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MIC2755_06 Datasheet, PDF (5/10 Pages) Micrel Semiconductor – Battery System Supervisor
MIC2755
Functional Description
Typically the MIC2755 is used to monitor the battery supply
of intelligent circuits such as microcontrollers and micropro-
cessors. By connecting the reset output of a MIC2755 to the
reset input of a µC or µP, the processor will be properly reset
at power-on and during power-down and low battery condi-
tions. The /NMI output provides low-battery warnings to the
system. In addition, a system whose battery voltage declines
below the PTH threshold is held in reset to prevent spurious
operation. Thus the MIC2755 effectively detects three battery
states: “battery OK,” “low battery,” and “dead battery.”
Reset Output
/RST is an active-low, open-drain digital output. This output
is asserted for a minimum of 700ms at power-on and for a
minimum of 175ms when RTH(/MR) is externally pulled low,
indicating that a manual reset should be initiated. /RST is an
active-low, open-drain digital output and may be wire-ORed
with other open-drain logic signals. Most applications will
require a pull-up resistor on this pin. /RST may be pulled up
to any voltage not exceeding V/RST(max) even if this voltage
is higher than VDD (see “Electrical Characteristics”).
Nonmaskable Interrupt Output
/NMI is the output of a comparator that constantly compares
the level on the NTH pin with the internal voltage reference,
VREF2. This output is asserted when VNTH < VREF2, indicat-
ing high-power system operation should not occur; that is,
the battery is low but not dead. Effectively, this function is an
uncommitted comparator with its inverting input connected
to the internal reference, VREF2, its noninverting input con-
nected to NTH, and its output on /NMI. This comparator does
not affect any other MIC2755 functions and may be used
independently.
/NMI is an active-low, open-drain digital output and may be
wire-ORed with other open-drain logic signals. Most appli-
cations will require a pull-up resistor on this pin. /NMI may
be pulled up to any voltage not exceeding V/NMI(max) even
if this voltage is higher than VDD (see “Electrical Character-
istics”).
Micrel, Inc.
Power-Off Output
This output and the /RST output are asserted and latched
when VPTH < VREF, indicating a “dead battery.” The system
is held in reset until the battery is replaced or recharged
and a power-on reset cycle occurs; that is, VRTH > VREF1.
The /POF output may be used to control a linear or switch-
ing regulator, shutting down the regulator when the battery
reaches it end-of-life voltage.
/POF is an active-low, open-drain digital output and may
be wire-ORed with other open-drain logic signals. Most ap-
plications will require a pull-up resistor on this output. /POF
may be pulled up to any voltage not exceeding V/POF(max)
even if this voltage is higher than VDD (see “Electrical Char-
acteristics”).
Power-On Reset
The RTH(/MR) and PTH inputs work together to provide
predictable battery monitoring with user-programmable hys-
teresis and without chatter. The /RST output is asserted for a
minimum of 700ms at power-on. Power-on is determined by
RTH(/MR) exceeding VREF1. Once this event has occurred,
the internal logic ignores further transitions on the RTH(/
MR) input, instead monitoring for a low voltage on PTH or
the manual reset condition. If VPTH drops below VREF1, the
/POF and /RST outputs are asserted and latched, holding
the system in its reset state.
Manual Reset
An internal circuit monitors RTH(/MR), comparing it to an
internal 310mV reference, V/MRTV. When RTH(/MR) is pulled
below V/MRTV, and VPTH is still above VREF1, the internal
circuitry initiates a manual reset cycle and asserts /RST for
at least 175ms. A momentary push-button switch is typically
connected such that RTH(/MR) is forced to ground when the
switch contacts close. This switch is internally debounced.
Each closure of the switch longer than tDBNC results in a single
output pulse of no less than 175ms and no more than 300ms
being generated. (The manual reset pulse is derived from
the same oscillator and counter as t/RST. The length of t/MR
is always equal to one fourth of t/RST.) This prevents a user
who may hold the switch closed from keeping the system in
reset for an extended period of time.
January 2006
5
MIC2755