STMicroelectronics LF25ABP Very low drop voltage regulators with inhibit Datasheet

LFxxAB
LFxxC
Very low drop voltage regulators with inhibit
Features
■
Very low dropout voltage (0.45V)
■
Very low quiescent current (typ. 50 µA in OFF
mode, 500 µA in ON mode)
■
Output current up to 500 mA
■
Logic-controlled electronic shutdown
■
Output voltages of 1.5; 1.8; 2.5; 2.7; 3; 3.3; 3.5;
5; 6; 8; 8.5; 9; 12V
■
Internal current and thermal limit
■
Only 2.2 µF for stability
■
Available in ± 1% (AB) or ± 2% (C) selection at
25°C
■
Supply voltage rejection: 80db (typ.)
■
Temperature range: -40 to 125°C
Description
The LFxxAB/LFxxC are very Low Drop regulators
available in PENTAWATT, TO-220, TO-220FP,
DPAK and PPAK package and in a wide range of
output voltages.
The very Low Drop voltage (0.45V) and the very
low quiescent current make them particularly
suitable for Low Noise, Low Power applications
and specially in battery powered systems.
Table 1.
TO-220FP
TO-220
PPAK
DPAK
PENTAWATT
In the 5 pins configuration (PENTAWATT and
PPAK) a Shutdown Logic Control function is
available (pin 2, TTL compatible). This means that
when the device is used as a local regulator, it is
possible to put a part of the board in standby,
decreasing the total power consumption. In the
three terminal configuration the device has the
same electrical performance, but is fixed in the
ON state. It requires only a 2.2 µF capacitor for
stability allowing space and cost saving.
Device summary
Order codes
July 2007
LF15C
LF27AB
LF40C
LF80AB
LF15AB
LF30C
LF40AB
LF85C
LF18C
LF30AB
LF50C
LF85AB
LF18AB
LF33C
LF50AB
LF90C
LF25C
LF33AB
LF60C
LF90AB
LF25AB
LF35C
LF60AB
LF120C
LF27C
LF35AB
LF80C
LF120AB
Rev. 18
1/45
www.st.com
45
LFxxAB - LFxxC
Contents
1
Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
2
Pin configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
3
Maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
4
Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
5
Typical performance characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
6
Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
7
Order codes
8
Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
2/45
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
LFxxAB - LFxxC
1
Diagram
Figure 1.
Block diagram
Diagram
3/45
Pin configuration
LFxxAB - LFxxC
2
Pin configuration
Figure 2.
Pin connections (top view)
TO-220
TO-220FP
DPAK
PPAK
PENTAWATT
4/45
LFxxAB - LFxxC
Maximum ratings
3
Maximum ratings
Table 2.
Absolute maximum ratings
Symbol
Parameter
Value
Unit
-0.5 to 40(1)
V
VI
DC input voltage
IO
Output current
Internally Limited
PTOT
Power dissipation
Internally Limited
TSTG
Storage temperature range
-40 to 150
°C
TOP
Operating junction temperature range
-40 to 125
°C
1. For 18 < VI < 40 the regulator is in shut-down
Table 3.
Symbol
Thermal data
Parameter
PENTAWATT
TO-220
TO-220FP
DPAK/PPAK
Unit
RthJC
Thermal resistance junction-case
3
3
5
8
°C/W
RthJA
Thermal resistance junction-ambient
50
50
60
100
°C/W
Figure 3.
Test circuit
5/45
Electrical characteristics
LFxxAB - LFxxC
4
Electrical characteristics
Table 4.
Electrical characteristics for LF15AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF, CO
= 2.2 μF unless otherwise specified.)
Symbol
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 3.5 V
1.485
1.5
1.515
IO = 50 mA, VI = 3.5 V, Ta = -25 to 85°C
1.470
1.530
2.5
16
Unit
V
IO = 500 mA
1
V
A
ΔVO
Line regulation
VI = 2.5 to 16 V, IO = 5 mA
2
10
mV
ΔVO
Load regulation
VI = 2.8 V, IO = 5 to 500 mA
2
10
mV
0.5
1
VI = 2.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
mA
VI = 2.8 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
IO = 5 mA, VI = 3.5 ± 1 V
12
OFF MODE
50
f = 120 Hz
82
f = 1 KHz
77
f = 10 KHz
65
100
µA
dB
eN
Output noise voltage
B = 10 Hz to 100 KHz
50
µV
Vd
Dropout voltage
IO = 200 mA
1
V
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
6/45
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 5.
