LPC Discover the difference Discover the difference:

NXP LPC microcontrollers 35+ years of MCU innovation The NXP LPC portfolio represents one of the broadest selections of 32-bit MCUs — with more than 325 devices NXP entered the ® ™ based on ARM Cortex -M cores — and delivers business over 35 higher application performance with a better developer years ago when, experience. as , we rolled out our first 8-bit MCUs. Since then, as These innovation-packed devices give you the features you’ve Semiconductors and now come to expect from a long-time leader in ARM cores — like The LPC portfolio addresses every NXP — a different kind of partner as NXP, we have continued to application, with everything from ultra- We offer the experience and expertise drive industry firsts with a 32-bit fast CPU speeds and best-in-class power efficiency — along low-power solutions for basic control, that comes from building one of the ARM-based MCU portfolio: with new features that might surprise you. Whether it’s added ideal for 8- and 16-bit replacement, broadest semiconductor portfolios in the connectivity and control features, patent-pending peripherals to advanced options for digital- industry. Every solution we deliver draws 4 One of the first Cortex-M0 signal control that support rigorous on our deep knowledge of the latest core licensees for added functionality, or the tiniest packages, we include connectivity requirements. Plus, every embedded technologies: wired and unexpected extras that save time, increase design flexibility, LPC microcontroller benefits from our wireless connectivity, communications, 4 Fastest Cortex-M3 in the and lower cost. ongoing passion for innovation: identification, sensors, USB, human- industry (180 MHz) machine interface (HMI), display, analog, 4 Unique architectural enhancements interfaces, power management, security 4 First Cortex-M4 over drive new levels of power efficiency – the list goes on. 200 MHz and performance 4 Industry-leading, patent-pending And, for over a decade, we have 4 First dual-core MCU IP gives designers the flexibility partnered with ARM, collaborating combining ARM Cortex-M4F to address unique application on the evolution of microcontrollers and Cortex-M0 cores challenges to realize the full potential of each 4 Complete application solutions make microcontroller core and shape our 4 First to offer seamless high- the designer’s job easier, faster, and industry. As one of their earliest speed SPI interface that sometimes even more fun licensees, we have an established connects with virtually all SPI 4 A robust software ecosystem and track record of helping ARM succeed and QSPI Flash thriving support community simplify whenever the microcontroller “rubber” embedded development from start hits the application “road,” and we’re 4 An exceptionally wide to finish, fostering design reuse and proud to have shared in many of ARM’s selection of packages, portability at every step. firsts. including the world’s first 32-bit MCU in a WL-CSP With decades of design experience, package (2x2 mm) and the expertise in many fields, and proven world’s first low-pincount innovation, NXP brings more to the Cortex-M0 series in SO, table, at no extra cost. And that makes TSSOP, and DIP packages all the difference. Larger Flash with SPIFI/external QSPI 1024 1024 End-to-end solutions LPC4300 & LPC1800 512 512

256 256 LPC4000 128 128 LPC1500

Today’s LPC portfolio includes over 400 highly integrated devices that represent the very latest innovations in 32-bit 64 LPC1200 64 LPC1700 microcontroller technology. Each LPC product series enhances the ARM Cortex-M core architecture with patent- LPC1300

FLASH (KB) 32 32 pending innovations that deliver industry-leading performance, design simplicity, flexibility, and power efficiency. 16 LPC1100 16 Whether you’re looking for a cost-effective upgrade for an existing 8/16-bit design or a highly integrated solution to a LPC4300 Series 8 LPC800 8 also includes complex control and connectivity application, the LPC portfolio has exactly what you need. Flashless parts 4 4

8 20 32 48 64 100 32 48 64 80 100 208 256 PINS PINS From entry level to high performance

Easy to use Easy to use 4 Cortex-M3, Cortex-M4, and Cortex-M4F 4 Standard and advanced programmable 4  Best power efficiency Up to 50 MHz ARM Cortex-M0 Advanced connectivity cores and dual-core (Cortex-M4F and timers to address complex timing/PWM Smallest footprint and Cortex-M0+ cores Flexible peripherals Cortex-M0) with speeds up to 204 MHz challenges 4  Best power efficiency 4 Single/dual FS/HS USB 2.0 with integrated 4 Advanced peripherals to simplify complex 4  When low power consumption, Popular connectivity standards: When your application is more complex PHY, supporting device/host configurations, design challenges 2C, SPI, UART small package size, or design USB, CAN, I — requiring higher throughput, including dual HS host with HS PHY 4 Unique expandable memory architecture for 4 Segment LCD simplicity are your priorities, multiple connectivity protocols running (LPC1800/4300) tailoring cost and memory size to application 4 EEPROM entry-level LPC MCUs really simultaneously, and exceptional 4 CAN 2.0B with ROM driver 4 Pin compatibility between series for drop-in 4 Innovative low-pincount deliver. Offering ultimate power energy efficiency — high-performance 4 10/100 Ethernet performance scaling packages conserve board efficiency and basic connectivity in LPC devices offer the bandwidth 4 Graphic LCD display with free emWin space the industry’s smallest packages, and advanced features to meet your graphics libraries 4 Patent-pending peripherals these devices are the best options requirements. Dual-core options deliver deliver ultimate flexibility and for 8/16-bit replacement. ultimate speed, easy performance speed scaling, and application partitioning.

