STMICROELECTRONICS LD29080PT50R

LD29080
SERIES
800mA FIXED AND ADJUSTABLE OUTPUT
VERY LOW DROP VOLTAGE REGULATOR
PRELIMINARY DATA
■
■
■
■
■
VERY LOW DROPOUT VOLTAGE
(TYP. 0.4V AT 800mA)
GUARANTEED OUTPUT CURRENT UP TO
800mA
FIXED AND ADJUSTABLE OUTPUT
VOLTAGE (±1% AT 25°C)
INTERNAL CURRENT AND THERMAL LIMIT
LOGIC CONTROLLED ELECTRONIC
SHUTDOWN
DESCRIPTION
The LD29080 is a high current, high accuracy,
low-dropout voltage regulators series. These
regulators feature 400mV dropout voltages and
very low ground current. Designed for high current
loads, these devices also find applications in lower
current, extremely low dropout-critical systems,
where their tiny dropout voltage and ground
current values are important attributes. Typical
application are in Power supply switching post
PPAK
DPAK
SOT-223
regulation, Series power supply for monitors,
Series power supply for VCRs and TVs, Computer
Systems and Battery powered systems.
Figure 1: Schematic Diagram For Adjustable Version
October 2004
Rev. 1
1/21
This is preliminary information on a new product now in development or undergoing evaluation. Details are subject to change without notice.
LD29080 SERIES
Figure 2: Schematic Diagram For Fixed Version
Table 1: Ordering Codes
DPAK (*)
PPAK (*)
SOT-223
OUTPUT VOLTAGE
LD29080DT15
LD29080DT18
LD29080DT25
LD29080DT33
LD29080DT50
LD29080DT80
LD29080DT90
LD29080PT15
LD29080PT18
LD29080PT25
LD29080PT33
LD29080PT50
LD29080PT80
LD29080PT90
LD29080PT
LD29080S15
LD29080S18
LD29080S25
LD29080S33
LD29080S50
LD29080S80
LD29080S90
1.5 V
1.8 V
2.5 V
3.3 V
5.0 V
8.0 V (**)
9.0 V (**)
ADJ
(*) Available in Tape & Reel with the suffix "R", for the adj version "-R"
(**) Available on Request
Table 2: Absolute Maximum Ratings
Symbol
VI
VINH
Parameter
DC Input Voltage
Inhibit Input Voltage
Value
Unit
30 (*)
V
14
V
IO
Output Current
Internally Limited
mA
PD
Power Dissipation
Internally Limited
mW
Tstg
Storage Temperature Range
-55 to 150
°C
Top
Storage Temperature Range
-40 to 125
°C
(*) Above 14V the device is automatically in shut-down.
Absolute Maximum Ratings are those beyond which damage to the device may occur. Functional operation under these condition is not implied.
2/21
LD29080 SERIES
Table 3: Thermal Data
Symbol
Parameter
Rthj-case
Thermal Resistance Junction-case
Rthj-amb
Thermal Resistance Junction-ambient
DPAK
PPAK
SOT-223
Unit
8
8
15
°C/W
100
100
°C/W
Figure 3: Pin Connection (top view)
PPAK
DPAK
SOT-223
Table 4: Pin Description
Symbol
PPAK
DPAK
SOT-223
VI
2
1
1
GND
VO
3
4
2
3
2
3
ADJ/N.C.**
INHIBIT*
5
1
* Not internally pulled up; in order to assure the operating condition (device in ON mode), it must be connected to a positive voltage higher
than 2V.
** Not connect for fixed version.
3/21
LD29080 SERIES
Figure 4: Application Circuit
R1
VO = VREF (1 + )
R2
* Only for version with inhibit function.
Table 5: Electrical Characteristics Of LD29080#15
(IO = 10mA (Note 4), TJ = 25°C, VI = 3.5V, VINH = 2V, CI = 330nF, CO = 10µF, unless otherwise specified)
Symbol
Parameter
Test Conditions
VI
Operating Input Voltage
IO = 10mA to 800mA
VO
Output Voltage
IO = 10mA to 800mA, VI = 3 to 7V
TJ = -40 to 125°C
Min.
Typ.
Max.
