C9012 amplifier transistors PNP silicon. This document describes the features of C9012 PNP silicon. You can check or SEARCH the characteristics of this transistor by this document and decide whether the transistor you need. Further, this document is described in Chinese.
上傳時間: 2016-07-19
上傳用戶:hsuhueisan
This document describes the features of 9013. You can check or SEARCH the characteristics of this transistor by this document and decide whether the transistor you need.
上傳時間: 2016-07-19
上傳用戶:hsuhueisan
This document describes the features of 2907. You can check or SEARCH the characteristics of this transistor by this document and decide whether the transistor you need.
上傳時間: 2016-07-19
上傳用戶:hsuhueisan
This document describes the features of MMBT2907ALT1 silicon. You can check or SEARCH the characteristics of this transistor by this document and decide whether the transistor you need.
標簽: MMBT 2907 ALT1 ALT 數據手冊 三極管
上傳時間: 2016-07-19
上傳用戶:hsuhueisan
This document describes the features of MMBT4401 silicon. You can check or SEARCH the characteristics of this transistor by this document and decide whether the transistor you need.
上傳時間: 2016-07-19
上傳用戶:hsuhueisan
#include "string.h" #include "ctype.h" #include "stdio.h" SEARCH(char pd[]) {FILE *fp; int time=0,i=0,j=0,add[80],k=0,m; char *ch, str[900]; m=strlen(pd); if((fp=fopen("haha.txt","r"))==NULL) { printf("Cannot open this file\n"); exit(0); } for(;!feof(fp);i++) { str[i]=fgetc(fp); if(tolower(str[i])==tolower(pd[k])) {k++; if(k==m) if(!isalpha(i-m)&&!isalpha((str[i++]=fgetc(fp)))) { time++; add[j]=i-m+1; j++; k=0; } else k=0; } } if(time) { printf("The time is:%d\n",time); printf("The adders is:\n"); for(i=0;i
標簽: 查詢學會少年宮
上傳時間: 2016-12-29
上傳用戶:767483511
#include "string.h" #include "ctype.h" #include "stdio.h" SEARCH(char pd[]) {FILE *fp; int time=0,i=0,j=0,add[80],k=0,m; char *ch, str[900]; m=strlen(pd); if((fp=fopen("haha.txt","r"))==NULL) { printf("Cannot open this file\n"); exit(0); } for(;!feof(fp);i++) { str[i]=fgetc(fp); if(tolower(str[i])==tolower(pd[k])) {k++; if(k==m) if(!isalpha(i-m)&&!isalpha((str[i++]=fgetc(fp)))) { time++; add[j]=i-m+1; j++; k=0; } else k=0; } } if(time) { printf("The time is:%d\n",time); printf("The adders is:\n"); for(i=0;i<j;i++) printf("%5d",add[i]); if(i%5==0) printf("\n"); getch(); fclose(fp); } else printf("Sorry!Cannot find the word(^_^)"); } main() { char pd[10],choose='y'; int flag=1; while(flag) {printf("In put the word you want to seqarch:"); scanf("%s",pd); SEARCH(strlwr(pd)); printf("\nWould you want to continue?(Y/N):"); getchar(); scanf("%c",&choose); if((tolower(choose))=='n') flag=0; else flag=1; } printf("Thanks for your using!Bye-bye!\n"); getch(); }
標簽: 學生專用
上傳時間: 2016-12-29
上傳用戶:767483511
鏈表習題 1. 編程實現鏈表的基本操作函數。 (1). void CreatList(LinkList &La,int m) //依次輸入m個數據,并依次建立各個元素結點,逐個插入到鏈表尾;建立帶表頭結點的單鏈表La; (2). void ListPrint(LinkList La) //將單鏈表La的數據元素從表頭到表尾依次顯示。 (3).void ListInsert (LinkList &L,int i,ElemType e){ //在帶頭結點的單鏈表L中第i個數據元素之前插入數據元素e (4). void ListDelete(LinkList &La, int n, ElemType &e) //刪除鏈表的第n個元素,并用e返回其值。 (5). int SEARCH(LinkList L, ElemType x) //在表中查找是否存在某個元素x,如存在則返回x在表中的位置,否則返回0。 (6). int ListLength(LinkList L) //求鏈表L的表長 (7). void GetElem(LinkList L, int i, ElemType &e) //用e返回L中第i個元素的值 鏈表的結點類型定義及指向結點的指針類型定義可以參照下列代碼: typedef struct Node{ ElemType data; // 數據域 struct Node *next; // 指針域 }LNode, *LinkList;
標簽: 單鏈表
上傳時間: 2017-11-15
上傳用戶:BIANJIAXIN
1. 編程實現鏈表的基本操作函數。 (1). void CreatList(LinkList &La,int m) //依次輸入m個數據,并依次建立各個元素結點,逐個插入到鏈表尾;建立帶表頭結點的單鏈表La; (2). void ListPrint(LinkList La) //將單鏈表La的數據元素從表頭到表尾依次顯示。 (3).void ListInsert (LinkList &L,int i,ElemType e){ //在帶頭結點的單鏈表L中第i個數據元素之前插入數據元素e (4). void ListDelete(LinkList &La, int n, ElemType &e) //刪除鏈表的第n個元素,并用e返回其值。 (5). int SEARCH(LinkList L, ElemType x) //在表中查找是否存在某個元素x,如存在則返回x在表中的位置,否則返回0。 (6). int ListLength(LinkList L) //求鏈表L的表長 (7). void GetElem(LinkList L, int i, ElemType &e) //用e返回L中第i個元素的值 鏈表的結點類型定義及指向結點的指針類型定義可以參照下列代碼: typedef struct Node{ ElemType data; // 數據域 struct Node *next; // 指針域 }LNode, *LinkList;
標簽: 單鏈表
上傳時間: 2017-11-15
上傳用戶:BIANJIAXIN
Regardless of the branch of science or engineering, theoreticians have always been enamored with the notion of expressing their results in the form of closed-form expressions. Quite often, the elegance of the closed-form solution is overshadowed by the complexity of its form and the difficulty in evaluating it numerically. In such instances, one becomes motivated to SEARCH instead for a solution that is simple in form and simple to evaluate.
標簽: Communication Channels Digital Fading over 1st
上傳時間: 2020-05-27
上傳用戶:shancjb
