LM4674
LM4674 Filterless 2.5W Stereo Class D Audio Power Amplifier
Literature Number: SNAS344D
July 2, 2008
LM4674
Filterless 2.5W Stereo Class D Audio Power Amplifier
General Description
The LM4674 is a single supply, high efficiency, 2.5W/channel,
filterless switching audio amplifier. A low noise PWM archi-
tecture eliminates the output filter, reducing external compo-
nent count, board area consumption, system cost, and
simplifying design.
The LM4674 is designed to meet the demands of mobile
phones and other portable communication devices. Operat-
ing from a single 5V supply, the device is capable of delivering
2.5W/channel of continuous output power to a 4Ω load with
less than 10% THD+N. Flexible power supply requirements
allow operation from 2.4V to 5.5V.
The LM4674 features high efficiency compared to conven-
tional Class AB amplifiers. When driving an 8Ω speaker from
a 3.6V supply, the device features 85% efficiency at PO =
500mW. Four gain options are pin selectable through the G0
and G1 pins.
Output short circuit protection prevents the device from being
damaged during fault conditions. Superior click and pop sup-
pression eliminates audible transients on power-up/down and
during shutdown. Independent left/right shutdown control
maximizes power savings in mixed mono/stereo applications.
Key Specifications
■ Efficiency at 3.6V, 100mW into 8Ω80% (typ)
■ Efficiency at 3.6V, 500mW into 8Ω85% (typ)
■ Efficiency at 5V, 1W into 8Ω85% (typ)
■ Quiescent Power Supply Current
at 3.6V supply 4mA
■ Power Output at VDD = 5V,
RL = 4Ω, THD ≤ 10% 2.5W (typ)
■ Power Output at VDD = 5V,
RL = 8Ω, THD ≤ 10% 1.5W (typ)
■ Shutdown current 0.03μA (typ)
Features
■Output Short Circuit Protection
■Stereo Class D operation
■No output filter required
■Logic selectable gain
■Independent shutdown control
■Minimum external components
■Click and Pop suppression
■Micro-power shutdown
■Available in space-saving 2mm x 2mm x 0.6mm micro
SMD, and 4mm x 4mm x 0.8mm LLP packages
Applications
■Mobile phones
■PDAs
■Laptops
Boomer® is a registered trademark of National Semiconductor Corporation.
© 2008 National Semiconductor Corporation 201674 www.national.com
LM4674 Filterless 2.5W Stereo Class D Audio Power Amplifier
Typical Application
20167463
Ci = 1 μF
CS1 = 1 μF
CS2 = 0.1 μF
FIGURE 1. Typical Audio Amplifier Application Circuit
External Components Description
(Figure 1)
Components Functional Description
1. CSSupply bypass capacitor which provides power supply filtering. Refer to the Power Supply Bypassing section
for information concerning proper placement and selection of the supply bypass capacitor.
