NJW4184DL1-33B [NJRC]

Fixed Positive LDO Regulator, 3.3V, PSSO2, TO-252, 3/2 PIN;


型号：	NJW4184DL1-33B
厂家：	NEW JAPAN RADIO
描述：	Fixed Positive LDO Regulator, 3.3V, PSSO2, TO-252, 3/2 PIN 输出元件调节器
文件：	总14页 (文件大小：348K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

AEC-Q100

ISO/TS16949

Automotive NJW4184

High Voltage Io=300mA Low Dropout Regulator

ꢀGENERALDESCRIPTION

ꢀ PACKAGE OUTLINE

The NJW4184 is a high voltage and low current consumption

low dropout regulator.

It have lineup as A version(built-in ON/OFF function type) and

B version.(decreases current consumption type )

NJW4184 is mounted to SOT-89-3/5,TO252-3/5 package and

corresponded to Low ESR capacitor (MLCC).

NJW4184U2

NJW4184DL3

NJW4184DL1

It makes NJW4184 suitable for a Car accessory, battery equipment

and various applications.

NJW4184U3

ꢀFEATURES

• Operating Temperature

• Operating Voltage Range

• Low Current Consumption

-40ºC ≤ Ta ≤ +125ºC

35V(max.)

12μA (A version.)

9μA (B version.)

• Correspond to Low ESR capacitor (MLCC)

• Output Current

I_O(min.)=300mA

• Output Voltage Range

• High Precision Output

V_O: 2.5V to 15.0V

V_O±1.0% (Ta= 25ºC)

V_O±3.0% (Ta= -40ºC ≤ Ta ≤ +125ºC)

• ON/OFF function (apply only A ver.)

• Thermal Overload Protection

• Over Current Protection

• Package Outline

A ver. : SOT-89-5 TO252-5

B ver. : SOT-89-3 TO252-3

ꢀ PRODUCT CLASSIFICATION

ON/OFF

Function

Device Name

Version

Package

NJW4184U2-xxA

NJW4184DL3-xxA

NJW4184U3-xxB

NJW4184DL1-xxB

Yes

SOT89-5

TO252--5

SOT89-3

TO252-3

xx=Output Voltage ex) 33=3.3V 05=5.0V

ꢀ PIN CONNECTION

Pin Function

1.CONTROL

2.GND

Pin Function

1.V_IN

Pin Function

1.V_OUT

Pin Function

1.V_IN

2.CONTROL

3.GND

2.GND

3.V_IN

2.GND

3.V_OUT

3.N.C

4.V_OUT

4.N.C

1 2 3 4 5

5. V_IN

5. V_OUT

NJW4184U2-A

NJW4184DL1-B

NJW4184DL3-A

NJW4184U3-B

Ver.2012-10-23

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Automotive NJW4184

ꢀ BLOCK DIAGRAM

･A version

V_IN

V_OUT

Current

Limit

CONTROL

Bandgap

Reference

Thermal

Protection

GND

･B version

V_IN

V_OUT

Current

Limit

Bandgap

Reference

Thermal

Protection

GND

ꢀ OUTPUT VOLTAGE LANK LIST

･A version

SOT89-5

TO252-5

Device Name

NJW4184U2-33A

NJW4184U2-05A

V_OUT

3.3V

5.0V

Device Name

NJW4184DL3-33A

NJW4184DL3-05A

V_OUT

3.3V

5.0V

･B version

SOT89-3

TO252-3

Device Name

NJW4184U3-33B

NJW4184U3-05B

V_OUT

3.3V

5.0V

Device Name

NJW4184DL1-33B

NJW4184DL1-05B

V_OUT

3.3V

5.0V

Ver.2012-10-23

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Automotive NJW4184

ꢀ ABSOLUTE MAXIMUM RATINGS

(Ta=25°C)

PARAMETER

Input Voltage

Control Voltage(*1)

Output Voltage

SYNBOL

RATINGS

UNIT

V_IN

V_CONT

V_OUT

+40

+17

625(*2)

SOT89-3/5

TO252-3/5

2400(*3)

1190(*2)

3125(*3)

Power Dissipation

P_D

Junction Temperature

Operating Temperature

Storage Temperature

Topr

Tstg

-40∼+150

-40∼+125

-40∼+150

°C

(*1): Apply only the A version.

