ONSEMI NCP582

NCP582
Low Noise 150 mA CMOS
LDO Regulator with Enable
The NCP582 series of low dropout regulators are designed for
portable battery powered applications which require precise output
voltage accuracy, low supply current, and high ripple rejection.
These devices feature an enable function and are offered in active
low and active high with auto discharge.
The following ceramic capacitors are the recommended values to
be used with these devices; for Vout < 2.5 V, Cin = Cout = 1.0 F,
Vout 2.5 V, Cin = Cout = 0.47 F.
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MARKING
DIAGRAMS
SC−82AB
SQ SUFFIX
CASE 419C
Features
•
•
•
•
•
•
•
•
•
•
•
•
Ultra−Low Dropout Voltage of 220 mV at 150 mA
Low Output Noise of 30 Vrms
Excellent Line and Load Regulation
High Output Voltage Accuracy of 2%
Low Supply Current of 75 A
Excellent Power Supply Rejection Ratio
Wide Operating Voltage of 1.5 V to 3.3 V
Low Quiescent Current of 0.1 A
Fast Dynamic Performance
Fold Back Protection Circuit
Low Temperature Drift Coefficient on the Output Voltage
These are Pb−Free Devices
1
1
SOT−563
XV SUFFIX
CASE 463A
6
1
xx M
yyyy M
1
xx, yyyy = Specific Device Code
M
= Date Code
ORDERING INFORMATION
See detailed ordering and shipping information in the package
dimensions section on page 12 of this data sheet.
Typical Applications
• Portable Equipment
• Hand−Held Instrumentation
• Camcorders and Cameras
Vin
4
Vout
Vin
Vout
−
+
−
+
Vref
Vref
Current Limit
CE
Current Limit
GND
CE
Figure 1. Simplified Block Diagram
for Active Low
 Semiconductor Components Industries, LLC, 2004
September, 2004 − Rev. 2
GND
Figure 2. Simplified Block Diagram
for Active High with Auto Discharge
1
Publication Order Number:
NCP582/D
NCP582
PIN FUNCTION DESCRIPTION
SOT−563
Pin
SC−82AB
Pin
Symbol
1
4
Vin
2
2
GND
Power supply ground.
3
3
Vout
Regulated output voltage.
4
−
NC
No connect.
5
−
GND
6
1
CE or CE
Description
Power supply input voltage.
Power supply ground.
Chip enable pin.
MAXIMUM RATINGS
Rating
Symbol
Value
Unit
Input Voltage
Vin
6.5
V
Input Voltage (CE or CE Pin)
VCE
−0.3 to Vin +0.3
V
Output Voltage
Vout
−0.3 to Vin +0.3
V
Output Current
Iout
200
mA
Power Dissipation
SC−82AB
SOT−563
PD
Operating Junction Temperature Range
TJ
−40 to +85
°C
Tstg
+150
°C
mW
150
500
Storage Temperature Range
Maximum ratings are those values beyond which device damage can occur. Maximum ratings applied to the device are individual stress limit values
(not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied, damage
may occur and reliability may be affected.
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2
NCP582
ELECTRICAL CHARACTERISTICS (Vin = Vout + 1.0 V, TA = 25°C, unless otherwise noted.)