13
V
1.5
1.515
1.537
V
2.5
1.485
1.463
Unit
∆VO
Load Regulation
IO = 10mA to 800mA
0.2
1.0
%
∆VO
Line Regulation
VI = 3 to 13V
0.06
0.5
%
SVR
Supply Voltage Rejection
f = 120 Hz, VI = 3.5 ± 1V, IO = 400mA
(Note 1)
IO = 10mA,
TJ = -40 to 125°C
Iq
Quiescent Current
65
75
dB
2
5
8
20
IO = 400mA,
TJ = -40 to 125°C
IO = 800mA,
TJ = -40 to 125°C
14
35
TJ = -40 to 125°C
130
180
Isc
Short Circuit Current
VI = 13V, VINH = GND
RL = 0
VIL
Control Input Logic Low
OFF MODE
TJ = -40 to 125°C
1.2
VIH
Control Input Logic High
ON MODE
TJ = -40 to 125°C
IINH
Control Input Current
VINH = 13V
TJ = -40 to 125°C
eN
Output Noise Voltage
BP = 10Hz to 100KHzIO = 100mA
mA
µA
A
0.8
V
10
µA
2
V
5
60
µVRMS
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VO+1V
applied to VI.
NOTE 3: Reference Voltage is measured between output and GND pins, with ADJ PIN tied to VOUT.
NOTE 4: in order to avoid any output voltage rise within the whole operating temperature range, due to output leakage current, a minimum
load current of 2mA is required.
4/21
LD29080 SERIES
Table 6: Electrical Characteristics Of LD29080#18
(IO = 10mA (Note 4), TJ = 25°C, VI = 3.5V, VINH = 2V, CI = 330nF, CO = 10µF, unless otherwise specified)
Symbol
Parameter
Test Conditions
VI
Operating Input Voltage
IO = 10mA to 800mA
VO
Output Voltage
IO = 10mA to 800mA, VI = 3 to 7.3V
TJ = -40 to 125°C
∆VO
Load Regulation
IO = 10mA to 800mA
∆VO
Line Regulation
VI = 3 to 13V
SVR
Supply Voltage Rejection
f = 120 Hz, VI = 3.8 ± 1V, IO = 400mA
(Note 1)
IO = 150mA,TJ = -40 to 125°C (Note 2)
VDROP
Iq
Dropout Voltage
Quiescent Current
Min.
Typ.
Max.
Unit
13
V
1.8
1.818
1.845
V
0.2
1.0
%
0.06
0.5
2.5
1.782
1.755
62
dB
0.1
V
IO = 400mA,TJ = -40 to 125°C (Note 2)
0.2
IO = 800mA,TJ = -40 to 125°C (Note 2)
0.4
0.7
IO = 10mA,
TJ = -40 to 125°C
2
5
IO = 400mA,
TJ = -40 to 125°C
8
20
IO = 800mA,
TJ = -40 to 125°C
14
35
VI = 13V, VINH = GND
RL = 0
TJ = -40 to 125°C
130
180
Isc
Short Circuit Current
VIL
Control Input Logic Low
OFF MODE
TJ = -40 to 125°C
VIH
Control Input Logic High
ON MODE
TJ = -40 to 125°C
1.2
TJ = -40 to 125°C
IINH
Control Input Current
VINH = 13V
eN
Output Noise Voltage
BP = 10Hz to 100KHzIO = 100mA
%
72
mA
µA
A
0.8
2
V
V
5
72
10
µA
µVRMS
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VO+1V
applied to VI.
NOTE 3: Reference Voltage is measured between output and GND pins, with ADJ PIN tied to VOUT.
NOTE 4: in order to avoid any output voltage rise within the whole operating temperature range, due to output leakage current, a minimum
load current of 2mA is required.
5/21
LD29080 SERIES
Table 7: Electrical Characteristics Of LD29080#25
(IO = 10mA (Note 4), TJ = 25°C, VI = 4.5V, VINH = 2V, CI = 330nF, CO = 10µF, unless otherwise specified)
Symbol
Parameter
Test Conditions
VI
Operating Input Voltage
IO = 10mA to 800mA
VO
Output Voltage
IO = 10mA to 800mA, VI = 3.5 to 8V
TJ = -40 to 125°C
∆VO
Load Regulation
IO = 10mA to 800mA
∆VO
Line Regulation
VI = 3.5 to 13V
SVR
Supply Voltage Rejection
f = 120 Hz, VI = 4.5 ± 1V, IO = 400mA
(Note 1)
IO = 150mA,TJ = -40 to 125°C (Note 2)
VDROP
Iq
Dropout Voltage
Quiescent Current
Min.
