isl6620 Intersil Corporation, isl6620 Datasheet - Page 6
isl6620
Manufacturer Part Number
isl6620
Description
Vr11.1, 4-phase Pwm Controller With Light Load Efficiency Enhancement And Load Current Monitoring
Manufacturer
Intersil Corporation
Datasheet
1.ISL6620.pdf
(10 pages)
Available stocks
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Part Number
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Quantity
Price
Part Number:
isl6620CR
Manufacturer:
INTERSIL
Quantity:
20 000
Part Number:
isl6620CRZ-T
Manufacturer:
INTERSIL
Quantity:
20 000
Description
Operation and Adaptive Shoot-through Protection
Designed for high speed switching, the ISL6620, ISL6620A
MOSFET driver controls both high-side and low-side
N-Channel FETs from one externally provided PWM signal.
A rising transition on PWM initiates the turn-off of the lower
MOSFET (see Timing Diagram). After a short propagation
delay [t
[t
page 4. Adaptive shoot-through circuitry monitors the LGATE
voltage and turns on the upper gate following a short delay
time [t
upper gate drive then begins to rise [t
MOSFET turns on.
A falling transition on PWM indicates the turn-off of the upper
MOSFET and the turn-on of the lower MOSFET. A short
propagation delay [t
begins to fall [t
monitors the UGATE-PHASE voltage and turns on the lower
MOSFET a short delay time [t
gate voltage drops below 1V. The lower gate then rises [t
turning on the lower MOSFET. These methods prevent both the
lower and upper MOSFETs from conducting simultaneously
(shoot-through), while adapting the dead time to the gate
charge characteristics of the MOSFETs being used.
This driver is optimized for voltage regulators with large step
down ratio. The lower MOSFET is usually sized larger
compared to the upper MOSFET because the lower MOSFET
conducts for a longer time during a switching period. The
lower gate driver is therefore sized much larger to meet this
application requirement. The 0.4Ω ON-resistance and 4A sink
current capability enable the lower gate driver to absorb the
current injected into the lower gate through the drain-to-gate
capacitor of the lower MOSFET and help prevent
PWM
UGATE
LGATE
FL
t
PDLL
] are provided in the “Electrical Specifications” table on
PDHU
PDLL
] after the LGATE voltage drops below ~1V. The
], the lower gate begins to fall. Typical fall times
FU
]. The adaptive shoot-through circuitry
t
PDHU
PDLU
1V
] is encountered before the upper gate
t
RU
PDHL
6
t
PDLU
], after the upper MOSFET’s
RU
] and the upper
t
PDHL
1V
FIGURE 1. TIMING DIAGRAM
2.5V
ISL6620, ISL6620A
t
RL
RL
],
t
FL
shoot-through caused by the self turn-on of the lower
MOSFET due to high dV/dt of the switching node.
Advanced PWM Protocol (Patent Pending)
The advanced PWM protocol of ISL6620, ISL6620A is
specifically designed to work with Intersil VR11.1 controllers.
When ISL6620, ISL6620A detects a PSI protocol sent by an
Intersil VR11.1 controller, it turns on diode emulation
operation; otherwise, it remains in normal CCM PWM mode.
The controller communicates the tri-state signal to the driver
by transitioning the PWM signal from 0V to 2V. The driver
recognizes Diode Emulation mode and after 330ns
(typically) evaluates the PHASE voltage to detect negative
current, thus turning off LGATE. With no further PWM pulses
from the controller, both UGATE and LGATE are low and the
output can shut down. This feature helps prevent a negative
transient on the output voltage when the output is shut down,
eliminating the Schottky diode that is used in some systems
for protecting the load from reversed output voltage events.
Otherwise, the PWM rising and falling thresholds outlined in
the “Electrical Specifications” on page 4 determine when the
lower and upper gates are enabled.
Note that the LGATE will not turn off until the diode emulation
minimum LGATE ON-time of 350ns is expired for a PWM low
to tri-level (2.5V) transition.
Diode Emulation
Diode emulation allows for higher converter efficiency under
light-load situations. With diode emulation active, the
ISL6620, ISL6620A detects the zero current crossing of the
output inductor and turns off LGATE. This prevents the low
side MOSFET from sinking current and ensures that
discontinuous conduction mode (DCM) is achieved. The
LGATE has a minimum ON-time of 350ns in DCM mode.
t
TSSHD
t
PTS
t
RU
t
TSSHD
t
FU
t
PTS
April 25, 2008
FN6494.0
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