ATM3 Energy Harvesting White Paper
Release Date: June 23, 2021 Document Number: ATM3xxxx-WPEH-0052
ATM3 Energy Harvesting White Paper Read More »
Release Date: June 23, 2021 Document Number: ATM3xxxx-WPEH-0052
ATM3 Energy Harvesting White Paper Read More »
SUMMARY: Compatibility test report for ATM2/3 Bluetooth 5.0 Keyboard.
Keyboard Interop Test Report Read More »
Summary: This white paper first describes how to program the sensor hub. It then does an average power comparison between the two methods using a realistic set of parameters. Actual customer use cases may differ but this white paper outlines a methodology that should be useful in all use cases.
ATM2/ATM3 Sensor Hub White Paper Read More »
Release Date: April 16, 2021 Document Number: ATMx221-UGOTA-0054
ATM2/ATM3 OTA Update Service User Guide Read More »
SUMMARY: This document provides Bluetooth Low Energy (Bluetooth LE) interoperability test results between Atmosic ATM2/ATM3 and variety of devices including leading iOS and Android smart phones and a Windows laptop.
ATM2/ATM3 Interoperability Test Report Read More »
Release Date: April 14, 2021 Document Number: ATMxxxx-UGCLI-0052
Command Line Interface Tool User Guide for ATM2/ATM3 Read More »
Summary: ATM2/3 Series has up to 34 pins labelled P<N> where <N> is an integer. Throughout the remainder of this document, this collection of pins will be referred to as the P pins.
ATM2/ATM3 Pin Assignment and Pinmux Programming White Paper Read More »
SUMMARY: This document describes how to write beacon parameters into the OTP.
ATM2/ATM3 Beacon OTP Configuration User Guide Read More »
Summary: The Atmosic ATM2/ATM3 series extreme low power Bluetooth 5.0 system-on-a-chip (SoC) incorporates an RF wakeup receiver, which is designed to decode an incoming RF paging signal to wake up the system. This document describes the functionality of the wakeup receiver, supported wakeup patterns, and reference applications.
ATM2/ATM3 Wakeup Receiver White Paper Read More »
Summary: This document describes the functional and power consumption differences among the three modes and provides an in depth analysis of specific use cases.
Understanding ATM2/ATM3 Low Power Modes White Paper Read More »