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[開源 綠色軟件] [運行環境 Windows XP/7/8/10] [語言 簡體/繁體/English/Unicode]
A cool music player. Powered by Bass and BassVis.
極簡本地音樂播放器,透明����、純文本界面����。支持輕媒體庫、歌詞����、可視化����。最小化到托盤����,占用資源少,適合邊聽音樂邊工作����。
應網友要求����,加入了Tag編輯����、自動切換列表����、播放隊列、鼠標手勢����、均衡器����、音頻設備選擇����、全局音量滾輪(托盤區域)����、字體設置����、極簡模式、鼠標穿透����、嵌入桌面����、簡單布局等功能����。
homepage> mcool.appinn.me
====================================================
音頻格式APE����、FLAC、WavPack、MP3、OGG、TTA、TAK、Musepack����、AAC����、AC3����、WMA、Wav、CD、ALAC����、Aiff����、MOD����、CUE
====================================================
更新歷史:
3336 -2016.3.25 點睛之筆:任意布局(追上foobar2000)。Arbitrary layout (all in one).
3330 -2016.3.10 一體布局之比例調節(初具foobar2000風貌)����。Ratio adjust (all in one).
3308 -2015.11.28 歌詞微調(在選項>常規>鼠標手勢里設置)����。Adds function of lyrics tuning.
3306 -2015.11.15 電臺模式(整點時切換歌曲或列表����,并非在線音樂)����,以及多聲卡支持。Adds radio mode, and multi sound card support.
3300 -2015.10.15 完善細節����,修復切歌卡住bug����。完美版����。Fixes some bugs.
3280 -2015.8.1 簡單布局功能。Layout (all in one) function.
3260 -2015.6.1 Win10模式����。Win10 mode.
3252 -2015.5.10 任務欄進度條����。Taskbar progress DISPLAY.
3236 -2015.4.10 點睛之筆:透明度調節。Adds function of transparency tuning.
3232 -2015.3.25 自定義軟件名(請在mcool.ini中手動修改)。Adds function of customizing app name.
3230 -2015.3.12 Airplay復刻界面����。Airplay interface copy.
3218 -2015.1.20 桌面歌詞����。Desktop lyrics.
3216 -2015.1.12 一體化界面(學習Foobar2000和豆瓣FM)����。All in one interface.
3212 -2015.1.6 新增Winamp音效插件支持(學習千千靜聽)����,以及滾輪穿透功能(學習Airplay3)。Adds Winamp DSP plugins support, and adds function of wheel transparent.
Winamp音效插件下載:http://uploadgeneration.info/Winamp/www.winamp.com/plugins/dsp-effect/5/top-rated.html
3210 -2014.12.28 重要更新:本地音量調節����、自定義鼠標鍵/手勢����。Adds local volume control, and adds fuction of customizing mouse control / gesture.
3208 -2014.11.25 簡化右鍵菜單����,常規項目移到選項窗口。Simplifies the popup menu, moves the general items to option window.
3206 -2014.11.22 新增文本對齊選項����,重新設計導航按鈕����。Adds option of text alignment, and redesigns the buttons of playback.
3202 -2014.11.10 新增播放記憶����、片段循環(Hotkey: Ctrl+1/2)和貼邊隱藏功能。Adds functions of playback memory, AB repeat and screen side hide.
3200 -2014.11.5 新增無界面選項(先去掉托盤圖標����,然后Ctrl+Alt+W隱藏界面����,Ctrl+Alt+X關閉)����。Adds option of no interface.
3191 -2014.8.26 嵌入桌面����。Pins to desktop.
3190 -2014.8.19 音樂管理第一步:列表分組。Playlists grouping.
3186 -2014.8.10 基于列表的分級系統(Hotkey:0..5)。Rating system based on playlist.
3181 -2014.8.1 啟用新圖標(由虹吸墨作者BGLL友情制作)。Uses the new icon.
3180 -2014.7.22 新增Win7任務欄特效。Adds windows 7 taskbar effect.
3166 -2014.6.29 重要更新:自動下載專輯封面(源于歌詞迷)����。Downloads album covers from geci.me.
3160 -2014.6.1 重要更新:新增極簡模式����,以及OGG/Opus內置封面顯示功能����。Adds minimalist mode, and adds function of DISPLAYing cover embedded in OGG/Opus.
3152 -2014.5.18 添加托盤右鍵菜單,新增MP4/M4A(ALAC)內置封面顯示功能。Adds systray popup menu, and adds function of DISPLAYing cover embedded in MP4/M4A(ALAC).
3151 -2014.5.1 重新設計可視化效果,新增示波器效果����。Redesigns visual effects, and adds oscilloscope effect.
3150 -2014.4.20 采用歌詞迷API下載歌詞����。Downloads lyrics from geci.me.
3136 -2014.3.30 加入可選的按鈕����,以及鼠標穿透功能。Adds function of transparent window.
3132 -2014.3.6 簡化界面����,向Foobar2K看齊����;增加正在播放面板。Simplifies the interface, and adds now playing panel.
3130 -2014.2.26 重要更新:按照專輯分組����。Grouping by album.
3120 -2014.2.18 優化字體渲染(Windows7/8下)。Optimizes font rendering in Windows 7/8.
3110 -2014.1.26 點睛之筆:自定義字體顏色。Adds function of customizing font color.
3108 -2013.11.16 Last.fm同步功能(請到主頁下載插件)����。Last.fm scrobbler support.
3106 -2013.11.8 可回溯的隨機播放(學習Airplay 2)����。Random playback can be traced back.
3103 -2013.10.12 優化右鍵菜單����。Optimizes popup menu.
3102 -2013.9.30 修改滾動條樣式,增加音頻緩沖選項。Modifies style of scroll bar, and adds option of audio buffer length.
3100 -2013.9.10 無邊框設計����;迷你模式也可以不置頂(Hotkey:T)。Borderless designs.
3086 -2013.8.20 增加歌詞面板功能。Adds function of lyrics panel.
3082 -2013.8.08 增加在可視化界面顯示歌詞功能����。Adds function of DISPLAYing lyrics on visual interface.
3080 -2013.8.01 新增設置字體功能����,恢復簡單的自動關機功能����。Adds function of setting font, and re-adds simple function of auto shutdown.
3060 -2013.6.26 修復在迷你模式停止響應的Bug,去掉自動關機����、歌詞調整功能����。Fixes bug of stop responding in mini mode, and removes functions of auto shutdown and lyrics trimming.
3050 -2013.5.23 增加手勢功能。Adds gesture function.
3030 -2013.3.10 增加Aero磨砂玻璃效果[如需源碼請聯系我],XP/Win7/8無差別顯示����,按Insert鍵開啟����。Adds aero glass effect.
