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| MC908GR32AVFAE Datasheet, PDF (128/314 Pages) Freescale Semiconductor, Inc – Microcontrollers | |||
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Low-Voltage Inhibit (LVI)
LVISTOP, LVIPWRD, LVI5OR3, and LVIRSTD are in the configuration register (CONFIG1). See
Figure 5-2. Configuration Register 1 (CONFIG1) for details of the LVIâs configuration bits. Once an LVI
reset occurs, the MCU remains in reset until VDD rises above a voltage, VTRIPR, which causes the MCU
to exit reset. See 14.3.2.5 Low-Voltage Inhibit (LVI) Reset for details of the interaction between the SIM
and the LVI. The output of the comparator controls the state of the LVIOUT flag in the LVI status register
(LVISR).
An LVI reset also drives the RST pin low to provide low-voltage protection to external peripheral devices.
VDD
LVIPWRD
FROM CONFIG
STOP INSTRUCTION
FROM CONFIG1
LVIRSTD
LVISTOP
FROM CONFIG1
LOW VDD
DETECTOR
VDD > LVITrip = 0
VDD ⤠LVITrip = 1
LVI5OR3
LVIOUT
FROM CONFIG1
Figure 11-1. LVI Module Block Diagram
LVI RESET
Addr.
Register Name
Bit 7
6
5
4
3
2
1
Bit 0
LVI Status Register Read: LVIOUT
0
0
0
0
0
0
0
$FE0C
(LVISR) Write:
See page 129. Reset:
0
0
0
0
0
0
0
0
= Unimplemented
Figure 11-2. LVI I/O Register Summary
11.3.1 Polled LVI Operation
In applications that can operate at VDD levels below the VTRIPF level, software can monitor VDD by polling
the LVIOUT bit. In the configuration register, the LVIPWRD bit must be 0 to enable the LVI module, and
the LVIRSTD bit must be 1 to disable LVI resets.
11.3.2 Forced Reset Operation
In applications that require VDD to remain above the VTRIPF level, enabling LVI resets allows the LVI
module to reset the MCU when VDD falls below the VTRIPF level. In the configuration register, the
LVIPWRD and LVIRSTD bits must be cleared to enable the LVI module and to enable LVI resets.
MC68HC908GR60A ⢠MC68HC908GR48A ⢠MC68HC908GR32A Data Sheet, Rev. 5
128
Freescale Semiconductor
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