NJW4104U2-33A-T1(TE1) [NJRC]
Fixed Positive LDO Regulator,;
| 型号: | NJW4104U2-33A-T1(TE1) |
| 厂家: | 
NEW JAPAN RADIO |
| 描述: | Fixed Positive LDO Regulator, 光电二极管 输出元件 调节器 |
| 文件: | 总21页 (文件大小:925K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
NJW4104
45V Io=200mA Ultra low Quiescent current LDO
■FEATURES
■GENERAL DESCRIPTION
● Low Quiescent Current
5.5µA typ.(A version)
5.0µA typ.(B version)
4.0V to 40V
NJW4104 is a 45V Io=200mA ultra low quiescent
current low dropout regulator.
● Operating Voltage
It achieves low quiescent current characteristics,
therefore it contributes to reduce current consumption
of applications.
● Operating Temperature
● Output Voltage Accuracy
Ta=-40 C to 125°C
VO 1.0%(Ta=25 C)
VO 2.0%(Ta=-40 C to 125°C)
IO(min.)=200mA
Output Voltage is guaranteed ±2% under wide range
conditions: VIN=Vo+1V to 40V, Io=0 to 200mA and
Ta=-40 C to 125 C.
● Output Current
● ON/OFF Control
A ver. only
● Correspond to MLCC
● Under Voltage Lock Out circuit
● Thermal Shutdown Circuit
Because of wide input voltage range and wide
operating temperature range, the NJW4104 is suitable
for various applications including automotive
applications.
● Over Current Protection Circuit
● Package Outline
A ver. SOT-89-5-2
B ver. SOT-89-3, TO-252-3-L1
■APPLICATION
■TYPICAL APPLICATION
● Automotive infotainment
● Automotive ECU unit
● Industrial equipment
VIN
VOUT
VIN
VOUT
2.2μF
1.0μF
NJW4104-A
CONTROL
GND
NC
■BLOCK DIAGRAM
VIN
VIN
VOUT
VOUT
Current
Limit
Current
Limit
CONTROL
UVLO
UVLO
Bandgap
Reference
Bandgap
Reference
Thermal
Protection
Thermal
Protection
GND
GND
A version
B version
Ver.1.0
- 1 -
http://www.njr.com/
NJW4104
■OUTPUT VOLTAGE RANK
SOT-89-5-2
SOT-89-3
PART NUMBER
TO-252-3-L1
OUTPUT
OUTPUT
VOLTAGE
3.3V
OUTPUT
VOLTAGE
3.3V
PART NUMBER
PART NUMBER
VOLTAGE
3.3V
NJW4104U2-33A / -T1
NJW4104U2-05A / -T1
NJW4104U3-33B / -T1
NJW4104U3-05B / -T1
NJW4104DL1-33B
NJW4104DL1-05B
5.0V
5.0V
5.0V
■PIN CONFIGURATION
SOT-89-5-2
PIN NO.
SYMBOL
DESCRIPTION
5
1
CONTROL
1
2
3
4
5
CONTROL
GND
NC
ON/OFF Control
Ground
2
2 GND
GND
No Connection*
Output
3
UT
4
NC
VOUT
VIN
Input
*Note) NC pin is not connect to internally circuit. This pin can be open or
connected to ground. Connecting to ground is recommended to
improve thermal dissipation.
SOT-89-3
PIN NO.
SYMBOL
VOUT
DESCRIPTION
VOUT
1
2
3
1
2
3
Output
Ground
Input
2 ND
GND
VIN
GND
VIN
TO-252-3-L1
PIN NO.
