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Bit-error-rate

C8051F020

HIGH SPEED 8051 μC CORE - Pipe-lined Instruction Architecture; Executes 70% of Instructions in 1 or 2 System Clocks - Up to 25MIPS Throughput with 25MHz System Clock - 22 Vectored Interrupt Sources MEMORY - 4352 Bytes Internal Data RAM (256 + 4k) - 64k Bytes In-System Programmable FLASH Program Memory - External Parallel Data Memory Interface – up to 5Mbytes/sec DIGITAL PERIPHERALS - 64 Port I/O; All are 5V tolerant - Hardware SMBusTM (I2CTM Compatible), SPITM, and Two UART Serial Ports Available Concurrently - Programmable 16-bit Counter/Timer Array with 5 Capture/Compare Modules - 5 General Purpose 16-bit Counter/Timers - Dedicated Watch-Dog Timer; Bi-directional Reset CLOCK SOURCES - Internal Programmable Oscillator: 2-to-16MHz - External Oscillator: Crystal, RC, C, or Clock - Real-Time Clock Mode using Timer 3 or PCA SUPPLY VOLTAGE ........................ 2.7V to 3.6V - Typical Operating Current: 10mA @ 25MHz - Multiple Power Saving Sleep and Shutdown Modes 100-Pin TQFP (64-Pin Version Available) Temperature Range: –40°C to +85°C

標(biāo)簽： C8051F020

上傳時(shí)間： 2013-10-12

上傳用戶(hù)：lalalal
MAXX9257 MAX9258芯片可編程SerDes持續(xù)時(shí)間計(jì)算

The MAX9257/MAX9258 programmable serializer/deserializer (SerDes) devices transfer both video data and control signals over the same twisted-pair cable. However, control data can only be transmitted during the vertical blank time, which is indicated by the control-channel-enabled output (CCEN) signal. The electronic control unit (ECU) firmware designer needs to know how quickly to respond to the CCEN signal before it times out and how to calculate this duration. This application note describes how to calculate the duration of the CCEN for the MAX9257/MAX9258 SerDes chipset. The calculation is based on STO timeout, clock frequency, and UART bit timing. The CCEN duration is programmable and can be closed if not in use.