(*2): Mounted on glass epoxy board. (76.2×114.3×1.6mm:EIA/JDEC standard size, 2Layers, copper area 100mm²)

(*3): Mounted on glass epoxy board. (76.2×114.3×1.6mm:EIA/JDEC standard size, 4Layers)

(4Layers inner foil: 74.2 x 74.2mm applying a thermal via hall to a board based on JEDEC standard JESD51-5)

ꢀELECTRICAL CHARACTERISTICS

Unless otherwise noted, V_O≥3.0V: V_IN= V_O+ 1V, C_IN= 1.0µF, C_O= 4.7µF, T_a= 25°C

V_O<3.0V: V_IN= 4.0V, C_IN= 1.0µF, C_O= 10µF, T_a= 25°C

PARAMETER

Output Voltage

SYMBOL

V_O

TEST CONDITION

MIN. TYP.

MAX.

+1.0%

UNIT

I_O=30mA

-1.0%

A version I_O=0mA, except I_CONT

B version I_O=0mA

V_O× 0.9

Quiescent Current

I_Q

μA

Output Current

Quiescent Current

at Control OFF(*4)

I_O

I_Q(OFF)

300

V_CONT=0V

V_IN= V_O+1V~35V, I_O=30mA (V_O≥3V)

V_IN= 4V~35V, I_O=30mA (V_O<3V)

Line Regulation

Load Regulation

0.05

%/V

ΔV_O/ΔV_IN

ΔV_O/ΔI_O

I_O=0mA ∼ 300mA

0.01

%/mA

V_IN= 5V ,ein=50mVrms,

f=1kHz, I_O=10mA

V_O=2.5V

V_O=3.3V

V_O=5.0V

V_O=8.0V

V_O=12.0V

V_O=15.0V

0.1

0.5

Ripple Rejection

V_IN= V_O+2V ,ein=50mVrms,

f=1kHz, I_O=10mA

Dropout Voltage(*5)

Control Current(*4)

Control Voltage

for ON-state(*4)

Control Voltage

for OFF-state(*4)

Average Temperature

Coefficient of Output

Voltage

I_O=100mA

V_CONT=1.6V

0.2

μA

ΔV_IO

I_CONT

V_CONT(ON)

V_CONT(OFF)

ΔV_O/ΔTa Ta=0 ∼ 85°C, I_O=30mA

1.6

0.6

±50

ppm/°C

(*4): Apply only the A version.

(*5): The output voltage excludes under 3.8V.

The above specification is a common specification for all output voltages.

Therefore, it may be different from the individual specification for a specific output voltage.

Ver.2012-10-23

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Automotive NJW4184

ꢀELECTRICAL CHARACTERISTICS

Unless otherwise noted, V_O≥3.0V: V_IN= V_O+ 1V, C_IN= 1.0µF, C_O= 4.7µF, Ta= -40ºC ≤ Ta ≤ +125ºC

V_O<3.0V: V_IN= 4.0V, C_IN= 1.0µF, C_O= 10µF, Ta= -40ºC ≤ Ta ≤ +125ºC

PARAMETER

Output Voltage

SYMBOL

V_O

TEST CONDITION

MIN. TYP.

MAX.

UNIT

I_O=30mA

-3.0%

+3.0%

A version I_O=0mA, except I_CONT

B version I_O=0mA

V_O× 0.9

Quiescent Current

I_Q

μA

Output Current

Quiescent Current

at Control OFF(*4)

I_O

I_Q(OFF)

300

V_CONT=0V

1.5

V_IN= V_O+1V~35V, I_O=30mA (V_O≥3V)

V_IN= 4V~35V, I_O=30mA (V_O<3V) (*6)

Line Regulation

0.05

%/V

ΔV_O/ΔV_IN

Load Regulation

Dropout Voltage(*5)

Control Current(*4)

Control Voltage

for ON-state(*4)

Control Voltage

I_O=0mA ∼ 300mA (*6)

I_O=100mA

V_CONT=1.8V

0.02

0.3

%/mA

μA

ΔV_O/ΔI_O

ΔV_IO

I_CONT

V_CONT(ON)

V_CONT(OFF)

1.8

0.6

for OFF-state(*4)

(*4): Apply only the A version.