SYMBOL
VIN
DESCRIPTION
VIN
1
1
2
3
Input
GND
2 GND
2
GND
VOUT
Ground
Output
VOUT
3
■PRODUCT NAME INFORMATION
NJW4104 U2 - 05 A - T1 (TE1)
Spec
T1: Automotive
Device Name
Package
U2: SOT-89-5-2 Voltage
U3: SOT-89-3 33: 3.3V
DL1: TO-252-3-L1 05: 5.0V
Output
Version
Taping form
A: ON/OFF
B: without ON/OFF
Ver.1.0
- 2 -
http://www.njr.com/
NJW4104
■ORDERING INFORMATION
OUTPUT
AUTOMOTIVE
SPEC
MOQ
PACKAGE
OUTLINE
HALOGEN- TERMINAL
WEIGHT
(mg)
PRODUCT NAME
RoHS
MARKING
VOLTAGE
FREE
FINISH
(pcs)
1000
1000
1000
1000
1000
1000
1000
1000
3000
3000
NJW4104U2-33A(TE1)
NJW4104U2-05A(TE1)
NJW4104U2-33A-T1(TE1)
NJW4104U2-05A-T1(TE1)
NJW4104U3-33B(TE1)
NJW4104U3-05B(TE1)
NJW4104U3-33B-T1(TE1)
NJW4104U3-05B-T1(TE1)
NJW4104DL1-33B(TE1)
NJW4104DL1-05B(TE1)
3.3V
5.0V
3.3V
5.0V
3.3V
5.0V
3.3V
5.0V
3.3V
5.0V
SOT-89-5-2
SOT-89-5-2
SOT-89-5-2
SOT-89-5-2
SOT-89-3
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
Sn-2Bi
Sn-2Bi
Sn-2Bi
Sn-2Bi
Sn-2Bi
Sn-2Bi
Sn-2Bi
Sn-2Bi
Sn-2Bi
Sn-2Bi
61
61
231
241
yes
yes
61
251
61
261
61
001
SOT-89-3
61
011
SOT-89-3
yes
yes
61
021
SOT-89-3
61
031
TO-252-3-L1
TO-252-3-L1
301
301
04B33
04B05
Note) "-" is non-evaluation. Please contact your sales representative for more information.
■ABSOLUTE MAXIMUM RATINGS
PARAMETER
Input Voltage
SYMBOL
VIN
RATINGS
-0.3 to +45
-0.3 to +45
UNIT
V
V
V
Control Pin Voltage(1)
VCONT
VOUT
Output Voltage
-0.3 to VIN +17
(2-layer / 4-layer)
625(2)/ 2400(3)
1190(2)/ 3125(3)
-40 to +150
Power Dissipation(Ta=25 C)
SOT-89
PD
mW
TO-252
Junction Temperature Range
Operating Temperature Range
Storage Temperature Range
(1): Applied for A version.
Tj
°C
°C
°C
Topr
Tstg
-40 to +125
-50 to +150
(2): Mounted on glass epoxy board. (76.2 114.3 1.6mm: based on EIA/JEDEC standard, 2Layers)
(3): Mounted on glass epoxy board. (76.2 114.3 1.6mm: based on EIA/JEDEC standard, 4Layers), internal Cu area: 74.2x74.2mm
(For 4Layers :Applying 74.2 x74.2mm inner Cu area and thermal via holes to board based on JEDEC standard JESD51-5)
■RECOMMENDED OPERATING CONDITIONS
PARAMETER
Operating Voltage Range
Control Voltage
SYMBOL
VIN
VALUE
4.0 to 40
0 to 40
UNIT
V
VCONT
V
Ver.1.0
- 3 -
http://www.njr.com/
NJW4104
■ELECTRICAL CHARACTERISTICS
Unless other noted, VIN = VO + 1V, CIN = 1.0µF, CO =2.2µF, Ta = 25°C
PARAMETER
Output Voltage
SYMBOL
VO
TEST CONDITION
VIN =Vo+1V to 40V, IO =0mA to 200mA,
VIN =Vo+1V to 40V, IO =0mA to 200mA,
Ta=-40 C to +125 C
MIN.
TYP.
-
MAX.
