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PIC16C74T-10/L PDF预览

PIC16C74T-10/L

更新时间: 2024-11-29 15:47:55
品牌 Logo 应用领域
美国微芯 - MICROCHIP 时钟微控制器外围集成电路
页数 文件大小 规格书
34页 183K
描述
8-BIT, MROM, 10 MHz, RISC MICROCONTROLLER, PQCC44, PLASTIC, LCC-44

PIC16C74T-10/L 技术参数

生命周期:Obsolete零件包装代码:LCC
包装说明:QCCJ, LDCC44,.7SQ针数:44
Reach Compliance Code:unknownHTS代码:8542.31.00.01
风险等级:5.25具有ADC:YES
地址总线宽度:位大小:8
CPU系列:PIC最大时钟频率:10 MHz
DAC 通道:NODMA 通道:NO
外部数据总线宽度:JESD-30 代码:S-PQCC-J44
长度:16.5862 mmI/O 线路数量:33
端子数量:44最高工作温度:70 °C
最低工作温度:PWM 通道:YES
封装主体材料:PLASTIC/EPOXY封装代码:QCCJ
封装等效代码:LDCC44,.7SQ封装形状:SQUARE
封装形式:CHIP CARRIER电源:5 V
认证状态:Not QualifiedRAM(字节):192
ROM(单词):4096ROM可编程性:MROM
座面最大高度:4.572 mm速度:10 MHz
子类别:Microcontrollers最大压摆率:5 mA
最大供电电压:5.5 V最小供电电压:4.5 V
标称供电电压:5 V表面贴装:YES
技术:CMOS温度等级:COMMERCIAL
端子形式:J BEND端子节距:1.27 mm
端子位置:QUAD宽度:16.5862 mm
uPs/uCs/外围集成电路类型:MICROCONTROLLER, RISCBase Number Matches:1

PIC16C74T-10/L 数据手册

 浏览型号PIC16C74T-10/L的Datasheet PDF文件第2页浏览型号PIC16C74T-10/L的Datasheet PDF文件第3页浏览型号PIC16C74T-10/L的Datasheet PDF文件第4页浏览型号PIC16C74T-10/L的Datasheet PDF文件第5页浏览型号PIC16C74T-10/L的Datasheet PDF文件第6页浏览型号PIC16C74T-10/L的Datasheet PDF文件第7页 
AN616  
Digital Signal Processing with the PIC16C74  
The input signal, x(t), is first passed through an input  
filter (commonly called the anti-aliasing filter) whose  
function is to bandlimit the signal to below the Nyquist  
rate (one half the sampling frequency) to prevent  
aliasing. The signal is then digitized by the A/D  
converter at a rate determined by the sample clock to  
produce x(n), the discrete-time input sequence. The  
system transfer function, H(z), is typically implemented  
in the time-domain using a difference equation. The  
output sample, y(n), is then converted back into the  
continuous-time signal, y(t), by the D/A converter and  
output low-pass filter.  
Author:  
Darius Mostowfi  
Design Consultant  
INTRODUCTION  
This application note describes the basic issues that  
need to be addressed in order to implement digital sig-  
nal processing systems using the PIC16C74 and  
provides application code modules and examples for  
DTMF tone generation, a 60 Hz notch filter, and a  
simple PID compensator for control systems. These  
routines can also be used with other PIC16C6X and  
PIC16C7XXX processors with minor modifications and  
the addition of external analog I/O devices.  
The calculation of the output signal using a difference  
equation requires a multiply and accumulate (MAC)  
operation. This is typically a single-cycle instruction on  
DSP chips but can take many cycles to perform on a  
standard microcontroller since it must be implemented  
in code. Since the digitization of the signal, calculation  
of the output, and output to the D/A converter all must  
be completed within the sample clock period, the speed  
at which this can be done determines the maximum  
bandwidth that can be achieved with the system. The  
relatively slow speed of most microcontrollers is the  
major limitation when they are used in DSP applica-  
tions but the PIC16C74’s fast instruction execution  
speed (as fast as 200 ns/instruction) can provide the  
performance required to implement relatively low band-  
width systems. In addition, the device’s on-chip A/D and  
PWM modules provide all the functions needed for a  
single chip system. Only a few external components  
are needed to use the PIC16C74 for tone generation,  
filtering of transducer signals, or low bandwidth control.  
The use of general purpose microcontrollers for  
low-end digital signal processing applications has  
become more commonplace these days with the avail-  
ability of higher speed processors. Since most signal  
processing systems consist of a host processor and  
dedicated DSP chip, the use of a single microcontroller  
to perform both these functions provides a simpler and  
lower cost solution. In addition, the single chip design  
will consume less power which is ideal for battery  
powered applications. The PIC16C74 with its on-chip  
A/D, PWM module, and fast CPU is an ideal candidate  
for use in these low-bandwidth signal processing  
applications.  
A typical signal processing system includes an A/D  
converter, D/A converter, and CPU that performs the  
signal processing algorithm as shown in Figure 1.  
FIGURE 1: TYPICAL SIGNAL PROCESSING SYSTEM  
X[n]  
Y[n]  
Low-pass  
Filter  
Low-pass  
Filter  
Y[t]  
X[t]  
A/D  
H[z]  
D/A  
System Clock  
1997 Microchip Technology Inc.  
DS00616A-page 1  
 

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