STEVAL-CCA008V1 STMicroelectronics, STEVAL-CCA008V1 Datasheet - Page 20

STEVAL-CCA008V1

Manufacturer Part Number

STEVAL-CCA008V1

Description

BOARD EVAL BASED ON TS4998

Manufacturer

STMicroelectronics

Datasheets

1.TS4998IQT.pdf (33 pages)

2.STEVAL-CCA008V1.pdf (4 pages)

Specifications of STEVAL-CCA008V1

Amplifier Type

Class AB

Output Type

2-Channel (Stereo)

Max Output Power X Channels @ Load

1W x 2 @ 8 Ohm

Voltage - Supply

2.7 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Board Type

Fully Populated

Utilized Ic / Part

TS4998

Description/function

Audio Amplifiers

Operating Supply Voltage

2.7 V to 5.5 V

Output Power

1 W

Product

Audio Modules

Silicon Manufacturer

ST Micro

Silicon Core Number

TS4998

Kit Application Type

Amplifier

Application Sub Type

Stereo Audio Power Amplifier

Kit Contents

Board

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

TS4998

Other names

497-8259

Current page: 20 of 33
Download datasheet (489Kb)

Application information

4.1

4.2

4.3

20/33

Application information

General description

The TS4998 integrates two monolithic full-differential input/output power amplifiers with two

selectable standby pins dedicated for each channel. The gain of each channel is set by

external input resistors.

Differential configuration principle

The TS4998 also includes a common mode feedback loop that controls the output bias

value to average it at V

output voltage swing, and therefore, to maximize the output power. Moreover, as the load is

connected differentially instead of single-ended, output power is four times higher for the

same power supply voltage.

The advantages of a full-differential amplifier are:

●

In theory, the filtering of the internal bias by an external bypass capacitor is not necessary.

However, to reach maximum performance in all tolerance situations, it is recommended to

keep this option.

The only constraint is that the differential function is directly linked to external resistor

mismatching, therefore you must pay particular attention to this mismatching in order to

obtain the best performance from the amplifier.

Gain in typical application schematic

A typical differential application is shown in

The value of the differential gain of each amplifier is dependent on the values of external

input resistors R

region of the frequency-response curve (no C

is expressed by the relation given in

Equation 1

where R

feedback resistors).

High PSRR (power supply rejection ratio),

High common mode noise rejection,

Virtually no pops&clicks without additional circuitry, giving a faster startup time

compared to conventional single-ended input amplifiers,

Easier interfacing with differential output audio DAC,

No input coupling capacitors required due to common mode feedback loop.

= R

IN1

= R

to R

IN2

IN4

= R

/2 for any DC common mode input voltage. This allows maximum

and of integrated feedback resistors with fixed value. In the flat

IN3

diff

= R

IN4

Equation

----------------------------------------------------- -

Diff

expressed in kΩ and R

input+

O+

Figure 1 on page

–

Diff

effect), the differential gain of each channel

O-

input-

------------- -

feed

= 50kΩ (value of internal

50kΩ

------------- -

TS4998

STEVAL-CCA008V1 STMicroelectronics, STEVAL-CCA008V1 Datasheet - Page 20

STEVAL-CCA008V1

Specifications of STEVAL-CCA008V1

Related parts for STEVAL-CCA008V1