5 stands for 5 volt
The 8085 was given its number as the next version of the 8080. The 5 means that it operates on a single 5 volt power source.
The 8085 was introduced by Intel in 1977.
I'm not quite certain what you're asking, but three versions of the 8085 processor were released; 3, 5 and 6 MHz.
OS is compulsary to work properly for any processor including 8085 since OS consist of all the instructions that guides the processor,how to react in certain situations........!
bcoz its operate on 5v only.it is a 8 bit micro processor.800 is series 5 is the voltage
There is no protected mode in the 8085 microprocessor, therefore, there are no instructions that are considered privileged.
The 8085 is an 8 bit processor, so its word length is 8 bits.
The Intel 8085 was the successor of the 8080, an early 8 bit processor, used most famously in the Altair. (Microsoft wrote Microsoft BASIC for the 8085 Altair). The boom of home computers took off with the Zilog Z80, a compatible processor but had more features. Today the 8085 isn't used much commercially, the 8051 is a more common 8 bit processor for embedded systems. However the 8085 is extremely popular in engineering schools in the middle east, especially India, as an introductory course to microcomputers.
The 8085 is an 8-bit microprocessor. Even though there are some 16-bit registers (BC, DE, HL, SP, PC), with some 16-bit operations that can be performed on them, and a 16-bit address bus, the accumulator (A), the arithmetic logic unit (ALU), and the data bus are 8-bits in size, making the 8085 an 8-bit computer.
RST 5 is used in place of HLT in the Intel 8085 kit in order to return control to the monitor program. If HLT were used, the processor would stop and so would the monitor.
No. The 8086 has instructions not present in the 8085. The 8086 was marketed as "source compatible" with the 8085, meaning that there was a translator program which could convert assembly language code for the 8085 into assembly language code for the 8086. However, this does not mean that the compiled 8086 assembly code would then run on an 8085; among other things, the 8086 was a true 16-bit processor, as opposed to the 8085 which was an 8-bit processor that supported a few 16-bit operations.
So that the processor can both read and write data.