MPS MP7770 2 x 45w stereo single-ended or 90w mono btl class-d audio amplifier Datasheet

MP7770
2 x 45W Stereo Single-Ended
or 90W Mono BTL Class-D Audio Amplifier
The Future of Analog IC Technology
DESCRIPTION
FEATURES
MP7770 is an analog class-D audio amplifier
that can drive either stereo speakers in singleended configuration or a mono speaker in a
bridge-tied-load configuration. It is part of
MPS’s family of fully-integrated audio amplifiers
that dramatically reduce footprint size by
integrating:




100mΩ power MOSFETs

Startup/Shutdown pop elimination

Short-circuit protection circuits
The MP7770 is capable of delivering 45W per
channel into 4Ω speaker in single-ended output
structure, or delivering 90W into 8Ω speaker in
bridge-tied-load output structure under 36V
VDD. MPS’s class D audio amplifiers exhibit the
high fidelity of a Class A/B amplifier at higher
efficiencies. The circuit is based on the MPS’s
proprietary variable-frequency topology, which
delivers excellent linearity, fast response time
and operates from a single power supply.











9.5V-to-36V Operation from a Single Supply
±8.5A Peak Current Output
Output Power at 36V and 10%THD:
- Stereo Single-Ended: 2 x 45W into 4Ω Load,
- Bridge-Tied Load: 90W into 8Ω Load
THD+N = 0.03% at 1W, 8Ω
> 90% Efficiency at 10%THD
Low Noise
Switching Frequency of up to 1MHz
Integrated Startup and Shutdown Pop
Elimination Circuit
Programmable UVP
Thermal and Short-Circuit Protection
Output Fault Flag and Thermal Warning
Integrated Power FETs
TSSOP28-EP Package with Exposed Pad
on Bottom
TSSOP28-EPR Package with Exposed Pad
on Top, Please Contact Factory for the
Availability
APPLICATIONS





DVD Receiver
Mini Combo System
Home Theater Systems
Surround Sound Systems
Audio Docking or High-Power Sound Box
All MPS parts are lead-free and adhere to the RoHS directive. For MPS green
status, please visit MPS website under Quality Assurance
“MPS” and “The Future of Analog IC Technology” are Registered Trademarks of
Monolithic Power Systems, Inc.
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
1
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
TYPICAL APPLICATIONS
CH1
INPUT
CH1
OUTPUT
IN1
SW1
REF1
BST1
TIMER1
PGND1
TIMER2
PGND2
OFF ON
EN
UVP
MP7770
OTW
VDD1
FAULT
VDD2
VDD
AGND1
AGND2
BST2
CH2
OUTPUT
REF2
SW2
CH2
INPUT
IN2
Stereo SE Application Circuit
TIMER1
SW1
TIMER2
BST1
INPUT+
IN1
REF1
REF2
INPUT-
IN2
PGND1
MP7770
EN
OFF ON
OUTPUT
PGND2
VDD
V DD1
UVP
OTW
V DD2
BST2
FAULT
AGND1
SW2
AGND2
Mono BTL Application Circuit
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
2
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
ORDERING INFORMATION
Part Number*
MP7770GF
**MP7770GFR
Package
TSSOP28-EP
TSSOP28-EPR
Top Marking
MP7770
MP7770R
* For Tape & Reel, add suffix –Z (e.g. MP7770GF–Z);
** Contact Factory for TSSOP28F-EPR Availability
PACKAGE REFERENCE
BST1
OTW
PGND1
FAULT
PGND1
N/C
TIMER1
SW1
IN1
SW1
REF1
AGND1
AGND2
VDD1
VDD1
EXPOSED PAD
ON TOP
VDD2
VDD2
REF2
IN2
SW2
TIMER2
SW2
N/C
PGND2
UVP
PGND2
BST2
EN
TSSOP28-EPR
TSSOP28-EP
ABSOLUTE MAXIMUM RATINGS (1)
Supply Voltage VDD ...................................... 40V
BS Voltage .............. (VSW - 0.3V) to (VSW + 6.5V)
VOTW, VFAULT, VUVP, VTIMER, VEN ....... –0.3V to +6V
VSW ....................................... –0.3V to (VDD + 1V)
VREF, VIN ....................................... –0.3V to +34V
AGND to PGND .......................... –0.3V to +0.3V
(2)
Continuous Power Dissipation (TA = 25°C)
............................................................ 3.9 W
Junction Temperature ............................... 150°C
Lead Temperature ....................................260°C
Storage Temperature .............. –65°C to +150°C
Recommended Operating Conditions
(3)
Supply Voltage VDD .......................... 9.5V to 36V
Operating Junction Temp. (TJ). ...........................
........................................... -40°C to +125°C
MP7770 Rev.1.0
12/4/2012
Thermal Resistance
(4)
θJA
θJC
TSSOP28F-EP ....................... 32 ....... 6.... °C/W
TSSOP28F-EPR ...................... .. ........ 6.... °C/W
The TSSOP28F-EPR is not intended to be used
without a heatsink. Therefore, RθJA of
TSSOP28F-EPR is not specified.
