MCP1725-5002E/SN Microchip Technology, MCP1725-5002E/SN Datasheet - Page 20
MCP1725-5002E/SN
Manufacturer Part Number
MCP1725-5002E/SN
Description
IC LDO REG 500MA 5.0V 8SOIC
Manufacturer
Microchip Technology
Datasheet
1.MCP1725-3302ESN.pdf
(32 pages)
Specifications of MCP1725-5002E/SN
Regulator Topology
Positive Fixed
Voltage - Output
5V
Voltage - Input
Up to 6V
Voltage - Dropout (typical)
0.21V @ 500mA
Number Of Regulators
1
Current - Output
500mA (Min)
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Primary Input Voltage
5.35V
Output Voltage
5V
Dropout Voltage Vdo
210mV
No. Of Pins
8
Output Current
500mA
Voltage Regulator Case Style
SOIC
Operating Temperature Range
-40°C To +125°C
Number Of Outputs
1
Polarity
Positive
Input Voltage Max
6 V
Output Type
Fixed
Dropout Voltage (max)
0.35 V at 500 mA
Line Regulation
0.05 % / V
Load Regulation
0.5 %
Voltage Regulation Accuracy
2 %
Maximum Operating Temperature
+ 125 C
Mounting Style
SMD/SMT
Minimum Operating Temperature
- 40 C
Output Voltage Fixed
5V
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Limit (min)
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
MCP1725
5.0
5.1
The MCP1725 is used for applications that require high
LDO output current and a power good output.
FIGURE 5-1:
5.1.1
5.2
5.2.1
The internal power dissipation within the MCP1725 is a
function of input voltage, output voltage, output current,
and quiescent current.
calculate the internal power dissipation for the LDO.
EQUATION 5-1:
DS22026B-page 20
Off
V
Where:
IN
Input Voltage Range
P
On
= 3.3V
V
LDO
Temperature Rise
V
OUT(MIN)
C
10 µF
IN(MAX)
V
1
APPLICATION CIRCUITS/
ISSUES
Typical Application
Power Calculations
Package Type
P
P
DROPOUT (max)
V
V
=
V
DISS
LDO
APPLICATION CONDITIONS
OUT
POWER DISSIPATION
IN
IN
(
V
maximum
minimum
IN MAX )
1
2
3
4
(typical)
(typical)
MCP1725-2.5
(
= LDO Pass device internal
= Maximum input voltage
= LDO minimum output voltage
V
V
SHDN
GND PWRGD
IN
IN
I
OUT
power dissipation
Typical Application Circuit.
)
C
–
Sense
Equation 5-1
DELAY
V
V
OUT
OUT MIN
=
=
=
=
=
=
=
=
=
8
7
6
5
(
2x3 DFN8
3.3V ± 5%
3.465V
3.135V
0.350V
2.5V
0.5A maximum
0.4W
30.4
)
1000 pF
) I
C
10kΩ
3
×
V
°
can be used to
C
OUT
R
OUT MAX )
1
= 2.5V @ 0.5A
PWRGD
(
C
10 µF
)
2
In addition to the LDO pass element power dissipation,
there is power dissipation within the MCP1725 as a
result of quiescent or ground current. The power
dissipation as a result of the ground current can be
calculated using the following equation:
EQUATION 5-2:
The total power dissipated within the MCP1725 is the
sum of the power dissipated in the LDO pass device
and the P(I
construction, the typical I
120 µA. Operating at 3.465V results in a power dissipa-
tion of 0.42 milli-Watts. For most applications, this is
small compared to the LDO pass device power
dissipation and can be neglected.
The
temperature specified for the MCP1725 is +125
estimate the internal junction temperature of the
MCP1725, the total internal power dissipation is
multiplied by the thermal resistance from junction to
ambient (Rθ
from junction to ambient for the 2x3 DFN package is
estimated at 76
EQUATION 5-3:
Where:
T
P
T
J(MAX)
TOTAL
V
AMAX
Rθ
maximum
IN(MAX)
P
JA
T
I(GND
J MAX
I
VIN
(
JA
= Maximum continuous junction
= Total device power dissipation
= Thermal resistance from junction to
= Maximum ambient temperature
GND
P
) of the device. The thermal resistance
I GND
°
temperature
ambient
(
C/W.
)
= Power dissipation due to the
= Maximum input voltage
= Current flowing in the V
) term. Because of the CMOS
=
continuous
)
P
quiescent current of the LDO
with no LDO output current
(LDO quiescent current)
TOTAL
=
© 2007 Microchip Technology Inc.
V
IN MAX
GND
(
×
Rθ
for the MCP1725 is
)
JA
operating
×
+
I
VIN
T
AMAX
IN
junction
pin
°
C
.
To
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