Symbol
Electrical characteristics
Electrical characteristics for LF15C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF, CO =
2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 3.5 V
1.47
1.5
1.53
IO = 50 mA, VI = 3.5 V, Ta = -25 to 85°C
1.44
1.56
IO = 500 mA
2.5
16
Unit
V
1
V
A
ΔVO
Line regulation
VI = 2.5 to 16 V, IO = 5 mA
2
10
mV
ΔVO
Load regulation
VI = 2.8 V, IO = 5 to 500 mA
2
10
mV
0.5
1
VI = 2.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
mA
VI = 2.8 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
IO = 5 mA, VI = 3.5 ± 1 V
12
OFF MODE
50
f = 120 Hz
82
f = 1 KHz
77
f = 10 KHz
65
100
µA
dB
eN
Output noise voltage
B = 10 Hz to 100 KHz
50
µV
Vd
Dropout voltage
IO = 200 mA
1
V
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
0.8
2
2
V
V
10
µA
10
µF
7/45
Electrical characteristics
Table 6.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF18AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF, CO
= 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 3.3 V
1.782
1.8
1.818
IO = 50 mA, VI = 3.3 V, Ta = -25 to 85°C
1.764
1.836
3
16
Unit
V
IO = 500 mA
1
V
A
ΔVO
Line regulation
VI = 2.8 to 16 V, IO = 5 mA
2
12
mV
ΔVO
Load regulation
VI = 3.3 V, IO = 5 to 500 mA
2
10
mV
0.5
1
VI = 2.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
mA
VI = 3.1 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
IO = 5 mA, VI = 3.5 ± 1 V
12
OFF MODE
50
f = 120 Hz
82
f = 1 KHz
77
f = 10 KHz
60
100
µA
dB
eN
Output noise voltage
B = 10 Hz to 100 KHz
50
µV
Vd
Dropout voltage
IO = 200 mA
0.7
V
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
8/45
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 7.
Symbol
Electrical characteristics
Electrical characteristics for LF18C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF, CO =
2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 3.5 V
1.764
1.8
1.836
IO = 50 mA, VI = 3.5 V, Ta = -25 to 85°C
1.728
1.872
3
16
Unit
V
IO = 500 mA
1
V
A
ΔVO
Line regulation
VI = 2.8 to 16 V, IO = 5 mA
2
12
mV
ΔVO
Load regulation
VI = 3.3 V, IO = 5 to 500 mA
2
10
mV
0.5
1
VI = 2.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
mA
VI = 3.1 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
IO = 5 mA, VI = 3.5 ± 1 V
12
OFF MODE
50
f = 120 Hz
82
f = 1 KHz
77
f = 10 KHz
60
100
µA
dB
eN
Output noise voltage
B = 10 Hz to 100 KHz
50
µV
Vd
Dropout voltage
IO = 200 mA
0.7
V
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
0.8
2
2
V
V
10
µA
10
µF
9/45
Electrical characteristics
Table 8.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF25AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF, CO
= 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 4.5 V
2.475
2.5
2.525
IO = 50 mA, VI = 4.5 V, Ta = -25 to 85°C
2.450
Unit
V
2.550
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 3.5 to 16 V, IO = 5 mA
2
12
mV
ΔVO
Load regulation
VI = 3.8 V, IO = 5 to 500 mA
2
12
mV
0.5
1
VI = 3.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 4.5 ± 1 V
12
OFF MODE
50
f = 120 Hz
82
f = 1 KHz
77
f = 10 KHz
65
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
10/45
mA
VI = 3.8 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 9.
Symbol
Electrical characteristics
Electrical characteristics for LF25C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 4.5 V
2.45
2.5
2.55
IO = 50 mA, VI = 4.5 V, Ta = -25 to 85°C
2.4
Unit
V
2.6
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 3.5 to 16 V, IO = 5 mA
2
12
mV
ΔVO
Load regulation
VI = 3.8 V, IO = 5 to 500 mA
2
12
mV
0.5
1
VI = 3.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 4.5 ± 1 V
12
OFF MODE
50
f = 120 Hz
82
f = 1 KHz
77
f = 10 KHz
65
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 3.8 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
11/45
Electrical characteristics
Table 10.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF27AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 4.7 V
2.673
2.7
2.727
IO = 50 mA, VI = 4.7 V, Ta = -25 to 85°C
2.646
Unit
V
2.754
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 3.7 to 16 V, IO = 5 mA
2
13
mV
ΔVO
Load regulation
VI = 4 V, IO = 5 to 500 mA
2
13
mV
0.5
1
VI = 3.7 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 4.7 ± 1 V
12
OFF MODE
50
f = 120 Hz
82
f = 1 KHz
77
f = 10 KHz
65
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
12/45
mA
VI = 4 to 16V, IO = 500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 11.