単位
-1.0%
+1.0%
V
-2.0%
-
5.5
-
+2.0%
9.5
A version, IO =0mA, except ICONT
-
-
A version, IO =0mA, except ICONT
,
13.5
Quiescent Current
IQ
Ta =-40 C to +125 C
B version, IO =0mA
μA
-
5.0
8.5
12
1
-
-
B version, IO =0mA,Ta=-40 C to +125 C
VCONT=0V
-
-
Quiescent Current
at Control OFF (4)
IQ(OFF)
IO
μA
-
-
1
VCONT=0V, Ta=-40 C to +125 C
VO 0.9
200
-
-
Output Current
mA
200
-
-
VO 0.9, Ta=-40 C to +125 C
VO=3.3V
-
-
23.5
34
35.3
51
15.2
23
26.4
40
-
VIN= VO +1V to 40V, IO =30mA
VO=5.0V
VO=3.3V
VO=5.0V
VO=3.3V
VO=5.0V
VO=3.3V
VO=5.0V
VO=3.3V
VO=5.0V
-
-
Line Regulation
mV
mV
VO/ VIN
-
-
VIN= VO +1V to 40V, IO =30mA,
Ta=-40 C to +125 C
-
-
-
-
-
IO =0mA to 200mA
-
Load Regulation
VO/ IO
-
-
IO =0mA to 200mA,
Ta=-40 C to +125 C
VIN=7.0V ,ein=200mVrms,
f=1kHz, IO =10mA
-
-
-
41
Ripple Rejection
Dropout Voltage(5)
Control Current (4)
RR
VIO
dB
V
-
36
-
IO=100mA
-
0.18
0.25
0.46
2
-
-
IO=100mA, Ta=-40 C to +125 C
VCONT=1.6V
-
0.5
ICONT
μA
V
-
-
3
VCONT=1.8V, Ta=-40 C to +125 C
1.6
1.8
-
-
-
Control Voltage
for ON-state (4)
Control Voltage
for OFF-state (4)
UVLO
VCONT(ON)
VCONT(OFF)
VUVLO
VHYS
-
-
Ta=-40 C to +125 C
-
-
0.6
0.6
3.3
3.5
-
V
-
Ta=-40 C to +125 C
VIN =L→H
2.4
2.1
70
70
2.8
-
V
Release Voltage
UVLO
VIN =L→H, Ta=-40 C to +125 C
VIN =H→L
200
-
mV
Hysteresis Voltage
Average Temperature
Coefficient of Output
Voltage
VIN=H→L, Ta=-40 C to +125 C
-
-
-
VO/ Ta
Ta=-40 C to 125 C, IO =30mA
50
ppm/ C
(4): Applied for A version.
(5): Except Output Voltage Rank less than 3.8V
Characteristics values of defined as Ta=-40 C to +125 C are applied only “T1”spec.
Ver.1.0
- 4 -
http://www.njr.com/
NJW4104
■THERMAL CHARACTERISTICS
PARAMETER
SYMBOL
VALUE
SOT-89-3/-5-2
UNIT
°C/W
200(6)
52(7)
105(6)
40(7)
43(6)
19(7)
17(6)
12(7)
Junction-to-ambient
thermal resistance
θja
TO-252-3-L1
SOT-89-3/-5-2
TO-252-3-L1
Junction-to-Top of package
characterization parameter
ψjt
°C/W
(6): Mounted on glass epoxy board. (76.2 114.3 1.6mm: based on EIA/JEDEC standard, 2Layers)
(7): Mounted on glass epoxy board. (76.2´114.3´1.6mm: based on EIA/JEDEC standard, 4Layers), internal Cu area: 74.2x74.2mm
(For 4Layers :Applying 74.2 x74.2mm inner Cu area and thermal via holes to board based on JEDEC standard JESD51-5)
■POWER DISSIPATION vs. AMBIENT TEMPERATURE
NJW4104U2/U3 (SOT-89-5-2/SOT-89-3)
Power Dissipation
NJW4104DL1 (TO-252-3)
Power Dissipation
(Topr = -40ºC to +125ºC, Tj=150ºC)
(Topr = -40ºC to +125ºC, Tj=150ºC)
3000
2500
2000
1500
1000
500
3500
3000
2500
2000
1500
1000
500
on 4 layers board (7)
on 4 layers board (7)
on 2 layers board (6)
on 2 layers board (6)
0
0
-50 -25
0
25 50 75 100 125 150
Temperature: (ºC)
-50 -25
0
25 50 75 100 125 150
Temperature: (ºC)
Ver.1.0
- 5 -
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NJW4104
*Input Capacitor CIN
The input capacitor CIN is required in order to prevent oscillation and reduce power supply ripple of applications when high
power supply impedance or a long power supply line.
