ML6101
Functional Description (Refers to CMOS Output)
1. Firstly, when the Input Voltage (V
IN
) falls 4. When the Input Voltage (V
IN
) falls below
below the Minimum Operating Voltage
the Monitor Release Voltage (V
MR
) level,
(V
MIN
) level, output becomes unstable. In
output at the Output pin (V
OUT
) is equal to
the case of N-channel open drain
Ground Voltage (V
SS
) level until the Input
configuration, as the output pin is
Voltage (V
IN
) reaches the Minimum
generally pulled-up, the output will be
Operating Voltage (V
MIN
) level.
equal to the pull-up voltage.
5. When the Input Voltage (V
IN
) falls below
2. When the Input Voltage (V
IN
) rises, output
the Minimum Operating Voltage (V
MIN
)
become stable once the voltage has
level, output becomes unstable. In the case
exceeded V
MIN
. The Output Voltage (V
OUT
)
of N-channel open drain configuration, as
will remain equal to the Ground Voltage
the output pin is generally pulled-up, the
(V
SS
) level until the Input Voltage (V
IN
)
output will be equal to the pull-up
reaches the Monitor Voltage (V
MON
) level.
voltage.
3. When a voltage higher than the Monitor
Voltage (V
MON
) is applied to the Input
Notes :
Voltage pin (V
IN
), output at V
OUT
will be 1. The difference between V
MR
and V
MF
equal to the input at the V
IN
pin. High
represents the Hysteresis Range.
impedance exists on the Output pin (V
OUT
)
with the N-channel open drain
configuration. If the pin is pulled-up. V
OUT
will be identical to the pull-up voltage.
Timing Diagram
Input Voltage (V
IN
)
Monitor Voltage (V
MON
)
Monitor Release Voltage (V
MR
)
Minimum Operating Voltage (V
MIN
)
Ground Voltage (V
SS
)
Output Voltage (V
OUT
)
Ground Voltage (V
SS
)
1
2
3
4
5
P6/11
Rev. A, June 2005