NCR321Z [NEXPERIA]
250 mA LED driver in SOT223Production;型号: | NCR321Z |
厂家: | Nexperia |
描述: | 250 mA LED driver in SOT223Production |
文件: | 总18页 (文件大小:452K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
NCR320Z / NCR321Z
250 mA LED driver in SOT223
Rev. 1 — 4 February 2019
Product data sheet
1. Product profile
1.1. General description
LED driver consisting of a resistor-equipped NPN transistor with two diodes on one chip in a
medium power SOT223 (SC-73) Surface-Mounted Device (SMD) plastic package.
Table 1. Product overview
Type number
Package
Nexperia
SOT223
SOT223
JEITA
SC-73
SC-73
NCR320Z
NCR321Z
1.2. Features and benefits
•
•
•
•
•
•
•
•
•
Stabilized output current of 10 mA without external resistor
Stabilized output current adjustable up to 250 mA when an external resistor is used
High current accuracy at supply voltage variation
Low voltage overhead of 1.4 V
Reduces component count and board space
High power dissipation of 1250 mW
Supply voltage up to 16 V
Digital PWM input up to 10 kHz frequency for NCR321Z
AEC-Q101 qualified
1.3. Applications
•
•
•
Constant current LED driver
Generic constant current source
Automotive applications (for example: interior lighting, dash board, instrumentation, number
plate light)
•
Increase stabilized output current by paralleling drivers
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
1.4. Quick reference data
Table 2. Quick reference data
Symbol
Parameter
Conditions
Min
Typ
Max
Unit
VEN
enable voltage
NCR320Z
-
-
-
-
-
-
25
4.5
16
V
V
V
NCR321Z
Vout
Iout
output voltage
stabilized output current
NCR320Z
Vout= 1.4 V;
VEN= 12 V
[1] 9
[1] 9
10
10
11
11
mA
mA
NCR321Z
Vout= 1.4 V;
VEN= 3.3 V
[1] Pulse test: tp ≤ 300 µs; δ ≤ 0.02
2. Pinning information
Table 3. Pinning
Pin
1
Symbol
VEN
Description
enable voltage
external resistor
ground
Simplified outline
Symbol
IOUT
4
2
REXT
GND
3
1
2
3
4
IOUT
output current
VEN
REXT
GND
aaa-029430
3. Ordering information
Table 4. Ordering information
Type number Package
Name
Description
Version
NCR320Z
SC-73
plastic surface-mounted package with
increased heatsink; 4 leads
SOT223
NCR321Z
SC-73
plastic surface-mounted package with
increased heatsink; 4 leads
SOT223
4. Marking
Table 5. Marking codes
Type number
Marking code
CR320Z
NCR320Z
NCR321Z
CR321Z
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
2 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
5. Limiting values
Table 6. Limiting values
In accordance with the Absolute Maximum Rating System (IEC 60134).
Symbol
Parameter
Conditions
Min
Max
Unit
Iout
stabilized output current if
external resistor is used
-
300
mA
VEN
enable voltage
NCR320Z
-
-
-
25
V
NCR321Z
4.5
V
Vout
VR
output voltage
reverse voltage
total power dissipation
16
V
[1] -
0.5
V
Ptot
Tamb ≤ 25 °C
[2] -
[3] -
[4] -
[5] -
-
765
1160
1250
1800
150
150
150
mW
mW
mW
mW
°C
°C
°C
Tj
junction temperature
ambient temperature
storage temperature
Tamb
Tstg
-55
-65
[1] Between all terminals.
[2] Device mounted on an FR4 Printed-Circuit Board (PCB), single-side copper (70 µm), tin-plated and
standard footprint.
[3] Device mounted on an FR4 Printed-Circuit Board (PCB), single-side copper (70 µm), tin-plated; mounting
pad for collector 1 cm2.
[4] Device mounted on an FR4 Printed-Circuit Board (PCB), 4-layer copper, tin-plated and standard footprint.
[5] Device mounted on an FR4 Printed-Circuit Board (PCB), 4-layer copper, tin-plated; mounting pad for
collector 1 cm2.
aaa.029431
2.0
P
tot
(W)
(1)
1.6
(2)
(3)
1.2
0.8
0.4
0
(4)
-75
-25
25
75
125
175
(°C)
T
amb
(1) FR4 PCB, 4-layer copper, 1 cm2
(2) FR4 PCB, 4-layer copper, standard footprint
(3) FR4 PCB, single sided copper (70 µm), 1 cm2
(4) FR4 PCB, single-sided copper (70 µm), standard footprint
Fig. 1. Power derating curve
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
3 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
6. Thermal characteristics
Table 7. Thermal characteristics
Symbol Parameter
Conditions
Min
[1] -
Typ
Max
164
108
100
70
Unit
K/W
K/W
K/W
K/W
K/W
Rth(j-a)
thermal resistance from
in free air
-
-
-
-
-
junction to ambient
[2] -
[3] -
[4] -
-
Rth(j-sp)
thermal resistance from
junction to solder point
27
[1] Device mounted on an FR4 PCB, single-sided copper (70 µm), tin-plated and standard footprint.