3020 -2013.2.23 增加簡易Tag編輯功能(選中并單擊即可,相當于資源管理器中的重命名����,按照[歌手 - 歌名][專輯]格式進行編輯)����。Adds function of editing audio tags (select and click, edit with [artist - title][album] format).
3010 -2013.1.23 應網友要求����,加入讀取內嵌CUE、歌詞及專輯封面功能����。Adds function of reading CUE, LRC and album cover built in media.
3002 -2012.11.03 無按鈕設計����;微調進度條尺寸����。Buttonless design; modifies the size of the progress bar.
3001 -2012.10.15 重要改進,界面即按鈕:單擊 - 播放/暫停����,按住 - 前進����。Important update, the interface is a button: Click - Play/Pause, Hold Down - Next.
3000 -2012.9.28 增加Win8模式����。Adds Win8 mode option.
2982 -2012.8.26 在Win8下使用微軟雅黑字體����。Uses Microsoft YaHei font in Windows 8 CHS.
2981 -2012.8.20 視頻以插件提供(請到主頁下載),增加單曲循環功能����。Adds function of repeat track.
2980 -2012.7.26 簡化代碼����,去掉視頻和MIDI支持����。Removes the video and MIDI support.
2970 -2012.7.20 增加媒體信息顯示功能。Adds function of DISPLAYing media info.
2960 -2012.6.28 增加專輯封面顯示功能(Hotkey:Ins)。Adds function of DISPLAYing album cover.
2956 -2012.6.01 再次簡化界面。Simplifies the interface again.
2952 -2012.4.28 增加音頻設備選擇功能:DS����、ASIO����、WASAPI����。Adds function of selecting playback device.
2950 -2012.3.30 *增加滾輪調節音量功能(在托盤,中鍵靜音)和媒體鍵支持。Adds function of setting volume by mouse wheel (over systray, middle click to mute), and adds multimedia keys support.
2936 -2012.3.17 微調界面,修復物理刪除失效的BUG。Fine-tunes the interface, and restores the physical delete function.
2930 -2012.2.27 增加TAK格式支持����。Adds TAK format support.
2923 -2012.2.12 緊急修復上一版出現的字體模糊BUG(Vista/Win7下)����,增加在任務欄顯/隱圖標功能(Ctrl+T)����。Fixes font vague bug for Vista/Win7, and adds showing/hiding icon on taskbar function.
2920 -2012.2.08 微調界面����,優化CPU占用(啟用背景圖片時)����。Fine-tunes the interface, and optimizes CPU utilization (while enable background image).
2912 -2012.1.12 增加播放隊列功能����。Adds playback queue function.
2910 -2011.12.25 改進迷你模式,增加查找功能。Improves mini mode, and adds find function.
*注:此功能對殺毒軟件過敏����,開啟方法:按F1進入選項����,勾選全局快捷鍵����。The feature is allergic to the anti-virus software.
標簽:
透明
音樂播放器
上傳時間:
2016-06-10
上傳用戶:fanghua
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#include "STC90.h"
#include < intrins.h >
#define uchar unsigned char
#define uint unsigned int
#define led_port P1
sbit IR_RE = P3^2;
sbit led_r = P1^3;
sbit led_g = P1^4;
sbit led_b = P1^5;
sbit led_wd = P1^7;
sbit K1 =P3^0 ; //增加鍵
sbit K2 =P3^1 ; //減少鍵
sbit BEEP =P3^7 ; //蜂鳴器
uchar temp,temp1;
bit k=0; //紅外解碼判斷標志位,為0則為有效信號,為1則為無效
bit Flag2;
uchar date[4]={0,0,0,0}; //date數組為存放地址原碼����,反碼����,數據原碼����,反碼
uint lade_1,lade_2,lade_3,lade_4;
uint num;
uchar date_ram,ee_temp,ee_temp1;
uchar WDT_NUM=0;
uchar const dofly[]={0x3f,0x06,0x5b,0x4f,0x66,0x6d,0x7d,0x07,0x7f,0x6f};// 顯示段碼值01234567
uchar code seg[]={7,6,5,4,3,2,1,0};//分別對應相應的數碼管點亮,即位碼
unsigned long disp_date;
void fade();
void fade1();
/*************************** 看門狗子程序*************************/
void watchdog_timer()
{
if(WDT_NUM==5)
{
WDT_NUM=0;
led_wd=!led_wd;
}
WDT_NUM++;
WDT_CONTR=0x3f;
}
/******************************************************************/
void delay(unsigned int cnt)
{
while(--cnt);
}
/*--------------------------延時1ms程子程序-----------------------*/
void delay_1ms(uint z)
{
uint x,y;
for(x=z;x>0;x--)
for(y=126;y>0;y--);
}
/*--------------------------延時1ms程子程序-----------------------*/
delay1000()
{
uchar i,j;
i=5;
do{j=95;
do{j--;}
while(j);
i--;
}
while(i);
}
/*---------------------------延時882us子程序-----------------------*/
delay882()
{
uchar i,j;
i=6;
do{j=71;
do{j--;}
while(j);
i--;
}while(i);
}
/*--------------------------延時2400us程子程序-----------------------*/
delay2400()
{
uchar i,j;
i=5;
do{j=237;
do{j--;}
while(j);
i--;
}while(i);
}
/**********************************************************************/
/*
void DISPLAY()
{
uchar i;
for(i=0;i<8;i++)
{
P0=dofly[disp_date%10];//取顯示數據����,段碼
P2=seg[i]; //取位碼
delay_1ms(1);
disp_date/=10;
}
}
*/
/*********************************************************************/
uchar EEPROM_read(uint addr)//EEPROM字節讀
{
ISP_CONTR=0x83; //系統時鐘<12M時,對ISP_CONTR寄存器設置的值����,本電路為11.0592M
ISP_CMD=1; //字節讀
ISP_ADDRH=(addr&0xff00)>>8;
ISP_ADDRL=addr&0x00ff;
ISP_TRIG=0x46;
ISP_TRIG=0xb9;
_nop_();
_nop_();
return ISP_DATA;
}
//--------------------------------------------------------------------
void EEPROM_write(uint addr,uchar dat)//EEPROM字節寫
{
ISP_CONTR=0x83; //系統時鐘<12M時����,對ISP_CONTR寄存器設置的值����,本電路為11.0592M
ISP_CMD=2; //字節編程
ISP_ADDRH=(addr&0xff00)>>8;
ISP_ADDRL=addr&0x00ff;
ISP_DATA=dat;
ISP_TRIG=0x46;
ISP_TRIG=0xb9;
_nop_();
_nop_();
}
//--------------------------------------------------------------------
void EEPROM_ERASE(uint addr)//EEPROM扇區擦除
{
ISP_CONTR=0x83; //系統時鐘<12M時,對ISP_CONTR寄存器設置的值����,本電路為11.0592M
ISP_CMD=3; //扇區擦除
ISP_ADDRH=(addr&0xff00)>>8;
ISP_ADDRL=addr&0x00ff;
ISP_TRIG=0x46;
ISP_TRIG=0xb9;
_nop_();
_nop_();
}
//**************************************************************
/*----------------------------------------------------------*/
/*-----------------------紅外解碼程序(核心)-----------------*/