2.475
2.438
55
Typ.
Max.
Unit
13
V
2.5
2.525
2.562
V
0.2
1.0
%
0.06
0.5
dB
0.1
V
IO = 400mA,TJ = -40 to 125°C (Note 2)
0.2
IO = 800mA,TJ = -40 to 125°C (Note 2)
0.4
0.7
IO = 10mA,
TJ = -40 to 125°C
2
5
IO = 400mA,
TJ = -40 to 125°C
8
20
IO = 800mA,
TJ = -40 to 125°C
14
35
VI = 13V, VINH = GND
RL = 0
TJ = -40 to 125°C
130
180
Isc
Short Circuit Current
VIL
Control Input Logic Low
OFF MODE
TJ = -40 to 125°C
VIH
Control Input Logic High
ON MODE
TJ = -40 to 125°C
1.2
TJ = -40 to 125°C
IINH
Control Input Current
VINH = 13V
eN
Output Noise Voltage
BP = 10Hz to 100KHzIO = 100mA
%
70
mA
µA
A
0.8
2
V
V
5
100
10
µA
µVRMS
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VO+1V
applied to VI.
NOTE 3: Reference Voltage is measured between output and GND pins, with ADJ PIN tied to VOUT.
NOTE 4: in order to avoid any output voltage rise within the whole operating temperature range, due to output leakage current, a minimum
load current of 2mA is required.
6/21
LD29080 SERIES
Table 8: Electrical Characteristics Of LD29080#33
(IO = 10mA (Note 4), TJ = 25°C, VI = 5.3V, VINH = 2V, CI = 330nF, CO = 10µF, unless otherwise specified)
Symbol
Parameter
Test Conditions
VI
Operating Input Voltage
IO = 10mA to 800mA
VO
Output Voltage
IO = 10mA to 800mA, VI = 4.3 to 8.8V
TJ = -40 to 125°C
∆VO
Load Regulation
IO = 10mA to 800mA
∆VO
Line Regulation
VI = 4.3 to 13V
SVR
Supply Voltage Rejection
f = 120 Hz, VI = 5.3 ± 1V, IO = 400mA
(Note 1)
IO = 150mA,TJ = -40 to 125°C (Note 2)
VDROP
Iq
Dropout Voltage
Quiescent Current
Min.
3.267
3.218
52
Typ.
Max.
Unit
13
V
3.3
3.333
3.382
V
0.2
1.0
%
0.06
0.5
dB
0.1
V
IO = 400mA,TJ = -40 to 125°C (Note 2)
0.2
IO = 800mA,TJ = -40 to 125°C (Note 2)
0.4
0.7
IO = 10mA,
TJ = -40 to 125°C
2
5
IO = 400mA,
TJ = -40 to 125°C
8
20
IO = 800mA,
TJ = -40 to 125°C
14
35
VI = 13V, VINH = GND
RL = 0
TJ = -40 to 125°C
130
180
Isc
Short Circuit Current
VIL
Control Input Logic Low
OFF MODE
TJ = -40 to 125°C
VIH
Control Input Logic High
ON MODE
TJ = -40 to 125°C
1.2
TJ = -40 to 125°C
IINH
Control Input Current
VINH = 13V
eN
Output Noise Voltage
BP = 10Hz to 100KHzIO = 100mA
%
67
mA
µA
A
0.8
2
V
V
5
132
10
µA
µVRMS
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VO+1V
applied to VI.
NOTE 3: Reference Voltage is measured between output and GND pins, with ADJ PIN tied to VOUT.
NOTE 4: in order to avoid any output voltage rise within the whole operating temperature range, due to output leakage current, a minimum
load current of 2mA is required.