標(biāo)簽： SerDes MAXX 9257 9258

上傳時(shí)間： 2014-01-24

上傳用戶(hù)：xingisme
常用PIC系列單片機(jī)速查表

常用PIC系列產(chǎn)品特性一覽表器件存儲(chǔ)器類(lèi)型字?jǐn)?shù) EEPROM 數(shù)據(jù) 存儲(chǔ)器 RAM I/O 引腳數(shù) ADC （-Bit）比較器運(yùn) 放定時(shí)器/WDT 串行接口最高速度 MHz 封裝 PDIP /SOIC ICSP CCP / ECCP 輸出電流 (per I/O) 振蕩器頻率 (MHz) 參考電壓 VREF LCD PWM 堆棧深度 High Voltage Wakeup On Change PIC16C432 OTP 2048x14 128 12 2 1-8bit/1-WDT 20 20 √ 25 mA 4 0 0 PIC16C433 OTP 2048x14 128 6 4/8 1-8bit/1-WDT 10 18 √ 25 mA 0 0 PIC16C505 OTP 1024x12 72 12 1-8bit/1-WDT 20 14 √ 25 mA 4 0 0 PIC16C54 OTP 512x12 25 12 1-8bit/1-WDT 20 18/20 20 mA 0 0 PIC16C54A OTP 512x12 25 12 1-8bit/1-WDT 20 18/20 20 mA 0 0 PIC16C54C OTP 512x12 25 12 1-8bit/1-WDT 40 18/20 20 mA 0 0 PIC16C55 OTP 512x12 24 20 1-8bit/1-WDT 20 28 20 mA 0 0 PIC16C554 OTP 512x14 80 13 1-8bit/1-WDT 20 18/20 √ 25 mA 0 0 PIC16C558 OTP 2048x14 128 13 1-8bit/1-WDT 20 18/20 √ 25 mA 0 0 PIC16C55A OTP 512x12 24 20 1-8bit/1-WDT 40 28 20 mA 0 0 PIC16C56 OTP 1024x12 25 12 1-8bit/1-WDT 20 18/20 20 mA 0 0 PIC16C56A OTP 1024x12 25 12 1-8bit/1-WDT 40 18/20 20 mA 0 0 PIC16C57 OTP 2048x12 72 20 1-8bit/1-WDT 20 28 20 mA 0 0 PIC16C57C OTP 2048x12 72 20 1-8bit/1-WDT 40 28 20 mA 0 0 PIC16C58B OTP 2048x12 73 12 1-8bit/1-WDT 40 18/20 20 mA 0 0 PIC16C620 OTP 512x14 80 13 2 1-8bit/1-WDT 20 18/20 √ 25 mA √ 0 0 PIC16C620A OTP 512x14 96 13 2 1-8bit/1-WDT 40 18/20 √ 25 mA √ 0 0 PIC16C621 OTP 1024x14 80 13 2 1-8bit/1-WDT 20 18/20 √ 25 mA √ 0 0 PIC16C621A OTP 1024x14 96 13 2 1-8bit/1-WDT 40 18/20 √ 25 mA √ 0 0 PIC16C622 OTP 2048x14 128 13 2 1-8bit/1-WDT 20 18/20 √ 25 mA √ 0 0 PIC16C622A OTP 2048x14 128 13 2 1-8bit/1-WDT 40 18/20/40 √ 25 mA √ 0 0 PIC16C62A OTP 2048x14 128 22 2-8bit/1-16bit/1-WDT I²C/ SPI 20 28/ √ 1 25 mA 1 0 0 PIC16C62B OTP 2048x14 128 22 2-8bit/1-16bit/1-WDT I²C /SPI 20 28 √ 1 25 mA 1 0 0 PIC16C63 OTP 4096x14 192 22 2-8bit/1-16bit/1-WDT USART/I²C /SPI 20 28 √ 2 25 mA 2 0 0 PIC16C63A OTP 4096x14 192 22 2-8bit/1-16bit/1-WDT USART/I²C/SPI 20 28 √ 2 25 mA 2 0 0 PIC16C642 OTP 4096x14 176 22 2 1-8bit/1-WDT 20 28 √ 25 mA √ 0 0 PIC16C64A OTP 2048x14 128 33 2-8bit/1-16bit/1-WDT I²C /SPI 20 40/44 √ 1 25 mA 1 0 0 PIC16C65A OTP 4096x14 192 33 2-8bit/1-16bit/1-WDT USART/I²C/SPI 20 40/44 √ 2 25 mA 2 0 0 PIC16C65B OTP 4096x14 192 33 2-8bit/1-16bit/1-WDT USART/I²C/SPI 20 40/44 √ 2 25 mA 2 0 0 PIC16C66 OTP 8192x14 368 22 2-8bit/1-16bit/1-WDT USART/I²C/SPI 20 28 √ 2 25 mA 2 0 0 PIC16C662 OTP 4096x14 176 33 2 1-8bit/1-WDT 20 40/44 √ 25 mA √ 0 0 PIC16C67 OTP 8192x14 368 33 2-8bit/1-16bit/1-WDT USART/I²C /SPI 20 40/44 √ 2 25 mA 2 0 0 PIC16C71 OTP 1024x14 36 13 4/8 1-8bit/1-WDT 20 18 √ 25 mA 0 0 PIC16C710 OTP 512x14 36 13 4/8 1-8bit/1-WDT 20 18/20 √ 25 mA 0 0 PIC16C711 OTP 1024x14 68 13 4/8 1-8bit/1-WDT 20 18/20 √ 25 mA

標(biāo)簽： PIC 單片機(jī) 速查

上傳時(shí)間： 2013-10-12

上傳用戶(hù)：xjy441694216
基于MAX7219的LED數(shù)碼顯示驅(qū)動(dòng)電路設(shè)計(jì)

