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8051 Boards and Modules

The 8051 family is one of the most common microcontroller architectures used worldwide. 8051 based microcontrollers are offered in hundreds of variants from many different silicon manufacturers. The 8051 is based on an 8-bit CISC core with Harvard architecture.

Phytec Modules

  • phyCORE®-591 - 8-bit phyCORE SOM, 80C51-compatible P8xC591 microcontroller with PeliCAN, 6-channel ADC and up to 512 kByte ISP Flash powering a wide spectrum of CAN applications.

  • phyCORE®-89C66x - 80C51 with 64 KB ISP on-chip Flash, RS-232 and I2C populating this sub-mini SOM running at 20 MHz

  • phyCORE®-ADuC8xx - ADuC812/824 "Microconverter" with AD/DA converters with added I/O and on-board CAN.

  • phyCORE®-DS80C390 - High-speed (40 MHz) Dallas 80C51-compatible micro with expanded address space, dual CAN and UART combined with up to 2 MB Flash and 1 MB SRAM on small SOM.

  • phyCORE®-AT89C51CC01 - Flash and RAM, augmented with on-board CAN controller, external 128K Flash 32KB RAM.

  • http://www.phytec.com/products/sbc/8051/phyCORE-ADuC8xx.html

     phyCORE®-87C51MC2 - Sub-mini SOM 8xC51MC2 for memory extensive applications exceeding standard 8051 address space, up to 2 MB Flash and 1 MB SRAM, RS-232, free /CS signals and more.

  • microMODUL-8051 - Maximum price-performance in matchbox dimensions offering established 8051 microcontroller with up to 512 kByte on-board programmable Flash and 128 kByte SRAM.

  • microMODUL-8051 LowPower - The ideal solution for battery powered applications is available with this 3.3V low power version of our microMODUL-8051 supporting the Dallas DSA80C323 with on-board memory.

  • miniMODUL-515C - On-board Flash and SRAM memory combined with feature-rich Infineon C515C controller offering CAN, RS-232, 24 bi-directional I/Os, 8 channel 10-bit ADC, PWM on credit card size SOM.

  • miniMODUL-552 -8051-compatible SOM with I2C, 24 parallel I/Os, 8-ch 10-bit ADC, 2x PWM with 8-bit resolution providing up to 160 kByte SRAM and up to 512 kByte Flash for application code storage.

  • CANmodul-592 - P80C592 with on-chip CAN controller featuring 24 parallel I/Os, 8-ch 10-bit ADC, 2x PWM on credit card size SOM augmented by up to 160 KB SRAM and up to 512 KB Flash. 

Please note: Migration of spansion flash devices - Phytec will be migrating to a new supplier of Flash devices in 2010

Keil MCBx51

The Keil MCBx51 Evaluation Board works with all 44-pin 8051 and 251 devices including the Intel 251Sx/Tx; Atmel T80C251G1D/G2D and 8051Rx2; Philips 8051Rx2 and 8xC664; Various Winbond devices; and Dallas 320, 420, and 520.

Use this board to become familiar with the 8051 and 251 microcontroller families.Freescale MPC and PPC Boards and Modules

Keil MCB900

The Keil MCB900 Evaluation Board is a versatile, flexible prototype board for the NXP (founded by Philips) P89LPC93x microcontroller family. It includes the Keil µVision LPC Development Studio which allows you to create and debug programs that you can program into on-chip Flash ROM using FlashMagic.

Keil MCB950

The Keil MCB950 Evaluation Board is a versatile, flexible prototype board for the NXP (founded by Philips) P89LPC952 microcontroller family. It includes the Keil µVision LPC Development Studio which allows you to create and debug programs that you can program into the on-chip Flash ROM using FlashMagic.

Keil MCBXC866

The Keil MCBXC866 Evaluation Board introduces you to the Infineon XC800 microcontroller family and allows you to create and test working programs for this 8051-based architecture.

This board connects to your PC using the serial port (for Flash download) or the OCDS interface (for program debug using the Keil ULINK USB-JTAG Adapter and the µVision IDE and Debugger).

Serial and CAN interfaces, analog input (via potentiometer), and eight LEDs (on Port 3) make this board a great starting point for your next 8051 project.

Keil MCBXC88x

The Keil MCBXC88x Evaluation Board introduces you to the Infineon XC88x microcontroller family and allows you to create and test working programs for this 8051-based architecture.

This board connects to your PC using the serial port (for Flash download) or the OCDS interface (for program debug using the Keil ULINK USB-JTAG Adapter and the µVision IDE and Debugger).

A CAN interface, analog input (via potentiometer), and eight LEDs (on Port 3) make this board a great starting point for your next 8051 project.