l6706 STMicroelectronics, l6706 Datasheet - Page 42
l6706
Manufacturer Part Number
l6706
Description
Vr11.1 Single Phase Controller With Integrated Driver
Manufacturer
STMicroelectronics
Datasheet
1.L6706.pdf
(47 pages)
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Power dissipation
19
42/47
Power dissipation
L6706 embeds high current MOSFET drivers for both high side and low side MOSFETs: it is
then important to consider the power the device is going to dissipate in driving them in order
to avoid overcoming the maximum junction operative temperature.
Exposed pad needs to be soldered to the PCB power ground plane through several VIAs in
order to facilitate the heat dissipation.
Two main terms contribute in the device power dissipation: bias power and drivers' power.
The first one (P
and it is simply quantifiable as follow (assuming to supply HS and LS drivers with the same
VCC of the device):
Drivers' power is the power needed by the driver to continuously switch on and off the
external MOSFETs; it is a function of the switching frequency and total gate charge of the
selected MOSFETs. It can be quantified considering that the total power P
switch the MOSFETs (easy calculable) is dissipated by three main factors: external gate
resistance (when present), intrinsic MOSFET resistance and intrinsic driver resistance. This
last term is the important one to be determined to calculate the device power dissipation.
The total power dissipated to switch the MOSFETs results:
External gate resistors helps the device to dissipate the switching power since the same
power P
resulting in a general cooling of the device. When driving multiple MOSFETs in parallel, it is
suggested to use one gate resistor for each MOSFET.
Figure 25. L6706 dissipated power (quiescent + switching)
SW
will be shared between the internal driver impedance and the external resistor
DC
) depends on the static consumption of the device through the supply pins
P
SW
P
=
DC
Doc ID 15698 Rev 1
F
SW
=
V
⋅
(
CC
Q
GHS
⋅
(
I
CC
⋅
V
+
BOOT
I
CCDR
+
Q
+
GLS
I
BOOT
⋅
V
)
CCDR
)
SW
dissipated to
L6706
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