Enjoy the perks of FRAM memory with MB94R330 and ATmega644

FRAM 3 Click is based on the MB94R330, a FRAM (Ferroelectric Random Access Memory) authentication IC from Fujitsu Semiconductor, made using ferroelectric and silicon gate CMOS process technologies to form nonvolatile memory cells. The MB94R330 adopts an original communication protocol based on the two-wire serial interface (I2C BUS), a hardware cryptographic macro, and a proprietary control core. It is suitable for detecting cloned peripherals and accessories used in electric equipment such as printers and multifunction printers. Ferroelectric technology is still being developed and perfected, but the advantages have already been demonstrated. This technology exploits the properties of ferroelectric materials to retain the electric field after exposure, the same way the ferromagnetic materials retain their magnetic field. This phenomenon is employed to polarize the FRAM cells and store the information.

One area that still needs improvement is the thermal instability, especially at high temperatures. When the ferroelectric material reaches the Curie temperature, its properties are degraded. Therefore, the high temperature might damage the content of the FRAM module. This is illustrated by the data retention period: while working at 55˚C, the data retention period is ten years. Still, combined with the endurance of 1010 read/write cycles at bus write speed, this type of memory still represents an ideal solution for applications with frequent writing to nonvolatile memory locations. This Click board™ uses the I2C communication protocol, allowing fast serial clock rates. The device employs certain protection mechanisms to ensure reliable data transactions and avoid accidental writing to the memory array. The MB94R330 supports the I2C bus and operates as a peripheral device. The role of the communication for the I2C bus is different from

the "Master" side and the "Slave" side. The master side has the authority to initiate control. Furthermore, the party line can be connected, which connects two or more peripheral devices to one master. In this case, the slave side has a unique address, respectively, and after specifying the address on the slave side, the master side starts to communicate. The FRAM 3 click is suitable for detecting cloned peripherals and accessories used in electric equipment such as printers, multifunction printers, and more. This Click board™ can be operated only with a 3.3V logic voltage level. The board must perform appropriate logic voltage level conversion before using MCUs with different logic levels. Also, it comes equipped with a library containing functions and an example code that can be used as a reference for further development.

EasyAVR v7 is the seventh generation of AVR development boards specially designed for the needs of rapid development of embedded applications. It supports a wide range of 16-bit AVR microcontrollers from Microchip and has a broad set of unique functions, such as a powerful onboard mikroProg programmer and In-Circuit debugger over USB. The development board is well organized and designed so that the end-user has all the necessary elements in one place, such as switches, buttons, indicators, connectors, and others. With four different connectors for each port, EasyAVR v7 allows you to connect accessory boards, sensors, and custom electronics more

efficiently than ever. Each part of the EasyAVR v7 development board contains the components necessary for the most efficient operation of the same board. An integrated mikroProg, a fast USB 2.0 programmer with mikroICD hardware In-Circuit Debugger, offers many valuable programming/debugging options and seamless integration with the Mikroe software environment. Besides it also includes a clean and regulated power supply block for the development board. It can use a wide range of external power sources, including an external 12V power supply, 7-12V AC or 9-15V DC via DC connector/screw terminals, and a power source via the USB Type-B (USB-B)

connector. Communication options such as USB-UART and RS-232 are also included, alongside the well-established mikroBUS™ standard, three display options (7-segment, graphical, and character-based LCD), and several different DIP sockets which cover a wide range of 16-bit AVR MCUs. EasyAVR v7 is an integral part of the Mikroe ecosystem for rapid development. Natively supported by Mikroe software tools, it covers many aspects of prototyping and development thanks to a considerable number of different Click boards™ (over a thousand boards), the number of which is growing every day.