LP38691/LP38693
Symbol
e
n
V
O
(LEAK)
V
EN
Parameter
Output Noise
Output Leakage Current
Enable Voltage (LP38693 Only)
Conditions
BW = 10Hz to 10kHz
V
O
= 3.3V
V
O
= V
O
(NOM) + 1V @ 10V
IN
Output = OFF
Output = ON, V
IN
= 4V
Output = ON, V
IN
= 6V
Output = ON, V
IN
= 10V
Min
Typ
(Note 4)
0.7
0.5
Max
Units
µV/
12
0.4
µA
1.8
3.0
4.0
-1
0.001
1
V
I
EN
Enable Pin Leakage (LP38693
Only)
V
EN
= 0V or 10V, V
IN
= 10V
µA
Note 1:
Absolute maximum ratings indicate limits beyond which damage to the component may occur. Operating ratings indicate conditions for which the device
is intended to be functional, but do not guarantee specific performance limits. For guaranteed specifications, see Electrical Characteristics. Specifications do not
apply when operating the device outside of its rated operating conditions.
Note 2:
At elevated temperatures, device power dissipation must be derated based on package thermal resistance and heatsink values (if a heatsink is used).
The junction-to-ambient thermal resistance (
θ
J-A
) for the TO-252 is approximately 90°C/W for a PC board mounting with the device soldered down to minimum
copper area (less than 0.1 square inch). If one square inch of copper is used as a heat dissipator for the TO-252, the
θ
J-A
drops to approximately 50°C/W. The
SOT-223 package has a
θ
J-A
of approximately 125°C/W when soldered down to a minimum sized pattern (less than 0.1 square inch) and approximately 70°C/W
when soldered to a copper area of one square inch. The
θ
J-A
values for the LLP package are also dependent on trace area, copper thickness, and the number
of thermal vias used (refer to application note AN-1187). If power disspation causes the junction temperature to exceed specified limits, the device will go into
thermal shutdown.
Note 3:
ESD is tested using the human body model which is a 100pF capacitor discharged through a 1.5k resistor into each pin.
Note 4:
Typical numbers represent the most likely parametric norm for 25°C operation.
Note 5:
If used in a dual-supply system where the regulator load is returned to a negative supply, the output pin must be diode clamped to ground.
Note 6:
Output voltage line regulation is defined as the change in output voltage from nominal value resulting from a change in input voltage.
Note 7:
Output voltage load regulation is defined as the change in output voltage from nominal value as the load current increases from 1mA to full load.
Note 8:
Dropout voltage is defined as the minimum input to output differential required to maintain the output within 100mV of nominal value.
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