AD1582ARTZ-R2 Datasheet AD1582BRTZ-REEL7, AD1582WBRTZ-R7, AD1584BRTZ-REEL7 | P13-P15

Data Sheet AD1582/AD1583/AD1584/AD1585

Rev. J | Page 13 of 16

100

1 1M10 100 1k 10k 100k

AD1582

AD1585

PSRR (dB)

FREQUENCY (Hz)

00701-018

Figure 18. Ripple Rejection vs. Frequency

NOISE PERFORMANCE AND REDUCTION

The noise generated by the AD1582/AD1583/AD1584/AD1585 is

typically less than 70 µV p-p over the 0.1 Hz to 10 Hz frequency

band. Figure 19 shows the 0.1 Hz to 10 Hz noise of a typical

AD1582/AD1583/AD1584/AD1585. The noise measurement

is made with a high gain band-pass filter. Noise in a 10 Hz to

10 kHz region is approximately 50 µV rms. Figure 20 shows the

broadband noise of a typical AD1582/AD1583/AD1584/AD1585.

If further noise reduction is desired, add a 1-pole, low-pass

filter between the output pin and ground. A time constant of

0.2 ms has a −3 dB point at roughly 800 Hz and reduces the

high frequency noise to about 16 V rms. It should be noted,

however, that while additional filtering on the output can

improve the noise performance of the AD1582/AD1583/

AD1584/AD1585, the added output impedance can degrade

the ac performance of the references.

100

10µV 1s

00701-019

Figure 19. 10 Hz to 10 kHz Wideband Noise

10m

100µV

00701-020

Figure 20. 1 Hz to 10 Hz Voltage Noise

TURN-ON TIME

Many low power instrument manufacturers are concerned

with the turn-on characteristics of the components used in their

systems. Fast turn-on components often enable the end user to

save power by keeping power off when not needed. Turn-on

settling time is defined as the time required, after the application of

power (cold start), for the output voltage to reach its final value

within a specified error. The two major factors affecting this are

the active circuit settling time and the time required for the

thermal gradients on the chip to stabilize. Figure 21 shows the

turn-on settling and transient response test circuit. Figure 22

shows the turn-on characteristics of the AD1582/AD1583/

AD1584/AD1585. These characteristics are generated from cold-

start operation and represent the true turn-on waveform after

power-up. Figure 23 shows the fine settling characteristics of

the AD1582/AD1583/AD1584/AD1585. Typically, the reference

settles to within 0.1% of its final value in about 100 µs.

The device can momentarily draw excessive supply current

when V

SUPPLY

is slightly below the minimum specified level.

Power supply resistance must be low enough to ensure reliable

turn-on. Fast power supply edges minimize this effect.

0.22µF

0V OR 10V

TO 10V

10kΩ

DUT

V OR 10

0V O

R 5V

00701-021

Figure 21. Turn-On/Transient Response Test Circuit

AD1582/AD1583/AD1584/AD1585 Data Sheet

Rev. J | Page 14 of 16

20µs

µs

00701-022

Figure 22. Turn-On Characteristics

100

1mV 20µs

20µ

00701-023

Figure 23. Turn-On Settling

DYNAMIC PERFORMANCE

Many ADCs and DACs present transient current loads to the

reference and poor reference response can degrade converter

performance. The AD1582/AD1583/AD1584/AD1585 provide

superior static and dynamic line and load regulation. Because

these series references are capable of both sourcing and sinking

large current loads, they exhibit excellent settling charac-

teristics.

Figure 24 displays the line transient response for the AD1582/

AD1583/AD1584/AD1585. The circuit used to perform such

a measurement is shown in Figure 21, where the input supply

voltage is toggled from 5 V to 10 V, and the input and output

capacitors are each 0.22 μF.

Figure 25 and Figure 26 show the load transient settling cha-

racteristics for the AD1582/AD1583/AD1584/AD1585 when

load current steps of 0 mA to +5 mA and 0 mA to −1 mA are

applied. The input supply voltage remains constant at 5 V; the

input decoupling and output load capacitors are 4.7 μF and 1 μF,

respectively; and the output current is toggled. For both positive

and negative current loads, the reference responses settle very

quickly and exhibit initial voltage spikes of less than 10 mV.

200mV

00701-024

Figure 24. Line Transient Response

100

5mV

20µs

00701-025

Figure 25. Load Transient Response (0 mA to 5 mA Load)

20µ

5mV

00701-026

Figure 26. Load Transient Response (0 mA to −1 mA Load)

Data Sheet AD1582/AD1583/AD1584/AD1585

Rev. J | Page 15 of 16

OUTLINE DIMENSIONS

3.04

2.90

2.80

COMPLIANT

TO JEDEC STANDARDS TO-236-AB

011909-C

SEATING

PLANE

2.64

2.10

1.40

1.30

1.20

2.05

1.78

0.100

0.013

1.03

0.89

0.60

0.45

0.51

0.37

1.12

0.89

0.180

0.085

0.25

0.54

REF

GAUGE

PLANE

0.60 MAX

0.30 MIN

1.02

0.95

0.88

Figure 27. 3-Lead Small Outline Transistor Package [SOT-23-3]

(RT-3)

Dimensions shown in millimeters

053006-0

20.20

MIN

1.00 MIN

0.75 MIN

1.10

1.00

0.90

1.50 MIN

7” REEL 100.00

13” REEL 330.00

7” REEL 50.00 MIN

13” REEL 100.00 MIN

DIRECTION OF UNREELING

0.35

0.30

0.25

2.80

2.70

2.60

1.55

1.50

1.45

4.10

4.00

3.90

1.10

1.00

0.90

2.05

2.00

1.95

8.30

8.00

7.70

3.20

3.10

2.90

3.55

3.50

3.45

13.20

13.00

12.80

14.40 MIN

9.90

8.40

6.90

Figure 28. SOT-23 Tape and Reel Outline Dimension

(RT-3)

Dimensions shown in millimeters

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

AD1582ARTZ-R2

Mfr. #:

Buy AD1582ARTZ-R2

Manufacturer:

Analog Devices Inc.

Description:

Voltage References 25V MICROPOWER REF IC

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

T/T Paypal Visa MoneyGram Western Union

AD1582ARTZ-R2

AD1582ARTZ-R2

Products related to this Datasheet