Symbol
Electrical characteristics
Electrical characteristics for LF27C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 4.7 V
2.646
2.7
2.754
IO = 50 mA, VI = 4.7 V, Ta = -25 to 85°C
2.592
Unit
V
2.808
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 3.7 to 16 V, IO = 5 mA
2
13
mV
ΔVO
Load regulation
VI = 4 V, IO = 5 to 500 mA
2
13
mV
0.5
1
VI = 3.7 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 4.7 ± 1 V
12
OFF MODE
50
f = 120 Hz
82
f = 1 KHz
77
f = 10 KHz
65
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 4 to 16V, IO = 500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
13/45
Electrical characteristics
Table 12.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF30AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 5 V
2.970
3
3.03
IO = 50 mA, VI = 5 V, Ta = -25 to 85°C
2.94
Unit
V
3.06
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 4 to 16 V, IO = 5 mA
3
15
mV
ΔVO
Load regulation
VI = 4.3 V, IO = 5 to 500 mA
3
15
mV
0.5
1
VI = 4 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 5 ± 1 V
12
OFF MODE
50
f = 120 Hz
81
f = 1 KHz
76
f = 10 KHz
65
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
14/45
mA
VI = 4.3 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 13.
Symbol
Electrical characteristics
Electrical characteristics for LF30C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 5 V
2.94
3
3.06
IO = 50 mA, VI = 5 V, Ta = -25 to 85°C
2.88
Unit
V
3.12
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 4 to 16 V, IO = 5 mA
3
15
mV
ΔVO
Load regulation
VI = 4.3 V, IO = 5 to 500 mA
3
15
mV
0.5
1
VI = 4 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 5 ± 1 V
12
OFF MODE
50
f = 120 Hz
81
f = 1 KHz
76
f = 10 KHz
65
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 4.3 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
15/45
Electrical characteristics
Table 14.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF33AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 5.3 V
3.267
3.3
3.333
IO = 50 mA, VI = 5.3 V, Ta = -25 to 85°C
3.234
Unit
V
3.366
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 4.3 to 16 V, IO = 5 mA
3
16
mV
ΔVO
Load regulation
VI = 4.6 V, IO = 5 to 500 mA
3
16
mV
0.5
1
VI = 4.3 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 5.3 ± 1 V
12
OFF MODE
50
f = 120 Hz
80
f = 1 KHz
75
f = 10 KHz
65
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
16/45
mA
VI = 4.6 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 15.
Symbol
Electrical characteristics
Electrical characteristics for LF33C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 5.3 V
3.234
3.3
3.366
IO = 50 mA, VI = 5.3 V, Ta = -25 to 85°C
3.168
Unit
V
3.432
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 4.3 to 16 V, IO = 5 mA
3
16
mV
ΔVO
Load regulation
VI = 4.6 V, IO = 5 to 500 mA
3
16
mV
0.5
1
VI = 4.3 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 5.3 ± 1 V
12
OFF MODE
50
f = 120 Hz
80
f = 1 KHz
75
f = 10 KHz
65
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 4.6 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
17/45
Electrical characteristics
Table 16.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF35AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 5.5 V
3.465
3.5
3.535
IO = 50 mA, VI = 5.5 V, Ta = -25 to 85°C
3.430
Unit
V
3.570
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 4.5 to 16 V, IO = 5 mA
3
17
mV
ΔVO
Load regulation
VI = 4.8 V, IO = 5 to 500 mA
3
17
mV
0.5
1
VI = 4.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 5.5 ± 1 V
12
OFF MODE
50
f = 120 Hz
79
f = 1 KHz
74
f = 10 KHz
60
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
18/45
mA
VI = 4.8 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 17.
