IRAUDAMP12 [INFINEON]
130W/4 x 2 Channel Class D Audio Power Amplifier;型号: | IRAUDAMP12 |
厂家: | Infineon |
描述: | 130W/4 x 2 Channel Class D Audio Power Amplifier |
文件: | 总26页 (文件大小:628K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
IRAUDAMP12
130W/4Ω x 2 Channel Class D Audio Power Amplifier
Using the IR4301
By
Jun Honda, Liwei Zheng
CAUTION:
International Rectifier suggests the following guidelines for safe operation and
handling of IRAUDAMP12 Demo board;
Always wear safety glasses whenever operating Demo Board
Avoid physical contact with exposed metal surfaces when operating Demo
Board
Turn off Demo Board when placing or removing measurement probes
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Page 1 of 26
IRAUDAMP12 REV 1.1
TABLE OF CONTENTS ........................................................ PAGE
INTRODUCTION.................................................................................................................3
SPECIFICATIONS ..............................................................................................................3
CONNECTOR DESCRIPTION............................................................................................5
TEST PROCEDURES.........................................................................................................6
PERFORMANCE AND TEST GRAPHS.............................................................................7
THERMAL INFORMATION ..............................................................................................13
SCHEMATIC.....................................................................................................................18
BILL OF MATERIALS ......................................................................................................20
PCB SPECIFICATIONS....................................................................................................22
REVISION CHANGES DESCRIPTIONS ..........................................................................26
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Page 2 of 26
IRAUDAMP12 REV 1.1
Introduction
The IRAUDAMP12 reference design is a two-channel, 130W/ch (4Ω/±31V; no heatsink)/ 160W/ch
(4Ω/±34V; *with heatsink) half-bridge Class D audio power amplifier. This reference design
demonstrates how to use the IR4301 IC, implement protection circuits, and design an optimum PCB
layout using PowIRaudio integrated Class D IC. This reference design does not require heatsink or
fan cooling for normal operation (one-eighth of continuous rated power).The reference design
provides all the required housekeeping power supplies for ease of use. The two-channel design is
scalable for power and the number of channels.
Applications
AV receivers
Home theater systems
Mini component stereos
Powered speakers
Sub-woofers
Musical Instrument amplifiers
Car audio amplifiers
Features
Output Power:
130W x 2 channels (10%THD+N 4Ω load; no heatsink),
160W x 2 channels (10%THD+N 4Ω load; *with heatsink),
Over-current protection (OCP), high side and low side
Over-voltage protection (OVP),
Multiple Protection Features:
Under-voltage protection (UVP), high side and low side
DC-protection (DCP),
Over-temperature protection (OTP)
PWM Modulator:
Self-oscillating half-bridge topology with optional clock
synchronization
Specifications
General Test Conditions (unless otherwise noted)
Notes / Conditions
Bipolar power supply; without heatsink
Bipolar power supply; *with heatsink
Resistive load
No input signal, Adjustable
1Vrms input yields rated power
±15V~±31V
Supply Voltages
±15V~±34V
Load Impedance
Self-Oscillating Frequency
Gain Setting
4-2Ω
400kHz
26dB
Electrical Data
IR Devices Used
Modulator
Typical
Notes / Conditions
IR4301 PowIRaudio integrated Class D IC
Self-oscillating, second order sigma-delta modulation, analog input
100W
130W
80W
95W
55W
70W
1kHz, 4Ω load, without heatsink
1kHz, 4Ω load, *with heatsink
1kHz, 3Ω load, without heatsink
1kHz, 3Ω load, *with heatsink
1kHz, 2Ω load, without heatsink
1kHz, 2Ω load, *with heatsink
Output Power CH1-2: (1% THD+N)
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Page 3 of 26
IRAUDAMP12 REV 1.1
130W
160W
100W
120W
70W
1kHz, 4Ω load, without heatsink
1kHz, 4Ω load, *with heatsink
1kHz, 3Ω load, without heatsink
1kHz, 3Ω load, *with heatsink
1kHz, 2Ω load, without heatsink
1kHz, 2Ω load, *with heatsink
Resistive load
No input signal
No input signal
THD+N @ 50W, 4Ω
IHF-A weighted, AES-17 filter
Output Power CH1-2: (10% THD+N)
90W
4-2Ω
Rated Load Impedance
Idling Supply Current
Total Idle Power Consumption
Distortion
Residual Noise
Channel Efficiency
±80mA
4W
0.02%
250V
96%
Single-channel driven, 130W/*160W(*
with heatsink), Class D stage
*Tested with heatsink from Digikey, part#:294-1085-ND with thermal pad BER161-ND
Connection Setup
15V~31V*, 5A DC supply
15V~31V*, 5A DC supply
* With heatsink Power supply
can go up to +/-34V
250W, Non-inductive Resistors
4 Ohm
4 Ohm
SW1:PWM Shutdown/MUTE
G
J3
J4
S1
CH1
CH2
J7
Output
Output
J9
IR4301
Protection
Normal
J8
J6
J5
S2
S3
CH1
CH2
Input
Input
R113
Volume
Audio Signal Generator
Figure 1 Typical Test Setup
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Page 4 of 26
IRAUDAMP12 REV 1.1
Connector Description
CH1 IN
CH2 IN
J6
J5
J7
J3
J4
J8
J9
Analog input for CH1
Analog input for CH2
Positive and negative supply (+B / -B)
Output for CH1
Output for CH2
External clock sync
POWER
CH1 OUT
CH2 OUT
EXT CLK
DCP OUT
DC protection relay output
Audio Precision-Setup
IRAUDAMP12 and Audio Precision shall be connected according to the Figureure below:
A
B
Audio Precision
A
B
Bal inputs
Gen
+
-
+
-
4 Ohms
4 Ohms
Power Supply
+/-31V*
* With heatsink Power supply
can go up to +/-34V
+
-
+
G
-
+
-
CH1
CH2
IR4301_DB
CH1
CH2
AMP12
Figure 2
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Page 5 of 26
IRAUDAMP12 REV 1.1
Test Procedures
Test Setup:
1. Connect 4-250 W dummy loads to output connectors (J3 and J4 as shown on
Figure 1) and parallel it with input of Audio Precision analyzer (AP).
