AD7193BCPZ Analog Devices Inc, AD7193BCPZ Datasheet - Page 33

AD7193BCPZ

Manufacturer Part Number

AD7193BCPZ

Description

4ch VeryLow Noise 24Bit SD ADC With PGA

Manufacturer

Analog Devices Inc

Datasheet

1.AD7193BRUZ-REEL.pdf (56 pages)

Specifications of AD7193BCPZ

Number Of Bits

Sampling Rate (per Second)

4.8k

Data Interface

DSP, MICROWIRE™, QSPI™, Serial, SPI™

Number Of Converters

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

32-WFQFN, CSP Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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In continuous conversion mode, the ADC selects each of the

enabled channels in sequence and performs a conversion on the

channel. The DOUT/ RDY pin indicates when a valid conversion is

available on each channel. When several channels are enabled,

the contents of the status register should be attached to the 24-bit

word allowing the user to identify the channel that corresponds

to each conversion. The four LSBs of the status register indicate

the channel to which the conversion corresponds.

Table 24

pseudo differential mode with the corresponding channel ID

values in the status register. To attach the status register value

to the conversion, Bit DAT_STA in the mode register should

be set to 1.

When several channels are enabled, the ADC allows the complete

filter settling time to generate a valid conversion each time the

channel is changed. The AD7193 automatically takes care of this

through the following sequence:

The time required to read a valid conversion from all enabled

channels is equal to

For example, if the sinc

zero latency is disabled, the settling time for each channel equals

where f

on a single channel.

Therefore, the time required to read all enabled channels is

CONVERSIONS

When a channel is selected, the modulator and filter are

reset.

The AD7193 allows the complete settling time to generate

a valid conversion.

DOUT/ RDY indicates when a valid conversion is available.

The AD7193 selects the next enabled channel and converts

on that channel.

The user can read the data register while the ADC is

performing the conversion on the next channel.

(4× Number of Enabled Channels)/f

SETTLE

ADC

RDY

show the channel options for differential mode and

× Number of Enabled Channels

= 4/f

is the output data rate when continuously converting

CHANNEL A

ADC

Figure 24. Channel Sequencer

filter is selected, chop is disabled, and

CHANNEL B

1/f

ADC

Table 23

CHANNEL C

and

Rev. B | Page 33 of 56

DIGITAL INTERFACE

As indicated in the On-Chip Registers section, the programmable

functions of the AD7193 are controlled using a set of on-chip

registers. Data is written to these registers via the serial interface

of the part. Read access to the on-chip registers is also provided

by this interface.

All communication with the part must start with a write to the

communications register. After power-on or reset, the device

expects a write to its communications register. The data written

to this register determines whether the next operation is a read

operation or a write operation, and it determines to which

access to any of the other registers on the part begins with a

write operation to the communications register, followed by a

write to the selected register. A read operation from any other

with a write to the communications register, followed by a read

operation from the selected register.

The serial interface of the AD7193 consists of four signals: CS ,

DIN, SCLK, and DOUT/ RDY . The DIN line is used to transfer

data into the on-chip registers and DOUT/ RDY is used for

accessing data from the on-chip registers. SCLK is the serial

clock input for the device, and all data transfers (either on DIN

or DOUT/ RDY ) occur with respect to the SCLK signal.

The DOUT/ RDY pin also functions as a data-ready signal, the

line going low when a new data-word is available in the output

the data register to indicate when not to read from the device,

to ensure that a data read is not attempted while the register is

being updated. CS is used to select a device. It can be used to

decode the AD7193 in systems where several components are

connected to the serial bus.

Figure 3 and Figure 4 show timing diagrams for interfacing to

the AD7193 using CS to decode the part.

timing for a read operation from the output shift register of the

AD7193, and

the input shift register. It is possible to read the same word from

the data register several times even though the DOUT/

returns high after the first read operation. However, care must

be taken to ensure that the read operations are completed before

the next output update occurs. In continuous read mode, the

data register can be read only once.

The serial interface can operate in 3-wire mode by tying CS low.

In this case, the SCLK, DIN, and DOUT/ RDY lines are used to

communicate with the AD7193. The end of the conversion can

be monitored using the RDY bit or pin. This scheme is suitable

for interfacing to microcontrollers. If CS is required as a decoding

signal, it can be generated from a port pin. For microcontroller

interfaces, it is recommended that SCLK idle high between data

transfers.

Figure 4

shows the timing for a write operation to

Figure 3

shows the

AD7193

RDY line

AD7193BCPZ Analog Devices Inc, AD7193BCPZ Datasheet - Page 33

AD7193BCPZ

Specifications of AD7193BCPZ

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