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sst28sf040
- SST28SF040是SST公司推出的高速可编程闪存。它具有512k*8的存储结构 芯片擦除及写入的时间快,可靠性高,能够重复写100,000次,低功耗.以上程序是用c51编写的驱动程序,希望对使用该芯片的同仁有所帮助-SST28SF040 SST is the company's high-speed programmable flash. It has 512k * 8 storage structure chip erase and write the fast, high rel
410-C.ZIP
- msp430是ti公司的16位单片机,具有低功耗的特性,用在控制系统十分理想,是很有前途的单片机新品种,这是mps430-410单片机的调试程序-Controller is the 16-bit microcontroller with a low power consumption characteristics of the control system with a very good, very promising new varieties MCU, which is mps430-4
DM9000AE_DATAS
- DM9000AE的中文手册。很难得得哦。LOCAL BUS芯片现推荐一款DM9000AE网卡芯片,其基本特性是48PIN,10/100MLOCAL-BUS interface,工作模式8/16bit, 有AUTO-Mdix(自动翻转)、TCP/Ip加速(check sum offload)减轻CPU负担,提高整机效能,20ns响应时间。2.5V/3.3V低功耗。广泛应用在IPTV、IPSETBOX、VOD、IPCAMERA、IPVIDEOPHONE等产品.-DM9000AE the Chines
Viterbidecoder
- 维特比解码器低功耗设计verilog编码完整的程序可直接用-Viterbi decoder low power design Verilog coding complete procedures can be used directly
TX-1
- STC单片机是一款性价比非常高的单片机,它完全兼容MSC-51系列单片机,除此之外它自身还有很多功能,如:无法解密、低功耗、高速、高可靠、强抗静电、强抗干扰等。-STC MCU is a highly cost-effective single-chip microcomputer, it is fully compatible with MSC-51 microcontroller series, in addition to its own there are many features,
MSP430__vs__ARM7
- TI的MSP430和ARM7的比较,同样用在低功耗产品,都各有各的特色,做低功耗的DX们不可不看-TI's MSP430 and the ARM7, the same used in low-power products, each have their own characteristics, a low-power DX they can not see
w78e51bcn
- W78E51B 规格书 W78E51B 是宽频率范围、低功耗的8 位微控制器。它的指令集同标准8051 指令集完全兼容。W78E51B 包含4K 字节的Flash EPROM;128 字节的RAM;4 个8 位双向、可位寻址的I/O 口;一个附加的4 位 I/O 口P4;2 个16 位定时/计数器;一个硬件Watchdog 定时器及一个串行口。这些外围设备都由有7 个中断源和2 级中断能力的中断系统支持。为了方便用户进行编程和验证,W78E51B 内含的Flash EPROM
IdleTme_C
- ARM处理器的低功耗程序,可以使用在电池供电的项目中,目标CPU为LPC-ARM processor low-power process can be used in battery-powered projects, the target CPU for LPC
labs
- msp430时钟设置模块,低功耗!高质量!-Controller clock setup module, low-power! Quality!
IICBUS
- AT24C02是美国ATMEL公司的低功耗CMOS串行EEPROM,它是内含256×8位存储空间,具有工作电压宽(2.5~5.5V)、擦写次数多(大于10000次)、写入速度快(小于10ms)等特点。 -ATMEL Corporation of the United States of low-power CMOS serial EEPROM, it is comprised of 256 x 8 storage space, with wide operating voltage (2.5
ATmega128L
- ATmega128L单片机 数据手册 ATmega128L微控制器,它是采用低功耗COMS工艺生产的基于RISC结构的8位微控制器,是目前AVR系列中功能最强大的单片机。AVR核将32个工作寄存器和丰富的指令集联结在一起,所有的工作寄存器都与ALU直接相连,实现了在一个时钟周期内执行单条指令的同时访问两个独立寄存器的操作,具有良好的性价比。-ATmega128L SCM manual data ATmega128L microcontrollers, it is using low-p
AT89S52datasheet
- AT89S52是一种低功耗、高性能CMOS8位微控制器,具有8K 在系统可编程Flash 存储器。使用Atmel 公司高密度非易失性存储器技术制造-AT89S52 is a low-power, high-performance CMOS8 bit microcontroller, 8K with the in-system programmable flash memory. Atmel use high-density non-volatile memory technology
LowpowerconsumptionfeaturesofIEEE802.15.4zigbeeLR-
- 低功耗IEEE802.15.4/Zigbee的个人局域网的标准-IEEE802.15.4/Zigbee low-power personal area network standard
dsp_summery
- DSP开发总结,从成本节约,低功耗,效率等方面比较详细的论述了DSP开发的经验-DSP Development concluded from the cost savings, and low power consumption efficiency so a more detailed exposition of the development of DSP experience
SKRETD(low_power)
- 硕士论文,viterbi译码器的低功耗设计,最后附带源码,VHDL-master's thesis, Viterbi Decoder low-power design, the final collateral source, VHDL
Clock V4.0
- 一款锂电池供电简易时钟,含锂电池充电电路,数码管驱动电路。采用STM8单片机,功耗4ma。(A simple lithium battery powered clock, including lithium battery charging circuit, digital tube drive circuit. Using STM8 microcontroller, power consumption 4ma.)
18.基于2.4GHz的数字基带系统设计与实现.pdf
- 数字基带接收子系统包含下变频、低通滤波、微分解调、包检测、帧同步和帧解析六个模块。(The reception subsystem included down-conversion, low-pass filtering, differential demodulation, packet detection, frame synchronization and frame analysis.)
SKY1311t_STM8ReaderDemoCode_V1.1.2
- 超低功耗的RFID芯片,待机功耗能做到2uA,完美实现唤醒(Ultra-low power consumption RFID chip, standby power consumption can achieve 2uA, perfect realization of awakening)
VK1S68C 兼容替代 AIP1628,价格更低,单价更低
- 产品型号:VK1S68C 产品品牌:VINTEK/元泰/VINKA 封装形式:SSOP24 产品年份:新年份 主营LCD/LED液晶显示驱动IC,工程服务,技术支持,价格更具优势! VK1S68C 是1/5~1/8 占空比的 LED 显示控制驱动电路。由 10 根段输出、4 根栅输出、3 根段/栅输出, 1 个显示存储器、控制电路、键扫描电路组成了一个高可靠性的单片机外圈 LED 驱动电路。串行数据通4 线串行接口输入到 VK1S68C采用 SSOP24L 的封装形式。 功能特点:
CrossLink-NX Customer Presentation v1
- FPGA功耗影响因素:存储器、内部逻辑、时钟、I/O消耗的功耗。(FPGA power consumption factors: memory, internal logic, clock, I/O consumption of power.)