Notes:
1) Exceeding these ratings may damage the device.
2) The maximum allowable power dissipation is a function of the
maximum junction temperature TJ (MAX), the junction-toambient thermal resistance θJA, and the ambient temperature
TA. The maximum allowable continuous power dissipation at
any ambient temperature is calculated by PD (MAX) = (TJ
(MAX)-TA)/θJA. Exceeding the maximum allowable power
dissipation will cause excessive die temperature, and the
regulator will go into thermal shutdown. Internal thermal
shutdown circuitry protects the device from permanent
damage.
3) The device is not guaranteed to function outside of its
operating conditions.
4) Measured on JESD51-7, 4-layer PCB.
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© 2012 MPS. All Rights Reserved.
3
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
ELECTRICAL CHARACTERISTICS (5, 6)
VDD = 24V, VEN = 5V, TA = 25°C, unless otherwise noted.
Parameters
Standby Current
Quiescent Current
SW ON Resistance
Short-Circuit Current
EN Enable Threshold Voltage
EN Enable Input Current
External Under-Voltage
Detection
External Under-Voltage
Detection Hysteresis Voltage
Thermal Shutdown Trip Point (7)
Thermal Shutdown Hysteresis(7)
Thermal Warning Trip Point(7)
Thermal Warning Hysteresis(7)
Symbol Condition
VEN = 0V,REF=IN=Float
IQ
SW=Low
Sourcing and Sinking
Sourcing and Sinking
VEN Rising
VEN Falling
VEN = 5V
VUVP
Min
6.2
0.4
2
VHys
TJ Rising
Typ
120
3
0.1
8.5
1.4
1.0
5
Max
140
4
0.15
2.2
2.4
2.0
Units
µA
mA
Ω
A
V
V
µA
V
0.3
V
150
20
125
10
°C
°C
°C
°C
Notes:
5) The device is not guaranteed to function outside its operating rating.
6) Electrical Characteristics are for the IC only with no external components except bypass capacitors.
7) Not production tested.
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
4
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
OPERATING SPECIFICATIONS (8)
Circuit of Figure 6, Single-Ended Output Configuration; VDD = 34V, Gain=8.2V/V; VEN = 5V, TA =
25°C, unless otherwise noted.
Parameters
Standby Current
Quiescent Current
Power Output
THD + Noise
Efficiency
Maximum Power Bandwidth
Dynamic Range
Noise Floor
Power Supply Rejection
Symbol Condition
VEN = 0V
Switching, no load
f = 1kHz, THD+N = 10%, 4Ω Load
f = 1kHz, THD+N = 1%, 4Ω Load
f = 1kHz, THD+N = 10%, 8Ω Load
f = 1kHz, THD+N = 1%, 8Ω Load
POUT = 1W, f = 1kHz, 4Ω Load
POUT = 1W, f = 1kHz, 8Ω Load
f = 1kHz, POUT = 41W, 4Ω Load
f = 1kHz, POUT = 22W, 8Ω Load
Min
A-Weighted
VRIPPLE=300mVPP
CR=100μF
f = 1k Hz
f = 217 Hz
Typ
120
29
41
32
22
17
0.05
0.03
91
95
20
102
90
-60
-60
Max
Units
μA
mA
W
W
W
W
%
%
%
%
kHz
dB
μV
dB
dB
Circuit of Figure 7, BTL Output Configuration; VDD = 34V, Gain=15V/V; VEN = 5V, TA = 25°C,
unless otherwise noted.
Parameters
Standby Current
Quiescent Current
Power Output
THD+ Noise
Efficiency
Symbol Condition
VEN = 0V
Switching, no load
f = 1kHz, THD+N = 10%, 6Ω Load
f = 1kHz, THD+N = 1%,6Ω Load
POUT = 1W, f = 1kHz, 6Ω Load
POUT = 1W, f = 1kHz, 8Ω Load
f = 1kHz, POUT = 108W, 6Ω Load
f = 1kHz, POUT = 84W, 8Ω Load
Maximum Power Bandwidth
Dynamic Range
Noise Floor
A-Weighted
Power Supply Rejection
VRIPPLE=300mVPP
f = 1k Hz
f = 217 Hz
Min
Typ
120
32
108
83
0.06
0.04
91
95
20
105
120
-60
-60
Max
Units
μA
mA
W
W
%
%
%
%
kHz
dB
μV
dB
dB
Note:
8) Operating Specifications are for the IC in Typical Application circuit (Figure 6 and Figure 7).
