TA2024 Ver la hoja de datos (PDF) - Unspecified

Número de pieza

componentes Descripción

Fabricante

TA2024

Stereo 10W (4Ω) Class-T™ Digital Audio Amplifier using Digital Power Processing™ Technology

Unspecified 

TECHNICAL INFORMATION

External Components Description (Refer to the Application/Test Circuit)

Components

RI

RF

CI

RREF

CA

CD

CP

CS

CSW

CZ

RZ

DO

LO

CO

CCM

Description

Inverting Input Resistance to provide AC gain in conjunction with RF. This input is biased at

the BIASCAP voltage (approximately 2.4VDC).

Feedback resistor to set AC gain in conjunction with RI; AV = 12(RF / RI) . Please refer to the

Amplifier Gain paragraph in the Application Information section.

AC input coupling capacitor which, in conjunction with RI, forms a highpass filter at

fC = 1 (2πRICI)

Bias resistor. Locate close to pin 6 and ground at pin 8.

BIASCAP decoupling capacitor. Should be located close to pin 16.

Charge pump input capacitor. This capacitor should be connected directly between pins 2

and 3 and located physically close to the TA2024.

Charge pump output capacitor that enables efficient high side gate drive for the internal H-

bridges. To maximize performance, this capacitor should be connected directly between

pin 36 (CPUMP) and pin 34 (VDDA). Please observe the polarity shown in the Application/

Test Circuit.

Supply decoupling for the low current power supply pins. For optimum performance, these

components should be located close to the pin and returned to their respective ground as

shown in the Application/Test Circuit.

Supply decoupling for the high current, high frequency H-Bridge supply pins. These

components must be located as close to the device as possible to minimize supply

overshoot and maximize device reliability. Both the high frequency bypassing (0.1uF) and

bulk capacitor (180uF) should have good high frequency performance including low ESR

and low ESL. Panasonic HFQ or FC capacitors are ideal for the bulk capacitor.

Zobel Capacitor.

Zobel resistor, which in conjunction with CZ, terminates the output filter at high frequencies.

The combination of RZ and CZ minimizes peaking of the output filter under both no load

conditions or with real world loads, including loudspeakers which usually exhibit a rising

impedance with frequency.

Schottky diodes that minimize undershoots of the outputs with respect to power ground

during switching transitions. For maximum effectiveness, these diodes must be located

close to the output pins and returned to their respective PGND. Please see

Application/Test Circuit for ground return pin.

Output inductor, which in conjunction with CO, demodulates (filters) the switching waveform

into an audio signal. Forms a second order filter with a cutoff frequency of

fC = 1 (2 π L O C O ) and a quality factor of Q = R L C O L O C O .

Output capacitor.

Common Mode Capacitor.

Page 6

TA2024 Preliminary, Rev. 1.0

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