Symbol
Electrical characteristics
Electrical characteristics for LF35C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 5.5 V
3.43
3.5
3.57
IO = 50 mA, VI = 5.5 V, Ta = -25 to 85°C
3.36
Unit
V
3.64
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 4.5 to 16 V, IO = 5 mA
3
17
mV
ΔVO
Load regulation
VI = 4.8 V, IO = 5 to 500 mA
3
17
mV
0.5
1
VI = 4.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 5.5 ± 1 V
12
OFF MODE
50
f = 120 Hz
79
f = 1 KHz
74
f = 10 KHz
60
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 4.8 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
19/45
Electrical characteristics
Table 18.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF50AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 7 V
4.95
5
5.05
IO = 50 mA, VI = 7 V, Ta = -25 to 85°C
4.9
Unit
V
5.1
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 6 to 16 V, IO = 5 mA
5
25
mV
ΔVO
Load regulation
VI = 6.3 V, IO = 5 to 500 mA
5
25
mV
0.5
1
VI = 6 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 7 ± 1 V
12
OFF MODE
50
f = 120 Hz
76
f = 1 KHz
71
f = 10 KHz
60
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
20/45
mA
VI = 6.3 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 19.
Symbol
Electrical characteristics
Electrical characteristics for LF50C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 7 V
4.9
5
5.1
IO = 50 mA, VI = 7 V, Ta = -25 to 85°C
4.8
Unit
V
5.2
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 6 to 16 V, IO = 5 mA
5
25
mV
ΔVO
Load regulation
VI = 6.3 V, IO = 5 to 500 mA
5
25
mV
0.5
1
VI = 6 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 7 ± 1 V
12
OFF MODE
50
f = 120 Hz
76
f = 1 KHz
71
f = 10 KHz
60
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 6 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 6.3 to 16V, IO=500mA
VI = 6 V
SVR
ON MODE
100
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
21/45
Electrical characteristics
Table 20.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF60AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 8 V
5.94
6
6.06
IO = 50 mA, VI = 8 V, Ta = -25 to 85°C
5.88
Unit
V
6.12
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 7 to 16 V, IO = 5 mA
6
30
mV
ΔVO
Load regulation
VI = 7.3 V, IO = 5 to 500 mA
6
30
mV
0.7
1.5
VI = 7 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 8 ± 1 V
12
OFF MODE
70
f = 120 Hz
75
f = 1 KHz
70
f = 10 KHz
60
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 9 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
22/45
mA
VI = 7.3 to 16V, IO=500mA
VI = 9 V
SVR
ON MODE
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 21.
Symbol
Electrical characteristics
Electrical characteristics for LF60C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 8 V
5.88
6
6.12
IO = 50 mA, VI = 8 V, Ta = -25 to 85°C
5.76
Unit
V
6.24
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 7 to 16 V, IO = 5 mA
6
30
mV
ΔVO
Load regulation
VI = 7.3 V, IO = 5 to 500 mA
6
30
mV
0.7
1.5
VI = 7 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 8 ± 1 V
12
OFF MODE
70
f = 120 Hz
75
f = 1 KHz
70
f = 10 KHz
60
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 9 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 7.3 to 16V, IO=500mA
VI = 9 V
SVR
ON MODE
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
23/45
Electrical characteristics
Table 22.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF80AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 10 V
7.92
8
8.08
IO = 50 mA, VI = 10 V, Ta = -25 to 85°C
7.84
Unit
V
8.16
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 9 to 16 V, IO = 5 mA
8
40
mV
ΔVO
Load regulation
VI = 9.3 V, IO = 5 to 500 mA
8
40
mV
0.7
1.5
VI = 9 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 10 ± 1 V
12
OFF MODE
70
f = 120 Hz
72
f = 1 KHz
67
f = 10 KHz
57
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 9 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
24/45
mA
VI = 9.3 to 16V, IO=500mA
VI = 9 V
SVR
ON MODE
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 23.
Symbol
Electrical characteristics
Electrical characteristics for LF80C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 10 V
7.84
8
8.16
IO = 50 mA, VI = 10 V, Ta = -25 to 85°C
7.68
Unit
V
8.32
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 9 to 16 V, IO = 5 mA
8
40
mV
ΔVO
Load regulation
VI = 9.3 V, IO = 5 to 500 mA
8
40
mV
0.7
1.5
VI = 9 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 10 ± 1 V
12
OFF MODE
70
f = 120 Hz
72
f = 1 KHz
67
f = 10 KHz
57
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 9 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 9.3 to 16V, IO=500mA
VI = 9 V
SVR
ON MODE
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
25/45
Electrical characteristics
Table 24.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF85AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 10.5 V
8.415
8.5
8.585
IO = 50 mA, VI = 10.5 V, Ta = -25 to 85°C
8.33
Unit
V
8.67
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 9.5 to 16 V, IO = 5 mA
8
42
mV
ΔVO
Load regulation
VI = 9.8 V, IO = 5 to 500 mA
8
42
mV
0.7
1.5
VI = 9.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 10.5 ± 1 V
12
OFF MODE
70
f = 120 Hz
72
f = 1 KHz
67
f = 10 KHz
57
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 9 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
26/45
mA
VI = 9.8 to 16V, IO=500mA
VI = 9 V
SVR
ON MODE
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 25.
