TDA1400 Tripath Technology, TDA1400 Datasheet - Page 22

TDA1400

Manufacturer Part Number

TDA1400

Description

MONO CLASS-T DIGITAL AUDIO AMPLIFIER DRIVER

Manufacturer

Tripath Technology

Datasheet

1.TDA1400.pdf (25 pages)

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Break-Before-Make (BBM) Timing Control

The complementary half-bridge power MOSFETs require a deadtime between when one transistor is

turned off and the other is turned on (break-before-make) in order to minimize shoot through currents.

The TDA1400 has an analog input pin that controls the break-before-make timing of the output

transistors. Connecting R

defines the BBM setting by the following equation.

There is tradeoff involved in making this setting. As the delay is reduced, distortion levels improve but

shoot-through and power dissipation increase. The actual amount of BBM required is dependent upon

other component values and circuit board layout, the value selected should be verified in the actual

application circuit/board. It should also be verified under maximum temperature and power conditions

since shoot-through in the output MOSFETs can increase under these conditions, possibly requiring a

higher BBM setting than at room temperature.

Recommended MOSFETs

The following devices are capable of achieving full performance, both in terms of distortion and efficiency,

for the specified load impedance and voltage range.

Device Information – Recommended MOSFETs

Output Filter Design

One advantage of Tripath amplifiers over PWM solutions is the ability to use higher-cutoff-frequency

filters. This means load-dependent peaking/droop in the 20kHz audio band potentially caused by the filter

can be made negligible. This is especially important for applications where the user may select a 6-Ohm

or 8-Ohm speaker. Furthermore, speakers are not purely resistive loads and the impedance they present

changes over frequency and from speaker model to speaker model.

Tripath recommends designing the filter as a 2nd order, 102kHz LC filter. Tripath has obtained good

results with L

The core material of the output filter inductor has an effect on the distortion levels produced by a

TDA1400 amplifier. Tripath recommends low-mu type-2 iron powder cores because of their low loss and

high linearity (available from Micrometals, www.micrometals.com).

Tripath also recommends that an RC damper be used after the LC low-pass filter. No-load operation of a

TDA1400 amplifier can create significant peaking in the LC filter, which produces strong resonant

currents that can overheat the output MOSFETs and/or other components. The RC dampens the

peaking and prevents problems. Tripath has obtained good results with R

Performance Measurements of a TDA1400 Amplifier

Tripath amplifiers operate by modulating the input signal with a high-frequency switching pattern. This

signal is sent through a low-pass filter (external to the TDA1400) that demodulates it to recover an

amplified version of the audio input. The frequency of the switching pattern is spread spectrum and

typically varies between 200kHz and 1.5MHz, which is well above the 20Hz – 22kHz audio band. The

pattern itself does not alter or distort the audio input signal but it does introduce some inaudible noise

components.

Part Number

FQP19N10

FQP22P20

BBM (nsec) = 2 X R

* A R

BBMSET

= 11uH and C

Fairchild Semiconductor

of 0Ω will yield a BBM setting of 0nsec.

Manufacturer

BBM

from the BBMSET pin (pin 10) to analog ground creates a current that

= 0.22uF.

+ 7

where R

-100

DSS

100

(V)

BBMSET

-22

(A)

is in kΩ’s and 5kΩ < R

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

(nC)

DS(on)

0.078

0.096

= 10Ω and C

T D A 1 4 0 0 – R e v . 0 . 6 5 / K L i / 0 2 . 0 6

(Ω)

BBM

* < 100kΩ

Package

TO220

= 0.22uF.

TDA1400 Tripath Technology, TDA1400 Datasheet - Page 22

TDA1400

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