that depends on the microcontroller. check the datasheet.
MAximum clock frequency of 8086 is 5MHZ.
8086 main application is to evaluate the arithmetic operations in any systems that uses 8086
It depends. From the CPU's point of view, 16 data lines are necessary in a 16-bit microprocessor. Some implementations, however, such as the 8088, use an 8-bit bus, instead of like the 8086, which uses a 16-bit bus. The Bus Interface Unit (BIU) handles the conversion, packing, and unpacking transparently to the Execution Unit (EU or CPU).
There are many different instructions and registers in the 8086/8088. The question is too broad. Please ask a more specific question. Alternatively, you can consult a good book, such as "The 8086/8088 Primer", Second Edition, Stephan P. Morse, Hayden Book Company, or any of a wide variety of other books.
There are many differences between the 8085 and the 8086/8088. Naming just a few...8085 is an 8 bit processor, while 8086 is a 16 bit processor8085 has a 16 bit address bus, while 8086 has a 20 bit address bus 8085 has an 8 bit data bus8088 has an 8 bit data bus8086 has a 16 bit data bus8086 has a segmented architecture to support the 20 bit address bus8086 has additional registers that support string and repeated loop instructions8086 has addition register that support stack frame parameter addressing8086 has more addressing modes, including cross-segment modes8086 has more types of interrupts, including debug single-step8086 has true multiplication and division instructionsIf anyone has any more examples, please fee free to add to the list.
There are nine flags in the 8086/8088.SF - Sign Flag - The result is negativeZF - Zero Flag - The result is zeroAF - Auxillary Carry Flag - A BCD carry occurredPF - Parity Flag - Indicates the oddness or evenness of the number of bitsCF - Carry Flag - An unsigned carry occurredOF - Overflow Flag - A signed overflow/carry occurredDF - Direction Flag - Controls the direction of repeated string operationsIF - Interrupt Flag - Enables or disables interruptsTF - Trace Flag - Controls the debug single step interruptIn general, most of these flags are set as a result of some arithmetic or logical instruction and can be tested using the conditional branch instructions. Exceptions are DF, which controls the directionality of repeated string operations, IF, which controls interrupts, and TF, which controls debugging.
The 8086 Microprocessor operate to require frequency that is provided by clock generator to 8086 Microprocessor and also Synchronization various component of 8086.
MAximum clock frequency of 8086 is 5MHZ.
Early microprocessor neded clock input to be given externally, i.e. an extra clock generator chip is necessary. the clock generator chip had two pins between which a crstal or an RC circuit could be connected for the generation of basic frequency desired. however, microprocessor, that were designed after 1978(Intel 8085, M6809, etc.) had the clock generator circuit embedded in the microprocesor chip.
Its MRDC (memory read control) it is a maximum mode pin in 8086 microprocessor
Its 16bit microprocessor,and-> the 8086 has a 16bit databus 20bit address bus-> the intel 8086,is designed to operate in two modes namely(1) minimum mode(2) maximum mode
The 8086 microprocessor has 40 pins.
It is mightily referring to Microprocessor 8086 . I think you saw "8086 microprocessor". The 8086 is nothing it indicates the number of microprocessor same as Digital or analog ic's . 8086 microprocessor has 20 Address buses and 8 data buses which has 1 Mb inbuilt memory for performing several type of airthmatical and logical operation.
The number of instructions that can execute in one second in the 8086 microprocessor is highly dependent on clock speed, memory wait time, and instruction complexity mix, but the generally accepted performance factor is 0.33 MIPS (Million Instuctions per Second) at a clock speed of 4.77 MHz.
queue of 8086 microprocessor is 6 bits
it is a 16 bit microprocessor & it has 40 pin .
Pins 1 and 20 in the 8086 microprocessor are (both) power and signal ground (GND).
8086 main application is to evaluate the arithmetic operations in any systems that uses 8086