Symbol
Electrical characteristics
Electrical characteristics for LF85C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 10.5 V
8.33
8.5
8.67
IO = 50 mA, VI = 10.5 V, Ta = -25 to 85°C
8.16
Unit
V
8.84
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 9.5 to 16 V, IO = 5 mA
8
42
mV
ΔVO
Load regulation
VI = 9.8 V, IO = 5 to 500 mA
8
42
mV
0.7
1.5
VI = 9.5 to 16V, IO = 0mA
Id
Quiescent current
Supply voltage rejection
IO = 5 mA, VI = 10.5 ± 1 V
12
OFF MODE
70
f = 120 Hz
72
f = 1 KHz
67
f = 10 KHz
57
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 9 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
VI = 9.8 to 16V, IO=500mA
VI = 9 V
SVR
ON MODE
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
27/45
Electrical characteristics
Table 26.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF90AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 11 V
8.91
9
9.09
IO = 50 mA, VI = 11 V, Ta = -25 to 85°C
8.82
Unit
V
9.18
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 10 to 16 V, IO = 5 mA
9
45
mV
ΔVO
Load regulation
VI = 10.3 V, IO = 5 to 500 mA
9
45
mV
0.7
1.5
VI = 10 to 16V, IO = 0mA
Id
SVR
Quiescent current
Supply voltage rejection
VI = 10.3 to 16V,
IO = 500mA
ON MODE
VI = 10 V
OFF MODE
70
f = 120 Hz
71
f = 1 KHz
66
f = 10 KHz
56
IO = 5 mA, VI = 11 ± 1 V
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 10 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
28/45
mA
12
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 27.
Symbol
Electrical characteristics
Electrical characteristics for LF90C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 11 V
8.82
9
9.18
IO = 50 mA, VI = 11 V, Ta = -25 to 85°C
8.64
Unit
V
9.36
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 10 to 16 V, IO = 5 mA
9
45
mV
ΔVO
Load regulation
VI = 10.3 V, IO = 5 to 500 mA
9
45
mV
0.7
1.5
VI = 10 to 16V, IO = 0mA
Id
SVR
Quiescent current
Supply voltage rejection
VI = 10.3 to 16V,
IO = 500mA
ON MODE
VI = 10 V
OFF MODE
70
f = 120 Hz
71
f = 1 KHz
66
f = 10 KHz
56
IO = 5 mA, VI = 11 ± 1 V
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 10 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
12
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
29/45
Electrical characteristics
Table 28.
Symbol
LFxxAB - LFxxC
Electrical characteristics for LF120AB (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified.)
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 15 V
11.88
12
12.12
IO = 50 mA, VI = 15 V, Ta = -25 to 85°C
11.76
Unit
V
12.24
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 13 to 16 V, IO = 5 mA
12
60
mV
ΔVO
Load regulation
VI = 13.3 V, IO = 5 to 500 mA
12
60
mV
VI = 13 to 16V, IO = 0mA
0.7
1.5
Id
SVR
Quiescent current
Supply voltage rejection
VI = 13.3 to 16V,
IO = 500mA
ON MODE
VI = 13 V
OFF MODE
70
f = 120 Hz
69
f = 1 KHz
64
f = 10 KHz
54
IO = 5 mA, VI = 14 ± 1 V
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 13 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
30/45
mA
12
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
LFxxAB - LFxxC
Table 29.
Symbol
Electrical characteristics
Electrical characteristics for LF120C (refer to the test circuits, TJ = 25°C, CI = 0.1 µF,
CO = 2.2 μF unless otherwise specified).
Parameter
VO
Output voltage
VI
Operating input voltage
IO
Output current limit
Test conditions
Min.
Typ.
Max.
