AD5755-1 Analog Devices, AD5755-1 Datasheet - Page 29

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

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD5755-1ACPZ-REEL7

Manufacturer:

Quantity:

201

Current page: 29 of 52
Download datasheet (2Mb)

Data Sheet

THEORY OF OPERATION

The AD5755-1 is a quad, precision digital-to-current loop and

voltage output converter designed to meet the requirements of

industrial process control applications. It provides a high precision,

fully integrated, low cost, single-chip solution for generating

current loop and unipolar/bipolar voltage outputs. The current

ranges available are 0 mA to 20 mA, 0 mA to 24 mA, and 4 mA

to 20 mA. The voltage ranges available are 0 V to 5 V, ±5 V, 0 V

to 10 V, and ±10 V. The current and voltage outputs are availa-

ble on separate pins, and only one is active at any one time. The

desired output configuration is user selectable via the DAC

control register.

On-chip dynamic power control minimizes package power

dissipation in current mode.

DAC ARCHITECTURE

The DAC core architecture of the AD5755-1 consists of two

matched DAC sections. A simplified circuit diagram is shown

in Figure 71. The four MSBs of the 16-bit data-word are

decoded to drive 15 switches, E1 to E15. Each of these switches

connects one of 15 matched resistors to either ground or the

reference buffer output. The remaining 12 bits of the data-word

drive Switch S0 to Switch S11 of a 12-bit voltage mode R-2R

ladder network.

The voltage output from the DAC core is either converted to a

current (see Figure 73), which is then mirrored to the supply rail

so that the application simply sees a current source output, or it

is buffered and scaled to output a software selectable unipolar or

bipolar voltage range (see Figure 72). Both the voltage and current

outputs are supplied by V

output on separate pins and cannot be output simultaneously.

A channel’s current and voltage output pins can be tied together.

DAC

12-BIT R-2R LADDER

SCALING

RANGE

Figure 71. DAC Ladder Structure

Figure 72. Voltage Output

BOOST_x

S7/S11

FOUR MSBs DECODED INTO

. The current and voltage are

15 EQUAL SEGMENTS

OUT_X

SHORT FAULT

E15

OUT_x

SENSE_x

OUT

Rev. B | Page 29 of 52

Voltage Output Amplifier

The voltage output amplifier is capable of generating both

unipolar and bipolar output voltages. It is capable of driving a

load of 1 kΩ in parallel with 1 µF (with an external compen-

sation capacitor) to AGND. The source and sink capabilities of

the output amplifier are shown in Figure 23. The slew rate is

1.9 V/µs with a full-scale settling time of 16 µs (10 V step). If

remote sensing of the load is not required, connect +V

directly to V

for correct operation.

Driving Large Capacitive Loads

The voltage output amplifier is capable of driving capacitive

loads of up to 2 µF with the addition of a 220 pF nonpolarized

compensation capacitor on each channel. Care should be taken

to choose an appropriate value of compensation capacitor. This

capacitor, while allowing the AD5755-1 to drive higher capaci-

tive loads and reduce overshoot, increases the settling time of

the part and, therefore, affects the bandwidth of the system.

Without the compensation capacitor, up to 10 nF capacitive

loads can be driven. See Table 5 for information on connecting

compensation capacitors.

Reference Buffers

The AD5755-1 can operate with either an external or internal

reference. The reference input requires a 5 V reference for

specified performance. This input voltage is then buffered

before it is applied to the DAC.

POWER-ON STATE OF THE AD5755-1

On initial power-up of the AD5755-1, the power-on reset

circuit powers up in a state that is dependent on the power-on

condition (POC) pin.

If POC = 0, the voltage output and current output channels

power up in tristate mode.

If POC = 1, the voltage output channel powers up with a 30 kΩ

pull-down resistor to ground, and the current output channel

powers up to tristate.

Even though the output ranges are not enabled, the default

output range is 0 V to 5 V, and the clear code register is loaded

16-BIT

Figure 73. Voltage-to-Current Conversion Circuitry

DAC

OUT_x

. + V

SENSE_x

must stay within ±3.0 V of V

SET

BOOST_x

OUT_x

AD5755-1

SENSE_x

OUT_x

AD5755-1 Analog Devices, AD5755-1 Datasheet - Page 29

AD5755-1

Specifications of AD5755-1

Available stocks

Related parts for AD5755-1