LPC1800 Series LPC4300 Series

Best performance with DSP and dual-core LPC1700 Series LPC4000 Series options, multi-high-speed connectivity, advanced peripherals High performance with DSP options, multi-connectivity, advanced peripherals 4 Industry’s highest- 4 Up to 204 MHz performing Cortex-M4F Cortex-M3 core, core with DSP LPC800 Series LPC1100 Series LPC1200 Series LPC1300 Series LPC1500 Series 4 Up to 120 MHz 4 Up to 120 MHz Cortex-M3 core Cortex-M4 and up to 180 MHz capabilities Exceptional Low power, Noise immunity for Performance and High-precision M4F cores with 4 Advanced and Cortex-M0 4 Advanced coprocessor efficiency, broad selection, industrial applications basic connectivity, motion control connectivity: USB, digital signal connectivity: dual 4 8/16-bit transition industry-standard LPC1100 upgrade CAN, Ethernet processing Hi-Speed USB, Partition tasks connectivity 4 45 MHz Cortex-M0 4 Up to 72 MHz dual CAN, 10/100 across cores 4 4 Advanced 4 30 MHz core 4 Up to 72 MHz Cortex-M3 core Graphic LCD Ethernet to optimize controller connectivity: USB, Cortex-M0+ core 4 50 MHz Cortex-M0 4 High-immunity Cortex-M3 core 4 Optimized CAN, Ethernet 4 Advanced timers performance 4 4 Basic serial and M0+ cores rating (IEC61697-1) 4 Serial connectivity for sensored/ Pin-compatible for highly flexible, 4 Advanced migration path 4 Graphic LCD connectivity 4 Serial connectivity: 4 8 kV ESD including USB, sensorless controller event-driven connectivity: dual USB with PHY, CAN CAN brushless motion to Cortex-M4 timing and PWM Hi-Speed USB, 4 Low-pincount protection LPC4000 Series 4 Analog with transceiver 4 control; free applications dual CAN, and packages including 4 Basic analog Pin-compatible and ARM7 comparators TSSOP, DIP 4 Best-in-class upgrade for most firmware 4 Drop-in 10/100 Ethernet, LPC2x00 Series 4 analog 4 Real-time clock LPC1100 Series 4 Serial connectivity: Drop-in compatible with configurable 4 Fast-mode I²C devices USB, CAN performance LPC4300 Series high-speed serial 4 Broad selection of upgrade for channels packages with 10x bus-drive 4 Advanced analog LPC1700 Series 4 capability subsystem and Drop-in upgrade 4 Migration path to for LPC1800 Series LPC1300 Series SCTimer/PWM

4 LPC microcontrollers — Discover the difference LPC microcontrollers — Discover the difference 5 CORTEX-M0+ LPC800 Series Ultra-low-power 30 MHz ARM Cortex-M0+ core delivers deterministic, real-time performance. Exceptional efficiency, 8/16-bit transition Power profiles give developers fine- grained, real-time control over power consumption. Together with four power modes, they help reduce power Solutions for consumption to 90 µA/MHz in active 4 Upgrading 8/16-bit LPC800 mode. microcontrollers 4 Applications demanding Flash ARM up to16 KB A Flash sector size of 64 Bytes simplifies small package and CORTEX-M0+ SRAM Flash code management by enabling footprint 30 MHz up to 4 KB developers to program Flash in a smaller 4 Applications with stringent page size and use Flash like an EEPROM. IOP ROM

low-power requirements AHB-LITE Bus 4 Applications bridging GPIO (up to 14) CRC Engine Conserving Flash is critical in small serial protocols Bridge ROM packages. Putting drivers and special SCTimer/PWM functions in ROM makes the LPC800 Typical applications Power Control exceptionally easy to use and leaves 4 4 ch multi-rate timer Lighting, metering, PMU, power modes, BOD, more Flash for application code. single V power supply, POR portable, and other DD WWDT battery-powered devices Clock Generation Unit The patent-pending SCTimer/PWM Wake-up timer 12 MHz, 1% IRC OSC, peripheral implements virtually any Watchdog OSC, TIMERS 1-25 MHz System OSC, timing or PWM function found on GPIO pads

APB Bus System PLL Switch matrix popular 8-bit MCUs, without loading the SYSTEM CPU. A simple, GUI-based configuration SPI (2) tool makes this sophisticated peripheral I2C easy to use. Comparator UART (3) with external Vref LPC800 specifications at a glance An integrated comparator reduces BOM SERIAL INTERFACES ANALOG and footprint. Core Cortex-M0+

Flash (kB) 4 - 16 The switch matrix gives developers RAM (kB) 1 - 4 unprecedented design flexibility in low-pincount MCUs. A GUI-based I2C 1 configuration tool makes it simple to SPI/SSP 1 - 2 Application example: assign any peripheral to any I/O pin, so UART 2 - 3 Coffee machine LPC800 it’s fast and easy to build new layouts or GPIO 6 - 14 After confirming the edit existing ones. coffee pods being used SCTimer/ Analog Comparator LCD SPI Water pump are an authentic brand PWM Supply voltage (V) 1.8 - 3.6 match, the MCU controls Status LED Coffee refill GPIO GPIO Water heater Active: 3.3 mA the solenoids for the array with nTAG Sleep: 600 µA water pump and heater, Power Deep sleep: 170 µA the status LEDs, and the Power down: 1.8 µA I2C NTAG reader Deep power-down: 220 nA LCD display. For more information visit Temp range (ºC) Up to +105 www.nxp.com/microcontrollers Packages DIP8, SO20, TSSOP16/20

6 LPC microcontrollers — Discover the difference LPC microcontrollers — Discover the difference 7 CORTEX-M0+ | CORTEX-M0

API-driven power profiles simplify LPC1100 LPC1100 Series power control with ready-to-use power-

Flash management templates for runtime Core up to 256 kB optimization of performance, efficiency, 30 MHz ARM Cortex-M0 or 50 MHz Cortex-M0 and active power consumption. SRAM Low power, broad selection, industry-standard up to 32 kB Conserving Flash is critical in small EEPROM connectivity ROM packages, and putting drivers for USB,

ROM CAN, and EEPROM in ROM simplifies AHB-LITE Bus Solutions for Typical applications development, increases reliability, and High-Speed GPIO IOH 4 Applications prioritizing small 4 PC and gaming peripherals, up to 42 leaves more Flash for application code. Bridge size, low pincount, and/or mobile accessories 2 low power consumption with 4 Battery-powered mobile and Power Control USB Need an extra UART, I C, SPI, analog PMU, power modes, BOD, requirements for integrated portable devices single V power supply, POR IOH features or even DMA? Use the I/O DD CAN connectivity (USB or CAN), 4 Commercial and industrial with TJF1051/3 CAN Handler (IOH) to add extra functionality transceiver analog, segment LCD, or applications such as utility anytime during the design cycle. EEPROM metering, lighting, and Clock Generation Unit 12 MHz, 1% IRC OSC, Watchdog SPI (1/2) 4 BOM cost sensitivity: onchip intelligent power OSC, 1-25 MHz System OSC, USB has never been easier, with onchip System PLL USB PHY and CAN transceiver 4 Intelligent sensors and smart I2C (2) PHY, ROM drivers for MSC, HID, CDC, reduce cost control systems SYSTEM and DFU device classes, integrated UART (5) 4 Plug-and-play USB: certified APB Bus DMA support, a free USB stack library, USB drivers, VID/PID program Compatibility and migration Segment LCD extensive example code for popular 4 High-performance analog: 4 For scalable performance to SERIAL INTERFACES device classes, USB-IF certification, and 12 ch/12-bit 2 Msps ADC, Cortex M3, migration path to 16-bit timer (2) a free VID/PID program.