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
5
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
PIN FUNCTIONS
EP on Bottom EP on Top
Pin #
Pin #
Name
1
14
OTW
2
13
FAULT
3, 12
3, 12
N/C
4
4
TIMER1
5
5
IN1
6
6
REF1
7
7
AGND1
8
8
AGND2
9
9
REF2
10
10
IN2
11
11
TIMER2
13
2
UVP
14
1
EN
15
15
BST2
16, 17
18, 19
16, 17
18, 19
PGND2
SW2
20, 21
20, 21
VDD2
22, 23
22, 23
VDD1
24, 25
24, 25
SW1
26,27
26,27
PGND1
28
28
BST1
MP7770 Rev.1.0
12/4/2012
Description
Over Temperature Warning. A low output at OTWB indicates that the
die temperature rises above 125°C. This output is open drain.
Fault Output. A low output at FAULT indicates that the IC has detected
an over-temperature or over-current condition. This output is open
drain.
Not Connected.
Internal Timer Input for Amplifier 1. A capacitor from TIMER1 to AGND
sets the internal timer which is used for start-up pop elimination.
Inverting Input for Amplifier 1 .
Internal Analog Reference (VDD/2) for Amplifier 1. For SE
configuration, connect a bypass capacitor from REF1 to AGND (10μF).
Analog Ground for Amplifier 1. Connect AGND1 to AGND2. Connect
PGND to AGND at a single point.
Analog Ground for Amplifier 2. Connect AGND2 to AGND1.
Internal Analog Reference (VDD/2) for Amplifier 2. For BTL
configuration, connect a bypass capacitor from REF2 to AGND (10μF).
Inverting Input for Amplifier 2.
Internal Timer Input for Amplifier 2. Use a capacitor from TIMER2 to
AGND to set the internal timer for start-up pop elimination.
Under-Voltage Protection Reference Input.
Enable Input for Amplifier 1. Drive EN1 high to turn on the Amplifier 1,
low to turn it off.
High-Side MOSFET Bootstrap Input for Amplifier 2. Connect a
capacitor from BST2 to SW2 to supplies the gate drive to the internal
High-Side MOSFET.
Power Ground for Amplifier 2. Connect PGND2 to PGND1.
Switched Power Output for Amplifier 2.
Power Supply Input for Amplifier 2. Bypass VDD2 to PGND2 with a
1μF X7R capacitor (in addition to the main bulk capacitor), placed
close to the VDD2 and PGND2 pins.
Power Supply Input for Amplifier 1. Bypass VDD1 to PGND1 with a
1μF X7R capacitor (in addition to the main bulk capacitor), placed
close to the VDD1 and PGND1 pins.
Switched Power Output for Amplifier 1.
Power Ground for Amplifier 1. Connect PGND1 to PGND2. Connect
PGND to AGND at a single point.
High-Side MOSFET Bootstrap Input for Amplifier 1. A capacitor from
BST1 to SW1 supplies the gate drive current to the internal High-Side
MOSFET.
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© 2012 MPS. All Rights Reserved.
6
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
TYPICAL PERFORMANCE CURVES
Circuit of Figure 6, single-ended output configuration, VDD=34V, VEN=5V, AV=8.2V/V, TA = +25C,
unless otherwise noted.
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
7
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
TYPICAL PERFORMANCE CURVES (continued)
Circuit of Figure 6, single-ended output configuration, VDD=34V, VEN=5V, AV=8.2V/V, TA = +25C,
unless otherwise noted.
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
8
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
TYPICAL PERFORMANCE CURVES (continued)
Circuit of Figure 6, single-ended output configuration, VDD=34V, VEN=5V, AV=8.2V/V, TA = +25C,
unless otherwise noted.
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
9
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
TYPICAL PERFORMANCE CURVES (continued)
Circuit of Figure 7, bridge-tied-load output configuration, VDD=34V, VEN=5V, AV=15V/V, TA =
+25C, unless otherwise noted.
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
10
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
TYPICAL PERFORMANCE CURVES (continued)
Circuit of Figure 7, bridge-tied-load output configuration, VDD=34V, VEN=5V, AV=15V/V, TA =
+25C, unless otherwise noted.
MP7770 Rev.1.0
12/4/2012
www.MonolithicPower.com
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© 2012 MPS. All Rights Reserved.
11
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
FUNCTIONAL BLOCK DIAGRAM
VDD1
REF1
BST1
Reference
VDD
IN1
TIMER1
AAMTM
Modulator
SW1
Control &
Gate Drive
UVP
EN
Control
Processor
PGND1
OTP
OCP
OTW
VDD2
FAULT
BST2
OTW
REF2
VDD
Reference
IN2
TIMER2
AAMTM
Modulator
SW2
Control &
Gate Drive
PGND2
AGND1, 2
Figure 1: Functional Block Diagram
MP7770 Rev.1.0
12/4/2012
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© 2012 MPS. All Rights Reserved.
12
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
OPERATION
The MP7770 is a Class D Audio Amplifier that
drives stereo speakers in single-ended
configuration or a mono speaker in bridge-tiedload configuration. It uses MPS’s patented
Analog Adaptive ModulationTM technology to
convert the audio input signal into pulses.
