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參數(shù)資料

型號：	LM4838
廠商：	National Semiconductor Corporation
英文描述：	Stereo 2W Audio Power Amplifiers with DC Volume Control and Selectable Gain
中文描述：	立體聲2W的音頻功率放大器直流音量控制及可選擇增益
文件頁數(shù)：	16/36頁
文件大?。?/td>	2085K
代理商：	LM4838

Application Information

(Continued)

POWER DISSIPATION

Power dissipation is a major concern when designing a

successful single-ended or bridged amplifier. Equation (2)

states the maximum power dissipation point for a single-

ended amplifier operating at a given supply voltage and

driving a specified output load.

DMAX

= (V

)

/(2

)

Single-Ended

(2)

However, a direct consequence of the increased power de-

livered to the load by a bridge amplifier is higher internal

power dissipation for the same conditions.

The LM4838 has two operational amplifiers per channel. The

maximum internal power dissipation per channel operating in

the bridge mode is four times that of a single-ended ampli-

fier. From Equation (3), assuming a 5V power supply and a

load, the maximum single channel power dissipation is

1.27W or 2.54W for stereo operation.

DMAX

= 4

)

/(2

)

Bridge Mode

(3)

The LM4838’s power dissipation is twice that given by Equa-

tion (2) or Equation (3) when operating in the single-ended

mode or bridge mode, respectively. Twice the maximum

power dissipation point given by Equation (3) must not ex-

ceed the power dissipation given by Equation (4):

DMAX

' = (T

JMAX

(4)

The LM4838’s T

= 150C. In the LQ package soldered

to a DAP pad that expands to a copper area of 5in

on a

PCB, the LM4838’s

is 20C/W. In the MTE package

soldered to a DAP pad that expands to a copper area of 2in

on a PCB, the LM4838MTE’s

is 41C/W. For the

LM4838MT package,

= 80C/W. At any given ambient

temperature T

, use Equation (4) to find the maximum inter-

nal power dissipation supported by the IC packaging. Rear-

ranging Equation (4) and substituting P

for P

' re-

sults in Equation (5). This equation gives the maximum

ambient temperature that still allows maximum stereo power

dissipation without violating the LM4838’s maximum junction

temperature.

= T

JMAX

– 2*P

DMAX

(5)

For a typical application with a 5V power supply and an 4

load, the maximum ambient temperature that allows maxi-

mum stereo power dissipation without exceeding the maxi-

mum junction temperature is approximately 99C for the LQ

package and 45C for the MTE package.

JMAX

= P

DMAX

+ T

(6)

Equation (6) gives the maximum junction temperature

. If the result violates the LM4838’s 150C T

reduce the maximum junction temperature by reducing the

power supply voltage or increasing the load resistance. Fur-

ther allowance should be made for increased ambient tem-

peratures.

The above examples assume that a device is a surface

mount part operating around the maximum power dissipation

point. Since internal power dissipation is a function of output

power, higher ambient temperatures are allowed as output

power or duty cycle decreases.

If the result of Equation (2) is greater than that of Equation

(3), then decrease the supply voltage, increase the load

impedance, or reduce the ambient temperature. If these

measures are insufficient, a heat sink can be added to

reduce

. The heat sink can be created using additional

copper area around the package, with connections to the

ground pin(s), supply pin and amplifier output pins. External,

solder attached SMT heatsinks such as the Thermalloy

7106D can also improve power dissipation. When adding a

heat sink, the

is the sum of

, and

. (

is the

junction-to-case thermal impedance,

is the case-to-sink

thermal impedance, and

is the sink-to-ambient thermal

impedance.) Refer to the

Typical Performance Character-

istics

curves for power dissipation information at lower out-

put power levels.

