AD7715ANZ-3 Analog Devices Inc, AD7715ANZ-3 Datasheet - Page 24

AD7715ANZ-3

Manufacturer Part Number

AD7715ANZ-3

Description

IC ADC 16BIT SIGMA-DELTA 16DIP

Manufacturer

Analog Devices Inc

Datasheets

1.AD7715ANZ-5.pdf (40 pages)

2.AD7715ANZ-3.pdf (31 pages)

Specifications of AD7715ANZ-3

Data Interface

DSP, MICROWIRE™, QSPI™, Serial, SPI™

Number Of Bits

Sampling Rate (per Second)

500

Number Of Converters

Power Dissipation (max)

9.5mW

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Mounting Type

Through Hole

Package / Case

16-DIP (0.300", 7.62mm)

Resolution (bits)

16bit

Input Channel Type

Differential

Supply Voltage Range - Analogue

3V To 3.6V

Supply Voltage Range - Digital

3V To 5.25V

Supply Current

600ÂµA

No. Of

RoHS Compliant

Sampling Rate

19.2kSPS

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

EVAL-AD7715-3EBZ - BOARD EVALUATION FOR AD7715

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD7715

MICROCOMPUTER/MICROPROCESSOR INTERFACING

The AD7715’s flexible serial interface allows for easy interface

to most microcomputers and microprocessors. The flowchart of

Figure 8 outlines the sequence which should be followed when

interfacing a microcontroller or microprocessor to the AD7715.

Figures 9, 10 and 11 show some typical interface circuits.

The serial interface on the AD7715 has the capability of operat-

ing from just three wires and is compatible with SPI interface

protocols. The three-wire operation makes the part ideal for

isolated systems where minimizing the number of interface lines

minimizes the number of opto-isolators required in the system.

The rise and fall times of the digital inputs to the AD7715

(especially the SCLK input) should be no longer than 1 s.

Most of the registers on the AD7715 are 8-bit registers. This

facilitates easy interfacing to the 8-bit serial ports of microcon-

trollers. Some of the registers on the part are up to 16 bits, but

data transfers to these 16-bit registers can consist of a full 16-bit

transfer or two 8-bit transfers to the serial port of the microcon-

troller. DSP processors and microprocessors generally transfer

16 bits of data in a serial data operation. Some of these proces-

sors, such as the ADSP-2105, have the facility to program the

amount of cycles in a serial transfer. This allows the user to

tailor the number of bits in any transfer to match the register

length of the required register in the AD7715.

Even though some of the registers on the AD7715 are only eight

bits in length, communicating with two of these registers in

successive write operations can be handled as a single 16-bit

data transfer if required. For example, if the Setup Register is to

be updated, the processor must first write to the Communica-

tions Register (saying that the next operation is a write to the

Setup Register) and then write eight bits to the Setup Register.

This can all be done in a single 16-bit transfer if required be-

cause once the eight serial clocks of the write operation to the

Communications Register have been completed, the part imme-

diately sets itself up for a write operation to the Setup Register.

AD7715 to 68HC11 Interface

Figure 9 shows an interface between the AD7715 and the

68HC11 microcontroller. The diagram shows the minimum

(three-wire) interface with CS on the AD7715 hardwired low.

In this scheme, the DRDY bit of the Communications Register

is monitored to determine when the Data Register is updated.

An alternative scheme, which increases the number of interface

–24–

lines to four, is to monitor the DRDY output line from the

AD7715. The monitoring of the DRDY line can be done in two

ways. First, DRDY can be connected to one of the 68HC11’s

port bits (such as PC0) which is configured as an input. This

port bit is then polled to determine the status of DRDY. The

second scheme is to use an interrupt driven system, in which

case the DRDY output is connected to the IRQ input of the

68HC11. For interfaces that require control of the CS input on

the AD7715, one of the port bits of the 68HC11 (such as PC1),

which is configured as an output, can be used to drive the CS

input.

The 68HC11 is configured in the master mode with its CPOL

bit set to a logic one and its CPHA bit set to a logic one. When

the 68HC11 is configured like this, its SCLK line idles high

between data transfers. The AD7715 is not capable of full du-

plex operation. If the AD7715 is configured for a write opera-

tion, no data appears on the DATA OUT lines even when the

SCLK input is active. Similarly, if the AD7715 is configured for

a read operation, data presented to the part on the DATA IN

line is ignored even when SCLK is active.

Coding for an interface between the 68HC11 and the AD7715

is given in Table XVI. In this example, the DRDY output line

of the AD7715 is connected to the PC0 port bit of the 68HC11

and is polled to determine its status.

68HC11

Figure 9. AD7715 to 68HC11 Interface

MISO

MOSI

SCK

DATA IN

RESET

SCLK

DATA OUT

AD7715

REV. C

AD7715ANZ-3 Analog Devices Inc, AD7715ANZ-3 Datasheet - Page 24

AD7715ANZ-3

Specifications of AD7715ANZ-3

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