2. Connect Audio Signal Generator to J6 and J5 for CH1 and CH2 respectively (Ap).
3. Set up the dual power supply with voltages of ±15V~±31V (up to ±34V with
heatsink); set current limit to 5A.
4. Set switch S1 to middle position (self oscillating).
5. Set volume level knob R130 fully counter-clockwise (minimum volume).
6. Connect the dual power supply to J7. as shown on Figure 1
Power up:
7. Turn ON the dual power supply. The ±B supplies must be applied and removed at
the same time.
8. Red LED (Protection) should turn on almost immediately and turn off after about 3s.
9. Green LED (Normal) then turns on after red LED is extinguished and should stay on.
10. Quiescent current for the positive supply should be 60mA 10mA at +31V.
11. Quiescent current for the negative supply should be 80mA 10mA at –31V.
12. Push S3 switch (Trip and Reset push-button) to restart the sequence of LEDs
indicators, which should be the same as noted above in steps 9-10.
Functionality Audio Tests:
13. Apply 1V RMS at 1kHz sinusoidal signal from the Audio Signal Generator.
14. Turn control volume up (R130 clock-wise) to obtain an output reading of 250Watts.
15. For all subsequent tests as shown on the Audio Precision graphs below (Figure 3-
Figure7), the measurements are taken across J3 and J4 with an AES-17 Filter.
Observe that a 1 VRMS input generates an output around THD+N=1% power level.
16. Sweep the audio signal voltage from 15 mVRMS to 1 VRMS
.
17. Monitor the output signals at J3/J4 with an oscilloscope. The waveform must be a
non distorted sinusoidal signal with input signal below 1Vrms.
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Page 6 of 26
IRAUDAMP12 REV 1.1
Performance and Test Graphs
Power vs THD+N
Test Conditions:
VBus = ± 31V
Input Signal = 1 KHz
Load Impedance = 4 ohms
Set Gain = 1% clipping 100W
THD+N vs Power: Adjust pot level to 100Woutput with 1V rms level input
10
5
1
0.5
0.1
%
0.05
0.02
0.01
0.002
0.001
100m 200m
500m
1
2
5
10
20
50
100 200
W
Sweep Trace Color
Line Style Thick Data
Axis Comment
1
1
1
3
Blue
Magenta Solid
Solid
2
2
Anlr.THD+N Ratio Left
Anlr.THD+N Ratio Left
CH1 - 4 Ohms
CH2 - 4 Ohms
Figure 3
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Page 7 of 26
IRAUDAMP12 REV 1.1
Test Conditions:
VBus = ± 25V
Input Signal = 1 KHz
Load Impedance = 3 ohms
Set Gain = 1% clipping 90W
THD+N vs Power: Adjust pot level to 90Woutput with1Vrms level input
10
5
1
0.5
0.1
%
0.05
0.02
0.01
0.002
0.001
100m
200m
500m
1
2
5
10
20
50
100
W
Sweep Trace Color
Line Style Thick Data
Axis Comment
1
1
1
3
Blue
Magenta Solid
Solid
2
2
Anlr.THD+N Ratio Left
Anlr.THD+N Ratio Left
CH1 - 3 Ohms
CH1 - 3 Ohms
Figure 4
Test Conditions:
VBus = ± 17V
Input Signal = 1 KHz
Load Impedance = 2 ohms
Set Gain = 1% clipping 55W
THD+Nvs Power:Adjustpotlevel to 55Wouputwith1Vrms level input
10
5
1
0.5
0.1
%
0.05
0.02
0.01
0.002
0.001
100m
200m
500m
1
2
5
10
20
50
100
W
Sweep Trace Color
Line Style Thick Data
Axis Comment
1
1
1
3
Cyan
Yellow Solid
Solid
2
2
Anlr.THD+N Ratio Left
Anlr.THD+N Ratio Left
CH1 - 2 Ohms
CH2 - 2 Ohms
Figure 5
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Page 8 of 26
IRAUDAMP12 REV 1.1
Power vs THD+N (with heatsink)
Test Conditions:
VBus = ± 34V
Input Signal = 1 KHz
Load Impedance = 4 ohms
Set Gain = 1% clipping 130W
10
5
2
1
0.5
0.2
0.1
%
0.05
0.02
0.01
0.005
0.002
0.001
100m
200m
500m
Color
1
2
