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PIC16C71-04/SO 参数 Datasheet PDF下载

PIC16C71-04/SO图片预览
型号: PIC16C71-04/SO
PDF下载: 下载PDF文件 查看货源
内容描述: 8位CMOS微控制器与A / D转换器 [8-Bit CMOS Microcontrollers with A/D Converter]
分类和应用: 转换器微控制器
文件页数/大小: 176 页 / 1596 K
品牌: MICROCHIP [ MICROCHIP ]
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PIC16C71X  
For external interrupt events, such as the INT pin or  
PORTB change interrupt, the interrupt latency will be  
three or four instruction cycles. The exact latency  
depends when the interrupt event occurs (Figure 8-19).  
The latency is the same for one or two cycle instruc-  
tions. Individual interrupt flag bits are set regardless of  
the status of their corresponding mask bit or the GIE  
bit.  
8.5  
Interrupts  
Applicable Devices 710 71 711 715  
The PIC16C71X family has 4 sources of interrupt.  
Interrupt Sources  
External interrupt RB0/INT  
TMR0 overflow interrupt  
PORTB change interrupts (pins RB7:RB4)  
A/D Interrupt  
Note: For the PIC16C71  
If an interrupt occurs while the Global Inter-  
rupt Enable (GIE) bit is being cleared, the  
GIE bit may unintentionally be re-enabled  
by the user’s Interrupt Service Routine (the  
RETFIE instruction). The events that  
would cause this to occur are:  
The interrupt control register (INTCON) records indi-  
vidual interrupt requests in flag bits. It also has individ-  
ual and global interrupt enable bits.  
Note: Individual interrupt flag bits are set regard-  
less of the status of their corresponding  
mask bit or the GIE bit.  
1. An instruction clears the GIE bit while  
an interrupt is acknowledged.  
2. The program branches to the Interrupt  
vector and executes the Interrupt Ser-  
vice Routine.  
A global interrupt enable bit, GIE (INTCON<7>)  
enables (if set) all un-masked interrupts or disables (if  
cleared) all interrupts. When bit GIE is enabled, and an  
interrupt’s flag bit and mask bit are set, the interrupt will  
vector immediately. Individual interrupts can be dis-  
abled through their corresponding enable bits in vari-  
ous registers. Individual interrupt bits are set  
regardless of the status of the GIE bit. The GIE bit is  
cleared on reset.  
3. The Interrupt Service Routine com-  
pletes with the execution of the RET-  
FIE instruction. This causes the GIE  
bit to be set (enables interrupts), and  
the program returns to the instruction  
after the one which was meant to dis-  
able interrupts.  
The “return from interrupt” instruction, RETFIE, exits  
the interrupt routine as well as sets the GIE bit, which  
re-enables interrupts.  
Perform the following to ensure that inter-  
rupts are globally disabled:  
LOOP BCF  
INTCON, GIE ; Disable global  
interrupt bit  
BTFSC INTCON, GIE ; Global interrupt  
disabled?  
; NO, try again  
The RB0/INT pin interrupt, the RB port change inter-  
rupt and the TMR0 overflow interrupt flags are con-  
tained in the INTCON register.  
;
;
The peripheral interrupt flags are contained in the spe-  
cial function registers PIR1 and PIR2.The correspond-  
ing interrupt enable bits are contained in special  
function registers PIE1 and PIE2, and the peripheral  
interrupt enable bit is contained in special function reg-  
ister INTCON.  
GOTO LOOP  
:
;
;
;
Yes, continue  
with program  
flow  
When an interrupt is responded to, the GIE bit is  
cleared to disable any further interrupt, the return  
address is pushed onto the stack and the PC is loaded  
with 0004h. Once in the interrupt service routine the  
source(s) of the interrupt can be determined by polling  
the interrupt flag bits. The interrupt flag bit(s) must be  
cleared in software before re-enabling interrupts to  
avoid recursive interrupts.  
1997 Microchip Technology Inc.  
DS30272A-page 61  
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