Symbol
Min
Typ
Max
Unit
Input Voltage
Vin
2.0
−
6.0
V
Output Voltage (Iout = 1.0 mA to 30 mA)
Vout
Vout X 0.980
−
Vout X 1.020
V
Line Regulation (Iout = 30 mA)
(Vout > 1.7 V; Vout + 0.5 V Vin 6.0 V)
(Vout 1.7 V; 2.2 V Vin 6.0 V)
Regline
−
0.02
0.10
%/V
Load Regulation (Iout = 1.0 mA to 150 mA)
Regload
−
22
40
mV
−
−
−
−
0.38
0.32
0.28
0.22
0.70
0.55
0.50
0.35
Isupply
−
75
95
A
Output Current
Iout
150
−
−
mA
Quiescent Current (VCE = Gnd for Active High with Auto Discharge)
(VCE = Vin for Active Low)
IQ
−
0.1
1.0
A
Output Short Circuit Current (Vout = 0)
Ilim
−
40
−
mA
Ripple Rejection (Iout = 30 mA)
(Vout > 1.7 V; Vin – Vout = 1.0 V)
(Vout 1.7 V; Vin – Vout = 1.2 V)
f = 1.0 kHz
f = 10 kHz
RR
Characteristic
Dropout Voltage (Iout = 150 mA)
Vout = 1.5 V
Vout = 1.8 V
Vout = 2.5 V
2.8 V Vout 3.3 V
VDO
Power Supply Current (Iout = 0 mA)
Enable Input Threshold Voltage
High
Low
V
dB
−
−
70
60
−
−
Vthenh
Vthenl
1.5
0
−
−
Vin
0.3
Vn
−
30
−
Vrms
Vout/T
−
100
−
ppm/°C
V
Output Noise Voltage (Bandwidth = 10 Hz to 100 kHz)
Output Voltage Temperature Coefficient
(Iout = 30 mA, −40°C TA 85°C)
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3
NCP582
TYPICAL CHARACTERISTICS
3.0
1.4
1.2
OUTPUT VOLTAGE Vout (V)
OUTPUT VOLTAGE Vout (V)
1.6
1.8 V
1.0
0.8
Vin = 3.5 V
2.5 V
0.6
0.4
2.0 V
Vout = 1.5 V
0.2
0
0
100
2.0
1.5
3.1 V
3.5 V
1.0
3.8 V
0.5
Vout = 2.8 V
400
0
100
300
200
OUTPUT CURRENT Iout (mA)
OUTPUT CURRENT Iout (mA)
Figure 3. Output Voltage vs. Output Current
Figure 4. Output Voltage vs. Output Current
4.5
400
1.7
4.0
3.5
OUTPUT VOLTAGE Vout (V)
OUTPUT VOLTAGE Vout (V)
Vin = 4.8 V
0
300
200
2.5
Vin = 6.0 V
3.0
2.5
5.0 V
2.0
4.5 V
4.3 V
1.5
1.0
Vout = 4.0 V
0.5
0
0
100
200
300
1.6
1.5
1.4
1.3
Iout = 30 mA
1.2
Iout = 50 mA
1.1
1.0
1.0
400
Iout = 1.0 mA
Vout = 1.5 V
2.0
OUTPUT CURRENT Iout (mA)
3.0
4.0
5.0
6.0
INPUT VOLTAGE Vin (V)
Figure 5. Output Voltage vs. Output Current
Figure 6. Output Voltage vs. Input Voltage
2.9
4.2
OUTPUT VOLTAGE Vout (V)
OUTPUT VOLTAGE Vout (V)
2.8
2.7
2.6
2.5
2.4
2.3
Iout = 1.0 mA
Iout = 30 mA
Iout = 50 mA
2.2
Vout = 2.8 V
2.1
2.0
2.0
3.0
4.0
5.0
4.0
3.8
Iout = 1.0 mA
Iout = 30 mA
3.6
Iout = 50 mA
3.4
3.2
Vout = 4.0 V
3.0
1.0
6.0
2.0
3.0
4.0
5.0
INPUT VOLTAGE Vin (V)
INPUT VOLTAGE Vin (V)
Figure 7. Output Voltage vs. Input Voltage
Figure 8. Output Voltage vs. Input Voltage
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4
6.0
NCP582
90
90
80
80
SUPPLY CURRENT, Isupply (A)
SUPPLY CURRENT, Isupply (A)