Therefore, the recommended capacitance (refer to conditions of ELECTRIC CHARACTERISTIC) or larger input capacitor,
connected between VIN and GND as short path as possible, is recommended in order to avoid the problem.
*Output Capacitor CO
The output capacitor CO is required for a phase compensation of the internal error amplifier, and the capacitance and the
equivalent series resistance (ESR) influence stable operation of the regulator.
If use a smaller output capacitor than the recommended capacitance (refer to conditions of ELECTRIC CHARACTERISTIC),
it may cause excess output noise or oscillation of the regulator due to lack of the phase compensation. Therefore, the
recommended capacitance or larger output capacitor, connected between VOUT and GND as short path as possible, is
recommended for stable operation. The recommended capacitance may be different by output voltage, therefore confirm the
recommended capacitance of the required output voltage.
Furthermore, a larger output capacitor reduces output noise and ripple output, and also improves Output Transient Response
when a load changes rapidly.
Selecting the output capacitor, should consider varied characteristics of a capacitor: frequency characteristics, temperature
characteristics, DC bias characteristics and so on. Therefore, the capacitor that has a sufficient margin of the rated voltage
against the output voltage and superior temperature characteristics, is recommended for CO.
*Transient Response of Output Voltage
In general, the regulator tends to cause overshoot or undershoot of output voltage at the following conditions.
Particularly in products featuring low current consumption, the output voltage fluctuation may become large due to product
characteristics.
When input voltage or output current fluctuate sharply
When output capacitance is small
When output load is light
When start up from the condition of narrow voltage difference between an Input and an output.
One way to improve transient response is to use a large capacity input and output capacitors to suppress to the fluctuation.
Amount of transient fluctuation will change according to multiple conditions, so please refer to the above to confirm with actual
equipment.
Ver.1.0
- 6 -
http://www.njr.com/
NJW4104
■TYPICAL CHARACTERISTICS
NJW4104_5.0V
Output Voltage vs Input Voltage
NJW4104_5.0V
Output Current vs Output Current
5.2
5.1
5
6
5
4
3
2
1
0
@Ta=25ºC
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
-40°C
25°C
150°C
4.9
4.8
4.7
Io=0mA
@Ta=25ºC
VIN=6.0V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
Io=30mA
Io=200mA
4.7
4.9
5.1
5.3
5.5
5.7
200
40
0
0
0
200
400
600
800
200
200
Input Voltage: VIN (V)
Output Current: Io (mA)
NJW4104_5.0V
NJW4104_5.0V
GND Pin Current vs Output Current
Dropout Voltage vs Output Current
200
180
160
140
120
100
80
0.6
0.5
0.4
0.3
0.2
0.1
0
@Ta=25ºC
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
@Ta=25ºC
VIN=6.0V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
60
40
20
0
0
50
100
150
50
100
150
Output Current: Io (mA)
Output Current: Io (mA)
NJW4104_5.0V
NJW4104_5.0V
Quiescent Current vs Input Voltage
Load Regulation vs Output Current
400
350
300
250
200
150
100
50
0
-5
@Ta=25ºC
Io=0mA
CIN=1.0µF(Ceramic)
-10
-15
-20
-25
-30
-35
-40
-45
-50
Co=2.2µF(Ceramic)
Aver.
Bver.
