LY8661 Datasheet, PDF(10/15 Page) Lyontek Inc. – Dual 2.0W/CH Stereo Audio Amplifier include Headphone Function

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LY8661 Datasheet, PDF (10/15 Pages) Lyontek Inc. – Dual 2.0W/CH Stereo Audio Amplifier include Headphone Function

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Rev. 1.8

LY8661

Dual 2.0W/CH Stereo Audio Amplifier include Headphone Function

APPLICATION INFORMATION

The LY8661âs QFN package provides a low thermal resistance between the die and the PCB to which the part

is mounted and soldered. This allows rapid heat transfer from the die to the surrounding PCB copper traces,

ground plane and, finally, surrounding air. The result is a low voltage audio power amplifier that produces

2.0W at 10% THD with a 4â¦ load. This high power is achieved through careful consideration of necessary

thermal design. Failing to optimize thermal design may compromise the LY8661âs high power performance

and activate unwanted, though necessary, thermal shutdown protection.

POWER SUPPLY BYPASSING

As with any power amplifier, proper supply bypassing is critical for low noise performance and high power

supply rejection. Applications that employ a 5V regulator typically use a 10 Î¼F in parallel with a 0.1 Î¼F filter

capacitor to stabilize the regulatorâs output, reduce noise on the supply line, and improve the supplyâs

transient response. However, their presence does not eliminate the need for a local 1.0 Î¼F tantalum bypass

capacitance connected between the LY8661âs supply pins and ground. Do not substitute a ceramic capacitor

for the tantalum. Doing so may cause oscillation. Keep the length of leads and traces that connect capacitors

between the LY8661âs power supply pin and ground as short as possible.

MICRO-POWER SHUTDOWN

The voltage applied to the SHUTDOWN pin controls the LY8661âs shutdown function. Activate micro-power

shutdown by applying GND to the SHUTDOWN pin. When active, the LY8661âs micro-power shutdown

feature turns off the amplifierâs bias circuitry, reducing the supply current. The low 0.1 Î¼A typical shutdown

current is achieved by applying a voltage that is as near as GND as possible to the SHUTDOWN pin. A

voltage that is more than GND may increase the shutdown current.

Table 1 shows the logic signal levels that activate and deactivate micro-power shutdown and headphone

amplifier operation.

There are a few ways to control the micro-power shutdown. These include using a single-pole, single-throw

switch, a microprocessor, or a microcontroller. When using a switch, connect an external 20k resistor

between the SHUTDOWN pin and Ground. Connect the switch between the SHUTDOWN pin VDD. Select

normal amplifier operation by closing the switch. Opening the switch sets the SHUTDOWN pin to ground

through the 20k resistor, which activates the micro-power shutdown. The switch and resistor guarantee that

the SHUTDOWN pin will not float. This prevents unwanted state changes. In a system with a microprocessor

or a microcontroller, use a digital output to apply the control voltage to the SHUTDOWN pin. Driving the

SHUTDOWN pin with active circuitry eliminates the pull up resistor.

Shutdown Pin

Logic High

Logic Low

TABLE 1. Logic Level Truth Table

Headphone Jack

Operational Output

Sense Pin

Mode

Low (HP not Plugged in)

BTL

High (HP Plugged in)

Single-Ended

High or Low Donât care

Micro-Power Shutdown

HEADPHONE SENSE AND HEADPHONE LOGIC IN FUNCTIONS

Applying a logic level to the LY8661âs HP Sense headphone control pin turns off Amp. A (+out) and Amp. B

(+out) muting a bridged-connected load. Quiescent current consumption is reduced when the IC is in this

single-ended mode.

Figure 2 shows the implementation of the LY8661âs headphone control function. With no headphones

connected to the headphone jack, the R5-R6 voltage divider sets the voltage applied to the HP Sense pin (pin

14) at approximately 50mV. This 50mV enables Amp A (+out) and Amp B (+out) placing the LY8661 in

bridged mode operation.

While the LY8661 operates in bridged mode, the DC potential across the load is essentially 0V. Therefore,

even in an ideal situation, the output swing cannot cause a false single-ended trigger. Connecting

headphones to the headphone jack disconnects the headphone jack contact pin from âOUTA and allows R7

to pull the HP Sense pin up to VDD.

Lyontek Inc. reserves the rights to change the specifications and products without notice.

5F, No. 2, lndustry E . Rd. IX, Science-Based Industrial Park, Hsinchu 300, Taiwan

TEL: 886-3-6668838

FAX: 886-3-6668836

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