AD5531BRUZ Analog Devices Inc, AD5531BRUZ Datasheet - Page 15

AD5531BRUZ

Manufacturer Part Number

AD5531BRUZ

Description

IC DAC 14BIT SERIAL IN 16-TSSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD5530BRUZ.pdf (20 pages)

Specifications of AD5531BRUZ

Data Interface

Serial

Settling Time

20µs

Number Of Bits

Number Of Converters

Voltage Supply Source

Analog and Digital

Power Dissipation (max)

60mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-TSSOP

Resolution (bits)

14bit

Sampling Rate

50kSPS

Input Channel Type

Serial

Supply Voltage Range - Analogue

Â± 10.8V To Â± 13.2V, Â± 13.5V To Â± 16.5V

Supply Current

2mA

Digital

RoHS Compliant

Number Of Channels

Resolution

14b

Conversion Rate

50KSPS

Interface Type

SER 3W SPI QSPI UW

Single Supply Voltage (typ)

Not RequiredV

Dual Supply Voltage (typ)

±12/±15V

Architecture

R-2R

Power Supply Requirement

Dual

Output Type

Voltage

Single Supply Voltage (min)

Not RequiredV

Single Supply Voltage (max)

Not RequiredV

Dual Supply Voltage (min)

±10.8V

Dual Supply Voltage (max)

±16.5V

Operating Temp Range

-40C to 85C

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

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Current page: 15 of 20
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MICROPROCESSOR INTERFACING

Microprocessor interfacing to the AD5530/AD5531 is via a

serial bus that uses standard protocol compatible with micro-

controllers and DSP processors. The communications channel

is a 3-wire (minimum) interface consisting of a clock signal, a

data signal, and a synchronization signal. The AD5530/AD5531

requires a 16-bit data-word with data valid on the falling edge

of SCLK.

For all the interfaces, the DAC output update can be done

automatically when all the data is clocked in or asynchronously

under the control of LDAC .

The contents of the DAC register can be read using the

readback function.

which is clocked out on SDO. Figure 23, Figure 24, and Figure 25

show these DACs interfacing with a simple 4-wire interface.

The serial interface of the AD5530/AD5531 can be operated

from a minimum of three wires.

AD5530/AD5531 TO ADSP-21xx

An interface between the AD5530/AD5531 and the ADSP-21xx

is shown in Figure 23. In the interface example shown, SPORT0

is used to transfer data to the DAC. The SPORT control register

should be configured as follows: internal clock operation,

alternate framing mode; active low framing signal.

Transmission is initiated by writing a word to the Tx register

after the SPORT has been enabled. As the data is clocked out of

the DSP on the rising edge of SCLK, no glue logic is required to

interface the DSP to the DAC. In the interface shown, the DAC

output is updated using the

the LDAC input could be tied permanently low and then the

update takes place automatically when TFS is taken high.

AD5530/AD5531 TO 8051 INTERFACE

A serial interface between the AD5530/AD5531 and the 8051 is

shown in Figure 24. TxD of the 8051 drives SCLK of the

AD5530/AD5531, while RxD drives the serial data line, SDIN.

P3.3 and P3.4 are bit-programmable pins on the serial port and

are used to drive SYNC and LDAC , respectively.

Figure 23. AD5530/AD5531 to ADSP-21xx Interface

ADDITIONAL PINS OMITTED FOR CLARITY.

ADSP-2103

ADSP-2101/

RBEN is used to frame the readback data,

SCLK

TFS

LDAC pin via the DSP. Alternatively,

LDAC

SYNC

SDIN

SCLK

AD5531

AD5530/

Rev. B | Page 15 of 20

The 8051 provides the LSB of its SBUF register as the first bit in

the data stream. The user has to ensure that the data in the SBUF

When data is to be transmitted to the DAC, P3.3 is taken low.

Data on RxD is clocked out of the microcontroller on the rising

edge of TxD and is valid on the falling edge. As a result no glue

logic is required between this DAC and microcontroller interface.

The 8051 transmits data in 8-bit bytes with only eight falling

clock edges occurring in the transmit cycle. As the DAC expects

a 16-bit word, P3.3 must be left low after the first 8 bits are

transferred. After the second byte has been transferred, the P3.3

line is taken high. The DAC can be updated using

P3.4 of the 8051.

AD5530/AD5531 TO MC68HC11 INTERFACE

Figure 25 shows an example of a serial interface between the

AD5530/AD5531 and the MC68HC11 microcontroller. SCK of

the MC68HC11 drives the SCLK of the DAC, and the MOSI

output drives the serial data lines, SDIN. SYNC is driven from

one of the port lines, in this case PC7.

The MC68HC11 is configured for master mode, MSTR = 1,

CPOL = 0, and CPHA = 1. When data is transferred to the part,

PC7 is taken low and data is transmitted MSB first. Data

appearing on the MOSI output is valid on the falling edge of SCK.

Eight falling clock edges occur in the transmit cycle, so to load the

required 16-bit word, PC7 is not brought high until the second

8-bit word has been transferred to the DAC input shift register.

Figure 25. AD5530/AD5531 to MC68HC11 Interface

ADDITIONAL PINS OMITTED FOR CLARITY.

80C51/80L51

Figure 24. AD5530/AD5531 to 8051 Interface

MC68HC11

MOSI

P3.4

P3.3

SCK

RxD

TxD

PC6

PC7

LDAC

SYNC

SDIN

SCLK

LDAC

SYNC

SDIN

SCLK

AD5531

AD5530/

AD5530/AD5531

LDAC via

AD5531BRUZ Analog Devices Inc, AD5531BRUZ Datasheet - Page 15

AD5531BRUZ

Specifications of AD5531BRUZ

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