-40°C
25°C
@VIN=6.0V
CIN=1.0μF(Ceramic)
Co=2.2µF(Ceramic)
125°C
0
0
10
20
30
50
100
150
Input Voltage: VIN (V)
Output Current: Io (mA)
Ver.1.0
- 7 -
http://www.njr.com/
NJW4104
NJW4104_5.0V
Output Voltage vs Control Voltage
NJW4104_5.0V
Control Current vs Control Voltage
6
5
4
3
2
1
0
30
25
20
15
10
5
@Ta=25ºC
VIN=6.0V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
@Ta=25ºC
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
0
0
0.5
1
1.5
2
2.5
3
0
10
20
30
40
Control Voltage: VCONT (V)
Control Voltage: VCONT (V)
NJW4104_5.0V
Peak Output Current vs Input Voltage
NJW4104_5.0V
Short Circuit Current vs Input Voltage
800
700
600
500
400
300
200
100
0
400
350
300
250
200
150
100
50
@Ta=25ºC
Vo=0V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
@Ta=25ºC
Vo=4.5V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
0
6
10 14 18 22 26 30 34 38
Input Voltage: VIN (V)
6
10 14 18 22 26 30 34 38
Input Voltage: VIN (V)
NJW4104_5.0V
Ripple Rejection vs Frequency
NJW4104_5.0V
Ripple Rejection vs Output Current
100
90
80
70
60
50
40
30
20
10
0
100
90
80
70
60
50
40
30
20
10
0
@Ta=25ºC
VIN=7.0V
ein=200mVrms
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
Io=0mA
Io=10mA
Io=100mA
Io=200mA
@Ta=25ºC
VIN=7.0V
ein=200mVrms
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
f=1kHz
f=10kHz
0.01
0.1
1
10
100
0.01
1
100
Frequency: f (kHz)
Output Current: Io (mA)
Ver.1.0
- 8 -
http://www.njr.com/
NJW4104
NJW4104_5.0V
Output Voltage vs Temperature
NJW4104_5.0V
Equivalent Series Resistance vs Output Current
5.2
5.15
5.1
100
10
1
@VIN=6.0V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
@VIN=6V - 40V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
5.05
5
STABLE REGION
4.95
4.9
0.1
Io=0mA
Io=30mA
Io=100mA
Io=200mA
4.85
4.8
0.01
0.004
-50 -25
0
25 50 75 100 125 150
0.001
0.01
0.1
100 200
1
10
Temperature: (ºC)
Output Current: Io (mA)
NJW4104_5.0V
Control Voltage vs Temperature
NJW4104_5.0V
Control Current vs Temperature
2
1.8
1.6
1.4
1.2
1
4
3.5
3
@CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
@VCONT=1.8V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
2.5
2
0.8
0.6
0.4
0.2
0
1.5
1
0.5
0
-50 -25
0
25 50 75 100 125 150
Temperature: (ºC)
-50 -25
0
25 50 75 100 125 150
Temperature: (ºC)
NJW4104_5.0V
Peak Output Current vs Temperature
NJW4104_5.0V
Short Circuit Current vs Temperature
1000
900
800
700
600
500
400
300
200
100
0
600
500
400
300
200
100
0
VIN=6V
VIN=6V
@Vo=4.5V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
VIN=40V
VIN=40V
@Vo=0V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
-50 -25
0
25 50 75 100 125 150
Temperature: (ºC)
-50 -25
0
25 50 75 100 125 150
Temperature: (ºC)
Ver.1.0
- 9 -
http://www.njr.com/
NJW4104
NJW4104_5.0V
Dropout Voltage vs Temperature
NJW4104_5.0V
Output Voltage vs Temperature
1
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
6
5
4
3
2
1
0
OFF
ON
@CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
Io=30mA
Io=100mA
Io=200mA
@:VIN=6.0V
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
-50 -25
0
25 50 75 100 125 150 175 200
Temperature: (ºC)
-50 -25
0
25 50 75 100 125 150
Temperature: (ºC)
NJW4104_5.0V
Quiescent Current vs Temperature
NJW4104_5.0V
Load Transient Response
30
25
20
15
10
5
300
200
100
0
6.2
Aver.
Bver.
