AD73360LAR-REEL Analog Devices Inc, AD73360LAR-REEL Datasheet - Page 17

AD73360LAR-REEL

Manufacturer Part Number

AD73360LAR-REEL

Description

IC ANALOG FRONT END 6CH 28-SOIC

Manufacturer

Analog Devices Inc

Datasheet

1.AD73360LAR-REEL.pdf (32 pages)

Specifications of AD73360LAR-REEL

Number Of Channels

Rohs Status

RoHS non-compliant

Number Of Bits

Power (watts)

80mW

Voltage - Supply, Analog

Voltage - Supply, Digital

Package / Case

28-SOIC (7.5mm Width)

Analog Front End Type

General Purpose

Analog Front End Category

General Purpose

Interface Type

Serial (6-Wire)

Sample Rate

64KSPS

Input Voltage Range

0.789V

Operating Supply Voltage (min)

2.7V

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (max)

3.6V

Resolution

16b

Number Of Adc's

Power Supply Type

Analog/Digital

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

SOIC W

For Use With

EVAL-AD73360LEB - BOARD EVAL FOR AD73360L

Lead Free Status / RoHS Status

Not Compliant

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control, the reference will still be enabled; in this case, because

its individual bit is set. Refer to Table VII for details of the settings

of CRC. CRD–CRF can be used to control the power status of

individual channels allowing multiple channels to be powered

down if required.

Operating Modes

Three operating modes are available on the AD73360L. They are

Program, Data, and Mixed Program/Data. The device configu-

ration—register settings—can be changed only in Program and

Mixed Program/Data Modes. In all modes, transfers of infor-

mation to or from the device occur in 16-bit packets, therefore

the DSP engine’s SPORT will be programmed for 16-bit transfers.

Program (Control) Mode

In Program Mode, CRA:0 = 0, the user writes to the control

registers to set up the device for desired operation—SPORT

operation, cascade length, power management, input gain, etc. In

this mode, the 16-bit information packet sent to the device by

the DSP engine is interpreted as a control word whose format is

shown in Table IV. In this mode, the user must address the device

to be programmed using the address field of the control word. This

field is read by the device and if it is zero (000 bin), the device

recognizes the word as being addressed to it. If the address field

is not zero, it is then decremented and the control word is passed

out of the device—either to the next device in a cascade or back

to the DSP engine. This 3-bit address format allows the user to

uniquely address any one of up to eight devices in a cascade. If

the AD73360L is used in a stand-alone configuration connected

to a DSP, the device address corresponds to 0. If, on the other

hand, the AD73360L is configured in a cascade of two devices,

its device address corresponds with its hardwired position in

the cascade.

Following reset, when the SE pin is enabled, the AD73360L

responds by raising the SDOFS pin to indicate that an output

sample event has occurred. Control words can be written to the

device to coincide with the data being sent out of the SPORT,

as shown in Figure 12 (Directly Coupled), or they can lag the

output words by a time interval that should not exceed the sample

interval (Indirectly Coupled). Refer to the Digital Interface section

for more information. After reset, output frame sync pulses

will occur at a slower default sample rate, which is DMCLK/

2048, until Control Register B is programmed, after which the

SDOFS will be pulsed at the selected rate. This is to allow

slow controller devices to establish communication with the

AD73360L. During Program Mode, the data output by the

device is random and should not be interpreted as ADC data.

Data Mode

Once the device has been configured by programming the cor-

rect settings to the various control registers, the device may exit

Program Mode and enter Data Mode. This is done by program-

ming the DATA/PGM (CRA:0) bit to a 1 and MM (CRA:1) to

0. Once the device is in Data Mode, the input data is ignored.

When the device is in normal Data Mode (i.e., Mixed Mode

disabled), it must receive a hardware reset to reprogram any of

the control register settings.

Appendix C details the initialization and operation of an analog

front-end cascade in normal Data Mode.

Mixed Program/Data Mode

This mode allows the user to send control words to the device

while receiving ADC words. This permits adaptive control of

the device whereby control of the input gains can be affected by

reprogramming the control registers. The standard data frame

remains 16 bits, but now the MSB is used as a flag bit to indicate

that the remaining 15 bits of the frame represent control infor-

mation. Mixed Mode is enabled by setting the MM bit (CRA:1)

to 1 and the DATA/PGM bit (CRA:0) to 1. In the case where

control setting changes will be required during normal opera-

tion, this mode allows the ability to load control information

with the slight inconvenience of formatting the data. Note that

the output samples from the ADC will also have the MSB set to

zero to indicate it is a data word.

A description of a single device operating in mixed mode is

detailed in Appendix B, while Appendix D details the initializa-

tion and operation of an analog front-end cascade operating in

mixed mode. Note that it is not essential to load the control

registers in Program Mode before setting mixed mode active.

Mixed Mode may be selected with the first write by programming

CRA and then transmitting other control words.

Channel Selection

The ADC channels of the AD73360L can be powered up or

down individually by programming the PUIx bit of registers CRD

to CRF. If the AD73360L is being used in Mixed Data/Control

Mode individual channels may be powered up or down as the

program requires. In Data Mode, the number of channels selected

while the AD73360L was in Program Mode is fixed and cannot

be altered without resetting and reprogramming the AD73360L.

In all cases, ADC Channel 1 must be powered up as the frame

sync pulse generated by this channel defines the start of a new

sample interval.

INTERFACING

The AD73360L can be interfaced to most modern DSP engines

using conventional serial port connections and an extra enable

control line. Both serial input and output data use an accompa-

nying frame synchronization signal that is active high one clock

cycle before the start of the 16-bit word or during the last bit of

the previous word if transmission is continuous. The serial clock

(SCLK) is an output from the AD73360L and is used to define

the serial transfer rate to the DSP’s Tx and Rx ports. Two primary

configurations can be used: the first is shown in Figure 11 where

the DSP’s Tx data, Tx frame sync, Rx data, and Rx frame sync are

connected to the AD73360L’s SDI, SDIFS, SDO, and SDOFS

respectively. This configuration, referred to as indirectly coupled

or nonframe sync loop-back, has the effect of decoupling the

transmission of input data from the receipt of output data. When

programming the DSP serial port for this configuration, it is

necessary to set the Rx frame sync as an input to the DSP and

the Tx frame sync as an output generated by the DSP. This

configuration is most useful when operating in mixed mode, as

the DSP has the ability to decide how many words can be sent

to the AD73360L(s). This means that full control can be imple-

mented over the device configuration in a given sample interval.

AD73360L

AD73360LAR-REEL Analog Devices Inc, AD73360LAR-REEL Datasheet - Page 17

AD73360LAR-REEL

Specifications of AD73360LAR-REEL

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