LM2940CT-9.0/NOPB National Semiconductor, LM2940CT-9.0/NOPB Datasheet - Page 14

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LM2940CT-9.0/NOPB

Manufacturer Part Number
LM2940CT-9.0/NOPB
Description
IC REGULATOR LDO 1A TO220-3
Manufacturer
National Semiconductor
Datasheet

Specifications of LM2940CT-9.0/NOPB

Regulator Topology
Positive Fixed
Voltage - Output
9V
Voltage - Input
10.5 ~ 26 V
Voltage - Dropout (typical)
0.5V @ 1A
Number Of Regulators
1
Current - Output
1A
Operating Temperature
0°C ~ 125°C
Mounting Type
Through Hole
Package / Case
TO-220-3 (Straight Leads)
Primary Input Voltage
26V
Dropout Voltage Vdo
500mV
No. Of Pins
3
Output Current
1A
Operating Temperature Range
0°C To +125°C
Msl
MSL 1 - Unlimited
Filter Terminals
Through Hole
Rohs Compliant
Yes
Output Voltage Fixed
9V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Limit (min)
-
Other names
*LM2940CT-9.0
*LM2940CT-9.0/NOPB
LM2940CT-9.0
www.national.com
   θ
When a value for θ
heatsink must be selected that has a value that is less than
or equal to this number.
θ
in the catalog, or shown in a curve that plots temperature rise
vs power dissipation for the heatsink.
HEATSINKING TO-263 PACKAGE PARTS
The TO-263 (“S”) package uses a copper plane on the PCB
and the PCB itself as a heatsink. To optimize the heat sinking
ability of the plane and PCB, solder the tab of the package to
the plane.
Figure 3 shows for the TO-263 the measured values of θ
for different copper area sizes using a typical PCB with 1
ounce copper and no solder mask over the copper area used
for heatsinking.
FIGURE 3. θ
As shown in the figure, increasing the copper area beyond 1
square inch produces very little improvement. It should also
be observed that the minimum value of θ
package mounted to a PCB is 32°C/W.
As a design aid, Figure 4 shows the maximum allowable pow-
er dissipation compared to ambient temperature for the
TO-263 device. This assumes a θ
inch of 1 ounce copper and a maximum junction temperature
(T
(H−A)
J
) of 125°C.
is specified numerically by the heatsink manufacturer
(C−H)
(JA)
is defined as the thermal resistance between
the case and the surface of the heatsink. The
value of θ
about 2.5°C/W (depending on method of at-
tachment, insulator, etc.). If the exact value is
unknown, 2°C/W should be assumed for θ
−H)
vs. Copper (1 ounce) Area for the TO-263
.
(H−A)
is found using the equation shown, a
(C−H)
Package
will vary from about 1.5°C/W to
(JA)
of 35°C/W for 1 square
(JA)
for the TO-263
882238
(JA)
(C
14
HEATSINKING SOT-223 PACKAGE PARTS
The SOT-223 (“MP”) packages use a copper plane on the
PCB and the PCB itself as a heatsink. To optimize the heat
sinking ability of the plane and PCB, solder the tab of the
package to the plane.
Figure 5 and Figure 6 show the information for the SOT-223
package. Figure 6 assumes a θ
inch of 1 ounce copper and 51°C/W for 1 square inch of 2
ounce copper, with a maximum ambient temperature (T
85°C and a maximum junction temperature (T
For techniques for improving the thermal resistance and pow-
er dissipation for the SOT-223 package, please refer to Ap-
plication Note AN-1028.
FIGURE 5. θ
FIGURE 4. Maximum Power Dissipation vs. T
(JA)
vs. Copper (2 ounce) Area for the SOT-223
TO-263 Package
Package
(JA)
of 74°C/W for 1 square
882240
J
) of 125°C.
882239
A
for the
A
) of

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