DevKit8000評估套件簡介及應用 OMAP3530應用處理器集成600-Mhz ARM Cortex-A8核及430-Mhz TMS320C64x DSP核 板載128MByte DDR SDRAM,32bit 板載128MByte NAND Flash
上傳時間: 2014-12-27
上傳用戶:lliuhhui
LPC1700系列ARM是基于第二代ARM Cortex-M3內核的微控制器,是為嵌入式系統應用而設計的高性能、低功耗的32位微處理器,適用于儀器儀表、工業通訊、電機控制、燈光控制、報警系統等領域。其操作頻率高達100Mhz,采用3級流水線和哈佛結構,帶獨立的本地指令和數據總線以及用于外設的低性能的第三條總線,使得代碼執行速度高達1.25MIPS/Mhz,并包含1個支持隨機跳轉的內部預取指單元。
上傳時間: 2013-11-17
上傳用戶:lbbyxmraon
The PCA9670 provides general purpose remote I/O expansion for most microcontrollerfamilies via the two-line bidirectional bus (I2C-bus) and is a part of the Fast-mode Plusfamily.The PCA9670 is a drop-in upgrade for the PCF8574 providing higher Fast-mode Plus(Fm+) I2C-bus speeds (1 Mhz versus 400 kHz) so that the output can support PWMdimming of LEDs, higher I2C-bus drive (30 mA versus 3 mA) so that many more devicescan be on the bus without the need for bus buffers, higher total package sink capacity(200 mA versus 100 mA) that supports having all 25 mA LEDs on at the same time andmore device addresses (64 versus 8) are available to allow many more devices on the buswithout address conflicts.
上傳時間: 2013-10-15
上傳用戶:stella2015
The PCA9671 provides general purpose remote I/O expansion for most microcontrollerfamilies via the two-line bidirectional bus (I2C-bus) and is a part of the Fast-mode Plus(Fm+) family.The PCA9671 is a drop in upgrade for the PCF8575 providing higher I2C-bus speeds(1 Mhz versus 400 kHz) so that the output can support PWM dimming of LEDs, higherI2C-bus drive (30 mA versus 3 mA) so that many more devices can be on the bus withoutthe need for bus buffers, higher total package sink capacity (400 mA versus 100 mA) thatsupports having all 25 mA LEDs on at the same time and more device addresses (64versus 8) to allow many more devices on the bus without address conflicts.
上傳時間: 2013-10-12
上傳用戶:laomv123
The PCA9672 provides general purpose remote I/O expansion for most microcontrollerfamilies via the two-line bidirectional bus (I2C-bus) and is a part of the Fast-mode Plusfamily.The PCA9672 is a drop-in upgrade for the PCF8574 providing higher Fast-mode Plus(Fm+) I2C-bus speeds (1 Mhz versus 400 kHz) so that the output can support PWMdimming of LEDs, higher I2C-bus drive (30 mA versus 3 mA) so that many more devicescan be on the bus without the need for bus buffers, higher total package sink capacity(200 mA versus 100 mA) that supports having all LEDs on at the same time and moredevice addresses (16 versus 8) are available to allow many more devices on the buswithout address conflicts.
上傳時間: 2013-10-23
上傳用戶:jasonheung
The PCA9673 provides general purpose remote I/O expansion for most microcontrollerfamilies via the two-line bidirectional bus (I2C-bus) and is a part of the Fast-mode Plusfamily.The PCA9673 is a drop in upgrade for the PCF8575 providing higher Fast-mode Plus(Fm+) I2C-bus speeds (1 Mhz versus 400 kHz) so that the output can support PWMdimming of LEDs, higher I2C-bus drive (30 mA versus 3 mA) so that many more devicescan be on the bus without the need for bus buffers, higher total package sink capacity(400 mA versus 100 mA) that supports having all 25 mA LEDs on at the same time andmore device addresses (16 versus 8) are available to allow many more devices on the buswithout address conflicts.
上傳時間: 2013-10-29
上傳用戶:wkchong
The PCA9674/74A is a drop-in upgrade for the PCF8574/74A providing higher Fast-modePlus I2C-bus speeds (1 Mhz versus 400 kHz) so that the output can support PWMdimming of LEDs, higher I2C-bus drive (30 mA versus 3 mA) so that many more devicescan be on the bus without the need for bus buffers, higher total package sink capacity(200 mA versus 100 mA) that supports having all LEDs on at the same time and moredevice addresses (64 versus 8) are available to allow many more devices on the buswithout address conflicts.
