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LPC5512JBD64E

LPC5512JBD64E

NXP Semiconductors
ARM Microcontrollers - MCU LPC5512JBD64
1,976 in stock
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Overview

The LPC5512JBD64E is a high-efficiency 32-bit microcontroller based on the Arm Cortex-M33 core, operating at up to 150MHz. It integrates advanced security features including TrustZone, a PRINCE module for real-time flash encryption, and a CASPER hardware accelerator for cryptographic functions. With 64KB of flash and 48KB of RAM, it provides a secure, low-power foundation for modern embedded applications.

Why Choose This Part

This MCU offers an exceptional balance of performance and security, consuming only 4.9 mA at its maximum 150MHz clock speed. The hardware-based TRNG and unique 128-bit UUID simplify the implementation of secure identity and device authentication protocols.

Applications

Secure IoT Endpoints
Utilizes TrustZone and the PRINCE engine to protect intellectual property and sensitive user data in connected devices.
Industrial Sensor Nodes
Leverages the CAN FD interface and low-power modes for robust communication in factory automation environments.
Secure Peripheral Controllers
Acts as a dedicated security co-processor for larger systems, offloading cryptographic tasks to the CASPER engine.

Key Specifications

Speed 150MHz
RAM Size 48K x 8
Core Size 32-Bit
Peripherals Brown-out Detect/Reset, DMA, I2S, POR, PWM, RNG, WDT
Connectivity CAN FD, Flexcomm, I2C, SPI, UART/USART, USB
Mounting Type Surface Mount
Number of I/O 36
Core Processor ARM Cortex-M33
Package / Case 64-TQFP Exposed Pad
Data Converters A/D 10x16b SAR
Oscillator Type External, Internal
Program Memory Size 64KB (64K x 8)
Program Memory Type FLASH
Operating Temperature -40degC ~ 105degC (TA)
Supplier Device Package 64-HTQFP (10x10)
Voltage - Supply (Vcc/Vdd) 1.8V ~ 3.6V

Getting Started

Developers can begin evaluation using the NXP LPCXpresso55S16 development board, which shares the same architecture. Firmware development is supported by the MCUXpresso SDK and IDE, which include drivers for the Flexcomm and CAN FD peripherals. Hardware debugging is facilitated via the Serial Wire Output (SWO) for real-time trace and instruction monitoring.

Categories

Microcontrollers > NXP
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