@:VIN=6.0V
Io=0mA
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
@Ta=25ºC
VIN=13.5V
Io=30mA-100mA
CIN=1.0µF(Ceramic)
6
Output Current
5.8
5.6
5.4
5.2
5
-100
-200
-300
-400
-500
Output Voltage
Co=2.2µF(recommended value)
Co=4.7µF
4.8
4.6
0
-50 -25
0
25 50 75 100 125 150
Temperature: (ºC)
-0.2
0
0.2 0.4 0.6 0.8
Time: t (msec)
1
1.2 1.4 1.6
NJW4104_5.0V
Input Transient Response
30
20
7
Input Voltage
@Ta=25ºC
VIN=6.0V-20V
Io=10mA
6.6
6.2
5.8
5.4
5
CIN=1.0µF(Ceramic)
10
0
-10
-20
-30
-40
-50
Output Voltage
4.6
4.2
3.8
Co=2.2µF(recommended value)
Co=4.7µF
-0.2
0
0.2 0.4 0.6 0.8
Time: t (msec)
1
1.2 1.4 1.6
Ver.1.0
- 10 -
http://www.njr.com/
NJW4104
■TYPICAL APPLICATION
●A version
1. In the case where ON/OFF Control is not required
VIN
VIN
VOUT
VOUT
1.0μF
2.2μF
NJW4104-A
CONTROL
GND
Connect CONTROL Pin to VIN Pin
2. In use of ON/OFF CONTROL
VIN
VIN
VOUT
VOUT
2.2μF
NJW4104-A
1.0μF
CONTROL
GND
State of CONTROL Pin:
“H” → output is enabled. “L” or “open” → output is disabled
●B version
VIN
VIN
VOUT
VOUT
1.0 F
2.2 F
NJW4104-B
GND
Ver.1.0
- 11 -
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NJW4104
■APPLICATION NOTE / GLOSSARY
*Under Voltage Lockout UVLO
The NJW4104 includes UVLO circuit to prevent malfunction in case of low input voltage.
When the input voltage increases and exceeds the “UVLO Release voltage” (2.8V typ.),UVLO is released and the
output voltage rises up.
The UVLO circuit has hysteresis(200mV typ.). Therefore, if the input voltage decreases below the threshold
voltage:“UVLO Release voltage” – “UVLO Hysteresis Voltage”, the output voltage shuts down.
NJW4104
Output Voltage vs Input Voltage
6
UVLO Release
UVLO Detect
5
4
3
2
@Ta=25ºC
Io=0mA
CIN=1.0µF(Ceramic)
Co=2.2µF(Ceramic)
1
0
0
1
2
3
4
5
6
7
8
Input Voltage : VIN (V)
Ver.1.0
- 12 -
http://www.njr.com/
NJW4104
SOT-89-3
■PACKAGE DIMENSIONS
Unit: mm
1.5±0.15
4.5±0.3
1.6
0.4±0.1
2
3
1
0.42±0.1
0.42±0.1
0.47±0.1
+0.15
-0.05
0.4
1.5
1.5
■EXAMPLE OF SOLDER PADS DIMENSIONS
2.0
1.0
1.0
1.0
1.5
1.5
Ver.1.0
- 13 -
http://www.njr.com/
NJW4104
SOT-89-5-2
■PACKAGE DIMENSIONS
Unit: mm
4.5±0.3
1.5±0.3
1.6
0.47
0.4
(2)
5
4
1
2
3
0.42
0.4
0.47
1.5
1.5
■EXAMPLE OF SOLDER PADS DIMENSIONS
2.0
0.7
0.7
1.0
45°
1.5
1.5
Ver.1.0
- 14 -
http://www.njr.com/
NJW4104
TO-252-3-L1
■PACKAGE DIMENSIONS
Unit: mm
6.54±0.19
2.29±0.09
0.52±0.06
5.34±0.12
2
0~0.25
1
3
0.76±0.12
0.76±0.12
0.52±0.06
2.28
2.28
5.34±0.12
(2.5)
(4.8)
■EXAMPLE OF SOLDER PADS DIMENSIONS
6.0
2.0
2.0
2.3
2.3
Ver.1.0
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http://www.njr.com/
NJW4104
SOT-89-3
Unit: mm
■PACKING SPEC
TAPING DIMENSIONS
Feed direction
SYMBOL
REMARKS
DIMENSION
4.9±0.1
4.5±0.1
A
B
BOTTOM DIMENSION
BOTTOM DIMENSION
P0
T
φD0
P2
1.5+0.1
D0
E
F
P0
P1
P2
T
T2
W
0
1.5±0.1
5.65±0.1
4.0±0.1
8.0±0.1
2.0±0.05
0.3±0.05
2.0
12.0±0.3
9.5
P1
A
T2
THICKNESS 0.1MAX
W1
REEL DIMENSIONS
W1
E
SYMBOL
A
B
C
D
DIMENSION
φ180±1
φ 60±1
φ 13±0.2
φ 21±0.8
2±0.5
D
C
E
W
13±0.5
W1
1.2±0.2
W
TAPING STATE
Insert direction
Sealing with covering tape
(TE1)
Empty tape
40mm MIN.
