ADR395BUJZ-REEL7

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

ADR391/ADR392/ADR395

Rev. H | Page 7 of 20

TYPICAL PERFORMANCE CHARACTERISTICS

2.494

–40 –5

30 65 100 125

2.496

2.498

2.500

2.502

2.504

2.506

SAMPLE 1

SAMPLE 2

SAMPLE 3

TEMPERATURE (°C)

V

OUT

(V)

00419-004

Figure 2. ADR391 Output Voltage (V

OUT

) vs. Temperature

4.100

–40 0 40 80 125

4.098

4.096

4.094

4.090

4.088

4.092

SAMPLE 1

SAMPLE 2

SAMPLE 3

TEMPERATURE (°C)

V

OUT

(V)

00419-005

Figure 3. ADR392 Output Voltage (V

OUT

) vs. Temperature

5.006

–40 –5 30 65 125

5.004

5.002

5.000

4.996

4.994

4.998

100

SAMPLE 1

SAMPLE 2

SAMPLE 3

TEMPERATURE (°C)

V

OUT

(V)

00419-006

Figure 4. ADR395 Output Voltage (V

OUT

) vs. Temperature

INPUT VOLTAGE (V)

140

120

40

2.5 15.05.0

SUPPLY CURRENT (µA)



7.5 10.0 12.5

100

80

60

+85°C

+25°C

–40°C

00419-008

+125°C

Figure 5. ADR391 Supply Current vs. Input Voltage

I N PU T VO LTAG E ( V )

140

57911

SUPPLY CURRENT (µA)

120

100

60

40

80

13 15

+125

°C

+25°C

–40°C

00419-009

Figure 6. ADR392 Supply Current vs. Input Voltage

INPUT VOLTAGE (V)

140

5.5 7.0 8.5 10.0 14.5

SUPPLY CURRENT (µA)

120

100

60

40

80

13.0

+125

°

C

+25

°

C

–40

°

C

11.5

00419-010

Figure 7. ADR395 Supply Current vs. Input Voltage

ADR391/ADR392/ADR395

Rev. H | Page 8 of 20

TEMPERATURE (°

C)

80

–40 –10

LOAD REGUL

A

TION (ppm/mA)

50 80 110 125

100

120

140

160

180

20

I

L

= 0mA TO 5mA

V

IN

= 3V

V

IN

= 5V

00419-012

Figure 8. ADR391 Load Regulation vs. Temperature

TEMPERATURE (°C)

90

–40 –5 30 65 125

LOAD REGUL

A

TION (ppm/mA)

80

70

50

40

60

100

I

L

= 0mA TO 5mA

V

IN

= 7.5V

V

IN

= 5V

00419-013

Figure 9. ADR392 Load Regulation vs. Temperature

TEMPERATURE (°C)

80

–40 –5 30 65 125

LOAD REGUL

A

TION (ppm/mA)

70

60

40

30

50

100

I

L

= 0mA TO 5mA

V

IN

= 7.5V

V

IN

= 5V

00419-014

Figure 10. ADR395 Load Regulation vs. Temperature

TEMPERATURE (°C)

0

LINE REGULATION (ppm/V)

25

5

10

15

20

00419-016

–40 –10

20 80 110 125

50

Figure 11. ADR391 Line Regulation vs. Temperature

TEMPERATURE (°C)

14

–40 –5 30 65 125

LINE REGUL

A

TION (ppm/V)

10

6

2

0

4

100

12

8

V

IN

= 4.4V TO 15V

00419-017

Figure 12. ADR392 Line Regulation vs. Temperature

TEMPERATURE (°C)

14

–40 –5 30 65 125

LINE REGUL

A

TION (ppm/V)

10

6

2

0

4

100

12

8

V

IN

= 5.3V TO 15V

00419-018

Figure 13. ADR395 Line Regulation vs. Temperature

ADR391/ADR392/ADR395

Rev. H | Page 9 of 20

LOAD CURRENT (mA)

3.6

2.6

01

3.4

3.2

2.8

–40

°C

+85

°C

+25

°C

2345

3.0

+125

°C

00419-020

V

IN

MIN (V)

Figure 14. ADR391 Minimum Input Voltage (V

IN

) vs. Load Current

LOAD CURRENT (mA)

4.8

0123 5

V

IN

MIN (V)

4.4

4.0

3.8

4.2

4

4.6

+125

°C

+25°C

–40°C

0

0419-021

Figure 15. ADR392 Minimum Input Voltage (V

IN

) vs. Load Current

LOAD CURRENT (mA)

6.0

0123 5

V

IN

MIN (V)

5.2

4.8

4.6

5.0

4

5.6

+125

°

C

+25

°

C

–40

°

C

5.8

5.4

00419-022

Figure 16. ADR395 Minimum Input Voltage (V

IN

) vs. Load Current

70

50

0

–0.56 –0.26

FREQUEN

C

Y

0.04 0.19

40

30

20

10

–0.41 –0.11

0.34

60

TEMPERATURE: +25°

C

–40

°

C

+125°C +25°C

00419-024

V

OUT

DEVIATION (mV)

Figure 17. ADR391 V

OUT

Hysteresis Distribution

1k

900

800

700

600

100

10 100 1k 10k

FREQUENCY (Hz)

VOLTAGE NOISE DENSITY (nV/

√

Hz)

500

400

300

200

ADR391

V

IN

= 5V

00419-025

Figure 18. Voltage Noise Density vs. Frequency

VOLTAGE (2µV/DIV)

TIME (1s/DIV)

0

0

0

0

0

0

0

0

0

0

0419-026

Figure 19. ADR391 Typical Voltage Noise 0.1 Hz to 10 Hz

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

ADR395BUJZ-REEL7

Mfr. #:

Buy ADR395BUJZ-REEL7

Manufacturer:

Analog Devices Inc.

Description:

Voltage References 5V Micropower Prec Low Noise w/ Shutdwn

Lifecycle:

New from this manufacturer.

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