2. CiInput AC coupling capacitor which blocks the DC voltage at the amplifier's input terminals.
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LM4674
Connection Diagrams
TL Package (2mm x 2mm x 0.6mm)
20167461
Top View
Order Number LM4674TL
See NS Package Number TL1611A
LM4674TL Markings
20167462
Top View
XY = 2 Digit date code
TT = Lot traceability
G = Boomer Family
G2 = LM4674TL
LLP Package (4mm x 4mm x 0.8mm)
20167466
Top View
Order Number LM4674SQ
See NS Package Number SQA16A
LM4674SQ Markings
20167465
Top View
U = Wafer Fab Code
Z = Assembly Plant
XY = 2 Digit date code
TT = Lot traceability
L4674SQ = LM4674SQ
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LM4674
BUMP PIN NAME FUNCTION
A1 4 INL+ Non-inverting left channel input
A2 6 PVDD Power VDD
A3 7 OUTLA Left channel output A
A4 8 OUTLB Left channel output B
B1 3 INL- Inverting left channel input
B2 5 G1 Gain setting input 1
B3 10 SDR Right channel shutdown input
B4 9 SDL Left channel shutdown input
C1 2 INR- Inverting right channel input
C2 16 G0 Gain setting input 0
C3 12 GND Ground
C4 11 PGND Power Ground
D1 1 INR+ Non-inverting right channel input
D2 15 VDD Power Supply
D3 14 OUTRA Right channel output A
D4 13 OUTRB Right channel output B
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LM4674
Absolute Maximum Ratings (Notes 1, 2)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
Supply Voltage (Note 1) 6.0V
Storage Temperature −65°C to +150°C
Input Voltage –0.3V to VDD +0.3V
Power Dissipation (Note 3) Internally Limited
ESD Susceptibility, all other pins (Note 4) 2000V
ESD Susceptibility (Note 5) 200V
Junction Temperature (TJMAX)150°C
Thermal Resistance
θJA (μSMD) 45.7°C/W
θJA (LLP) 38.9°C/W
Operating Ratings (Notes 1, 2)
Temperature Range
TMIN ≤ TA ≤ TMAX −40°C ≤ TA ≤ 85°C
Supply Voltage 2.4V ≤ VDD ≤ 5.5V
Electrical Characteristics VDD = 3.6V (Notes 1, 2)
The following specifications apply for AV = 6dB, RL = 15µH + 8Ω + 15µH, f = 1kHz unless otherwise specified. Limits apply for TA
= 25°C.
Symbol Parameter Conditions
LM4674 Units
(Limits)
Typical Limit
(Note 6) (Notes 7, 8)
VOS Differential Output Offset Voltage VIN = 0, VDD = 2.4V to 5.0V 5 mV
IDD Quiescent Power Supply Current
VIN = 0, RL = ∞,
Both channels active, VDD = 3.6V 4 6 mA
VIN = 0, RL = ∞,
Both channels active, VDD = 5V 5 7.5 mA
ISD Shutdown Current VSDR = VSDL = GND 0.03 1 μA
VSDIH Shutdown Voltage Input High 1.4 V (min)
VSDIL Shutdown Voltage Input Low 0.4 V (max)
TWU Wake Up Time VSDR/SDL = 0.4V 0.5 ms
AVGain
G0, G1 = GND
RL = ∞6 6 ± 0.5 dB
G0 = VDD, G1 = GND
RL = ∞12 12 ± 0.5 dB
G0 = GND, G1 = VDD
RL = ∞18 18 ± 0.5 dB
G0, G1 = VDD
RL = ∞24 24 ± 0.5 dB
RIN Input Resistance
AV = 6dB 28 kΩ
AV = 12dB 18.75 kΩ
AV = 18dB 11.25 kΩ
AV = 24dB 6.25 kΩ
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LM4674
Symbol Parameter Conditions
LM4674 Units
(Limits)
Typical Limit
(Note 6) (Notes 7, 8)
POOutput Power
RL = 15μH + 4Ω + 15μH, THD ≤ 10%
f = 1kHz, 22kHz BW
VDD = 5V 2.5 W
VDD = 3.6V 1.2 W
VDD = 2.5V 0.530 W
RL = 15μH + 8Ω + 15μH, THD ≤ 10%
f = 1kHz, 22kHz BW
VDD = 5V 1.5 W
VDD = 3.6V 0.78 0.6 W
VDD = 2.5V 0.350 W
RL = 15μH + 4Ω + 15μH, THD ≤ 1%
f = 1kHz, 22kHz BW
VDD = 5V 1.9 W
VDD = 3.6V 1 W
VDD = 2.5V 0.430 W
RL = 15μH + 8Ω + 15μH, THD = 1%
f = 1kHz, 22kHz BW
VDD = 5V 1.25 W
VDD = 3.6V 0.63 W
VDD = 2.5V 0.285 W
THD+N Total Harmonic Distortion PO = 500mW, f = 1kHz, RL = 8Ω0.07 %
PO = 300mW, f = 1kHz, RL = 8Ω0.05 %
PSRR Power Supply Rejection Ratio
VRIPPLE = 200mVP-P Sine,
fRIPPLE = 217Hz, Inputs AC GND,
Ci = 1μF, input referred
75
dB
VRIPPLE = 1VP-P Sine,
fRIPPLE = 1kHz, Inputs AC GND,
Ci = 1μF, input referred
75
dB
CMRR Common Mode Rejection Ratio VRIPPLE = 1VP-P
fRIPPLE = 217Hz 67 dB
ηEfficiency PO = 1W, f = 1kHz,
RL = 8Ω, VDD = 5V 85 %
Xtalk Crosstalk PO = 500mW, f = 1kHz 84 dB
SNR Signal to Noise Ratio VDD = 5V, PO = 1W 96 dB
εOS Output Noise Input referred, A-Weighted Filter 20 μV
Note 1: All voltages are measured with respect to the ground pin, unless otherwise specified.
