MARC

 008070710s2004        ulka                    000      kor
■020    ▼a897569229x
■0801  ▼a681.3.021
■082    ▼a005.43▼b여68ㅇ▼223
■090    ▼a005.43▼b여68ㅇ
■1001  ▼a여인춘,  이동훈,  김효남,  박희경,  류준상  공저
■24510▼a임베디드  프로그래밍▼c시스템제어  개발  전문가  5인이  알려주는▼d여인춘,  이동훈,  김효남,  박희경,  류준상  공저
■260    ▼a서울▼b길벗▼c2004
■300    ▼a431p.▼b삽도▼c26cm
■44000▼a무작정따라하기▼v101
■505    ▼a머리말▼c3▼a이  책을  읽는  방법▼c4▼a독자  지원  센터▼c5▼a01  임베디드  프로그래밍▼c15▼a01-1  임베디드의  이해▼c16▼a임베디드란▼c16▼a임베디드  소프트웨어▼c20▼a01-2  임베디드  프로그래밍의  개념▼c22▼a임베디드  시스템의  소프트웨어▼c22▼a임베디드에서  사용하는  운영체제▼c2300▼a01-3  하드웨어와  프로그래밍의  관계▼c2511▼a프로그래밍이  필요한    하드웨어란▼c2522▼a임베디드  제품이  생산되는  과정▼c2833▼a정리해  볼까요?▼c3444▼a02  임베디드의  두뇌,CPU▼c3755▼a02-1  CPU의  이해▼c3866▼aCPU의  중요성▼c3877▼aCPU란▼c3988▼aCPU의  역사▼c4299▼a02-2  CPU의  구성▼c4800▼aCPU  구성요소▼c4811▼a02-3  CPU의  종류▼c5222▼aCPU  선정▼c5233▼a다양한  CPU▼c5344▼a임베디드  시스템의  운영체제▼c5655▼a정리해  볼까요?▼c5966▼a03  메모리▼c6177▼a03-1  메모리의  개념▼c6288▼a메모리의  물리적  해석▼c6299▼a메모리를  사용하기  위한  개념▼c6500▼a03-2  메모리의  구조▼c6911▼a메모리의  기본  구조▼c6922▼a8051▼c7133▼a03-3  메모리의  종류▼c7444▼a다양한  메모리▼c7455▼a정리해  볼까요?▼c7766▼a04  주변장치▼c7977▼a04-1  주변장치의  이해▼c8088▼a주변  장치란▼c8099▼a주변  장치의  호환성▼c8100▼a04-2  주변  장치의  구성▼c8411▼a임베디드  시스뎀의  장치  구성▼c8422▼a04-3  주변  장치의  종류▼c8833▼a임베디드  시스템에  적용할  수  있는  장치의  종류▼c8844▼a정리해  볼까요?▼c9455▼a05  며느리도  모르는  어셈블리어▼c9766▼a05-1  어셈블리어의  이해▼c9877▼a기계어,어셈블리어,고급언어▼c9888▼a어셈블리어란▼c10199▼a05-2  어셈블리어의  이용▼c10900▼a어셈블리어를  이용하는  이유▼c10911▼a05-3  어셈블리어의  장.단점▼c12122▼a어셈블리어의  장점▼c12133▼a어셈블리어의  단점▼c12244▼a정리해  볼까요?▼c12555▼a06  천상천하  유아독존  C▼c12766▼a06-1  C언어가  최고인  이유▼c12877▼aC-와  임베디드▼c12888▼aC의  구성요소▼c12999▼a06-2  CDHK  DJTPAQMFFLDJ▼c13400▼aC와  어셈블리  프로그램▼c13411▼aC와  어셈블리어  함께  사용하기▼c13522▼a06-3  C++로  해  보자▼c13933▼aC++▼c13944▼a정리해  볼까요?▼c14155▼a08  실시간  운영체제▼c16566▼a08-1  임베디드  시스테므이  운영체제▼c16677▼a임베디드에  사용할  수  있는  운영체제▼c16688▼a범용  운영체제와  임베디드  운영체제▼c16799▼a하드웨어  지원  관리▼c16800▼a임베디드  운영체제의  활용▼c16911▼a08-2  실시간  운영체제▼c17022▼a태스크▼c17033▼a멀티태스킹▼c17044▼a태스크의  정보▼c17155▼aTCB▼c17466▼a스케줄러와  컨테스트  스위칭▼c17577▼a선점형  커널과  비선점형  커널▼c17688▼a상호  배제▼c17899▼a08-3  임베디드  프로그래미악  운영체제▼c18100▼aFOREGROUND/BACKGROUND  PROGRAM▼c18111▼a정리해  볼까요?▼c18322▼a09  임베디드의  최고봉  리눅스▼c18533▼a09-1  리눅스를  파헤치자▼c18644▼a진화되는  운영체제  리눅스▼c18655▼a리눅스의  장.단점▼c18666▼a리눅스의  사용▼c18977▼a리눅스  커널의  특징▼c19188▼a09-2  임베디드  시스템에  리눅스  적용하기▼c20099▼a크로스  컴파일  환경  구축하기▼c20000▼a부트  로더,커널  및  루트  파일  시스템▼c20211▼a임베디드  리눅스  개발자  되기  위한  선행과정▼c20422▼a09-3  하드웨어를  제어하는  디바이스  드라이버▼c20633▼a모든  프로그래밍▼c20644▼a디바이스  드라이버▼c20955▼a기본적인  디바이스  드라이버  작성  방법▼c21266▼a정리해  볼까요?