[2] Device mounted on an FR4 PCB, single-sided copper (70 µm), tin-plated; mounting pad
for collector 1 cm2.
[3] Device mounted on an FR4 PCB, 4-layer copper, tin-plated and standard footprint.
[4] Device mounted on an FR4 PCB, 4-layer copper, tin-plated; mounting pad for collector 1 cm2.
aaa-029432
3
10
Z
th(j-a)
(K/W)
duty cycle = 1
2
0.75
0.50
10
0.33
0.20
0.10
10
0.05
0.02
0.01
0
1
10
-5
-4
-3
-2
10
-1
2
3
10
10
10
1
10
10
10
t
(s)
p
FR4 PCB; single-sided copper; tin-plated and standard footprint
Fig. 2. Transient thermal impedance from junction to ambient as a function of pulse duration; typical values
aaa-029433
3
10
Z
th(j-a)
(K/W)
duty cycle = 1
2
10
0.75
0.50
0.33
0.20
0.10
10
0.05
0.02
0.01
0
1
10
-5
-4
-3
10
-2
10
-1
2
3
10
10
1
10
10
10
t
(s)
p
FR4 PCB; single-sided copper, tin-plated; mounting pad for collector 1 cm 2
Fig. 3. Transient thermal impedance from junction to ambient as a function of pulse duration; typical values
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
4 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
aaa-029434
3
10
Z
th(j-a)
(K/W)
duty cycle = 1
2
10
0.75
0.50
0.33
0.20
0.10
10
0.05
0.02
0.01
0
1
10
-5
-4
-3
10
-2
10
-1
2
3
10
10
1
10
10
10
t
(s)
p
FR4 PCB; 4-layer copper; tin-plated and standard footprint
Fig. 4. Transient thermal impedance from junction to ambient as a function of pulse duration; typical values
aaa-029435
3
10
Z
th(j-a)
(K/W)
2
10
duty cycle = 1
0.75
0.50
0.33
0.20
10
0.10
0.05
0.02
0.01
0
1
10
-5
-4
-3
10
-2
10
-1
2
3
10
10
1
10
10
10
t
(s)
p
FR4 PCB; 4-layer copper, tin-plated; mounting pad for collector 1 cm 2
Fig. 5. Transient thermal impedance from junction to ambient as a function of pulse duration; typical values
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
5 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
7. Characteristics
Table 8. Characteristics
Tamb = 25 °C unless otherwise specified.
Symbol
Parameter
Conditions
Min
Typ
Max
Unit
V(BR)CEO
collector-emitter
IC = 1 mA; IB = 0 A
16
-
-
V
breakdown voltage
hFE
DC current gain
internal resistor
VCE =1 V; IC = 50 mA
IRint = 10 mA
[1] 200
85
350
95
-
Rint
105
1.05
Ω
V
VRint
voltage drop at internal
resistor Rint
Iout = 10 mA
[1] 0.85
0.95
IEN
RB
Iout
Iout
enable current
NCR320Z
VEN = 12 V
VEN =3.3 V
[1] -
[1] -
1.2
1.2
-
-
mA
mA
NCR321Z
bias resistor
NCR320Z
-
-
10
-
-
kΩ
kΩ
NCR321Z
1.5
stabilized output current
NCR320Z
VEN = 12 V; Vout = 1.4 V
VEN = 3.3 V; Vout = 1.4 V
[1] 9
[1] 9
10
10
11
11
mA
mA
NCR321Z
stabilized output current
NCR320Z at Rext = 3 Ω
NCR321Z at Rext = 3 Ω
VEN = 12 V; Vout > 1.4 V
VEN = 3.3 V; Vout > 1.4 V
Iout> 10 mA
[1] -
[1] -
-
250
250
1.4
-
-
-
mA
mA
V
Vout, min
lowest sufficient output
voltage overhead:
Vout = VCC - VLED
ΔIout/(Iout x ΔTamb
)
stabilized output current change over ambient temperature
NCR320Z
NCR321Z
VEN = 12 V; Vout > 2 V
VEN = 3.3 V; Vout > 2 V
[1] -
[1] -
-0.27
-0.27
-
-
%/K
%/K
ΔIout/(Iout x ΔVCC
)
stabilized output current change over supply voltage
NCR320Z
NCR321Z
VEN = 12 V; Vout > 2 V
VEN = 3.3 V; Vout > 2 V
[1] -
[1] -
1
1
-
-
%/V
%/V
[1] Pulse test: tp ≤ 300 μs; δ ≤ 0.02.
