4
LT1579
ELECTRICAL CHARACTERISTICS
PARAMETER CONDITIONS MIN TYP MAX UNITS
Adjust Pin Bias Current T
J
= 25°C 630 nA
(Notes 2, 7)
Minimum Input Voltage I
LOAD
= 0mA ● 2.7 3.2 V
(Note 8)
Minimum Load Current LT1579 V
IN1
= V
IN2
= 3.2V ● 3 µA
Secondary Select Switch from V
IN2
to V
IN1
● 1.2 2.8 V
Threshold Switch from
V
IN1
to V
IN2
● 0.25 0.75 V
Secondary Select Pin V
SS
= 0V ● 1 1.5 µA
Current (Note 7)
Low-Battery Trip Threshold V
IN1
= V
IN2
= V
OUT(NOMINAL)
+ 1V, High-to-Low Transition ● 1.440 1.500 1.550 V
Low-Battery Comparator V
IN1
= V
IN2
= 6V, I
LBO
= 20µA (Note 11) ● 18 30 mV
Hysteresis
Low-Battery Comparator V
IN1
= V
IN2
= 6V, V
LBI
= 1.4V, T
J
= 25°C25nA
Bias Current (Notes 7, 10)
Logic Flag Output Voltage I
SINK
= 20µA ● 0.17 0.45 V
I
SINK
= 5mA ● 0.97 1.3 V
Ripple Rejection V
IN1
– V
OUT
= V
IN2
– V
OUT
= 1.2V (Avg), V
RIPPLE
= 0.5V
P-P
55 70 dB
f
RIPPLE
= 120Hz, I
LOAD
= 150mA
Current Limit V
IN1
= V
IN2
= V
OUT(NOMINAL)
+ 1V, ∆V
OUT
= –0.1V ● 320 400 mA
Input Reverse Leakage V
IN1
= V
IN2
= –20V, V
OUT
= 0V ● 1.0 mA
Current
Reverse Output Current LT1579-3 V
OUT
= 3V, V
IN1
= V
IN2
= 0V 3 12 µA
LT1579-3.3 V
OUT
= 3.3V, V
IN1
= V
IN2
= 0V 3 12 µA
LT1579-5 V
OUT
= 5V, V
IN1
= V
IN2
= 0V 3 12 µA
The ● denotes specifications which apply over the full operating
temperature range.
Note 1: Operating conditions are limited by maximum junction
temperature. The regulated output voltage specification will not apply for
all possible combinations of input voltage and output current. When
operating at maximum input voltage, output current must be limited.
When operating at maximum output current, the input voltage range must
be limited.
Note 2: The LT1579 (adjustable version) is tested and specified with the
adjust pin connected to the output pin and a 3µA DC load.
Note 3: Dropout voltage is the minimum input-to-output voltage
differential required to maintain regulation at the specified output current.
In dropout, the output voltage will be equal to V
IN
– V
DROPOUT
.
Note 4: To meet the requirements for minimum input voltage, the LT1579
(adjustable version) is connected with an external resistor divider for a
3.3V output voltage (see curve of Minimum Input Voltage vs Temperature
in the Typical Performance Characteristics). For this configuration,
V
OUT(NOMINAL)
= 3.3V.
Note 5: Ground pin current will rise at T
J
> 75°C. This is due to internal
circuitry designed to compensate for leakage currents in the output
transistor at high temperatures. This allows quiescent current to be
minimized at lower temperatures, yet maintain output regulation at high
temperatures with light loads. See the curve of Quiescent Current vs
Temperature in the Typical Performance Characteristics.
Note 6: Standby current is the minimum quiescent current for a given
input while the other input supplies the load and bias currents.
Note 7: Current flow is out of the pin.
Note 8: Minimum input voltage is the voltage required on either input to
maintain the 1.5V reference for the error amplifier and low-battery
comparators.
Note 9: Total quiescent current in shutdown will be approximately equal to
I
VIN1
+ I
VIN2
– I
SRC
. Both I
VIN1
and I
VIN2
are specified for worst-case
conditions. I
VIN1
is specified under the condition that V
IN1
> V
IN2
and I
VIN2
is specified under the condition that V
IN2
> V
IN1
. I
SRC
is drawn from the
highest input voltage only. For normal operating conditions, the quiescent
current of the input with the lowest input voltage will be equal to the
specified quiescent current minus I
SRC
. For example, if V
IN1
= 20V, V
IN2
=
6V then I
VIN1
= 5µA and I
VIN2
= 5µA – 3µA = 2µA.
Note 10: The specification applies to both inputs independently
(LBI1, LBI2).
Note 11: Low-battery comparator hysteresis will change as a function of
current in the low-battery comparator output. See the curve of Low-Battery
Comparator Hysteresis vs Sink Current in the Typical Performance
Characteristics.