MCP1727
Once the power good threshold (rising) has been
reached, the CDELAY pin charges the external capacitor
to VIN. The charging current is 140 nA (typical). The
PWRGD output will transition high when the CDELAY pin
voltage has charged to 0.42V. If the output falls below
the power good threshold limit during the charging time
between 0.0V and 0.42V on the CDELAY pin, the
high (turn-on) to the LDO output being in regulation is
typically 100 µs. See Figure 4-5 for a timing diagram of
the SHDN input.
T
OR
400 ns (typ)
70 µs
30 µs
CDELAY pin voltage will be pulled to ground, thus reset-
ting the timer. The CDELAY pin will be held low until the
output voltage of the LDO has once again risen above
the power good rising threshold. A timing diagram
showing CDELAY, PWRGD and VOUT is shown in
Figure 4-4.
SHDN
V
OUT
V
OUT
V
PWRGD_TH
FIGURE 4-5:
Shutdown Input Timing
Diagram.
V
(typ)
IN
C
T
DELAY
C
PG
4.8
Dropout Voltage and Undervoltage
Lockout
Threshold (0.42V)
DELAY
0V
Dropout voltage is defined as the input-to-output
voltage differential at which the output voltage drops
2% below the nominal value that was measured with a
VR + 0.6V differential applied. The MCP1727 LDO has
a very low dropout voltage specification of 330 mV
(typical) at 1.5A of output current. See Section 1.0
“Electrical Characteristics” for maximum dropout
voltage specifications.
PWRGD
FIGURE 4-4:
C
and PWRGD Timing
DELAY
Diagram.
The MCP1727 LDO operates across an input voltage
range of 2.3V to 6.0V and incorporates input Undervolt-
age Lockout (UVLO) circuitry that keeps the LDO
output voltage off until the input voltage reaches a
minimum of 2.18V (typical) on the rising edge of the
input voltage. As the input voltage falls, the LDO output
will remain on until the input voltage level reaches
2.04V (typical).
4.7
Shutdown Input (SHDN)
The SHDN input is an active-low input signal that turns
the LDO on and off. The SHDN threshold is a
percentage of the input voltage. The typical value of
this shutdown threshold is 30% of VIN, with minimum
and maximum limits over the entire operating
temperature range of 45% and 15%, respectively.
Since the MCP1727 LDO undervoltage lockout
activates at 2.04V as the input voltage is falling, the
dropout voltage specification does not apply for output
voltages that are less than 1.9V.
The SHDN input will ignore low-going pulses (pulses
meant to shut down the LDO) that are up to 400 ns in
pulse width. If the shutdown input is pulled low for more
than 400 ns, the LDO will enter Shutdown mode. This
small bit of filtering helps to reject any system noise
spikes on the shutdown input signal.
For high-current applications, voltage drops across the
PCB traces must be taken into account. The trace
resistances can cause significant voltage drops
between the input voltage source and the LDO. For
applications with input voltages near 2.3V, these PCB
trace voltage drops can sometimes lower the input
On the rising edge of the SHDN input, the shutdown
circuitry has a 30 µs delay before allowing the LDO
output to turn on. This delay helps to reject any false
turn-on signals or noise on the SHDN input signal. After
the 30 µs delay, the LDO output enters its soft-start
period as it rises from 0V to its final regulation value. If
the SHDN input signal is pulled low during the 30 µs
delay period, the timer will be reset and the delay time
will start over again on the next rising edge of the
SHDN input. The total time from the SHDN input going
voltage enough to trigger
undervoltage lockout.
a shutdown due to
DS21999B-page 18
© 2007 Microchip Technology Inc.
MICROCHIP [ MICROCHIP ]
