參數(shù)資料
型號: LM4731
廠商: National Semiconductor Corporation
英文描述: Stereo 25W Audio Power Amplifier with Mute and Standby Modes
中文描述: 立體聲25瓦音頻功率放大器靜音和待機(jī)模式
文件頁數(shù): 10/16頁
文件大?。?/td> 640K
代理商: LM4731
Application Information
MUTE MODE
By placing a logic-high voltage on the mute pins, the signal
going into the amplifiers will be muted. If the mute pins are
left floating or connected to a logic-low voltage, the amplifi-
ers will be in a non-muted state. There are two mute pins,
one for each amplifier, so that one channel can be muted
without muting the other if the application requires such a
configuration. Refer to the
Typical Performance Character-
istics
section for curves concerning Mute Attenuation vs
Mute Pin Voltage.
STANDBY MODE
The standby mode of the LM4731 allows the user to drasti-
cally reduce power consumption when the amplifiers are
idle. By placing a logic-high voltage on the standby pins, the
amplifiers will go into Standby Mode. In this mode, the
current drawn from the V
supply is typically less than 10
μA total for both amplifiers. The current drawn from the V
supply is typically 4.8mA. Clearly, there is a significant re-
duction in idle power consumption when using the standby
mode. There are two Standby pins, so that one channel can
be put in standby mode without putting the other amplifier in
standby if the application requires such flexibility. Refer to
the
Typical Performance Characteristics
section for
curves showing Supply Current vs. Standby Pin Voltage for
both supplies.
UNDER-VOLTAGE PROTECTION
Upon system power-up, the under-voltage protection cir-
cuitry allows the power supplies and their corresponding
capacitors to come up close to their full values before turning
on the LM4731 such that no DC output spikes occur. Upon
turn-off, the output of the LM4731 is brought to ground
before the power supplies such that no transients occur at
power-down.
OVER-VOLTAGE PROTECTION
The LM4731 contains over-voltage protection circuitry that
limits the output current while also providing voltage clamp-
ing, though not through internal clamping diodes. The clamp-
ing effect is quite the same, however, the output transistors
are designed to work alternately by sinking large current
spikes.
THERMAL PROTECTION
The LM4731 has a sophisticated thermal protection scheme
to prevent long-term thermal stress of the device. When the
temperature on the die exceeds150C, the LM4731 shuts
down. It starts operating again when the die temperature
drops to about 145C, but if the temperature again begins to
rise, shutdown will occur again above 150C. Therefore, the
device is allowed to heat up to a relatively high temperature
if the fault condition is temporary, but a sustained fault will
cause the device to cycle in a Schmitt Trigger fashion be-
tween the thermal shutdown temperature limits of 150C and
145C. This greatly reduces the stress imposed on the IC by
thermal cycling, which in turn improves its reliability under
sustained fault conditions.
Since the die temperature is directly dependent upon the
heat sink used, the heat sink should be chosen such that
thermal shutdown will not be reached during normal opera-
tion. Using the best heat sink possible within the cost and
space constraints of the system will improve the long-term
reliability of any power semiconductor device, as discussed
in the
Determining the Correct Heat Sink
Section.
DETERMlNlNG MAXIMUM POWER DISSIPATION
Power dissipation within the integrated circuit package is a
very important parameter requiring a thorough understand-
ing if optimum power output is to be obtained. An incorrect
maximum power dissipation calculation may result in inad-
equate heat sinking causing thermal shutdown and thus
limiting the output power.
Equation (1) exemplifies the theoretical maximum power
dissipation point of each amplifier where V
CC
is the total
supply voltage.
P
DMAX
= V
CC
2/2
π
2
R
L
Thus by knowing the total supply voltage and rated output
load, the maximum power dissipation point can be calcu-
lated. The package dissipation is twice the number which
results from equation (1) since there are two amplifiers in
each LM4731. Refer to the graphs of Power Dissipation
versus Output Power in the
Typical Performance Charac-
teristics
section which show the actual full range of power
dissipation not just the maximum theoretical point that re-
sults from equation (1).
(1)
DETERMINING THE CORRECT HEAT SINK
The choice of a heat sink for a high-power audio amplifier is
made entirely to keep the die temperature at a level such
that the thermal protection circuitry does not operate under
normal circumstances.
The thermal resistance from the die (junction) to the outside
air (ambient) is a combination of three thermal resistances,
θ
JC
,
θ
CS
, and
θ
SA
. In addition, the thermal resistance,
θ
JC
(junction to case), of the LM4731TA is 1.5C/W. Using Ther-
malloy Thermacote thermal compound, the thermal resis-
tance,
θ
CS
(case to sink), is about 0.2C/W. Since convection
heat flow (power dissipation) is analogous to current flow,
thermal resistance is analogous to electrical resistance, and
temperature drops are analogous to voltage drops, the
power dissipation out of the LM4731 is equal to the following:
P
DMAX
= (T
JMAX
T
AMB
)/
θ
JA
where T
JMAX
= 150C, T
AMB
is the system ambient tempera-
ture and
JA
=
θ
JC
+
θ
CS
θ
SA
.
Once the maximum package power dissipation has been
calculated using equation (1), the maximum thermal resis-
tance,
θ
, (heat sink to ambient) in C/W for a heat sink can
be calculated. This calculation is made using equation (3)
which is derived by solving for
θ
SA
in equation (2).
θ
SA
= [(T
JMAX
T
AMB
)P
DMAX
(
θ
JC
+
θ
CS
)]/P
DMAX
Again it must be noted that the value of
θ
is dependent
upon the system designer’s amplifier requirements. If the
ambient temperature that the audio amplifier is to be working
under is higher than 25C, then the thermal resistance for the
heat sink, given all other things are equal, will need to be
smaller.
(2)
(3)
SUPPLY BYPASSING
The LM4731 has excellent power supply rejection and does
not require a regulated supply. However, to improve system
performance as well as eliminate possible oscillations, the
LM4731 should have its supply leads bypassed with low-
inductance capacitors having short leads that are located
close to the package terminals. Inadequate power supply
bypassing will manifest itself by a low frequency oscillation
known as “motorboating” or by high frequency instabilities.
L
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相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
LM4731TA 制造商:NSC 制造商全稱:National Semiconductor 功能描述:Stereo 25W Audio Power Amplifier with Mute and Standby Modes
LM4731TA/NOPB 功能描述:IC AMP AUDIO PWR 25W AB TO220-15 RoHS:是 類別:集成電路 (IC) >> 線性 - 音頻放大器 系列:- 產(chǎn)品培訓(xùn)模塊:Lead (SnPb) Finish for COTS Obsolescence Mitigation Program 標(biāo)準(zhǔn)包裝:2,500 系列:DirectDrive® 類型:H 類 輸出類型:耳機(jī),2-通道(立體聲) 在某負(fù)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(diǎn):I²C,麥克風(fēng),靜音,短路保護(hù),音量控制 安裝類型:表面貼裝 供應(yīng)商設(shè)備封裝:25-WLP(2.09x2.09) 封裝/外殼:25-WFBGA,WLCSP 包裝:帶卷 (TR)
LM4731TA/NOPB 制造商:Texas Instruments 功能描述:Audio Power Amplifier IC
LM4732 制造商:NSC 制造商全稱:National Semiconductor 功能描述:Stereo 50W Audio Power Amplifier with Mute
LM4732TA 制造商:NSC 制造商全稱:National Semiconductor 功能描述:Stereo 50W Audio Power Amplifier with Mute
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