High-Efficiency PMIC bolsters Freescale i.MX 6SoloLite processors.
Press Release Summary:
With power conversion efficiency exceeding 82%, BD71805MWV utilizes analog-based power supply technology for mobile applications to optimize circuit configuration for i.MX 6SoloLite applications processor. Resulting reduction in power consumption during standby and normal operation prolongs battery life. RTC function enables clock and calendar management without driving main processor, and li-ion battery charger with 30 V input overvoltage protection eliminates need for external IC.
Original Press Release:
High Efficiency Power Management IC for Freescale i.MX 6SoloLite Processors
Contributes to greater miniaturization and longer operating times in e-books, wearable tech, and portables for industrial applications
KYOTO, Japan and SANTA CLARA, Calif. -- ROHM has recently announced the development of a high efficiency power management IC optimized for Freescale(TM) Semiconductor's i.MX 6SoloLite applications processor.
The i.MX 6SoloLite processor possesses a market-proven track record as an application platform for battery-driven applications where power consumption is critical, such as e-books, wearable tech, tablet PCs, portable terminals for industrial equipment, and other portable devices.
ROHM's BD71805MWV utilizes power supply technology cultivated for mobile applications to optimize circuit configuration for the i.MX 6SoloLite processor. The result is significantly reduced power consumption during both standby and normal operation, prolonging battery life considerably.
One of the most important considerations in the design of portable devices is maximizing battery life in order to increase operating time. However, reducing the power consumption of individual components to minimize energy expenditure has proven to be particularly challenging. And although Freescale's i.MX 6SoloLite processor has been adopted in a wide variety of mobile equipment to provide energy-efficient operation, there are increasing demands to decrease power consumption even further.
In response, the BD71805MWV leverages ROHM's industry-leading analog technology to achieve an ideal power supply system for driving the i.MX 6SoloLite processor. This results in a power conversion efficiency of over 82% (during normal operation) and a reduction in standby current consumption by 45% vs. conventional products - both keys to lowering overall power consumption. In addition, an RTC (Real Time Clock) function that enables clock and calendar management without driving the main processor is built in, increased operating time, along with a li-ion battery charger featuring 30V input overvoltage protection that eliminates the need for an external IC, reducing footprint by 20% and contributing to greater miniaturization.
Going forward, ROHM will continue to expand its product lineup optimized for a variety of applications, from consumer equipment to industrial devices, including PMICs for the i.MX 6 series of processors including i.MX 6Solo, i.MX 6DualLite).
Pricing: $5 (Sample Price)
Availability: Now (Samples), April 2015 (OEM quantities)
Key Features
1. High efficiency buck converter optimized for i.MX 6SoloLite power rails contributes to even lower power consumption
Developing a power supply circuit designed specifically for i.MX 6SoloLite power rails makes it possible to minimize power consumption and reduce standby current consumption to a mere 12uA.
In addition, adopting a high-efficiency buck converter ensures stable, high efficiency (82%+) operation during both light and heavy loads - ideal for power supply systems in battery-driven applications.
2. Integrated 2A li-ion battery charger with 30V overvoltage protection function reduces mounting area considerably
Lithium ion and lithium polymer batteries are used in a wide range of portable devices due to their compact form factor and high energy density. The BD71805MWV incorporates a battery charge function that significantly reduces mounting area, contributing to greater miniaturization.
In addition, besides power supply from a battery, there are times when a surge of high voltage is unintentionally input when supplying power from an external device. As a countermeasure, an overvoltage protection circuit is built in to prevent damage by protecting against surge voltages up to 30V. This allows a variety of devices (ICs) to be safely connected to the VSYS pin, improving system reliability.
3 Additional features
--Â 2.5MHz buck x 4ch
--Â LDO x 5ch
--Â 15bit DeltaSUM-ADC Coulomb counter
--Â RTC (32kHz OSC)
--Â l(2)C I/F (100kHz, 400kHz, 3.4MHz)
4 Evaluation board
An evaluation board incorporating the i.MX 6SoloLite processor and BD71805MWV is available, enabling immediate verification.
Media contact:
Jayme Pontious
1-408-737-6259
jpontious@rohmsemiconductor.com
