver revolutionary, emissions-free travel in the UK, including greater connectivity for Virgin Atlantic…
New Vicor DCM3717 and DCM3735 DC-DC power modules support the growing trend of 48V-centric power…
DigiKey, a leading global commerce distributor offering the largest selection of technical components and automation…