/*----------------------------------------------------------*/
void IR_decode()
{
uchar i,j;
while(IR_RE==0);
delay2400();
if(IR_RE==1) //延時2.4ms后如果是高電平則是新碼
{
delay1000();
delay1000();
for(i=0;i<4;i++)
{
for(j=0;j<8;j++)
{
while(IR_RE==0); //等待地址碼第1位高電平到來
delay882(); //延時882us判斷此時引腳電平
///CY=IR_RE;
if(IR_RE==0)
{
date[i]>>=1;
date[i]=date[i]|0x00;
}
else if(IR_RE==1)
{
delay1000();
date[i]>>=1;
date[i]=date[i]|0x80;
}
} //1位數據接收結束
} //32位二進制碼接收結束
}
}
/*
void LED_PWM()
{
lade_2=num; //384
lade_4=num; //384
while(lade_2!=0&Flag2==1)
{
for(lade_3=512;lade_3>lade_4;lade_3--)
//512
{
led_port=0x00;
delay(1);
}
lade_3=512; //512
lade_4--;
for(lade_1=0;lade_1<lade_2;lade_1++)
{
led_port=0x38; //c7
delay(1);
}
lade_1=0;
lade_2--;
if(temp!=0x0c&Flag2==1)
{
lade_2=0;
}
lade_2=num; //384
lade_4=num; //384
}
}
*/
void calc()
{
EEPROM_read(0x2000);
ee_temp1=ISP_DATA;
ee_temp=ee_temp1&0x0f;
//************************************* 1
/*
if(date[3]==0xff&Flag2==1)
{
if(num>=20)
{
num=num-80;
}
//else num=1;
LED_PWM();
}
if(date[3]==0xfe&Flag2==1)
{
if(num<=500)
{
num=num+80;
}
// else num=511;
LED_PWM();
}
if(ee_temp1==0xfd)
{
led_port=0x00;
watchdog_timer();
}
if(ee_temp1==0xfc)
{
led_port=0x00;
led_r=1;
led_g=1;
led_b=1;
watchdog_timer();
}
*/
//********************************************** 2
if(ee_temp1==0xfb)
{
led_port=0x00;
led_r=1;
watchdog_timer();
}
if(ee_temp1==0xfa)
{
led_port=0x00;
led_g=1;
watchdog_timer();
}
if(ee_temp1==0xf9)
{
led_port=0x00;
led_b=1;
watchdog_timer();
}
if(ee_temp1==0xf8)
{
led_port=0x00;
led_r=1;
led_g=1;
led_b=1;
watchdog_timer();
}
//************************************** 3
if(ee_temp1==0xf7)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=448; //384
fade_4=448; //384
while(fade_2!=0&ee_temp==0x07)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x10;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x07)
{
fade_2=0;
}
watchdog_timer();
fade_2=448; //384
fade_4=448; //384
}
}
if(ee_temp1==0xf6)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=448; //384
fade_4=448; //384
while(fade_2!=0&ee_temp==0x06)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x20;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x06)
{
fade_2=0;
}
watchdog_timer();
fade_2=448; //384
fade_4=448; //384
}
}
if(ee_temp1==0xf5)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=448; //384
fade_4=448; //384
while(fade_2!=0&ee_temp==0x05)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x08;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x05)
{
fade_2=0;
}
watchdog_timer();
fade_2=448; //384
fade_4=448; //384
}
}
if(ee_temp1==0xf4)
{
while(ee_temp==4)
{
led_port=0x00;
led_r=1;
delay_1ms(200);
led_port=0x00;
led_r=1;
led_g=1;
delay_1ms(200);
led_port=0x00;
led_g=1;
delay_1ms(200);
watchdog_timer();
led_port=0x00;
led_g=1;
led_b=1;
delay_1ms(200);
led_port=0x00;
led_b=1;
delay_1ms(200);
led_port=0x00;
led_b=1;
led_r=1;
delay_1ms(200);
watchdog_timer();
}
}
//************************************** 4
if(ee_temp1==0xf3)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=416; //384
fade_4=416; //384
while(fade_2!=0&ee_temp==0x03)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x10;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x03)
{
fade_2=0;
}
watchdog_timer();
fade_2=416; //384
fade_4=416; //384
}
}
if(ee_temp1==0xf2)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=384; //384
fade_4=384; //384
while(fade_2!=0&ee_temp==0x02)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x20;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x02)
{
fade_2=0;
}
watchdog_timer();
fade_2=384; //384
fade_4=384; //384
}
}
if(ee_temp1==0xf1)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=348; //384
fade_4=348; //384
while(fade_2!=0&ee_temp==0x01)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x08;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x01)
{
fade_2=0;
}
watchdog_timer();
fade_2=348; //384
fade_4=348; //384
}
}
if(ee_temp1==0xf0)
{
while(ee_temp==0)
{
led_port=0x00;
led_r=1;
delay_1ms(500);
watchdog_timer();
led_port=0x00;
led_g=1;
delay_1ms(500);
led_port=0x00;
led_b=1;
delay_1ms(500);
watchdog_timer();
}
}
//******************************************** 5
if(ee_temp1==0xef)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=384; //384
fade_4=384; //384
while(fade_2!=0&ee_temp==0x0f)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x10;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x0f)
{
fade_2=0;
}
watchdog_timer();
fade_2=384; //384
fade_4=384; //384
}
}
if(ee_temp1==0xee)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=320; //384
fade_4=320; //384
while(fade_2!=0&ee_temp==0x0e)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x20;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x0e)
{
fade_2=0;
}
watchdog_timer();
fade_2=320; //384
fade_4=320; //384
}
}
if(ee_temp1==0xed)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=320; //384
fade_4=320; //384
