TA0104A Tripath Technology Inc., TA0104A Datasheet - Page 10

TA0104A

Manufacturer Part Number

TA0104A

Description

Manufacturer

Tripath Technology Inc.

Datasheet

1.TA0104A.pdf (18 pages)

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Bonase Electronics (HK) Co., Limited

Part Number:

TA0104A

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Supply Voltage and Output Power

The relationship between the bipolar power supply voltage needed, V

power, P

by:

Typical measurement graphs of P

included in this data sheet to help determine the supply voltage.

Bridged Operation

Note that the two channels of a TA0104A amplifier can be used to provide a single, bridged amplifier

of almost four times the output power of one of the single-ended amplifier channels. To configure a

bridged amplifier, the input to one TA0104A channel must be the inverted signal of the input to the

other channel.

Low-frequency Power Supply Pumping

A potentially troublesome phenomenon in single-ended switching amplifiers is power supply pumping.

This is caused by current from the output filter inductor flowing into the power supply output filter

capacitors in the opposite direction as a DC load would drain current from them. Under certain

conditions (usually low-frequency input signals), this current can cause the supply voltage to “pump”

(increase) and eventually cause over-voltage/under-voltage shut down. Moreover, since over/under-

voltage are not “latched” shutdowns, the effect would be an amplifier that oscillates between on and

off states. If a DC offset on the order of 0.3V is allowed to develop on the output of the amplifier (see

“DC Offset Adjust”), the supplies can be boosted to the point where the amplifier’s over-voltage

protection triggers.

One solution to the pumping issue is to use large power supply capacitors to absorb the pumped

supply current without significant voltage boost. The low frequency pole used at the input to the

driver determines the value of the supply capacitor required.

Another solution to the supply pumping problem uses the fact that music has low frequency

information that is correlated in both channels (it is in phase). This information can be used to

eliminate boost by putting the two channels of a TA0104A amplifier out of phase with each other.

This works because each channel is pumping out of phase with the other, and the net effect is a

cancellation of pumping currents.

connecting one of the speakers in the opposite polarity as the other channel.

where:

K = THD Factor, a number fixed by the algorithms in the TA0104A’s signal processor that

OUT

COIL

= (2 x R

= Sense Resistor

, into a given load, R

= The at-temperature R

provides the relationship between THD at full output power of the amplifier and V

corresponds to THD at full output power as follows:

= Resistance of the output filter inductor.

THD

0.1%

10%

x P

OUT

)

0.5

/(K x R

0.83

0.95

1.09

, at a given level of THD (total harmonic distortion) is approximated

DSON

OUT

/(R

The phase of the audio signals needs to be corrected by

versus supply voltage for various levels of THD are also

of the output transistors, M.

+ R

COIL

T r i p a t h T e c h n o l o g y , I n c . - T e c h n i c a l I n f o r m a t i o n

))

, for a given RMS output

TA104A – Rev. 3.1/06.00

. K

TA0104A Tripath Technology Inc., TA0104A Datasheet - Page 10

TA0104A

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