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PIC16F687-I/ML 参数 Datasheet PDF下载

PIC16F687-I/ML图片预览
型号: PIC16F687-I/ML
PDF下载: 下载PDF文件 查看货源
内容描述: 20引脚基于闪存的8位CMOS微控制器采用纳瓦技术 [20-Pin Flash-Based, 8-Bit CMOS Microcontrollers with nanoWatt Technology]
分类和应用: 闪存微控制器和处理器外围集成电路时钟
文件页数/大小: 294 页 / 5272 K
品牌: MICROCHIP [ MICROCHIP ]
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PIC16F631/677/685/687/689/690  
The SSPCON register allows control of the I2C  
2
13.11 SSP I C Operation  
operation. Four mode selection bits (SSPCON<3:0>)  
The SSP module in I2C mode, fully implements all slave  
functions, except general call support, and provides  
interrupts on Start and Stop bits in hardware to facilitate  
firmware implementations of the master functions. The  
SSP module implements the Standard mode  
specifications, as well as 7-bit and 10-bit addressing.  
allow one of the following I2C modes to be selected:  
• I2C Slave mode (7-bit address)  
• I2C Slave mode (10-bit address)  
• I2C Slave mode (7-bit address), with Start and  
Stop bit interrupts enabled to support Firmware  
Master mode  
• I2C Slave mode (10-bit address), with Start and  
Stop bit interrupts enabled to support Firmware  
Master mode  
• I2C Start and Stop bit interrupts enabled to  
support Firmware Master mode; Slave is idle  
Two pins are used for data transfer. These are the RB6/  
SCK/SCL pin, which is the clock (SCL), and the RB4/  
AN10/SDI/SDA pin, which is the data (SDA).  
The SSP module functions are enabled by setting SSP  
enable bit SSPEN (SSPCON<5>).  
Selection of any I2C mode with the SSPEN bit set  
forces the SCL and SDA pins to be open drain,  
provided these pins are programmed to inputs by  
setting the appropriate TRISB bits. Pull-up resistors  
must be provided externally to the SCL and SDA pins  
for proper operation of the I2C module.  
FIGURE 13-7:  
SSP BLOCK DIAGRAM  
(I2C™ MODE)  
Internal  
Data Bus  
Read  
Write  
RB6/  
SCK/  
SCL  
13.12 Slave Mode  
SSPBUF Reg  
In Slave mode, the SCL and SDA pins must be  
configured as inputs (TRISB<6,4> are set). The SSP  
module will override the input state with the output data  
when required (slave-transmitter).  
Shift  
Clock  
SSPSR Reg  
RB4/  
AN10/  
SDI/SDA  
MSb  
LSb  
When an address is matched, or the data transfer after  
an address match is received, the hardware  
automatically will generate the Acknowledge (ACK)  
pulse, and then load the SSPBUF register with the  
received value currently in the SSPSR register.  
Addr Match  
Match Detect  
SSPMSK Reg  
SSPADD Reg  
There are certain conditions that will cause the SSP  
module not to give this ACK pulse. They include (either  
or both):  
a) The Buffer Full bit BF of the SSPSTAT register  
was set before the transfer was received.  
Set, Reset  
S, P bits  
(SSPSTAT Reg)  
Start and  
Stop bit Detect  
b) The overflow bit SSPOV of the SSPCON  
register was set before the transfer was  
received.  
In this case, the SSPSR register value is not loaded  
into the SSPBUF, but bit SSPIF of the PIR1 register is  
set. Table 13-3 shows the results of when a data  
transfer byte is received, given the status of bits BF and  
SSPOV. The shaded cells show the condition where  
user software did not properly clear the overflow  
condition. Flag bit BF is cleared by reading the  
SSPBUF register, while bit SSPOV is cleared through  
software.  
The SSP module has six registers for the I2C operation,  
which are listed below.  
• SSP Control register (SSPCON)  
• SSP Status register (SSPSTAT)  
• Serial Receive/Transmit Buffer (SSPBUF)  
• SSP Shift register (SSPSR) – Not directly  
accessible  
• SSP Address register (SSPADD)  
• SSP Mask register (SSPMSK)  
The SCL clock input must have a minimum high and low  
for proper operation. For high and low times of the I2C  
specification, as well as the requirements of the SSP  
module, see Section 17.0 “Electrical Specifications”.  
DS41262D-page 184  
© 2007 Microchip Technology Inc.  
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