QN9080-001-M17 Ultra Low-Power Bluetooth Smart 5.0 SIP Rev. 1.0 5 December 2018 Objective data sheet 1. General description The QN9080-001-M17 is a fully certified device supporting BLE and NFC. It has ultra-low power consumption, highly integrated with rich feature sets, fully FCC/CE/IC/MIC certified. The QN9080-001-M17 supports Bluetooth 5, and it is intended for ultra-small, portable connected wireless applications. This ultra-small device is based on QN9080 die and NT3H2211 die. QN9080 is powered by an Arm Cortex -M4F, and has a dedicated fusion sensor co-processor (FSP) to further reduce power consumption by off-loading complex math computations to the hardware. 512 KB of on-board flash and 128 KB SRAM provide enough room and flexibility for complex applications. NT3H2211 is NFC Forum Type 2 Tag compliant IC with I2C interface, which supplies the fastest, least expensive way to add tap-and-go connectivity to just about any electronic applications. The QN9080-001-M17 also integrates 32 MHz and 32.768 kHz crystals, a 2.4 GHz optimized antenna, and necessary components for QN9080 system to run. It offers a complete solution for applications requiring BLE wireless connectivity and fast pairing with NTAG as an option. Its low external component count reduces overall system size, complexity and shortens development time. 2. Features and benefits Key features: Bluetooth 5.0 certified Integrated antenna Integrated 32 MHz and 32.768 kHz crystals 32-bit Arm Cortex-M4F core at 32 MHz 512 KB flash 128 KB RAM TX power: up to +2 dBm RX sensitivity: -92.7 dBm in 1 Mbps mode and -89 dBm in 2 Mbps mode True single-chip Bluetooth Low Energy (v5.0) SoC solution: Integrated Bluetooth LE radio, protocol stack and application profiles Support central and peripherals roles Support master/slave concurrency Support 16 simultaneous links Support secure connections Support data packet length extension 48-bit unique BD address -92.7 dBm in 1 Mbps mode and -89 dBm in 2 Mbps modeUltra Low-Power Bluetooth Smart NXP Semiconductors QN9080-001-M17 TX output power from -20 dBm to +2 dBm Very low power consumption: Single 1.67 V ~3.6 V power supply 1 A power-down mode, to wake up by GPIO 2 A power-down mode, to wake up by 32 kHz sleep timer, RTC and GPIO 4 mA RX current at 3 V supply in 1 Mbps Ultra Low power Bluetooth Low Energy 5.0 module 3.5 mA TX current at 0 dBm TX power at 3 V supply in 1 Mbps mode Interface: 32 General-Purpose Input/Output (GPIO) pins, with configurable pull-up/pull-down resistors 8 external ADC inputs (shared with GPIO pins) 2 Analog Comparator input pins (share with GPIO pins) Single power supply 1.67 V to 3.6 V Operating temperature range -40 C to +85 C 6 x9.7x1.17 mm LFLGA package 2.1 Feature of QN9080 True single-chip Bluetooth Low Energy (v5.0) SoC solution Integrated Bluetooth LE radio, protocol stack and application profiles Supports central and peripherals roles Supports master/slave concurrency Supports 16 simultaneous links Supports secure connections Supports data packet length extension Wifi/Bluetooth LE coexistence interface 48-bit unique bluetooth device address RF Fast and reliable RSSI in 1 dB step TX output power from 20 dBm to 2 dBm Single-ended RF port with integrated balun Generic FSK modulation with programmed data rate from 250 Kbps to 2 Mbps Compatible with worldwide radio frequency regulations Very low power consumption Single 1.67 V to 3.6 V power supply Integrated DC-to-DC buck converter and LDO 1.0 A power-down 1 mode, to wake up by GPIO 2.5 A power-down 0 mode, to wake up by 32 kHz sleep timer, RTC and GPIO 3.5 mA RX current with DC-to-DC convertor enabled at 3 V supply in 1Mbps mode 4 mA TX current at 0 dBm TX power with DC-to-DC converter enabled at 3 V supply in 1 Mbps mode Arm Cortex-M4 core (version r0p1) Arm Cortex-M4 processor, running at a frequency of up to 32 MHz Floating Point Unit (FPU) and Memory Protection Unit (MPU) QN9080-001-M17 All information provided in this document is subject to legal disclaimers. NXP Semiconductors B.V. 2018. All rights reserved. Objective data sheet Rev. 1.0 5 December 2018 2 of 39