Note 2: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is
functional, but do not guarantee specific performance limits. Electrical Characteristics state DC and AC electrical specifications under particular test conditions
which guarantee specific performance limits. This assumes that the device is within the Operating Ratings. Specifications are not guaranteed for parameters
where no limit is given, however, the typical value is a good indication of device performance.
Note 3: The maximum power dissipation must be derated at elevated temperatures and is dictated by TJMAX, θJA, and the ambient temperature, TA. The maximum
allowable power dissipation is PDMAX = (TJMAX – TA)/ θJA or the number given in Absolute Maximum Ratings, whichever is lower. For the LM4674 see power
derating currents for more information.
Note 4: Human body model, 100pF discharged through a 1.5kΩ resistor.
Note 5: Machine Model, 220pF–240pF discharged through all pins.
Note 6: Typicals are measured at 25°C and represent the parametric norm.
Note 7: Limits are guaranteed to National's AOQL (Average Outgoing Quality Level).
Note 8: Datasheet min/max specification limits are guaranteed by design, test, or statistical analysis.
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LM4674
Block Diagrams
20167426
FIGURE 2. Differential Input Configuration
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LM4674
20167464
FIGURE 3. Single-Ended Input Configuration
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LM4674
Typical Performance Characteristics
THD+N vs Output Power
f = 1kHz, AV = 24dB, RL = 8Ω
20167439
THD+N vs Output Power
f = 1kHz, AV = 6dB, RL = 8Ω
20167440
THD+N vs Output Power
f= 1kHz, AV = 24dB, RL = 4Ω
20167441
THD+N vs Output Power
f = 1kHz, AV = 6dB, RL = 4Ω
20167442
THD+N vs Frequency
VDD = 2.5V, POUT = 100mW/ch, RL = 8Ω
20167443
THD+N vs Frequency
VDD = 3.6V, POUT = 250mW/ch, RL = 8Ω
20167444
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LM4674
THD+N vs Frequency
VDD = 5V, POUT = 375mW/ch, RL = 8Ω
20167445
THD+N vs Frequency
VDD = 2.5V, POUT = 100mW/ch, RL = 4Ω
20167446
THD+N vs Frequency
VDD = 3.6V, POUT = 250mW/ch, RL = 4Ω
20167447
THD+N vs Frequency
VDD = 5V, POUT = 375mW/ch, RL = 4Ω
20167448
Efficiency vs Output Power/channel
RL = 4Ω, f = 1kHz
20167449
Efficiency vs Output Power/channel
RL = 8Ω, f = 1kHz
20167450
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LM4674
Power Dissipation vs Output Power
RL = 4Ω, f = 1kHz
20167451
Power Dissipation vs Output Power
RL = 8Ω, f = 1kHz
20167452
Output Power/channel vs Supply Voltage
RL = 4Ω, f = 1kHz
20167453
Output Power/channel vs Supply Voltage
RL = 8Ω, f = 1kHz
20167454
PSRR vs Frequency
VDD = 3.6V, VRIPPLE= 200mVP-P, RL = 8Ω
20167455
Crosstalk vs Frequency
VDD = 3.6V, VRIPPLE = 1VP-P, RL = 8Ω
20167422
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LM4674
CMRR vs Frequency
VDD = 3.6V, VCM = 1VP-P, RL = 8Ω
20167457
Supply Current vs Supply Voltage
RL = ∞
20167458
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LM4674
Application Information
GENERAL AMPLIFIER FUNCTION
The LM4674 stereo Class D audio power amplifier features a
filterless modulation scheme that reduces external compo-
nent count, conserving board space and reducing system
cost. The outputs of the device transition from VDD to GND
with a 300kHz switching frequency. With no signal applied,
the outputs for each channel switch with a 50% duty cycle, in
phase, causing the two outputs to cancel. This cancellation
results in no net voltage across the speaker, thus there is no
current to the load in the idle state.