while(fade_2!=0&ee_temp==0x0d)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x08;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x0d)
{
fade_2=0;
}
watchdog_timer();
fade_2=320; //384
fade_4=320; //384
}
}
if(ee_temp1==0xec)
fade();
//******************************************* 6
if(ee_temp1==0xeb)
{
led_port=0x00;
led_r=1;
led_g=1;
watchdog_timer();
}
if(ee_temp1==0xea)
{
led_port=0x00;
//led_r=0;
led_g=1;
led_b=1;
watchdog_timer();
}
if(ee_temp1==0xe9)
{
led_port=0x00;
led_r=1;
//led_g=0;
led_b=1;
watchdog_timer();
}
if(ee_temp1==0xe8)
fade1();
}
void fade()
{
// uchar i;
uint fade_1,fade_2,fade_3,fade_4;
fade_2=512;
fade_4=511;
while(fade_2!=0&ee_temp==0x0c)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
{
led_port=0x10;
delay(1);
}
fade_3=512;
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x0c)
{
fade_2=0;
}
}
watchdog_timer();
fade_2=512;
fade_4=511;
while(fade_2!=0&ee_temp==0x0c)
{
if(ee_temp!=0x0c)
{
fade_2=0;
}
for(fade_3=512;fade_3>fade_4;fade_3--)
{
led_port=0x20;
delay(1);
// watchdog_timer();
}
fade_3=512;
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
// watchdog_timer();
}
fade_1=0;
fade_2--;
}
watchdog_timer();
fade_2=512;
fade_4=511;
while(fade_2!=0&ee_temp==0x0c)
{
if(ee_temp!=0x0c)
{
fade_2=0;
}
for(fade_3=512;fade_3>fade_4;fade_3--)
{
led_port=0x08;
delay(1);
watchdog_timer();
}
fade_3=512;
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
watchdog_timer();
}
fade_1=0;
fade_2--;
}
watchdog_timer();
}
void fade1()
{
// uchar i;
uint fade_1,fade_2,fade_3,fade_4;
fade_2=128;
fade_4=127;
while(fade_2!=0&ee_temp==0x08)
{
for(fade_3=128;fade_3>fade_4;fade_3--)
{
led_port=0x10;
delay(1);
}
fade_3=128;
fade_4--;
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x08)
{
fade_2=0;
}
}
watchdog_timer();
fade_2=128;
fade_4=127;
while(fade_2!=0&ee_temp==0x08)
{
if(ee_temp!=0x08)
{
fade_2=0;
}
for(fade_3=128;fade_3>fade_4;fade_3--)
{
led_port=0x20;
delay(1);
}
fade_3=128;
fade_4--;
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
}
fade_1=0;
fade_2--;
}
watchdog_timer();
fade_2=128;
fade_4=127;
while(fade_2!=0&ee_temp==0x08)
{
if(ee_temp!=0x08)
{
fade_2=0;
}
for(fade_3=128;fade_3>fade_4;fade_3--)
{
led_port=0x08;
delay(1);
}
fade_3=128;
fade_4--;
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
}
fade_1=0;
fade_2--;
}
watchdog_timer();
}
void init()
{
led_port=0x00;
/*
led_r=1;
delay_1ms(500);
led_port=0x00;
led_g=1;
delay_1ms(500);
led_port=0x00;
led_b=1;
delay_1ms(500);
led_port=0x00;
*/
delay_1ms(2);
WDT_CONTR=0x3f;
delay_1ms(500);
}
//********************************
void main()
{
init();
Flag2=0;
SP=0x60; //堆棧指針
EX0=1; //允許外部中斷0,用于檢測紅外遙控器按鍵
EA=1;
num=255;
while(1)
{
calc();
}
}
//********************************************************************
/*------------------------外部中斷0程序-------------------------*/
/*------------------主要用于處理紅外遙控鍵值--------------------*/
void int0() interrupt 0
{
uchar i;
Flag2=0; ///////
k=0;
EX0=0; //檢測到有效信號關中斷����,防止干擾
for(i=0;i<4;i++)
{
delay1000();
if(IR_RE==1){k=1;} //剛開始為9ms的引導碼.
}
led_port=0x00;
if(k==0)
{
IR_decode(); //如果接收到的是有效信號����,則調用解碼程序
if(date[3]>=0xe8)
{
if(date[3]<=0xfb)
{
temp1=date[3];
EEPROM_ERASE(0x2000); //STC_EEROM_0X2000 temp1
EEPROM_write(0x2000,temp1);
EEPROM_read(0x2000);
ee_temp1=ISP_DATA;
ee_temp=ee_temp1&0x0f;
/*
temp=date[3]&0x0f;
EEPROM_ERASE(0x2004); //STC_EEROM_0X2004 temp
EEPROM_write(0x2004,temp);
*/
}
else
{
EEPROM_read(0x2000);
ee_temp1=ISP_DATA;
ee_temp=ee_temp1&0x0f;
}
}
delay2400();
delay2400();
delay2400();
delay_1ms(500);
}
EX0=1; //開外部中斷����,允許新的遙控按鍵
}
標簽:
RGB
紅外遙控
上傳時間:
2016-07-02
上傳用戶:184890962
-
#include <iostream.h>
#include <string.h>
#include <iomanip.h>
#include "Stud.h"
Stud::Stud(){}
char *Stud::getno() //獲取學號
{
return no;
}
char *Stud::getname() //獲取姓名
{
return name;
}
char *Stud::getsex() //獲取性別
{
return sex;
}
char *Stud::getminzu() //獲取民族
{
return minzu;
}
char *Stud::getaddress() //獲取出生地
{
return address;
}
char *Stud::getbirth() //獲取出生年月
{
return birth;
}
int Stud::gettag() //獲取姓名
{
return tag;
}
void Stud::changeno(char n[]) //設置學號
{
strcpy(no,n);
}
void Stud::changename(char na[]) //設置姓名
{
strcpy(name,na);
}
void Stud::changesex(char s[]) //設置性別
{
strcpy(sex,s);
}
void Stud::changeminzu(char m[]) //設置民族
{
strcpy(minzu,m);
}
void Stud::changeaddress(char a[]) //設置出生地
{
strcpy(address,a);
}
void Stud::changebirth(char b[]) //設置出生年月
{
strcpy(birth,b);
}
void Stud::addstudent(char *rn,char *rna) //增加學生
{
strcpy(no,rn);
strcpy(name,rna);
}
void Stud::addstudent(char *rn,char *rna,char *rs,char *rm,char *ra,char *rb) //增加學生
{
tag=0;
strcpy(no,rn);
strcpy(name,rna);
strcpy(sex,rs);
strcpy(minzu,rm);
strcpy(address,ra);
strcpy(birth,rb);
}
void Stud::delstud() //設置刪除標記
{
tag=1;
}
void Stud::disp() //輸出學生信息
{
cout<<setw(15)<<no<<setw(10)<<name<<setw(10)<<sex<<setw(10)<<minzu<<setw(10)<<address<<setw(10)<<birth<<endl;
}
void Stud::DISPLAY() //輸出學生信息
{
cout<<setw(15)<<no<<setw(10)<<name;
}
標簽:
學生
上傳時間:
2016-12-29
上傳用戶:767483511
-
// 學生管理.cpp : Defines the entry point for the application.