(*5): The output voltage excludes under 3.8V.

The above specification is a common specification for all output voltages.

Therefore, it may be different from the individual specification for a specific output voltage.

(*6): These parameter are guaranteed with only -40°C and +125°C.

* These parameters are tested by Pulse Measurement.

Ver.2012-10-23

- 4 -

Automotive NJW4184

ꢀPOWER DISSIPATION vs. AMBIENT TEMPERATURE

NJW4184U2/U3 Power Dissipation vs Ambient Temperature

(Topr=-40

+125

Tjmax=150

℃、

)

℃

℃～

3000

2500

2000

1500

1000

500

At on 4 layer PC Board

At on 2 layer PC Board

-40

-20

100

120

140

Ambient Temperature

（℃）

NJW4184DL1/DL3 Power Dissipation vs Ambient Temperature

(Topr=-40

+125

Tjmax=150

℃、

)

℃

℃～

3500

At on 4 layer PC Board

3000

2500

2000

1500

1000

500

At on 2 layer PC Board

-40

-20

100

120

140

Ambient Temperature

（℃）

Ver.2012-10-23

- 5 -

Automotive NJW4184

ꢀTEST CIRCUIT

･A version

I_IN

V_IN

V_OUT

I_OUT

V_OU

V_IN

4.7μF

(Ceramic)

NJW4184-A

1.0μF

I_CONT

CONTROL

GND

V_CONT

*5 : Vo < 3.0V version : Co=10μF

･B version

I_IN

V_IN

V_OUT

I_OUT

V_OUT

4.7μF

V_IN

NJW4184-B

(ceramic)

1.0μF

GND

*6 : Vo < 3.0V version : Co=10μF

Ver.2012-10-23

- 6 -

Automotive NJW4184

ꢀTYPICALAPPLICATION

･A version

1 In the case where ON/OFF Control is not required

V_IN

V_OUT

1.0μF

4.7μF

NJW4184-A

CONTROL

GND

*7 : Vo < 3.0V version : Co=10μF

Connect control terminal to V_INterminal

2 In use of ON/OFF CONTROL

V_IN

V_OUT

4.7μF

NJW4184-A

1.0μF

CONTROL

GND

*8 : Vo < 3.0V version : Co=10μF

State of control terminal:

•“H”→ output is enabled.

•“L” or “open” → output is disabled.

･B version

V_IN

V_OUT

4.7μF

1.0μF

NJW4184-B

GND

*9 : Vo < 3.0V version : Co=10μF

Ver.2012-10-23

- 7 -

Automotive NJW4184

*Input Capacitance C_IN

Input Capacitance C_INis required to prevent oscillation and reduce power supply ripple for applications with high

power supply impedance or a long power supply line.

You should use the C_INvalue of 1.0μF larger to avoid the problem.

C_INshould connect between GND and V_INas shortest path as possible.

*Output Capacitance C_O

Output capacitor (C_O) will be required for a phase compensation of the internal error amplifier.

The capacitance and the equivalent series resistance (ESR) influence to stable operation of the regulator.

This product is designed to work with a low ESR capacitor (C_O). However use of recommended

capacitance or larger value is effective for stable operation.

Use of a smaller C_Omay cause excess output noise or oscillation of the regulator due to lack of the phase

compensation.

Therefore use C_Owith the recommended capacitance or larger value and connect between Vo terminal and GND

terminal with shortest path. The recommended capacitance depends on the output voltage rank. Low voltage regulator

requires larger value C_O. Thus, check the recommended capacitance for each output voltage rank.

