LT3032EDE#TRPBF Linear Technology, LT3032EDE#TRPBF Datasheet - Page 4
LT3032EDE#TRPBF
Manufacturer Part Number
LT3032EDE#TRPBF
Description
IC REG LDO ADJ .15A DUAL 14DFN
Manufacturer
Linear Technology
Datasheet
1.LT3032EDEPBF.pdf
(22 pages)
Specifications of LT3032EDE#TRPBF
Regulator Topology
Positive and Negative Adjustable
Voltage - Output
±1.22 ~ ±20 V
Voltage - Input
±2.3 ~ ±20 V
Voltage - Dropout (typical)
0.27V @ 150mA, 0.3V @ -150mA
Number Of Regulators
2
Current - Output
150mA
Current - Limit (min)
170mA
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
14-DFN
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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LT3032 Series
elecTrical characTerisTics
temperature range, otherwise specifications are at T
PARAMETER
SHDNP Pin Current (Note 9)
SHDNN Pin Current
(Note 9)
Quiescent Current in Shutdown
Output Voltage Noise (10Hz to 100kHz)
Ripple Rejection
V
Current Limit (Note 12)
INP Reverse Leakage Current
INN Reverse Leakage Current
Reverse Output Current
(Notes 5, 11)
Note 1: Stresses beyond those listed under Absolute Maximum Ratings
may cause permanent damage to the device. Exposure to any Absolute
Maximum Rating condition for extended periods may affect device
reliability and lifetime.
Note 2: The LT3032 is tested and specified under pulse load conditions
such that T
of the LT3032E over the full –40°C to 125°C operating junction
temperature range is assured by design, characterization, and correlation
with statistical process controls. The LT3032I regulators are guaranteed
over the full –40°C to 125°C operating junction temperature range.
Note 3: Parasitic diodes exist internally between the INN pin and the OUTN,
ADJN, and SHDNN pins. These pins cannot be pulled more than 0.5V
below the INN pin during fault conditions, and must remain at a voltage
more positive than the INN pin during operation.
Note 4: Operating conditions are limited by maximum junction
temperature. Specifications do not apply for all possible combinations of
input voltages and output currents. When operating at maximum input
voltages, the output current ranges must be limited. When operating at
maximum output currents, the input voltage ranges must be limited.
Note 5: The LT3032 is tested and specified for these conditions with the
ADJP pin tied to the OUTP pin and the ADJN pin tied to the OUTN pin.
Note 6: To satisfy requirements for minimum input voltage, the LT3032 is
tested and specified for these conditions with an external resistor divider
(two 250k resistors) from OUTP/OUTN to the corresponding ADJP/ADJN
pin to give an output voltage of ±2.44V. The external resistor divider adds a
5µA DC load on the output.
Note 7: Dropout voltage is the minimum input-to-output voltage
differential needed to maintain regulation at a specified output current. In
dropout, output voltage equals:
4
RIPPLE
V
INP/INN
= 0.5V
J
– V
≅ T
P-P,
A
DROPOUT
. The LT3032E is 100% tested at T
f
RIPPLE
= 120Hz
LT3032-5
LT3032
CONDITIONS
V
V
V
V
V
V
V
C
C
V
V
V
V
V
V
V
V
V
V
A
SHDNP
SHDNP
SHDNN
SHDNN
SHDNN
INP
INN
OUTP
OUTN
INP
INN
INP
INN
INP
INN
INP
INN
OUTP
OUTP
= 25°C. Performance
= 6V, V
to V
= 7V, V
= 2.3V or V
= –20V, V
= –6V, V
to V
= –7V, V
= –2.3V or V
= 20V, V
= 10µF , C
= 10µF , C
= 5V, V
= V
= 0V
= 20V
= 0V
= 15V
= -15V
OUTP
OUTN
ADJP
A
SHDNP
OUTP
= 25°C.
SHDNN
OUTN
OUTN
INP
= 1.5V (Average), I
= –1.5V (Average), I
OUTP
= 1.22V, V
BYPP
BYPN
OUTP(NOMINAL)
< 5V
= 0V
OUTP(NOMINAL)
The
, V
= 0V, V
= 0V
= 0V
= 0V, V
0.01µF , I
ADJN
0.01µF , I
l
INP
denotes the specifications which apply over the full operating
, V
INN
INP
SHDNN
< 1.22V
LOAD
LOAD
= 0V
For lower output voltages, dropout voltage is limited by the minimum
input voltage specification under some output voltage/load conditions;
see curves for Minimum INN Voltage and Minimum INP Voltage in Typical
Performance Characteristics. LTC is unable to guarantee Maximum
Dropout Voltage specifications at 50mA and 150mA due to production
test limitations with Kelvin-Sensing the package pins. Please consult the
Typical Performance Characteristics for curves of Dropout Voltage as a
function of Output Load Current and Temperature.
Note 8: GND pin current is tested with V
V
while operating in its dropout region. This is the worst-case GND pin
current. GND pin current decreases slightly at higher input voltages.
Note 9: Positive current flow is into the pin. Negative current flow is out of
the pin.
Note 10: For input-to-output differential voltages from INN to OUTN
greater than –7V, a –50µA load is needed to maintain regulation.
Note 11: Reverse output current is tested with the INP pin grounded and
the OUTP pin forced to the nominal output voltage. This current flows into
the OUTP pin and out the GND pin.
Note 12: Positive side current limit is tested at V
V
limit is tested at V
negative).
Note 13: LTC is unable to guarantee load regulation specifications on
fixed voltage versions of the LT3032 due to production test limitations
with Kelvin-Sensing the package pins. Please consult the Typical
Performance Characteristics for curves of Load Regulation as a function of
Temperature.
= 0V
+ 1V, ΔV
OUTN(NOMINAL)
OUTP(NOMINAL)
– 1V, ΔV
LOAD
= 150mA
= –150mA
LOAD
= Open Circuit
= 100mA
OUTP
= –100mA
OUTN
= –0.1V
= 0.1V
+ 1V (whichever is more positive). Negative side current
and a current source load. This means the device is tested
INN
= –2.3V or V
l
l
l
l
l
l
OUTN(NOMINAL)
MIN
170
170
–1
–1
50
46
INP
= V
OUTP(NOMINAL)
TYP
400
350
0.1
–3
–3
20
30
68
54
10
INP
1
6
5
– 1V (whichever is more
= 2.3V or
MAX
–10
–9
15
–1
20
10
1
4
1
8
1
or V
INN
µV
µV
UNITS
3032fb
=
RMS
RMS
mA
mA
mA
mA
mA
mA
µA
µA
µA
µA
µA
µA
µA
dB
dB
µA
µA
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