Tag Archives: microcontroller

NXP LPC5500 Security and Safety

https://www.futureelectronics.com/search/?text=LPC55 . The LPC5500 MCU Series offers dramatic power consumption improvements and advanced security features including SRAM PUF based root of trust and provisioning, real time execution and asset protection. https://youtu.be/NTT2bnE9Ofw

 

NXP LPC5500 Performance Efficiency

https://www.futureelectronics.com/p/development-tools–microcontroller-microprocessor–32-bit-eval-board/lpc55s69-evk-nxp-8107769 . The LPC55S6x family enables these co-processors extensions and leverages them to bring significant signal processing efficiency gains from a proprietary DSP accelerator offering a 10x clock cycle reduction. https://youtu.be/KDZzff6UgdI

 

NXP LPC5500 Developer Ecosystem

https://www.futureelectronics.com/p/development-tools–microcontroller-microprocessor–32-bit-eval-board/lpc55s69-evk-nxp-8107769 . The LPC5500 MCU series leverages the most recent Arm Cortex-M33 technology, offering dramatic power consumption improvements and advanced security features including SRAM PUF based root of trust and provisioning, execution from encrypted images (internal flash), and asset protection with Arm TrustZone. https://youtu.be/kGc55pXevOs

 

Future Electronics at Electronica 2018

https://www.futureelectronics.com/ . Future Electronics is a global leader in electronics distribution, with an impressive reputation for developing efficient, comprehensive global supply chain solutions. Future has established itself as one of the most innovative organizations in the industry today, with 5,000 employees in 169 offices in 44 countries around the world. https://youtu.be/cZBi1QofAxU

 

Microchip’s PIC32MM Low Cost Low Power Microcontrollers

http://www.futureelectronics.com/en/Search.aspx?dsNav=Ntk:ManufacturerPartNumberUpshiftedSearch%7c*PIC32MM*%7c1%7c,Ny:True,Ro:0,Nea:True,N:587 . The PIC32MM family is Microchip’s lowest-power and most cost-effective family of 32-bit PIC32 microcontrollers. The PIC32MM family bridges the gap between the popular PIC24F XLP and PIC32MX families. https://youtu.be/Sh7nxYAOomA

How to Get Started with an OpAmp Example Projects for PSoC 5LP

http://www.futureelectronics.com/en/Search.aspx?dsNav=Ntk:PartNumberSearch%7cPSoC+5LP%7c1%7c,Ny:True,Ro:0,Nea:True,N:955 . How to get a project started for a non inverting gain amplifier using PSoC’s internal Opamp. The project consists of OpAmp component with analog input and output pins. VDAC8 is used to give voltage input to the non-inverting input pin of the OpAmp . Character LCD is used to display the test name and OpAmp configuration. http://youtu.be/EFH0xh0eDR4

NXP High-Performance LPC18Sxx and LPC43Sxx Microcontroller Families

http://www.futureelectronics.com/en/Search.aspx?dsNav=Ntk:ManufacturerPartNumberUpshiftedSearch%7c*LPC18S*%7c1%7c,Ny:True,Nea:True . This video discusses the features and benefits of NXP’s NEW Secure Microcontroller families the LPC18Sxx & LPC43Sxx, with an overview of the High-performance LPC18Sxx and LPC43Sxx microcontroller families with integrated hardware-accelerated encryption for secure boot and secure messaging from NXP and Target applications and examples. http://youtu.be/PgVbzmrnbYc