These pulses drive an internal high-current
output stage and—when filtered through an
external inductor-capacitor filter—reproduce the
input signal across the load. Because of the
switching Class D output stage, power
dissipation in the amplifier is drastically reduced
when compared against Class A, B or A/B
amplifiers, and maintains high fidelity with low
distortion.
REF1 and REF2 are the positive inputs of
two amplifiers. They are set to half the
power supply input voltage (VDD/2) by
internal circuit. The input capacitor
decouples the AC signal at the input.
the
DC
the
CIN
The input resister RIN and the feedback resistor
RFB set the amplifier voltage gain as calculated
by the equation:
AV 
R FB
R IN
Where:
 Channel 1: RFB=RFB1 and RIN=RIN1
 Channel 2: RFB=RFB2 and RIN=RIN2.
The MP7770 includes four high-power
MOSFETs; For each channel, the output driver
stage uses two 100mΩ N-channel MOSFETs to
deliver pulses to the LC output filter to drive the
load. To enhance the high-side MOSFET (HSFET), the gate is driven to a voltage higher than
the source by the bootstrap capacitor between
SW and BS. When the output is low, the
bootstrap capacitor is charged from VDD through
an internal circuit on the MP7770. The gate of
the HS-FET is driven high by the BST voltage,
forcing the MOSFET gate to a voltage higher
than VDD, thus allowing the MOSFET to turn on
and reducing amplifier power loss.
MP7770 Rev.1.0
12/4/2012
Pop Elimination
When used in a single-ended output
configuration, the capacitors COUT1 and COUT2
block the DC signal and pass the AC signals to
the load. To insure that the amplifier only
passes low-frequency signals, the time constant
of COUT*RLOAD is large. However, when EN goes
high, the capacitor charges over a long period
and can result in turn-on/turn-off “pop” In typical
amplifiers.
The MP7770 integrates a source-current
function to charge the DC block capacitors
COUT1 and COUT2 and CIN1 and CIN2 at start-up.
Two internally-generated currents flow to the
SW pin (Iinitialization_SW) and the IN pin (Iinitialization_IN)
during start-up, which helps to eliminate turn-on
pop. The rising/falling slew rate of the SW node
start-up current (Iinitialization_SW) is out of audio
band (means rise and falling gradually), can be
adjusted from the timer capacitor CTIMER and the
voltage of SW node; The larger the CTIMER
capacitance, the smaller the slew rate of the
Iinitialization_SW.
After driving the EN pin low, the output SW
immediately switches to high impedance to
eliminate turn-off pop.
Short Circuit/Overload Protection and
Monitoring
The MP7770 is fully-protected against overcurrent and thermal overload conditions as
explained below and \shown in Figure2.
Short Circuit/Overload Protection
The MP7770 has internal overload and shortcircuit protection. The currents in both the highside and low-side MOSFETs (LS-FETs) are
measured and if the current exceeds the short
circuit current limit (typically 8A), both
MOSFETs will be turned off for a fixed duration
(around 1ms) before resuming normal operation.
After the fixed duration and the short circuit
condition is removed, the MP7770 will restart
with the start-up sequence that is used for
normal starting to prevent a pop from occurring.
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© 2012 MPS. All Rights Reserved.
13
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
Over-Temperature Shutdown
Thermal monitoring is also integrated into the
MP7770. If the die temperature rises above
150°C, all switches turn off. The temperature
must fall below 130°C before normal operation
resumes, with the same power-up sequence
used to prevent popping noise.
Over-Temperature Warning Output
The MP7770 includes an open drain, active low
fault indicator output to act as an overtemperature warning (OTW). The OTW pin is
asserted when the die temperature reaches
125°C and goes low until the temperature drops
below 115°C.
Do not apply more than 6V to the OTW pin.
Fault Output
The MP7770 includes an open drain, active low
fault indicator output on the FAULTB pin. A fault
triggers if either the current limit or thermal
shutdown is tripped.
A fault on any channel will cause the FAULTB
pin to pull low. A fault on either channel will
cause the all outputs to go into high impedance.
When the fault goes away, the MP7770 will
resume normal operation.
Normal Operation
No
Overcurrent
detected?
No
No
TEMP>125 °C
？
TEMP>150 °C
？
Yes
Yes
Yes
Disable output,
Fault =L
OTW =L
Disable output ,
Fault =L
No
No
Around 1ms
time out
finished?
Yes
Meet restart
condition (start
up sequence )?
No
No
TEMP<115 °C
？
TEMP<130 °C
？
Yes
Yes
OTW=H
No
Meet restart
condition (start
up sequence)?
Yes
Yes
Enable output ,
Fault=H
Enable output ,
Fault =H
Figure 2: Fault Timing Chart
Do not apply more than 6V to the FAULTB pin.
MP7770 Rev.1.0
12/4/2012
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© 2012 MPS. All Rights Reserved.