上傳時間: 2013-10-22
上傳用戶:wwwwwen5
基于單片機的LED漢字顯示屏設計與制作:在大型商場、車站、碼頭、地鐵站以及各類辦事窗口等越來越多的場所需要用LED點陣顯示圖形和漢字。LED行業已成為一個快速發展的新興產業,市場空間巨大,前景廣闊。隨著信息產業的高速發展,LED顯示作為信息傳播的一種重要手段,已廣泛應用于室內外需要進行服務內容和服務宗旨宣傳的公眾場所,例如戶內外公共場所廣告宣傳、機場車站旅客引導信息、公交車輛報站系統、證券與銀行信息顯示、餐館報價信息豆示、高速公路可變情報板、體育場館比賽轉播、樓宇燈飾、交通信號燈、景觀照明等。顯然,LED顯示已成為城市亮化、現代化和信息化社會的一個重要標志。 本文基于單片機(AT89C51)講述了16×16 LED漢字點陣顯示的基本原理、硬件組成與設計、程序編譯與下載等基本環節和相關技術。2 硬件電路組成及工作原理本產品擬采用以AT89C51單片機為核心芯片的電路來實現,主要由AT89C51芯片、時鐘電路、復位電路、列掃描驅動電路(74HC154)、16×16 LED點陣5部分組成,如圖1所示。 其中,AT89C51是一種帶4 kB閃爍可編程可擦除只讀存儲器(Falsh Programmable and Erasable Read OnlyMemory,FPEROM)的低電壓、高性能CMOS型8位微處理器,俗稱單片機。該器件采用ATMEL高密度非易失存儲器制造技術制造,與工業標準的MCS-51指令集和輸出管腳相兼容。由于將多功能8位CPU和閃爍存儲器組合在單個芯片中,能夠進行1 000次寫/擦循環,數據保留時間為10年。他是一種高效微控制器,為很多嵌入式控制系統提供了一種靈活性高且價廉的方案。因此,在智能化電子設計與制作過程中經常用到AT89C51芯片。時鐘電路由AT89C51的18,19腳的時鐘端(XTALl及XTAL2)以及12 Mhz晶振X1、電容C2,C3組成,采用片內振蕩方式。復位電路采用簡易的上電復位電路,主要由電阻R1,R2,電容C1,開關K1組成,分別接至AT89C51的RST復位輸入端。LED點陣顯示屏采用16×16共256個象素的點陣,通過萬用表檢測發光二極管的方法測試判斷出該點陣的引腳分布,如圖2所示。 我們把行列總線接在單片機的IO口,然后把上面分析到的掃描代碼送人總線,就可以得到顯示的漢字了。但是若將LED點陣的行列端口全部直接接入89S51單片機,則需要使用32條IO口,這樣會造成IO資源的耗盡,系統也再無擴充的余地。因此,我們在實際應用中只是將LED點陣的16條行線直接接在P0口和P2口,至于列選掃描信號則是由4-16線譯碼器74HC154來選擇控制,這樣一來列選控制只使用了單片機的4個IO口,節約了很多IO資源,為單片機系統擴充使用功能提供了條件。考慮到P0口必需設置上拉電阻,我們采用4.7 kΩ排電阻作為上拉電阻。
上傳時間: 2013-10-16
上傳用戶:ywcftc277
家電制造業的競爭日益激烈,市場調整壓力越來越大,原始設備制造商們(OEM)為了面對這一挑戰,必須在滿足電磁兼容性的條件下,不斷降低產品的成本。由于強調成本控制,為防止由電源和信號線的瞬變所產生的電器故障而實施必要的瞬態免疫保護,對于家電設計者來說變得更具挑戰性。由于傳統的電源設計和電磁干擾(EMI)控制措施為節約成本讓路,家電設計者必須開發出新的技術來滿足不斷調整的電磁兼容(EMC)需求。本應用筆記探討了瞬態電氣干擾對嵌入式微控制器(MCU)的影響,并提供了切實可行的硬件和軟件設計技術,這些技術可以為電快速瞬變(EFT)、靜電放電(ESD)以及其它電源線或信號線的短時瞬變提供低成本的保護措施。雖然這種探討是主要針對家電制造商,但是也適用于消費電子、工業以及汽車電子方面的應用。 低成本的基于MCU 的嵌入式應用特別容易受到ESD 和EFT 影響降低性能。即使是運行在較低時鐘頻率下的微控制器,通常對快速上升時間瞬變也很敏感。這種敏感性歸咎于所使用的工藝技術。如今針對低成本8/16位的MCU的半導體工藝技術所實現的晶體管柵極長度在0.65 μm~0.25 μm范圍內。此范圍內的柵極長度能產生和響應上升時間在次納秒范圍內(或超過300 Mhz 的等同帶寬)的信號。因此, MCU 能夠響應進入其引腳的ESD 或EFT 信號。除上述工藝技術之外, MCU 在ESD 或EFT 事件中的性能還會受到IC 設計及其封裝、印刷電路板(PCB)的設計、MCU 上運行的軟件、系統設計以及ESD 或EFT 波形特征的影響。各因素的相對影響(強調對最大影響的貢獻)如圖1 所示。
上傳時間: 2013-11-09
上傳用戶:Jerry_Chow
The C500 microcontroller family usually provides only one on-chip synchronous serialchannel (SSC). If a second SSC is required, an emulation of the missing interface mayhelp to avoid an external hardware solution with additional electronic components.The solution presented in this paper and in the attached source files emulates the mostimportant SSC functions by using optimized SW routines with a performance up to 25KBaud in Slave Mode with half duplex transmission and an overhead less than 60% atSAB C513 with 12 Mhz. Due to the implementation in C this performance is not the limitof the chip. A pure implementation in assembler will result in a strong reduction of theCPU load and therefore increase the maximum speed of the interface. In addition,microcontrollers like the SAB C505 will speed up the interface by a factor of two becauseof an optimized architecture compared with the SAB C513.Moreover, this solution lays stress on using as few on-chip hardware resources aspossible. A more excessive consumption of those resources will result in a highermaximum speed of the emulated interface.Due to the restricted performance of an 8 bit microcontroller a pin compatible solution isprovided only; the internal register based programming interface is replaced by a set ofsubroutine calls.The attached source files also contain a test shell, which demonstrates how to exchangeinformation between an on-chip HW-SSC and the emulated SW-SSC via 5 external wiresin different operation modes. It is based on the SAB C513 (Siemens 8 bit microcontroller).A table with load measurements is presented to give an indication for the fraction of CPUperformance required by software for emulating the SSC.
標簽: synchronous Emulating serial
上傳時間: 2014-01-31
上傳用戶:z1191176801
