- 您现在的位置:买卖IC网 > PDF目录378403 > AN1042 (ON SEMICONDUCTOR) High Fidelity Switching Audio Amplifiers Using TMOS Power MOSFETs PDF资料下载
参数资料
| 型号: | AN1042 |
| 厂商: | ON SEMICONDUCTOR |
| 英文描述: | High Fidelity Switching Audio Amplifiers Using TMOS Power MOSFETs |
| 中文描述: | 高保真开关音频放大器使用的TMOS功率MOSFET |
| 文件页数: | 2/12页 |
| 文件大小: | 108K |
| 代理商: | AN1042 |
AN1042/D
http://onsemi.com
2
+
–
R5
R4
Input
Integrator
Switch
Controller
±
2 V
Error
Voltage
Current
Sense
Output
Switch
+44 V
–44 V
Low Pass
Filter
R27
8
Speaker
Figure 2. Block Diagram of Class D Amplifier
The switch controller has three main functions. First, it
insures that the output duty cycle is never less than 5% or
greater than 95%. This is made necessary by the use of ac
coupling for the drive. Second, it controls the output duty
cycle in response to the error voltage input. This duty cycle
is a linear function of the error voltage input. Third, it
provides short circuit protection to the amplifier in
response to the current sense input. If overcurrent is
detected, the error voltage input will be overridden and the
amplifier output voltage reduced as necessary to bring the
current back within limits.
A class B analog amplifier has a theoretical efficiency of
78.5% when producing a sine wave at the point of clipping.
A switching amplifier, or so called class D amplifier, must do
much better to justify its extra complexity. The switching
amplifier described in this paper achieves an efficiency of
92% at its rated power of 72 watts. Its efficiency peaks at
95% for 30 watts output and falls to 50% for 1.5 watts
output. These efficiencies result from the good performance
of TMOS power MOSFETs at high switching frequencies
and the simplicity of complementary drive circuitry.
Above the 100 watt level, a switching amplifier costs less
than a conventional amplifier although it is slightly more
complex. The heatsink size is about one–tenth and the
weight is about one–fourth that of a class B amplifier.
Figure 3. 20 kHz Butterworth Filter Frequency
Response
0.8
1.0
0.6
0
0.4
0.2
–3 dB
0
12
24
36
48
60
Frequency (kHz)
N
A switching amplifier must switch at a frequency well
above the highest frequency to be reproduced. A low pass
filter must follow the switching stage to eliminate the high
frequency square waves and pass the audio to the speaker.
High switching frequencies can simplify filter design, but
cause excessive losses in the switching devices. Low
switching frequencies limit the upper frequency response
of the amplifier and complicate filter design. The amplifier
described in this paper operates at a switching frequency of
120 kHz. Its response extends down to dc, with an upper
–3 dB point of 20 kHz.
The filter chosen here is a 4 pole Butterworth Low Pass
which is maximally flat in the passband. It is designed to
be driven by a voltage source and loaded into 8 ohms. This
type of filter has a transfer function of
E
1
1
f
fc
8
where f is the frequency of interest and f
c
is the cutoff
frequency. At the 120 kHz switching frequency, this filter
has a voltage attenuation of 62 dB. With a
±
44 volt square
wave into the filter at 120 kHz, the maximum residue is a
sine wave of about 30 millivolts rms. The filter is only 0.1 dB
down at 12.5 kHz and 1 dB down at 17 kHz as shown in
Figure 3. The –3 dB point is 20 kHz.
The frequency response of the filter will be flat only if it
is properly loaded into 8 ohms. A 16 ohm speaker load will
cause high frequency peaking and a 4 ohm speaker will
cause high frequency loss. The output impedance of the
filter changes across the band as shown in Figure 4. It
exhibits a parallel resonance at 11.4 kHz and 35.2 kHz, and
a series resonance at 20 kHz. In practice, these resonances
cause no difficulty with typical speakers and crossover
networks.
This amplifier and a high quality conventional amplifier
were both fed pink noise while driving full range speakers.
A broad band audio spectrum analyzer with a calibrated
microphone was used to measure sound pressure level. The
difference in sound pressure level between the two, if any,
was well under 1 dB from 60 Hz to 16 kHz.
相关PDF资料 |
PDF描述 |
|---|---|
| AN1042D | High Fidelity Switching Audio Amplifiers Using TMOS Power MOSFETs |
| AN1062 | Circular Connector; No. of Contacts:6; Series:MS27508; Body Material:Aluminum; Connecting Termination:Crimp; Connector Shell Size:8; Circular Contact Gender:Socket; Circular Shell Style:Box Mount Receptacle; Insert Arrangement:8-35 RoHS Compliant: No |
| AN1077 | ISL6244EVAL1 Multi-phase Evaluation Board Setup Procedure |
| AN1082 | Using the ISL6401 RSLIC PWM Controller Evaluation Board |
| AN1406 | DESIGNING WITH PECL (ECL AT + 5.0) |
相关代理商/技术参数 |
参数描述 |
|---|---|
| AN-1042 | 制造商:CYMBET 制造商全称:CYMBET 功能描述:EnerChip CC Backup Power for Epson RX-8564 Real-Time Clock |
| AN1042D | 制造商:ONSEMI 制造商全称:ON Semiconductor 功能描述:High Fidelity Switching Audio Amplifiers Using TMOS Power MOSFETs |
| AN1043 | 制造商:MICROCHIP 制造商全称:Microchip Technology 功能描述:Unique Features of the MCP23X08/17 GPIO Expanders |
| AN-1043 | 制造商:CYMBET 制造商全称:CYMBET 功能描述:EnerChip CC as Backup Power for a DS1390 Real-Time Clock |
| AN10436 | 制造商:PHILIPS 制造商全称:NXP Semiconductors 功能描述:TDA8932B/33(B) Class-D audio amplifier |
发布紧急采购,3分钟左右您将得到回复。