14
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
Enable Function
The MP7770 EN input is an active-high–enable
control. To enable the MP7770, drive EN with a
voltage 2.0V or higher; to disable the amplifier,
drive it below 0.4V. While the MP7770 is
disabled, the VDD operating current is around
250μA and the output driver MOSFETs are
turned off.
Programmable UVP
MP7770 integrate programmable UVP function,
which can be used to shutdown the MP7770 to
escape the pop, by controlling the UVP node
voltage. The VDD shutdown voltage can be
flexibly adjusted by the external resistor, as
shown in the figure 3.
R H_internal
UVP
+
RL_internal
RL
+2.2V
The
thermally-augmented
TSSOP-EPR
package with the exposed pad on top is
designed to interface directly with heat sinks
using a thermal interface compound. The heat
sink then absorbs heat from the ICs and
couples it to the local air. If louvers or fans are
used, this process can reach equilibrium and
heat can be continually removed from the ICs.
Because of the efficiency of the MP7770, heat
sinks can be smaller than those required for
linear amplifiers.
The TSSOP28-EPR is not intended for use
without a heatsink. For cases without a heatsink,
please use the TSSOP28-EP with the exposed
pad on the bottom.
VDD
RH
Thermal Information
The MP7770 is available in a thermallyenhanced TSSOP28 package. The user can
choose between two package options, with the
exposed pad on top or bottom.
-
AGND
Figure 3: UVP Block Diagram
If external resistor RH and RL is low enough (e.g.
RH, RL < 50kΩ) compared with internal resistor,
the VDD shutdown voltage (rising threshold)
can be calculated by the equation:
VVDD _ shutdown  2.2 *
(RH  RL )
RL
If the UVP pin is NC, the default VDD shutdown
voltage (rising threshold) is 8.4V since there is
internal voltage divided circuit.
For example, please see the table 1 for
recommended UVP setting for reduce the
power off pop.
Table 1
VDD
(V)
12
24
36
VDD_shutdown
(V)
8.6
19
26
MP7770 Rev.1.0
12/4/2012
RH
RL
15k
39k
56k
5.1k
5.1k
5.1k
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15
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
APPLICATION INFORMATION
Component Selection
The MP7770 uses a minimal number of external
components to complete a stereo SE or mono
BTL Class D audio amplifier. The circuit in Figure
6 (stereo SE application circuit) and Figure 7
(mono BLT application circuit) are optimized for a
24V power supply. This circuit should be suitable
for most applications. Use the following sections
to design custom circuits.
Setting the Voltage Gain
The maximum output-voltage swing is
the power supply. To achieve the
output power, set the gain such
maximum input signal results in the
output voltage swing.
Table 2: Switching Frequency Setting For SE
Output Configuration
VDD Gain RFB RIN
(V) (V/V) (kΩ) (kΩ)
limited by
maximum
that the
maximum
For a single-ended (SE) output configuration, the
maximum output voltage VOUT(PK) is VDD/2. For a
bridge-tied-load (BTL) output configuration, the
maximum output voltage VOUT(PK) is VDD. For a
given input signal voltage, where VIN(PK) is the
peak input voltage, the maximum voltage gain is:
A V (MAX) 
greater than 50kHz plus the left channel’s
switching frequency by using a different timing
capacitor CINT. For details, refer to the Table 2 for
recommended SE output configuration design,
and Table 3 for recommended BTL output
configuration design.
VOUT(PK )
VIN(PK )
This voltage-gain setting results in the peak
output voltage approaching its maximum for the
maximum input signal. In some cases the
amplifier is allowed to overdrive slightly, allowing
the THD to increase at high power levels, and so
a higher gain than AV (max) is required.
Left
Right
channel
channel
CINT1 FSW1 CINT2 FSW2
(nF) (kHz) (nF) (kHz)
12
10
100
10
2.2
635
1.8
705
12
20
100
4.99
2.2
635
1.8
705
24
10
75
7.5
5.6
700
4.7
740
24
20
150
7.5
2.2
780
2.7
665
30
10
51
5.1
8.2
780
10
680
30
20
150
7.5
3.3
710
2.7
780
30
30
150
4.99
3.3
710
2.7
780
34
10
51
5.1
10
785
12
610
34
20
100
4.99
4.7
780
5.6
740
34
30
150
4.99
3.9
700
3.3
775
Table 3: Switching Frequency Setting for BTL
Output Configuration
VDD Gain RFB RIN
(V) (V/V) (kΩ) (kΩ)
CINT1 FSW1
(nF) (kHz)
12
10
100
10
2.2
435
Setting the Switching Frequency
12
20
100
4.99
2.2
435
The idle switching frequency (the switching
frequency when no audio input is present) is a
function of several variables: The supply voltage
VDD, the integral capacitor CINT and the feedback
resistor RFB. Lower switching frequencies result
in greater inductor ripple, causing more quiescent
output voltage ripple, and increasing the output
noise
and
distortion.