12-bit DAC, comparators, LPC1300 Series (code and pin 32-bit timer (2) ADC up to 12 ch, 12-bit, 1.2 Msps PWMs, temp sensor compatible) The high-performance CAN 2.0B 4 WDT Improved reliability and DAC, Temp Sensor, interface supports bit rates up to Comparator, Int Vref performance using onchip Systick clock 1 Mbps, works with multi-drop and serial LPC1100 specifications at a glance EEPROM for data storage communications, and is available with or TIMERS ANALOG Core Cortex-M0+ or Cortex-M0 without an integrated industry-standard Flash (kB) 4 - 256 transceiver. CANopen drivers in ROM RAM (kB) 1 - 32 provide easy-to-use API commands for EEPROM (kB) 0 - 4 the CANopen protocol, and free up as I2C 1 - 2 much as 8 kB of user code space. LPC1100 Series families SPI/SSP 1 - 2 Application example: 4 LPC1100 LDO : low power, low pincount UART/USART 1 - 5 Best-in-class analog features include an Gaming mouse 4 LPC11U00 : USB device up to 12 ch/12-bit ADC with a sample GPIO Up to 80 A USB 2.0 device and ample serial 4 LPC11C00 : CAN +3.3V +5V rate of 2.0 Msps, a DAC, comparators, USB 2.0 0 - 1 FS device I/O provide a low-power, cost- 4 LPC11D00 : segment LCD display PC and a temp sensor. CAN 2.0B 0 - 1 effective solution for this gaming LPC11U14 4 LPC11A00 : analog Display Segment LCD mouse and other peripherals, like 4 LPC1100LV : dual supply voltage The high-contrast segment LCD 5, 6, 8, 10, or 12 ch / keyboards. (1.65 to 1.95 V V and 1.65 to 3.6 V Analog CPU USB DD controller supports any static or 10- or 12-bit ADC USB V ), tiny 2x2 mm footprint IO multiplexed LCD with up to 160 LCD Supply voltage (V) 1.65 – 3.6 R G B Laser sensor SPI I2C LED driver segments. Active: 7 mA I2C Sleep: 5 mA Power* Deep sleep: 2 µA SPI Flash GPIO GPIO Deep power-down: 220 nA Temp range (ºC) Up to +105

DIP28, HVQFN24/33, Click wheel LQFP48/64/100, SO20, Key switch For more information visit Packages (z-encoder) TFBGA48/64, TSSOP20/28, www.nxp.com/microcontrollers WLCSP16/20/25

8 LPC microcontrollers — Discover the difference *Figures based on LPC111x LPC microcontrollers — Discover the difference 9 CORTEX-M0 CORTEX-M3 LPC1200 Series LPC1300 Series

Noise immunity for industrial applications Performance & basic connectivity, LPC1100 upgrade

Typical applications 4 Rated high immunity, based on the Solutions for Key features 4 Large appliances, industrial controls, Electrical Fast Transient (EFT) test by 4 Applications requiring multiple 4 Full-Speed USB 2.0 device with factory and home automation Langer EMV-Technik per IEC61697-1 connectivity protocols, analog, onchip PHY and ROM drivers 4 Onchip ADC and two comparators, and precision 4 Highly configurable analog system Key features each with 32 levels of voltage 4 Performance (core) upgrade for including 12-bit ADC 4 Windowed (WWDT), reference, edge/level detection, and LPC1100 MCUs IEC 60730 Class B certified multi-state output feedback loop Compatibility and migration 4 Programmable digital filter on all 4 RTC and DMA support Typical applications 4 Pin-compatible with LPC1100, ideal GPIO pins for finer control of signal 4 High-end gaming peripherals, for design upgrades integrity lighting, power supplies

Solutions for 4 Low- to mid-range product designs prioritizing robustness and reliability 4 Products requiring high immunity LPC1200 LPC1300 and/or 8 kV protection Flash Flash up to 128 kB up to 64 kB ARM Cortex-M0 ARM Cortex-M3 up to 45 MHz up to 72 MHz SRAM SRAM up to 8 kB up to 12 kB LPC1300 specifications at a glance LPC1200 specifications at a glance Core Cortex-M3 ROM EEPROM Core Cortex-M0 up to 4 kB Flash (kB) 8 - 64 High-Speed GPIO High-Speed GPIO DMA Controller Flash (kB) 32 - 128 up to 55 AHB-LITE Bus up to 51 AHB-LITE Bus RAM (kB) 4 -12 ROM RAM (kB) 4 - 8 CRC Engine (USB drivers) EEPROM (kB) 0 - 4 Clock Generation Unit Power Control 2 Bridge 2 I C 1 FM+ 12 MHz, 1% IRC OSC, Watchdog PMU, power modes, BOD, Bridge I C 1 FM+ OSC, 1-25 MHz System OSC, single V power supply, POR SPI/SSP 1 System PLL DD SPI/SSP 1 - 2 UART 2 UART/USART 1 UART (2) GPIO 39 - 55 Power Control Clock Generation Unit GPIO 28 - 51 PMU, power modes, BOD, 12 MHz, 1% IRC OSC, Watchdog SSP (1 or 2) Display Segment LCD SSP/SPI USB 2.0 0 - 1 FS device single VDD power supply, POR OSC, 1-25 MHz System OSC, System PLL Analog 8 ch/10-bit ADC, 2 comparators I2C FM+ I2C FM+ Analog 8 ch/10-bit ADC Supply voltage (V) 3.2 - 3.6 SYSTEM SYSTEM Supply voltage (V) 2.0 - 3.6 USB Segment LCD Active: 14 mA Active: 17 mA Sleep: 1.8 mA USART Sleep: 2 mA Power 32-bit Timers (2) SERIAL INTERFACES 32-bit Timer (2) Power Deep sleep: 30 µA APB Bus APB Bus Deep sleep: 30 µA Deep power-down: 720 nA SERIAL INTERFACES Deep power-down: 220 nA 16-bit Timers (2) 16-bit Timer (2) Temp range (ºC) Up to +85 Temp range (ºC) Up to +85

Packages LQFP48/64/100 WWDT ADC WWDT Packages HVQFN33, LQFP48/64 8 channel, 10-bit ADC 8 channel, 10-bit/12-bit Systick timer Systick timer Comparator (2) Real-time clock TIMERS ANALOG For more information visit For more information visit www.nxp.com/microcontrollers TIMERS ANALOG www.nxp.com/microcontrollers

10 LPC microcontrollers — Discover the difference LPC microcontrollers — Discover the difference 11 CORTEX-M3

LPC1500 Series Free, easy-to-use firmware for LPC1500 QuickDrive FOC motor control includes space-vector modulation for smooth