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
6 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
aaa-029390
aaa-029444
0.3
0.4
I
out
(A)
I
out
(A)
(2)
(1)
(2)
0.3
(1)
0.2
0.2
0.1
0
(3)
0.1
(4)
(5)
(6)
0
2
0
4
8
12
1
10
10
V
(V)
R
ext
out
VEN = 12 V; Tamb = 25 °C
(1) Rext = 3 Ω
VEN = 12 V; Tamb = 25 °C
(1) Vout = 1.4 V
(2) Rext = 4 Ω
(2) Vout = 5.4 V
(3) Rext = 6 Ω
Fig. 7. NCR320Z: Output current as a function of
external resistor; typical values
(4) Rext = 10 Ω
(5) Rext = 20 Ω
(6) Rext = open
Fig. 6. NCR320Z: Output current as a function of
output voltage; typical values
aaa-029392
aaa-029393
0.015
0.07
I
out
(A)
0.06
I
out
(3)
(2)
(1)
(A)
(3)
0.05
0.04
0.03
0.02
0.01
0
0.010
0.005
0
(2)
(1)
0
4
8
12
0
4
8
12
V
(V)
V
(V)
out
out
VEN = 12 V; Rext = open
(1) Tamb = 85 °C
VEN = 12 V; Rext = 20 Ω
(1) Tamb = 85 °C
(2) Tamb = 25 °C
(2) Tamb = 25 °C
(3) Tamb = -40 °C
(3) Tamb = -40 °C
Fig. 8. NCR320Z: Output current as a function of
output voltage; typical values
Fig. 9. NCR320Z: Output current as a function of
output voltage; typical values
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
7 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
aaa-029394
aaa-029395
0.3
0.015
I
I
(3)
(2)
out
out
(A)
(A)
(3)
(1)
0.2
0.010
(2)
(1)
0.1
0.005
0
0
0
4
8
12
0
5
10
15
20
V
25
V
(V)
(V)
EN
out
VEN = 12 V; Rext = 3 Ω
(1) Tamb = 85 °C
Vout = 2 V; Rext = open
(1) Tamb = 85 °C
(2) Tamb = 25 °C
(2) Tamb = 25 °C
(3) Tamb = -40 °C
(3) Tamb = -40 °C
Fig. 10. NCR320Z: Output current as a function of
output voltage; typical values
Fig. 11. NCR320Z: Output current as a function of
enable voltage; typical values
aaa-029396
aaa-029397
0.07
0.3
I
out
(A)
0.06
(3)
(3)
(2)
(1)
I
(2)
(1)
out
(A)
0.05
0.04
0.03
0.02
0.01
0
0.2
0.1
0
0
5
10
15
20
V
25
0
5
10
15
20
V
25
(V)
(V)
EN
EN
Vout = 2 V; Rext = 20 Ω
(1) Tamb = 85 °C
Vout = 2 V; Rext = 3 Ω
(1) Tamb = 85 °C
(2) Tamb = 25 °C
(3) Tamb = -40 °C
(2) Tamb = 25 °C
(3) Tamb = -40 °C
Fig. 12. NCR320Z: Output current as a function of
enable voltage; typical values
Fig. 13. NCR320Z: Output current as a function of
enable voltage; typical values
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
8 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
aaa-029398
aaa-029399
0.3
3
2
1
0
(1)
(2)
I
I
out
(A)
EN
(mA)
(1)
(2)
0.2
(3)
(3)
0.1
(4)
(5)
(6)
0
0
5
10
15
20
V
25
0
5
10
15
20
V
25
(V)
(V)
EN
EN
Vout = 2 V; Tamb = 25 °C
(1) Rext = 3 Ω
Iout = 0 A; Rext = open
(1) Tamb = 85 °C
(2) Tamb = 25 °C
(3) Tamb = -40 °C
(2) Rext = 4 Ω
(3) Rext = 6 Ω
(4) Rext = 10 Ω
(5) Rext = 20 Ω
(6) Rext = open
Fig. 15. NCR320Z: Enable current as a function of
enable voltage; typical values
Fig. 14. NCR320Z: Output current as a function of
enable voltage; typical values
aaa-029400
aaa-029445
0.3
0.4
I
out
(A)
I
out
(A)
(2)
(1)
(2)
0.3
(1)
0.2
0.2
0.1
0
(3)
0.1
(4)
(5)
(6)
0
2
0
4
8
12
1
10
10
V
(V)
R
ext
out
VEN = 3.3 V; Tamb = 25 °C
(1) Rext = 3 Ω
VEN = 3.3 V; Tamb = 25 °C
(1) Vout = 1.4 V
(2) Rext = 4 Ω
(2) Vout = 5.4 V
(3) Rext = 6 Ω
Fig. 17. NCR321Z: Output current as a function of
external resistor; typical values
(4) Rext = 10 Ω
(5) Rext = 20 Ω
(6) Rext = open
Fig. 16. NCR321Z: Output current as a function of
