AD5420AREZ Analog Devices Inc, AD5420AREZ Datasheet - Page 25

AD5420AREZ

Manufacturer Part Number

AD5420AREZ

Description

IC DAC 16BIT 1CH SER 24TSSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD5410AREZ.pdf (28 pages)

Specifications of AD5420AREZ

Data Interface

DSP, MICROWIRE™, QSPI™, Serial, SPI™

Design Resources

Simplified 16-Bit, 4 mA-to-20 mA Output Solution Using AD5420 (CN0098)

Settling Time

10µs

Number Of Bits

Number Of Converters

Voltage Supply Source

Analog and Digital

Power Dissipation (max)

950mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-TSSOP Exposed Pad, 24-eTSSOP, 24-HTSSOP

Resolution (bits)

16bit

Input Channel Type

Serial

Supply Voltage Range - Digital

2.7V To 5.5V

Supply Current

4mA

Digital Ic Case Style

TSSOP

No. Of Pins

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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APPLICATIONS INFORMATION

DRIVING INDUCTIVE LOADS

When driving inductive or poorly defined loads, connect a 0.01 μF

capacitor between I

loads beyond 50 mH. There is no maximum capacitance limit.

The capacitive component of the load may cause slower settling.

Alternatively, the capacitor can be connected from CAP1 and/or

CAP2 to AV

slew rate control feature may also prove useful in this situation.

TRANSIENT VOLTAGE PROTECTION

The AD5410/AD5420 contain ESD protection diodes that prevent

damage from normal handling. The industrial control environ-

ment can, however, subject I/O circuits to much higher transients.

To protect the AD5410/AD5420 from excessively high voltage

transients, external power diodes and a surge current limiting

resistor may be required, as shown in Figure 49. The constraint

on the resistor value is that during normal operation, the output

level at I

have appropriate power ratings. Further protection can be pro-

vided with transient voltage suppressors (TVS), or transorbs.

These are available as both unidirectional suppressors (protect

against positive high voltage transients) and bidirectional

suppressors (protect against both positive and negative high

voltage transients) and are available in a wide range of standoff

and breakdown voltage ratings. It is recommended that all field

connected nodes be protected.

LAYOUT GUIDELINES

In any circuit where accuracy is important, careful consideration

of the power supply and ground return layout helps to ensure

the rated performance. The printed circuit board (PCB) on

which the AD5410/AD5420 are mounted should be designed so

that the analog and digital sections are separated and confined

to certain areas of the board. If the AD5410/AD5420 are in a

system where multiple devices require an AGND-to-DGND

connection, the connection should be made at one point only.

The star ground point should be established as close as possible

to the device.

The AD5410/AD5420 should have ample supply bypassing of

10 μF in parallel with 0.1 μF on each supply, located as close to

the package as possible, ideally right up against the device.

The 10 μF capacitors are the tantalum bead type. The 0.1 μF

− 2.5 V, and the two protection diodes and resistor must

OUT

must remain within its voltage compliance limit of

Figure 49. Output Transient Voltage Protection

AD5410/

AD5420

to reduce the slew rate of the current. The digital

GND

OUT

and GND. This ensures stability with

OUT

Rev. B | Page 25 of 28

capacitor should have low effective series resistance (ESR)

and low effective series inductance (ESI), such as the common

ceramic types, which provide a low impedance path to ground

at high frequencies to handle transient currents due to internal

logic switching.

The power supply lines of the AD5410/AD5420 should use as

large a trace as possible to provide low impedance paths and to

reduce the effects of glitches on the power supply line. Fast-

switching signals such as clocks should be shielded with digital

ground to avoid radiating noise to other parts of the board and

should never be run near the reference inputs. A ground line

routed between the SDIN and SCLK lines helps reduce crosstalk

between them (not required on a multilayer board that has a

separate ground plane, but separating the lines helps). It is

essential to minimize noise on the REFIN line because noise

can couple through to the DAC output.

Avoid crossover of digital and analog signals. Traces on

opposite sides of the board should run at right angles to each

other. This reduces the effects of feedthrough on the board.

A microstrip technique is by far the best method but is not

always possible with a double-sided board. In this technique,

the component side of the board is dedicated to the ground

plane, and signal traces are placed on the solder side.

GALVANICALLY ISOLATED INTERFACE

In many process control applications, it is necessary to provide

an isolation barrier between the controller and the unit being

controlled to protect and isolate the controlling circuitry from

any hazardous common-mode voltages that may occur. The

i Coupler® family of products from Analog Devices, Inc.,

provides voltage isolation in excess of 2.5 kV. The serial loading

structure of the AD5410/AD5420 is ideal for isolated interfaces

because the number of interface lines is kept to a minimum.

Figure 50 shows a 4-channel isolated interface to the AD5410/

AD5420 using an ADuM1400. For further information, visit

www.analog.com/icouplers.

CONTROLLER

*ADDITIONAL PINS OMITTED FOR CLARITY.

CONTROL

SERIAL

CLOCK

SYNC

DATA

OUT

Figure 50. Isolated Interface

ENCODE

ADuM1400*

DECODE

AD5410/AD5420

SCLK

SDIN

LATCH

CLEAR

AD5420AREZ Analog Devices Inc, AD5420AREZ Datasheet - Page 25

AD5420AREZ

Specifications of AD5420AREZ

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