AD1849KP-REEL Analog Devices Inc, AD1849KP-REEL Datasheet - Page 20

AD1849KP-REEL

Manufacturer Part Number

AD1849KP-REEL

Description

IC CODEC STEREO 5V 16BIT 44PLCC

Manufacturer

Analog Devices Inc

Type

Stereo Audior

Datasheet

1.AD1849KP.pdf (28 pages)

Specifications of AD1849KP-REEL

Rohs Status

RoHS non-compliant

Data Interface

Serial

Resolution (bits)

16 b

Number Of Adcs / Dacs

2 / 2

Sigma Delta

Yes

Dynamic Range, Adcs / Dacs (db) Typ

83 / 86

Voltage - Supply, Analog

4.75 V ~ 5.25 V

Voltage - Supply, Digital

4.75 V ~ 5.25 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

44-PLCC

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AD1849K

RESET should be asserted when power is first applied to the

AD1849K. RESET should be asserted for a minimum of 50 ms

at power-up or when leaving the power-down mode to allow the

power supplies and the voltage reference to settle. Any time

RESET is asserted during normal operation, it should remain

asserted for a minimum of 100 ns to insure a complete reset.

Note that an autocalibration sequence will always occur when

RESET is deasserted, in addition to on the Control Mode to

Data Mode transition.

Coming out of either reset or power down, the state of the Data/

Control pin (D/C) will determine whether the Codec is in Data

Mode or Control Mode. In the unlikely event that the control

go directly from reset or power down to Data Mode and begin

audio operation.

Control Mode

More typically, users coming out of reset or power down will

want to change the control register defaults by transmitting a

Control Word in Control Mode. The user of the AD1849K

SoundPort Codec can also enter Control Mode at any time

during normal Data Mode operation. The D/C pin is provided

to make this possible. The Codec enters Control Mode when

the D/C pin is driven LO or held LO when coming out of reset

and/or power down.

In Control Mode, the location of a word within a frame is

determined solely by the behavior of the TSIN and TSOUT

signals. Each Codec by itself does not care where the frame

boundaries fall as defined by the system. The contents of the

frame size select (FSEL1:0, Control Word Bits 43 and 42) bits

are irrelevant to the operation of each AD1849K in Control

Mode. In Control Mode, a Codec requires 64 SCLK cycles to

be fully programmed. Additional SCLK cycles (more than 64)

that occur before the end of the frame will be ignored.

If four Codecs, for example, were daisy-chained, then each Codec

would receive TSIN every 256 bits. In this case, Codec #2’s

input Control Word will be positioned between Bit 64 and Bit

127 in the input frame.

Control Word Echo

While in Control Mode, the AD1849K Codec will echo the

Control Word received as a serial input on the SDRX pin as a

serial output in the next frame on the SDTX pin. (SDTX will

be enabled regardless of the setting of the TXDIS bit, Control

Word Bit 40.) This echoing of the control information allows

the external controller to confirm that the Codec has received

the intended Control Word. For the four Codec daisy chain

example above, the Control Word will be echoed bit for bit as

an output between Bit 64 and Bit 127 in the next output frame.

In general, in Control Mode, the location of the echo Control

Word within a frame will be at the same word location as the

input Control Word.

In the first frame of Control Mode, the AD1849K will output a

Control Word that reflects the control register values operative

during the most recent Data Mode operation. If Control Mode

was entered prior to any Data Mode operation, this first output

word will simply reflect the standard default settings. DCB will

always be “1” in the first output echoed Control Word.

DCB Handshaking Protocol

The D/C pin can make transitions completely asynchronously to

internal Codec operation. This fact necessitates a handshaking

protocol to ensure a smooth transition between serial bus

masters (i.e., the external controller and the Codec) and

guarantee unambiguous serial bus ownership. This software

handshake protocol for Control Mode to Data Mode transitions

makes use of the Data/Control Bit (DCB) in the Control Mode

Control Word (Bit 58). Prior to initiating the change to Control

Mode, the external controller should gradually attenuate the

audio outputs. The DCB handshake protocol requires the

following steps:

Enter Control Mode

The external controller drives the D/C pin LO, forcing the

Codec into Control Mode as a slave. The DCB transmitted

from the external controller to the Codec may be “0” or “1”

at this point in the handshake.

When ITS = 0 (Control Word Bit 47) and the Codec was oper-

ating as the master in the preceding Data Mode, immediately

after D/C goes LO, the Codec will drive FSYNC and TSOUT

LO for one SCLK period, then three-state FSYNC. SDTX is

three-stated immediately after D/C goes LO. TSOUT is not

three-stated. The Codec will drive SCLK for three (3) SCLK

periods after D/C goes LO and then three-state SCLK. The

external controller must wait at least three (3) SCLK periods

after it drives D/C LO, and then start driving SCLK.

When ITS = 1 (Control Word Bit 47) and the Codec was

operating as the master in the preceding Data Mode, the Codec

will three-state FSYNC, SDTX, and SCLK immediately after

D/C goes LO. TSOUT is driven LO immediately after D/C

goes LO and is not three-stated. The external controller may

start driving SCLK immediately.

When ITS = 0 and the external controller was operating as the

master in the preceding Data Mode, the external controller

must continue to supply SCLK to the slave Codec for at least

three (3) SCLK periods after D/C goes LO before a Control

Mode TSIN is issued to the Codec. TSIN must be held LO

externally until the first Control Word in Control Mode is

supplied by the external controller. This prevents false starts

and can be easily accomplished by using a pull-down resistor on

TSIN as recommended. The slave Codec drives TSOUT and

SDTX LO, then three-states SDTX, all within 1 1/2 (one and

one half) SCLK periods after D/C goes LO. TSOUT is not

three-stated.

When ITS = 1 and the external controller was operating as the

master in the preceding Data Mode, the external controller

must continue to supply SCLK to the slave Codec. A Control

Mode TSIN should be issued to the Codec three or more SCLK

periods after D/C goes LO. The slave Codec drives TSOUT LO

and three-states SDTX immediately after D/C goes LO.

TSOUT is not three-stated.

The Codec initializes its Data Mode Control Registers to the

defaults identified above, which among other actions, mutes all

audio outputs.

First DCB Interlock

When the external controller is ready to continue with the DCB

handshake, the Control Word sent by the external controller

should have the DCB reset to “0” along with arbitrary control

information (i.e., the control information does not have to be

valid, although if it is valid, it allows the external controller to

verify that the echoed Control Word is correct). The external

controller should continue to transmit this bit pattern with

AD1849KP-REEL Analog Devices Inc, AD1849KP-REEL Datasheet - Page 20

AD1849KP-REEL

Specifications of AD1849KP-REEL

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