5
10
20
50
100
200
W
Sweep
Trace
Line Style
Thick
Data
Axis
Comment
1
1
1
3
Red
Blue
Solid
Solid
2
2
S2.Anlr.THD+N Ratio
S2.Anlr.THD+N Ratio
Left
Left
CH1 4ohm 34V
CH2 4ohm 34V
Figure 6
Test Conditions:
VBus = ± 27V
Input Signal = 1 KHz
Load Impedance = 3 ohms
Set Gain = 1% clipping 95W
10
5
2
1
0.5
0.2
0.1
%
0.05
0.02
0.01
0.005
0.002
0.001
100m
200m
500m
1
2
5
10
20
50
100
200
W
Sweep
Trace
Color
Line Style
Thick
Data
Axis
Comment
5
5
1
3
Red
Blue
Solid
Solid
2
2
S2.Anlr.THD+N Ratio
S2.Anlr.THD+N Ratio
Left
Left
CH1 3ohm 27V
CH2 3ohm 27V
Figure 7
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Page 9 of 26
IRAUDAMP12 REV 1.1
Test Conditions:
VBus = ± 19V
Input Signal = 1 KHz
Load Impedance = 2 ohms
Set Gain = 1% clipping 70W
10
5
2
1
0.5
0.2
0.1
%
0.05
0.02
0.01
0.005
0.002
0.001
100m
200m
500m
Color
1
2
5
10
20
50
100
200
W
Sweep
Trace
Line Style
Thick
Data
Axis
Comment
1
1
1
3
Red
Blue
Solid
Solid
2
2
S2.Anlr.THD+N Ratio
S2.Anlr.THD+N Ratio
Left
Left
CH1 2ohm 19V
CH2 2ohm 19V
Figure 8
Frequency Response
Test Conditions:
VBus = ± 31V, 25V, 17V
Set Output = 1V
Load Impedance = 4, 3, 2 ohms
+4
T
T
+2
+0
-2
d
B
r
-4
A
-6
-8
-10
20
50
100
200
500
1k
2k
Hz
5k
10k
20k
50k
100k 200k
Sweep Trace Color
Line Style Thick Data
Axis Comment
1
3
4
1
1
1
Cyan
Yellow Solid
Red Solid
Solid
2
2
2
Anlr.Level A Left
Anlr.Level A Left
Anlr.Level A Left
Ch2 2ohm +-17V
Ch2 4ohm +-31V
Ch2 3ohm +-25V
Figure 9
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Page 10 of 26
IRAUDAMP12 REV 1.1
Noise Floor
Test Conditions:
VBus = ± 31V
Load Impedance = 4 ohms
Set Gain = 1% clipping
No Input Signal
+20
+0
-20
-40
d
B
V
-60
-80
-100
-120
-140
10
20
50
100
200
500
Hz
1k
2k
5k
10k
20k
Sweep Trace Color Line Style Thick Data
Axis Comment
1
1
1
2
Red
Blue
Solid
Solid
1
1
Fft.Ch.1 Ampl Left
Fft.Ch.2 Ampl Left
Ch1
Ch2
Figure 10
Noise Floor with 1Vrms Output
Test Conditions:
VBus = ± 31V
Output = 1Vrms @ 1 KHz
Load Impedance = 4 ohms
Set Gain = 1% clipping
+0
-20
-40
d
B
-60
V
-80
-100
10
20
50
100
200
500
Hz
1k
2k
5k
10k
20k
Sweep
Trace
Color
Line Style Thick
Data
Axis
Comment
1
1
1
2
Magenta
Red
Solid
Solid
1
1
Fft.Ch.1 Ampl
Fft.Ch.2 Ampl
Left
Left
Ch1 4ohm
Ch2 4ohm
Figure 11
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Page 11 of 26
IRAUDAMP12 REV 1.1
Efficiency
100.0%
90.0%
80.0%
70.0%
60.0%
50.0%
40.0%
30.0%
20.0%
10.0%
0.0%
Amp12 +/-31V 4ohms
0
20
40
60
80
100
120
140
160
Power (W)
Figure 12
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Page 12 of 26
IRAUDAMP12 REV 1.1
Thermal Information
1) 1/8 Po Thermal information for IRAUDAMP12
Conditions:
Tamb=25°C natural convection cooling
Both Channel Driven 1/8Po continuous 30minus
Temperature measured by INFRARED Camera
Measuring temperature point:
IR4301’s temperature saturated ≤85°C within 30minutes
Figure 13
load impedance
1/8 Power(W)
12.5
THD=1% power(W)
THD=10% power(W)
100
*130
80
130
*160
100
*120
70
4Ω load
*16.25
10
3Ω load
2Ω load
*11.875
6.375
*95
55
*11.125
*70
*90
*With heatsink (Digikey part#:294-1085-ND)
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Page 13 of 26
IRAUDAMP12 REV 1.1
2) Peak Power duration (no heatsink)
Test conditions:
Vbus=+/-31V for 4 ohms, 25V for 3 ohms, 17.0V for 2 ohms
1kHz sine wave signal input ; Both channels driven
Fsw=400kHz
Test results:
350
300
250
200
150
100
50
+/-31V 4-ohm BCD No Htsnk
w/ OTP triggering
0