//
#include "stdafx.h"
#include "resource.h"
#define MAX_LOADSTRING 100
// Global Variables:
HINSTANCE hInst; // current instance
TCHAR szTitle[MAX_LOADSTRING]; // The title bar text
TCHAR szWindowClass[MAX_LOADSTRING]; // The title bar text
// Foward declarations of functions included in this code module:
ATOM MyRegisterClass(HINSTANCE hInstance);
BOOL InitInstance(HINSTANCE, int);
LRESULT CALLBACK WndProc(HWND, UINT, WPARAM, LPARAM);
LRESULT CALLBACK About(HWND, UINT, WPARAM, LPARAM);
struct person
{
char name[10];
int ID;
int cj_yw;
int cj_sx;
struct person* next;
struct person* pro;
}per;
int APIENTRY WinMain(HINSTANCE hInstance,
HINSTANCE hPrevInstance,
LPSTR lpCmdLine,
int nCmdShow)
{
// TODO: Place code here.
MSG msg;
HACCEL hAccelTable;
// Initialize global strings
LoadString(hInstance, IDS_APP_TITLE, szTitle, MAX_LOADSTRING);
LoadString(hInstance, IDC_MY, szWindowClass, MAX_LOADSTRING);
MyRegisterClass(hInstance);
// Perform application initialization:
if (!InitInstance (hInstance, nCmdShow))
{
return FALSE;
}
hAccelTable = LoadAccelerators(hInstance, (LPCTSTR)IDC_MY);
// Main message loop:
while (GetMessage(&msg, NULL, 0, 0))
{
if (!TranslateAccelerator(msg.hwnd, hAccelTable, &msg))
{
TranslateMessage(&msg);
DispatchMessage(&msg);
}
}
return msg.wParam;
}
//
// FUNCTION: MyRegisterClass()
//
// PURPOSE: Registers the window class.
//
// COMMENTS:
//
// This function and its usage is only necessary if you want this code
// to be compatible with Win32 systems prior to the 'RegisterClassEx'
// function that was added to Windows 95. It is important to call this function
// so that the application will get 'well formed' small icons associated
// with it.
//
ATOM MyRegisterClass(HINSTANCE hInstance)
{
WNDCLASSEX wcex;
wcex.cbSize = sizeof(WNDCLASSEX);
wcex.style = CS_HREDRAW | CS_VREDRAW;
wcex.lpfnWndProc = (WNDPROC)WndProc;
wcex.cbClsExtra = 0;
wcex.cbWndExtra = 0;
wcex.hInstance = hInstance;
wcex.hIcon = LoadIcon(hInstance, (LPCTSTR)IDI_MY);
wcex.hCursor = LoadCursor(NULL, IDC_ARROW);
wcex.hbrBackground = (HBRUSH)(COLOR_WINDOW+1);
wcex.lpszMenuName = (LPCSTR)IDC_MY;
wcex.lpszClassName = szWindowClass;
wcex.hIconSm = LoadIcon(wcex.hInstance, (LPCTSTR)IDI_SMALL);
return RegisterClassEx(&wcex);
}
//
// FUNCTION: InitInstance(HANDLE, int)
//
// PURPOSE: Saves instance handle and creates main window
//
// COMMENTS:
//
// In this function, we save the instance handle in a global variable and
// create and DISPLAY the main program window.
//
BOOL InitInstance(HINSTANCE hInstance, int nCmdShow)
{
HWND hWnd;
hInst = hInstance; // Store instance handle in our global variable
hWnd = CreateWindow(szWindowClass, szTitle, WS_OVERLAPPEDWINDOW,
CW_USEDEFAULT, 0, CW_USEDEFAULT, 0, NULL, NULL, hInstance, NULL);
if (!hWnd)
{
return FALSE;
}
ShowWindow(hWnd, nCmdShow);
UpdateWindow(hWnd);
return TRUE;
}
//
// FUNCTION: WndProc(HWND, unsigned, WORD, LONG)
//
// PURPOSE: Processes messages for the main window.
//
// WM_COMMAND - process the application menu
// WM_PAINT - Paint the main window
// WM_DESTROY - post a quit message and return
//
//
LRESULT CALLBACK WndProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam)
{
int wmId, wmEvent;
PAINTSTRUCT ps;
HDC hdc;
TCHAR szHello[MAX_LOADSTRING];
LoadString(hInst, IDS_HELLO, szHello, MAX_LOADSTRING);
switch (message)
{
case WM_COMMAND:
wmId = LOWORD(wParam);
wmEvent = HIWORD(wParam);
// Parse the menu selections:
switch (wmId)
{
case IDM_ABOUT:
DialogBox(hInst, (LPCTSTR)IDD_ABOUTBOX, hWnd, (DLGPROC)About);
break;
case IDM_EXIT:
DestroyWindow(hWnd);
break;
default:
return DefWindowProc(hWnd, message, wParam, lParam);
}
break;
case WM_PAINT:
hdc = BeginPaint(hWnd, &ps);
// TODO: Add any drawing code here...
RECT rt;
GetClientRect(hWnd, &rt);
DrawText(hdc, szHello, strlen(szHello), &rt, DT_CENTER);
EndPaint(hWnd, &ps);
break;
case WM_DESTROY:
PostQuitMessage(0);
break;
default:
return DefWindowProc(hWnd, message, wParam, lParam);
}
return 0;
}
// Mesage handler for about box.
LRESULT CALLBACK About(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam)
{
switch (message)
{
case WM_INITDIALOG:
return TRUE;
case WM_COMMAND:
if (LOWORD(wParam) == IDOK || LOWORD(wParam) == IDCANCEL)
{
EndDialog(hDlg, LOWORD(wParam));
return TRUE;
}
break;
}
return FALSE;
}
標簽:
計算器
學生
上傳時間:
2016-12-29
上傳用戶:767483511
-
// 學生管理.cpp : Defines the entry point for the application.
//
#include "stdafx.h"
#include "resource.h"
#define MAX_LOADSTRING 100
// Global Variables:
HINSTANCE hInst; // current instance
TCHAR szTitle[MAX_LOADSTRING]; // The title bar text
TCHAR szWindowClass[MAX_LOADSTRING]; // The title bar text
// Foward declarations of functions included in this code module:
ATOM MyRegisterClass(HINSTANCE hInstance);
BOOL InitInstance(HINSTANCE, int);
LRESULT CALLBACK WndProc(HWND, UINT, WPARAM, LPARAM);
LRESULT CALLBACK About(HWND, UINT, WPARAM, LPARAM);
struct person
{
char name[10];
int ID;
int cj_yw;
int cj_sx;
struct person* next;
struct person* pro;
}per;
int APIENTRY WinMain(HINSTANCE hInstance,
HINSTANCE hPrevInstance,
LPSTR lpCmdLine,
int nCmdShow)
{
// TODO: Place code here.