output voltage; typical values
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
9 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
aaa-029402
aaa-029403
0.015
0.07
out
I
(A)
0.06
I
out
(3)
(2)
(1)
(A)
(3)
(2)
0.05
0.04
0.03
0.02
0.01
0
0.010
(1)
0.005
0
0
4
8
12
0
4
8
12
V
(V)
V
(V)
out
out
VEN = 3.3 V; Rext = open
(1) Rext = 85 °C
VEN = 3.3 V; Rext = 20 Ω
(1) Rext = 85 °C
(2) Rext = 25 °C
(2) Rext = 25 °C
(3) Rext = -40 °C
(3) Rext = -40 °C
Fig. 18. NCR321Z: Output current as a function of
output voltage; typical values
Fig. 19. NCR321Z: Output current as a function of
output voltage; typical values
aaa-029404
aaa-029405
0.3
0.015
(3)
I
I
out
(A)
out
(A)
(2)
(1)
(3)
(2)
0.2
0.010
(1)
0.1
0.005
0
0
0
4
8
12
0
1
2
3
4
5
V
(V)
V
(V)
EN
out
VEN = 3.3 V; Rext = 3 Ω
(1) Rext = 85 °C
Vout = 2 V; Rext = open
(1) Rext = 85 °C
(2) Rext = 25 °C
(2) Rext = 25 °C
(3) Rext = -40 °C
(3) Rext = -40 °C
Fig. 20. NCR321Z: Output current as a function of
output voltage; typical values
Fig. 21. NCR321Z: Output current as a function of
enable voltage; typical values
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
10 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
aaa-029406
aaa-029407
0.07
0.3
I
out
(A)
0.06
(3)
(1)
I
(3)
(2)
(1)
out
(A)
0.05
0.04
0.03
0.02
0.01
0
0.2
0.1
0
0
1
2
3
4
5
0
1
2
3
4
5
V
(V)
V
(V)
EN
EN
Vout = 2 V; Rext = 20 Ω
(1) Rext = 85 °C
Vout = 2 V; Rext = 3 Ω
(1) Rext = 85 °C
(2) Rext = 25 °C
(2) Rext = 25 °C
(3) Rext = -40 °C
(3) Rext = -40 °C
Fig. 22. NCR321Z: Output current as a function of
enable voltage; typical values
Fig. 23. NCR321Z: Output current as a function of
enable voltage; typical values
aaa-029408
aaa-029409
0.3
4
I
EN
(mA)
I
out
(A)
(1)
(1)
(2)
3
2
1
0
(2)
(3)
0.2
(3)
0.1
(4)
(5)
(6)
0
0
2
4
6
0
2
4
6
V
(V)
V
(V)
EN
EN
Vout = 2 V; Tamb = 25 °C
(1) Rext = 3 Ω
Iout = 0 A; Rext = open
(1) Tamb = 85 °C
(2) Tamb = 25 °C
(3) Tamb = -40 °C
(2) Rext = 4 Ω
(3) Rext = 6 Ω
(4) Rext = 10 Ω
(5) Rext = 20 Ω
(6) Rext = open
Fig. 25. NCR321Z: Enable current as a function of
enable voltage; typical values
Fig. 24. NCR321Z: Output current as a function of
enable voltage; typical values
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
11 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
8. Application information
Figure 26 shows a typical application circuit for an LED driver. The constant current ensures a
constant brightness in all LEDs. The output current can be adjusted between 10 mA and 250 mA
by connecting resistor Rext. Figures 7 and 17 give a first indication for choosing the external resitor
Rext. The minimum input voltage is given by voltage drop at the LED's VLED and the maximum is
governed by the maximum power dissipation
VLED + Vout, min < VCC < Ptot /Iout + VLED
V
CC
I
I
out
EN
VEN
IOUT
REXT
R
ext
GND
aaa-029337
Fig. 26. LED driver application diagram
NCR321Z can be used for PWM dimming or on/off function by driving the VEN pin. The enable
voltage depends on the drive current, see Figure 23. Figure 27 shows a typical application
where VEN is driven via a micro directly. To control more than one NCR321Z devices by one
microcontroller output, a shift register (for example 74AHC(T)594PW) can be used.
