SGS Thomson Microelectronics LD29300V90, LD29300V80, LD29300V50, LD29300V33, LD29300D2T90 Datasheet
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3A, VERY LOW DROP V OLTAGE REGULATORS
■ VERY LOW DROPOUT V OLTAGE (TYP. 0.4
AT 3A)
■ GUARANTEED OUTPUT CURRENT UP TO
3A
■ FIXED VOLTAGE WITH±1% TO LERANCE
AT 25°C
■ INTERNAL CURRENT AND THERM AL LIM IT
■ LOGIC C ONTROLLED ELECTRO NIC
SHUTDOWN AVAILABLE IN PPAK
DESCRIPTION
The LD29300 is a high current, high accuracy,
low-dropout voltage regulator series. T hes e
regulators feature 400mV dropout voltage and
very low ground current. Designed forhigh current
loads, these devices are also used in lower
current, ext remel y low dropout-critical systems,
where their tiny dropout voltage and ground
current val ues are important attributes. Typical
applications are in Power supp ly switching post
regulation, Series power supply for monitors,
Series power supplyforVCRs and TVs, Computer
Systems and Battery powered systems.
LD29300
SERIES
D2PAK
TO-220
D2PAK/A
P2PAK/A
P2PAK
SCHEMATIC DIAGRAM FOR ADJUSTABLE VERSION
1/17June 2003
LD29300 SERIES
SCHEMATIC DIAGRAM FOR FIXED VERSION
* Only for version with inhibitfunction.
ORDERING CODES
TO-220
2
PAK (*) D2PAK/A (*) P2PAK (*)(#) P2PAK/A (*)
D
LD29300V15 LD29300D2T15 LD29300D2M15 LD29300P2T15 LD29300P2M15 1.5 V
LD29300V18 LD29300D2T18 LD29300D2M18 LD29300P2T18 LD29300P2M18 1.8 V
LD29300V25 LD29300D2T25 LD29300D2M25 LD29300P2T25 LD29300P2M25 2.5 V
LD29300V33 LD29300D2T33 LD29300D2M33 LD29300P2T33 LD29300P2M33 3.3 V
LD29300V50 LD29300D2T50 LD29300D2M50 LD29300P2T50 LD29300P2M50 5.0 V
LD29300V80 LD29300D2T80 LD29300D2M80 LD29300P2T80 LD29300P2M80 8.0 V
LD29300V90 LD29300D2T90 LD29300D2M90 LD29300P2T90 LD29300P2M90 9.0 V
LD29300P2T LD29300P2M ADJ
(*) Available in Tape & Reel with the suffix "R".
(#) Available on request.
OUTPUT
VOLTAGE
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter Value Unit
V
I
P
T
T
(*) Above 14V the device is automaticallyin shut-down.
AbsoluteMaximumRatings are those beyond which damage to the device may occur. Functional operation under these condition is not implied.
DC Input Voltage
I
Output Current
O
Power Dissipation
D
Storage Temperature Range
stg
Operating Junction Temperature Range
op
30 (*) V
Internally Limited mA
Internally Limited mW
-55 to 150 °C
-40 to 125 °C
2/17
THERMAL DATA
Symbol Parameter TO-220
R
thj-case
R
thj-amb
Thermal Resistance Junction-case
Thermal Resistance Junction-ambient
CONNECTION DIAGRAM (top view)
LD29300 SE RIE S
2
PAK-P2PAK
D
2
D
PAK/A-P2PAK/A
3 3 °C/W
50 60 °C/W
Unit
* Not connected for fixed version.
APPLICATION CIRCUIT
TO-220
D2PAK
P2PAK D2PAK/A
2
PAK/A
P
* Only for version with inhibitfunction.