In addition, You should consider varied characteristics of capacitor (a frequency characteristic, a temperature

characteristic, a DC bias characteristic and so on) and unevenness peculiar to a capacitor supplier enough .We

recommend that withstand voltage margin against output voltage and superior in a temperature characteristic, when

selecting Output capacitor.

Uses of a larger C_Oreduces output noise and ripple output, and also improves output transient response

against rapid load change.

Ver.2012-10-23

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Automotive NJW4184

ꢀTYPICAL CHARACTERISTICS

NJW4184_5.0V

Output Voltage vs Input Voltage

NJW4184_5.0V

Over Current Protection vs Output Current

5.2

5.1

Temp=-50°C

@:Ta=25 C

CNT=VIN

゜

Temp=25°C

Temp=150°C

Cin=1uF(Ceramic)

Co=4.7uF(Ceramic)

Io=30mA

Io=0A

4.9

4.8

Io=300mA

Vin=6.0V

Cin=1uF(Ceramic)

Co=4.7uF(Ceramic)

200

400

600

800

1000

4.5

4.7

4.9

5.1

5.3

5.5

5.7

Output Current : Io (mA)

Input Voltage : VIN (V)

NJW4184-A_5.0V

NJW4184_5.0V

Ground Pin Current VS Output Current

Quiescent Current vs Input Voltage

160

140

120

100

@:Ta=25 C

Vin=4.3V

Cin=1uF(Ceramic)

Co=4.7uF(Ceramic)

゜

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

@:Ta=25 C

Output is open.

Co=4.7uF(Ceramic)

゜

200

400

600

Input Voltage:VIN (V)

Output Current : Io (mA)

NJW4184-B_5.0V

Quiescent Current vs Input Voltage

NJW4184_5.0V

Control Voltage vs Control Current

100

160

@:Ta=25 C

゜

Vin=6.0V

Cin=1uF(Ceramic)

Co=4.7uF(Ceramic)

140

120

100

@:Ta=25 C

Output is open.

Co=4.7uF(Ceramic)

゜

Rc=100kΩ

Rc=0Ω

Control Voltage Vcont(V)

Input Voltage:VIN (V)

：

Ver.2012-10-23

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Automotive NJW4184

NJW4184_5.0V

Load Regulation VS Output Current

NJW4184_5.0V

Control Voltage vs Output Voltage

-10

-20

-30

-40

-50

-60

-70

-80

-90

-100

5.5

4.5

Rc=100kΩ

3.5

2.5

@:Ta=25°C

Vin=6V

Cin=1uF

@:Ta=25 C

1.5

゜

Vin=6.0V

Co=4.7uF(Ceramic)

Io=30mA

Rc=0Ω

0.5

1.5

2.5

100

200

300

400

500

Control Voltage Vcont (V)

：

Output Current : Io (mA)

NJW4184_5.0V

Dropout Voltage VS Output Current

NJW4184_5.0V

Peak Output Current vs Input Voltage

1.20

1.00

0.80

0.60

0.40

0.20

0.00

800

700

600

500

400

300

200

100

@:Ta=25 C

゜

Cin=1uF(Ceramic)

Co=4.7uF(Ceramic)

@:Ta=25 C

゜

Cin=1.0uF(Ceramic)

Co=4.7uF(Ceramic)

Vo=4.5V

100

200

300

400

500

Input Voltage : VIN (V)

Output Current : Io (mA)

NJW4184_5.0V

Ripple Rejection VS Frequency

NJW4184_5.0V

Output Noise Voltage vs Output Current

100

Io=0A

Io=10mA

Io=100mA

f=1kHz

@:Ta=25 C

゜

Vin=7V

ꢀ

f=10kHz

ein=50mVrms

Co=4.7uF(Ceramic)

Io=300mA

0.01

0.1

100

0.001

0.01

0.1

100

1000

Frequency :f (kHz)

Output Current :Io (mA)

