搜索资源列表
convert_assembak_ISA20060613
- DSP2812编写的模拟退火算法改进程序,对退火过程和采样过程进行了修改-DSP2812 prepared by the simulated annealing algorithm to improve procedures for the annealing process and the sampling process of revision
Batterycharger
- 高功率充电机控制程序设计。将输入指令和反馈进行比较,然后进行PI运算,再乘上单位的正弦值就变成输入电流需要跟踪的对象,然后将输入电流采样后和它进行滞回比较,比较后就可以给出开关管的开关信号了-high-power charger design control procedures. Importation of instructions and feedback, then PI operation, multiplied by the flat on the value becomes sin
prac4
- IIR型3阶切比雪夫1型高通滤波器的采样频率(Fs)为1200Hz,截至频率为200Hz-IIR-three bands a Chebyshev high-pass filter sampling frequency (Fs) 1200Hz. As the frequency of 200 Hz
TLC549
- TLC549的初始化,TLC548/549片型小,采样速度快,功耗低,价格便宜,控制简单。适用于低功耗的袖珍仪器上的单路A/D或多路并联采样。-TLC549 initialization, TLC548/549 film-type small, the sampling speed, low power consumption, cheap, simple control. For low-power single compact instrument on the A/D or multipl
AD7841
- 汇编实现ADS7841的采样和转换。ADS7841可12位转换或8位转换。采样速度达3.2Mhz-Compilation to achieve ADS7841 sampling and conversion. ADS7841 to 8-bit 12-bit conversion or transformation. Sampling speed of 3.2Mhz
0415
- 双座充电器程序,IC是sonix的。 5路的AD采样和PWM控制输出。-Two-seater charger program, IC is the sonix' s. 5 Road AD sampling and PWM control outputs.
ACCE
- selects the mux channel and configures the MAX197 for second write pulse, written with ACQMOD = 0, termi- either unipolar or bipolar input range. A write pulse (WR nates acquisition and starts conversion on WR°Os risin + CS) can either start
ASM-TEST
- selects the mux channel and configures the MAX197 for second write pulse, written with ACQMOD = 0, termi- either unipolar or bipolar input range. A write pulse (WR nates acquisition and starts conversion on WR°Os risin + CS) can either start
ADC08090
- selects the mux channel and configures the MAX197 for second write pulse, written with ACQMOD = 0, termi- either unipolar or bipolar input range. A write pulse (WR nates acquisition and starts conversion on WR°Os risin is restarted. The ACQ
ADS7864
- 12位500KHz六通道同时采样的A/D转换器ADS7864及应用-12 500KHz of six-channel simultaneous sampling A/D converter ADS7864 and its application
60stime
- 自己写的秒表采样程序!!!自己写的秒表采样程序-Write your own sampling procedures stopwatch!!! Own stopwatch written sampling procedures
18B20(Cyuyan)
- 基于89C51写的温度测量源码,温度传感器DS18b20采样的温度值用LCD1602显示.-89C51-based source code written in temperature measurement, temperature sensor DS18B20 sampling LCD1602 display with temperature.
18b20shumaguan
- 利用DS18B20温度传感器采样温度,利用数码管动态显示-The use of temperature sensor DS18B20 sampling temperature, the use of digital control of dynamic display
74hc595
- 此汇编程序实现A/D转换功能,应用于pic单片机上,A/D采用中断方式。该程序通过单片机的RA2模拟通道送入一直流电压,当送入的直流电压大于2.5V时,8个LED闪动,当直流电压恢复到2.5V以下时,LED停止闪动。为了防止干扰,本程序对直流电压采样10次后再作判断,中间的采样结 果用间接寻址的方式存取。-Assembler implementation of this A/D conversion function, applied on pic Singlechip, A/D interru
MSP430-ADC-LCD
- 通过MSP430的ADC12 对内部温度传感器进行数据采样,把温度显示到LCD-ADC12 through MSP430430s internal temperature sensor for data sampling, the temperature display to the LCD
chap06
- ex5_1 I-型线性相位FIR滤波器 ex5_2 II-型线性相位FIR滤波器 ex5_3 III-型线性相位FIR滤波器 ex5_4 IV-型线性相位FIR滤波器 ex5_5 矩形窗频响 ex5_6 希尔伯特变换器设计-汉宁窗 ex5_7 低通滤波器设计-汉明窗 ex5_8 带通滤波器设计-布莱克曼窗 ex5_9 低通滤波器设计-凯塞窗 ex5_11 频率采样技术:低通,朴素法 ex5_12 频率采样技术:低通, 最优法T1 & T2 ex5_13
arifile
- 本程序实现算术平均值滤波(采样值为8位,连续采样数目小于256) 入口参数:采样值数据块首地址在SADR中,连续采样数在W中 出口参数:滤波值在SOU中.-Arithmetic mean of the filter program (value of sample 8, the number of consecutive samples is less than 256) import parameters: the first sample value of the data b
mcn_sy4
- (1)通过开关K0合上与断开控制A/D转换的开始和停止,当开始A/D转换后,每秒对连接到PTB3的模拟量采样一次,结果送指示灯D7~D0显示。 (2)采样结果同步通过串行接口发送到PC机(38400bps,N,8,1),显示格式为“The signal is:x.xV”(满量程为5.0V)。 -(1) through the closed switch and disconnect K0 control A/D conversion start and stop, when to st
plj
- 此为基于单片机的频率计设计。利用汇编语言实现了采样频率,用LED数码管输出频率数值等功能。-This is based on the frequency of single-chip design. The use of assembly language to achieve a sampling frequency, with LED digital tube output frequency numerical functions.
chengxu
- 通过滑动取相关值最后求最大值,找去最佳的样值抽样时刻,完成时间估计。这是一些基础的程序-Through the sliding value of the final order to check the relevant maximum, to the best kind to find the value of sampling time, the estimated completion time. These are the basis of the procedures