ARM Cortex-M3 Flash and ripple-free torque, a fast control High-precision motion control up to 72 MHz up to 256 kB algorithm (40 µs), tunable performance with NVIC, WIC, MPU, Debug Trace, (ETM) for speed and torque control, and a code SRAM up to 36 kB footprint of just 11 kB Flash. CORE EEPROM up to 4 kB The switch matrix, with its easy-to-use GUI-based configuration tool, makes it ROM Pin switch matrix with ROM drivers simple to assign any peripheral to any Solutions for Typical applications I/O pin, within a new or existing layout. GPIO sDMA USB PLL 18 channel 4 High-precision motion 4 Motor-control applications up to 80+ control for brushless DC in consumer (large home Four patent-pending SCTimer/PWM CRC Engine Power Management Unit (BLDC) and permanent- appliances), commercial PMU, power modes, BOD, single modules let designers implement virtually

VDD power supply, POR magnet synchronous (HVAC/elevator/escalator MEMORY any timing or PWM function without motor (PMSM) sensorless control), and industrial loading the CPU. Each module provides Clock Generation Unit motors (pumps/generators used 12 MHz, 1% IRC OSC, 1-24 MHz CAN (& PHY) USB (& PHY) dithering for efficient motion control, Multilayer Bus Matrix 4 Simultaneous control in hydroelectric and oil/ System OSC, System (CPU) PLL average PWM resolution of less than 1 ns, SPI (2) I2C FM+ of up to two motors: gas industries) SYSTEM and a simple, GUI-based configuration two sensorless or one 4 Digital power supplies, JTAG SWD tool to make the features of this

sensored and one data logging, remote UART (3) sophisticated peripheral easy to use.

sensorless sensing SCT/PWM (4) QEI INTERFACES The high-performance CAN 2.0B WWDT interface with integrated PHY and ROM

Real Time Clock ADC (2) DAC driver supports bit rates up to 1 Mbps Battery pin LPC1500 specifications at a glance and works with multi-drop and serial Systick timer Temp sensor Comparator (4) communications. Core Cortex-M3 TIMERS ANALOG Flash (kB) 64 - 256 A quadrature encoder interface (QEI) RAM (kB) 12 - 36 QEI makes it quick and easy to drive a sensored motor. EEPROM (kB) 4

2 I C 1 FM+ An advanced analog and timing Application Application SPI/SSP 2 subsystem is ideal for PID control loops. example: Digital example: HVAC It includes two 12/12-bit ADCs with UART/USART 3 power Fast ADC Power supply sampling rates up to 2 Msps for precise secondary GPIO 30 - 76 Precise control of 6 PWMs conversion enables (synchronous motor position and speed control of voltage and current rectifier) precise motor USB 2.0 0 - 1 FS device with PHY sensorless field oriented control (FOC), Central Compressor using onchip PWMs/ Short positioning and temperature motor control unit Cortex-M4 circuit/OCP PWM 500 ns ADC conversion time, four fast CAN 2.0B 1 SCTimer/ core ADCs. Fault-tolerant Comparators speed control, PWM Fan comparators, and high-precision timing 2x 12 ch/12-bit 2 Msps ADC system shuts down while PWM Analog Singal with four SCTimer/PWM modules. 12-bit DAC, 4 comparators conditioning Current sensing quickly on detection generation and CAN/USB ADC ADC Communications Temperature Supply voltage (V) 2.4 - 3.6 of short circuit dithering increase network sensor Cortex-M3 Voltage sensing core or over-current ADC the motor’s drive Active: 19 mA Temperature LPC1500 Sleep: 8 mA condition. and other sensors efficiency. Power Deep sleep: 620 µA LPC1500 Power down: 160 µA Deep power-down: 11 µA For more information visit Temp range (ºC) Up to +105 www.nxp.com/microcontrollers Packages LQFP48/64/100

12 LPC microcontrollers — Discover the difference LPC microcontrollers — Discover the difference 13 CORTEX-M3 | CORTEX-M4/M4F

LPC1700 and LPC4000 Series High performance, with CPU speeds LPC1700/4000 up to 120 MHz with a Cortex-M3, Cortex-M4, or Cortex-M4F (with 32-bit Flash FPU for efficient signal processing). High performance with DSP options, ARM Cortex-M3 (LPC1700) or SRAM ARM Cortex-M4 (LPC4000) The 8/16/32-bit external memory multi-connectivity, advanced peripherals ROM EMC controller (EMC) supports external

Floating Point Unit EEPROM asynchronous static memory devices such as RAM, ROM, and Flash, as well as Solutions for 4  MEMORY Drop-in upgrades of ARM7 LPC2000 CORE dynamic memories such as single-data- 4  Solid mid-range performance, power MCUs for better power efficiencies rate SDRAM. efficiency and higher performance GPIO GPDMA 4  Up to 165 Multiple high-bandwidth data The optimized graphic LCD display streams running simultaneously Typical applications EMC SPIFI USB PLL CRC Engine controller interfaces directly with a from peripherals such as Ethernet, 4 Smart energy, building automation, Graphic LCD FS USB 2.0 variety of color and monochrome LCD USB (host or device), CAN, and LCD industrial controls and networking, Power Control panels with resolutions up to 1024x768 display white goods, lighting, surveillance, PMU, power modes, BOD, single Ethernet MAC CAN 2.0B (2) VDD power supply, POR pixels, and includes free emWin graphics 4  2 Applications requiring external computer communications and SD/MMC I S libraries.