Output Power (W) / CH
Figure 14
300
250
200
150
100
50
+/-25V 3-ohm BCD No Htsnk
w/ OTP triggering
0
Output Power (W) / CH
Figure15
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Page 14 of 26
IRAUDAMP12 REV 1.1
340
320
300
280
260
240
220
200
180
160
140
120
100
80
+/-17V 2-ohm BCD No Htsnk
w/ OTP triggering
60
40
20
0
Output Power (W) / CH
Figure 16
3) Peak Power duration (with heatsink)
Test conditions:
Vbus=+/-34V for 4 ohms, 27V for 3 ohms, 19V for 2 ohms
1kHz sine wave signal input ; Both channels driven
Test results:
1000
900
800
700
600
500
400
300
200
100
0
w/OTP triggering
+/-34V 4-ohm BCD 8.5C/W Htsnk
Output Power (W) / CH
Figure 17
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Page 15 of 26
IRAUDAMP12 REV 1.1
1000
900
800
700
600
500
400
300
200
100
0
w/ OTP triggering
+/-27V 3-ohm BCD 8.5C/W Htsnk
Output Power (W) / CH
Figure 18
1000
900
800
700
600
500
400
300
200
100
0
w/ OTP triggering
+/-19V 2-ohm BCD 8.5C/W Htsnk
Output Power (W) / CH
Figure 19
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Page 16 of 26
IRAUDAMP12 REV 1.1
4) Heatsink installation
Heatsink Installation:
1, Drill a hole in the center of daughter board.
2, Mount heatsink and thermal pad on the back of daughter board.
3, Extend daughter board’s pins with cables as Figure20.
Digikey part#
Heatsink
Thermal pad
294-1085-ND
BER161-ND
294-1085-ND
BER161-ND
Mount heatsink and
thermal pad on the
back of DB.
Drill a hole
Extend daughter
board’s pins with
cables
Figure 20
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Page 17 of 26
IRAUDAMP12 REV 1.1
Schematic
Class D, Daughter Board IR4301 Module Schematic
D5
SCH_DB_4301Rev3.2
+31V Bus
PQFN
+31VBus
+B
C7 4.7uF,10V
R31
33K
1N4148
CH1
D3
R3
+5V
C15
22uF
C19
VAA
1N4148
10R
0.1uF,100V
Audio Gnd 1
GND1
1
2
3
4
5
6
7
VAA
GND
IN+
U1
R17
4.7R
C17
0.1uF
C21
R9
620R
J1A
IN-1
0.1uF,100V
R7
1
2
3
4
5
6
TP1 CH1
2.7k
VAA
VSS
C11
2.2nF,50V 2.2nF,50V
-B
CH1 O J2A
1nF
IN-
9
13
1
2
3
4
5
6
7
8
A26568-ND
CH2 O
CH2 O
CH2O
CH2 O
-B
-B
-B
CH2 O
-B
J1
10 14
11 15
12 16
+B
C3
C5
11
R1
COMP
CSD
VSS
VS
D1
SD
1
SD
OT
VSS
R27
1R
100R
C1 10uF, 16V
A26570-ND
2
R5
VSS
-5V
VSS
VCC
CH1 Output to LPF1
3
10R
PWM1
IN1
C9 4.7uF,10V
-B
9
CH1 O
CH1 O
CH1 O
CH1 O
+B
+B
+B
GND
CH1 O
+B
4
10
11
12
13
14
15
16
IN-1
5
R15
4.7R
GND1
VAA
PWM2
VSS
GND1
VAA
6
C13
7
-31VBus
-B
-35VBus 10uF
8
J2
VSS
GND2
VCC
SD
9
GND2
VCC
SD
10
11
12
D6
+31VBus
+B
+31V Bus
PQFN
C8 4.7uF,10V
R32
33K
1N4148
IN2
IN-2
CH2
D4
R4
C16
22uF
C20
+5V
CON EISA31
VAA
1N4148
0.1uF,100V
10R
Audio Gnd 2
J1B
1
2
3
4
5
6
7
GND2
VAA
GND
IN+
U2
R18
4.7R
C18
0.1uF
C22
0.1uF,100V
7
8
9
10
11
12
VCC
IN-2
R10
SD
620R
VSS
SD
R8
GND2
TP2 CH2
2.7k
C12
2.2nF,50V 2.2nF,50V
-B
A26568-ND
CH2 O J2B
Audio Gnd 2
1nF
IN-
1
2
3
4
5
6
7
8
-B
C4
C6
11
R2
COMP
CSD
VSS
VS
D2
SD
R28
1R
100R
R6
C2 10uF, 16V
A26570-ND
-5V
VSS
VCC
CH2 Output to LPF2
10R
C10 4.7uF,10V
R16
4.7R
C14
10uF
-31VBus
-B
-35VBus
Figure 21
Class D, Mother Board Control Volume and Power Supplies Schematic
C19
R39
+5V
470
2.2uF,16V
C15
R27
R17
22k
+B
CLK
47R
L1
CH1 Feedback
C5
10uF, 50V
22uH
33pF
D5 CH1 OUT
74AHC1G04
U3
IN-1
CH1 O
J3
R31
R33
1K
R13
+
CH1
-
1
2
3.3K
47k 1%
C23
0.47uF, 400V
C27
D7
Control Volume
R47
R55
0.0
Audio in
+5V
CH1 IN
R49
2.2k
OPEN
10, 1W
C109
C17
150pF, 500V
+5V
-B
9
13
R1
J5
R3
R71
100R OPEN
C107
4.7uF, 16V
4
5
6
1
2
3
OC
10 14
11 15
12 16
+B
C25
4.7uF, 16V
100K
U_2
VDD
-5V
U_?
