TA0102A Tripath Technology Inc., TA0102A Datasheet - Page 10

TA0102A

Manufacturer Part Number

TA0102A

Description

Manufacturer

Tripath Technology Inc.

Datasheet

1.TA0102A.pdf (12 pages)

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Tripath Technology, Inc. - Technical Information

The processor portion of the TA0102A is operated from a 5-volt supply (between V5 and AGND). In

the generation of the complementary modulation pattern for the output MOSFETs, the processor

inserts a “break-before-make” dead time between when it turns one transistor off and it turns the

other one on in order to minimize shoot-through currents in the MOSFETs. The dead time can be

programmed by setting the break-before-make control bits, BBM0 and BBM1. Feedback information

from the output of the half-bridge is supplied to the processor via FDBKN1. Additional feedback

information to account for ground bounce is supplied via GNDKELVIN1.

The MOSFET drivers in the TA0102A are operated from voltages obtained from VN12 and LO1COM

for the low-side driver, and V

(generated internal to the TA0102A) and HO1COM for the high-

BOOT

side. Only N-Channel MOSFETs are required for both the top and bottom of the half bridge. VN12

must be a stable 12V above V

. The gate resistors, R

, are used to control MOSFET slew rate

SNEG

and thereby minimize voltage overshoots.

Over- and Under-Voltage Protection

The TA0102A senses the power rails through V

and V

for over- and under-voltage

SPOS

SNEG

conditions. The over- and under-voltage limits are Vo and Vu respectively as specified in the

Electrical Characteristics table. If the supply voltage exceeds Vo or drops below Vu, the TA0102A

shuts off the output stages of the amplifiers and asserts a logic level high on HMUTE. The removal

of the over-voltage or under-voltage condition returns the TA0102A to normal operation and returns

HMUTE to a logic level low. Please note that the limits specified in the Electrical Characteristics

table are at 25qC and these limits may change over temperature.

Over-current Protection

The TA0102A has over-current protection circuitry to protect itself and the output transistors from

short-circuit conditions.

The TA0102A uses the voltage across a resistor, R

(measured via

OCS1H+, OCS1H-, OCS1L+ and OCS1L-), that is in series with each output MOSFET to detect an

over-current condition. R

and R

are used to set the over-current threshold. The OCS pins must

OCR

be Kelvin connected for proper operation. See “Circuit Board Layout” in Applications Information for

details. An over-current condition will cause the TA0102A to shut off the output stages of the

amplifiers and supply a logic level high on HMUTE. The occurrence of an over-current condition is

latched in the TA0102A and can be cleared by toggling the MUTE input or cycling power.

Overload

When logic low, the OVERLOADB pin indicates that the level of the input signal has overloaded the

amplifier and that the audio output signal is starting to distort. The OVERLOADB signal is active

only when an overload is present. The OVERLOADB signal can be used to control a distortion

indicator light or LED through a simple buffer circuit.

Mute

When a logic high signal is supplied to MUTE, both amplifier channels are muted (both high- and

low-side transistors are turned off) and a logic level high is output on the HMUTE pin. When a logic

level low is supplied to MUTE, both amplifiers are fully operational and a logic level low is supplied

on HMUTE. There is a delay of approximately 200 milliseconds between the de-assertion of MUTE

and the un-muting of the TA0102A.

TA0102A, Rev. 3.1/06.01

TA0102A Tripath Technology Inc., TA0102A Datasheet - Page 10

TA0102A

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