SDRAM or scalable peripherals, alarm systems, motor Clock Generation Unit Multilayer Bus Matrix Motor Ctrl PWM, QEI configurations control, displays, telematics, 12 MHz, 1% IRC OSC, 1-24 MHz System OSC, System (CPU) PLL The patent-pending SPI Flash interface 4  SSP/SPI (3), I2C (3), UART (5) Embedded products requiring scanners, and medical diagnostics (SPIFI) provides a seamless high-speed SYSTEM vibrant graphic LCD displays INTERFACES interface to low-cost QSPI Flash, 4  Compatibility and migration Digital signal control tasks (LPC4000) enabling it to appear in the MCU’s 4  32-bit Timers (4) LPC1700 is pin-compatible with memory map and be accessed like ARM7 LPC2x00 and LPC4000 Series LPC1700 and LPC4000 specifications at a glance WDT or WWDT on-chip memory. SPIFI offers a cost- LPC1700 LPC4000 4 LPC4000 is drop-in compatible with Real-time clock ADC DAC effective way to add Mbytes of program 120 MHz Cortex-M4 or LPC177x/8x and ARM7 LPC2x00 Battery pin, event recorder 8-channel, 12-bit 10-bit Core 120 MHz Cortex-M3 or data flash to your system. Cortex-M4F Systick timer Comparator (2) Flash (kB) 32 - 512 64 - 512 Full-Speed USB 2.0 with onchip PHY, TIMERS ANALOG RAM (kB) 8 - 96 24 - 96 device, and host support. EEPROM (kB) 0 - 4 2 - 4 I2C 3 3 Ethernet MAC with MII/RMII interface SPI/SSP 2 - 3 3 and associated DMA controller. UART 4 - 5 4 - 5 GPIO Up to 165 Up to 165 Application example: Secure transactions USB 2.0 0 - 1 FS device/host/OTG 0 - 1 FS device/host/OTG MIFARE card in point-of-sale (POS) device CAN 2.0B 0 - 2 2 This POS example uses an industry-leading 10/100 Ethernet 0 - 1 0 - 1 Contactless 32 Mbit CLRC663 MIFARE contactless and dual interface reader/writer QSPI Flash Display Graphic LCD Graphic LCD

smart card for payment. The NXP CLRC663 2 8 ch/12-bit ADC, I C 6/8 ch/12-bit ADC, contactless reader IC interfaces with the Analog 10-bit DAC, 10-bit DAC 0 - 2 comparators MIFARE card, and the LPC4088 MCU drives an SPIFI Supply voltage (V) 2.4 - 3.6 2.4 - 3.6 800x480 color touchscreen LCD that provides the user interface. The GUI is built using emWin Active: 7 - 67 mA Active: 7 - 67 mA I2C 18-bit LCD Sleep: 2 mA Sleep: 2 mA graphics libraries, free to LPC developers. SPIFI Cortex-M4 LCD/I2C Power Deep sleep: 240 µA Deep sleep: 240 µA core 2 interfaces to a 32-Mbit QSPI Flash used for I C Power down: 31 µA Power down: 31 µA scalable storage of images and backgrounds. LPC4088 Color LCD display/ Deep power-down: 630 nA Deep power-down: 630 nA with touchscreen (800x480) Temp range (ºC) Up to +85 Up to +85 Visit www.lpcware.com for more info. For more information visit LQFP80/100/144/208, LQFP80/100/144/208, Packages www.nxp.com/microcontrollers TFBGA100/180/208 TFBGA180/208

14 LPC microcontrollers — Discover the difference LPC microcontrollers — Discover the difference 15 CORTEX-M3 LPC1800 Series The fastest ARM Cortex-M3 core, with LPC1800 CPU speeds up to 180 MHz.

Best performance, multi-high-speed connectivity, The dual-bank Flash supports in- ARM Cortex-M3 Flash Flash Flash application programming (IAP), and the up to 180 MHz 256/512 kB 256/512 kB advanced peripherals with NVIC, WIC, MPU, Debug Trace proprietary Flash accelerator provides (ETM/ETB) SRAM near-zero wait-state access. up to 200 kB CORE EEPROM The expandable memory architecture, 16 kB MEM+ with its patent-pending SPI Flash Solutions for Typical applications ROM interface (SPIFI) and 8/16/32-bit 4  4  System PLL WWDT with ROM drivers High performance, power Communication hubs, external memory controller (EMC) with efficiency consumer and computing USB PLL Audio PLL MEMORY SDRAM support, enables powerful 4  Embedded applications products, building options for scaling memory to the ideal requiring multiple, automation, industrial Power Management Unit EMC SPIFI Power saving modes, BOD, POR requirements. In addition, Flashless high-speed connectivity control, energy-efficient SD/MMC GPDMA options with SPIFI lower cost and options smart appliances with UI, Clock Generation Unit maximize internal SRAM. Graphic LCD Ethernet MAC 4 Hi-Speed USB or dual-host automotive accessories, 12 MHz, 1% IRC OSC, 1-24 MHz USB applications and medical devices System OSC, System (CPU) PLL Multilayer Bus Matrix CAN 2.0B (2) HS USB 2.0 (2) The optimized graphic LCD display 4 Applications requiring SYSTEM SSP/SPI (3) I2C (2) controller supports color and Compatibility and migration large or scalable memory monochrome LCD panels with 4  I2S (2) GPIO (146) configurations Pin- and software- resolutions up to 1024x768 pixels, and 4 Embedded products compatible with the UART (4) LPC1800 specifications at a glance includes free emWin graphics libraries. requiring vibrant graphic LPC4300 Series 32-bit SCTimer/ INTERFACES Timers (4) PWM Core 180 MHz Cortex-M3 LCD displays Dual Hi-Speed USB 2.0 controllers, MCPWM QEI Flash 0 kB - 1 MB integrated Hi-Speed PHY, and support ADC DAC RTC Alarm Timer RAM (kB) 104 - 200 8 channel, 10-bit 10-bit for host and device functionality, including dual-host configurations. EEPROM (kB) 0 - 16 TIMERS ANALOG

2 I C 2 IEEE 1588-supported 10/100 Ethernet SPI/SSP 3 MAC with TCP/IP hardware checksum

UART 4 verification and DMA , plus RMII and MII GPIO Up to 146 interfaces, an external transceiver, and Application example: USB 2.0 0 - 2 HS power management. Hi-Speed USB to CAN 2.0B 2 Ethernet bridge LPC1800 The patent-pending SCTimer/PWM 10/100 Ethernet 0 - 1 A high-speed data stream implements virtually any timing or PWM Hi-Speed USB Cortex-M3 2x 8 ch/10-bit ADC, is input via Hi-Speed Ethernet Analog & Hi-Speed PHY core function without loading the CPU. Its 10-bit DAC USB. The Cortex-M3 core Boot via USB or simple, GUI-based tool makes even boots from external QSPI PC Internet Supply voltage (V) 2.2 - 3.6 QSPI advanced functions easy to configure. Flash or USB into SRAM, Active: 6.6 - 72 mA Sleep: 5 mA and manages the USB Power Deep sleep: 30 µA and Ethernet stacks. The Power down: 15 µA 32 Mbit SRAM SPIFI Deep power-down: 30 nA high-speed data stream QSPI Flash is output via 10/100 Up to +85 (Flashless) Temp range (ºC) or +105 (Flash) Ethernet. For more information visit LQFP100/144/208, LBGA256, Packages www.nxp.com/microcontrollers TFBGA100/180