0.1uF, 400V
+5V
8
7
6
5
1
1
16
15
14
13
12
11
10
9
VSS
ZCEN
CS
SDATAI AOUTL
AINL
R7
R8
47R
47R
10R
2 CS
2
3
4
5
6
7
8
J1A
J2A
J7
VR0
CS
AGNDL
+B
+35V
Gnd
2
1
3
C2
10uF, 50V
3 SDATAI
VR1
SDATA
SIMUL
C108
R9
R5
IR430X_ MODULE
R58
100K
C33
OPEN
10nF, 50V
4
-35V
CLK
+5V
VD+
VA-
VA+
-5V
C31
1000uF,50V
C1
4.7R 4.7R
10uF, 50V
3310S06S
DGRD
SCLK
+5V
Trace under J7
Chassis Gnd
R6
SCLK R10
MUTE
J1B
J2B
AOUTR
C3
R57
100K
47R
10uF, 50V
C34
OPEN
C32
1000uF,50V
SDATAO AGNDR
7
8
9
10
11
12
VCC
SD
1
2
3
4
5
6
7
8
-B
-5V
R11
47R
C6
10uF, 50V
MUTE
AINR
R14
R4
100R
-B
+B
CS3310
R2
R56
3.3K
VCC
0.0
CH2 IN
100K
J6
R72
L2
22uH
OPEN
CH2 Feedback
D6 CH2 OUT
IN-2
CH2 O
J4
R32
R34
1K
+
CH2
-
1
2
Audio in
47k 1%
C24
C28
D8
C20
R48
R40
470
0.47uF, 400V
R50
OPEN
2.2k
+5V
C16
10, 1W
C18
150pF, 500V
-B
2.2uF,16V
R28
R18
22k
C26
Z103
VCC UVP
Q102
CLK
R107
4.7K
47R
+B
0.1uF, 400V
33pF
12V
74AHC1G04
U4
R106
47K
R105
10R
+5V Power Supply
-5V Power Supply
Q101
FX941
+5V
-5V
VCC Power Supply
U_6
MC7 8M12
U_4
MC78M05
U_5
MC79M05
Z101
Z102
4.7V
R101
47R, 1W
ZM4732ADICT
R102
R103
47R, 1W
R104
Heat Sink
HS1
Vin
Vout
VCC
+B
Vin
Vout
-B
IN
OUT
47R, 1W
47R, 1W
4.7V
D102
MA2YD2300
ZM4732ADICT
D101
MA2YD2300
C101
C103
10uF, 50V
Z104
15V
C102
C104
10uF, 50V
10uF, 50V
C106
10uF, 50V
C105
10uF, 50V
10uF, 50V
-B
Figure 22
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Page 18 of 26
IRAUDAMP12 REV 1.1
Class D, Mother Board Clock and House Keeping Schematic
+B
R143
SW-3WAY_A-B
S3A
10K
R147
47k
+5V
R140
10k
Q111
R142
68k
R139
47k
Z106
18V
Z107
11V
D106
1N4148
S2
1
2
SW
MMBT5401
R149
47K
D105
R138
4.7k
Z105
36V
SW_H-L
OT
R109
1K
R145
47K
CStart
1N4148
OT
D107
C117
C112
1200pF, 50V
D103
DCP
R144
10k
100pF, 50V
C111
+5V
1N4148 100uF, 16V
UVP
R148
10k
1N4148
C110
R120
100R
Q109
R110
100k
R111
10K
Q110
S1
SW-PB
1nF, 50V
MMBT5551
MMBT5551
R141
47k
R112
820R
U_3
1A
C119
0.1uF, 50V
R146
47K
VCC
6A
6Y
5A
5Y
4A
4Y
Q103
MMBT5551
1Y
2A
2Y
3A
3Y
C113
R113
5K POT
OVP
Trip and restart
-B
R136
68k
100pF, 50V
+B
SW-3WAY_A-B
SW
C115
S3B
R125
10K
10uF, 50V
Z108
Q106
8.2V
R135
82k
C114
R116
GND
47R
R126
100K
74HC14
10nF, 50V
R114
100R
R134
10k
MMBT5401
CLK
Q108
CLK
+5V
R118
J8
Q105
MMBT5551
R115
47R
BNC
A24497
1k
NORMAL
R137
47k
R130
47K
EXT. CLK
R119
1k
DC protection
PROTECTION
DCP
D104
1N4148
R122
47k
R121
47k
R131
47K
R128
6.8k
R124
10k
C116
R117
47R
MUTE
-5V
Q104
MUTE
R123
1K
100uF, 16V
DC_PS
R150
47k
+B
MMBT5401
R151
47k
R129
6.8k
R127
6.8k
R133
47k
Q112
MMBT5551
Q107
1
2
3
6
5
4
J9
Z109
8.2V
2
1
PVT412
P1
-5V
MMBT5551
R132
47k
+5V
-B
. Figure 23
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Page 19 of 26
IRAUDAMP12 REV 1.1
Bill of Materials
IRAUDAMP12 Daughter Board BOM
No
1
Part Number
445-1601-1-ND
Designator
C1, C2
Description
Quantity
Vendor
Digikey
CAP CER 10UF 16V 20% X7R 1206
CAP CER 2200PF 50V 10% X7R 0603
CAP CER 4.7UF 10V 10% X7R 0805
CAP CER 1000PF 50V 10% X7R 0603
CAP CER 10UF 16V 20% X7R 1206