Higher
switching
frequencies result in greater power loss. The
optimum quiescent switching frequency is
approximately 600kHz. When used to drive
stereo speakers in single-ended configuration,
set right channel to an idle switching frequency
12
30
150
4.99
1.0
440
24
10
100
10
3.3
490
24
20
100
4.99
2.2
570
24
30
150
4.99
1.5
480
30
10
100
10
2.2
465
30
20
100
4.99
3.3
535
30
30
150
4.99
2.2
450
34
10
100
10
3.3
560
34
20
100
4.99
3.3
560
34
30
150
4.99
2.2
470
MP7770 Rev.1.0
12/4/2012
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MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
Choosing the Output LC Filter
The inductor-capacitor (LC) filter converts the
pulses at SW to the output voltage that drives
the speaker. There are two kinds of LC filter
structure depending on the output configuration.
COUT
LF
SW1/2
CF
RLOAD
Figure 4: SE Filter Configuration
LF1
SW1
CY1
CY2
SW2
CX
RLOAD
LF2
Figure 5: BTL Filter Configuration
Where:
LF  LF1  LF2 ,
CF  C X 
CY1  CY2
,
CY1  CY2
LF1  LF2 ;
CY1  CY2
The characteristic frequency of the LC filter
needs to be high enough to allow high
frequency audio to the output, yet needs to be
low enough to filter out high frequency products
of the pulses from the SW pin. The
characteristic frequency of the LC filter is:
f0 
1
2    LF  CF
The quality factor (Q) of the LC filter is important:
If this is too low, output noise will increase; if this
is too high, then peaking may occur at high
frequencies and reduce the passband flatness.
The circuit Q is set by the load resistance
(speaker resistance, typically 4Ω or 8Ω). Q is
calculated as:
Q
MP7770 Rev.1.0
12/4/2012
RLOAD
RLOAD

0  LF 2  f0  LF
0 is the characteristic frequency in
radians/second and f0 is in Hz. Use an LC filter
with Q between 0.7 and 1.
The type of inductor and capacitor used in the
LC filter.greatly affects the output ripple and
noise. Use a film capacitor and an inductor with
sufficient power rating to supply the output
current to the load. The inductor must exhibit soft
saturation characteristics: If the inductor exhibits
hard saturation, it should operate well below the
saturation current. Use toroidal cores made of
gapped ferrite, MPP, powdered iron, or similar
materials. If using either an open or shielded
bobbin ferrite core for multi-channel designs,
make sure that the start windings of each
inductor align (all starting toward the SW pin, or
all starting toward the output) to prevent
crosstalk
or
other
channel-to-channel
interference.
Output Coupling Capacitor for SE Output
The output AC coupling capacitor—COUT—
serves to pass only the amplified AC signal
from the LC filter to the load and to block DC
signals. The combination of the coupling
capacitor, COUT and the load resistance results
in a first-order high-pass filter. Select COUT so
that the required minimum frequency passes.
The output corner frequency (-3dB point), fOUT,
can be calculated as:
f OUT 
1
2    R LOAD  C OUT
Set the output corner frequency (fOUT) at or
below the minimum required frequency.
The output coupling capacitor carries the full
load current, so chose a capacitor such that its
ripple current rating is greater than the
maximum load current. Use low-ESR aluminum
electrolytic capacitors for best results.
Input Coupling Capacitor
The input coupling capacitors CIN1 and CIN2
pass only the AC signal at the input. For a
typical system application, the source input
signal centers around the circuit ground, while
the MP7770 input is at half the power supply
voltage (VDD/2). The input coupling capacitor
transmits the AC signal from the source
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MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
to the MP7770 while blocking the DC voltage.
Choose an input coupling capacitor such that
the corner frequency (fIN) is less than the
passband frequency. The corner frequency is
calculated as:
fIN 
1
2    RIN  CIN
Timer capacitor
The start-up source current slew rate is
adjusted from the timing capacitor, CTIMER: The
larger the CTIMER capacitance is, the smaller the
start-up current slew rate is. Select a CTIMER
value larger than 312nF, so the start-up current
slew rate would be smaller than 20mA/50ms
which helps eliminate the turn-on pop. The
recommended 2.2μF capacitor CTIMER results in
a start-up current slew rate of approximately
20mA/350ms.
Power Source
For maximum output power, the amplifier circuit
requires a regulated external power source. A
high power-supply voltage can deliver more
power to a given load resistance, but a powersource voltage exceeding the maximum voltage
of 36V can damage the MP7770. The
MP7770’s power supply rejection is excellent,
though power-supply noise can pass to the
output, so care must be taken to minimize
power supply noise within the pass-band
frequencies. Bypass the power supply with a
large capacitor (typically aluminum electrolytic)
along with a smaller 1μF ceramic capacitor at
the MP7770 VDD supply pins.
PCB Layout
Circuit layout is critical for optimal performance,
low output distortion, and noise. Duplicate the
EVB layout for best results. For layout changes,
follow these guidelines and use Figure 8 as SE
layout references, use Figure 9 as BTL layout
reference.
