EUA5212 Datasheet, PDF(15/17 Page) Eutech Microelectronics Inc – 2-W Stereo Audio Power Amplifier with Four Selectable Gain Settings

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EUA5212 Datasheet, PDF (15/17 Pages) Eutech Microelectronics Inc – 2-W Stereo Audio Power Amplifier with Four Selectable Gain Settings

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EUA5212

Bridged-tied load versus single- ended mode

Figure 39 show a Class-AB audio power amplifier (APA)

in a BTL configuration. The EUA5212 BTL amplifier

consists of two Class-AB amplifiers driving both ends of

the load. There are several potential benefits to this

differential drive configuration, but initially consider

power to the load. The differential drive to the speaker

means that as one side is slewing up, the other side is

slewing down, and vice versa. This in effect doubles the

voltage swing on the load as compared to a ground

referenced load. Plugging 2ÃVO(PP) into the power

equation, where voltage is squared, yields 4Ã the output

power from the same supply rail and load impedance(see

equation 5)

VO(PP)

V(rms) =

Power

V(rms)

------(5)

For example, a 68ÂµF capacitor with an 8-â¦ speaker

would attenuate low frequencies below 293 Hz. The

BTL configuration cancels the dc offsets, which

eliminates the need for the blocking capacitors.

Low-frequency performance is then limited only by the

input network and speaker response. Cost and PCB

space are also minimized by eliminating the bulky

coupling capacitor.

In a typical computer sound channel operating at 5V,

bridging raises the power into an 8-â¦ speaker from a

singled-ended (SE, ground reference) limit of 250 mW

to 1W. In sound power that is a 6-dB improvementâ

which is loudness that can be heard. In addition to

increased power there are frequency response concerns.

Consider the single-supply SE configuration shown in

Figure 40.

A coupling capacitor is required to block the dc offset

voltage from reaching the load. These capacitors can be

quite large (approximately 33ÂµF to 1000ÂµF) so they tend

to be expensive, heavy, occupy valuable PCB area, and

have the additional drawback of limiting low-frequency

performance of the system. This frequency limiting

effect is due to the high pass filter network created with

the speaker impedance and the coupling capacitance and

is calculated with equation 6.

fC = 2Ï R LCC ----------------------------------(6)

Increasing power to the load does carry a penalty of

increased internal power dissipation. The increased

dissipation is understandable considering that the BTL

configuration produces 4 the output power of the SE

configuration. Internal dissipation versus output power is

discussed further in the crest factor and thermal

considerations section.

Single-Ended Operation

In SE mode the load is driven from the primary

amplifier output for each channel (OUT+, terminals 21

and 4 ). The amplifier switches single-ended operation

when the SE/BTL terminal is held high. This puts the

negative outputs in a high-impedance state, and reduces

the amplifierâs gain to 1V/V.

Input MUX operation

The input MUX allows two separate inputs to be applied

to the amplifier. This allow the designer to choose which

input is active independent of the state of the

SE/BTL terminal. When the HP/LINE terminal is held

high, the headphone inputs are active. When the

HP/LINE terminal is held low, the line BTL inputs are

active.

DS5212 Ver 1.5 Nov. 2004

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