Freescale Semiconductor, Inc. Document Number: KL17P64M48SF2 Data Sheet: Technical Data Rev. 5, 04/2015 Kinetis KL17 Microcontroller MKL17Z32Vxx4(R) 48 MHz ARM Cortex-M0+ and 32/64 KB Flash MKL17Z64Vxx4(R) The KL17 series is optimized for cost-sensitive and battery- powered applications requiring low-power general purpose 64 LQFP (LH) 36 XFBGA (DA) connectivity. The product offers: 10x10x1.6 mm P .5 3.5x3.5x.5 mm P .5 Embedded ROM with boot loader for flexible program upgrade High accuracy internal voltage and clock reference FlexIO to support any standard and customized serial peripheral emulation Hardware CRC module 48 & 32 QFN(FT&FM) 64 MAPBGA (MP) 7x7x.65 mm P .5(FT) Down to 46 A/MHz in very low power run mode and 1.68 5x5x1.23 mm P .5 mm 5x5x.65 mm P .5(FM) A in stop mode (RAM + RTC retained) Core Processor Peripherals ARM Cortex -M0+ core up to 48 MHz One UART module supporting ISO7816, operating up to 1.5 Mbit/s Memories Two low-power UART modules supporting 32/64 KB program flash memory asynchronous operation in low-power modes 8/16 KB SRAM Two I2C modules supporting up to 1 Mbit/s 16 KB ROM with build-in bootloader Two 16-bit SPI modules supporting up to 24 Mbit/s 32-byte backup register for SPI1 and 12 Mbit/s for SPI0 One FlexIO module supporting emulation of System additional UART, SPI, I2C, I2S, PWM and other 4-channel asynchronous DMA controller serial modules, etc. Watchdog One 16-bit ADC module with high accurate internal Low-leakage wakeup unit voltage reference, up to 20 channels and up to 818 Two-pin SWD (serial wire debug) programming and ksps at equal to or less than 13-bit mode debug interface High-speed analog comparator containing a 6-bit Micro trace buffer DAC for programmable reference input Bit manipulation engine Interrupt controller Timers One 6-channel Timer/PWM module Clocks Two 2-channel Timer/PWM modules 48 MHz high accuracy (up to 0.5%) internal reference One low-power timer clock Periodic interrupt timer 8 MHz high accuracy (up to 3%) internal reference Real time clock clock 1 kHz reference clock active under all low power modes (except VLLS0) 3240 kHz and 332 MHz crystal oscillator 20142015 Freescale Semiconductor, Inc. All rights reserved.Operating Characteristics Security and Integrity Voltage range: 1.71 to 3.6 V 80-bit unique identification number per chip Flash write voltage range: 1.71 to 3.6 V Advanced flash security Temperature range: 40 to 105 C Hardware CRC module Packages I/O 64 LQFP 10mm x 10mm, 0.5mm pitch, 1.6mm Up to 54 general-purpose input/output pins thickness Low Power 36 XFBGA 3.5mm x 3.5mm, 0.5mm pitch, 0.5mm Down to 46 A/MHz in very low power run mode thickness Down to 1.68 A in stop mode (RAM + RTC 32 QFN 5mm x 5mm, 0.5mm pitch, 0.65mm thickness retained) 64 MAPBGA 5mm x 5mm, 0.5mm pitch, 1.23mm Six flexible static modes thickness (Package Your Way) 48 QFN 7mm x 7mm, 0.5mm pitch, 0.65mm thickness (Package Your Way) NOTE The 48 QFN and 64 MAPBGA packages supporting MKLx7ZxxVFT4 and MKLx7ZxxVMP4 part numbers for this product are not yet available. However, these packages are included in Package Your Way program for Kinetis MCUs. Visit Freescale.com/KPYW for more details. Related Resources Type Description Resource Selector Guide The Freescale Solution Advisor is a web-based tool that features Solution Advisor interactive application wizards and a dynamic product selector. 1 Product Brief The Product Brief contains concise overview/summary information to KL1xPB enable quick evaluation of a device for design suitability. 1 Reference The Reference Manual contains a comprehensive description of the KL17P64M48SF2RM Manual structure and function (operation) of a device. 1 Data Sheet The Data Sheet includes electrical characteristics and signal KL17P64M48SF2 connections. 2 Chip Errata The chip mask set Errata provides additional or corrective xN87M information for a particular device mask set. Package Package dimensions are provided in package drawings. XFBGA 36-pin: 98ASA00708D drawing LQFP 64-pin: 98ASS23234W QFN 32-pin: 98ASA00615D QFN 48-pin: 98ASA00616D MAPBGA 64-pin: 98ASA00420D 1. To find the associated resource, go to