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PIC16F628-04/SS 参数 Datasheet PDF下载

PIC16F628-04/SS图片预览
型号: PIC16F628-04/SS
PDF下载: 下载PDF文件 查看货源
内容描述: 基于闪存的8位CMOS微控制器 [FLASH-Based 8-Bit CMOS Microcontrollers]
分类和应用: 闪存微控制器
文件页数/大小: 160 页 / 1657 K
品牌: MICROCHIP [ MICROCHIP ]
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PIC16F62X  
wake up the device from SLEEP mode when enabled.  
While the comparator is powered-up, higher sleep  
currents than shown in the power down current  
specification will occur. Each comparator that is  
operational will consume additional current as shown in  
the comparator specifications. To minimize power  
consumption while in SLEEP mode, turn off the  
comparators, CM<2:0> = 111, before entering sleep. If  
the device wakes-up from sleep, the contents of the  
CMCON register are not affected.  
9.6  
Comparator Interrupts  
The comparator interrupt flag is set whenever there is  
a change in the output value of either comparator.  
Software will need to maintain information about the  
status of the output bits, as read from CMCON<7:6>, to  
determine the actual change that has occurred. The  
CMIF bit, PIR1<6>, is the comparator interrupt flag.  
The CMIF bit must be reset by clearing ‘0’. Since it is  
also possible to write a '1' to this register, a simulated  
interrupt may be initiated.  
9.8  
Effects of a RESET  
The CMIE bit (PIE1<6>) and the PEIE bit  
(INTCON<6>) must be set to enable the interrupt. In  
addition, the GIE bit must also be set. If any of these  
bits are clear, the interrupt is not enabled, though the  
CMIF bit will still be set if an interrupt condition occurs.  
A device reset forces the CMCON register to its reset  
state. This forces the comparator module to be in the  
comparator reset mode, CM2:CM0 = 000. This  
ensures that all potential inputs are analog inputs.  
Device current is minimized when analog inputs are  
present at reset time. The comparators will be  
powered-down during the reset interval.  
Note: If a change in the CMCON register  
(C1OUT or C2OUT) should occur when a  
read operation is being executed (start of  
the Q2 cycle), then the CMIF (PIR1<6>)  
interrupt flag may not get set.  
9.9  
Analog Input Connection  
Considerations  
The user, in the interrupt service routine, can clear the  
interrupt in the following manner:  
A simplified circuit for an analog input is shown in  
Figure 9-4. Since the analog pins are connected to a  
digital output, they have reverse biased diodes to VDD  
and VSS. The analog input therefore, must be between  
VSS and VDD. If the input voltage deviates from this  
range by more than 0.6V in either direction, one of the  
diodes is forward biased and a latch-up may occur. A  
a) Any read or write of CMCON. This will end the  
mismatch condition.  
b) Clear flag bit CMIF.  
A mismatch condition will continue to set flag bit CMIF.  
Reading CMCON will end the mismatch condition, and  
allow flag bit CMIF to be cleared.  
maximum  
source  
impedance  
of  
10 kΩ  
is  
recommended for the analog sources. Any external  
component connected to an analog input pin, such as  
a capacitor or a Zener diode, should have very little  
leakage current.  
9.7  
Comparator Operation During SLEEP  
When a comparator is active and the device is placed  
in SLEEP mode, the comparator remains active and  
the interrupt is functional if enabled. This interrupt will  
FIGURE 9-4: ANALOG INPUT MODEL  
VDD  
VT = 0.6V  
RIC  
RS < 10K  
AIN  
ILEAKAGE  
±500 nA  
CPIN  
5 pF  
VA  
VT = 0.6V  
VSS  
Legend  
CPIN  
VT  
= Input Capacitance  
= Threshold Voltage  
ILEAKAGE  
RIC  
= Leakage Current At The Pin Due To Various Junctions  
= Interconnect Resistance  
RS  
= Source Impedance  
VA  
= Analog Voltage  
1999 Microchip Technology Inc.  
Preliminary  
DS40300B-page 61  
 
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