TYPICAL CHARACTERISTICS
70
60
50
40
30
20
Vout = 1.5 V
10
0
0
1.0
2.0
3.0
4.0
5.0
60
50
40
30
20
Vout = 2.8 V
10
0
0
6.0
1.0
4.0
3.0
5.0
6.0
INPUT VOLTAGE Vin (V)
Figure 9. Power Supply Current vs. Input Voltage
Figure 10. Power Supply Current vs. Input Voltage
1.53
OUTPUT VOLTAGE, Vout (V)
80
70
60
50
40
30
20
Vout = 4.0 V
10
0
0
1.0
2.0
3.0
4.0
5.0
1.52
1.51
1.50
1.49
1.48
1.46
−40
6.0
Vout = 1.5 V
1.47
−15
INPUT VOLTAGE Vin (V)
35
60
85
Figure 12. Output Voltage vs. Temperature
4.08
OUTPUT VOLTAGE, Vout (V)
2.86
2.84
2.82
2.80
2.78
2.76
−15
10
35
60
4.06
4.04
4.02
4.00
3.98
3.96
3.94
Vout = 2.8 V
2.74
−40
10
TEMPERATURE (°C)
Figure 11. Power Supply Current vs. Input Voltage
OUTPUT VOLTAGE, Vout (V)
2.0
INPUT VOLTAGE Vin (V)
90
SUPPLY CURRENT, Isupply (A)
70
3.92
−40
85
Vout = 4.0 V
−15
10
35
60
TEMPERATURE (°C)
TEMPERATURE (°C)
Figure 13. Output Voltage vs. Temperature
Figure 14. Output Voltage vs. Temperature
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5
85
NCP582
90
90
80
80
SUPPLY CURRENT, Isupply (A)
SUPPLY CURRENT, Isupply (A)
TYPICAL CHARACTERISTICS
70
60
50
40
30
20
Vout = 1.5 V
10
0
−40
−15
10
35
60
70
60
50
40
30
20
Vout = 2.8 V
10
0
−40
85
−15
TEMPERATURE (°C)
60
85
Figure 16. Power Supply Current vs. Temperature
0.6
90
80
DROPOUT VOLTAGE, VDO (V)
SUPPLY CURRENT, Isupply (A)
35
TEMPERATURE (°C)
Figure 15. Power Supply Current vs. Temperature
70
60
50
40
30
20
Vout = 4.0 V
10
0
−40
−15
10
35
60
0.5
0.4
85°C
25°C
0.3
0.2
−40°C
0.1
Vout = 1.5 V
0.0
0
85
25
TEMPERATURE (°C)
75
100
125
150
Figure 18. Dropout Voltage vs. Output Current
0.6
DROPOUT VOLTAGE, VDO (V)
0.40
0.5
0.4
85°C
0.3
25°C
0.2
−40°C
0.1
Vout = 1.8 V
0.0
0
50
OUTPUT CURRENT Iout (mA)
Figure 17. Power Supply Current vs. Temperature
DROPOUT VOLTAGE, VDO (V)
10
25
50
75
100
125
0.35
0.30
25°C
0.20
0.15
−40°C
0.10
0.05
0.00
0
150
85°C
0.25
OUTPUT CURRENT Iout (mA)
Vout = 2.8 V
25
50
75
100
125
150
OUTPUT CURRENT Iout (mA)
Figure 19. Dropout Voltage vs. Output Current
Figure 20. Dropout Voltage vs. Output Current
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6
NCP582
0.40
90
0.35
80
RIPPLE REJECTION, RR (dB)
DROPOUT VOLTAGE, VDO (V)
TYPICAL CHARACTERISTICS
0.30
0.25
85°C
0.20
25°C
0.15
0.10
−40°C
0.05
25
50
75
100
60
50
40
30
20
10
Vout = 4.0 V
0.00
0
70
125
0
0.1
150
OUTPUT CURRENT Iout (mA)
80
80
RIPPLE REJECTION, RR (dB)
RIPPLE REJECTION, RR (dB)
90
70
60
50
40
30
20
0
0.1
1
Vout = 1.5 V
10
60
50
40
30
20
10
0
0.1
100
80
80