　　現(xiàn)有基于MAX7219芯片的數(shù)碼管驅(qū)動(dòng)電路只適用于小尺寸LED，為擴(kuò)展其使用范圍，在介紹動(dòng)態(tài)顯示芯片MAX7219功能的基礎(chǔ)上，提出了一個(gè)基于該芯片的8位高亮度8英寸數(shù)碼管驅(qū)動(dòng)電路。電路保留了MAX7219芯片的功能強(qiáng)大、編程簡(jiǎn)單等優(yōu)點(diǎn)，通過(guò)74LS273鎖存器和ULN2803達(dá)林頓驅(qū)動(dòng)器，實(shí)現(xiàn)了對(duì)任意大尺寸數(shù)碼管提供較高電壓和電流驅(qū)動(dòng)的靜態(tài)顯示，并亮度可調(diào)。　　Abstract: 　　The existing display-driving circuit based on MAX7219 was only applicable to small-size LED. To expand its use, based on the function introduction of dynamic display chip MAX7219, a display-driving circuit for high-brightness 8-bit LED with the size of 8-inch was proposed. The advantages of MAX7219 were retained, such as powerful function and simple programming. Static display with adjustable brightness for large-size LED with higher voltage and current was achieved with the help of 74LS273 and ULN2803.

標(biāo)簽： 7219 MAX LED 數(shù)碼顯示

上傳時(shí)間： 2013-10-23

上傳用戶(hù)：31633073
基于PIC16C71的數(shù)字水溫配制閥的設(shè)計(jì)

　　設(shè)計(jì)了一種基于PIC16C71單片機(jī)的數(shù)字水溫配制閥。該配制閥采用NTC熱敏電阻作溫度傳感器，與固定電阻組成簡(jiǎn)單分壓電路作為水溫測(cè)量電路，利用PIC16C71單片機(jī)內(nèi)置的8位A/D轉(zhuǎn)換器把熱敏電阻上的模擬電壓轉(zhuǎn)換為數(shù)字量，PIC16C71單片機(jī)控制直流電機(jī)驅(qū)動(dòng)混水閥調(diào)節(jié)冷熱水的混合比例實(shí)現(xiàn)水溫調(diào)節(jié)。給出了控制電路圖，對(duì)水溫測(cè)量電路的參數(shù)選擇和測(cè)溫精度作了詳細(xì)討論。實(shí)驗(yàn)和分析表明，選用阻值較大的NTC熱敏電阻和分壓電阻可較好地解決熱敏電阻因功耗較大造成的熱擊穿問(wèn)題。　　Abstract: 　　A digital valve for controlling water temperature based on PIC16C71 was presented in this paper.A bleeder circuit which consisted of a NTC thermistor as temperature sensor and a fixed resistance was designed as water temperature measuring circuit.The analog voltage on the thermistor was converted into digital signal by a 8-bit A/D converter embedded in PIC16C71. Based on the digital signal， the MCU PIC16C71 drived the valve by a DC motor to adjust the water temperature through adjusting the proportion of hot water and cold water.The circuit diagram of controller was given，the principle，the component parameters and the accuracy of measuring temperatures were also dissertated in detail. It was found by experiment and analysis that thermal breakdown of thermistor caused by high power could be solved by selecting thermistor and fixed resistance with high impedance value.

標(biāo)簽： PIC 16C C71 16

上傳時(shí)間： 2013-11-08

上傳用戶(hù)：Yue Zhong
AVR常用庫(kù)函數(shù)介紹

目錄： 1. Character Type Functions －字符類(lèi)型函數(shù) 2. Standard C Input/Output Functions －標(biāo)準(zhǔn)輸入輸出函數(shù) 3. Standard Library Functions －標(biāo)準(zhǔn)庫(kù)和內(nèi)存分配函數(shù) 4. Mathematical Functions －數(shù)學(xué)函數(shù) 5. String Functions －字符串函數(shù) 6. BCD Conversion Functions － BCD 轉(zhuǎn)換函數(shù) 7. Memory Access Functions －存儲(chǔ)器訪問(wèn)函數(shù) 8. Delay Functions －延時(shí)函數(shù) 9. LCD Functions － LCD函數(shù) 10. LCD Functions for displays with 4x40 characters － 4×40 字符型LCD函數(shù) 11. LCD Functions for displays connected in 8 bit memory mapped mode －以8 位外部存儲(chǔ) 器模式接口的LCD顯示函數(shù) 12. I2C Bus Functions － I2C 總線(xiàn)函數(shù) 13. National Semiconductor LM75 Temperature Sensor Functions － LM75 溫度傳感器函數(shù) 14. Dallas Semiconductor DS1621 Thermometer/Thermostat Functions － DS1621 溫度計(jì)函數(shù) 15. Philips PCF8563 Real Time Clock Functions － PCF8563 實(shí)時(shí)時(shí)鐘函數(shù) 16. Philips PCF8583 Real Time Clock Functions － PCF8583 實(shí)時(shí)時(shí)鐘函數(shù) 17. Dallas Semiconductor DS1302 Real Time Clock Functions － DS1302 實(shí)時(shí)時(shí)鐘函數(shù) 18. Dallas Semiconductor DS1307 Real Time Clock Functions － DS1307 實(shí)時(shí)時(shí)鐘函數(shù) 19. 1 Wire Protocol Functions －單線(xiàn)通訊協(xié)議函數(shù) 20. Dallas Semiconductor DS1820/DS1822 Temperature Sensors Functions － DS1820/1822 溫度傳感器函數(shù) 21. SPI Functions － SPI 函數(shù) 22. Power Management Functions －電源管理函數(shù) 23. Gray Code Conversion Functions －格雷碼轉(zhuǎn)換函數(shù)

