FAN3214TMX Fairchild Semiconductor, FAN3214TMX Datasheet - Page 14
FAN3214TMX
Manufacturer Part Number
FAN3214TMX
Description
IC GATE DRIVER DUAL 4A 8-SOIC
Manufacturer
Fairchild Semiconductor
Type
Dual-4A, High-Speed, Low-Side Gate Driverr
Datasheet
1.FAN3213TMX.pdf
(18 pages)
Specifications of FAN3214TMX
Product
MOSFET Gate Drivers
Rise Time
12 ns
Fall Time
9 ns
Propagation Delay Time
17 ns
Supply Voltage (max)
20 V
Supply Voltage (min)
- 0.3 V
Supply Current
0.7 mA
Maximum Operating Temperature
+ 125 C
Mounting Style
SMD/SMT
Package / Case
SOIC-8
Bridge Type
Full Bridge
Minimum Operating Temperature
- 40 C
Number Of Drivers
2
Number Of Outputs
2
Output Current
5 A
Output Voltage
20.3 V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Price
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© 2008 Fairchild Semiconductor Corporation
FAN3213 / FAN3214 • Rev. 1.0.2
Thermal Guidelines
Gate drivers used to switch MOSFETs and IGBTs at
high frequencies can dissipate significant amounts of
power. It is important to determine the driver power
dissipation and the resulting junction temperature in the
application to ensure that the part is operating within
acceptable temperature limits.
The total power dissipation in a gate driver is the sum of
two components, P
Once the power dissipated in the driver is determined,
the driver junction rise with respect to circuit board can
be evaluated using the following thermal equation,
assuming
design (heat sinking and air flow):
P
Gate Driving Loss: The most significant power loss
results from supplying gate current (charge per unit
time) to switch the load MOSFET on and off at the
switching frequency. The power dissipation that
results from driving a MOSFET at a specified gate-
source voltage, V
switching frequency, f
P
where n is the number of driver channels in use (1 or 2).
Dynamic Pre-Drive / Shoot-through Current: A power
loss resulting from internal current consumption under
dynamic operating conditions, including pin pull-up /
pull-down resistors, can be obtained using the graphs
in Typical Performance Characteristics to determine
the current I
operating conditions:
P
T
where:
T
T
J
J
B
TOTAL
GATE
DYNAMIC
JB
= Q
= P
= driver junction temperature;
= (psi) thermal characterization parameter
relating temperature rise to total power
dissipation; and
= board temperature in location as defined in
the Thermal Characteristics table.
= P
= I
G
TOTAL
GATE
JB
DYNAMIC
• V
was determined for a similar thermal
DYNAMIC
GS
+ P
•
GATE
• f
DYNAMIC
JB
• V
SW
GS
+ T
and P
SW
drawn from V
DD
, with gate charge, Q
• n
, is determined by:
B
• n
DYNAMIC
:
DD
under actual
G
(1)
, at
(2)
(3)
(4)
14
To give a numerical example, if the synchronous rectifier
switches in the forward converter of Figure 33 are
FDMS8660S, the datasheet gives a total gate charge of
60nC at V
120nC gate charge. At a switching frequency of 300kHz,
the total power dissipation is:
The
characterization parameter of
application, the localized temperature around the device
is a function of the layout and construction of the PCB
along with airflow across the surfaces. To ensure
reliable operation, the maximum junction temperature of
the device must be prevented from exceeding the
maximum rating of 150°C; with 80% derating, T
be limited to 120°C. Rearranging Equation 4 determines
the board temperature required to maintain the junction
temperature below 120°C:
P
P
P
T
T
B,MAX
B,MAX
GATE
DYNAMIC
TOTAL
SOIC-8
= 120nC • 7V • 300kHz • 2 = 0.504W
= T
= 120°C – 0.52W • 42°C/W = 98°C
= 0.515W ≈ 0.52W
GS
= 7.5mA • 7V • 2 = 0.011W
J
= 7V, so two devices in parallel would have
- P
TOTAL
has
•
a
JB
junction-to-board
JB
= 42°C/W. In a system
www.fairchildsemi.com
thermal
J
would
(6)
(7)
(8)
(9)
(5)
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