NCV5662DS15R4G [ONSEMI]
Low Output Voltage, Ultra−Fast 2.0 A Low Dropout Linear Regulator with Enable; 低输出电压,超快2.0低压差线性稳压器具有使能型号: | NCV5662DS15R4G |
厂家: | ONSEMI |
描述: | Low Output Voltage, Ultra−Fast 2.0 A Low Dropout Linear Regulator with Enable |
文件: | 总14页 (文件大小:616K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
NCP5662, NCV5662
Low Output Voltage,
Ultra−Fast 2.0 A Low Dropout
Linear Regulator with Enable
The NCP5662/NCV5662 is a high performance, low dropout linear
regulator designed for high power applications that require up to 2.0 A
current. It is offered in both fixed and adjustable output versions. With
output voltages as low as 0.9 V and ultra−fast response times for load
transients, the NCP5662/NCV5662 also provides additional features
such as Enable and Error Flag (for the fixed output version),
increasing the utility of these devices. A thermally robust, 5 pin
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MARKING
DIAGRAMS
2
D PAK or DFN8 package, combined with an architecture that offers
NC
1
low ground current (independent of load), provides for a superior
high−current LDO solution.
x5662DSy
AWLYWWG
5
2
D PAK
DS SUFFIX
CASE 936AA
Features
1
• Ultra−Fast Transient Response (Settling Time: 1−3 ms)
• Low Noise Without Bypass Capacitor (26 mV
rms)
• Low Ground Current Independent of Load (3.0 mA Maximum)
• Fixed/Adjustable Output Voltage Versions
• Enable Function
NCP5
662y
ALYW G
G
1
• Error Flag (Fixed Output Version)
• Current Limit Protection
DFN8
CASE 488AF
• Thermal Protection
x
y
= P or V
• 0.9 V Reference Voltage for Ultra−Low Output Operation
• Power Supply Rejection Ratio > 65 dB
• NCV Prefix for Automotive and Other Applications Requiring Site
and Control Changes
=A for Adjustable Version
B for Fixed 1.5 V Version
C for Fixed 3.3 V Version
D for Fixed 1.2 V Version
E for Fixed 1.8 V Version
F for Fixed 2.5 V Version
G for Fixed 2.8 V Version
H for Fixed 3.0 V Version
= Assembly Location
= Wafer Lot
• These are Pb−Free Devices
Applications
A
L
• Servers
• ASIC Power Supplies
• Post Regulation for Power Supplies
• Constant Current Source
• Networking Equipment
• Gaming and STB Modules
Y
=Year
WW = Work Week
G or G = Pb−Free Package
(Note: Microdot may be in either location)
ORDERING INFORMATION
See detailed ordering and shipping information in the package
dimensions section on page 12 of this data sheet.
©
Semiconductor Components Industries, LLC, 2007
1
Publication Order Number:
January, 2007 − Rev. 7
NCP5662/D
NCP5662, NCV5662
PIN FUNCTION DESCRIPTION
Pin
Pin
Adj/Fixed Adj/Fixed
2
D PAK
DFN8
Pin Name
Description
This pin allows for on/off control of the regulator. To disable the device, connect to
1
4
Enable
Ground. If this function is not in use, connect to V .
in
2
6
V
in
Positive Power Supply Input Voltage
3, TAB
1, 2, 3, EP
Ground
Power Supply Ground
4
5
7
8
V
Regulated Output Voltage
out
Adj
This pin is connected to the resistor divider network and programs the output voltage.
(Adjustable Version)
5
−
8
5
Error Flag
(Fixed Version)
An Error Flag is triggered when the output voltage is out of regulation excluding tran-
sient signals that may occur. Requires a pullup resistor f 100 kW.
