AD5316BRUZ Analog Devices Inc, AD5316BRUZ Datasheet - Page 19

AD5316BRUZ

Manufacturer Part Number

AD5316BRUZ

Description

IC DAC 10BIT QUAD W/BUFF 16TSSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD5306BRUZ.pdf (24 pages)

Specifications of AD5316BRUZ

Data Interface

Serial

Settling Time

7µs

Number Of Bits

Number Of Converters

Voltage Supply Source

Single Supply

Power Dissipation (max)

4.5mW

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

16-TSSOP

Resolution (bits)

10bit

Sampling Rate

143kSPS

Input Channel Type

Serial

Supply Voltage Range - Analog

2.5V To 5.5V

Supply Current

500ÂµA

Number Of Channels

Resolution

10b

Conversion Rate

143KSPS

Interface Type

Serial (2-Wire/I2C)

Single Supply Voltage (typ)

3.3/5V

Dual Supply Voltage (typ)

Not RequiredV

Architecture

Resistor-String

Power Supply Requirement

Single

Output Type

Voltage

Integral Nonlinearity Error

±2.5+/- LSB

Single Supply Voltage (min)

2.5V

Single Supply Voltage (max)

5.5V

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Operating Temp Range

-40C to 105C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

TSSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Current page: 19 of 24
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However, if the master sends an ACK and continues clocking

SCL (no stop is sent), the DAC retransmits the same two bytes

of data on SDA. This allows continuous readback of data from

the selected DAC register.

Alternatively, the user can send a start followed by the address

with R/ W = 1. In this case, the previously loaded pointer

settings are used and readback of data can start immediately.

DOUBLE-BUFFERED INTERFACE

The AD5306/AD5316/AD5326 DACs have double-buffered

interfaces consisting of two banks of registers: input registers

and DAC registers. The input registers are connected directly to

the input shift register and the digital code is transferred to the

relevant input register on completion of a valid write sequence.

The DAC registers contain the digital code used by the resistor

strings.

Access to the DAC registers is controlled by the LDAC pin.

When LDAC is high, the DAC registers are latched and the

input registers can change state without affecting the contents of

the DAC registers. When LDAC is low, however, the DAC

registers become transparent and the contents of the input

registers are transferred to them.

Double-buffering is useful if the user requires simultaneous

updating of all DAC outputs. The user may write to each of the

input registers individually and then, by pulsing the LDAC

input low, all outputs update simultaneously.

These parts contain an extra feature whereby a DAC register is

not updated unless its input register has been updated since the

last time that LDAC was low. Normally, when LDAC is low, the

DAC registers are filled with the contents of the input registers.

In the AD5306/AD5316/AD5326, the part updates the DAC

time the DAC register was updated, thereby removing

unnecessary digital crosstalk.

LOAD DAC INPUT LDAC

LDAC transfers data from the input registers to the DAC

registers and, therefore, updates the outputs. The LDAC

function enables double-buffering of the DAC data, GAIN,

and BUF. There are two LDAC modes: synchronous mode and

asynchronous mode.

In synchronous mode, the DAC registers are updated after new

data is read in on the rising edge of the eighth SCL pulse. LDAC

can be tied permanently low or pulsed as in Figure 2.

Rev. F | Page 19 of 24

In asynchronous mode, the outputs are not updated at the same

time the input registers are written to. When LDAC goes low,

the DAC registers are updated with the contents of the input

registers.

POWER-DOWN MODE

The AD5306/AD5316/AD5326 have very low power consump-

tion, dissipating typically at 1.2 mW with a 3 V supply and

2.5 mW with a 5 V supply. Power consumption can be reduced

further when the DACs are not in use by putting them into

power-down mode, which is selected by setting the PD pin low

or by setting Bit 12 ( PD ) of the data-word to 0.

When the PD pin is high and the PD bit is set to 1, all DACs work

normally with a typical power consumption of 500 μA at 5 V

(400 μA at 3 V). In power-down mode, however, the supply

current falls to 300 nA at 5 V (90 nA at 3 V) when all DACs are

powered down. Not only does the supply current drop, but each

output stage is internally switched from the output of its ampli-

fier, making it open-circuit. This has the advantage that the

outputs are three-state while the part is in power-down mode

and provides a defined input condition for whatever is connected

to the output of the DAC amplifiers. The output stage is shown

in Figure 35.

The bias generator, output amplifiers, resistor strings, and all

other associated linear circuitry are shut down when power-

down mode is activated. However, the contents of the registers

are unaffected when in power-down. In fact, it is possible to

load new data into the input registers and DAC registers during

power-down. The DAC outputs update as soon as the PD pin

goes high or the PD bit is reset to 1. The time to exit power-

down is typically 2.5 μs for V

This is the time from the rising edge of the eighth SCL pulse or

from the rising edge of PD to when the output voltage deviates

from its power-down voltage (see Figure 23).

STRING DAC

RESISTOR

Figure 35. Output Stage During Power-Down

AD5306/AD5316/AD5326

AMPLIFIER

= 5 V and 5 μs for V

POWER-DOWN

CIRCUITRY

OUT

= 3 V.

AD5316BRUZ Analog Devices Inc, AD5316BRUZ Datasheet - Page 19

AD5316BRUZ

Specifications of AD5316BRUZ

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