RIPPLE REJECTION, RR (dB)
RIPPLE REJECTION, RR (dB)
90
70
60
50
40
30
20
1
1
Vout = 2.8 V
10
100
Figure 24. Ripple Rejection vs. Frequency
90
0
0.1
Vin = 3.8 Vdc + 0.5 Vp−p
Cout = Ceramic 0.47 F
FREQUENCY, f (kHz)
Figure 23. Ripple Rejection vs. Frequency
10
100
70
FREQUENCY, f (kHz)
Vin = 3.8 Vdc + 0.5 Vp−p
Cout = Ceramic 1.0 F
10
Figure 22. Ripple Rejection vs. Frequency
90
10
1
Vout = 1.5 V
FREQUENCY, f (kHz)
Figure 21. Dropout Voltage vs. Output Current
Vin = 2.5 Vdc + 0.5 Vp−p
Cout = Ceramic 2.2 F
Vin = 2.5 Vdc + 0.5 Vp−p
Cout = Ceramic 1.0 F
60
50
40
30
20
10
Vout = 2.8 V
10
70
0
0.1
100
FREQUENCY, f (kHz)
Vin = 5.0 Vdc + 0.5 Vp−p
Cout = Ceramic 0.47 F
1
Vout = 4.0 V
10
100
FREQUENCY, f (kHz)
Figure 26. Ripple Rejection vs. Frequency
Figure 25. Ripple Rejection vs. Frequency
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NCP582
TYPICAL CHARACTERISTICS
RIPPLE REJECTION, RR (dB)
90
80
70
60
50
40
30
20
Vin = 5.0 Vdc + 0.5 Vp−p
Cout = Ceramic 1.0 F
10
0
0.1
Vout = 4.0 V
10
1
100
FREQUENCY, f (kHz)
Figure 27. Ripple Rejection vs. Frequency
Vout = 1.5 V
4
1.54
Input Voltage
3
1.53
2
1.52
1
1.51
0
Output Voltage
1.50
INPUT VOLTAGE, Vin (V)
OUTPUT VOLTAGE, Vout (V)
1.55
1.49
0
10
20
30
40
50
60
70
80
90
100
TIME, t (s)
6
2.84
5
Input Voltage
2.83
4
2.82
3
2.81
2
Output Voltage
1
2.80
2.79
0
10
20
30
50
40
60
70
80
90
TIME, t (s)
Figure 28. Input Transient Response
(Iout = 30 mA, Cin = 0, tr = tf = 5.0 s, Cout = 0.47 F)
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8
0
100
INPUT VOLTAGE, Vin (V)
OUTPUT VOLTAGE, Vout (V)
Vout = 2.8 V
2.85
NCP582
TYPICAL CHARACTERISTICS
1.75
150
1.70
100
Output Current
1.65
50
1.60
0
1.55
Output Voltage
1.50
OUTPUT CURRENT, Iout (mA)
OUTPUT VOLTAGE, Vout (V)
(Vin = 2.5 V, Cout = 1.0 F, Vout = 1.5 V)
1.45
0
2
4
6
8
10
12
14
16
18
20
TIME, t (s)
(Vin = 2.5 V, Cout = 2.2 F, Vout = 1.5 V)
1.75
1.70
100
Output Current
1.65
50
1.60
0
1.55
Output Voltage
1.50
1.45
0
2
4
6
8
10
12
14
TIME, t (s)
Figure 29. Load Transient Response
(tr = tf = 0.5 s, Cin = 1.0 F)
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9
16
18
20
OUTPUT CURRENT, Iout (mA)
OUTPUT VOLTAGE, Vout (V)
150
NCP582
TYPICAL CHARACTERISTICS
(Vin = 3.8 V, Cout = 0.47 F, Vout = 2.8 V)
3.05
3.00
100
Output Current
2.95
50
2.90
0
2.85
Output Voltage
2.80
OUTPUT CURRENT, Iout (mA)
OUTPUT VOLTAGE, Vout (V)
150
2.75
0
2
4
6
8
10
12
14
16
18
20
TIME, t (s)
(Vin = 3.8 V, Cout = 1.0 F, Vout = 2.8 V)
3.05
3.00
100
Output Current
2.95
50