▼c22077▼a10  ARM과  MIPS▼c22388▼a10-1  임베디드  프로세서의  종류▼c22499▼a임베디드  프로세서란▼c2240000▼a프로세서,컨트롤러▼c2240101▼a다양한  임베디드  프로세서▼c2250202▼a10-2  모바일  강자  ARM▼c2300303▼aARM▼c2300404▼a왜  ARM인가▼c2300505▼aARM의  SUFFIX▼c2310606▼aSTRONARM과  XSCALE▼c2310707▼aARM  개발  과정▼c2320808▼a10-3  임베디드  최고의  프로세서  MIPS▼c2340909▼a힘  좋은  임베디드  프로세서▼c2341010▼a왜  MIPS인가▼c2341111▼a정리해  볼까요?▼c2371212▼a11  모니터  프로그램▼c2391313▼a11-1  모니터링  프로그램의  이해▼c2401414▼a모니터링이란▼c2401515▼a비주얼  C++와  임베디드  시스템의  디버깅  차이▼c2411616▼a모니터링에  필요한  기본  개념들▼c2451717▼a모니터링  프로그램이  필요한  이유▼c2591818▼a11-2  YAMON의  이해와  실제  포팅  예제▼c2611919▼a개발  환경▼c2612020▼a초기  설정▼c2622121▼aYAMON이란▼c2652222▼aPMON이란▼c2672323▼a정리해  볼까요?▼c2682424▼a12  임베디드  프로그래밍을  위한  기본  개념▼c2712525▼a12-1  직렬  포트의  이해▼c2722626▼a임베디드에  통신은  왜  필요한가▼c2722727▼a직렬  통신  방식의  이해▼c2732828▼aRS-232C▼c2742929▼aRS-232C  포트의  모양▼c2773030▼aPC  포트▼c2793131▼a하이퍼  터미널의  이용  방법▼c2803232▼a12-2  병렬  포트의  이해▼c2833333▼a병렬  포트의  모드▼c2833434▼a병렬  포트의  사용  방법▼c2843535▼a12-3  임베디드  프로그래밍을  기본적인  하드웨어▼c2883636▼a전원▼c2883737▼aLED▼c2913838▼aLCD▼c2923939▼a풀업과  풀다운  저항▼c2934040▼a정리해  볼까요?▼c2954141▼aTURBO-C를  이용한  임베디드  프로그래밍  맛보기▼c2974242▼a13-1  PC의  버저로  소리  내기▼c2984343▼aTRURVO-C를  이용한  버저  제어▼c2984444▼a버저로  동요  연주하기▼c3004545▼a13-2  병렬  포트  이용하기▼c3024646▼a테스트  보드  제작▼c3024747▼a병렬  포트를  이용하여  문자  LCD  제어하기▼c3084848▼a13-3  직렬  포트  이용하기▼c3154949▼aUART▼c3155050▼a다른  PC와  직렬  통신하기▼c3165151▼a타깃  보드와  직렬  통신하기▼c3205252▼a13-4  임베디드  하드웨어의  추가  개념▼c3235353▼a문자  LCD  이해하기▼c3235454▼aPC의  UART  이해하기▼c3315555▼a정리해  볼까요?▼c3355656▼a14  비주얼  베이직을  이용한  임베디드  프로그래밍▼c3375757▼a14-1  비주얼  베이직을  이용한  직렬  포트  제어▼c3385858▼a임베디드  프로그램과  비주얼  베이직의  관계▼c3385959▼a비주얼  베이직을  이용한  화면  구성▼c3396060▼a비주얼  베이직  코드  작성하기▼c3426161▼a14-2  비주얼  베이직을  이용한  병렬  포트  제어▼c3476262▼a병렬  포트  제어하기▼c3486363▼a정리해  볼까요?▼c3616464▼a15  비주얼  C++를  이용한  임베디드  프로그래밍▼c3636565▼a15-1  비주얼  C++를  이요한  직렬  포트  제어▼c3646666▼a비주얼  C++를  이용한  화면  구성▼c3646767▼a15-2  비주얼  C++를  이요한  병렬  포트  제어▼c3776868▼a비주얼  C++를  이용한  문자  LCD  제어하기▼c3776969▼a정리해  볼까요?▼c3857070▼a16  JTAG▼c3877171▼a16-1  JTAG의  이해▼c3887272▼aJTAG의  유래▼c3887373▼aJTAG의  개념▼c3887474▼aJTAG의  전체적인  모습▼c3897575▼aJTAG의  용도▼c3917676▼aJTAG로  IDCODE  읽기▼c3917777▼a16-2  STRONGARM(SA1110)의  JTAG▼c3957878▼aARM과  STRONGARM(SA1110)이란▼c3957979▼aSTRONGARM(SA1110)의  JTAG  구성도▼c3968080▼aSTRONGARM(SA1110)DML  INSTRUCTION  REGISTER  구성▼c3968181▼aSTRONGARM(SA1110)의  IDCODE▼c3978282▼a16-3  비주얼  C++를  이용한  STRONGARM(SA1110)8383▼aJTAG  프로그래밍▼c3998484▼aJTAG  케이블  이해하기▼c3998585▼aIDCODE  읽어  오기▼c3998686▼aBYPASS  모드▼c4058787▼aEXTEST모드▼c4088888▼a16-4  부록▼c4118989▼aSTRONGARM(SA1110)의  BOUNDARY  SCAN  CELL▼c4139090▼aJTAG  명령어  레지스터▼c4169191▼aNOR  FLASH  MEMORY▼c4179292▼a정리해  볼까요?▼c4219393▼a찾아보기▼c4229494
■9500  ▼c13,000

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