IO = 50 mA, VI = 14 V
11.76
12
12.24
IO = 50 mA, VI = 14 V, Ta = -25 to 85°C
11.52
Unit
V
12.48
IO = 500 mA
16
1
V
A
ΔVO
Line regulation
VI = 13 to 16 V, IO = 5 mA
12
60
mV
ΔVO
Load regulation
VI = 13.3 V, IO = 5 to 500 mA
12
60
mV
VI = 13 to 16V, IO = 0mA
0.7
1.5
Id
SVR
Quiescent current
Supply voltage rejection
VI = 13.3 to 16V,
IO = 500mA
ON MODE
VI = 13 V
OFF MODE
70
f = 120 Hz
69
f = 1 KHz
64
f = 10 KHz
54
IO = 5 mA, VI = 14 ± 1 V
eN
Output noise voltage
Vd
Dropout voltage
VIL
Control input logic low
Ta = -40 to 125°C
VIH
Control input logic high
Ta = -40 to 125°C
Control input current
VI = 13 V, VC = 6 V
Output bypass
capacitance
ESR = 0.1 to 10 Ω, IO = 0 to 500 mA
II
CO
mA
12
140
µA
dB
B = 10 Hz to 100 KHz
50
µV
IO = 200 mA
0.2
0.35
IO = 500 mA
0.4
0.7
V
0.8
2
2
V
V
10
µA
10
µF
31/45
Typical performance characteristics
LFxxAB - LFxxC
5
Typical performance characteristics
Figure 4.
(unless otherwise specified VO(NOM) = 3.3 V)
Dropout voltage vs output current Figure 5.
Dropout voltage vs temperature
Figure 6.
Supply current vs input voltage
Figure 7.
Supply current vs input voltage
Figure 8.
Short circuit current vs input
voltage
Figure 9.
Supply current vs temperature
32/45
LFxxAB - LFxxC
Typical performance characteristics
Figure 10. Logic controlled precision 3.3/5.0v selectable output
Figure 11. Sequential multi-output supply
33/45
Typical performance characteristics
Figure 12. Multiple supply with ON/OFF toggle switch
Figure 13. Basic inhibit functions
34/45
LFxxAB - LFxxC
LFxxAB - LFxxC
Typical performance characteristics
Figure 14. Delayed Turn-On
Figure 15. Low voltage bulb blinker
35/45
Package mechanical data
6
LFxxAB - LFxxC
Package mechanical data
In order to meet environmental requirements, ST offers these devices in ECOPACK®
packages. These packages have a Lead-free second level interconnect. The category of
second Level Interconnect is marked on the package and on the inner box label, in
compliance with JEDEC Standard JESD97. The maximum ratings related to soldering
conditions are also marked on the inner box label. ECOPACK is an ST trademark.
ECOPACK specifications are available at: www.st.com.
36/45
LFxxAB - LFxxC
Package mechanical data
PENTAWATT (Vertical) mechanical data
Dim.
A
C
D
D1
E
F
F1
G
G1
H2
H3
L
L1
L2
L3
L5
L6
L7
M
M1
Dia1
Min.
2.4
1.2
0.35
0.8
1
3.2
6.6
mm.
Typ.
3.4
6.8
10.05
Max.
4.8
1.37
2.8
1.35
0.55
1.05
1.4
3.6
7
10.4
10.4
Min.
inch.
Typ.
0.094
0.047
0.014
0.031
0.039
0.126
0.260
0.134
0.268
0.396
17.85
15.75
21.4
22.5
2.6
15.1
6
0.703
0.620
0.843
0.886
3
15.8
6.6
0.102
0.594
0.236
4.5
4
3.65
Max.
0.189
0.054
0.110
0.053
0.022
0.041
0.055
0.142
0.276
0.409
0.409
0.118
0.622
0.260
0.177
0.157
3.85
0.144
0.152
P010E
37/45
Package mechanical data
LFxxAB - LFxxC
TO-220 mechanical data
Dim.
mm.
Min.
Max.
Min.
A
4.40
4.60
0.173
0.181
C
1.23
1.32
0.048
0.051
D
2.40
2.72
0.094
D1
Typ.
inch.
1.27
Typ.
Max.
0.107
0.050
E
0.49
0.70
0.019
0.027
F
0.61
0.88
0.024
0.034
F1
1.14
1.70
0.044
0.067
F2
1.14
1.70
0.044
0.067
G
4.95
5.15
0.194
0.203
G1
2.4
2.7
0.094
0.106
H2
10.0
10.40
0.393
L2
L4
16.4
13.0
0.409
0.645
14.0
0.511
0.551
L5
2.65
2.95
0.104
0.116
L6
15.25
15.75
0.600
0.620
L7
6.2
6.6
0.244
0.260
L9
3.5
3.93
0.137
0.154
DIA.