N/C
No connection. True no connect. PCB runs allowable
ABSOLUTE MAXIMUM RATINGS
Rating
Symbol
Value
18
Unit
V
Input Voltage
V
in
Output Pin Voltage
Adjust Pin Voltage
Enable Pin Voltage
Error Flag Voltage
Error Flag Current
V
−0.3 to Vin +0.3
−0.3 to Vin +0.3
−0.3 to Vin +0.3
−0.3 to Vin +0.3
3.0
V
out
V
adj
V
V
V
en
V
V
ef
I
mA
°C/W
ef
2
Thermal Characteristics, D PAK (Note 1)
Thermal Resistance Junction−to−Ambient
Thermal Resistance Junction−to−Case
R
q
45
5.0
JA
R
q
JC
Thermal Characteristics, DFN8 (Note 1)
Thermal Resistance Junction−to−Ambient
Thermal Resistance Junction−to−Lead (Note 2)
°C/W
R
R
78
14
q
JA
JC
q
Operating Junction Temperature Range
Storage Temperature Range
T
−40 to +150
−55 to +150
°C
°C
J
T
stg
Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the
Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect
device reliability.
NOTE: This device series contains ESD protection and exceeds the following tests:
Human Body Model (HBM) JESD 22−A114−B
Machine Model (MM) JESD 22−A115−A.
The maximum package power dissipation is:
T
* T
J(max)
A
P
+
D
R
qJA
The bipolar process employed for this IC is fully characterized and rated for reliable 18 V V
operation. To avoid damaging
CCmax
2
the part or degrading it’s reliability, power dissipation transients should be limited to under 30 W for D PAK.
For open−circuit to short−circuit transient,
P
= V
* I
.
SC
DTransient
CCmax
2
1. 1 oz copper, 1 in copper area.
2. Lead 6.
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2
NCP5662, NCV5662
ELECTRICAL CHARACTERISTICS
(V − V = 1.5 V, for typical values T = 25°C, for min/max values T = −40°C to 85°C, C = C = 150 mF unless otherwise noted.)
in
out
J
J
in
out
Characteristic
Symbol
Min
Typ
Max
Unit
ADJUSTABLE OUTPUT VERSION
Input Voltage
V
2.0
−
−
9.0
−
V
in
Output Noise Voltage
V
26
mV
rms
n
Output Voltage Accuracy
V
out
V
T = 25°C (V = V +1.5 V to 7.0 V, I = 10 mA to 2.0 A)
−1%
−1.5%
−2%
−
0.9
+1%
+1.5%
+2%
J
in
out
out
T = −20 to +125°C (V = V +1.5 V to 7.0 V, I = 10 mA to 2.0 A)
J
in
out
out
−
T = −40 to +150°C (V = V +1.5 V to 7.0 V, I = 10 mA to 2.0 A)
J
in
out
out
Adjustable Pin Input Current
Line Regulation (I = 10 mA, V +1.5 V < V < 7.0 V)
I
−
−
40
0.03
0.03
1.0
−
−
−
nA
%
%
V
adj
REG
out
out
in
line
Load Regulation (10 mA < I < 2.0 A)
REG
−
−
out
load
Dropout Voltage (I = 2.0 A)
V
−
1.3
−
out
DO
Peak Output Current Limit
Internal Current Limitation
I
2.0
−
A
out
I
3.0
−
A
lim
Ripple Rejection (120 Hz)
Ripple Rejection (1 kHz)
RR
−
−
70
65
−
−
dB
Thermal Shutdown (Guaranteed by Design)
Ground Current
T
−
160
−
°C
SHD
I
= 2.0 A
I
−
−
1.3
10
3.0
300
mA
mA
out
q
Disabled State
I
qds
Enable Input Threshold Voltage
V
en
V
Voltage Increasing, On state, Logic High
Voltage Decreasing, Off state, Logic Low
1.3
−
−
−
−
0.3
Enable Input Current
I
en
Enable Pin Voltage = 0.3 V
−
−
0.5
0.5
−
−
mA
max
Enable Pin Voltage = 1.3 V
min
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NCP5662, NCV5662
ELECTRICAL CHARACTERISTICS
(V − V = 1.5 V, for typical values T = 25°C, for min/max values T = −40°C to 85°C, C = C = 150 mF unless otherwise noted.)
