Datasheet
LP3883
www.ti.com
SNVS223F –NOVEMBER 2002–REVISED APRIL 2013
ELECTRICAL CHARACTERISTICS
Limits in standard typeface are for T
J
= 25°C, and limits in boldface type apply over the full operating temperature range.
Unless otherwise specified: V
IN
= V
O
(NOM) + 1V, V
BIAS
= 4.5V, I
L
= 10 mA, C
IN
= C
OUT
= 4.7 µF, V
S/D
= V
BIAS
.
Symbol Parameter Conditions Typical
(1)
MIN
(2)
MAX
(2)
Units
V
O
Output Voltage Tolerance 10 mA < I
L
< 3A 1.198 1.234
V
O
(NOM) + 1V ≤ V
IN
≤ 5.5V 1.216
4.5V ≤ V
BIAS
≤ 6V 1.186 1.246
1.478 1.522
1.5 V
1.455 1.545
1.773 1.827
1.8
1.746 1.854
ΔV
O
/ΔV
IN
Output Voltage Line Regulation
(3)
V
O
(NOM) + 1V ≤ V
IN
≤ 5.5V 0.01 %/V
ΔV
O
/ΔI
L
Output Voltage Load Regulation
(4)
10 mA < I
L
< 3A 0.04
%/A
0.06
V
DO
Dropout Voltage
(5)
I
L
= 3A 270
210 mV
420
I
Q
(V
IN
) Quiescent Current Drawn from V
IN
10 mA < I
L
< 3A 7
3 mA
Supply 8
V
S/D
≤ 0.3V 1
0.03 µA
30
I
Q
(V
BIAS
) Quiescent Current Drawn from 10 mA < I
L
< 3A 2
1 mA
V
BIAS
Supply 3
V
S/D
≤ 0.3V 1
0.03 µA
30
I
SC
Short-Circuit Current V
OUT
= 0V 6 A
Shutdown Input
V
SDT
Output Turn-off Threshold Output = ON 0.7 1.3
V
Output = OFF 0.7 0.3
Td (OFF) Turn-OFF Delay R
LOAD
X C
OUT
<< Td (OFF) 20
µs
Td (ON) Turn-ON Delay R
LOAD
X C
OUT
<< Td (ON) 15
I
S/D
S/D Input Current V
S/D
=1.3V 1
µA
V
S/D
≤ 0.3V −1
AC Parameters
PSRR (V
IN
) Ripple Rejection for V
IN
Input V
IN
= V
OUT
+1V, f = 120 Hz
80
Voltage
V
IN
= V
OUT
+ 1V, f = 1 kHz 65
dB
PSRR (V
BIAS
) Ripple Rejection for V
BIAS
Voltage V
BIAS
= V
OUT
+ 3V, f = 120 Hz 70
V
BIAS
= V
OUT
+ 3V, f = 1 kHz 65
Output Noise Density f = 120 Hz µV/root−H
1
z
e
n
Output Noise Voltage BW = 10 Hz − 100 kHz 150
µV (rms)
V
OUT
= 1.8V
BW = 300 Hz − 300 kHz 90
(1) Typical numbers represent the most likely parametric norm for 25°C operation.
(2) Limits are ensured through testing, statistical correlation, or design.
(3) Output voltage line regulation is defined as the change in output voltage from nominal value resulting from a change in input voltage.
(4) Output voltage load regulation is defined as the change in output voltage from nominal value as the load current increases from no load
to full load.
(5) Dropout voltage is defined as the minimum input to output differential required to maintain the output with 2% of nominal value.
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