AD5755-1 Analog Devices, AD5755-1 Datasheet - Page 47

AD5755-1

Manufacturer Part Number

AD5755-1

Description

Quad Channel, 16-Bit, Serial Input, 4-20mA & Voltage Output DAC, Dynamic Power Control, HART Connectivity

Manufacturer

Analog Devices

Datasheet

1.AD5755-1.pdf (52 pages)

Specifications of AD5755-1

Resolution (bits)

16bit

Dac Update Rate

91kSPS

Dac Settling Time

11µs

Max Pos Supply (v)

+33V

Single-supply

Dac Type

I or V Out

Dac Input Format

SPI

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Data Sheet

DRIVING INDUCTIVE LOADS

When driving inductive or poorly defined loads, a capacitor

may be required between I

A 0.01 µF capacitor between I

of a load of 50 mH. The capacitive component of the load may

cause slower settling, although this may be masked by the set-

tling time of the AD5755-1. There is no maximum capacitance

limit for the current output of the AD5755-1.

TRANSIENT VOLTAGE PROTECTION

The AD5755-1 contains ESD protection diodes that prevent

damage from normal handling. The industrial control

environment can, however, subject I/O circuits to much higher

transients. To protect the AD5755-1 from excessively high

voltage transients, external power diodes and a surge current

limiting resistor (R

typical value for R

resistor (R

Further protection can be provided using transient voltage

suppressors (TVSs), also referred to as transorbs. These compo-

nents are available as unidirectional suppressors, which protect

against positive high voltage transients, and as bidirectional

suppressors, which protect against both positive and negative

high voltage transients. Transient voltage suppressors are avail-

able in a wide range of standoff and breakdown voltage ratings.

The TVS should be sized with the lowest breakdown voltage

possible while not conducting in the functional range of the

current output.

It is recommended that all field connected nodes be protected.

The voltage output node can be protected with a similar circuit,

where D2 and the transorb are connected to AV

age output node, the +V

a large value series resistance to the transorb, such as 5 kΩ. In

this way, the I

share the same protection circuitry.

MICROPROCESSOR INTERFACING

Microprocessor interfacing to the AD5755-1 is via a serial bus

that uses a protocol compatible with microcontrollers and DSP

processors. The communications channel is a 3-wire minimum

interface consisting of a clock signal, a data signal, and a latch

signal. The AD5755-1 requires a 24-bit data-word with data

valid on the falling edge of SCLK.

CONVERTER)

DC-TO-DC

(FROM

4.7µF

) must have appro-priate power ratings.

DCDC

Figure 86. Output Transient Voltage Protection

OUT_x

FILTER

and V

is 10 Ω. The two protection diodes and the

10Ω

) are required, as shown in Figure 86. A

SENSE_x

OUT_x

0.1µF

AD5755-1

FILTER

OUT_x

pins can also be tied together and

pin should also be protected with

AGND

BOOST_x

and AGND to ensure stability.

OUT_x

and AGND ensures stability

. For the volt-

LOAD

Rev. B | Page 47 of 52

The DAC output update is initiated on either the rising edge of

LDAC or, if LDAC is held low, on the rising edge of SYNC . The

contents of the registers can be read using the readback function.

AD5755-1-TO-ADSP-BF527 INTERFACE

The AD5755-1 can be connected directly to the SPORT

interface of the ADSP-BF527, an Analog Devices, Inc.,

Blackfin® DSP. Figure 87 shows how the SPORT interface

can be connected to control the AD5755-1.

LAYOUT GUIDELINES

Grounding

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 on which the

AD5755-1 is mounted should be designed so that the analog

and digital sections are separated and confined to certain areas of

the board. If the AD5755-1 is 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 GNDSW

referred to as PGND. PGND should be confined to certain areas

of the board, and the PGND-to-AGND connection should be

made at one point only.

Supply Decoupling

The AD5755-1 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

capacitor should have low effective series resistance (ESR) and

low effective series inductance (ESL), 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.

Traces

The power supply lines of the AD5755-1 should use as large a

trace as possible to provide low impedance paths and reduce

the effects of glitches on the power supply line. Fast switching

signals such as clocks should be shielded with digital ground

to prevent 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

ADSP-BF527

Figure 87. AD5755-1-to-ADSP-BF527 SPORT Interface

SPORT_TSCK

and ground connection for the AV

SPORT_DTO

SPORT_TFS

GPIO0

SYNC

SCLK

SDIN

LDAC

AD5755-1

supply are

AD5755-1 Analog Devices, AD5755-1 Datasheet - Page 47

AD5755-1

Specifications of AD5755-1

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