7/21
LD29080 SERIES
Table 9: Electrical Characteristics Of LD29080#50
(IO = 10mA (Note 4), TJ = 25°C, VI = 7V, VINH = 2V, C I = 330nF, CO = 10µF, unless otherwise specified)
Symbol
Parameter
Test Conditions
VI
Operating Input Voltage
IO = 10mA to 800mA
VO
Output Voltage
IO = 10mA to 800mA, VI = 6 to 10.5V
TJ = -40 to 125°C
∆VO
Load Regulation
IO = 10mA to 800mA
∆VO
Line Regulation
VI = 6 to 13V
SVR
Supply Voltage Rejection
f = 120 Hz, VI = 7 ± 1V, IO = 400mA
(Note 1)
IO = 150mA,TJ = -40 to 125°C (Note 2)
VDROP
Iq
Dropout Voltage
Quiescent Current
Min.
4.95
4.875
49
Typ.
Max.
Unit
13
V
5
5.05
5.125
V
0.2
1.0
%
0.06
0.5
dB
0.1
V
IO = 400mA,TJ = -40 to 125°C (Note 2)
0.2
IO = 800mA,TJ = -40 to 125°C (Note 2)
0.4
0.7
IO = 10mA,
TJ = -40 to 125°C
2
5
IO = 400mA,
TJ = -40 to 125°C
8
20
IO = 800mA,
TJ = -40 to 125°C
14
35
VI = 13V, VINH = GND TJ = -40 to 125°C
RL = 0
130
180
Isc
Short Circuit Current
VIL
Control Input Logic Low
OFF MODE
TJ = -40 to 125°C
VIH
Control Input Logic High
ON MODE
TJ = -40 to 125°C
TJ = -40 to 125°C
IINH
Control Input Current
VINH = 13V
eN
Output Noise Voltage
BP = 10Hz to 100KHzIO = 100mA
%
64
1.2
mA
µA
A
0.8
2
V
V
5
320
10
µA
µVRMS
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VO+1V
applied to VI.
NOTE 3: Reference Voltage is measured between output and GND pins, with ADJ PIN tied to VOUT.
NOTE 4: in order to avoid any output voltage rise within the whole operating temperature range, due to output leakage current, a minimum
load current of 2mA is required.
8/21
LD29080 SERIES
Table 10: Electrical Characteristics Of LD29080#80
(IO = 10mA (Note 4), TJ = 25°C, VI = 10V, VINH = 2V, CI = 330nF, CO = 10µF, unless otherwise specified)
Symbol
Parameter
Test Conditions
VI
Operating Input Voltage
IO = 10mA to 800mA
VO
Output Voltage
IO = 10mA to 800mA, VI = 9 to 13V
TJ = -40 to 125°C
∆VO
Load Regulation
IO = 10mA to 800mA
∆VO
Line Regulation
VI = 9 to 13V
SVR
Supply Voltage Rejection
f = 120 Hz, VI = 9 ± 1V, IO = 400mA
(Note 1)
IO = 150mA,TJ = -40 to 125°C (Note 2)
VDROP
Iq
Dropout Voltage
Quiescent Current
Min.
7.92
7.80
45
Typ.
Max.
Unit
13
V
8
8.08
8.20
V
0.2
1.0
%
0.06
0.5
dB
0.1
V
IO = 400mA,TJ = -40 to 125°C (Note 2)
0.2
IO = 800mA,TJ = -40 to 125°C (Note 2)
0.4
0.7
IO = 10mA,
TJ = -40 to 125°C
2
5
IO = 400mA,
TJ = -40 to 125°C
8
20
IO = 800mA,
TJ = -40 to 125°C
14
35
VI = 13V, VINH = GND
RL = 0
TJ = -40 to 125°C
130
180
Isc
Short Circuit Current
VIL
Control Input Logic Low
OFF MODE
TJ = -40 to 125°C
VIH
Control Input Logic High
ON MODE
TJ = -40 to 125°C
1.2
TJ = -40 to 125°C
IINH
Control Input Current
VINH = 13V
eN
Output Noise Voltage
BP = 10Hz to 100KHzIO = 100mA
%
59
mA
µA
A
0.8
2
V
V
5
320
10
µA
µVRMS
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VO+1V
applied to VI.
NOTE 3: Reference Voltage is measured between output and GND pins, with ADJ PIN tied to VOUT.
NOTE 4: in order to avoid any output voltage rise within the whole operating temperature range, due to output leakage current, a minimum
load current of 2mA is required.