CAP CER 22UF 16V 10% X5R 0805
CAP CER 0.1UF 50V 10% X7R 0805
CAP CER 0.1UF 100V 10% X7R 1206
2
4
4
2
2
2
2
4
2
2
445-1309-1-ND
587-1442-1-ND
478-1215-1-ND
399-4939-1-ND
445-6797-1-ND
311-1140-1-ND
478-1529-1-ND
1N4148WS-FDICT-ND
C3, C4, C5, C6
C7, C8, C9, C10
C11, C12
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
3
4
5
C13, C14
6
C15, C16
7
C17, C18
8
C19, C20, C21, C22
D1, D2
9
DIODE SWITCH 75V 200MW SOD323
DIODE SWITCH 100V 400MW
SOD123
CONN HEADER VERT 6POS .100
30AU
10 1N4148W-FDICT-ND
11 A26568-ND
D3, D4, D5, D6
J1A, J1B
4
2
2
2
4
Digikey
Digikey
Digikey
Digikey
Digikey
CONN HEADER VERT .100 8POS
30AU
12 A26570-ND
RMCF0603JT100RCT-
13 ND
RMCF0603JT10R0CT-
14 ND
J2A, J2B
R1, R2
RES 100 OHM 1/10W 5% 0603 SMD
RES 10 OHM 1/10W 5% 0603 SMD
R3, R4, R5, R6
RMCF0603FT2K70CT-
15 ND
R7, R8
RES 2.7K OHM 1/10W 1% 0603 SMD
RES 620 OHM 1/10W 5% 0603 SMD
RES 4.7 OHM 1/10W 5% 0603 SMD
RES 1.0 OHM 1/10W 5% 0603 SMD
1
2
4
2
Digikey
Digikey
Digikey
Digikey
16 311-620GRCT-ND
17 311-4.7GRCT-ND
R9, R10
R15, R16, R17, R18
R27, R28
18 311-1.0GRCT-ND
RMCF0603JT33K0CT-
19 ND
R31, R32
U1, U2
RES 33K OHM 1/10W 5% 0603 SMD
PowIRaudio integrated Class D IC
HEATSINK TRIPLE BLACK TO-220
THERMAL PAD .020" 4X4" GAPPAD
NUT HEX 4-40 STAINLESS STEEL
SCREW MACHINE PHIL 4-40X1/2 SS
2
Digikey
IR
20 IR4301
2
*21 294-1085-ND
*22 BER161-ND
*24 H724-ND
*25 H705-ND
Heatsink
Thermal Pad
Nut Hex
Screw
1
Digikey
Digikey
Digikey
Digikey
1/6
1/100
1/100
*Heatsink is an option for IRAUDAMP12 to deliver high power up to 160W/4Ω
IRAUDAMP12 Mother Board BOM
NO
Part No
Designator
C1, C5, C6, C101,
C102, C103, C104,
C105, C106, C115
Description
#
Vender
1
2
3
4
5
6
7
8
9
565-1106-ND
CAP ALUM 10UF 50V 20% RADIAL
CAP ALUM 2.2UF 50V 20% RADIAL
CAP CER 33PF 100V 5% NP0 0805
CAP MICA 150PF 500V 5% RADIAL
CAP CER 2.2UF 16V 10% X7R 1206
CAP CER 0.1UF 50V 10% X7R 1206
CAP FILM 0.47UF 400VDC RADIAL
CAP FILM 0.1UF 400VDC RADIAL
CAP ALUM 1000UF 50V 20% RADIAL
CAP CER 4.7UF 16V 10% X5R 0805
CAP CER 10000PF 50V 10% X7R 0805
CAP CER 1000PF 50V 5% NP0 0805
10 Digikey
565-1103-ND
478-1281-1-ND
338-2598-ND
PCC1931CT-ND
PCC104BCT-ND
495-1315-ND
495-1311-ND
565-1114-ND
C2, C3
2
2
2
2
1
2
2
2
2
2
1
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
C15, C16
C17, C18
C19, C20
C119
C23, C24
C25, C26
C31, C32
C107, C109
C108, C114
C110
10 PCC2323CT-ND
11 PCC103BNCT-ND
12 PCC102CGCT-ND
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Page 20 of 26
IRAUDAMP12 REV 1.1
13 PCC101CGCT-ND
14 478-1372-1-ND
15 565-1037-ND
C111, C113
C112
CAP CER 100PF 50V 5% NP0 0805
CAP CER 1200PF 50V 10% X7R 0805
CAP ALUM 100UF 16V 20% RADIAL
2
1
2
Digikey
Digikey
Digikey
C116, C117
D103, D104, D105,
D106, D107
16 1N4148W-FDICT-ND
17 MURA120T3GOSCT-ND
18 MA2YD2300LCT-ND
19 294-1086-ND
DIODE SWITCH 100V 400MW SOD123
DIODE ULTRA FAST 1A 200V SMA
DIODE SCHOTTKY 25V 1.0A MINI-2P
HEATSINK HORZ SIX BLACK TO-220
CONN RECEPT 6POS .100 VERT DUAL
5
4
2
1
2
2