VO=V
REF
R
1
(1 + )
R
2
3/17
LD29300 SERIES
ELECTRICAL CHARACTERISTICS OF LD29300#15
(I
= 10mA, TJ=25°C,VI=3.5V,V
O
Symbol Parameter Test Conditions Min. Typ. Max. Unit
VIMinimum OperatingInput
Voltage
Output Voltage IO= 10mA to 3A, VI= 3 to 7V
V
O
∆V
∆V
Load Regulation IO= 10mA to 3A 0.2 1.0 %
O
Line Regulation VI= 3 to 13V 0.06 0.5 %
O
SVR Supply Voltage Rejection f = 120 Hz, V
Quiescent Current IO= 1.5A, TJ= -40 to 125°C 20 50 mA
I
q
Short Circuit Current VI-VO= 5.5V 4.5 A
I
sc
Control Input Logic Low OFF MODE, (NOTE 2) TJ= -40 to 125 °C 0.8 V
V
IL
Control Input Logic High ON MODE, (NOTE 2) TJ= -40 to 125 °C 2 V
V
IH
I
Control Input Current TJ= -40 to 125°C V
INH
eN O utput Noise Voltage B
NOTE 1: Guaranteed by design.
NOTE 2: Only for version with Inhibit function.
=2V(Note2),CI= 330nF, CO=10µF, unless otherwise specified)
INH
IO= 10mA to 3A
T
= -40 to 125°C
J
2.5 V
1.485 1.5 1.515 V
T
= -40 to 125°C
J
= 3.5 ± 1V, IO= 1.5A
I
1.47 1.53
65 75 dB
(Note 1)
= 3A, TJ= -40 to 125°C 45 100
I
O
= 13V, V
V
I
= 10Hz to 100KHz IO= 100mA 60 µV
P
=GND TJ= -40 to 125°C 130 180 µA
INH
= 13V 5 10 µA
INH
RMS
ELECTRICAL CHARACTERISTICS OF LD29300#18
(I
= 10mA,TJ= 25°C,VI=3.8V,V
O
Symbol Parameter Test Conditions Min. Typ. Max. Unit
Output Voltage IO= 10mA to 3A, VI= 3 to 7.3V
V
O
∆V
∆V
Load Regulation IO= 10mA to 3A 0.2 1.0 %
O
Line Regulation VI= 3 to 13V 0.06 0.5 %
O
SVR Supply Voltage Rejection f = 120 Hz, V
V
Dropout Voltage IO= 500mA, TJ= -40 to 125°C (Note 2) 0.1 V
DROP
Quiescent Current IO= 1.5A, TJ= -40 to 125°C 20 50 mA
I
q
Short Circuit Current VI-VO= 5.5V 4.5 A
I
sc
Control Input Logic Low OFF MODE, (NOTE 3) TJ= -40 to 125 °C 0.8 V
V
IL
Control Input Logic High ON MODE, (NOTE 3) TJ= -40 to 125 °C 2 V
V
IH
Control Input Current TJ= -40 to 125°C V
I
INH
eN O utput Noise Voltage B
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltageis defined asthe input-to-outputdifferential when the output voltage dropsto 99% of its nominal valuewith V
applied to VI.
NOTE 3: Only for version with Inhibit function.
=2V(Note3),CI= 330nF,CO=10µF, unless otherwisespecified)
INH
1.782 1.8 1.818 V
T
= -40 to 125°C
J
= 3.8 ± 1V, IO= 1.5A
I
1.764 1.836
62 72 dB
(Note 1)
= 1.5A, TJ= -40 to 125°C (Note 2) 0.2
I
O
= 3A, TJ= -40 to 125°C (Note 2) 0.4 0.7
I
O
= 3A, TJ= -40 to 125°C 45 100
I
O
= 13V, V
V
I
= 10Hz to 100KHz IO= 100mA 60 µV
P
=GND TJ= -40 to 125°C 130 180 µA
INH
= 13V 5 10 µA
INH
RMS
+1V
O
4/17
LD29300 SE RIE S
ELECTRICAL CHARACTERISTICS OF LD29300#25
(I
= 10mA,TJ= 25°C,VI=4.5V,V
O
Symbol Parameter Test Conditions Min. Typ. Max. Unit
V
Output Voltage IO= 10mA to 3A, VI= 3.5 to 8V
O
∆V
∆V
Load Regulation IO= 10mA to 3A 0.2 1.0 %
O
Line Regulation VI= 3.5 to 13V 0.06 0.5 %
O
SVR Supply Voltage Rejection f = 120 Hz, V
V
Dropout Voltage IO= 500mA, TJ= -40 to 125°C (Note 2) 0.1 V
DROP
Quiescent Current IO= 1.5A, TJ= -40 to 125°C 20 50 mA
I
q
I
Short Circuit Current VI-VO= 5.5V 4.5 A
sc
Control Input Logic Low OFF MODE, (NOTE 3) TJ= -40 to 125 °C 0.8 V
V
IL
Control Input Logic High ON MODE, (NOTE 3) TJ= -40 to 125 °C 2 V
V
IH
Control Input Current TJ= -40 to 125°C V
I
INH
eN O utput Noise Voltage B
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltageis defined asthe input-to-outputdifferential when the output voltage dropsto 99% of its nominal valuewith VO+1V
applied to V
NOTE 3: Only for version with Inhibit function.