in
out
J
J
in
out
Characteristic
Symbol
Min
Typ
Max
Unit
FIXED OUTPUT VOLTAGE
Input Voltage
V
2.0
−
−
9.0
−
V
in
Output Noise Voltage (V = 0.9 V)
V
26
mV
rms
out
n
Output Voltage Accuracy (Note 3)
V
out
V
T = 25°C (V = V +1.5 V to 7.0 V, I = 10 mA to 2.0 A)
−1%
−1.5%
−2%
−
+1%
+1.5%
+2%
J
in
out
out
V
out
T = −20 to +125°C (V = V +1.5 V to 7.0 V, I = 10 mA to 2.0 A)
J
in
out
out
−
T = −40 to +150°C (V = V +1.5 V to 7.0 V, I = 10 mA to 2.0 A)
J
in
out
out
Line Regulation (I = 10 mA, V +1.5 V < V < 7.0 V)
REG
−
−
0.03
0.2
1.0
−
−
−
%
%
V
out
out
in
line
Load Regulation (10 mA < I < 2.0 A)
REG
load
out
Dropout Voltage (I = 2.0 A)
V
−
1.3
−
out
DO
Peak Output Current Limit
Internal Current Limitation
I
2.0
−
A
out
I
3.0
−
A
lim
Ripple Rejection (120 Hz)
Ripple Rejection (1 kHz)
RR
−
−
70
65
−
−
dB
Thermal Shutdown (Guaranteed by Design)
Ground Current
T
−
160
−
°C
SHD
I
= 2.0 A
I
−
−
1.3
30
3.0
300
mA
mA
out
q
Disabled State
I
qds
Enable Input Threshold Voltage
V
en
V
Voltage Increasing, On state, Logic High
Voltage Decreasing, Off state, Logic Low
1.3
−
−
−
−
0.3
Enable Input Current
I
en
Enable Pin Voltage = 0.3 V
−
−
0.5
0.5
−
−
mA
max
Enable Pin Voltage = 1.3 V
min
Error Flag (Fixed Output)
V
91
−
94
200
1.0
50
97
−
% of V
mV
cflt
out
Error Flag Output Low Voltage Saturation (I = 1.0 mA)
V
cfdo
ef
Error Flag Leakage
I
−
−
mA
efleak
Error Flag Blanking Time (Note 4)
T
−
−
ms
ef
3. Fixed output voltage available at 0.9 V per request.
4. Can be disabled per customer request.
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4
NCP5662, NCV5662
V
in
IN
ON
Enable
Block
EN
OFF
Voltage
Reference
Block
V
ref
= 0.9 V
C
in
R3
R4
V
out
Output
Stage
R1
R2
ADJ
C
out
GND
GND
V
V
out
ref
R1 + R2 ǒ * 1Ǔ
Figure 1. Typical Schematic, Adjustable Output Version
V
in
IN
ON
EN
OFF
Enable
Block
Voltage
Reference
Block
Rflag
V
ref
= 0.9 V
C
in
V
R3
R4
out
Output
Stage
Cc
R1
R2
C
out
EF
Error
Flag
GND
GND
Figure 2. Typical Schematic, Fixed Output Version
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5
NCP5662, NCV5662
1.2
1.0
0.8
0.6
0.4
0.2
0
−50
−25
0
25
50
75
100
125
150
T , JUNCTION TEMPERATURE (°C)
J
Figure 3. Dropout Voltage vs. Temperature
1.3
1.2
1.1
1.0
0.9
0.8
0.7
1.3
V
C
C
= 1.5 V Fixed
= 150 mF
= 10 to 150 mF
V
C
C
= 3.3 V Fixed
= 150 mF
= 10 to 150 mF
out
out
in
in
1.2
1.1
1.0
0.9
out
out
T = 25°C
J
T = 25°C
J
0.8
0.7
0
0.5
1.0
1.5
2.0
0
0.5
1.0
1.5
2.0
I
, OUTPUT CURRENT (A)
out
I , OUTPUT CURRENT (A)
out
Figure 4. 1.5 V Dropout Voltage vs. Output Current
Figure 5. 3.3 V Dropout Voltage vs. Output Current
3.5
3.5
3.0
3.25
3
2.5
2.0
1.5
1.0
0.5
0
2.75
2.5
2.25
2
−50
−25
0
25
50
75
100
125
150
−50
−25
0
25
50
75
100
125
150
T , JUNCTION TEMPERATURE (°C)
J
T , JUNCTION TEMPERATURE (°C)
J
Figure 6. Ground Current vs. Temperature
Figure 7. Short Circuit Current Limit vs.
