ADM6820ARJZ-REEL7 데이터 시트보기 (PDF) - Analog Devices
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ADM6820ARJZ-REEL7 Datasheet PDF : 12 Pages
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ADM6819/ADM6820
THEORY OF OPERATION
The ADM6819/ADM6820 provide local voltage sequencing in
multisupply systems. Figure 18 and Figure 19 show typical
application diagrams for these devices.
VIN = 3.3V
VIN = 3.0V
VOUT = 3.3V
Q1
VOUT = 3.0V
VCC2
VCC1
GATE
R1
ADM6819
ON
SETV
EN
GND
OFF
R2
VIN = 3.3V
VIN = 3.0V
Figure 18. ADM6819 Applications Diagram
VOUT = 3.3V
Q1
VOUT = 3.0V
VCC2
VCC1
GATE
R1
ADM6820
SETV
SETD
GND
R2
CSET
Figure 19. ADM6820 Applications Diagram
When the primary supply is above the desired threshold, the
ADM6819/ADM6820 are designed to control the N-channel
FET in the secondary power path to enable the secondary
supply. The GATE pin is held low while both VCC1 and VCC2 are
below the undervoltage threshold, ensuring that the FET is held
off. When VCC1 or VCC2 is above UVLO and the primary supply
is above the desired level dictated by the resistor divider to the
VSET pin, the external FET is driven on after the delay has
expired. An internal charge pump enhances the external FET. A
FET with a low drain-source resistance and low VTH should be
chosen to reduce voltage drop across the drain-source when the
FET is fully enhanced. Either supply may act as the primary
source if VCC1 or VCC2 is greater that 2.95 V. A decoupling
capacitor of typically 100 nF should be used on whichever VCC
is the main supply.
SETV PIN
The ADM6819/ADM6820 enable a supply after a monitored
supply voltage exceeds a programmed threshold. This threshold
is programmed by a R1/R2 resistor divider on the SETV pin.
Once the voltage on SETV exceeds the 0.618 V threshold, the
FET switches on after the delay timer expires. On the
ADM6820, this delay is programmable using a capacitor on the
SETD pin. On the ADM6819, this delay is fixed at 300 ms and
the EN pin must be valid high to begin the timer. The required
turn-on voltage is calculated by the following equation:
R1 = R2 ((VTRIP/VTH) – 1)
where:
VTRIP is the minimum turn-on voltage at the supply being
monitored.
VTH = 0.618 V.
High value resistors can be used because the SETV input
current is typically 10 nA.
EN PIN
The ADM6819 has an enable (EN) pin connected to the input
of a second comparator, which is identical to that on the VSET
pin. EN can be used as a digital input provided the signal VOL is
below 0.6 V. Alternatively, the enable input can be used to
validate a second supply. The fixed 300 ms timer does not begin
counting until both SETV and EN are above the threshold. As a
result, the output is not enabled until this timer has expired.
GATE PIN
The internal charge pump is capable of driving the gate of an
N-channel MOSFET with no external capacitors. This ensures
that the MOSFET is enhanced to provide a minimum voltage
drop across the MOSFET, thus reducing the voltage drop across
the FET. This charge pump is designed to drive the high imped-
ance capacitive load of a MOSFET gate input. The GATE pin
should not be resistively loaded because it reduces the gate drive
capability. During undervoltage lockout, GATE is held to GND.
SETD PIN
The ADM6820 features a capacitor adjustable sequencing delay.
A capacitor connected to the SETD pin determines the length
of the sequencing delay. The sequencing delay can be calculated
by the following equation:
tDELAY (s) = 2.652 × 106 × CSET
The ADM6819 has a fixed 300 ms delay.
Rev. 0 | Page 10 of 12
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