9/21
LD29080 SERIES
Table 11: Electrical Characteristics Of LD29080#90
(IO = 10mA (Note 4), TJ = 25°C, VI = 11V, VINH = 2V, CI = 330nF, C O = 10µF, unless otherwise specified)
Symbol
Parameter
Test Conditions
VI
Operating Input Voltage
IO = 10mA to 800mA
VO
Output Voltage
IO = 10mA to 800mA, VI = 10 to 13V
TJ = -40 to 125°C
∆VO
Load Regulation
IO = 10mA to 800mA
∆VO
Line Regulation
VI = 10 to 13V
SVR
Supply Voltage Rejection
f = 120 Hz, VI = 11 ± 1V, IO = 400mA
(Note 1)
IO = 150mA,TJ = -40 to 125°C (Note 2)
VDROP
Iq
Dropout Voltage
Quiescent Current
Min.
8.91
8.775
45
Typ.
Max.
Unit
13
V
9
9.09
9.225
V
0.2
1.0
%
0.06
0.5
dB
0.1
V
IO = 400mA,TJ = -40 to 125°C (Note 2)
0.2
IO = 800mA,TJ = -40 to 125°C (Note 2)
0.4
0.7
IO = 10mA,
TJ = -40 to 125°C
2
5
IO = 400mA,
TJ = -40 to 125°C
8
20
IO = 800mA,
TJ = -40 to 125°C
14
35
VI = 13V, VINH = GND TJ = -40 to 125°C
RL = 0
130
180
Isc
Short Circuit Current
VIL
Control Input Logic Low
OFF MODE
TJ = -40 to 125°C
VIH
Control Input Logic High
ON MODE
TJ = -40 to 125°C
TJ = -40 to 125°C
IINH
Control Input Current
VINH = 13V
eN
Output Noise Voltage
BP = 10Hz to 100KHzIO = 100mA
%
58
1.2
mA
µA
A
0.8
2
V
V
5
360
10
µA
µVRMS
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VO+1V
applied to VI.
NOTE 3: Reference Voltage is measured between output and GND pins, with ADJ PIN tied to VOUT.
NOTE 4: in order to avoid any output voltage rise within the whole operating temperature range, due to output leakage current, a minimum
load current of 2mA is required.
10/21
LD29080 SERIES
Table 12: Electrical Characteristics Of LD29080#ADJ
(IO = 10mA (Note 4), TJ = 25°C, VI = 3.23 V, VINH = 2V, CI = 330nF, C O = 10µF adjust pin tied to output
pin, unless otherwise specified)
Symbol
VI
Parameter
Test Conditions
∆VO
Minimum Operating Input
Voltage
Load Regulation
IO = 10mA to 800mA
∆VO
Line Regulation
VI = 2.5 V to 13V
VREF
Reference Voltage
IO = 10mA to 800mA, VI = 2.5 to 6.73V
TJ = -40 to 125°C (Note 3)
SVR
Supply Voltage Rejection
f = 120 Hz, VI = 3.23 ± 1V, IO = 400mA
(Note 1)
IO = 10mA,
TJ = -40 to 125°C
IO = 400mA,
TJ = -40 to 125°C
Iq
Quiescent Current
IO = 10mA to 800mA
Typ.
2.5
Max.
Unit
13
V
0.2
1.0
%
0.06
0.5
%
1.2177
1.1993
1.23
1.2423
1.2607
V
45
75
IO = 10mA
dB
2
5
mA
8
20
TJ = -40 to 125°C
14
35
VI = 13V, VINH = GND TJ = -40 to 125°C
130
180
µA
1
µA
IO = 800mA,
IADJ
Min.
Adjust Pin Current
TJ = -40 to 125°C (Note 1)
Isc
Short Circuit Current
RL = 0
VIL
Control Input Logic Low
OFF MODE
TJ = -40 to 125°C
1.2
VIH
Control Input Logic High
ON MODE
TJ = -40 to 125°C
IINH
Control Input Current
VINH = 13V
TJ = -40 to 125°C
eN
Output Noise Voltage
BP = 10Hz to 100KHzIO = 100mA
A
0.8
V
10
µA
2
V
5
50
µVRMS
NOTE 1: Guaranteed by design.
NOTE 2: Dropout voltage is defined as the input-to-output differential when the output voltage drops to 99% of its nominal value with VO+1V
applied to VI.