Temperature
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NCP5662, NCV5662
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0
3.4
3.0
2.6
2.2
1.8
1.4
1.0
0.6
I
C
C
= 10 mA
= 150 mF
I
C
C
= 10 mA
out
out
= 150 mF
in
in
= 1.0 to 150 mF
= 1.0 to 150 mF
out
out
T = 25°C
T = 25°C
J
J
0.2
0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
0
1.0 2.0
3.0 4.0 5.0
6.0 7.0 8.0 9.0
V , INPUT VOLTAGE (V)
in
V , INPUT VOLTAGE (V)
in
Figure 8. 1.5 V Output Voltage vs. Input Voltage
Figure 9. 3.3 V Output Voltage vs. Input Voltage
1.55
1.53
1.51
1.49
1.47
1.45
3.35
3.34
3.33
3.32
3.31
3.30
3.29
3.28
3.27
V
= 3.3 V
= 2.0 A maximum
= 150 mF
V
= 5.1 V
= 2.0 A maximum
= 150 mF
in
in
I
I
out
out
C
C
C
C
in
in
= 1.0 to 150 mF
= 1.0 to 150 mF
out
out
T = 25°C
J
T = 25°C
J
3.26
3.25
0
0.5
1.0
1.5
2.0
0
0.5
1.0
1.5
2.0
I
, OUTPUT CURRENT (A)
out
I , OUTPUT CURRENT (A)
out
Figure 10. 1.5 V Output Voltage vs. Output Load
Current
Figure 11. 3.3 V Output Voltage vs. Output Load
Current
1.2
1.0
0.8
0.6
0.4
0.2
100
90
80
70
60
50
40
30
20
10
T = 25°C
A
L = 25 mm Copper
I
= 10 mA
out
V
= 4.0 V
= 0.9 V
= 0 mF
in
I
= 1.0 A
out
V
out
C
C
in
= 1.0 mF
out
T = 25°C
J
0.0
0
0
0
1.0
10
F, FREQUENCY (kHz)
100
1000
2
4
6
8
10
12
14
16
20
INPUT−OUTPUT VOLTAGE DIFFERENTIAL (V)
Figure 12. Output Current vs. Input−Output
Voltage Differential
Figure 13. Ripple Rejection vs. Frequency
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NCP5662, NCV5662
100
90
80
70
60
50
40
30
20
10
0
100
90
80
70
60
50
V
V
= 12 V
= 0.9 V
40
30
20
10
0
V
V
= 3.3 V
= 0.9 V
in
in
out
out
I
= 10 mA
= 150 mF
= 150 mF
I
= 2.36 A
= 150 mF
= 150 mF
out
out
C
C
C
C
in
out
in
out
T = 25°C
J
T = 25°C
J
Start 1.0 kHz
Stop 100 kHz
Start 1.0 kHz
Stop 100 kHz
F, FREQUENCY (kHz)
F, FREQUENCY (kHz)
Figure 14. Noise Density vs. Frequency
Figure 15. Noise Density vs. Frequency
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NCP5662, NCV5662
V
in
= 3.3 V
V
out
= 1.5 V Fixed
C
C
= 150 mF
in
= 150 mF
out
T = 25°C
A
V
in
= 3.3 V
V
out
= 1.5 V Fixed
C
C
= 150 mF
in
= 150 mF
out
T = 25°C
A
I
= 2.0 A to 10 mA
out
I
= 10 mA to 2.0 A
out
TIME (1.0 ms/Div)
TIME (1.0 ms/Div)
Figure 16. Load Transient Response
Figure 17. Load Transient Response
V
in
= 3.3 V
V
out
= 1.5 V Fixed
C
C
= 150 mF
in
= 150 mF
out
T = 25°C
A
V
in
= 3.3 V
V
out
= 1.5 V Fixed
C
C
= 150 mF
in
= 150 mF
out
T = 25°C
A
I
= 2.0 A to 10 mA
out
I
= 10 mA to 2.0 A
out
TIME (100 ns/Div)
TIME (100 ns/Div)
Figure 18. Load Transient Response
Figure 19. Load Transient Response
V
in
= 4.0 V
V
out
= 0.9 V
C
C
= 150 mF
in
= 10 mF
out
T = 25°C
A
V
in
= 4.0 V
V
out
= 0.9 V
C
C
= 150 mF
in
= 10 mF
out
T = 25°C
A
I
= 2.0 A to 10 mA
out
I
= 10 mA to 2.0 A
out
TIME (200 ns/Div)
TIME (200 ns/Div)
Figure 20. Load Transient Response
Figure 21. Load Transient Response
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NCP5662, NCV5662
APPLICATION INFORMATION
capacitor close to the output pin and keep the leads short.
