Microprocessors: Theory and Applications (Intel and Motorola)Prentice Hall, 1992 - 468 sayfa |
Kitabın içinden
16 sonuçtan 1-3 arası sonuçlar
Sayfa 326
... HEX VALUE SHOULD / BE USED FOR DATA FIELD OF DISPLAY : PUT LOW ORDER BYTE OF HEX VALUE IN D ARG - HEX VALUE TO BE ... FORM SUITABLE FOR DISPLAY BY THE OUTPUT ROUTINES . EACH INPUT BYTE IS DIVIDED INTO 2 HEX DIGITS . EACH HEX DIGIT IS ...
... HEX VALUE SHOULD / BE USED FOR DATA FIELD OF DISPLAY : PUT LOW ORDER BYTE OF HEX VALUE IN D ARG - HEX VALUE TO BE ... FORM SUITABLE FOR DISPLAY BY THE OUTPUT ROUTINES . EACH INPUT BYTE IS DIVIDED INTO 2 HEX DIGITS . EACH HEX DIGIT IS ...
Sayfa 364
... equivalent binary values as follows : 1 1 • 68 - = 1001.112 - 001 001. 110 Hexadecimal Number System The hexadecimal or base - 16 number system has 16 individual digits . Each of these digits , as in all number systems , must be rep ...
... equivalent binary values as follows : 1 1 • 68 - = 1001.112 - 001 001. 110 Hexadecimal Number System The hexadecimal or base - 16 number system has 16 individual digits . Each of these digits , as in all number systems , must be rep ...
Sayfa 388
... hexadecimal digit into a seven - segment code . A simple approach is to form a decode table that contains the seven - segment code for each hexadecimal digit ( 0 to F ) . This table can be stored in the SDK - 85 memory and can be used ...
... hexadecimal digit into a seven - segment code . A simple approach is to form a decode table that contains the seven - segment code for each hexadecimal digit ( 0 to F ) . This table can be stored in the SDK - 85 memory and can be used ...
İçindekiler
MICROCOMPUTER ARCHITECTURE | 9 |
MICROCOMPUTER SOFTWARE | 49 |
Questions and Problems | 59 |
Telif Hakkı | |
15 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Microprocessors: Theory and Applications (Intel and Motorola) Mohamed Rafiquzzaman Metin Parçacığı görünümü - 1992 |
Sık kullanılan terimler ve kelime öbekleri
16 bits 16-bit data A/D converter accumulator ADDRESS FIELD address register addressing mode assembly language binary buffer byte or word CALL CHARACTER chip circuit clock command contents coprocessor data bus data field data register data transfer decoding decremented digits disp8 display DMA controller DTACK enable EPROM example execution flags affected functions GPIB hardware hexadecimal HIGH I/O port index register input instruction set INTA Intel Corporation interface INTR jump keyboard latched loads logic low byte mem/reg memory address memory location memory-mapped I/O microcomputer microprocessor OP code operand operation output peripheral port 00 processor program counter register indirect RESET segment register service routine shown in Figure signal specified stack pointer status register stored subroutine TABLE tion typical vector voltage Write zero
Bu kitaba yapılan referanslar
Fundamentals of Digital Logic and Microcomputer Design Mohamed Rafiquzzaman Metin Parçacığı görünümü - 1999 |