MCP1702T-2802E/MB Microchip Technology, MCP1702T-2802E/MB Datasheet - Page 15

IC REG LDO 2.8V 250MA SOT89-3

MCP1702T-2802E/MB

Manufacturer Part Number
MCP1702T-2802E/MB
Description
IC REG LDO 2.8V 250MA SOT89-3
Manufacturer
Microchip Technology
Datasheets

Specifications of MCP1702T-2802E/MB

Regulator Topology
Positive Fixed
Voltage - Output
2.8V
Voltage - Input
Up to 13.2V
Voltage - Dropout (typical)
0.625V @ 250mA
Number Of Regulators
1
Current - Output
250mA (Min)
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
SC-62, SOT-89, TO-243 (3 Leads + Tab)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Limit (min)
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
MCP1702T-2802E/MBTR

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6.3
Internal power dissipation, junction temperature rise,
junction temperature and maximum power dissipation
are calculated in the following example. The power
dissipation, as a result of ground current, is small
enough to be neglected.
6.3.1
Device Junction Temperature Rise
The internal junction temperature rise is a function of
internal power dissipation and the thermal resistance
from junction to ambient for the application. The
thermal resistance from junction to ambient (R
derived from an EIA/JEDEC standard for measuring
thermal resistance for small surface mount packages.
The EIA/JEDEC specification is JESD51-7, “High
Effective Thermal Conductivity Test Board for Leaded
Surface Mount Packages”. The standard describes the
test method and board specifications for measuring the
thermal resistance from junction to ambient. The actual
thermal resistance for a particular application can vary
depending on many factors, such as copper area and
thickness. Refer to AN792, “A Method to Determine
How Much Power a SOT-23 Can Dissipate in an
Application”,
regarding this subject.
 2010 Microchip Technology Inc.
Package
Package Type
Input Voltage
LDO Output Voltages and Currents
Maximum Ambient Temperature
Internal Power Dissipation
Internal Power dissipation is the product of the LDO
output current times the voltage across the LDO
(V
IN
T
P
T
T
to V
J(RISE)
LDO(MAX)
JRISE
JRISE
T
A(MAX)
Voltage Regulator
OUT
V
P
P
I
OUT
OUT
LDO
LDO
POWER DISSIPATION EXAMPLE
V
IN
).
= P
= 218.1 milli-Watts x 336.0
= 73.3
(DS00792),
=
=
=
=
=
=
=
=
TOTAL
SOT-23A
2.8V to 3.2V
1.8V
150 mA
+40°C
(V
I
(3.2V - (0.97 x 1.8V)) x 150 mA
218.1 milli-Watts
OUT(MAX)
°
C
IN(MAX)
x Rq
for
JA
- V
OUT(MIN)
more
°
) x
information
C/Watt
JA
) is
Junction Temperature Estimate
To estimate the internal junction temperature, the
calculated temperature rise is added to the ambient or
offset temperature. For this example, the worst-case
junction temperature is estimated below.
Maximum Package Power Dissipation at +40°C
Ambient Temperature Assuming Minimal Copper
Usage.
6.4
The MCP1702 can be used not only as a regulator, but
also as a low quiescent current voltage reference. In
many microcontroller applications, the initial accuracy
of the reference can be calibrated using production test
equipment or by using a ratio measurement. When the
initial accuracy is calibrated, the thermal stability and
line regulation tolerance are the only errors introduced
by the MCP1702 LDO. The low-cost, low quiescent
current and small ceramic output capacitor are all
advantages when using the MCP1702 as a voltage
reference.
FIGURE 6-2:
Voltage Reference.
SOT-23 (336.0°C/Watt = R
SOT-89 (153.3°C/Watt = R
TO92 (131.9°C/Watt = R
C
1 µF
IN
2 µA Bias
P
P
P
P
P
P
Bridge Sensor
Voltage Reference
D(MAX)
D(MAX)
D(MAX)
D(MAX)
D(MAX)
D(MAX)
MCP1702
V
GND
IN
T
T
V
J
J
OUT
Ratio Metric Reference
= T
= 113.3°C
=
=
=
=
=
=
C
1 µF
JRISE
Using the MCP1702 as a
(+125°C - 40°C) / 336°C/W
253 milli-Watts
(+125°C - 40°C) / 153.3°C/W
0.554 Watts
(+125°C - 40°C) / 131.9°C/W
644 milli-Watts
OUT
JA
+ T
)
JA
JA
MCP1702
)
)
A(MAX)
DS22008E-page 15
V
ADO
AD1
Microcontroller
REF
PIC
®

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