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PIC18F2585_07 Datasheet, PDF (272/482 Pages) Microchip Technology – Enhanced Flash Microcontrollers with ECAN Technology, 10-Bit A/D and nanoWatt Technology
PIC18F2585/2680/4585/4680
FIGURE 22-3:
CASE 1:
HIGH-VOLTAGE DETECT OPERATION (VDIRMAG = 1)
HLVDIF may not be set
VDD
VLVD
HLVDIF
Enable HLVD
IRVST
CASE 2:
VDD
TIRVST
Internal Reference is stable
HLVDIF cleared in software
VLVD
HLVDIF
Enable HLVD
IRVST
TIRVST
Internal Reference is stable
HLVDIF cleared in software
HLVDIF cleared in software,
HLVDIF remains set since HLVD condition still exists
22.5 Applications
In many applications, the ability to detect a drop below,
or rise above a particular threshold is desirable. For
example, the HLVD module could be periodically
enabled to detect Universal Serial Bus (USB) attach or
detach. This assumes the device is powered by a lower
voltage source than the USB when detached. An attach
would indicate a high-voltage detect from, for example,
3.3V to 5V (the voltage on USB) and vice versa for a
detach. This feature could save a design a few extra
components and an attach signal (input pin).
For general battery applications, Figure 22-4 shows a
possible voltage curve. Over time, the device voltage
decreases. When the device voltage reaches voltage
VA, the HLVD logic generates an interrupt at time TA.
The interrupt could cause the execution of an ISR,
which would allow the application to perform “house-
keeping tasks” and perform a controlled shutdown
before the device voltage exits the valid operating
range at TB. The HLVD, thus, would give the
application a time window, represented by the
difference between TA and TB, to safely exit.
FIGURE 22-4:
TYPICAL LOW-VOLTAGE
DETECT APPLICATION
VA
VB
Time TA TB
Legend: VA = HLVD trip point
VB = Minimum valid device
operating voltage
DS39625C-page 270
Preliminary
© 2007 Microchip Technology Inc.