2.90
0
2.85
Output Voltage
2.80
OUTPUT CURRENT, Iout (mA)
OUTPUT VOLTAGE, Vout (V)
150
2.75
0
2
4
6
8
10
12
14
16
18
20
TIME, t (s)
(Vin = 3.8 V, Cout = 2.2 F, Vout = 2.8 V)
3.05
3.00
100
Output Current
2.95
50
2.90
0
2.85
Output Voltage
2.80
2.75
0
2
4
6
8
10
12
14
16
TIME, t (s)
Figure 29. (continued) Load Transient Response
(tr = tf = 0.5 s, Cin = 1.0 F)
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10
18
20
OUTPUT CURRENT, Iout (mA)
OUTPUT VOLTAGE, Vout (V)
150
6
3
5
4
2
Vin
1
3
Iout = 0 mA
2
0
Iout = 30 mA
1
0
Iout = 150 mA
−5
0
5
10
15
20
4
6
3
5
2
4
Vin
1
3
Iout = 0 mA
0
2
Iout = 30 mA
1
0
OUTPUT VOLTAGE, Vout (V)
4
OUTPUT VOLTAGE, Vout (V)
CE INPUT VOLTAGE, VCE (V)
CE INPUT VOLTAGE, VCE (V)
NCP582
Iout = 150 mA
−2
25
−50
0
50
100 150 200 250 300 350 400 450
TIME, t (s)
TIME, t (s)
8
4
3
7
3
Vin
2
6
5
1
−1
4
Iout = 0 mA
0
3
Iout = 30 mA
2
1
Iout = 150 mA
0
8
7
Vin
2
6
1
5
0
4
−1
3
Iout = 0 mA
Iout = 30 mA
2
1
OUTPUT VOLTAGE, Vout (V)
4
OUTPUT VOLTAGE, Vout (V)
CE INPUT VOLTAGE, VCE (V)
CE INPUT VOLTAGE, VCE (V)
Figure 30. Turn−On/Off Speed with CE Pin (D Version)
(Vout = 1.5 V, Vin = 2.5 V, Cin = 1.0 F, Cout = 1.0 F)
0
Iout = 150 mA
−5
0
5
10
15
20
25
−20
0
20
40
60
TIME, t (s)
80
100 120 140 160 180
TIME, t (s)
14
8
14
6
12
6
12
4
10
Vin
2
8
Iout = 0 mA
0
6
Iout = 30 mA
−2
4
2
Iout = 150 mA
−5
0
5
10
15
0
20
4
10
Vin
8
2
6
0
Iout = 0 mA
−2
4
Iout = 30 mA
−20
TIME, t (s)
0
20
40
60
80
−2
100 120 140 160 180
TIME, t (s)
Figure 32. Turn−On/Off Speed with CE Pin (D Version)
(Vout = 4.0 V, Vin = 5.0 V, Cin = 0.47 F, Cout = 0.47 F)
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11
2
0
Iout = 150 mA
−2
25
OUTPUT VOLTAGE, Vout (V)
8
OUTPUT VOLTAGE, Vout (V)
CE INPUT VOLTAGE, VCE (V)
CE INPUT VOLTAGE, VCE (V)
Figure 31. Turn−On/Off Speed with CE Pin (D Version)
(Vout = 2.8 V, Vin = 3.8 V, Cin = 0.47 F, Cout = 0.47 F)
NCP582
APPLICATION INFORMATION
Input Decoupling
performance, select a capacitor with low Equivalent Series
Resistance (ESR). For PCB layout considerations, place
the output capacitor close to the output pin and keep the
leads short as possible.
A 1.0 F ceramic capacitor is the recommended value to
be connected between Vin and GND. For PCB layout
considerations, the traces of Vin and GND should be
sufficiently wide in order to minimize noise and prevent
unstable operation.
Noise Decoupling
The NCP582 series are low noise regulators and reach a
noise level of only 30 Vrms between 10 Hz and 100 kHz.