This should help ensure ultra−fast transient response times.
The NCP5662 is a high performance low dropout 2.0 A
linear regulator suitable for high power applications,
featuring an ultra−fast response time and low noise without
a bypass capacitor. It is offered in both fixed and adjustable
output versions with voltages as low as 0.9 V. Additional
features, such as Enable and Error Flag (fixed output
version) increase the utility of the NCP5662. It is thermally
robust and includes the safety features necessary during a
fault condition, which provide for an attractive high current
LDO solution for server, ASIC power supplies, networking
equipment applications, and many others.
Adjustable Output Operation
The application circuit for the adjustable output version is
shown in Figure 1. The reference voltage is 0.9 V and the
adjustable pin current is typically 40 nA. A resistor divider
network, R1 and R2, is calculated using the following
formula:
V
V
out
ref
R1 + R2 ǒ * 1Ǔ
Current Limit Operation
As the peak output current increases beyond its limitation,
the device is internally clampled to 3.0 A, thus causing the
output voltage to decrease and go out of regulation. This
allows the device never to exceed the maximum power
dissipation.
Input Capacitor
The recommended input capacitor value is a 150 mF
OSCON with an Equivalent Series Resistance (ESR) of
50 mW. It is especially required if the power source is
located more than a few inches from the NCP5662. This
capacitor will reduce device sensitivity and enhance the
output transient response time. The PCB layout is very
important and in order to obtain the optimal solution, the Vin
and GND traces should be sufficiently wide to minimize
noise and unstable operation.
Error Flag Operation
The Error Flag pin on the NCP5662 will produce a logic
Low when it drops below the nominal output voltage. Refer
to the electrical characteristics for the threshold values at
which point the Error Flag goes Low. When the NCP5662
is above the nominal output voltage, the Error Flag will
remain at logic High.
Output Capacitor
Proper output capacitor selection is required to maintain
stability. The NCP5662 is guaranteed to be stable at an
output capacitance of, C > 10 mF with an ESR < 300 mW
over the output current range of 10 mA to 2.0 A. For PCB
layout considerations, place the recommended ceramic
The external pullup resistor needs to be connected
between V and the Error Flag pin. A resistor of
in
out
approximately 100 kW is recommended to minimize the
current consumption. No pullup resistor is required if the
Error Flag output is not being used.
390
340
290
240
190
140
1 oz Copper
2 oz Copper
90
40
0
100
200
300
400
500
600
700
2
COPPER AREA (mm )
Figure 22. DFN8 Thermal Resistance vs. Copper Area
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10
NCP5662, NCV5662
NCP5662 Evaluation Board
Figure 23. Test Board used for Evaluation
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11
NCP5662, NCV5662
ORDERING INFORMATION
Device
Nominal Output Voltage
Package
Shipping†
NCP5662DSADJR4G
Adj
(Pb−Free)
NCP5662DS12R4G
NCP5662DS15R4G
NCP5662DS18R4G
NCP5662DS25R4G
NCP5662DS28R4G
NCP5662DS30R4G
NCP5662DS33R4G
NCV5662DSADJR4G
NCV5662DS15R4G
NCP5662MNADJR2G
NCP5662MN15R2G
NCP5662MN33R2G
Fixed, 1.2 V
(Pb−Free)
Fixed, 1.5 V
(Pb−Free)
Fixed, 1.8 V
(Pb−Free)
Fixed, 2.5 V
(Pb−Free)
2
D PAK
800/Tape & Reel
Fixed, 2.8 V
(Pb−Free)
Fixed, 3.0 V
(Pb−Free)
Fixed, 3.3 V
(Pb−Free)
Adj
(Pb−Free)
Fixed, 1.5 V
(Pb−Free)
Adj
(Pb−Free)
Fixed, 1.5 V
(Pb−Free)
DFN8
3000/Tape & Reel
Fixed, 3.3 V
(Pb−Free)
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging
Specifications Brochure, BRD8011/D.