With the input signal applied, the duty cycle (pulse width) of
the LM4674 outputs changes. For increasing output voltage,
the duty cycle of the A output increases, while the duty cycle
of the B output decreases for each channel. For decreasing
output voltages, the converse occurs. The difference between
the two pulse widths yields the differential output voltage.
DIFFERENTIAL AMPLIFIER EXPLANATION
As logic supplies continue to shrink, system designers are in-
creasingly turning to differential analog signal handling to
preserve signal to noise ratios with restricted voltage signs.
The LM4674 features two fully differential amplifiers. A differ-
ential amplifier amplifies the difference between the two input
signals. Traditional audio power amplifiers have typically of-
fered only single-ended inputs resulting in a 6dB reduction of
SNR relative to differential inputs. The LM4674 also offers the
possibility of DC input coupling which eliminates the input
coupling capacitors. A major benefit of the fully differential
amplifier is the improved common mode rejection ratio (CM-
RR) over single ended input amplifiers. The increased CMRR
of the differential amplifier reduces sensitivity to ground offset
related noise injection, especially important in noisy systems.
POWER DISSIPATION AND EFFICIENCY
The major benefit of a Class D amplifier is increased efficiency
versus a class AB amplifier. The efficiency of the LM4674 is
attributed to the region of operation of the transistors in the
output stage. The Class D output stage acts as current steer-
ing switches, consuming negligible amounts of power com-
pared to their Class AB counterparts. Most of the power loss
associated with the output stage is due to the IR loss of the
MOSFET on-resistance (RDS(ON)), along with switching losses
due to gate charge.
SHUTDOWN FUNCTION
The LM4674 features independent left and right channel shut-
down controls, allowing each channel to be disabled inde-
pendently. SDR controls the right channel, while SDL controls
the left channel. Driving either low disables the corresponding
channel.
It is best to switch between ground and VDD for minimum cur-
rent consumption while in shutdown. The LM4674 may be
disabled with shutdown voltages in between GND and VDD,
the idle current will be greater than the typical 0.03µA value.
For logic levels between GND and VDD bypass SD_ with a
0.1μF capacitor.
The LM4674 shutdown inputs have internal pulldown resis-
tors. The purpose of these resistors is to eliminate any un-
wanted state changes when SD_ is floating. To minimize
shutdown current, SD_ should be driven to GND or left float-
ing. If SD_ is not driven to GND or floating, an increase in
shutdown supply current will be noticed.
SINGLE-ENDED AUDIO AMPLIFIER CONFIGURATION
The LM4674 is compatible with single-ended sources. When
configured for single-ended inputs, input capacitors must be
used to block any DC component at the input of the device.
Figure 3 shows the typical single-ended applications circuit.
AUDIO AMPLIFIER POWER SUPPLY BYPASSING/
FILTERING
Proper power supply bypassing is critical for low noise per-
formance and high PSRR. Place the supply bypass capacitor
as close to the device as possible. Typical applications em-
ploy a voltage regulator with 10µF and 0.1µF bypass capac-
itors that increase supply stability. These capacitors do not
eliminate the need for bypassing of the LM4674 supply pins.
A 1µF capacitor is recommended.
AUDIO AMPLIFIER INPUT CAPACITOR SELECTION
Input capacitors may be required for some applications, or
when the audio source is single-ended. Input capacitors block
the DC component of the audio signal, eliminating any conflict
between the DC component of the audio source and the bias
voltage of the LM4674. The input capacitors create a high-
pass filter with the input resistance Ri. The -3dB point of the
high pass filter is found using Equation 1 below.
f = 1 / 2πRiCi(1)
The values for Ri can be found in the EC table for each gain
setting.
The input capacitors can also be used to remove low fre-
quency content from the audio signal. Small speakers cannot
reproduce, and may even be damaged by low frequencies.