MSG msg;
HACCEL hAccelTable;
// Initialize global strings
LoadString(hInstance, IDS_APP_TITLE, szTitle, MAX_LOADSTRING);
LoadString(hInstance, IDC_MY, szWindowClass, MAX_LOADSTRING);
MyRegisterClass(hInstance);
// Perform application initialization:
if (!InitInstance (hInstance, nCmdShow))
{
return FALSE;
}
hAccelTable = LoadAccelerators(hInstance, (LPCTSTR)IDC_MY);
// Main message loop:
while (GetMessage(&msg, NULL, 0, 0))
{
if (!TranslateAccelerator(msg.hwnd, hAccelTable, &msg))
{
TranslateMessage(&msg);
DispatchMessage(&msg);
}
}
return msg.wParam;
}
//
// FUNCTION: MyRegisterClass()
//
// PURPOSE: Registers the window class.
//
// COMMENTS:
//
// This function and its usage is only necessary if you want this code
// to be compatible with Win32 systems prior to the 'RegisterClassEx'
// function that was added to Windows 95. It is important to call this function
// so that the application will get 'well formed' small icons associated
// with it.
//
ATOM MyRegisterClass(HINSTANCE hInstance)
{
WNDCLASSEX wcex;
wcex.cbSize = sizeof(WNDCLASSEX);
wcex.style = CS_HREDRAW | CS_VREDRAW;
wcex.lpfnWndProc = (WNDPROC)WndProc;
wcex.cbClsExtra = 0;
wcex.cbWndExtra = 0;
wcex.hInstance = hInstance;
wcex.hIcon = LoadIcon(hInstance, (LPCTSTR)IDI_MY);
wcex.hCursor = LoadCursor(NULL, IDC_ARROW);
wcex.hbrBackground = (HBRUSH)(COLOR_WINDOW+1);
wcex.lpszMenuName = (LPCSTR)IDC_MY;
wcex.lpszClassName = szWindowClass;
wcex.hIconSm = LoadIcon(wcex.hInstance, (LPCTSTR)IDI_SMALL);
return RegisterClassEx(&wcex);
}
//
// FUNCTION: InitInstance(HANDLE, int)
//
// PURPOSE: Saves instance handle and creates main window
//
// COMMENTS:
//
// In this function, we save the instance handle in a global variable and
// create and DISPLAY the main program window.
//
BOOL InitInstance(HINSTANCE hInstance, int nCmdShow)
{
HWND hWnd;
hInst = hInstance; // Store instance handle in our global variable
hWnd = CreateWindow(szWindowClass, szTitle, WS_OVERLAPPEDWINDOW,
CW_USEDEFAULT, 0, CW_USEDEFAULT, 0, NULL, NULL, hInstance, NULL);
if (!hWnd)
{
return FALSE;
}
ShowWindow(hWnd, nCmdShow);
UpdateWindow(hWnd);
return TRUE;
}
//
// FUNCTION: WndProc(HWND, unsigned, WORD, LONG)
//
// PURPOSE: Processes messages for the main window.
//
// WM_COMMAND - process the application menu
// WM_PAINT - Paint the main window
// WM_DESTROY - post a quit message and return
//
//
LRESULT CALLBACK WndProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam)
{
int wmId, wmEvent;
PAINTSTRUCT ps;
HDC hdc;
TCHAR szHello[MAX_LOADSTRING];
LoadString(hInst, IDS_HELLO, szHello, MAX_LOADSTRING);
switch (message)
{
case WM_COMMAND:
wmId = LOWORD(wParam);
wmEvent = HIWORD(wParam);
// Parse the menu selections:
switch (wmId)
{
case IDM_ABOUT:
DialogBox(hInst, (LPCTSTR)IDD_ABOUTBOX, hWnd, (DLGPROC)About);
break;
case IDM_EXIT:
DestroyWindow(hWnd);
break;
default:
return DefWindowProc(hWnd, message, wParam, lParam);
}
break;
case WM_PAINT:
hdc = BeginPaint(hWnd, &ps);
// TODO: Add any drawing code here...
RECT rt;
GetClientRect(hWnd, &rt);
DrawText(hdc, szHello, strlen(szHello), &rt, DT_CENTER);
EndPaint(hWnd, &ps);
break;
case WM_DESTROY:
PostQuitMessage(0);
break;
default:
return DefWindowProc(hWnd, message, wParam, lParam);
}
return 0;
}
// Mesage handler for about box.
LRESULT CALLBACK About(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam)
{
switch (message)
{
case WM_INITDIALOG:
return TRUE;
case WM_COMMAND:
if (LOWORD(wParam) == IDOK || LOWORD(wParam) == IDCANCEL)
{
EndDialog(hDlg, LOWORD(wParam));
return TRUE;
}
break;
}
return FALSE;
}
標簽:
學生 計算器
上傳時間:
2016-12-29
上傳用戶:767483511
-
對于非線性方程組F(X)=0,用fsolve函數求其數值解����。fsolve函數的調用格式為:
X=fsolve('fun',X0,option)
其中X為返回的解,fun是用于定義需求解的非線性方程組的函數文件名,X0是求根過程的初值,option為最優化工具箱的選項設定����。最優化工具箱提供了20多個選項����,用戶可以使用optimset命令將它們顯示出來����。如果想改變其中某個選項,則可以調用optimset()函數來完成。例如,DISPLAY選項決定函數調用時中間結果的顯示方式����,其中‘off’為不顯示����,‘iter’表示每步都顯示����,‘final’只顯示最終結果。optimset(‘DISPLAY’,‘off’)將設定DISPLAY選項為‘off’����。
標簽:
MATLAB
fsolve
非線性
方程
代碼
源程序
上傳時間:
2017-07-31
上傳用戶:ChrisQQQ
-
產品型號:HT9B92 產品品牌:HOLTEK/合泰
封裝形式:TSSOP48/LQFP48 產品年份:新年份
原廠直銷����,工程服務����,技術支持,價格更具優勢!
RAM 映射 36×4 LCD 顯示驅動器
概述
HT9B92 是一款存儲器映射和多功能LCD控制驅動芯片����。該芯片顯示模式有144 點(36×4 )。 HT9B92 軟件配置特性使得它適用于多種LCD應用����,包括LCD 模塊和顯示子系統����。HT9B92 通過雙線雙向 I2C 接口與大多數微處理器/ 微控制器進行通信����。
功能特點
● 工作電壓:2.4V~5.5V
● 內部集成振蕩電路
● Bias: 1/2 or 1/3; Duty: 1/4
● 帶電壓跟隨器的內部LCD 偏置發生器
● 提供VLCD 引腳來調整LCD 工作電壓
● I2C接口
● 可選 LCD 幀頻率
● 多達36×4 位RAM 用來存儲顯示數據
● 最大顯示模式36×4:36 SEGs 和4 COMs
● 多種閃爍模式:不閃爍,0.5Hz����,1Hz����,2Hz
● 寫地址自動增加
● 低功耗省電模式
● 采用硅柵極CMOS 制造工藝
● 封裝類型:48-pin TSSOP/LQFP
● 市面可兼容型號:元泰VINTEK:VKL44A TSSOP48封裝,VKL144B QFN48(6MM*6MM)封裝,VKL128 LQFP44封裝����,VKL060 SSOP24封裝 ------ 同種腳位可以任意切換����,少腳位更具性價比高����,方便設計等特點。
●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●●
產品型號:VKL144A
產品品牌:VINTEK/元泰
封裝形式:TSSOP48
產品年份:新年份
原廠直銷,工程服務����,技術支持����,價格更具優勢����!
