8031 - meaning and definition. What is 8031
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What (who) is 8031 - definition

MICROCONTROLLER CHIP
8031; 8051; 8052; Intel 8052; MCS 51; 8032; I8051; 80C51; MCS-51; 80C537; 8751; 8752; Intel 8031; Intel MCS-151; Intel MCS-251; MCS-151; MCS-251; Intel 80251; Intel 80151; Boolean processor; C8051; User:Brstewart/sandbox; Intel MCS-51; Intel 80C31
  • Silicon Storage Technology 89V54RD2
  • Intel 8031 microcontrollers
  • i8051 microarchitecture
  • Intel D87C51 microcontroller

8031         
Intel 8051         
<processor> A microcontroller developed by Intel in 1980 for use in embedded products and still (1999) one of the most popular microcontrollers. The 8051/8031 cores are used in over 100 devices from 10 independent manufacturers such as Dallas and Philips. [What is the difference between the 8031/8051/8052?] See also CAS 8051 Assembler, as31 assembler, 51forth. {8051 FAQ (http://ece.orst.edu/Intel 8051pricec/8051/faq/index.html)}. {The 8031/51 series microcontroller (http://rehn.org/YAM51/)}. {Intel MCS51 series microcontrollers (http://intel.com/design/mcs51/)}. (1999-11-21)
8051         

Wikipedia

Intel 8051

The Intel MCS-51 (commonly termed 8051) is a single chip microcontroller (MCU) series developed by Intel in 1980 for use in embedded systems. The architect of the Intel MCS-51 instruction set was John H. Wharton. Intel's original versions were popular in the 1980s and early 1990s, and enhanced binary compatible derivatives remain popular today. It is an example of a complex instruction set computer (but also possessing some of the features of RISC architectures, such as a large register set and register windows) and has separate memory spaces for program instructions and data.

Intel's original MCS-51 family was developed using N-type metal–oxide–semiconductor (NMOS) technology, like its predecessor Intel MCS-48, but later versions, identified by a letter C in their name (e.g., 80C51) use complementary metal–oxide–semiconductor (CMOS) technology and consume less power than their NMOS predecessors. This made them more suitable for battery-powered devices.

The family was continued in 1996 with the enhanced 8-bit MCS-151 and the 8/16-bit/32-bit MCS-251 family of binary compatible microcontrollers. While Intel no longer manufactures the MCS-51, MCS-151 and MCS-251 family, enhanced binary compatible derivatives made by numerous vendors remain popular today. Some derivatives integrate a digital signal processor (DSP) or a floating point unit (coprocessor, FPU). Beyond these physical devices, several companies also offer MCS-51 derivatives as IP cores for use in field-programmable gate array (FPGA) or application-specific integrated circuit (ASIC) designs.