High pass filtering the audio signal helps protect the speakers.
When the LM4674 is using a single-ended source, power
supply noise on the ground is seen as an input signal. Setting
the high-pass filter point above the power supply noise fre-
quencies, 217 Hz in a GSM phone, for example, filters out the
noise such that it is not amplified and heard on the output.
Capacitors with a tolerance of 10% or better are recommend-
ed for impedance matching and improved CMRR and PSRR.
AUDIO AMPLIFIER GAIN SETTING
The LM4674 features four internally configured gain settings.
The device gain is selected through the two logic inputs, G0
and G1. The gain settings are as shown in the following table.
LOGIC INPUT GAIN
G1 G0 V/V dB
0 0 2 6
0 1 4 12
1 0 8 18
1 1 16 24
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LM4674
PCB LAYOUT GUIDELINES
As output power increases, interconnect resistance (PCB
traces and wires) between the amplifier, load and power sup-
ply create a voltage drop. The voltage loss due to the traces
between the LM4674 and the load results in lower output
power and decreased efficiency. Higher trace resistance be-
tween the supply and the LM4674 has the same effect as a
poorly regulated supply, increasing ripple on the supply line,
and reducing peak output power. The effects of residual trace
resistance increases as output current increases due to high-
er output power, decreased load impedance or both. To main-
tain the highest output voltage swing and corresponding peak
output power, the PCB traces that connect the output pins to
the load and the supply pins to the power supply should be
as wide as possible to minimize trace resistance.
The use of power and ground planes will give the best THD
+N performance. In addition to reducing trace resistance, the
use of power planes creates parasitic capacitors that help to
filter the power supply line.
The inductive nature of the transducer load can also result in
overshoot on one or both edges, clamped by the parasitic
diodes to GND and VDD in each case. From an EMI stand-
point, this is an aggressive waveform that can radiate or
conduct to other components in the system and cause inter-
ference. In is essential to keep the power and output traces
short and well shielded if possible. Use of ground planes
beads and micros-strip layout techniques are all useful in pre-
venting unwanted interference.
As the distance from the LM4674 and the speaker increases,
the amount of EMI radiation increases due to the output wires
or traces acting as antennas become more efficient with
length. Ferrite chip inductors places close to the LM4674 out-
puts may be needed to reduce EMI radiation.
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LM4674
LM4674TL Demo Board Schematic
20167474
LM4674TL Demo Board Schematic
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LM4674
LM4674TL Demonstration Board Layout
20167476
Layer 1
20167477
Layer 2
20167478
Layer 3
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LM4674
20167479
Layer 4
20167480
Top Silkscreen
20167475
Bottom Silkscreen
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LM4674
LM4674SQ Demo Board Schematic
20167481
LM4674SQ Demo Board Schematic
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LM4674
LM4674SQ Demonstration Board Layout
20167485
Layer 1
20167483
Layer 2
20167484
Layer 3
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LM4674
20167486
Top Silkscreen
20167487
Bottom Layer
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LM4674
Revision Table
Rev Date Description
1.0 12/16/06 Initial release.
1.1 05/17/06 Added the LLP package.
1.2 05/31/06 Added the LLP markings.
1.3 09/05/06 Added “No Load” in the Conditions on Av (3.6V table).
1.4 09/21/06 Edited graphics (26, 38, 60) and input some text edits.
1.5 09/27/06 Edited Figure 1 (page 2), TL and LLP pkg/marking drawings (page 3).
Input text edits.
1.6 07/13/07 Added the TL and SQ demo boards and schematics diagrams.
1.7 10/30/07 Updated the SQ schematic diagram and replaced the demo boards.
1.8 07/02/08 Text edits (under SHUTDOWN FUNCTION).
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LM4674
Physical Dimensions inches (millimeters) unless otherwise noted
16 Bump micro SMD
Order Number LM4674TL
NS Package Number TLA1611A
X1 = 2mm X2 = 2mm X3 = 0.6mm
LLP Package
Order Number LM4674SQ
NS Package Number SQA16A
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LM4674
Notes
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LM4674
Notes
LM4674 Filterless 2.5W Stereo Class D Audio Power Amplifier
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