標(biāo)簽： AVR 庫(kù)函數(shù)

上傳時(shí)間： 2013-10-22

上傳用戶(hù)：歸海惜雪
基于C8051F020和Zigbee的汽車(chē)測(cè)試系統(tǒng)設(shè)計(jì)

以C8051F020為核心處理器，設(shè)計(jì)無(wú)線(xiàn)傳感器網(wǎng)絡(luò)數(shù)據(jù)采集系統(tǒng)。系統(tǒng)采用SZ05-ADV型無(wú)線(xiàn)通訊模塊組建Zigbee無(wú)線(xiàn)網(wǎng)絡(luò)，結(jié)合嵌入式系統(tǒng)的軟硬件技術(shù)，完成終端節(jié)點(diǎn)的8路傳感器信號(hào)的數(shù)據(jù)采集?，F(xiàn)場(chǎng)8路信號(hào)通過(guò)前端處理后，分別送入C8051F020的12位A/D轉(zhuǎn)換器進(jìn)行轉(zhuǎn)換。經(jīng)過(guò)精確處理、存儲(chǔ)后的現(xiàn)場(chǎng)數(shù)據(jù)，通過(guò)Zigbee無(wú)線(xiàn)網(wǎng)絡(luò)傳送到上位機(jī)，系統(tǒng)可達(dá)到汽車(chē)試驗(yàn)中無(wú)線(xiàn)測(cè)試的目的。 Abstract: This paper designs a wireless sensor network system for data acquisition with C8051F020 as core processors.The system used SZ05-ADV wireless communication module，set up a Zigbee wireless network， combined with hardware and software technologies of embedded systems，completed the end-node 8-locale sensor signal data acquisition.Eight locale signals were sent separately into the 12-bit ADC of C8051F020 for conversion through front treatment.After accurate processing and storage，the locale data was transmitted to the host computer through Zigbee wireless.The system achieves the purpose of wireless testing in vehicle trial.

標(biāo)簽： C8051F020 Zigbee 汽車(chē)測(cè)試系統(tǒng)設(shè)計(jì)

上傳時(shí)間： 2013-11-23

上傳用戶(hù)：dsgkjgkjg
基于PIC16LF874單片機(jī)的電容測(cè)量模塊

為提高電容測(cè)量精度，針對(duì)電容式傳感器的工作原理設(shè)計(jì)了基于PIC16LF874單片機(jī)電容測(cè)量模塊。簡(jiǎn)單闡述了電容測(cè)量電路的應(yīng)用背景和國(guó)內(nèi)外研究現(xiàn)狀，介紹了美國(guó)Microchip公司PIC16LF874單片機(jī)的特性。電容式傳感器輸出的動(dòng)態(tài)微弱電容信號(hào)通過(guò)PS021型電容數(shù)字轉(zhuǎn)換器把模擬量數(shù)據(jù)轉(zhuǎn)換成數(shù)字量數(shù)據(jù)，所測(cè)數(shù)據(jù)由PIC16LF874單片機(jī)應(yīng)用程序進(jìn)行處理、顯示和保存。實(shí)驗(yàn)結(jié)果表明，固定電容標(biāo)稱(chēng)值為10~20 pF 的測(cè)量值相對(duì)誤差在1%以?xún)?nèi)，同時(shí)也可知被測(cè)電容容值越大，測(cè)量值和標(biāo)稱(chēng)值相對(duì)誤差越小。 Abstract: To improve the accuracy of capacitance measurement，aimed at the principle of work of mercury capacitance acceleration transducer，the design of micro capacitance measurement circuit is based on the key PIC16LF874 chip. Briefly discusses the application of the capacitance measuring circuit for the background and status of foreign researchers，focusing on the United States PIC16LF874 microcontroller features. Capacitive sensor outputed signal through the dynamics of weak PS021-chip capacitors （capacitancedigital converter） to convert analog data into digital data，the measured data from the PIC16LF874 microcontroller application process， display and preservation. Experimental results show that the fixed capacitor 10pF ~ 20pF nominal value of the measured value of relative error is within 1%，but also it canbe seen the value of the measured capacitance larger，measuring value and the nominal value of relative error smaller.