Bootstrap Capacitors
CBS1 and CBS2 supply the gate drive current to
the internal HS-FET. Place CBS1 as close to
BST1/2 pin and SW1/2 pin as possible.
Likewise, place CBS2 as close to BST2 pin and
SW2 pins as possible.
Power Supply Bypass Capacitors
CBYP1 and CBYP2 carry the transient current for
the switching power stage. To avoid
overstressing the MP7770 and excessive
output noise, place CBYP1 as close to the VDD1
pins and PGND1 pins as possible, and place
CBYP2 as close to the VDD2 pins and PGND2
pins as possible.
Integral Capacitors
CINT sets the amplifier switching frequencies
and are typically on the order of a few nF. Place
the integral capacitor CINT as close to the
corresponding input as possible to reduce
distortion and noise. For example, place CINT1
as close to pins 2 and 3 as possible at SE
output configuration.
Reference Bypass Capacitors for SE Output
When used with SE output, CR1 and CR2 filter
the ½ VDD reference voltages. Place CR1 and
CR2 as close to the IC as possible to improve
power supply rejection and reduce distortion
and noise at the output.
2) The Inductor-Capacitor (LC) filter converts
the pulse train at SW to the output voltage that
drives the speaker. Please keep the filter
capacitor close to the inductor.
3) Keep the sensitive feedback signal trace on
the input side and shield the trace with the
AGND plane. Make sure that any traces
carrying the switch node (SW) voltages are
routed far from any input signal traces. If the
trace must run near the SW trace near the
input, shield the input with a ground plane
between the traces. Physically separate each
channel
to
1) Place the following components as close to
the MP7770 as possible:
MP7770 Rev.1.0
12/4/2012
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MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
prevent crosstalk. Make sure that all inductors
used on a single circuit board have the same
orientation.
Route each power supply from the source to
each channel individually, not serially. This
prevents channel-to-channel coupling through
the power supply input.
Electro-Magnetic Interference (EMI)
Considerations
Due to the switching nature of Class D
amplifiers, care must be taken to minimize the
effects of electromagnetic interference from the
amplifier. However, proper component selection
and careful attention to circuit layout can
minimize the effects of the EMI due to the
amplifier switching.
The power inductors are a potential source of
radiated emissions. For the best EMI
performance, use toroidal inductors, since the
magnetic field is well-contained inside the core.
However toroidal inductors can be expensive to
wind. For a more economical solution, use
shielded-gapped–ferrite or shielded-ferritebobbin-core inductors. These inductors typically
do not contain the EM field as well toroidal
inductors, but can achieve a better balance
between good EMI performance with low cost.
The size of high-current loops that carry rapidly
changing currents must be minimized: Make
sure that the VDD bypass capacitors are as
close to the MP7770 as possible.
Nodes that carry rapidly changing voltage, such
as SW, need to be made as small as possible.
If sensitive traces run near a trace connected to
SW, place a ground shield between the traces.
MP7770 Rev.1.0
12/4/2012
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MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
TYPICAL APPLICATION CIRCUITS
CFB1
RFB1
CIN1
6
CR1
REF1
CINT1
RIN1
CH1
INPUT
5
4
BST1
28
IN1
C
TIMER1
SW1
24,25
11
CF1
TIMER2
MP7770
CIN2
9 REF2
CR2
10
CH2
INPUT
13
FAULT
SW2
IN2
VDD1
FAULT
PGND1
14 OTW
1
EN
OTW
EN
VDD2
7,8 AGND2
2
BST2
C
CINT2
RIN2
PGND2
CH1
OUTPUT
15
LF2
COUT2
18,19
