Mid-range 32-bit Microcontroller (MCU) based on Arm® Cortex®-M4 Core

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Product Details

Features

Main Features

  • Functional replacement for LPC23xx/24xx and LPC178x family devices.
  • External Memory Controller (EMC) provides support for asynchronous static memory devices such as RAM, ROM and flash, as well as dynamic memories such as single data rate SDRAM.
  • Eight channel General Purpose DMA controller (GPDMA) on the AHB multilayer matrix that can be used with the SSP, I2S, UART, CRC engine, Analog-to-Digital and Digital-to-Analog converter peripherals, timer match signals, GPIO, and for memory-to-memory transfers.
  • Versatile pin function selection feature allows many possibilities for using on-chip peripheral functions.
  • Unique device serial number for identification purposes.
  • Single 3.3 V power supply (2.4 V to 3.6 V). Temperature range of -40 °C to 85 °C.
  • Available as LQFP208, TFBGA208, TFBGA180, LQFP144, and LQFP80 package.

Arm Cortex-M4 core

  • Arm Cortex-M4 processor, running at frequencies of up to 120 MHz.
  • Arm Cortex-M4 built-in Memory Protection Unit (MPU) supporting eight regions.
  • Arm Cortex-M4 built-in Nested Vectored Interrupt Controller (NVIC).
  • Hardware floating-point unit (not all versions).
  • Non-maskable Interrupt (NMI) input.
  • JTAG and Serial Wire Debug (SWD), serial trace, eight breakpoints, and four watch points.
  • System tick timer.

System

  • Multilayer AHB matrix interconnect provides a separate bus for each AHB leader. AHB leaders include the CPU, and General Purpose DMA controller. This interconnect provides communication with no arbitration delays unless two leaders attempt to access the same follower at the same time.
  • Split APB bus allows for higher throughput with fewer stalls between the CPU and DMA. A single level of write buffering allows the CPU to continue without waiting for completion of APB writes if the APB was not already busy.
  • Embedded Trace Macrocell (ETM) module supports real-time trace.
  • Boundary scan for simplified board testing.

Memory

  • 512 kB on-chip flash program memory with In-System Programming (ISP) and In-Application Programming (IAP) capabilities. The combination of an enhanced flash memory accelerator and location of the flash memory on the CPU local code/data bus provides high code performance from flash.
  • Up to 96 kB on-chip SRAM includes: 64 kB of main SRAM on the CPU with local code/data bus for high-performance CPU access. Two 16 kB peripheral SRAM blocks with separate access paths for higher throughput. These SRAM blocks may be used for DMA memory as well as for general purpose instruction and data storage.
  • Up to 4032 byte on-chip EEPROM.

Serial interfaces

  • Quad SPI Flash Interface (SPIFI) with four lanes and up to 40 MB per second.
  • Ethernet MAC with MII/RMII interface and associated DMA controller. These functions reside on an independent AHB.
  • USB 2.0 full-speed dual port device/host/OTG controller with on-chip PHY and associated DMA controller.
  • Five UARTs with fractional baud rate generation, internal FIFO, DMA support, and RS-485/EIA-485 support. One UART (UART1) has full modem control I/O, and one UART (USART4) supports IrDA, synchronous mode, and a smart card mode conforming to ISO7816-3.
  • Three SSP controllers with FIFO and multi-protocol capabilities. The SSP interfaces can be used with the GPDMA controller.
  • Three enhanced I²C-bus interfaces, one with a true open-drain output supporting the full I²C-bus specification and Fast-mode Plus with data rates of 1 Mbit/s, two with standard port pins. Enhancements include multiple address recognition and monitor mode.
  • I²S (Inter-IC Sound) interface for digital audio input or output. It can be used with the GPDMA.
  • CAN controller with two channels.

