ADAU1592ACPZ-RL Analog Devices Inc, ADAU1592ACPZ-RL Datasheet - Page 17

18W Int Stereo Switching Audio Power Amp

ADAU1592ACPZ-RL

Manufacturer Part Number

ADAU1592ACPZ-RL

Description

18W Int Stereo Switching Audio Power Amp

Manufacturer

Analog Devices Inc

Type

Class Dr

Datasheet

1.ADAU1592ACPZ.pdf (24 pages)

Specifications of ADAU1592ACPZ-RL

Output Type

2-Channel (Stereo)

Max Output Power X Channels @ Load

24W x 2 @ 4 Ohm

Voltage - Supply

9 V ~ 18 V

Features

Depop, Mute, Short-Circuit and Thermal Protection, Standby

Mounting Type

Surface Mount

Package / Case

48-LFCSP

Operational Class

Class-D

Audio Amplifier Output Configuration

2-Channel Stereo

Output Power (typ)

24x2@4OhmW

Audio Amplifier Function

Speaker

Total Harmonic Distortion

0.005@6Ohm@1W%

Single Supply Voltage (typ)

Not RequiredV

Dual Supply Voltage (typ)

3.3/15V

Power Supply Requirement

Triple

Rail/rail I/o Type

Power Supply Rejection Ratio

65dB

Single Supply Voltage (min)

Not RequiredV

Single Supply Voltage (max)

Not RequiredV

Dual Supply Voltage (min)

3/9V

Dual Supply Voltage (max)

3.6/18V

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

LFCSP EP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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on the outputs after the LC filter. Typical short-circuit condi-

tions include shorting of the output load and shorting to either

PVDD or PGND.

UNDERVOLTAGE PROTECTION

The ADAU1592 is also comprised of an undervoltage protec-

tion circuit, which senses the undervoltage on PVDD. When

the PVDD supply goes below the operating threshold, the

output FETs are turned to a high-Z condition. In addition, the

device issues an error flag by pulling ERR low. This condition

is latched. To restore the operation, MUTE (Pin 15) needs to

be toggled to low and then to high again.

CLOCK LOSS DETECTION

The ADAU1592 includes a clock loss detection circuit. In case

the master clock to the part is lost, the ERR flag is set. This

condition is latched. To restore operation, MUTE needs to be

toggled low and high again.

AUTOMATIC RECOVERY FROM PROTECTIONS

In certain applications, it is desired for the amplifier to recover

itself from thermal protection without the need for system

microcontroller intervention.

The ADAU1592 thermal protection circuit issues two error

signals for this purpose: one a thermal warning ( OTW ) and the

other a thermal shutdown ( ERR ).

With the two error signals, there are two options available for

using the protections:

Option 1: Using OTW

Option 2: Using ERR

The following sections provide further details of these two options.

Option 1: Using OTW

The OTW pin is pulled low when the die temperature reaches

130°C to 135°C. This pin can be wired to MUTE as shown in

Figure 44, using an RC circuit.

The low logic level on OTW also pulls down the MUTE pin.

The bridge is shut down and starts cooling or the die tempera-

ture starts reducing. When it reaches around 120°C, the OTW

signal starts going high. While this pin is tied to a capacitor

with a resistor pulled to DVDD, the voltage on this pin starts

rising slowly towards DVDD. When it reaches the CMOS

threshold, MUTE is deasserted and the amplifier starts

functioning again. This cycle repeats itself depending on

the input signal conditions and the temperature of the die.

ADAU1592

Figure 44. Option 1 Schematic for Autorecovery

MUTE

OTW

DVDD

100kΩ

47µF

1N4148

TO MUTE

LOGIC INPUT

Rev. A | Page 17 of 24

This option allows device operation that is safely below the

shutdown temperature of 150°C and allows the amplifier to

recover itself without the need for microcontroller intervention.

Option 2: Using ERR

Option 2 is similar to Option 1 except the ERR pin is tied to

MUTE instead of OTW . See the circuit in Figure 45.

In this case, the part goes into shutdown mode due to any of the

error-generating events like output overcurrent, overtemperature,

missing PVDD or DVDD, or clock loss. The part recovers itself

based on the same circuit operation in Figure 44.

However, if the part goes into error mode due to overtempera-

ture, then the device would have reached its maximum limit of

150°C (15°C to 20°C higher than Option 1). If it goes into error

mode due to an overcurrent from a short circuit on the speaker

outputs, then the part keeps itself recycling on and off until the

short circuit is removed.

It is possible that, with this operation, the part is subjected to a

much higher temperature and current stress continuously. This,

in turn, reduces the part’s reliability in the long term. Therefore,

using Option 1 for autorecovery from thermal protection and

using the system microcontroller to indicate to the user of an

error condition is recommended.

MUTE AND STDN

The MUTE and STDN pins are 3.3 V logic-compatible inputs

used to control the turn-on/turn-off for the ADAU1592.

The STDN input is active low when the STDN pin is pulled low

and the device is in its energy saving mode. The modulator is

inactive and the power stage is in high-Z state. The high logic

level input on the STDN pin wakes up the device. The modula-

tor is running internally but the power stage is still in high-Z state.

When the MUTE pin is pulled high, the power stage becomes

active with a soft turn-on to avoid the pop and clicks. The low

level on the MUTE pin disables the power stage and is

recommended to be used to mute the audio output. See the

Power-Up/Power-Down Sequence section for more details.

ADAU1592

Figure 45. Option 2 Schematic for Autorecovery

MUTE

ERR

DVDD

100kΩ

47µF

1N4148

TO MUTE

LOGIC INPUT

ADAU1592

ADAU1592ACPZ-RL Analog Devices Inc, ADAU1592ACPZ-RL Datasheet - Page 17

ADAU1592ACPZ-RL

Specifications of ADAU1592ACPZ-RL

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