參數資料
型號: SSM2311CBZ-REEL7
廠商: Analog Devices Inc
文件頁數: 7/20頁
文件大小: 0K
描述: IC AMP AUDIO 3.3W MONO D 9WLCSP
產品變化通告: SSM2311 Discontinuation 22/Feb/2011
標準包裝: 1
類型: D 類
輸出類型: 1-通道(單聲道)
在某負載時最大輸出功率 x 通道數量: 3.3W x 1 @ 3 歐姆
電源電壓: 2.5 V ~ 5.5 V
特點: 消除爆音,差分輸入,短路和熱保護,關閉
安裝類型: 表面貼裝
供應商設備封裝: 9-WLCSP(1.52 x 1.69)
封裝/外殼: 9-UFBGA,WLCSP
包裝: 標準包裝
產品目錄頁面: 764 (CN2011-ZH PDF)
其它名稱: SSM2311CBZ-REEL7DKR
SSM2311
Rev. 0 | Page 15 of 20
APPLICATION NOTES
OVERVIEW
The SSM2311 mono Class-D audio amplifier features a filterless
modulation scheme that greatly reduces the external components
count, conserving board space and thus reducing the system’s cost.
The SSM2311 does not require an output filter, but instead relies
on the inherent inductance of the speaker coil and the natural
filtering of the speaker and the human ear to fully recover the audio
component of the square-wave output. While many Class-D ampli-
fiers use some variation of pulse-width modulation (PWM), the
SSM2311 uses Σ-Δ modulation to determine the switching
pattern of the output devices. This provides a number of important
benefits. Σ-Δ modulators do not produce a sharp peak with
many harmonics in the AM frequency band, as pulse-width
modulators often do. Σ-Δ modulation provides the benefits of
reducing the amplitude of spectral components at high frequencies;
that is, reducing EMI emission that might otherwise be radiated
by speakers and long cable traces. Due to the inherent spread-
spectrum nature of Σ-Δ modulation, the need for oscillator
synchronization is eliminated for designs incorporating
multiple SSM2311 amplifiers.
The SSM2311 also offers protection circuits for overcurrent and
temperature protection.
GAIN
The SSM2311 has a default gain of 18 dB, but can be reduced by
using a pair of external resistors with a value calculated as follows:
External Gain Settings = 300k/(37.5k + Rext)
POP-AND-CLICK SUPPRESSION
Voltage transients at the output of audio amplifiers can occur when
shutdown is activated or deactivated. Voltage transients as low
as 10 mV can be heard as an audio pop in the speaker. Clicks
and pops can also be classified as undesirable audible transients
generated by the amplifier system and therefore as not coming
from the system input signal. Such transients can be generated
when the amplifier system changes its operating mode. For example,
the following can be sources of audible transients: system power-up/
power-down, mute/unmute, input source change, and sample rate
change. The SSM2311 has a pop-and-click suppression architecture
that reduces these output transients, resulting in noiseless activation
and deactivation.
LAYOUT
As output power continues to increase, care needs to be taken to
lay out PCB traces and wires properly between the amplifier,
load, and power supply. A good practice is to use short, wide
PCB tracks to decrease voltage drops and minimize inductance.
Ensure that track widths are at least 200 mil for every inch of
track length for lowest DCR, and use 1 oz or 2 oz of copper PCB
traces to further reduce IR drops and inductance. A poor layout
increases voltage drops, consequently affecting efficiency. Use
large traces for the power supply inputs and amplifier outputs to
minimize losses due to parasitic trace resistance.
Proper grounding guidelines help to improve audio
performance, minimize crosstalk between channels, and
prevent switching noise from coupling into the audio signal. To
maintain high output swing and high peak output power, the
PCB traces that connect the output pins to the load and supply
pins should be as wide as possible to maintain the minimum
trace resistances. It is also recommended to use a large-area
ground plane for minimum impedances.
In addition, good PCB layouts isolate critical analog paths from
sources of high interference. High frequency circuits (analog
and digital) should be separated from low frequency ones.
Properly designed multilayer printed circuit boards can reduce
EMI emission and increase immunity to the RF field by a factor of
10 or more compared with double-sided boards. A multilayer
board allows a complete layer to be used for the ground plane,
whereas the ground plane side of a double-sided board is often
disrupted with signal crossover. If the system has separate analog
and digital ground and power planes, the analog ground plane
should be underneath the analog power plane, and, similarly, the
digital ground plane should be underneath the digital power
plane. There should be no overlap between analog and digital
ground planes or analog and digital power planes.
061
61
-0
76
70
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0
–10
30
100
1000
L
E
VEL
(d
B
/
V
)
FREQUENCY (MHz)
Figure 47. EMI Emissions from SSM2311
相關PDF資料
PDF描述
SSM2315CBZ-REEL IC AMP AUDIO 4.28W MONO D 9WLCSP
SSM2317CBZ-REEL IC AMP AUDIO 3.89W MONO D 9WLCSP
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SSM2335CBZ-R2 IC AMP AUDIO 4.28W MONO D 9WLCSP
SSM2356CBZ-RL IC AMP AUD 2X2W STER D 16WLCSP
相關代理商/技術參數
參數描述
SSM2311-EVALZ 制造商:Analog Devices 功能描述:Evaluation Board For SSM2311 Class-D Audio Amplifier 制造商:Analog Devices 功能描述:EVAL BD FOR SSM2311 CLS-D AUD AMP - Bulk 制造商:Analog Devices 功能描述:Class-D Audio Amplifier Eval. Board
SSM2311-MINI-EVALZ 制造商:Analog Devices 功能描述:EVAL BD FOR SSM2311 CLS-D AUD AMP - Bulk
SSM2312GN 制造商:SSC 制造商全稱:Silicon Standard Corp. 功能描述:N-channel Enhancement-mode Power MOSFET
SSM2313GN 制造商:SSC 制造商全稱:Silicon Standard Corp. 功能描述:P-channel Enhancement-mode Power MOSFET
SSM2314GN 制造商:SSC 制造商全稱:Silicon Standard Corp. 功能描述:N-channel Enhancement-mode Power MOSFET
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