3.75
3.85
0.147
0.151
P011C
38/45
LFxxAB - LFxxC
Package mechanical data
TO-220FP mechanical data
Dim.
mm.
Min.
Max.
Min.
A
4.40
4.60
0.173
0.181
B
2.5
2.7
0.098
0.106
D
2.5
2.75
0.098
0.108
E
0.45
0.70
0.017
0.027
F
0.75
1
0.030
0.039
F1
1.15
1.50
0.045
0.059
F2
1.15
1.50
0.045
0.059
G
4.95
5.2
0.194
0.204
G1
2.4
2.7
0.094
0.106
H
10.0
10.40
0.393
0.409
L2
Typ
inch.
16
Typ.
Max.
0.630
L3
28.6
30.6
1.126
1.204
L4
9.8
10.6
0.385
0.417
L5
2.9
3.6
0.114
0.142
L6
15.9
16.4
0.626
0.645
L7
9
9.3
0.354
0.366
DIA.
3
3.2
0.118
0.126
7012510A-H
39/45
Package mechanical data
LFxxAB - LFxxC
DPAK mechanical data
mm.
inch.
Dim.
Min.
A
A1
A2
B
b4
C
C2
D
D1
E
E1
e
e1
H
L
(L1)
L2
L4
R
V2
Typ.
2.2
0.9
0.03
0.64
5.2
0.45
0.48
6
Max.
Min.
2.4
1.1
0.23
0.9
5.4
0.6
0.6
6.2
0.086
0.035
0.001
0.025
0.204
0.017
0.019
0.236
6.6
0.252
5.1
6.4
0.260
0.173
0.368
0.039
2.8
0.8
0.181
0.397
0.110
0.031
1
0.023
0.2
0°
0.094
0.043
0.009
0.035
0.212
0.023
0.023
0.244
0.185
0.090
4.6
10.1
0.6
Max.
0.200
4.7
2.28
4.4
9.35
1
Typ.
0.039
0.008
8°
0°
8°
0068772-F
40/45
LFxxAB - LFxxC
Package mechanical data
PPAK mechanical data
mm.
inch.
Dim.
Min.
A
Typ.
2.2
Max.
Min.
Typ.
Max.
2.4
0.086
0.094
A1
0.9
1.1
0.035
0.043
A2
0.03
0.23
0.001
0.009
B
0.4
0.6
0.015
0.023
B2
5.2
5.4
0.204
0.212
C
0.45
0.6
0.017
0.023
C2
0.48
0.6
0.019
0.023
D
6
6.2
0.236
0.244
D1
E
5.1
6.4
0.201
6.6
0.252
0.260
E1
4.7
0.185
e
1.27
0.050
G
4.9
5.25
0.193
G1
2.38
2.7
0.093
0.106
H
9.35
10.1
0.368
0.397
0.039
L2
0.8
L4
0.6
L5
1
L6
1
1
2.8
0.206
0.031
0.023
0.039
0.039
0.110
0078180-E
41/45
Package mechanical data
LFxxAB - LFxxC
Tape & reel DPAK-PPAK mechanical data
mm.
inch.
Dim.
Min.
Typ.
A
Min.
Typ.
330
13.0
13.2
Max.
12.992
C
12.8
D
20.2
0.795
N
60
2.362
T
42/45
Max.
0.504
0.512
22.4
0.519
0.882
Ao
6.80
6.90
7.00
0.268
0.272
0.2.76
Bo
10.40
10.50
10.60
0.409
0.413
0.417
Ko
2.55
2.65
2.75
0.100
0.104
0.105
Po
3.9
4.0
4.1
0.153
0.157
0.161
P
7.9
8.0
8.1
0.311
0.315
0.319
LFxxAB - LFxxC
Order codes
7
Order codes
Table 30.
