ISL6615 INTERSIL [Intersil Corporation], ISL6615 Datasheet - Page 6
ISL6615
Manufacturer Part Number
ISL6615
Description
High-Frequency 6A Sink Synchronous MOSFET Drivers with Protection Features
Manufacturer
INTERSIL [Intersil Corporation]
Datasheet
1.ISL6615.pdf
(11 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
ISL6615AIBZ
Manufacturer:
INTERSIL
Quantity:
20 000
Part Number:
ISL6615AIBZ-T
Manufacturer:
INTERSIL
Quantity:
20 000
Description
Operation
Designed for versatility and speed, the ISL6615 MOSFET
driver controls both high-side and low-side N-Channel FETs
of a half-bridge power train from one externally provided
PWM signal.
Prior to VCC exceeding its POR level, the Pre-POR
overvoltage protection function is activated during initial
start-up; the upper gate (UGATE) is held low and the lower
gate (LGATE), controlled by the Pre-POR overvoltage
protection circuits, is connected to the PHASE. Once the
VCC voltage surpasses the VCC Rising Threshold (see
“Electrical Specifications” on page 4), the PWM signal takes
control of gate transitions. A rising edge on PWM initiates
the turn-off of the lower MOSFET (see Figure 1). After a
short propagation delay [t
Typical fall times [t
Specifications” on page 4. Adaptive shoot-through circuitry
monitors the LGATE voltage and determines the upper gate
delay time [t
MOSFETs from conducting simultaneously. Once this delay
period is complete, the upper gate drive begins to rise [t
and the upper MOSFET turns on.
A falling transition on PWM results in the turn-off of the upper
MOSFET and the turn-on of the lower MOSFET. A short
propagation delay [t
gate begins to fall [t
circuitry determines the lower gate delay time, t
PHASE voltage and the UGATE voltage are monitored, and
the lower gate is allowed to rise after PHASE drops below a
level or the voltage of UGATE to PHASE reaches a level
depending upon the current direction (see the following
section titled “Advanced Adaptive Zero Shoot-through
Dead-time Control” for details). The lower gate then rises
[t
RL
], turning on the lower MOSFET.
PWM
UGATE
LGATE
t
PDLL
PDHU
]. This prevents both the lower and upper
FL
FU
PDLU
] are provided in the “Electrical
]. Again, the adaptive shoot-through
PDLL
] is encountered before the upper
t
FL
6
], the lower gate begins to fall.
t
PDHU
t
RU
t
PDHL
PDHL
t
RL
FIGURE 1. TIMING DIAGRAM
t
PDLU
. The
t
FU
RU
1.18V < PWM < 2.36V
]
ISL6615
Advanced Adaptive Zero Shoot-through Dead-time
Control
The ISL6615 driver incorporates a unique adaptive
dead-time control technique to minimize dead-time, resulting
in high efficiency from the reduced freewheeling time of the
lower MOSFETs’ body-diode conduction, and to prevent the
upper and lower MOSFETs from conducting simultaneously.
This is accomplished by ensuring the rising gate turns on its
MOSFET with minimum and sufficient delay after the other
has turned off.
During turn-off of the lower MOSFET, the LGATE voltage is
monitored until it drops below 1.75V. Prior to reaching this
level, there is a 25ns blanking period to protect against
sudden dips in the LGATE voltage. Once 1.75V is reached
the UGATE is released to rise after 20ns of propagation
delay. Once the PHASE is high, the adaptive shoot-through
circuitry monitors the PHASE and UGATE voltages during
PWM falling edge and subsequent UGATE turn-off. If
PHASE falls to less than +0.8V, the LGATE is released to
turn on after 10ns of propagation delay. If the
UGATE-PHASE falls to less than 1.75V and after 40ns of
propagation delay, LGATE is released to rise.
Tri-state PWM Input
A unique feature of these drivers and other Intersil drivers is
the addition of a shutdown window to the PWM input. If the
PWM signal enters and remains within the shutdown window
for a set holdoff time, the driver outputs are disabled and
both MOSFET gates are pulled and held low. The shutdown
state is removed when the PWM signal moves outside the
shutdown window. Otherwise, the PWM rising and falling
thresholds outlined in the “Electrical Specifications” on
page 4 determine when the lower and upper gates are
enabled.
This feature helps prevent a negative transient on the output
voltage when the output is shut down, eliminating the
t
TSSHD
t
PDTS
0.76V < PWM < 1.96V
t
TSSHD
April 24, 2008
t
PDTS
FN6481.0
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