NOTE 3: Reference Voltage is measured between output and GND pins, with ADJ PIN tied to VOUT.
NOTE 4: in order to avoid any output voltage rise within the whole operating temperature range, due to output leakage current, a minimum
load current of 2mA is required.
TYPICAL CHARACTERISTICS
Figure 5: Output Voltage vs Temperature
Figure 6: Reference Voltage vs Temperature
11/21
LD29080 SERIES
Figure 7: Dropout Voltage vs Temperature
Figure 10: Quiescent Current vs Temperature
Figure 8: Dropout Voltage vs Output Current
Figure 11: Quiescent Current vs Supply Voltage
Figure 9: Quiescent Current vs Output Current
Figure 12: Quiescent Current vs Temperature
12/21
LD29080 SERIES
Figure 13: Short Circuit Current vs Temperature
Figure 16: Output Voltage vs Input Voltage
Figure 14: Adjust Pin Current vs Temperature
Figure 17: Stability vs COUT
Figure 15: Supply Voltage Rejection vs
Temperature
Figure 18: Line Transient
VI=3.5 to 13V, IO=10mA, VO=1.5V
13/21
LD29080 SERIES
Figure 19: Load Transient
VI=3.5V, V O=1.5V, I O=10mA to 0.8A
14/21
LD29080 SERIES
SOT-223 MECHANICAL DATA
mm.
mils
DIM.
MIN.
TYP
A
MAX.
MIN.
TYP.
1.8
A1
0.02
B
0.6
B1
MAX.
70.9
0.1
0.8
3.9
0.7
0.85
23.6
27.6
33.5
2.9
3
3.15
114.2
118.1
124.0
c
0.24
0.26
0.35
9.4
10.2
13.8
D
6.3
6.5
6.7
248.0
255.9
263.8
e
2.3
90.6
e1
4.6
181.1
E
3.3
3.5
3.7
129.9
137.8
145.7
H
6.7
7
7.3
129.9
137.8
145.7
V
10˚
10˚
0046067/H
15/21
LD29080 SERIES
DPAK MECHANICAL DATA
mm.
inch
DIM.
MIN.
TYP
MAX.
MIN.
TYP.
MAX.
A
2.2
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
0.64
0.9
0.025
0.035
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
D1
E
5.1
6.4
E1
6.6
0.252
4.7
e
0.244
0.200
0.260
0.185
2.28
0.090
e1
4.4
4.6
0.173
0.181
H
9.35
10.1
0.368
0.397
L
1
(L1)
L2
L4
0.039
2.8
0.110
0.8
0.6
0.031
1
0.023
0.039
0068772-F
16/21
LD29080 SERIES
PPAK MECHANICAL DATA
mm.
inch
DIM.
MIN.
TYP
MAX.
MIN.
TYP.
MAX.
A
2.2
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
D1
E
5.1
6.4
0.244
0.201
6.6
0.252
0.260
E1
4.7
0.185
e
1.27
0.050
G
4.9
G1
2.38
2.7
0.093
0.106
H
9.35
10.1
0.368
0.397
L2
0.8
L4
0.6
L5
1
L6
5.25
1
1
2.8
0.193
0.206
0.031
0.023
0.039
0.039
0.039
0.110
0078180-E
17/21
LD29080 SERIES
Tape & Reel SOT223 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
18/21
MAX.
0.504
0.512
14.4
0.519
0.567
Ao
6.73
6.83
6.93
0.265
0.269
0.273
Bo
7.32
7.42
7.52
0.288
0.292
0.296
Ko
1.78
2
0.070
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
0.078
LD29080 SERIES
Tape & Reel DPAK-PPAK MECHANICAL DATA
mm.
inch
DIM.
MIN.
TYP
A
MAX.
MIN.
TYP.
330
13.0
12.992
C
12.8
D
20.2
0.795
N
60
2.362
T
13.2
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
19/21
LD29080 SERIES
Table 13: Revision History
Date
Revision
15-Oct-2004
1
20/21
Description of Changes
First Release.
LD29080 SERIES
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences
of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted
by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject
to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not
authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
The ST logo is a registered trademark of STMicroelectronics
All other names are the property of their respective owners
© 2004 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
21/21