.
I
=2V(Note3),CI= 330nF,CO=10µF, unless otherwisespecified)
INH
2.475 2.5 2.525 V
T
= -40 to 125°C
J
= 4.5 ± 1V, IO= 1.5A
I
2.45 2.55
55 70 dB
(Note 1)
I
= 1.5A, TJ= -40 to 125°C (Note 2) 0.2
O
= 3A, TJ= -40 to 125°C (Note 2) 0.4 0.7
I
O
= 3A, TJ= -40 to 125°C 45 100
I
O
= 13V, V
V
I
= 10Hz to 100KHz IO= 100mA 100 µV
P
=GND TJ= -40 to 125°C 130 180 µA
INH
= 13V 5 10 µA
INH
RMS
ELECTRICAL CHARACTERISTICS OF LD29300#33
(I
= 10mA,TJ= 25°C,VI=5.3V,V
O
Symbol Parameter Test Conditions Min. Typ. Max. Unit
V
Output Voltage IO= 10mA to 3A, VI= 4.3 to 8.8V
O
∆V
∆V
Load Regulation IO= 10mA to 3A 0.2 1.0 %
O
Line Regulation VI= 4.3 to 13V 0.06 0.5 %
O
SVR Supply Voltage Rejection f = 120 Hz, V
V
Dropout Voltage IO= 500mA, TJ= -40 to 125°C (Note 2) 0.1 V
DROP
Quiescent Current IO= 1.5A, TJ= -40 to 125°C 20 50 mA
I
q
Short Circuit Current VI-VO= 5.5V 4.5 A
I
sc
Control Input Logic Low OFF MODE, (NOTE 3) TJ= -40 to 125 °C 0.8 V
V
IL
Control Input Logic High ON MODE, (NOTE 3) TJ= -40 to 125 °C 2 V
V
IH
Control Input Current TJ= -40 to 125°C V
I
INH
eN O utput Noise Voltage B
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltageis defined asthe input-to-outputdifferential when the output voltage dropsto 99% of its nominal valuewith V
applied to VI.
NOTE 3: Only for version with Inhibit function.