超低功耗液晶LCD顯示驅動芯片
概述
VKL144A是一款性能優越的字段式液晶顯示驅動芯片����,由于其驅動段位多達144段和超低功耗的工藝設計特點。還具有性能穩定和低價格優勢����、供貨穩定����,目前被業界廣泛應用在眾多的儀器儀表的產品上����。比如手持式儀表、費率表����、工控儀表����、醫療儀器����、專用測量儀表頭等等設備上使用
功能特點
● 液晶驅動輸出: Common 輸出4線
Segment 輸出36線
● 內置DISPLAY data RAM (DDRAM)
內置RAM容量:36*4 =144 bit
● 液晶驅動的電源電路
1/2 ,1/3
Bias ����,1/4 Duty
內置Buffer AMP
I2C串行接口(SCL,
SDA)
● 內置振蕩電路
● 不需要外圍部件
● 低功耗設計
● 搭載等待模式
● 內置Power-on Reset電路
● 搭載閃爍功能
● 工作電源電壓: 2.5-5.5V
★應用推薦: 各種費率表,電表、水表����、氣表����、熱表����、各種計量專用表頭。
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產品型號:VKL144B 產品品牌:VINTEK/元泰
封裝形式:QFN48L(6MM*6MM)
產品年份:新年份
原廠直銷,工程服務,技術支持����,價格更具優勢����!
超低功耗液晶LCD顯示驅動芯片
概述
VKL144B是一款性能優越的字段式液晶顯示驅動芯片����,由于其驅動段位多達144段和超低功耗的工藝設計特點。還具有性能穩定和低價格優勢����、供貨穩定����,目前被業界廣泛應用在眾多的儀器儀表的產品上。比如手持式儀表����、費率表����、工控儀表����、醫療儀器����、專用測量儀表頭等等設備上使用
功能特點
● 液晶驅動輸出: Common 輸出4線
Segment 輸出36線
● 內置DISPLAY data RAM (DDRAM)
內置RAM容量:36*4 =144 bit
● 液晶驅動的電源電路
1/2 ,1/3
Bias ,1/4 Duty
內置Buffer AMP
I2C串行接口(SCL,
SDA)
● 內置振蕩電路
● 不需要外圍部件
● 低功耗設計
● 搭載等待模式
● 內置Power-on Reset電路
● 搭載閃爍功能
● 工作電源電壓: 2.5-5.5V
★應用推薦: 各種費率表����,電表����、水表����、氣表、熱表、各種計量專用表頭����。
HOLTEK合泰全系列產品
芯片介紹如下:
一.LCD液晶顯示驅動控制器
HT1620 HT1620G HT1621
HT1621B HT1621G HT1622
HT1622G HT1623
HT1625 HT1626 HT16C21
HT16C22 HT16C23 HT16C24
HT1620 HT16220
HT1647 HT1650 HT1660
HT1670 HT16K23 HT9B92
HT9B92G HT9B95A
HT9B95B HT9B95C HT16LK24
HT16L21 HT16L23 HT1611C
HT1613C HT1616C
(全部封裝����、規格形式 均有海量現貨?���。?
二:LED/VFD控制、驅動器
HT16506 HT16511 HT16512
HT16515 HT16514 HT16561 HT16562 HT16565 HT16566
HT16523 HT16525 HT1632C
HT16K33 HT16K33
HT16528-001 HT16528-002 HT16528-003
(全部封裝、規格形式 均有海量現貨?���。?
三.Touch Key觸摸按鍵電路/ I/O Flash MCU
BS801B/C BS802B/C BS804B/C
BS804B/C BS806B/C BS808B/C
BS812A-1 BS813A-1 BS814A-1
BS814A-2 BS816A-1 BS818A-2
BS8112A-3 BS8116A-3 BS83A02A-4 BS83A04A-3
BS83A04A-4
BS83B04A-4 BS83B08A-3 BS83B08A-4 BS83B12A-3 BS83B12A-4
(全部封裝����、規格形式 均有海量現貨?���。?
四.HT7XXX全系列
微功耗LDO
HT1015-1 HT71xx-1 HT71xx-2 HT71xx-3 HT71xx-3 HT75xx-1
HT75xx-2
HT75xx-3 HT73xx HT72xx HT78xx
Power management(電源LDO穩壓管理IC)
HT71**為30MA穩壓芯片 產品:HT7130����,HT7133,HT7136����,HT7144����,HT7150
HT75**為100MA穩壓芯片 產品:HT7530����,HT7533,HT7536����,HT7544����,HT7550
HT73**為300MA穩壓芯片
產品:HT7318,HT7325,HT7327,HT7330,HT7333,HT7335,HT7350
HT70**為電壓檢測芯片
產品:HT7022����,HT7024,HT7027����,HT7033����,HT7039����,HT7044,HT7050
HT77::為升壓DC-DC芯片
產品:HT7727����,HT7730����,HT7733����,HT7737,HT7750
LDO與探測器和數據收發:HT71DXX
高電源抑制比300mA雙LDO穩壓器:HT72Dxxxx
高電源抑制比300mA LDO穩壓器:HT72BXX
高電源抑制比 150mA LDO穩壓器:HT75BXX
高電源抑制比 500mA LDO穩壓器:HT78BXX 3SOT89 T/R
電壓檢測器系列(小功率):HT70xxA-1 HT70xxA-2 HT70xxA-3
PFM升壓DC-DC變換器:HT77xx HT77xxA HT77S10
HT77S11
PFM同步升壓直流/直流轉換器:HT77xxS HT77xxSA
LED照明驅動:HT7L4811 HT7L4091
HT7L4091 HT7L2102 HT7L2103
HT7L2103
白光LED背光驅動:HT7936 HT7937 HT7938 HT7938A
HT7939
HT7943 HT7945
降壓直流-直流轉換器:HT7465 HT7466
AC/DC PWM變換器:HT7A3942 HT7A6002
HT7A6003 HT7A4016
充電泵直流/直流轉換器:HT7660
(全部封裝����、規格形式 均有海量現貨?���。?