Digikey
Digikey
Digikey
Digikey
Digikey
D5, D6, D7, D8
D101, D102
HS1
20 A32934-ND
J1A, J1B
21 A32935-ND
277-1271-ND or 651-
22 1714971
J2A, J2B
CONN RECEPT 8POS .100 VERT DUAL
CONN TERM BLOCK 2POS 9.52MM
PCB
Digikey
Digikey or
Mouser
J3, J4
J5, J6
2
2
23 CP-1422-ND
277-1272-ND or 651-
24 1714984
CONN RCA JACK R/A BLUE PCB
CONN TERM BLOCK 3POS 9.52MM
PCB
Digikey
Digikey or
Mouser
J7
1
1
1
2
25 A32248-ND
26 ED1567
J8
CONN JACK BNC R/A 50 OHM PCB TIN
TERMINAL BLOCK 7.50MM VERT 2POS
Class D inductor, 22uH
Digikey
J9
Digikey
27 7G14A-220M-B
911-1D14A-220M
7G17A-220M-B
L1, L2
Inductors, Inc
Mouser
Inductors, Inc
Mouser
911-1D17A-220M
28 160-1143-ND
29 PVT412PBF-ND
30 160-1140-ND
31 FCX491CT-ND
NORMAL
P1
LED 3MM GREEN TRANSPARENT
IC RELAY PHOTOVO 400V 140MA 6DIP
LED 3MM HI-EFF RED TRANSPARENT
1
1
1
1
Digikey
Digikey
PROTECTION
Digikey
Q101
TRANSISTOR NPN 60V 1A SOT-89
Digikey
Q102, Q104, Q106,
Q111
Q103, Q105, Q107,
Q108, Q109, Q110,
Q112
TRANS PNP 150V 350MW SMD SOT23-
3
32 MMBT5401-FDICT-ND
33 MMBT5551-FDICT-ND
4
7
Digikey
Digikey
TRANS NPN 160V 350MW SMD SOT23-
3
R1, R2, R57, R58,
R110, R126
34 P100KACT-ND
35 P100ACT-ND
36 P4.7ECT-ND
RES 100K OHM 1/8W 5% 0805 SMD
RES 100 OHM 1/8W 5% 0805 SMD
RESISTOR 4.7 OHM 1/4W 5% 1206
6
3
2
Digikey
Digikey
Digikey
R3, R4, R114
R5, R6
R7, R8, R10, R11, R27,
R28, R115, R116, R117
37 P47ACT-ND
38 P10ACT-ND
39 P3.3KACT-ND
40 P22KACT-ND
RES 47 OHM 1/8W 5% 0805 SMD
RES 10 OHM 1/8W 5% 0805 SMD
RES 3.3K OHM 1/8W 5% 0805 SMD
RES 22K OHM 1/8W 5% 0805 SMD
9
2
2
2
Digikey
Digikey
Digikey
Digikey
R9, R105
R13, R14
R17, R18
R106, R121, R122,
R130, R131, R132,
R133, R137, R139,
R141, R145, R146,
R147, R149, R150,
R151
41 P47KACT-ND
42 P0.0ACT-ND
43 P470ACT-ND
44 P100ECT-ND
45 PT47KAFCT-ND
46 P1.0KECT-ND
RES 47K OHM 1/8W 5% 0805 SMD
RES 0.0 OHM 1/8W 0805 SMD
16 Digikey
R55, R56
R39, R40
R120
2
2
1
2
2
Digikey
Digikey
Digikey
Digikey
Digikey
RES 470 OHM 1/8W 5% 0805 SMD
RES 100 OHM 1/4W 5% 1206 SMD
RES 47.0K OHM 1W 1% 2512 SMD
RES 1.0K OHM 1/4W 5% 1206 SMD
R31, R32
R33, R34
R109, R118, R119,
R123
47 P1.0KACT-ND
48 PT10XCT
RES 1.0K OHM 1/8W 5% 0805 SMD
RES 10 OHM 1W 5% 2512 SMD
RES 2.2K OHM 1/4W 5% 1206 SMD
4
2
2
Digikey
Digikey
Digikey
R47, R48
49 P2.2KECT-ND
R49, R50
R101, R102, R103,
R104
50 PT47XCT-ND
RES 47 OHM 1W 5% 2512 SMD
4
Digikey
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Page 21 of 26
IRAUDAMP12 REV 1.1
51 P4.7KACT-ND
52 CT2265-ND
R107, R138
RES 4.7K OHM 1/8W 5% 0805 SMD
POT 10K OHM 1/8W CARB VERTICAL
2
1
Digikey
Digikey
R108
R111, R124, R125,
R134, R140, R143,
R144, R148
53 P10KACT-ND
54 P820ACT-ND
55 3362H-502LF-ND
56 P6.8KECT-ND
57 P82KACT-ND
58 P68KACT-ND
59 P8010S-ND
RES 10K OHM 1/8W 5% 0805 SMD
RES 820 OHM 1/8W 5% 0805 SMD
TRIMMER 5K OHM 0.5W TH
8
1
1
3
1
2
1
1
1
2
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
R112
R113
R127, R128, R129
RES 6.8K OHM 1/4W 5% 1206 SMD
RES 82K OHM 1/8W 5% 0805 SMD
RES 68K OHM 1/8W 5% 0805 SMD