16 LPC microcontrollers — Discover the difference LPC microcontrollers — Discover the difference 17 CORTEX-M4F The asymmetric dual-core architecture combines a Cortex-M4F and a Cortex-M0 coprocessor, so tasks can LPC4300 Series be strategically partitioned for higher performance and efficiency. LPC4300 The expandable memory architecture, Best performance, DSP functionality, dual cores, MEM+ with its patent-pending SPI Flash ARM Cortex-M4F Flash interface (SPIFI) and 8/16/32-bit up to 204 MHz up to 1 MB multi-high-speed connectivity, advanced peripherals external memory controller (EMC) with SDRAM support, enables powerful SRAM ARM Cortex-M0 up to 282 kB options for scaling memory to the ideal up to 204 MHz EEPROM requirements. In addition, Flashless up to 16 kB options with SPIFI lower cost and CORE ROM maximize internal SRAM. Solutions for Typical applications with ROM drivers 4 Digital signal processing 4 Smart meters, embedded Windowed MEMORY Single and dual Hi-Speed USB with with the connectivity audio, industrial PLLs (1 to 3) WDT integrated PHY, host/device functions, and simplicity of a automation, industrial and dual Hi-Speed host configurations. EMC SPIFI microcontroller control, telematics, Power Management Unit Power modes, BDD, POR 4 Complex algorithms and white goods, power SD/MMC GPDMA IEEE-1588 10/100 Ethernet MAC with

data-intensive applications management, point-of- Graphic LCD Ethernet MAC TCP/IP hardware checksum verification Clock Generation Unit 4 Floating-point processing sale devices, medical 12 MHz, 1% IRC OSC, 1-24 MHz and DMA hardware acceleration, plus

Multilayer Bus Matrix CAN 2.0B (2) HS USB 2.0 (2) 4 High-throughput devices, and automotive System OSC, System (CPU) RMII and MII interfaces, an external applications requiring fast accessories SSP/SPI (3) I2C (2-3) transceiver, and power management. SYSTEM data-handling peripherals UART (4-5) I2S (1-2+) 4 High-speed digital and/or Compatibility and migration The optimized graphic LCD display LPC4300 specifications at a glance SGPIO GPIO (164) controller supports color and analog data acquisition 4 Pin- and software- 32-bit SCTimer/ 204 MHz Cortex-M4F and timers (4) PWM INTERFACES monochrome LCD panels with Core 4 Seamless upward compatible with LPC1800 204 MHz Cortex-M0 resolutions up to 1024x768 pixels, and migration path from Series, for drop-in MCPWM QEI Flash 0 kB - 1 MB includes free emWin graphics libraries. LPC1800 to LPC4300 performance upgrades to ADC DAC RTC Alarm timer 8-22 channels 10-bit RAM (kB) 104 - 282 Series dual-core configurations Combining GPIO with a timer/shift EEPROM (kB) 0 - 16 TIMERS ANALOG SGPIO register, serial GPIO (SGPIO) create or I2C 2* capture real-time serial data streams SPI/SSP 3* without the need for CPU-intensive “bit I2S 2* banging,” and can act as extra serial UART 4 interfaces (UART, I2S, I2C, etc.). GPIO Up to 164 USB 2.0 0 - 2 HS Application example: The LPC437x has a 6-channel, 12-bit Speakers Digital audio streaming ADC with a sampling rate of 80 Msps, CAN 2.0B 2 LPC4320 b0 10/100 Ethernet 0 - 1 NXP’s unique serial x(n) + y(n) the fastest available on an MCU. z-1 b1 -a1 z-1 SD/MMC 1 GPIO peripheral creates Cortex-M4 -1 b2 -a2 -1 multiple I2S channels for core z z The LPC437x uses a dedicated 8 2x 4/6/8 ch/10-bit 400 ksps ADC or Audio signal processing 1x 6 ch/12-bit 80 Msps ADC plus audio output. Here, the MOSUB subsystem to handle programmable Analog I2S 2x 8 ch/10-bit 400 ksps ADC, Cortex-M0 coprocessor digital I/O and pre- or post-processing. 10-bit DAC USB handles -intensive streaming 7.1 multi- It includes an extra 204 MHz Cortex-M0 Supply voltage (V) 2.2 - 3.6 USB0 SGPIO channel audio core, SGPIO, SPI, and SRAM on a I/O processing, leaving codec Active: 6.6 - 81.5 mA the Cortex-M4 100% Cortex-M0 dedicated bus matrix. Sleep: 5 mA PC core Power Deep sleep: 30 µA available for audio signal Power down: 15 µA processing. Deep power-down: 30 nA Up to +85 (Flashless) Temp range (ºC) For more information visit or +105 (Flash) www.nxp.com/microcontrollers Packages LBGA256, LQFP144/208, TFBGA100/180

18 LPC microcontrollers — Discover the difference * Serial GPIO can be used to create additional serial channels, such as I2C, SPI, I2S, etc. LPC microcontrollers — Discover the difference 19 LPC microcontrollers for USB and display

USB features Display features frame buffers, and more ways to The LPC portfolio gives you a full Dual-USB Audio Player Some LPC Series integrate a graphic store graphic data. Some LPC MCUs range of options for implementing USB Plays music files stored on various media. The core handles I/O LCD controller for driving a wide are equipped with an 8/16/32-bit functionality at every performance level. streaming and audio signal processing. Audio streams are output range of color and monochrome LCD EMC that can be used with external through I2S, and the integrated graphic LCD controller supports displays without loading the CPU. static memories, such as RAM, ROM, 4 Full-Speed (FS) and Hi-Speed the user interface. This highly optimized peripheral or Flash, or dynamic memories like (HS) USB 2.0 controllers features: single-data-rate SDRAM. LPC MCUs 4 Single and dual (host/device) 4 Resolutions up to 1024x768 equipped with a SPI Flash interface configurations LPC MCU 4 Support for 24 bpp (up to 16 M (SPIFI) peripheral provide easy 4 FS or HS UTMI+ compliant Speaker colors) connection to external Quad SPI LCD I2S transceiver (PHY) UI 4 Free emWin graphics libraries (QSPI) or SPI Flash memory. or commercial development. Visit Cortex-M3 4  core 4  Free USB-certified software stack Hi-Speed Dedicated LCD DMA controller www.lpcware.com/content/project/ SDIO PC USB 4 Free NXP PID/VID program for SD card 4 Support for hardware cursor Free emWin graphics library emwin-graphics-library for more

simpler end-product certification QSPI Hi-Speed 4 The ability to drive single and LPC developers have free access information. SPI USB 4 Dedicated USB PLL or SPI Flash dual TFT panels to the emWin graphics library, a 4 Support for bulk, interrupt or processor- and display-independent Our LCD controller also works with isochronous, double-buffered Integrated options for expanding GUI that makes it easy to add an LCD GUI middleware from third-party communication with a maximum external memory make it possible display. There are no royalties or companies, including Express Logic packet size of 1023 bytes to support higher resolutions, more additional license fees for personal and Altia.

