Datasheet

GND

= 0 V

Input

Signal

*3dB

2p Z

TPA3004D2

www.ti.com

SLOS407E –FEBRUARY 2003–REVISED JANUARY 2011

Figure 45. Differential Output With FADE Terminal Held High

The switching frequency is determined using the values of the components connected to ROSC (pin 27) and

COSC (pin 28) and may be calculated with the following equation:

OSC

= 6.6 / (R

OSC

× C

OSC

) .

INTERNAL 2.5-V BIAS GENERATOR CAPACITOR SELECTION

The internal 2.5-V bias generator (V2P5) provides the internal bias for the preamplifier stages on both the

class-D amplifiers and the variable amplifiers. The external input capacitors and this internal reference allow the

inputs to be biased within the optimal common-mode range of the input preamplifiers.

The selection of the capacitor value on the V2P5 terminal is critical for achieving the best device performance.

During startup or recovery from the shutdown state, the V2P5 capacitor determines the rate at which the

amplifier starts up. When the voltage on the V2P5 capacitor equals 0.75xV2P5, or 75% of its final value, the

device turns on and the class-D outputs start switching. The startup time is not critical for the best depop

performance since any pop sound that is heard is the result of the class-D outputs switching on and not the

startup time. However, at least a 0.47-µF capacitor is recommended for the V2P5 capacitor.

A secondary function of the V2P5 capacitor is to filter high frequency noise on the internal 2.5-V bias generator.

INPUT RESISTANCE

Each gain setting is achieved by varying the input resistance of the amplifier, which can range from its smallest

value to over six times that value. As a result, if a single capacitor is used in the input high-pass filter, the –3 dB

or cutoff frequency also changes by over six times.

The –3-dB frequency can be calculated using Equation 5. Input impedance (Z

) vs Gain can be found in Figure 7.

(5)

Product Folder Link(s): TPA3004D2