NCP502, NCV502
80 mA CMOS Low Iq,
Low-Dropout Voltage
Regulator
The NCP502 series of fixed output linear regulators are designed for
handheld communication equipment and portable battery powered
applications which require low quiescent. The NCP502 series features
an ultra−low quiescent current of 40
mA.
Each device contains a
voltage reference unit, an error amplifier, a PMOS power transistor,
resistors for setting output voltage, current limit, and temperature limit
protection circuits.
The NCP502 has been designed to be used with low cost ceramic
capacitors. The device is housed in the micro−miniature SC70−5 and
TSOP−5 surface mount packages. Standard voltage versions are 1.5 V,
1.8 V, 2.5 V, 2.7 V, 2.8 V, 2.9 V, 3.0 V, 3.1 V, 3.3 V, 3.4 V, 3.5 V, 3.6 V,
3.7 V and 5.0 V. Other voltages are available in 100 mV steps.
Features
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MARKING
DIAGRAM
4
12
3
SC70−5
SQ SUFFIX
CASE 419A
5
xxx MG
G
1
5
xxx AYWG
G
1
5
5
1
Low Quiescent Current of 40
mA
Typical
Excellent Line and Load Regulation
Low Output Voltage Option
Output Voltage Accuracy of 2.0%
Industrial Temperature Range of
−40C
to 85C,
NCV502, T
A
=
−40C
to 125C
NCP502: 1.3 V Enable Threshold High, 0.3 V Enable Threshold Low
NCV Prefix for Automotive and Other Applications Requiring
Unique Site and Control Change Requirements; AEC−Q100
Qualified and PPAP Capable
These are Pb−Free Devices
Typical Applications
TSOP−5
(SOT23−5, SC59−5)
SN SUFFIX
CASE 483
xxx = Specific Device Code
A
= Assembly Location
Y
= Year
W
= Work Week
M
= Date Code
G
= Pb−Free Package
(Note: Microdot may be in either location)
PIN CONNECTIONS
V
in
GND
1
2
3
(Top View)
4
N/C
5
V
out
Cellular Phones
Battery Powered Consumer Products
Hand−Held Instruments
Camcorders and Cameras
Battery or
Unregulated
Voltage
1
2
ON
OFF
This device contains 86 active transistors
3
4
5
+
Vout
C2
Enable
ORDERING INFORMATION
See detailed ordering and shipping information in the package
dimensions section on page 7 of this data sheet.
C1
+
Figure 1. Typical Application Diagram
Semiconductor Components Industries, LLC, 2013
May, 2013
−
Rev. 20
1
Publication Order Number:
NCP502/D
NCP502, NCV502
Thermal Resistance, Junction−to−Ambient, SC70−5
R
qJA
NOTE:
Single component mounted on a 80 x 80 x 15 mm FR4 PCB with stated copper head spreading area. Using the following
boundary conditions as stated in EIA/JESD 51−1, 2, 3, 7, 12.
2. True no connect. Printed circuit board traces are allowable.
3. This device series contains ESD protection and exceeds the following tests:
Human Body Model 2000 V per MIL−STD−883, Method 3015.
Machine Model Method 200 V..
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PIN FUNCTION DESCRIPTION
Pin No.
1
2
3
4
5
Pin Name
V
in
Description
Positive power supply input voltage.
Power supply ground.
GND
Enable
N/C
This input is used to place the device into low−power standby. When this input is pulled low, the device is
disabled. If this function is not used, Enable should be connected to Vin.
No internal connection.
V
out
Regulated output voltage.
MAXIMUM RATINGS
Input Voltage
Rating
Symbol
V
in
Value
12
Unit
V
V
V
Enable Voltage
Output Voltage
Enable
V
out
P
D
T
J
−0.3
to V
in
+0.3
−0.3
to V
in
+0.3
Power Dissipation and Thermal Characteristics
Power Dissipation
Operating Junction Temperature
Operating Ambient Temperature
Storage Temperature
Internally Limited
+150
W
C
C
C
NCP502
NCV502
T
A
−40
to +85
−40
to +125
T
stg
−55
to +150
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the
Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect
device reliability.