22,23
CF2
VDD
CBYP1
26,27
CVDDBYP
1000
CH2
OUTPUT
20,21
CBYP2
16,17
UVP
RFB2
CFB2
Figure 6: 24V VDD Stereo SE Typical Application Circuit
CFB1
22pF
5
6
4
IN1
14
OTW
22, 23
U1
BST1
28
REF1
SW1 24, 25
TIMER1
1 EN1
EN
PGND1
26, 27
MP7770
OTW
2 UVP
11
BST2
9 REF2
INPUT-
10 IN2
CFBX2
2pF
7
SW1
SP-
15
SP+
SW2
TIMER2
SW2
AGND2
VCC
RSN1
10
CSN1
390pF
50V
13 FAULT
FAULT
AGND1
CINT
2.2nF
VDD2
SW2
CFBX1
2pF
INPUT+
VDD1
20, 21
VCC
8
PGND2
18, 19
16, 17
RSN2
10
CSN2
390pF
50V
SW1
CFB2
22pF
Figure 7: 24V VDD Mono BTL Typical Application Circuit
MP7770 Rev.1.0
12/4/2012
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MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
COUT1
CF1
CFB1
RIN1
RFB1
CINT1
CR1
CR2
RIN2
CINT2
1
EN
BST1
28
2
UVP
PGND1
27
3
NC
PGND1
26
4
TIMER1
SW1
25
5
IN1
SW1
24
REF1
VDD1
23
7
AGND1
VDD1
22
8
AGND2
VDD2
21
9
REF2
VDD2
20
10
IN2
SW2
11
TIMER2
SW2
19
18
12
NC
PGND2
17
13
FAULT
PGND2
16
14
OTW
BST2
15
6
CBS1
LF1
CBYP1
FB1
CVDDBYP
FB2
CBYP2
LF2
CBS2
MP7770
RFB2
CFB2
CF2
AGND
PGND
AGND
COUT2
Top
PGND
Bottom
Figure 8: Stereo SE Reference PCB Layout
CFB1
RFB1
CFBX1
CIN2
RIN2
CINT2
28
PGND1
27
3
NC
PGND1
26
4
TIMER1
SW1
25
5
IN1
SW1
24
6
REF1
VDD1
23
7
AGND1
VDD1
22
8
AGND2
VDD2
21
9
REF2
VDD2
20
10
IN2
SW2
11
TIMER2
SW2
19
18
12
NC
PGND2
17
13
FAULT
PGND2
16
14
OTW
BST2
15
CFBX2
CBS1
CBYP1
LF1
FB1
CY1
BST1
UVP
CX
RIN1
EN
2
FB2
LF2
CBYP2
CY2
CINT1
CIN1
1
CBS2
MP7770
CVDDBYP
RFB2
CVDDBYP
CFB2
AGND
PGND
Top
Bottom
Figure 9: Mono BTL Reference PCB Layout
MP7770 Rev.1.0
12/4/2012
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21
MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
PACKAGE INFORMATION
TSSOP28-EP
PACKAGE OUTLINE DRAWING FOR 28-TSSOP w/ EXPOSED PADDLE
MF-PO-D-0055 revision 2.0
6.00
TYP
9.60
9.80
0.65
BSC
0.40
TYP
28
15
1.60
TYP
4.30
4.50
PIN 1 ID
3.20
TYP
6.20
6.60
14
1
TOP VIEW
RECOMMENDED LAND PATTERN
0.80
1.05
1.20 MAX
SEATING PLANE
0.19
0.30
0.65 BSC
0.00
0.15
0.09
0.20
SEE DETAIL " "
FRONT VIEW
SIDE VIEW
GAUGE PLANE
0.25 BSC
5.40
5.90
0o-8o
2.60
3.10
BOTTOM VIEW
MP7770 Rev.1.0
12/4/2012
5.80
TYP
0.45
0.75
NOTE :
1) ALL DIMENSIONS ARE IN MILLIMETERS.
2) PACKAGE LENGTH DOES NOT INCLUDE MOLD FLASH
,
PROTRUSION OR GATE BURR.
3) PACKAGE WIDTH DOES NOT INCLUDE INTERLEAD FLASH
OR PROTRUSION.
4) LEAD COPLANARITY(BOTTOM OF LEADS AFTER FORMING)
SHALL BE 0.10 MILLIMETERS MAX.
5) DRAWING CONFORMS TO JEDEC MO-153, VARIATION AET.
6) DRAWING IS NOT TO SCALE.
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MP7770 –2 X 45W STEREO SE OR 90W MONO BTL CLASS D AUDIO AMPLIFIER
TSSOP28-EPR
PACKAGE OUTLINE DRAWING FOR 28-TSSOP w/ REVERSE EXPOSED PADDLE
MF-PO-D-0XXX preliminary
9.60
9.80
5.40
5.90
28
0.65
BSC
0.40
TYP
15
2.60
3.10
PIN 1 ID
1
1.60
TYP
4.30
4.50
5.80
TYP
6.20
6.60
14
TOP VIEW
RECOMMENDED LAND PATTERN
0.80
1.05
1.20 MAX
SEATING PLANE
0.19
0.30
0.65 BSC
0.00
0.15
0.09
0.20
SEE DETAIL " "
FRONT VIEW
SIDE VIEW
GAUGE PLANE
0.25 BSC
0o-8o
0.45
0.75
NOTE :
BOTTOM VIEW
1) ALL DIMENSIONS ARE IN MILLIMETERS.
2) PACKAGE LENGTH DOES NOT INCLUDE MOLD FLASH
,
PROTRUSION OR GATE BURR.
3) PACKAGE WIDTH DOES NOT INCLUDE INTERLEAD FLASH
OR PROTRUSION.
4) LEAD COPLANARITY(BOTTOM OF LEADS AFTER FORMING)
SHALL BE 0.10 MILLIMETERS MAX.
5) JEDEC REFERENCE IS MO-153.
6) DRAWING IS NOT TO SCALE.
NOTICE: The information in this document is subject to change without notice. Please contact MPS for current specifications.
Users should warrant and guarantee that third party Intellectual Property rights are not infringed upon when integrating MPS
products into any application. MPS will not assume any legal responsibility for any said applications.
MP7770 Rev. 1.0
12/4/2012
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23