POWER SUPPLY BYPASSING

As with any power amplifier, proper supply bypassing is

critical for low noise performance and high power supply

rejection. Applications that employ a 5V regulator typically

use a 10 μF in parallel with a 0.1 μF filter capacitor to

stabilize the regulator’s output, reduce noise on the supply

line, and improve the supply’s transient response. However,

their presence does not eliminate the need for a local 1.0μF

tantalum bypass capacitance connected between the

LM4838’s supply pins and ground. Do not substitute a ce-

ramic capacitor for the tantalum. Doing so may cause oscil-

lation. Keep the length of leads and traces that connect

capacitors between the LM4838’s power supply pin and

ground as short as possible. Connecting a 1μF capacitor,

, between the BYPASS pin and ground improves the

internal bias voltage’s stability and the amplifier’s PSRR. The

PSRR improvements increase as the BYPASS pin capacitor

value increases. Too large a capacitor, however, increases

turn-on time and can compromise the amplifier’s click and

pop performance. The selection of bypass capacitor values,

especially C

, depends on desired PSRR requirements,

click and pop performance (as explained in the following

section,

Selecting Proper External Components

), system

cost, and size constraints.

SELECTING PROPER EXTERNAL COMPONENTS

Optimizing the LM4838’s performance requires properly se-

lecting external components. Though the LM4838 operates

well when using external components with wide tolerances,

best performance is achieved by optimizing component val-

ues.

The LM4838 is unity-gain stable, giving a designer maximum

design flexibility. The gain should be set to no more than a

given application requires. This allows the amplifier to

achieve minimum THD+N and maximum signal-to-noise ra-

tio. These parameters are compromised as the closed-loop

gain increases. However, low gain circuits demand input

signals with greater voltage swings to achieve maximum

output power. Fortunately, many signal sources such as

audio CODECs have outputs of 1V

(2.83V

P-P

). Please

refer to the

Audio Power Amplifier Design

section for more

information on selecting the proper gain.

www.national.com

相關PDF資料	PDF描述
LM4838LQ	Stereo 2W Audio Power Amplifiers with DC Volume Control and Selectable Gain
LM4838MT	Stereo 2W Audio Power Amplifiers with DC Volume Control and Selectable Gain
LM4838MTE	Stereo 2W Audio Power Amplifiers with DC Volume Control and Selectable Gain
LM4838ITL	Stereo 2W Audio Power Amplifiers with DC Volume Control and Selectable Gain
LM4838ITLX	Stereo 2W Audio Power Amplifiers with DC Volume Control and Selectable Gain

相關代理商/技術參數(shù)	參數(shù)描述
LM4838BULN E WAF	制造商:Texas Instruments 功能描述:
LM4838GR	功能描述:IC AMP AUDIO PWR 2.2W 49UARRAY RoHS:否類別:集成電路 (IC) >> 線性 - 音頻放大器系列:Boomer® 產(chǎn)品培訓模塊:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 標準包裝:2,500 系列:DirectDrive® 類型:H 類輸出類型:耳機，2-通道（立體聲）在某負載時最大輸出功率 x 通道數(shù)量:35mW x 2 @ 16 歐姆電源電壓:1.62 V ~ 1.98 V 特點:I²C，麥克風，靜音，短路保護，音量控制安裝類型:表面貼裝供應商設備封裝:25-WLP（2.09x2.09）封裝/外殼:25-WFBGA，WLCSP 包裝:帶卷 (TR)
LM4838ITL	制造商:Texas Instruments 功能描述:AMP AUDIO STEREO 2.2W SMD 4838
LM4838ITL/NOPB	功能描述:IC AMP AUDIO PWR 2.2W 36USMD RoHS:是類別:集成電路 (IC) >> 線性 - 音頻放大器系列:Boomer® 產(chǎn)品培訓模塊:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 標準包裝:2,500 系列:DirectDrive® 類型:H 類輸出類型:耳機，2-通道（立體聲）在某負載時最大輸出功率 x 通道數(shù)量:35mW x 2 @ 16 歐姆電源電壓:1.62 V ~ 1.98 V 特點:I²C，麥克風，靜音，短路保護，音量控制安裝類型:表面貼裝供應商設備封裝:25-WLP（2.09x2.09）封裝/外殼:25-WFBGA，WLCSP 包裝:帶卷 (TR)
LM4838ITLX	制造商:Rochester Electronics LLC 功能描述:- Bulk

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