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PDF EUA4990 Data sheet ( Hoja de datos )

Número de pieza EUA4990
Descripción 1.36 Watt Audio Power Amplifier
Fabricantes Eutech Microelectronics 
Logotipo Eutech Microelectronics Logotipo



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EUA4990
1.36 Watt Audio Power Amplifier
DESCRIPTION
The EUA4990 is an audio power amplifier designed for
portable communication device applications such as
mobile phone applications. The EUA4990 is capable of
delivering 1.36W of continuous average power to an 8
BTL and with less than 1% distortion (THD+N) from a
5.0V power supply, and 460mW to a 8BTL load from a
3V power supply.
The EUA4990 provides high quality audio while requiring
few external components and minimal power consumption.
It features a low-power shutdown mode, which is achieved
by driving the SHUTDOWN pin with logic low.
The EUA4990 contains circuitry to prevent from ”pop and
click” noise that would otherwise occur during turn-on and
turn-off transitions.
For maximum flexibility, the EUA4990 provides an
externally controlled gain (with resistors), as well as an
externally controlled turn-on and turn-off times (with the
bypass capacitor).
The EUA4990 is available in a 1.5mm×1.5mm WCSP
package.
FEATURES
z 2.5V-5.5V operation
z 60dB PSRR at 1kHz, VDD=5V
z 0.1µA ultra low current shutdown mode
z Improved pop & click circuitry
z No output coupling capacitors, snubber networks or
bootstrap capacitors required
z Thermal shutdown protection
z Unity-gain stable
z External gain configuration capability
z BTL output can drive capacitive loads
z RoHS compliant and 100% lead(Pb)-free
APPLICATIONS
z Mobile Phones
z PDAs
z Portable electronic devices
Block Diagram
DS4990 Ver 1.0 Mar. 2009
Figure1. Block Diagram
1

