tda2075a Tripath Technology Inc., tda2075a Datasheet - Page 20

tda2075a

Manufacturer Part Number

tda2075a

Description

Stereo Class-t Digital Audio Amplifier Driver Using Digital Power Processingtm

Manufacturer

Tripath Technology Inc.

Datasheet

1.TDA2075A.pdf (24 pages)

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The equation for calculating R

The two resistors, R

used for the direct calculation of the actual VPP and VNN trip voltages without considering the effect of

Using the resistor values from above, the actual minimum over voltage turn off points will be:

The other three trip points can be calculated using the same formula but inserting the appropriate

the minimum overvoltage turn off and maximum under voltage turn-off for both the VPP and VNN

supplies.

Output Transistor Selection

The key parameters to consider when selecting what n-channel and p-channel MOSFETs to use with the

TDA2075A are drain-source breakdown voltage (BVdss), gate charge (Qg), and on-resistance (R

The BVdss rating of the MOSFET needs to be selected to accommodate the voltage swing between

a ‘good’ circuit board layout, a BVdss that is 50% higher than the VPP to VNN voltage swing is a

reasonable starting point. The BVdss rating should be verified by measuring the actual voltages

experienced by the MOSFET in the final circuit.

Ideally a low Qg (total gate charge) and low R

Unfortunately, these are conflicting requirements since R

MOSFET. The design trade-off is one of cost versus performance. A lower R

losses but the associated higher Qg translates into higher switching losses (losses = Qg x 10 x 1.2MHz).

A lower R

lower switching losses but higher I

Gate Resistor Selection

The gate resistors, R

voltage overshoots. They also dissipate a portion of the power resulting from moving the gate charge

VPPSENSE

SPOS

VPP2

and R

and V

Set

VPPSENSE and VNNSENSE, respectively.

VPP

VNN

VPP

VNN

VPPSENSE

(or I

DS(ON)

VPP1

VNN1

VNN2

SNEG

VNNSENSE

MIN_OV_TUR

RANGE

VPP2

VNN2

MIN_OV_TUR

RANGE

also means a larger silicon die and higher cost. A higher R

as well as any voltage peaks caused by voltage ringing due to switching transients. With

or I

VPPSENSE

VNNSENSE

VPP

VNN

VPP2

VNNSENSE

) current value. As stated earlier, the usable supply range is the difference between

, are used to control MOSFET switching rise/fall times and thereby minimize

VPP

VPP1

VNN

and R

N_OFF

VNN1

MIN_OV_TUR

can be any of the currents shown in the Electrical Characteristics table for

VPP1

VNNSENSE

VNN2

is as follows:

(

VPP1

compensate for the internal bias points. Thus, R

DSON

VNN1

is as follows:

N_OFF

VPPSENSE

losses.

VNNSENSE

DS(ON)

VPP

VNN

(MIN_OV_TU

are desired for the best amplifier performance.

MAX_UV_TUR

(MIN_OV_TU

DS(ON)

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

RN_OFF)

is inversely proportional to Qg for a typical

N_OFF

RN_OFF)

N_OFF

)

DS(ON)

T D A 2 0 7 5 A – R e v . 0 . 9 / K L i / 1 0 . 0 5

DS(ON)

means lower cost and

means lower I

VPP1

and R

VNN1

DS(ON)

can be

DS(ON)

tda2075a Tripath Technology Inc., tda2075a Datasheet - Page 20

tda2075a

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