SWITCH TACTILE SPST-NO 0.02A 15V
SWITCH SLIDE DPDT 12V .1A L=4
SWITCH SLIDE DP3T .2A L=6MM
R135
R136, R142
S1
60 EG1908-ND
61 EG1944-ND
62 296-1089-1-ND
S2
S3
U3, U4
IC SNGL INVERTER GATE SOT23-5
IC, DIGITAL VOLUME CONTROL, SOIC-
16
63 73C8016 or 72J5420
64 3310-IR01
U_1
U_2
U_3
U_4
U_5
U_6
1
1
1
1
1
1
Newark
*Tachyonix
Digikey
Digikey
Digikey
Digikey
CS3310 Stand-alone Controller
65 296-1194-1-ND
66 MC78M05CTGOS-ND
67 LM79M05CT-ND
IC HEX SCHMITT-TRIG INV 14-SOIC
IC REG VOLT POS 500MA 5V TO220AB
IC VOLT REG NEG 5V 500MA TO220-3
IC VOLT REG 12V 500MA TO220-3
68 LM78M12CT-ND
1SMA5917BT3GOSCT-
69 ND
Z101, Z102
Z103
DIODE ZENER 4.7V 1.5W SMA
2
1
1
1
1
1
2
1
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Digikey
Newark
70 BZT52C12-FDICT-ND
71 BZT52C15-FDICT-ND
72 BZT52C36-FDICT-ND
73 BZT52C18-FDICT-ND
74 BZT52C11-FDICT-ND
75 BZT52C8V2-FDICT-ND
76 10M7578
DIODE ZENER 12V 500MW SOD-123
DIODE ZENER 15V 500MW SOD-123
DIODE ZENER 36V 500MW SOD-123
DIODE ZENER 18V 500MW SOD-123
DIODE ZENER 11V 500MW SOD-123
DIODE ZENER 8.2V 500MW SOD-123
ROUND KNURLED KNOB, 6MM
Z104
Z105
Z106
Z107
Z108, Z109
Volume Knob
Thermally TO-220
mounting kit with screw
77 82K6096
78 8401K-ND
79 H724-ND
80 H729-ND
THERMALLOY - 4880G - Mounting Kit
STDOFF HEX M/F 4-40 .500"L ALUM
NUT HEX 4-40 STAINLESS STEEL
WASHER LOCK INTERNAL #4 SS
3
5
5
5
Newark
Digikey
Digikey
Digikey
1/2" Standoffs 4-40
4-40 Nut
No. 4 Lock Washer
*Tachyonix Corporation, http://www.tachyonix.co.jp
PCB Specifications
1. Two Layers SMT PCB with through holes
2. 1/16 thickness
3. 2/0 OZ Cu
4. FR4 material
5. 10 mil lines and spaces
6. Solder Mask to be Green enamel EMP110 DBG (CARAPACE) or Enthone Endplate
DSR-3241or equivalent.
7. Silk Screen to be white epoxy non conductive per IPC–RB 276 Standard.
8. All exposed copper must finished with TIN-LEAD Sn 60 or 63 for 100u inches thick.
9. Tolerance of PCB size shall be 0.010 –0.000 inches
10. Tolerance of all Holes is -.000 + 0.003”
11. PCB acceptance criteria as defined for class II PCB’S standards.
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Page 22 of 26
IRAUDAMP12 REV 1.1
Daughter Board
Figure 24
Figure 25
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Page 23 of 26
IRAUDAMP12 REV 1.1
Mother Board
Figure 26
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Page 24 of 26
IRAUDAMP12 REV 1.1
Figure 27
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Page 25 of 26
IRAUDAMP12 REV 1.1
Revision changes descriptions
Revision
Rev 1.0
Rev 1.1
Changes description
Date
Apr,30 2012
Feb,19 2014
Released
Fig21’s Bus voltage has been corrected to
-31V
WORLD HEADQUARTERS: 101 N. Sepulveda Blvd., El Segundo, California 90245 Tel: (310) 252-7105
Data and specifications subject to change without notice. 05/16/2012
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Page 26 of 26
IRAUDAMP12 REV 1.1
相关型号:
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