Covering tape
500mm MIN.
Empty tape
40mm MIN.
Devices
1000pcs/reel
Feed direction
PACKING STATE
Label
Label
Put a reel into a box
Ver.1.0
- 16 -
http://www.njr.com/
NJW4104
SOT-89-5-1 / SOT-89-5-2
Unit: mm
■PACKING SPEC
TAPING DIMENSIONS
Feed direction
SYMBOL
A
B
D0
D1
E
REMARKS
DIMENSION
4.8±0.1
BOTTOM DIMENSION
BOTTOM DIMENSION
P0
T
φD0
P2
4.9±0.1
+0.1
0
1.5
1.6
1.5±0.1
5.65±0.1
4.0±0.1
8.0±0.1
2.0±0.1
0.30±0.05
2.0±0.1
12.0±0.3
9.5
F
P0
P1
P2
T
T2
W
P1
A
φD1
T2
THICKNESS 0.1MAX
W1
REEL DIMENSIONS
W1
E
SYMBOL
A
B
C
D
DIMENSION
φ180±1
φ 60±1
φ 13±0.2
φ 21±0.8
2±0.5
D
C
E
W
13±0.5
W1
1.2±0.2
W
TAPING STATE
Insert direction
Sealing with covering tape
(TE1)
Feed direction
Label
Empty tape
40mm MIN.
Devices
Empty tape
40mm MIN.
Covering tape
500mm MIN.
1000pcs/reel
PACKING STATE
Label
Put a reel into a box
Ver.1.0
- 17 -
http://www.njr.com/
NJW4104
TO-252-3-L1
Unit: mm
■PACKING SPEC
TAPING DIMENSIONS
Feed direction
φD0
SYMBOL
A
B
D0
D1
E
REMARKS
DIMENSION
6.9±0.1
10.5±0.1
BOTTOM DIMENSION
BOTTOM DIMENSION
P2
P0
T
+0.1
1.5
1.5
0
+0.1
0
1.75±0.1
7.5±0.05
4.0±0.1
8.0±0.1
2.0±0.05
0.3±0.05
3.4 max
F
P0
P1
P2
T
T2
W
T2
16.0±0.3
13.5
φD1
A
P1
THICKNESS 0.1max
W1
REEL DIMENSIONS
W1
E
SYMBOL
A
B
DIMENSION
φ330±2
φ 80±1
φ 13±0.5
2
C
C
E
W
W1
17.5±0.5
2±0.5
W
TAPING STATE
Insert direction
Sealing with covering tape
(TE1)
Empty tape
Empty tape
Devices
Covering tape
Feed direction
more than 160mm
more than 160mm
3000pcs/reel
more than 230mm
PACKING STATE
Label
Label
Put a reel into a box
Ver.1.0
- 18 -
http://www.njr.com/
NJW4104
■RECOMMENDED MOUNTING METHOD
INFRARED REFLOW SOLDERING METHOD
Recommended reflow soldering procedure
f
: 1to 4°C/s
: 150to 180°C
: 60to120s
a:Temperaturerampingrate
b:Pre-heatingtemperature
time
c:Temperatureramprate
d:220℃ orhighertime
e:230℃ orhighertime
f:Peak temperature
260°C
e
230°C
220°C
d
: 1to 4°C/s
: Shorterthan60s
: Shorterthan40s
: Lowerthan 260°C
: 1to 6°C/s
180°C
150°C
g:Temperaturerampingrate
Thetemperatureindicates at thesurfaceof moldpackage.
