Tag: FRAM
![Fujitsu Semiconductor FRAM (Ferroelectric Random Access Memory) Fujitsu Semiconductor FRAM (Ferroelectric Random Access Memory)](https://www.electronics-lab.com/wp-content/uploads/2021/09/139849104.png)
Fujitsu Semiconductor FRAM (Ferroelectric Random Access Memory)
Fujitsu Semiconductor FRAM (Ferroelectric Random Access Memory) is a non-volatile memory featuring fast writing speed operation, high read/write endurance and low power consumption. These features make FRAM ideal for applications requiring continuous data logging, real-time recording of...
Continue Reading![Fujitsu Semiconductor Releases World’s Largest Density 8Mbit ReRAM Product from September Fujitsu Semiconductor Releases World’s Largest Density 8Mbit ReRAM Product from September](https://www.electronics-lab.com/wp-content/uploads/2019/08/index.jpg)
Fujitsu Semiconductor Releases World’s Largest Density 8Mbit ReRAM Product from September
Featuring memory with the industry's smallest read current, optimal for small wearable devices Fujitsu Semiconductor announced the release of the 8 Mbit ReRAM MB85AS8MT, which has the world's largest density as a mass-produced ReRAM product, available from September 2019. This ReRAM...
Continue Reading![Cypress Semiconductor Serial FRAM Nonvolatile Memory Devices Cypress Semiconductor Serial FRAM Nonvolatile Memory Devices](https://www.electronics-lab.com/wp-content/uploads/2019/01/FRAM.png)
Cypress Semiconductor Serial FRAM Nonvolatile Memory Devices
Cypress Semiconductor Serial F-RAM (ferroelectric RAM) memories combine the nonvolatile data storage capability of ROM with the fast speeds of RAM. Serial F-RAM features a variety of interface and density options, including SPI and I2C interfaces, industry-standard packages, and...
Continue Reading![Computer Memory Technology: From Ferrite Rings to FRAM Computer Memory Technology: From Ferrite Rings to FRAM](https://www.electronics-lab.com/wp-content/uploads/2019/01/cores_closeup-1024x538.jpg)
Computer Memory Technology: From Ferrite Rings to FRAM
by Bill Marshall @ www.rs-online.com Magnetic Ferrite-Ring Core Memory When I was a lad back in 1975, I worked as a student engineer testing military aircraft computer memory modules. Looking back now, they probably represented the ultimate development of Ferromagnetic ring core...
Continue Reading![TS-7553-V2 – IoT-Ready SBC with Reliable Storage, Cell Modem, XBee, PoE TS-7553-V2 – IoT-Ready SBC with Reliable Storage, Cell Modem, XBee, PoE](https://www.electronics-lab.com/wp-content/uploads/2018/11/ts-7553-v2.jpg)
TS-7553-V2 – IoT-Ready SBC with Reliable Storage, Cell Modem, XBee, PoE
This versatile embedded single board computer hits on all the main points for a low power, cost effective, Internet-of-Things (IoT) capable, and ready-to-deploy OEM board with an emphasis on data integrity. The TS-7553-V2 offers the ability to communicate seamlessly with several...
Continue Reading![ChipStick – A small scale experimental Forth machine ChipStick – A small scale experimental Forth machine](https://www.electronics-lab.com/wp-content/uploads/2016/03/ChipStick_blinky-e1458899104748.jpg)
ChipStick – A small scale experimental Forth machine
Ken Boak discuss about his ChipStick PCB build: The ChipStick design has the following features: MSP430FR2433 with 15.5K FRAM and 4K SRAM External SRAM or FRAM device connected via SPI on USCI B0 CH340G USB to serial converter IC on detachable section of board 3V3 voltage...
Continue Reading![Building a “$5 Forth computer” Building a “$5 Forth computer”](https://www.electronics-lab.com/wp-content/uploads/2016/03/adaptors-600x290.jpg)
Building a “$5 Forth computer”
Ken Boak has designed a tiny 16-bit computer around a FRAM based MSP430 microcontroller. He writes: In this post we look at a new MSP430 FRAM based device – the MSP430FR2433. It has 15K of FRAM, 0.5K of Info FRAM and 4K bytes of SRAM. As well as the memory, there are 3 serial...
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