Ver.2012-10-23

- 10 -

Automotive NJW4184

NJW4184_5V

Output Voltage vs. Temperature

NJW4184_5.0V

Equivalent Serise Resistance vs. Output Current

100

5.20

5.15

5.10

5.05

5.00

4.95

4.90

4.85

4.80

Cin=1uF(Ceramic)

Co=4.7uF(Ceramic)

Io=0mA

@:Vin=6V

Io=10mA

Cin=1uF

Co=4.7uF

0.1

0.01

Io=100mA

Io=300mA

Io=30mA

0.001

0.01

0.1

100

1000

-50

100

150

Output Current :Io(mA)

Temperature:Ta(

)

℃

NJW4184_5V

Peak Output Current vs. Temperature

NJW4184_5.0V

Control Voltage vs. Temperature

800

700

600

500

400

300

200

100

1.6

1.4

1.2

@Vin=6.0V

Cin=1.0uF

Co=4.7uF

0.8

0.6

0.4

0.2

@:Cin=1.0uF

Co=4.7uF

Vin=Vo+1V

Vin=40V

-50

Temperature:Ta(

100

150

-50

Temperature:Ta(

100

150

)

℃

)

℃

NJW4184_5V

Control Current vs. Temperature

NJW4184_5V

Shot Curcuit Current vs. Temperature

500

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

450

400

350

300

250

200

150

100

@:Vin=6V

Vcont=1.6V

Cin=1.0uF

Co=4.7uF

@:Cin=1.0uF

Vin=Vo+1V

Co=4.7uF

Vin=40V

-50

100

150

-50

100

150

Temperature:Ta(

)

℃

Temperature:Ta( )

℃

Ver.2012-10-23

- 11 -

Automotive NJW4184

NJW4184_5V

Load Regulation vs. Temperature

Line Regulation vs. Temperature

0.10

0.09

0.08

0.07

0.06

0.05

0.04

0.03

0.02

0.01

0.00

0.10

0.08

0.06

0.04

0.02

0.00

-0.02

@:Vin=6V

Cin=1.0uF

Co=4.7uF

Io=0mA-300mA

Io=0mA-30mA

@:Cin=1.0uF

-0.04

-0.06

Co=4.7uF

Io=30mA

-0.08

-0.10

-50

100

150

-50

Temperature:Ta(

100

150

Temperature:Ta(

)

℃

)

℃

NJW4184_5V

Dropout Voltage vs. Temperature

Output Voltage vs. Temperature

0.40

6.00

5.00

4.00

3.00

2.00

1.00

0.00

@:Cin=1.0uF

Co=4.7uF

0.35

0.30

0.25

0.20

0.15

0.10

0.05

0.00

Io=100mA

@:Vin=6V

Cin=1.0uF

Co=4.7uF

-50

100

150

-50

100

)

150

200

Temperature:Ta(

)

℃

Temperature:Ta(

℃

NJW4184-B_5.0V

Quiescent Current vs. Temperature

NJW4184-A_5.0V

Quiescent Current vs. Temperature

ꢀ

@:Vin=6V

Cin=1.0uF

Co=4.7uF

@:Vin=6V

Cin=1.0uF

Co=4.7uF

-50

100

150

-50

100

150

Temperature:Ta(

)

℃

Temperature:Ta(

)

℃

Ver.2012-10-23

- 12 -

Automotive NJW4184

■Package Dimensions

SOT89 (5Pin)-U1

4.5±0.3

1.5±0.3

0.4

1.6

0.47

(2)

0.4

0.42

0.47

1.5

Unit :mm

Ver.2012-10-23

- 13 -

Automotive NJW4184

■Package Dimensions

TO252(5Pin)-DL3

2.29±0.09

0.52±0.06

6.54±0.19

5.34±0.12

0～0.25

0.5±0.12

1.27

0.52±0.06

5.34±0.12

(2.5)

(4.8)

Unit :mm

[CAUTION]

The specifications on this databook are only

given for information, without any guarantee

as regards either mistakes or omissions. The

application circuits in this databook 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.

Ver.2012-10-23

- 14 -

NJW4184DL1-33B [NJRC]

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