Achieve Lower Power and Increased Battery Life for IoT and Wearable Applications

Maxim Integrated’s power management chip runs from a primary cell while extending battery and shelf life.

New Delhi, India—January 7, 2016—With the MAX14720 power management integrated circuit (PMIC) from Maxim Integrated Products, Inc. (NASDAQ: MXIM), designers can optimize power and battery life for wearable medical/fitness and Internet of Things (IoT) applications.

For more information about MAX14720, visit http://bit.ly/MAX14720.  

·         Increasing battery life and achieving low power are common challenges faced by engineers when developing wearable and IoT products. The MAX14720 PMIC is ideal for non-rechargeable battery (coin cell, dual alkaline) applications where size and energy efficiency are critical. In addition, an electronic battery seal extends shelf life by effectively disconnecting the battery prior to initial power-up. Integrating the functionality of five discrete devices—power switch, linear regulator, buck regulator, buck-boost regulator, and monitor—the MAX14720 reduces the bill of materials (BOM) and allows for much smaller form factor designs.

 “In 2020, 190 million wearable electronic devices for fitness and health will be sold, generating $14.4 billion in revenue,” according to Gartner.  Angela McIntyre, Research Director and Michele Reitz, Principal Research Analyst at Gartner said, “system design for wearables will remain fairly straightforward, employing basic microcontroller unit (MCU)-based processing, BT and Wi-Fi communications, and accelerometer and gyro sensor chips, with display drivers, optoelectronics, USB charging interfaces, small NOR memory and power regulator chips playing major roles in many wearable designs.”

Key Advantages

·         Lower power: While most battery PMICs operate from 3V, the MAX14720 runs from a primary cell and operates down to 1.8V.

·         Extended battery life: Low quiescent current IP is critical for wearable applications because it can extend the runtime of the system significantly.

·         Longer product shelf life: An electronic battery seal offers extended storage life and allows for a fully sealed housing.

·         Flexible operation and system diagnostics: Value added features such as push button input monitoring, power-up sequencing, and voltage rail monitoring further reduce BOM cost and space.

Commentary

·         “Maxim has a strong position in the rechargeable wearables market,” said Frank Dowling, Executive Business Manager at Maxim Integrated. “As a result, we have leveraged our expertise and IP for the non-rechargeable wearables market.”

Availability and Pricing

·         Available in a 25-bump, 0.4mm pitch, 2.26mm x 2.14mm wafer-level package (WLP).

·         Specified over the -40-degree Celsius to 85-degree Celsius temperature range.

·         Pricing available upon request.

About Maxim Integrated

Maxim is bringing new levels of analog integration to automotive, cloud data center, mobile consumer, and industrial applications. We’re making technology smaller, smarter, and more energy efficient, so that our customers can meet the demands of an integrated world. Learn more at http://www.maximintegrated.com. 

Achieve Lower Power and Increased Battery Life for IoT and Wearable Applications

Maxim Integrated’s power management chip runs from a primary cell while extending battery and shelf life.

New Delhi, India—January 7, 2016—With the MAX14720 power management integrated circuit (PMIC) from Maxim Integrated Products, Inc. (NASDAQ: MXIM), designers can optimize power and battery life for wearable medical/fitness and Internet of Things (IoT) applications.

·         For more information about MAX14720, visit http://bit.ly/MAX14720.  

·         A hi-res image is available at http://bit.ly/Maxim_MAX14720_image.  

·         A schematic is available at http://bit.ly/Maxim_schematic_MAX14720.

Increasing battery life and achieving low power are common challenges faced by engineers when developing wearable and IoT products. The MAX14720 PMIC is ideal for non-rechargeable battery (coin cell, dual alkaline) applications where size and energy efficiency are critical. In addition, an electronic battery seal extends shelf life by effectively disconnecting the battery prior to initial power-up. Integrating the functionality of five discrete devices—power switch, linear regulator, buck regulator, buck-boost regulator, and monitor—the MAX14720 reduces the bill of materials (BOM) and allows for much smaller form factor designs.

“In 2020, 190 million wearable electronic devices for fitness and health will be sold, generating $14.4 billion in revenue¹,” according to Gartner.  Angela McIntyre, Research Director and Michele Reitz, Principal Research Analyst at Gartner said, “system design for wearables will remain fairly straightforward, employing basic microcontroller unit (MCU)-based processing, BT and Wi-Fi communications, and accelerometer and gyro sensor chips, with display drivers, optoelectronics, USB charging interfaces, small NOR memory and power regulator chips playing major roles in many wearable designs.²”

Key Advantages

·         Lower power: While most battery PMICs operate from 3V, the MAX14720 runs from a primary cell and operates down to 1.8V.

·         Extended battery life: Low quiescent current IP is critical for wearable applications because it can extend the runtime of the system significantly.

·         Longer product shelf life: An electronic battery seal offers extended storage life and allows for a fully sealed housing.

·         Flexible operation and system diagnostics: Value added features such as push button input monitoring, power-up sequencing, and voltage rail monitoring further reduce BOM cost and space.

Commentary

·         “Maxim has a strong position in the rechargeable wearables market,” said Frank Dowling, Executive Business Manager at Maxim Integrated. “As a result, we have leveraged our expertise and IP for the non-rechargeable wearables market.”

Availability and Pricing

·         Available in a 25-bump, 0.4mm pitch, 2.26mm x 2.14mm wafer-level package (WLP).

·         Specified over the -40-degree Celsius to 85-degree Celsius temperature range.

·         Pricing available upon request.

1Gartner, Forecast: Internet of Things — Endpoints and Associated Services, Worldwide, 2015, 29 October 2015.  This figure includes chest straps, sports watches, wristbands, smart garments and other fitness monitors.

2Gartner, Forecast Overview: Wearable Electronics Production and Semiconductors, Worldwide, 2015, Michele Reitz, Angela McIntyre, 26 October 2015

About Maxim Integrated

Maxim is bringing new levels of analog integration to automotive, cloud data center, mobile consumer, and industrial applications. We’re making technology smaller, smarter, and more energy efficient, so that our customers can meet the demands of an integrated world. Learn more at http://www.maximintegrated.com.