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EUA4990 pdf
EUA4990Tel: 0755-8398 3377 / 135 9011 2223 http://www.gofotech.com
Absolute Maximum Ratings(1)
Supply voltage, VDD -------------------------------------------------------------------------------------------- 6V
Input voltage, VI ---------------------------------------------------------------------------- -0.3 V to VDD +0.3V
Storage temperature rang, Tstg ------------------------------------------------------------------ -65°C to +150°C
ESD Susceptibility -------------------------------------------------------------------------------------------- 2kV
Junction Temperature -------------------------------------------------------------------------------------- 150°C
Thermal Resistance
θJA (WCSP) -------------------------------------------------------------------------------------------- 81.4°C/W
Recommended Operating Conditions (2)
Supply Voltage ------------------------------------------------------------------------------ 2.5V to 5.5V
Operating Temperature --------------------------------------------------------------------- -40°C to +85°C
Note (1): Stress beyond those listed under “Absolute Maximum Ratings” may damage the device.
Note (2): The device is not guaranteed to function outside the recommended operating conditions.
Electrical Characteristics VDD = 5V, TA =+25°C
Symbol
Parameter
Conditions
IDD Quiescent Power Supply Current
ISD Shutdown Current
VSDIH Shutdown Voltage Input High
VSDIL Shutdown Voltage Input Low
VOS Output Offset Voltage
ROUT-GND Resistor Output to GND
PO Output Power (8)
TWU Wake-up time
TSD Thermal Shutdown Temperature
THD+N Total Harmonic Distortion + Noise
PSRR Power Supply Rejection Ratio
VIN=0V, IO=0A, No load
VIN=0V, IO=0A, 8load
VSHUTDOWN=0V
THD=1%; f=1kHz
PO=1 Wrms; f=1kHz
Vripple=200mV sine p-p
Input Terminated with 10
ohms to ground
Min
1.2
150
EUA4990
Typ
2.4
2.8
0.1
8.9
8.5
1.36
91
170
0.083
Max.
7
10
1
0.4
50
Unit
mA
mA
µA
V
V
mV
k
W
ms
°C
%
49
52(f=217Hz)
60(f=1kHz)
dB
DS4990 Ver 1.0 Mar. 2009
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EUA4990 arduino
EUA4990Tel: 0755-8398 3377 / 135 9011 2223 http://www.gofotech.com
Application Information
Bridged Configuration Explanation
The structure of the EUA4990 is basically composed of
two identical internal power amplifiers; the first one is
externally configurable with gain-setting resistors Rin and
Rf (the closed-loop gain is fixed by the ratios of theses
resistors) and the second is internally fixed in an inverting
unity-gain configuration by two resistors of 20k. So the
load is driven differentially through Vo1 and Vo2 outputs.
This configuration eliminates the need for an output
coupling capacitor.
The differential-ended amplifier presents two major
advantages:
- The possible output power is four times larger (the
output swing is doubled) as compared to single-ended
amplifier under the same conditions.
- Output pins (Vo1 and Vo2) are biased at the same
potential VDD/2, this eliminates the need for an output
coupling capacitor required with a single-ended
amplifier configuration.
The differential closed loop-gain of the amplifier is
given by Avd=
2 × R f = Vorms
R Vinrms
in
Power Dissipation
Power dissipation is a major concern when designing a
successful amplifier, whether the amplifier is bridged or
single-ended. A direct consequence of the increased
power delivered to the load by a bridge amplifier is an
increase in internal power dissipation. Since the
EUA4990 has two operational amplifiers in one package,
the maximum internal power dissipation is 4 times that of
a single-ended amplifier. The maximum power dissipation
for a given application can be derived from the power
dissipation graphs of from equation1.
PDMAX = 4 * (VDD )2 /(2π2R L ) ------------(1)
It is critical that the maximum junction temperature TJMAX
of 150°C is not exceeded. TJMAX can be determine from
the power derating curves by using PDMAX and the PC
board foil area. By adding additional copper foil, the
thermal resistance of the application can be reduced,
resulting in higher PDMAX. Additional copper foil can be
added to any of the leads connected to the EUA4990.If
TJMAX still exceeds 150°C, then additional changes must
be made. These changes can include reduced supply
voltage, higher load impedance, or reduced ambient
temperature. Internal power dissipation is a function of
output power.
Proper Selection of External Components
The EUA4990 is unity-gain stable and requires no
external components besides gain-setting resistors, and
input coupling capacitor and proper bypassing capacitor
in the typical application.
Gain-Setting Resistor Selection (Rin and Rf)
Rin and Rf set the closed-loop gain of the amplifier.
In order to optimize device and system performance, the
EUA4990 should be used in low gain configurations.
The low gain configuration minimizes THD + noise
values and maximizes the signal to noise ratio, and the
amplifier can still be used without running into the
bandwidth limitations. Low gain configurations require
large input signals to obtain a given output power. Input
signals equal to or greater than 1Vrms are available from
sources such as audio codecs.
A closed loop gain in the range from 2 to 5 is
recommended to optimize overall system performance.
An input resistor (Rin) value of 20kis realistic in most
of applications, and does not require the use of a too large
capacitor Cin.
Input Capacitor Selection (Cin)
The input coupling capacitor blocks the DC voltage at the
amplifier input terminal. This capacitor creates a
high-pass filter with Rin, the cut-off frequency is given by
fc = 1
2 * *R in * Cin
The size of the capacitor must be large enough to couple
in low frequencies without severe attenuation. However a
large input coupling capacitor requires more time to reach
its quiescent DC voltage (VDD/2) and can increase the
turn-on pops.
An input capacitor value between 0.1µ and 0.39µF
performs well in many applications (with Rin=22k).
Bypass Capacitor Selection (Cby)
The bypass capacitor Cby provides half-supply filtering
and determines how fast the EUA4990 turns on.
This capacitor is critical component to minimize the
turn-on pop. A 1.0µF bypass capacitor value (Cin=
0.39µF) should produce clickless and popless shutdown
transitions. The amplifier is still functional with a 0.1µF
capacitor value but is more susceptible to pop and click
noise. Thus, a 1.0µF bypassing capacitor is recommended.
Power Supply Bypassing (CS)
As with any amplifier, proper supply bypassing is critical
for low noise performance and high power supply
rejection. The capacitor location on both the bypass and
power supply pins should be as close to the device is
possible.
DS4990 Ver 1.0 Mar. 2009
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