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12
NCP5662, NCV5662
PACKAGE DIMENSIONS
D2PAK 5−LEAD
CASE 936AA−01
ISSUE B
NOTES:
1. DIMENSIONS AND TOLERANCING PER
ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: INCH.
3. PACKAGE OUTLINE EXCLUSIVE OF MOLD
FLASH AND METAL BURR.
U
A
U1
E
V1
4. PACKAGE OUTLINE EXCLUSIVE OF
PLATING THICKNESS.
K
B
5. FOOT LENGTH MEASURED AT INTERCEPT
POINT BETWEEN DATUM A AND LEAD
SURFACE.
S
V
M
H
INCHES
MILLIMETERS
1
2
3
4 5
DIM
A
B
C
D
E
MIN
MAX
0.406
0.340
0.180
0.035
0.055
MIN
10.05
8.38
4.31
0.66
1.14
MAX
10.31
8.64
4.57
0.91
1.40
0.396
0.330
0.170
0.026
0.045
L
P
W
N
G
H
K
L
M
N
P
R
S
U
0.067 BSC
1.70 BSC
G
0.539
0.579
0.066
0.010
0.108
0.023
0.078
8
13.69
14.71
1.68
0.25
2.74
0.58
1.98
8
2.67
7.72
6.92
7.63
1.11
D5 PL
R
0.055
0.000
0.098
0.017
0.058
0
1.40
0.00
2.49
0.43
1.47
0
−A−
_
_
_
_
0.095
0.296
0.105
0.304
0.272
0.300
0.044
2.41
7.52
6.72
7.53
1.01
C
U1 0.265
0.296
V1 0.040
0.010
V
SOLDERING FOOTPRINT*
W
0.25
8.38
0.33
1.702
0.067
10.66
0.42
1.016
0.04
3.05
0.12
16.02
0.63
mm
inches
ǒ
Ǔ
SCALE 3:1
*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
NCP5662, NCV5662
8 PIN DFN, 4x4
CASE 488AF−01
ISSUE B
NOTES:
1. DIMENSIONS AND TOLERANCING PER
ASME Y14.5M, 1994.
A
B
D
8X L
2. CONTROLLING DIMENSION: MILLIMETERS.
3. DIMENSION b APPLIES TO PLATED
TERMINAL AND IS MEASURED BETWEEN
0.25 AND 0.30 MM FROM TERMINAL.
4. COPLANARITY APPLIES TO THE EXPOSED
PAD AS WELL AS THE TERMINALS.
8X K
PIN ONE
IDENTIFICATION
1
8
D2
E
MILLIMETERS
4
5
DIM MIN
0.80
A1 0.00
MAX
1.00
0.05
2X
0.15
C
A
b 8X NOTE 3
E2
e
A3
b
0.20 REF
0.25
0.10
0.05
C
A B
TOP VIEW
C
0.35
2X
0.15
D
4.00 BSC
C
BOTTOM VIEW
D2 1.91
2.21
E
4.00 BSC
E2 2.09
2.39
e
K
L
0.80 BSC
0.20
0.30
−−−
0.50
0.10
0.08
C
C
A
8X
(A3)
A1
SEATING
PLANE
C
SIDE VIEW
SOLDERING FOOTPRINT*
4.30
8X
2.21
2.39
0.63
1
0.40
0.80
PITCH
8X
0.35
DIMENSIONS: MILLIMETERS
2.75
*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.
The products described herein (NCP5662/NCV5662), may be covered by one or more of the following U.S. patents: 5,920,184;
5,834,926. There may be other patents pending.
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.
“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights
nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications
intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should
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NCP5662/D
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