LM22675MR-ADJ National Semiconductor, LM22675MR-ADJ Datasheet - Page 10
LM22675MR-ADJ
Manufacturer Part Number
LM22675MR-ADJ
Description
REGULATOR, ADJ. VOLTAGE, 1A 8PSOP
Manufacturer
National Semiconductor
Datasheet
1.LM22675MR-ADJ.pdf
(14 pages)
Specifications of LM22675MR-ADJ
Primary Input Voltage
42V
No. Of Outputs
1
Output Current
1A
Voltage Regulator Case Style
PSOP
No. Of Pins
8
Operating Temperature Range
-40°C To +125°C
Svhc
No SVHC (15-Dec-2010)
Package /
RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
LM22675MR-ADJ/NOPB
Manufacturer:
TI
Quantity:
12 000
www.national.com
Circuit Board Layout
Board layout is critical for switching power supplies. First, the
ground plane area must be sufficient for thermal dissipation
purposes. Second, appropriate guidelines must be followed
to reduce the effects of switching noise. Switch mode con-
verters are very fast switching devices. In such devices, the
rapid increase of input current combined with the parasitic
trace inductance generates unwanted L di/dt noise spikes.
The magnitude of this noise tends to increase as the output
current increases. This parasitic spike noise may turn into
electromagnetic interference (EMI) and can also cause prob-
lems in device performance. Therefore, care must be taken
in layout to minimize the effect of this switching noise.
The most important layout rule is to keep the AC current loops
as small as possible.Figure 3 shows the current flow of a buck
converter. The top schematic shows a dotted line which rep-
resents the current flow during the FET switch on-state. The
middle schematic shows the current flow during the FET
switch off-state.
The bottom schematic shows the currents referred to as AC
currents. These AC currents are the most critical since current
is changing in very short time periods. The dotted lines of the
bottom schematic are the traces to keep as short as possible.
This will also yield a small loop area reducing the loop induc-
tance. To avoid functional problems due to layout, review the
PCB layout example. Best results are achieved if the place-
ment of the LM22675, the bypass capacitor, the Schottky
diode and the inductor are placed as shown in the example.
It is also recommended to use 2oz copper boards or thicker
to help thermal dissipation and to reduce the parasitic induc-
tances of board traces.
FIGURE 3. Current Flow in a Buck Application
30077024
10
Thermal Considerations
The two highest power dissipating components are the re-
circulating diode and the LM22675 regulator IC. The easiest
method to determine the power dissipation within the
LM22675 is to measure the total conversion losses (Pin –
Pout) then subtract the power losses in the Schottky diode
and output inductor. An approximation for the Schottky diode
loss is:
An approximation for the output inductor power is:
where R is the DC resistance of the inductor and the 1.1 factor
is an approximation for the AC losses. The regulator has an
exposed thermal pad to aid power dissipation. Adding several
vias under the device to the ground plane will greatly reduce
the regulator junction temperature. Selecting a diode with an
exposed pad will aid the power dissipation of the diode. The
most significant variables that affect the power dissipated by
the LM22675 are the output current, input voltage and oper-
ating frequency. The power dissipated while operating near
the maximum output current and maximum input voltage can
be appreciable. The junction-to-ambient thermal resistance of
the LM22675 will vary with the application. The most signifi-
cant variables are the area of copper in the PC board, the
number of vias under the IC exposed pad and the amount of
forced air cooling provided. The integrity of the solder con-
nection from the IC exposed pad to the PC board is critical.
Excessive voids will greatly diminish the thermal dissipation
capacity. The junction-to-ambient thermal resistance of the
LM22675 PSOP-8 package is specified in the electrical char-
acteristics table under the applicable conditions.
P = (1 - D) x I
P = I
OUT
2
x R x 1.1,
OUT
x V
D
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