Order codes
Part numbers
Packages
TO-220
TO-220FP
LF15CV(1)
LF15CP(1)
(1)
LF15ABV
DPAK
(1)
LF15ABP
LF18CP
LF18ABP(1)
LF25ABV
LF25CP(1)
(1)
LF25ABP
PPAK
PPAK (T&R)
LF15CPT(1)
LF15CPT-TR(1)
1.5 V
LF15ABPT-TR
1.5 V
LF18CDT-TR
LF18CPT-TR
1.8 V
LF18ABDT-TR
LF18ABPT-TR
1.8 V
LF25CPT-TR
2.5 V
LF15ABDT-TR
(1)
LF25CV
DPAK (T&R)
LF25CDT
LF25ABDT
LF30CV
Output
voltage
LF15ABPT
(1)
LF25CDT-TR
LF25CPT
LF25ABDT-TR
LF25ABPT(1)
2.5 V
LF27CDT-TR
2.7 V
LF30CDT-TR
3V
LF33CV
LF33CDT
LF33CDT-TR
LF33ABV
LF33ABDT
LF33ABDT-TR
LF33CPT-TR
LF33ABPT
3.3 V
3.3 V
LF35ABDT-TR
3.5 V
LF50CV
LF50CP
LF50CDT
LF50CDT-TR
LF50CPT
LF50CPT-TR
5V
LF50ABV
LF50ABP
LF50ABDT
LF50ABDT-TR
LF50ABPT
LF50ABPT-TR
5V
LF60CDT-TR
LF60CPT
LF60CPT-TR(1)
6V
LF60ABDT-TR
LF60ABPT(1)
LF60ABPT-TR(1)
6V
LF60CV
LF60ABV
(1)
LF60CP
(1)
LF60ABP
LF80CV
LF80CP(1)
LF80CDT
LF80CDT-TR
LF80CPT-TR
8V
LF80ABV
LF80ABP(1)
LF80ABDT
LF80ABDT-TR
LF80ABPT-TR
8V
LF85CPT
LF85CPT-TR
8.5 V
LF85ABPT(1)
LF85ABPT-TR
8.5 V
LF90CDT-TR
LF90CPT-TR
9V
LF90ABDT-TR
LF90ABPT-TR
9V
LF85CP
LF85CDT-TR
(1)
LF85ABP
LF90CV
LF90ABV
(1)
LF90CP
LF90ABP(1)
LF120CP
LF120ABV
(1)
LF90ABDT(1)
LF120CDT-TR
LF120ABDT-TR
12 V
(1)
LF120ABPT
12 V
1. Available on request
43/45
Revision history
LFxxAB - LFxxC
8
Revision history
Table 31.
Revision history
Date
Revision
21-Jun-2004
14
Document updating.
24-May-2006
15
Order codes updated and the document has been reformatted.
02-Apr-2007
16
Order codes updated.
14-May-2007
17
Order codes updated.
26-Jul-2007
18
Add Table 1. in cover page.
44/45
Changes
LFxxAB - LFxxC
Please Read Carefully:
Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the
right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any
time, without notice.
All ST products are sold pursuant to ST’s terms and conditions of sale.
Purchasers are solely responsible for the choice, selection and use of the ST products and services described herein, and ST assumes no
liability whatsoever relating to the choice, selection or use of the ST products and services described herein.
No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. If any part of this
document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products
or services, or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoever of such
third party products or services or any intellectual property contained therein.
UNLESS OTHERWISE SET FORTH IN ST’S TERMS AND CONDITIONS OF SALE ST DISCLAIMS ANY EXPRESS OR IMPLIED
WARRANTY WITH RESPECT TO THE USE AND/OR SALE OF ST PRODUCTS INCLUDING WITHOUT LIMITATION IMPLIED
WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS
OF ANY JURISDICTION), OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT.
UNLESS EXPRESSLY APPROVED IN WRITING BY AN AUTHORIZED ST REPRESENTATIVE, ST PRODUCTS ARE NOT
RECOMMENDED, AUTHORIZED OR WARRANTED FOR USE IN MILITARY, AIR CRAFT, SPACE, LIFE SAVING, OR LIFE SUSTAINING
APPLICATIONS, NOR IN PRODUCTS OR SYSTEMS WHERE FAILURE OR MALFUNCTION MAY RESULT IN PERSONAL INJURY,
DEATH, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE. ST PRODUCTS WHICH ARE NOT SPECIFIED AS "AUTOMOTIVE
GRADE" MAY ONLY BE USED IN AUTOMOTIVE APPLICATIONS AT USER’S OWN RISK.
Resale of ST products with provisions different from the statements and/or technical features set forth in this document shall immediately void
any warranty granted by ST for the ST product or service described herein and shall not create or extend in any manner whatsoever, any
liability of ST.
ST and the ST logo are trademarks or registered trademarks of ST in various countries.
Information in this document supersedes and replaces all information previously supplied.
The ST logo is a registered trademark of STMicroelectronics. All other names are the property of their respective owners.
© 2007 STMicroelectronics - All rights reserved
STMicroelectronics group of companies
Australia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America
www.st.com
45/45
Similar pages