Digital peripherals

  • SD/MMC memory card interface.
  • Up to 165 General Purpose I/O (GPIO) pins depending on the packaging, with configurable pull-up/down resistors, open-drain mode, and repeater mode. All GPIOs are located on an AHB bus for fast access and support Cortex-M4 bit-banding. GPIOs can be accessed by the General Purpose DMA Controller. Any pin of ports 0 and 2 can be used to generate an interrupt.
  • Two external interrupt inputs configurable as edge/level sensitive. All pins on port 0 and port 2 can be used as edge sensitive interrupt sources.
  • Four general purpose timers/counters, with a total of eight capture inputs and ten compare outputs. Each timer block has an external count input. Specific timer events can be selected to generate DMA requests.
  • Quadrature encoder interface that can monitor one external quadrature encoder.
  • Two standard PWM/timer blocks with external count input option.
  • One motor control PWM with support for three-phase motor control.
  • Real-Time Clock (RTC) with a separate power domain. The RTC is clocked by a dedicated RTC oscillator. The RTC block includes 20 bytes of battery-powered backup registers, allowing system status to be stored when the rest of the chip is powered off. Battery power can be supplied from a standard 3 V lithium button cell. The RTC will continue working when the battery voltage drops to as low as 2.1 V. An RTC interrupt can wake up the CPU from any reduced power mode.
  • Event Recorder that can capture the clock value when an event occurs on any of three inputs. The event identification and the time it occurred are stored in registers. The Event Recorder is located in the RTC power domain and can therefore operate as long as there is RTC power.
  • Windowed Watchdog Timer (WWDT). Windowed operation, dedicated internal oscillator, watchdog warning interrupt, and safety features.
  • CRC Engine block can calculate a CRC on supplied data using one of three standard polynomials. The CRC engine can be used in conjunction with the DMA controller to generate a CRC without CPU involvement in the data transfer.

Analog peripherals

  • 12-bit Analog-to-Digital Converter (ADC) with input multiplexing among eight pins, conversion rates up to 400 kHz, and multiple result registers. The 12-bit ADC can be used with the GPDMA controller.
  • 10-bit Digital-to-Analog Converter (DAC) with dedicated conversion timer and DMA support.
  • Two analog comparators.

Power control

  • Four reduced power modes: Sleep, Deep-sleep, Power-down, and Deep power-down.
  • The Wake-up Interrupt Controller (WIC) allows the CPU to automatically wake up from any priority interrupt that can occur while the clocks are stopped in Deep-sleep, Power-down, and Deep power-down modes.
  • Processor wake-up from Power-down mode via any interrupt able to operate during Power-down mode (includes external interrupts, RTC interrupt, PORT0/2 pin interrupt, and NMI).
  • Brownout detect with separate threshold for interrupt and forced reset.
  • On-chip Power-On Reset (POR).

Clock generation

  • Clock output function that can reflect the main oscillator clock, IRC clock, RTC clock, CPU clock, USB clock, or the watchdog timer clock.
  • On-chip crystal oscillator with an operating range of 1 MHz to 25 MHz.
  • 12 MHz Internal RC oscillator (IRC) trimmed to 1% accuracy that can optionally be used as a system clock.
  • An on-chip PLL allows CPU operation up to the maximum CPU rate without the need for a high-frequency crystal. May be run from the main oscillator or the internal RC oscillator.
  • A second, dedicated PLL may be used for USB interface in order to allow added flexibility for the Main PLL settings.

Target Applications

  • Communications:
    • Point-of-sale terminals, web servers, multi-protocol bridges
  • Industrial/Medical:
    • Automation controllers, application control, robotics control, HVAC, PLC, inverters, circuit breakers, medical scanning, security monitoring, motor drive, video intercom
  • Consumer/Appliance:
    • Audio, MP3 decoders, alarm systems, displays, printers, scanners, small appliances, fitness equipment
  • Automotive:
    • After-market, car alarms, GPS/fleet monitors

Part numbers include: LPC4076FET180.

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