1. Latchup capability (85C)
100
mA DC with trigger voltage.
THERMAL CHARACTERISTICS
Rating
Thermal Characteristics, TSOP−5 (Note 2)
Thermal Resistance, Junction−to−Air (Note 3)
Symbol
R
qJA
Test Conditions
1 oz Copper Thickness, 100 mm
2
Value
205
400
Unit
C/W
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W
C/W
NCP502, NCV502
ELECTRICAL CHARACTERISTICS
(V
in
= V
out(nom.)
+ 2.0 V, V
enable
= V
in
, C
in
= 1.0
mF,
C
out
= 1.0
mF,
T
J
= 25C, unless otherwise noted.)
Characteristic
Output Voltage (T
A
= 25C, I
out
= 10 mA) V
in
= V
out
(nom.) +1.0 V
1.5 V
1.8 V
2.5 V
2.7 V
2.8 V
2.9 V
3.0 V
3.1 V
3.3 V
3.4 V
3.5 V
3.6 V
3.7 V
5.0 V
Output Voltage (T
A
= T
low
to T
high
, I
out
= 10 mA) V
in
= V
out
(nom.)
1.5 V
1.8 V
2.5 V
2.7 V
2.8 V
2.9 V
3.0 V
3.1 V
3.3 V
3.4 V
3.5 V
3.6 V
3.7 V
5.0 V
Line Regulation (V
in
= V
out
+ 1.0 V to 12 V, I
out
= 10 mA)
Load Regulation (I
out
= 1.0 mA to 80 mA)
Output Current (V
out
= (V
out
at I
out
= 80 mA)
−3%)
Dropout Voltage (T
A
= T
low
to T
high
, I
out
= 80 mA, Measured at V
out
−3.0%)
1.5 V−1.7 V
1.8 V−2.4 V
2.5 V−2.6 V
2.7 V−2.9 V
3.0 V−4.0 V
4.1 V−5.0 V
NCV502
−
5.0 V
Quiescent Current
(Enable Input = 0 V)
(Enable Input = V
in
, I
out
= 1.0 mA to I
o(nom.)
)
Output Short Circuit Current (V
out
= 0 V)
Ripple Rejection (f = 1.0 kHz, 15 mA)
Output Voltage Noise (f = 100 Hz to 100 kHz)
Enable Input Threshold Voltage (NCP502)
(Voltage Increasing, Output Turns On, Logic High)
(Voltage Decreasing, Output Turns Off, Logic Low)
Output Voltage Temperature Coefficient
4. Maximum package power dissipation limits must be observed.
T
*T
A
PD
+
J(max)
R
qJA
5. Low duty cycle pulse techniques are used during testing to maintain the junction temperature as close to ambient as possible.
Symbol
V
out
Min
1.455
1.746
2.425
2.646
2.744
2.842
2.94
3.038
3.234
3.332
3.43
3.528
3.626
4.900
1.455
1.746
2.425
2.619
2.716
2.813
2.910
3.007
3.201
3.298
3.43
3.528
3.626
4.900
−
−
80
Typ
1.5
1.8
2.5
2.7
2.8
2.9
3.0
3.1
3.3
3.4
3.5
3.6
3.7
5.0
1.5
1.8
2.5
2.7
2.8
2.9
3.0
3.1
3.3
3.4
3.5
3.6
3.7
5.0
0.4
0.2
180
Max
1.545
1.854
2.575
2.754
2.856
2.958
3.06
3.162
3.366
3.468
3.57
3.672
3.774
5.100
V
1.545
1.854
2.575
2.781
2.884
2.987
3.09
3.193
3.399
3.502
3.57
3.672
3.774
5.100
3.0
0.8
−
mV/V
mV/mA
mA
mV
−
−
−
−
−
−
−
I
Q
−
−
90
−
−
1.3
−
−
1500
1300
1000
850
850
600
700
0.1
40
200
55
180
−
−
100
1900
1700
1400
1300
1200
900
1100
1.0
90
500
−
−
−
0.3
−
ppm/C
mA
Unit
V
V
out
Reg
line
Reg
load
I
o(nom.)