Output Decoupling
It is best to use a 1.0 F capacitor value when Vout
2.5 V and a 0.47 F when Vout 2.5 V. For better
ORDERING INFORMATION
Output Type / Features
Nominal
Output
Voltage
Marking
Package
Shipping†
NCP582DSQ15T1G
Active High w/Auto Discharge
1.5
SF
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582DSQ18T1G
Active High w/Auto Discharge
1.8
SJ
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582DSQ25T1G
Active High w/Auto Discharge
2.5
TF
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582DSQ28T1G
Active High w/Auto Discharge
2.8
TJ
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582DSQ30T1G
Active High w/Auto Discharge
3.0
UA
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582DSQ33T1G
Active High w/Auto Discharge
3.3
UD
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582DXV15T1G*
Active High w/Auto Discharge
1.5
F15D
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582DXV18T1G*
Active High w/Auto Discharge
1.8
F18D
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582DXV25T1G*
Active High w/Auto Discharge
2.5
F25D
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582DXV28T1G*
Active High w/Auto Discharge
2.8
F28D
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582DXV29T1G*
Active High w/Auto Discharge
2.9
F29D
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582DXV30T1G*
Active High w/Auto Discharge
3.0
F30D
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582DXV33T1G*
Active High w/Auto Discharge
3.3
F33D
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582LSQ15T1G
Active Low
1.5
JF
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582LSQ18T1G
Active Low
1.8
JJ
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582LSQ25T1G
Active Low
2.5
KF
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582LSQ28T1G
Active Low
2.8
KJ
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582LSQ30T1G
Active Low
3.0
LA
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582LSQ33T1G
Active Low
3.3
LD
SC−82AB (Pb−Free)
3000 Tape & Reel
NCP582LXV15T1G*
Active Low
1.5
F15A
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582LXV18T1G*
Active Low
1.8
F18A
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582LXV25T1G*
Active Low
2.5
F25A
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582LXV28T1G*
Active Low
2.8
F28A
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582LXV29T1G*
Active Low
2.9
F29A
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582LXV30T1G*
Active Low
3.0
F30A
SOT−563 (Pb−Free)
4000 Tape & Reel
NCP582LXV33T1G*
Active Low
3.3
F33A
SOT−563 (Pb−Free)
4000 Tape & Reel
Device
*Samples and production start 1Q05.
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specification
Brochure, BRD8011/D.
http://onsemi.com
12
NCP582
PACKAGE DIMENSIONS
SOT−563
XV SUFFIX
CASE 463A−01
ISSUE D
A
−X−
6
5
1
2
C
K
4
B
−Y−
3
D
G
NOTES:
1. DIMENSIONING AND TOLERANCING PER
ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETERS
3. MAXIMUM LEAD THICKNESS INCLUDES
LEAD FINISH THICKNESS. MINIMUM LEAD
THICKNESS IS THE MINIMUM THICKNESS
OF BASE MATERIAL.
J
5 PL
6
0.08 (0.003)
DIM
A
B
C
D
G
J
K
S
S
M
X Y
MILLIMETERS
MIN
MAX
1.50
1.70
1.10
1.30
0.50
0.60
0.17
0.27
0.50 BSC
0.08
0.18
0.10
0.30
1.50
1.70
SOLDERING FOOTPRINT*
0.3
0.0118
0.45
0.0177
1.35
0.0531
1.0
0.0394
0.5
0.5
0.0197 0.0197
SCALE 20:1
mm inches
*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.
http://onsemi.com
13
INCHES
MIN
MAX
0.059 0.067
0.043 0.051
0.020 0.024
0.007 0.011
0.020 BSC
0.003 0.007
0.004 0.012
0.059 0.067
NCP582
PACKAGE DIMENSIONS
SC−82AB
SQ SUFFIX
CASE 419C−02
ISSUE C
NOTES:
1. DIMENSIONING AND TOLERANCING PER
ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
3. 419C−01 OBSOLETE. NEW STANDARD IS
419C−02.
4. DIMENSIONS A AND B DO NOT INCLUDE
MOLD FLASH, PROTRUSIONS, OR GATE
BURRS.
A
G
C
D 3 PL
N
4
3
1
2
K
B
S
F
L
H
J
0.05 (0.002)
DIM
A
B
C
D
F
G
H
J
K
L
N
S
MILLIMETERS
MIN
MAX
1.8
2.2
1.15
1.35
0.8
1.1
0.2
0.4
0.3
0.5
1.1
1.5
0.0
0.1
0.10
0.26
0.1
−−−
0.05 BSC
0.2 REF
1.8
2.4
INCHES
MIN
MAX
0.071
0.087
0.045
0.053
0.031
0.043
0.008
0.016
0.012
0.020
0.043
0.059
0.000
0.004
0.004
0.010
0.004
−−−
0.002 BSC
0.008 REF
0.07
0.09
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14
ON Semiconductor Website: http://onsemi.com
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For additional information, please contact your
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NCP582/D