五:時鐘IC及其他消費類IC
HT1380 HT1380A HT1381
HT1381A HT1382 HT9200A HT9170
HT9172 HT9032
HT8970 HT9247 HT82V731
HT82V736 HT6221
HT6222 HT62104
HT12A\E HT12D\F
(全部封裝����、規格形式 均有海量現貨!)
六.電可擦除只讀存儲器
HT2201 HT24LC02
HT24LC02A HT24LC04 HT24LC08
HT24LC16 HT24LC32
HT24LC64 HT24LC128
HT24LC256 HT93LC46 HT93LC66
HT93LC86
(全部封裝����、規格形式 均有海量現貨?���。?
七.各類編碼/射頻/解碼器
HT12D
HT12E HT12F HT6010
HT6012 HT6014 HT6026
HT6030
HT6032 HT6034
HT600 HT604L HT6207
HT680 HT6P20B HT6P20D
HT6P40B2
HT6P40C2 HT6P40D2 HT6P40E2
HT6P40B2T3 HT6P40C2T3
HT6P40D2T3
HT6P40E2T3 HT6P423A HT6P423A
HT6P427A HT6P433A
HT6P437A HT12C2T3 HT12C2T4
HT12E2T3 HT12E2T4 HT12E2T4
HT16C2T3 HT16C2T4 HT16E2T3
HT16E2T4 HT16G2T3 HT16G2T4
HT9831 HT7610A HT7611A/B
HT7612 HT7612B
(全部封裝����、規格形式 均有海量現貨?���。?
八.MCU(微控IC)
HT48 系列 應用于遙控,電扇/電燈控制����,洗衣機控制����,電子秤����,玩具及各種系統控制.
產品:HT48R05,HT48R06,HT48R30����,HT48R50
HT49系列 應用于多種LCD DI低功耗應用����,如電子秤,休閑產品,高階的家用電器
產品:HT49R30,HT49R50
HT46帶A/D系列 適用于充電器控制����,電磁爐等
產品:HT46R47����,HT46R22����,HT46R23����,HT46R24����,HT46R51
HT46帶A/D及LCD系列 適用于洗衣機控制器����,相機控制器和帶LCD顯示的家用電器系列
產品:HT46R62����,HT46R63����,HT46R64
HT48RA系列適用于紅外遙控器以及各種電子系統的控制器
(全部封裝、規格形式 均有海量現貨?���。?
九.放大器/音頻放大器 /DA轉換器
HT9231 HT9232 HT9234
HT9251 HT9252 HT9254
HT9274 HT9291
HT9292 HT9294 HT82V732 HT82V733
HT82V735 HT82V736 HT82V736
HT82V739
HT82V73 HT82V731
HT82V737 HT82V738
(全部封裝、規格形式 均有海量現貨?���。?
十.音調IC/發生器 /接收器
HT9200A HT9200B HT9170B
HT9170D HT9172 HT8970
HT8972
(全部封裝����、規格形式 均有海量現貨?���。?
IC型號眾多,未能一一收錄。
芯片主要應用領域如下:
★顯示模塊:電子秤、無線麥克風����、錄音筆����、影音多媒體����、小家電周邊
★家電類:電風扇、電飯煲、玩具����、冷氣機����、暖風機、空調扇����、飲水機、抽油煙機、消毒柜、電熱水器����、面包機、豆漿機����、咖啡壺����、電冰箱、洗衣機控制器、空調控制板等����。
★通訊類:來電顯示電話����、無繩電話����、IC電話、投幣電話����、對講機等
★玩具游戲類:無線遙控車、PS游戲機����、跳舞毯、方向盤、手柄����、電子槍����、PS開機IC等����。
★計算機周邊:顯示器控制����、PC-MOUSE、單/雙滾、遙控MOUSE����、鍵盤����、手寫板等。
★智能卡類:IC卡煤氣表、電能表����、水表����、IC讀寫器、IC卡門禁系統等。
★汽車及防盜類:機車防盜器����、********器、汽車天線控制器、里程表����、汽車日歷等����。
★醫用保健類:電子針灸器、甩脂機����、智能體溫計����、LCD顯示血壓計����、跑步機����、按摩器、按摩墊����、按摩椅 等����。
★儀表類:電壓表����、瓦斯表����、電池電壓檢測器、頻率計、計數器����、電度表、水位檢測器等。
★其它類:充電器����、照相機����、電子萬年鐘����、自動給皂機、路燈控制器����、呼叫服務器等
標簽:
TSSOP
B92
HT9
LCD
HT
9B
92
48
合泰
液晶驅動
上傳時間:
2018-12-07
上傳用戶:shubashushi66
-
DESCRIPTION
The Texas Instruments MSP430 family of ultra-low-power microcontrollers consists of several devices featuring
different sets of peripherals targeted for various applications. The architecture, combined with five low-power
modes, is optimized to achieve extended battery life in portable measurement applications. The device features a
powerful 16-bit RISC CPU, 16-bit registers, and constant generators that contribute to maximum code efficiency.
The digitally controlled oscillator (DCO) allows wake-up from low-power modes to active mode in less than 1 μs.
The MSP430G2x13 and MSP430G2x53 series are ultra-low-power mixed signal microcontrollers with built-in 16-
bit timers, up to 24 I/O capacitive-touch enabled pins, a versatile analog comparator, and built-in communication
capability using the universal serial communication interface. In addition the MSP430G2x53 family members
have a 10-bit analog-to-digital (A/D) converter. For configuration details see Table 1.
Typical applications include low-cost sensor systems that capture analog signals, convert them to digital values,
and then process the data for DISPLAY or for transmission to a host system.
標簽:
G2553
2553
430G
MSP
430
上傳時間:
2018-12-25
上傳用戶:ygyh
-
定義雇員類Employee����,包含string型成員變量m_Name(姓名)和m_No(編號),int型成員變量m_Department(部門號),成員函數SetName(string)����,SetNo(string)����,SetDept(int)分別用來設置姓名、編號和部門號����,DISPLAY()函數用來輸出雇員信息,還包含一個構造函數Employee(string,string,int)����。定義一個經理類Manager����,派生于雇員類Employee����,新增成員變量m_Level表示級別和成員函數SetLevel(int)用來設置m_Level。
標簽:
Employee
定義
上傳時間:
2020-05-03
上傳用戶:coisini
-
To a quantum mechanic the whole universe is one godawful big interacting wavefunction ?
but to the rest of us, it’s a world full of separate and distinguishable objects that hurt us
when we kick them. At a few months of age, human children recognize objects, expect
them to be permanent and move continuously, and DISPLAY surprise when they aren’t or
don’t. We associate visual, tactile, and in some cases audible and olfactory sensations with
identifiable physical things. We’re hardwired to understand our environment as being
composed of separable things with specific properties and locations. We understand the
world in terms of what was where when.
標簽:
RFID
The
RF
in
上傳時間:
2020-06-08
上傳用戶:shancjb