V
in
−V
out
I
out(max)
RR
V
n
V
th(en)
mA
dB
mVrms
V
T
C
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3
NCP502, NCV502
45
I
Q
, QUIESCENT CURRENT (mA)
I
Q
, QUIESCENT CURRENT (mA)
40
35
30
25
20
15
10
5
0
0
1
2
3
4
5
6
7
V
OUT
= 3.0 V
45
42.5
40
37.5
35
32.5
30
−60
V
IN
= 5.0 V
V
OUT
= 3.0 V
−40
−20
0
20
40
60
80
100
V
IN
, INPUT VOLTAGE (V)
T, TEMPERATURE (C)
Figure 2. Quiescent Current versus Input Voltage
Figure 3. Quiescent Current versus Temperature
V
IN
, INPUT
VOLTAGE (V)
5
4
60
40
20
0
−20
−40
0
10
20
30
40
50
60
V
IN
= 4.0 V to 5.0 V
ENABLE
VOLTAGE (V)
6
10
5
0
V
IN
= 4.0 V
V
ENABLE
= 0 to 4.0 V
OUTPUT VOLTAGE
DEVIATION (mV)
C
OUT
= 1.0
mF
I
OUT
= 30 mA
V
OUT
, OUTPUT
VOLTAGE (V)
3.0
2.0
1.0
0
0
0.1
0.2
0.3
0.4
0.5
0.6
I
OUT
= 30 mA
C
OUT
= 1.0
mF
70
80
90
100
0.7
0.8
0.9 1.0
t, TIME (ms)
t, TIME (ms)
Figure 4. Line Transient Response
Figure 5. Enable Response
I
OUT
, OUTPUT
CURRENT (mA)
60
RIPPLE REJECTION (dB)
30
0
100
C
OUT
= 1.0
mF
V
OUT
= 3.0 V
V
IN
= 4.0 V
70
60
50
40
30
20
0.01
V
IN
= 4.5 V + 0.5 V
P−P
V
OUT
= 3.0 V
I
OUT
= 30 mA
C
OUT
= 1.0
mF
0.1
1.0
FREQUENCY (kHz)
10
100
OUTPUT VOLTAGE
DEVIATION (mV)
50
0
−50
0
−100
50
100
150
200
250
300
350
400
450
t, TIME (ms)
Figure 6. Load Transient Response
Figure 7. Ripple Rejection/Frequency
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4
NCP502, NCV502
2.995
V
OUT
, OUTPUT VOLTAGE (V)
2.99
2.985
2.98
2.975
2.97
2.965
2.96
−60
−40
−20
0
20
40
I
OUT
= 10 mA
V
IN
= 12 V
V
IN
= 4.0 V
60
80
100
T, TEMPERATURE (C)
Figure 8. Output Voltage versus Temperature
3.5
V
OUT
, OUTPUT VOLTAGE (V)
3
2.5
2
1.5
1
0.5
0
0
C
IN
= 1.0
mF
C
OUT
= 1.0
mF
V
ENABLE
= V
IN
1
2
3
4
5
6
V
IN
, INPUT VOLTAGE (V)
Figure 9. Output Voltage versus Input Voltage
V
IN
−
V
OUT
, DROPOUT VOLTAGE (mV)
1200
1000
80 mA LOAD
800
600
400
200
0
10 mA LOAD
−50
−25
0
25
50
75
100
125
T, TEMPERATURE (C)
40 mA LOAD
Figure 10. Dropout Voltage versus Temperature
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