ISL6566ACRZ-T Intersil, ISL6566ACRZ-T Datasheet - Page 16
ISL6566ACRZ-T
Manufacturer Part Number
ISL6566ACRZ-T
Description
IC CTRLR PWM 3PHASE BUCK 40-QFN
Manufacturer
Intersil
Datasheet
1.ISL6566ACRZ.pdf
(28 pages)
Specifications of ISL6566ACRZ-T
Pwm Type
Voltage Mode
Number Of Outputs
1
Frequency - Max
1.5MHz
Duty Cycle
66.6%
Voltage - Supply
4.75 V ~ 12 V
Buck
Yes
Boost
No
Flyback
No
Inverting
No
Doubler
No
Divider
No
Cuk
No
Isolated
No
Operating Temperature
0°C ~ 70°C
Package / Case
40-VFQFN, 40-VFQFPN
Frequency-max
1.5MHz
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
the PHASE and UGATE voltages during a PWM falling edge
and the subsequent UGATE turn-off. If either the UGATE falls
to less than 1.75V above the PHASE or the PHASE falls to less
than +0.8V, the LGATE is released to turn on.
Internal Bootstrap Device
All three integrated drivers feature an internal bootstrap
schottky diode. Simply adding an external capacitor across
the BOOT and PHASE pins completes the bootstrap circuit.
The bootstrap function is also designed to prevent the
bootstrap capacitor from overcharging due to the large
negative swing at the PHASE node. This reduces voltage
stress on the boot to phase pins.
The bootstrap capacitor must have a maximum voltage
rating above PVCC + 5V and its capacitance value can be
chosen from the following equation:
where Q
at V
control MOSFETs. The ∆V
allowable droop in the rail of the upper gate drive.
Gate Drive Voltage Versatility
The ISL6566A provides the user flexibility in choosing the
gate drive voltage for efficiency optimization. The controller
ties the upper and lower drive rails together. Simply applying
a voltage from 5V up to 12V on PVCC sets both gate drive
rail voltages simultaneously.
C
Q
FIGURE 10. BOOTSTRAP CAPACITANCE vs BOOT RIPPLE
BOOT_CAP
GATE
GS1
1.6
1.4
1.2
0.8
0.6
0.4
0.2
0.0
1.
=
G1
0.0
gate-source voltage and N
Q
----------------------------------- - N
20nC
G1
is the amount of gate charge per upper MOSFET
≥
V
0.1
VOLTAGE
------------------------------------- -
∆V
•
GS1
PVCC
BOOT_CAP
Q
0.2
GATE
50nC
Q
GATE
•
0.3
Q1
BOOT_CAP
= 100nC
∆V
0.4
16
BOOT_CAP
0.5
Q1
0.6
term is defined as the
is the number of
(V)
0.7
0.8
0.9
(EQ. 12)
1.0
ISL6566A
Initialization
Prior to initialization, proper conditions must exist on the
ENLL, EN_PH3, VCC, PVCC and the VID pins. When the
conditions are met, the controller begins soft-start. Once the
output voltage is within the proper window of operation, the
controller asserts PGOOD.
Enable and Disable
While in shutdown mode, the PWM outputs are held in a
high-impedance state. This forces the drivers to short gate-
to-source of the upper and lower MOSFET’s to assure the
MOSFETs remain off. The following input conditions must be
met before the ISL6566 is released from this shutdown
mode.
1. The bias voltage applied at VCC must reach the internal
2. The voltage on ENLL must be above 0.66V. The ENLL
3. The voltage on the EN_PH3 pin must be above 1.22V.
4. The driver bias voltage applied at the PVCC pins must
FIGURE 11. POWER SEQUENCING USING THRESHOLD-
power-on reset (POR) rising threshold. Once this
threshold is reached, proper operation of all aspects of
the ISL6566A is guaranteed. Hysteresis between the
rising and falling thresholds assure that once enabled,
the ISL6566A will not inadvertently turn off unless the
bias voltage drops substantially (see Electrical
Specifications).
input allows for power sequencing between the controller
bias voltage and another voltage rail. The enable
comparator holds the ISL6566A in shutdown until the
voltage at ENLL rises above 0.66V. The enable
comparator has 60mV of hysteresis to prevent bounce.
The EN_PH3 input allows for power sequencing between
the controller and the external driver.
reach the internal power-on reset (POR) rising threshold.
FAULT LOGIC
CIRCUIT
SOFT-START
POR
ISL6566A INTERNAL CIRCUIT
AND
SENSITIVE ENABLE (ENLL) FUNCTION
ENABLE
COMPARATOR
+
-
+
-
1.22V
0.66V
VCC
ENLL
EN_PH3
PVCC1
EXTERNAL CIRCUIT
10.7kΩ
1.40kΩ
+12V
July 27, 2005
FN9200.2
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