LPC USB selection guide Next-generation user LCD display/ LPC4300 USB controllers* touchscreen MCU Core Ports PHY* ROM drivers Endpoints interfaces Device Host Cortex-M4 As products move away core LPC11U00 Cortex-M0 FS 1 FS • 5 from mechanical interfaces LCD LPC1300 Cortex-M3 FS 1 FS • 5 toward small LCD panels QSPI LPC175x/6x Cortex-M3 FS FS 1 FS • 16 GPIO SPIFI or touchscreens, there’s a or SPI Flash LPC177x/8x Cortex-M3 FS FS 2 2 x FS 16 need for external memories LPC1800 Cortex-M3 Dual HS Dual HS 2 HS, FS • 4, 6 that store larger frame ADC LPC4000 Cortex-M4/M4F FS FS 2 2 x FS 16 buffers and support more DDR, SDR, 2 Audio codec LPC4300 Cortex-M4/M4F Dual HS Dual HS 2 HS, FS • 4, 6 sophisticated animations. SDRAM, SRAM EMC I S UDA1380 * FS = Full-Speed, HS = Hi-Speed

Dual-USB Host/Device Solution The LPC1837 USB solution (OM13061) comes with LPC display selection guide

everything needed to implement dual-USB functionality Memory (kB) (host, device, or dual-role). It provides examples of: MCU Core LCD display interface Flash RAM 4 Two HS USB device controllers operating LPC178x Cortex-M3 Up to 512 Up to 96 simultaneously for input and output (HS-FS and Up to 1 MB LPC185x Cortex-M3 Up to 200 FS-FS configurations also possible) (2 x 512) STN, TFT, up to 24 bits true-color XGA 4 One HS USB port acting in dual-role mode (first as LPC4088 Cortex-M4F 512 96 HS host, then as HS device) Up to 1 MB LPC435x/7x Cortex-M4/M4F Up to 282 Visit www.nxp.com/demoboard/OM13061.html for more (2 x 512) information

20 LPC microcontrollers — Discover the difference LPC microcontrollers — Discover the difference 21 Application-in-a-box solutions

Simplify design, get to market faster, and lower risk

LPC application-in-a-box solutions Need a head start on design? Our complete “application-in- a-box” solutions provide proof of concept for MCU-based Solution Description Application applications, reduce programming and testing, and get you Highlights the capabilities of this dual-core MCU and demonstrates an from evaluation to final product design faster than ever. Each LPC4357 Internet Radio Audio Streaming Connectivity easy-to-use internet-radio application. Visit LPCware for more information. solution details everything you need to build the application, Provides all the tools for quick development of a Hi-Speed USB or including order and download information. LPC1837 Dual Hi-Speed USB Host/Device USB simultaneous dual-USB application. Visit LPCware for more information. To learn more and see the most up-to-date list of solutions, visit the NXP TechZone: www.nxp.com/techzones/ Low-power options available with NXP LPC1100 & LPC1300 APPLICATION-IN-A-BOX microcontrollers make them compelling solutions for DALI lighting microcontrollers-techzone/Solutions.html DALI Reference Design Board Lighting systems where total energy savings are a critical factor. Visit LPCware for more information.

For sophisticated architectural and stage lighting, powerful LPC1100/ LPC11U00 MCUs offer the performance and connectivity required to DMX Reference Design Board support the ever-increasing complexity of lighting network nodes – Lighting without adding cost. This solution is perfectly suited for highly efficient RGB LED power stages from NXP. Visit LPCware for more information.

This evaluation board helps developers quickly create cost-efficient KNX KNX Reference Design Board designs that take advantage of the low active power consumption of the Lighting NXP Cortex-M0 microcontroller. Visit LPCware for more information.

The AOAA kit makes it easy for designers to develop, evaluate, and prototype complex accessories for Android smartphones and tablets. The Android Open Accessory Application board’s unique gateway-centric design includes Ethernet, CAN, and IEEE Accessories (AOAA) 802.15.4 interfaces, as well as a remote CAN node, for highly advanced accessories in consumer, commercial, and industrial automation. Visit Dali Reference Design Board Android Open Accessory Application kit (AOAA) LPCware for more information.

Audio streaming solution for Lightning-connected MFi accessories. This kit includes audio streaming, battery charging, and functions for controlling MFi Audio Accessories buttons on a remote. It simplifies the design of MFi accessories, reducing Portable development time by as much as half a year. Visit www.nxp.com for more information.

These two reference designs make it easy for developers to incorporate NFC technology designs for POS, gaming, white goods, industrial, and NFC PN512/CLRC663 Reader Board NFC medical applications that use LPC MCUs. Visit www.nxp.com for more information.

Developed in partnership with WPG America and GainSpan, this solution makes it easy to evaluate the capabilities of the GainSpan GS1011M ultra- low-power wireless module and Serial-to-WiFi embedded software using DMX Reference Design Board MFi Audio Accessories GS-NXP-Wi-Fi Evaluation Board the NXP LPC11U37 MCU. The embedded software enables device and WiFi appliance manufacturers to easily add WiFi capabilities to their products with minimal impact on the microcontroller firmware. Visit www.nxp.com for more information.

22 LPC microcontrollers — Discover the difference LPC microcontrollers — Discover the difference 23 LPC microcontroller software ecosystem

Get up and running fast LPCXPRESSO

We get you up and developing in minutes, not LPCXpresso development boards LPCOpen software platform hours, and on world-class development platforms. Designed for rapid prototyping and evaluation, LPCOpen is a comprehensive set of RTOS-agnostic,

The LPC software ecosystem offers advanced yet these inexpensive boards work with the LPCXpresso LPC family-specific libraries that give software Example projects

APP Mouse, keyboard, USB-UART bridge... low-cost ways to evaluate and develop with LPC IDE. Debug can be done using the integrated developers quick access to key product features. MCUs. And, because the entire Cortex-M portfolio probe or an external one, and each board can It includes chip- and board-level device drivers, works with a single MCU toolchain, you can use a act as a debug probe for other targets. The plus protocol stacks for TCP/IP (LWIP) and USB familiar set of tools no matter which LPC family you latest LPCXpresso boards include Uno devices and hosts. Two graphics libraries (SWIM PARTNER OPTIONAL ™ MIDDLEWARE emWIN/SWIM USB device LWIP ChanFAT CAN stack RTOS choose. and Pmod connectors and free pads for easy and SEGGER emWin), let you choose to minimize MIDDLEWARE Graphics and host TCP/IP file system (CANopen) prototyping. footprint or implement full-featured graphics.

