搜索资源列表
AD9833
- DDS芯片AD9833的使用,利用单片机AVR进行了开发,能够产生可调频率的正弦波,方波,三角波-IN the base of AVR MCU ,using the DDS chip AD9833.This program can produce sin ,tri ,and square.
sinewave
- 用avr单片机写的,控制DAC7611输出正弦波,DDS,受单片机速度限制,只能输出频率较低的波形-Written by avr microcontroller to control the DAC7611 output sine wave, DDS, by the microcontroller speed limit, only the lower the output frequency waveform
FM1.0
- AVR mega16自身的AD采样,利用AD9851输出频率 实现FM调频-FM with AD9851
ATmega128_AD9850_LCD12864_KEYBOARD
- 使用AVR Atmega128 驱动AD9850实现正弦波输出,带LCD12864 与 4X4键盘驱动,通过按键可改变输出频率-Using the AVR Atmega128 driver AD9850 to achieve sine wave output, with LCD12864 with 4X4 keyboard-driven, through the buttons can change the output frequency
pwmfangzhenchengxu
- 本设计采用基于AVR内核的MEGA8单片机,该单片机集成了相当丰富的片上资源,其中就包含有三路独立的PWM输出,在8MHz的晶振频率下,最高可以输出31.25KHz的8位分辨率脉宽,设计中主要是利用MEGA8的PWM输出功能来完成三路PWM波形的输出,其中两路是同步反向输出,频率、脉宽均可调,另外一路单独输出,脉宽可调。-This design based on AVR core MEGA8 microcontroller, which integrates a rich on-chip res
TimerCount1
- AVR重要定时计数器1的15种工作模式,包括普通,CTC,快速PWM,相位和频率可调PWM的典型应用-AVR important to counter a 15-time working modes, including normal, CTC, fast PWM, phase and frequency adjustable PWM Typical applications
Xh_88
- 用AVR M8做的频率计,可以检测信号 和发生信号,应经测试通过,也大家共享-To do with the AVR M8 frequency counter, can detect the signal and the signal occurs, should be tested by, but also share
demo_11_3
- 基于T/C1捕捉功能的可变量程频率计的设计与实现 AVR ATmega16单片机设计-Variable based on T/C1 capture range frequency meter Design and Implementation of AVR ATmega16 microcontroller design
AVR-Frequency-Generator
- 用ATMEGA8做的简易频率发生器。采用timer1的比较匹配功能产生方波,数码管显示。Proteus仿真。-Easy to do with ATMEGA8 frequency generator. Timer1 compare match function by generating a square wave, digital display. Proteus simulation.
lvbo12
- 利用AVR单片机设计IIR 低通滤波器,其中截止频率、抽样频率都有说明,运行环境是先用IICAVR建立工程,再将该代码加入进去即可-Use AVR microcontroller IIR low-pass filter, which cut-off frequency, sampling frequency with specifications, running environment is to use IICAVR build project, then the code can join
SPWM
- AVR编译的Atmega16SPWM程序。pwm频率约为25KH,输出正弦波约为50Hz-AVR compiled Atmega16SPWM program. pwm frequency is about 25KH, the output sine wave of about 50Hz
avr
- AVR程序对PB0端口的发光二极管以每200MS闪动一次。晶振频率为 1M。-AVR procedures PB0 port LEDs flashing once per 200MS. Crystal frequency is 1M.
(AVR)
- 介绍用ATeage16实现的多功能频率计设计,带仿真,对初学者有很大的帮助-Introduced the use of multi-purpose frequency counter to achieve ATeage16 design with simulation, there is a great help for beginners
AVR-2.4-TFT-DRV
- AVR 驱动2.4寸TFT液晶屏, //测试系统 //芯片:ATmega16L //频率:8MHz内频 //电压:3.3V-AVR drive 2.4-inch TFT LCD screen
AVR-ADXL345-GY29
- * 基于AVR单片机GY-29模块通信程序 * * 功 能:IIC通信读取数据并显示 * * 时钟频率:内部1M * * 设 计:广运电子 * * 修改日期:2011年4月20日 * * 编译环境:ICC-AVR7.14 -* Based on AVR microcontroller GY-29 module communication program** function: IIC the communication reads the
AVR_Motoer_PWM
- AVR 使用PWM驱动L298N程序.使用了相位修正PWM。2K的频率。效果比较好
Simple-AVR-frequency-meter
- avr单片机实现频率计算并显示。内容包括程序,原理图和仿真图。-avr Microcontroller frequency is calculated and displayed. Including procedures, schematic and simulation of Fig.
avr-timer0
- 使用iar for avr编译器,定时器0,精确定时1S,使LED灯闪烁,实测频率为0.983HZ -Use iar for avr compiler, use the timer 0, precise timing 1S, the LED light flashes, the measured frequency is 0.983HZ
AVR-Frequence--Detection
- 该源码主要是用于检测电网中电压信号的频率和相位信息,在光伏并网中必须要将信号的频率和相位分别调至50HZ,相位必须同相才能保证能够安全地输入电网,此程序能够跟踪逆变电压的相位频率信息,方便接入-The main source of information for the frequency and phase detection grid voltage signal must be in the photovoltaic grid frequency and phase signals wer
avr-LED
- VAR实现的流水灯程序,流水灯速度可通过更改不同频率晶振实现变速,使用内部晶振也可以。-AVR Process to achieve the water lights, water lights speed by changing different frequency crystal oscillator to realize transmission, using the internal oscillator can also be.