Microprocessor 8085 Ppt By Gaonkar Free ^new^ Jun 2026
The operand's location is intrinsically defined within the opcode itself; no additional data parameters are required. Example: CMA (Complement the contents of the Accumulator). Slide 10: Step-by-Step Programming and Execution Examples Slide Title: Practical Assembly Language Programming
The data operands are stored within registers specified in the instruction. Template: ADD B
: A primary 8-bit register that stores one of the operands and the final result of ALU operations.
Consolidating the core principles of the 8085 ecosystem. microprocessor 8085 ppt by gaonkar free
Data Transfer Operations: Moving data between registers or between memory and registers (e.g., MOV, MVI, LDA, STA).Arithmetic Operations: Addition, subtraction, increment, and decrement (e.g., ADD, SUB, INR, DCR).Logical Operations: AND, OR, XOR, compare, and rotate (e.g., ANA, ORA, RRC).Branching Operations: Jump, Call, and Return instructions that change the program sequence (e.g., JMP, CZ, RET).Machine Control Operations: Instructions that control the processor state (e.g., HLT, NOP). Interrupt Structure
The 8085 features 5 hardware interrupt inputs, ordered below from highest priority to lowest priority:
One of Gaonkar's strengths is explaining how the processor "talks" to the outside world. The operand's location is intrinsically defined within the
+--------------------------------------------------------+ | Internal Data Bus (8-bit) | +-------+--------------+---------------+----------+------+ | | | | +-----+----+ +-----+----+ +-----+----+ | |Accumulator| | Temporary| | Flags | | | (A) | | Register | | Register | | +-----+----+ +-----+----+ +-----+----+ | | | | | +-------+------+ | | | | | +-v----------------------v-+ | | Arithmetic Logic Unit | | | (ALU) | | +------------+-------------+ | | | +------------------------+----------------------+ | General Purpose Registers: B, C, D, E, H, L | | Special Registers: Stack Pointer (SP), | | Program Counter (PC) | +-----------------------------------------------+ Core Components
★★★★★ (5/5) – The Gold Standard for 8085 Fundamentals. The PPTs based on Gaonkar’s work are considered the most reliable, structured, and pedagogically sound resources for learning the 8085 microprocessor. While the visual design of older slides may feel dated, the content accuracy is unmatched.
Instead of a standard search, target file types and academic domains directly by typing these queries into Google: filetype:ppt "8085" "Gaonkar" site:.edu "8085 microprocessor" "Gaonkar" filetype:ppsx intitle:"8085" "architecture" filetype:ppt 2. Academic and Slide Sharing Repositories Template: ADD B : A primary 8-bit register
Arithmetic and Logic Unit (ALU): Performs 8-bit operations like addition, subtraction, AND, OR, and XOR.
A clean summary checklist for students preparing for examinations. Final Checklist for Presentations
to signal external latches (like the 74LS373) to separate the lower address bytes from data bytes.