虫虫首页| 资源下载| 资源专辑| 精品软件
登录| 注册

EA-series-chinese

  • SC3633

    Wide 2.2V to 6V Input Voltage Range „ 0.20V FB adjustable LED drive current „ Directly drive 9 Series 1W LED at VIN>=6V „ Fixed 800KHz Switching Frequency „ Max. 3A Switching Current Capability „ Up to 92% efficiency „ Excellent line and load regulation „ EN PIN TTL shutdown capability „ Internal Optimize Power MOSFET

    标签: sc3633

    上传时间: 2021-11-05

    上传用户:d1997wayne

  • 全志A20核心板配套开发底板Cadence原理图+ Pads2005格式PCB文件+转换后的AD格式

    全志A20核心板配套开发底板Cadence原理图+ Pads2005格式PCB文件+转换后的AD格式原理图PCB文件:A20_DVK1_BASE_V16_Altium_Designer15.PcbDocA20_DVK1_BASE_V16_BOM_20151015.xlsxA20_DVK1_BASE_V16_Gerber制板文件.rarA20_DVK1_BASE_V16_PADS2005_PCB30.pcbA20_DVK1_BASE_V16_PADS2005_PCB_ASCII.PcbDocA20_DVK1_BASE_V16_PADS9.5.pcba20_dvk1_base_v16_SCH_20151015.pdfA20_DVK1_BASE_V16_元件位置查找图_20151102.pdfA20_DVK1_BASE_V16_原理图_OrCAD16.5.DSNA20_DVK1_BASE_V16_导出到AD格式的原理图和PCBA20_DVK1_BASE_V16_导出到AD格式的原理图和PCB.rarA20_DVK1_BASE_V16_顶层元件编号丝印图_20151102.pdfA20_DVK1_BASE_V16_顶层元件规格丝印图_20151102.pdf主要器件如下:Library Component Count : 58Name                Description----------------------------------------------------------------------------------------------------ANTBATTERY_1BEAD                CAPCAP NP              贴片电容,Y5V,6.3V,2.2uF,+80%-20%,0603CAP NP_2_Dup1       X5RCAP NP_Dup2         0402 1uF X5R 6.3V +/-10%CAP NP_Dup3         0402 1uF X5R 6.3V +/-10%CAPACITOR           CAPACITOR POLCON1                CON12               CON3                CON4                CON50               CON6CON6A               CONNECTOR45X4       C_Generic           DB15-VGA_0          DIODE               DIODE DUAL SERIESFM25CL64            FR9886SPGTR         FUSEHOLDER_0        HDMI19_PLUG         HEADER 2            INDUCTOR/SMINDUCTOR_4          C4K-2.5HINDUCTOR_Dup2       INDUCTOR_Dup3       IRM-2638LED_0M93C46_0            MINI USB-B_6        MODULE_CAM_PA0505   PH163539            PLAUSB-AF5P-WSMT_0  PUSHBUTTON_TSKB-2L_0PowerJACK           R1 0805             R1_0805             RES2X4RESISTOR            RESISTOR_Dup1       RESISTOR_Dup2       RESISTOR_V          RJ45_8PGR_Generic           S9013SMD_Dup2       SD_MMC_CARD2_0      TP_5                TestPoint_3TitleBlock_Gongjun  USBPORT2            USB_WIFI_0          XC6204VZ_3          LDO 3.3V 300mA( SOT-25 )rRClamp0524P

    标签: a20 cadence pads

    上传时间: 2021-11-08

    上传用户:

  • LLC 电路基本原理分析及公式推导.pdf

    • LLC series-resonant Half-bridge: operationand significant waveforms• Simplified model (FHA approach)• 300W design example

    标签: llc 电路原理

    上传时间: 2021-11-22

    上传用户:

  • STM32F7数据手册.pdf

    This programming manual provides information for application and system-level softwaredevelopers. It gives a full description of the STM32F3 and STM32F4 Series Cortex®-M4processor programming model, instruction set and core peripherals.