=2V(Note3),CI= 330nF,CO=10µF, unless otherwisespecified)
INH
3.267 3.3 3.333 V
T
= -40 to 125°C
J
= 5.3 ± 1V, IO= 1.5A
I
3.234 3.366
52 67 dB
(Note 1)
= 1.5A, TJ= -40 to 125°C (Note 2) 0.2
I
O
= 3A, TJ= -40 to 125°C (Note 2) 0.4 0.7
I
O
= 3A, TJ= -40 to 125°C 45 100
I
O
= 13V, V
V
I
= 10Hz to 100KHz IO= 100mA 132 µV
P
=GND TJ= -40 to 125°C 130 180 µA
INH
= 13V 5 10 µA
INH
RMS
+1V
O
5/17
LD29300 SERIES
ELECTRICAL CHARACTERISTICS OF LD29300#50
(I
= 10mA, TJ=25°C,VI=7V,V
O
Symbol Parameter Test Conditions Min. Typ. Max. Unit
V
Output Voltage IO= 10mA to 3A, VI= 6 to 10.5V
O
∆V
∆V
Load Regulation IO= 10mA to 3A 0.2 1.0 %
O
Line Regulation VI= 6 to 13V 0.06 0.5 %
O
SVR Supply Voltage Rejection f = 120 Hz, V
V
Dropout Voltage IO= 500mA, TJ= -40 to 125°C (Note 2) 0.1 V
DROP
Quiescent Current IO= 1.5A, TJ= -40 to 125°C 20 50 mA
I
q
I
Short Circuit Current VI-VO= 5.5V 4.5 A
sc
Control Input Logic Low OFF MODE, (NOTE 3) TJ= -40 to 125°C 0.8 V
V
IL
Control Input Logic High ON MODE, (NOTE 3) TJ= -40 to 125°C 2 V
V
IH
Control Input Current TJ= -40 to 125°C V
I
INH
eN Output Noise Voltage B
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltageis defined asthe input-to-outputdifferential when the output voltage dropsto 99% of its nominal valuewith VO+1V
applied to V
NOTE 3: Only for version with Inhibit function.
.
I
=2V(Note3),CI= 330nF, CO=10µF, unless otherwise specified)
INH
4.95 5 5.05 V
T
= -40 to 125°C
J
=7 ± 1V, IO=1.5A
I
4.9 5.1
49 64 dB
(Note 1)
I
= 1.5A, TJ= -40 to 125°C (Note 2) 0.2
O
= 3A, TJ= -40 to 125°C (Note 2) 0.4 0.7
I
O
= 3A, TJ= -40 to 125°C 45 100
I
O
= 13V ,V
V
I
= 10Hz to 100KHz IO= 100mA 200 µV
P
=GND TJ= -40 to 125°C 130 180 µA
INH
= 13V 5 10 µA
INH
RMS
ELECTRICAL CHARACTERISTICS OF LD29300#80
(I
= 10mA, TJ= 25°C,VI=10V,V
O
Symbol Parameter Test Conditions Min. Typ. Max. Unit
V
Output Voltage IO= 10mA to 3A, VI= 9 to 13V
O
∆V
∆V
Load Regulation IO= 10mA to 3A 0.2 1.0 %
O
Line Regulation VI= 9 to 13V 0.06 0.5 %
O
SVR Supply Voltage Rejection f = 120 Hz, V
V
Dropout Voltage IO= 500mA, TJ= -40 to 125°C (Note 2) 0.1 V
DROP
Quiescent Current IO= 1.5A, TJ= -40 to 125°C 20 50 mA
I
q
Short Circuit Current VI-VO= 5.5V 4.5 A
I
sc
Control Input Logic Low OFF MODE, (NOTE 3) TJ= -40 to 125°C 0.8 V
V
IL
Control Input Logic High ON MODE, (NOTE 3) TJ= -40 to 125°C 2 V
V
IH
Control Input Current TJ= -40 to 125°C V
I
INH
eN Output Noise Voltage B
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltageis defined asthe input-to-outputdifferential when the output voltage dropsto 99% of its nominal valuewith V
applied to VI.
NOTE 3: Only for version with Inhibit function.
=2V(Note3),CI= 330nF, CO=10µF, unless otherwisespec ified)
INH
7.92 8 8.08 V
T
= -40 to 125°C
J
=9 ± 1V, IO=1.5A
I
7.84 8.16
45 59 dB
(Note 1)
= 1.5A, TJ= -40 to 125°C (Note 2) 0.2
I
O
= 3A, TJ= -40 to 125°C (Note 2) 0.4 0.7
I
O
= 3A, TJ= -40 to 125°C 45 100
I
O
= 13V ,V
V
I
= 10Hz to 100KHz IO= 100mA 320 µV
P
=GND TJ= -40 to 125°C 130 180 µA
INH
= 13V 5 10 µA
INH
RMS
+1V
O
6/17
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