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IRF7821TRPBF Datenblatt(PDF) 8 Page - International Rectifier

Teilenummer IRF7821TRPBF
Bauteilbeschribung  HEXFETPower MOSFET
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Hersteller  IRF [International Rectifier]
Direct Link  http://www.irf.com
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IRF7821TRPBF Datenblatt(HTML) 8 Page - International Rectifier

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Control FET
Special attention has been given to the power losses
in the switching elements of the circuit - Q1 and Q2.
Power losses in the high side switch Q1, also called
the Control FET, are impacted by the R
ds(on) of the
MOSFET, but these conduction losses are only about
one half of the total losses.
Power losses in the control switch Q1 are given
by;
P
loss = Pconduction+ Pswitching+ Pdrive+ Poutput
This can be expanded and approximated by;
P
loss = Irms
2 × R
ds(on )
()
+ I ×
Q
gd
i
g
× V
in × f
⎟ + I ×
Q
gs 2
i
g
× V
in × f
+ Q
g × Vg × f
()
+
Q
oss
2
×V
in × f
This simplified loss equation includes the terms Q
gs2
and Q
oss which are new to Power MOSFET data sheets.
Q
gs2 is a sub element of traditional gate-source
charge that is included in all MOSFET data sheets.
The importance of splitting this gate-source charge
into two sub elements, Q
gs1 and Qgs2, can be seen from
Fig 16.
Q
gs2 indicates the charge that must be supplied by
the gate driver between the time that the threshold
voltage has been reached and the time the drain cur-
rent rises to I
dmax at which time the drain voltage be-
gins to change. Minimizing Q
gs2 is a critical factor in
reducing switching losses in Q1.
Q
oss is the charge that must be supplied to the out-
put capacitance of the MOSFET during every switch-
ing cycle. Figure A shows how Q
oss is formed by the
parallel combination of the voltage dependant (non-
linear) capacitance’s C
ds and Cdg when multiplied by
the power supply input buss voltage.
Synchronous FET
The power loss equation for Q2 is approximated
by;
P
loss = Pconduction + Pdrive + Poutput
*
P
loss = Irms
2 × R
ds(on)
()
+ Q
g × Vg × f
()
+ Qoss
2
× V
in × f
+ Q
rr × Vin × f
(
)
*dissipated primarily in Q1.
For the synchronous MOSFET Q2, R
ds(on) is an im-
portant characteristic; however, once again the im-
portance of gate charge must not be overlooked since
it impacts three critical areas. Under light load the
MOSFET must still be turned on and off by the con-
trol IC so the gate drive losses become much more
significant. Secondly, the output charge Q
oss and re-
verse recovery charge Q
rr both generate losses that
are transfered to Q1 and increase the dissipation in
that device. Thirdly, gate charge will impact the
MOSFETs’ susceptibility to Cdv/dt turn on.
The drain of Q2 is connected to the switching node
of the converter and therefore sees transitions be-
tween ground and V
in. As Q1 turns on and off there is
a rate of change of drain voltage dV/dt which is ca-
pacitively coupled to the gate of Q2 and can induce
a voltage spike on the gate that is sufficient to turn
the MOSFET on, resulting in shoot-through current .
The ratio of Q
gd/Qgs1 must be minimized to reduce the
potential for Cdv/dt turn on.
Power MOSFET Selection for Non-Isolated DC/DC Converters
Figure A: Q
oss Characteristic


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