Room Temp.
a
b
c
g
INFRARED FLOW SOLDERING METHOD
*flow soldering procedure
260°C
: 1to 7°C/s
: 80to120°C
: 60to120s
a:Temperaturerampingrate
b:Pre-heatingtemperature
b:Pre-heatingtime
: not exceeding260°C
: within 10s
c:Peak temperature
d:Peak time
: 1to 7°C/s
d:Temperaturerampingrate
Thetemperatureindicates at thesurface ofmold package.
120°C
80°C
Room Temp.
a
b
c
d
Ver.1.0
- 19 -
http://www.njr.com/
NJW4104
■REVISION HISTORY
Date
Revision
Changes
04.Apr.2017.
Ver.1.0
New Release
Ver.1.0
- 20 -
http://www.njr.com/
NJW4104
[ CAUTION ]
1.
New JRC strives to produce reliable and high quality semiconductors. New JRC's semiconductors are intended for specific
applications and require proper maintenance and handling. To enhance the performance and service of New JRC's
semiconductors, the devices, machinery or equipment into which they are integrated should undergo preventative maintenance
and inspection at regularly scheduled intervals. Failure to properly maintain equipment and machinery incorporating these
products can result in catastrophic system failures
2.
The specifications on this datasheet are only given for information without any guarantee as regards either mistakes or
omissions. The application circuits in this datasheet are described only to show representative usages of the product and not
intended for the guarantee or permission of any right including the industrial rights.
All other trademarks mentioned herein are property of their respective companies.
3.
4.
To ensure the highest levels of reliability, New JRC products must always be properlyhandled.
The introduction of external contaminants (e.g. dust, oil or cosmetics) can result in failures of semiconductor products.
New JRC offers a variety of semiconductor products intended for particular applications. It is important that you select the proper
component for your intended application. You may contact New JRC's Sale's Office if you are uncertain about the products
listed in this catalog.
5.
6.
Special care is required in designing devices, machinery or equipment which demand high levels of reliability. This is particularly
important when designing critical components or systems whose failure can foreseeably result in situations that could adversely
affect health or safety. In designing such critical devices, equipment or machinery, careful consideration should be given to
amongst other things, their safetydesign, fail-safe design, back-up and redundancysystems, and diffusion design.
The products listed in the catalog may not be appropriate for use in certain equipment where reliability is critical or where the
products may be subjected to extreme conditions. You should consult our sales office before using the products in any of the
following types of equipment.
Aerospace Equipment
Equipment Used in the Deep sea
Power Generator Control Equipment (Nuclear, Steam, Hydraulic)
Life Maintenance Medical Equipment
Fire Alarm/Intruder Detector
Vehicle Control Equipment (airplane, railroad, ship, etc.)
Various Safetydevices
7.
New JRC's products have been designed and tested to function within controlled environmental conditions. Do not use products
under conditions that deviate from methods or applications specified in this catalog. Failure to employ New JRC products in the
proper applications can lead to deterioration, destruction or failure of the products. New JRC shall not be responsible for any
bodily injury, fires or accident, property damage or any consequential damages resulting from misuse or misapplication of its
products. Products are sold without warranty of any kind, either express or implied, including but not limited to any implied
warranty of merchantabilityor fitness for a particular purpose.
8.
9.
Warning for handling Gallium and Arsenic(GaAs) Products (Applying to GaAs MMIC, Photo Reflector). This Products uses
Gallium(Ga) and Arsenic(As) which are specified as poisonous chemicals by law. For the prevention of a hazard, do not burn,
destroy, or process chemically to make them as gas or power. When the product is disposed, please follow the related regulation
and do not mixthis with general
industrial waste or household waste.
The product specifications and descriptions listed in this catalog are subject to change at anytime, without notice.
Ver.1.0
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http://www.njr.com/
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