    标签: stm32f7

    上传时间: 2021-12-02

    上传用户:

  • 矩阵式键盘

    include<reg52.h> #define uint unsigned int #define uchar unsigned char uint temp,aa,wang,qian,bai,shi,ge; sbit dula=P2^6; sbit wela=P2^7; uchar code table[]={ 0x3f,0x06,0x5b,0x4f, 0x66,0x6d,0x7d,0x07, 0x7f,0x6f,0x77,0x7c, 0x39,0x5e,0x79,0x71}; void display( uint wang,uint qian,uint bai,uint shi,uint ge); void delay(uint z); void init(); void main() { init();//初始化子程序 while(1) { if(aa==20)   { aa=0; temp++; if(temp==99999)    { temp=0;    } wang=temp/10000; qian=(temp-wang*10000)/1000; bai=(temp-wang*10000-qian*1000)/100; shi=(temp-wang*10000-qian*1000-bai*100)/10; ge=temp%10;   } display(wang,qian, bai,shi,ge); } }   void delay(uint z) { uint x,y; for(x=z;x>0;x--) for(y=110;y>0;y--); }   void display(uint wang,uint qian,uint bai,uint shi,uint ge) {         dula=1; P0=table[wang]; dula=0; P0=0xff; wela=1; P0=0xfe; wela=0; delay(1);   dula=1; P0=table[qian]; dula=0; P0=0xff; wela=1; P0=0xfd; wela=0; delay(1);           dula=1; P0=table[bai]; dula=0; P0=0xff; wela=1; P0=0xfb; wela=0; delay(1);   dula=1; P0=table[shi]; dula=0; P0=0xff; wela=1; P0=0xf7; wela=0; delay(1);   dula=1; P0=table[ge]; dula=0; P0=0xff; wela=1; P0=0xef; wela=0; delay(1); }   void init() { wela=0; dula=0; temp=0; TMOD=0x01; TH0=(65536-50000)/256; TL0=(65536-50000)%256; EA=1; ET0=1; TR0=1; }   void timer0() interrupt 1 { TH0=(65536-50000)/256; TL0=(65536-50000)%256; aa++; } include<reg52.h> #define uint unsigned int #define uchar unsigned char uint temp,aa,wang,qian,bai,shi,ge; sbit dula=P2^6; sbit wela=P2^7; uchar code table[]={ 0x3f,0x06,0x5b,0x4f, 0x66,0x6d,0x7d,0x07, 0x7f,0x6f,0x77,0x7c, 0x39,0x5e,0x79,0x71}; void display( uint wang,uint qian,uint bai,uint shi,uint ge); void delay(uint z); void init(); void main() { init();//初始化子程序 while(1) { if(aa==20)   { aa=0; temp++; if(temp==99999)    { temp=0;    } wang=temp/10000; qian=(temp-wang*10000)/1000; bai=(temp-wang*10000-qian*1000)/100; shi=(temp-wang*10000-qian*1000-bai*100)/10; ge=temp%10;   } display(wang,qian, bai,shi,ge); } }   void delay(uint z) { uint x,y; for(x=z;x>0;x--) for(y=110;y>0;y--); }   void display(uint wang,uint qian,uint bai,uint shi,uint ge) {         dula=1; P0=table[wang]; dula=0; P0=0xff; wela=1; P0=0xfe; wela=0; delay(1);   dula=1; P0=table[qian]; dula=0; P0=0xff; wela=1; P0=0xfd; wela=0; delay(1);           dula=1; P0=table[bai]; dula=0; P0=0xff; wela=1; P0=0xfb; wela=0; delay(1);   dula=1; P0=table[shi]; dula=0; P0=0xff; wela=1; P0=0xf7; wela=0; delay(1);   dula=1; P0=table[ge]; dula=0; P0=0xff; wela=1; P0=0xef; wela=0; delay(1); }   void init() { wela=0; dula=0; temp=0; TMOD=0x01; TH0=(65536-50000)/256; TL0=(65536-50000)%256; EA=1; ET0=1; TR0=1; }   void timer0() interrupt 1 { TH0=(65536-50000)/256; TL0=(65536-50000)%256; aa++; } include<reg52.h> #define uint unsigned int #define uchar unsigned char uint temp,aa,wang,qian,bai,shi,ge; sbit dula=P2^6; sbit wela=P2^7; uchar code table[]={ 0x3f,0x06,0x5b,0x4f, 0x66,0x6d,0x7d,0x07, 0x7f,0x6f,0x77,0x7c, 0x39,0x5e,0x79,0x71}; void display( uint wang,uint qian,uint bai,uint shi,uint ge); void delay(uint z); void init(); void main() { init();//初始化子程序 while(1) { if(aa==20)   { aa=0; temp++; if(temp==99999)    { temp=0;    } wang=temp/10000; qian=(temp-wang*10000)/1000; bai=(temp-wang*10000-qian*1000)/100; shi=(temp-wang*10000-qian*1000-bai*100)/10; ge=temp%10;   } display(wang,qian, bai,shi,ge); } }   void delay(uint z) { uint x,y; for(x=z;x>0;x--) for(y=110;y>0;y--); }   void display(uint wang,uint qian,uint bai,uint shi,uint ge) {         dula=1; P0=table[wang]; dula=0; P0=0xff; wela=1; P0=0xfe; wela=0; delay(1);   dula=1; P0=table[qian]; dula=0; P0=0xff; wela=1; P0=0xfd; wela=0; delay(1);           dula=1; P0=table[bai]; dula=0; P0=0xff; wela=1; P0=0xfb; wela=0; delay(1);   dula=1; P0=table[shi]; dula=0; P0=0xff; wela=1; P0=0xf7; wela=0; delay(1);   dula=1; P0=table[ge]; dula=0; P0=0xff; wela=1; P0=0xef; wela=0; delay(1); }   void init() { wela=0; dula=0; temp=0; TMOD=0x01; TH0=(65536-50000)/256; TL0=(65536-50000)%256; EA=1; ET0=1; TR0=1; }   void timer0() interrupt 1 { TH0=(65536-50000)/256; TL0=(65536-50000)%256; aa++; }