標(biāo)簽： PIC 874 16 LF

上傳時(shí)間： 2013-10-29

上傳用戶(hù)：wojiaohs
基于ATmega8的雙軸太陽(yáng)跟蹤器設(shè)計(jì)

為提高太陽(yáng)能的利用率，以ATmega8單片機(jī)為控制核心，設(shè)計(jì)了一套光電跟蹤與視日運(yùn)動(dòng)軌跡跟蹤互補(bǔ)控制的雙軸太陽(yáng)跟蹤器。該跟蹤器在晴天時(shí)，利用光敏電阻采集光強(qiáng)判斷太陽(yáng)位置,控制步進(jìn)電機(jī)實(shí)現(xiàn)光電跟蹤；在陰天時(shí)，采集時(shí)鐘器件PCF8583的時(shí)間信息,計(jì)算當(dāng)前太陽(yáng)位置來(lái)實(shí)現(xiàn)視日運(yùn)動(dòng)軌跡跟蹤。實(shí)驗(yàn)表明：該太陽(yáng)跟蹤器能在不同天氣狀況下對(duì)太陽(yáng)進(jìn)行較準(zhǔn)確地跟蹤，能量接收效率提高了30%，達(dá)到充分利用太陽(yáng)能的目的。 Abstract: To improve the utilization rate of solar energy，a kind of solar tracking controller which effectively combined the sun angle tracking and photo electric tracking based on ATmega8is designed.In the sunny days，the solar tracking con-troller determines the sun's position by using photosensitive resistances to collect light intensity and control stepper motors to achieve photo electric tracking，n cloudy days，it collects clock chip PCF8583time information to calculate the current position of the sun and achieve the sun angle tracking.Experimental results show the solar tracking controller accurately tracks the sun in different weather conditions，improves received energy efficiency by30%and reaches the purpose of full use of solar energy.

標(biāo)簽： ATmega8 跟蹤器

上傳時(shí)間： 2013-10-15

上傳用戶(hù)：urgdil
基于AVR的新型防汽車(chē)追尾安全裝置設(shè)計(jì)

針對(duì)目前汽車(chē)追尾事件頻發(fā)問(wèn)題，提出一種防汽車(chē)車(chē)前和車(chē)后追尾的安全裝置設(shè)計(jì)。該設(shè)計(jì)以高性能、低功耗的8位AVR微處理器ATmega8L為核心，結(jié)合霍爾式車(chē)速傳感器、激光雷達(dá)測(cè)距裝置和MMA7260QT加速度傳感器，能夠兼顧車(chē)前和車(chē)后，摒棄以往設(shè)計(jì)中只考慮車(chē)前或車(chē)后單一性缺點(diǎn)，尤其適用于高速、夜晚或新手行車(chē)。 Abstract: Aiming at the high frequency of vehicle rear-end collision，a safe device design of anti-vehicle rear-end collision is presented.In the design，the high-performance，low-power8-bit AVR microprocessor ATmega8L is utilized as a core combined with Hall-type speed sensor，laser-radar ranging devices and the acceleration sensor MMA7260QT.The design considers both the front and back of a car，and overcomes the drawbacks of former designs in which only the front or the back of the car is considered，so it is especially suitable for high-speed，night or the beginner’s driving.

標(biāo)簽： AVR 汽車(chē)追尾裝置

上傳時(shí)間： 2013-10-14

上傳用戶(hù)：GavinNeko

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