LPCXpresso IDE Target Available as a free download from lpcware.com,

SWD/JTAG Arduino digital Arduino digital BSP This powerful, highly-integrated software LPCOpen includes examples using FreeRTOS and LPCXPRESSO

development environment provides everything Micrium µCOS-III for most devices, and lets you I2C I2S CAN USB USART Ethernet ...

JP1

needed to develop high-quality applications. build common APIs with Keil, IAR, and LPCXpresso CSP Flash/E2 RTC ADC DAC LCD Timer CRC Building on its Eclipse foundation, the free edition of LPCXpresso toolchains. JP2 expansion

USB Pmod LPCXpresso adds many enhancements that simplify target LPC connector development. It features the industry-standard GNU LPC4322 target LPC switch-matrix tool Target spare toolchain, and lets you use a proprietary C library JP3 signals This web-based application helps you exploit the LPCXpresso based on the standard Newlib library. The Pro edition USB expansion extreme flexibility of LPC MCUs while saving time The LPCOpen software platform Link2 supports unlimited code downloads and includes P3 Target ISP sw and effort. The tool shows the mapping between one year of email-based support from our own peripherals and available pins, and then generates LPCXpresso experts. the C code for configuring the switch matrix to Target Arduino Tri-color Target Arduino reset sw analog LED wake sw analog support that mapping. LPCXpresso boards accelerate protoyping and debug

LPC-Link2 debug probes LPC-Link 2 is an extensive, standalone debug probe that is pre-programmed to support LPCXpresso. Using a variety of downloadable Software & Support for firmware images, including SEGGER J-Link and NXP Microcontrollers CMSIS-DAP by ARM, it works with development tools and IDEs from Keil, IAR, and others. An add- on board, available from Embedded Artists, turns Start here LPC-Link 2 into an oscilloscope or a logic analyzer. LPCware is the place for tools and software. It’s also where you can connect and collaborate with LPCXpresso IDE other LPC developers. www.lpcware.com

The LPC switch-matrix tool

The LPC-Link2 board is used to debug LPC target systems

24 LPC microcontrollers — Discover the difference Partners, online communities, developer resources, and more

Our partners LPC microcontroller microsite Other useful links Cortex-M cores We believe collaboration with partners is the best For more details on all the LPC NXP’s dedicated web pages make and fastest way to bring you innovative options for series or to download the latest it easy to find whatever you need. Cortex-M0+ developing and debugging your LPC MCU. That’s NXP LPC literature. Use the links below to review The newest and most power- why we partner with the best in the industry. Our www.nxp.com/microcontrollers product data, get design help, sign efficient Cortex-M core, the M0+ is relationships with third-party experts — companies up for training seminars, or find fully compatible with the Cortex-M like Embedded Artists, IAR, Keil, and SEGGER LPCZone your nearest distributor. architecture and instruction set. — have yielded a long list of groundbreaking Dedicated to developers, this It offers higher code density than solutions, from our revolutionary, low-entry-cost online community is design central NXP technical support portal 8/16-bit architectures, and uses a LPCXpresso evaluation boards to our feature- for all things LPC. It’s where Home to application notes, two-stage pipeline to reduce power packed development platforms and application- We also work with middleware solution providers, you’ll find the latest videos on datasheets, user manuals, sales consumption while improving specific design tools. building on our powerful LPCOpen software LPC products and tools, plus full literature, models, and more. performance. platform to integrate their code and create highly training sessions from recent trade www.nxp.com/technical-support- optimized and differentiated design solutions. shows. www.nxp.com/lpczone portal.html Cortex-M0 That gives you more ways to save time, so you can Software-compatible with focus on the features that set your product apart. LPCware NXP mobile app Cortex-M3 and Cortex-M4 With over 1,000 active members Access product and design instruction sets, this core offers an and hundreds of useful threads, information on your mobile device. exceptionally small silicon area, low The mbed platform provides free software libraries, this is a great place to find www.nxp.com/news/mobile-app. power, and minimal code footprint. hardware designs, and online tools for professional resources and connect with other html rapid prototyping of products based on ARM LPC designers. This technical Cortex-M3 microcontrollers. The platform includes a standards- site includes tutorials, software NXP sales offices and distributors Designed for advanced system based C/C++ SDK, a microcontroller HDK with and driver packages, schematics, www.nxp.com/about/sales-offices- functionality, this core offers Keil development platform supported development boards, an online compiler, tools, FAQs, tips, and more. www. distributors.html exceptional interrupt handling, and online developer collaboration tools. NXP lpcware.com a low-cost Harvard architecture, Toolchains are the cornerstone of MCU software and ARM partnered to introduce the first mbed multiple power modes, and development, and we recognize that one size does board based on the LPC1768, and the portfolio LPCXpresso extensive tools support. not fit all needs. Our third-party partnerships help now includes options for the LPC11U24, LPC800, This subsection of the LPCware site us tailor our offerings for specific applications, so and LPC1114, along with an ever-growing list of LPCXPRESSO provides tips, tricks, and insider Cortex-M4 & M4F you always get the best options for developing and application-specific offerings from our third-party expertise on the LPCXpresso This high-performance core builds debugging software on your chosen LPC MCU. partners. Visit mbed.org for more information. development platform. on the Cortex-M3 architecture www.lpcware.com/lpcxpresso by adding features for digital- signal control, including single- YouTube cycle multiply-accumulate (MAC) This extension of LPCZone is instructions, single-instruction packed with the latest technical multiple-data (SIMD) techniques, tutorials, news items, interviews, and saturating arithmetic. The design challenges, and more. Cortex M4F adds a floating-point www.youtube.com/LPCZone unit to the Cortex-M4 and is the fastest available Cortex-M core. Twitter Follow the LPCZone for the latest on all NXP LPC products. Embedded Artists development platform mbed LPC1768 board https://twitter.com/lpczone

26 LPC microcontrollers — Discover the difference www.nxp.com

© 2014 NXP Semiconductors N.V. All rights reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights.

Date of release: February 2014 Document order number: 9397 750 17523 Published in the USA