    标签: 矩阵式键盘

    上传时间: 2021-12-18

    上传用户:2590813506

  • EL357N(C)(光耦 资料

    EL357N(C)光耦 资料The EL357N-G series contains an infrared emitting diode, optically coupled to a phototransistor detector. The devices in a 4-pin small outline SMD package

    标签: 光耦

    上传时间: 2022-01-13

    上传用户:

  • 台湾固纬GW GPC-6030D可调电源

    GPC 系列直流电源供应器是一部携带式可调整的多功能仪器,特别设计应用在电源操作的放大器,逻辑线路,正负电压误差非常小的精密仪器系统的追踪上,或需要用到三组独立电源的单体线路上,可称得上是一部非常实用又方便的仪器。GPC 系列主要由两组相同、独立、可调整的直流电源供应器组成,从前面板的 TRACKING 选择开关可选择三种模式:独立输出、串联输出和并联输出。在独立模式(INDEP)状态时,二组主控(MASTER)、副控(SLAVE)输出电压、电流为独立分离输出,而其输出端子到机壳或主控(MASTER)输出端子到副控(SLAVE)输出端子的隔离度(ISOLATED)有 300V。当在追踪模式(TRACKING)状态时,主控输出端与副控输出端会自动的连接成串联模式(SERIES)或并联模式(PARALLEL),不需另外从输出端接任何导线;在串联模式时,调整主控输出电压(+)即有等量的副控电压(-)输出;并联模式时,调整主控输出电流,则主控输出端即有二倍的电流量输出。

    标签: 电源

    上传时间: 2022-02-08

    上传用户:

  • PW4556_2.0.pdf规格书下载

    The PW4556 series of devices are highly integrated Li-Ion and Li-Pol linear chargers targetedat small capacity battery for portable applications. It is a complete constant-current/ constantvoltage linear charger. No external sense resistor is needed, and no blocking diode is required dueto the internal MOSFET architecture. It can deliver up to 300mA of charge current (using a goodthermal PCB layout) with a final float voltage accuracy of ±1%. The charge voltage is fixed at 4.2V or4.35V, and the charge current can be programmed externally with a single resistor. The chargerfunction has high accuracy current and voltage regulation loops and charge termination

    标签: pw4556

    上传时间: 2022-02-11

    上传用户:1208020161

  • PW3130_2.0.pdf规格书下载

    The PW3130 series product is a high integration solution for lithium-lion/polymer batteryprotection.PW3130 contains advanced power MOSFET, high-accuracy voltage detection circuits anddelay circuits. PW3130 is put into an ultra-small SOT23-5 package and only one external componentmakes it an ideal solution in limited space of battery pack. PW3130 has all the protection functionsrequired in the battery application including overcharging, overdischarging, overcurrent and loadshort circuiting protection etc. The accurate overcharging detection voltage ensures safe and fullutilization charging.The low standby current drains little current from the cell while in storage. Thedevice is not only targeted for digital cellular phones, but also for any other Li-Ion and Li-Polybattery-powered information appliances requiring long-term battery life

    标签: pw3130

    上传时间: 2022-02-11

    上传用户:fliang

  • 瑞萨单片机(RENESAS MCU)-RL78F13 F14 series 用户手册

    瑞萨16位 MCU RL78 F13/F14 家族系列产品 用户手册,说明各型号引脚功能,处理器功能,内部功能模块结构,电气特性等,辅助用户硬件设计和软件开发

    标签: Renesas RL78F13 RL78F14 单片机

    上传时间: 2022-02-14

    上传用户:

虫虫下载站版权所有 京ICP备2021023401号-1