V
CC
µC /
Logic
I
I
out
EN
VEN
IOUT
REXT
GND
R
ext
aaa-029336
Fig. 27. Application diagram: PWM dimming function
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
12 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
To savely drive currents that are above the limits of the NCR32xZ, two or more devices can be
parallel connected as illustrated in Figure 28. When choosing the same values for the external
resistors, the drive current splits equally and the capability of handling excess power is doubled.
Both, NCR320Z and NCR321Z can be used in this configuration.
V
CC
I
I
I
I
out
EN
out
EN
VEN
IOUT
VEN
IOUT
REXT
REXT
R
ext
R
ext
GND
GND
aaa-029364
Fig. 28. Application diagram: Parallelization
©
NCR320Z_NCR321Z
All information provided in this document is subject to legal disclaimers.
Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
13 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
9. Package outline
Table 9. Package outline
Plastic surface-mounted package with increased heatsink; 4 leads
SOT223
D
E
B
A
X
c
y
H
v
M
A
E
b
1
4
Q
A
A
1
L
1
2
3
p
e
b
p
w
M
B
detail X
1
e
0
2
4 mm
scale
DIMENSIONS (mm are the original dimensions)
A
UNIT
A
b
p
b
c
D
E
e
e
H
L
p
Q
v
w
y
1
1
1
E
1.8
1.5
0.10 0.80
0.01 0.60
3.1
2.9
0.32
0.22
6.7
6.3
3.7
3.3
7.3
6.7
1.1
0.7
0.95
0.85
mm
4.6
2.3
0.2
0.1
0.1
REFERENCES
JEDEC JEITA
EUROPEAN
PROJECTION
OUTLINE
VERSION
ISSUE DATE
IEC
04-11-10
06-03-16
SOT223
SC-73
Fig. 29. Package outline SC-73 (SOT223)
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NCR320Z_NCR321Z
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Product data sheet
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NCR320Z / NCR321Z
250 mA LED driver in SOT223
10. Soldering
Table 10. Soldering
7
3.85
3.6
3.5
0.3
1.3 1.2
(4×) (4×)
solder lands
solder resist
4
6.1
3.9
7.65
solder paste
occupied area
1
2
3
Dimensions in mm
2.3
2.3
1.2
(3×)
1.3
(3×)
6.15
sot223_fr
Fig. 30. Reflow soldering footprint for SC-73 (SOT223)
8.9
6.7
1.9
solder lands
4
solder resist
occupied area
6.2
8.7
Dimensions in mm
1
2
3
preferred transport
direction during soldering
1.9
(3×)
2.7
2.7
1.9
(2×)
1.1
sot223_fw
Fig. 31. Wave soldering footprint for SC-73 (SOT223)
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NCR320Z_NCR321Z
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Product data sheet
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NCR320Z / NCR321Z
250 mA LED driver in SOT223
11. Revision history
Table 11. Revision history
Document ID
Release date
Data sheet status
Change
notice
Supersedes
NCR320Z_NCR321Z v.1
20190204
Product data sheet
-
-
©
NCR320Z_NCR321Z
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Nexperia B.V. 2019. All rights reserved
Product data sheet
Rev. 1 — 4 February 2019
16 / 18
Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
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NCR320Z_NCR321Z
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Nexperia B.V. 2019. All rights reserved
Product data sheet
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Nexperia
NCR320Z / NCR321Z
250 mA LED driver in SOT223
Contents
1. Product profile..............................................................1
1.1. General description......................................................1
1.2. Features and benefits..................................................1
1.3. Applications................................................................. 1
1.4. Quick reference data................................................... 2
2. Pinning information......................................................2
3. Ordering information....................................................2
4. Marking..........................................................................2
5. Limiting values............................................................. 3
6. Thermal characteristics............................................... 4
7. Characteristics..............................................................6
8. Application information............................................. 12
9. Package outline.......................................................... 14
10. Soldering................................................................... 15
11. Revision history........................................................16
12. Legal information......................................................17
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Date of release: 4 February 2019
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