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Optimum Equivalent Capacitance at Output Stage0 x6 Z, q, h/ C6 K8 W5 K: a# P2 D5 d Cellular phone and wireless portable device designers normally place several Radio Frequency filtering capacitors and ESD protection devices between the outputs and the headset connector. Those devices are usually connected between amplifier outputs and ground, or amplifier output and virtual ground. Different headsets with different impedance can be used. 16, 32 and 64Ohm are standard values. The extra impedance resulting of parasitic headset inductance and protections capacitance can affect sound quality. In order to achieve the best sound quality, we suggest the optimum value of total equivalent capacitance:' s* f( W& X2 ]& u 0 W3 r2 c! ]0 z7 j9 B$ y6 k/ Y2 t& ]
This total equivalent capacitance consists of the radio frequency filtering capacitors and ESD protection device equivalent parasitic capacitance. Because of their very low parasitic capacitance value, diode based ESD protection are preferred. If for some reason the above requirements cannot be met, a series resistor between each audio output and the protection device can improve amplifier operation. In order to keep dynamic output signal range, the resistor value should be very small compared to the loudspeaker. For example, a 10Ohm resistor for a 64Ohm loudspeaker allows up to 400pF parasitic capacitance load.! U* Z/ n( K5 u4 c6 t  |
fangxiaoyan 发表于 2015-2-28 18:43# J5 j8 b3 A( w. F0 [% s& V2 |/ l 呃,按我理解是这样的:+ C. ]9 v* o0 s' s* n1 u 信噪比是信号和噪声的比值,同等信号噪声越小或者同等噪声信号越大,则该指标越好。% ~$ b$ u9 x6 X, a$ q8 M0 k8 v. F" C 而噪声又是由几部分组成的,应该包括codec放大器的噪声,电源噪声,耳机引入的噪声等等。其中部分噪声是会随着信号幅度增大而增大,而部分噪声是有上限的,到了一定幅度就不再增大了。所以在增大信号幅度的同时,噪声并不是成线性放大的,应该是低于信号的放大幅度。所以在增加信号幅度的情况下,SNR其实是在变好的。所以他们加大了信号输出幅度,再通过22ohm与耳机32ohm负载分压降低幅度后,得到高信噪比的信号(这段可能不太对,欢迎高手拍砖)。, k0 I" B# ?: b3 O- }: C ) U5 b! e6 h) a3 N) ~7 u4 B |
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本帖最后由 li6961 于 2015-3-16 11:29 编辑 # E# |7 _$ ]) [' Q) J 上面的大神都正确,我换个说法重复一下:1 T0 C2 Y+ S' @7 T A0 M 1,天线接收的FM信号要进芯片相应端口,与它相连的其它路径的都要用电感隔离;; x- O! \% @9 O% C 2,R434及R435起到均衡 不同阻抗耳机音量大小的作用(音量不变,16ohm或32ohm耳机音量听起来变化不太明显); 3,C1664及C1665隔直作用是公认的,大些当然低频更好些,但体积及成本一定时,得作出让步;, |& T; p! ?1 c# _% ^! Q3 f P* E) h 4,C420及C422滤除高频,取值33P是因为这种小电容对GSM等高频的信号的滤除效果好,测试信噪比时会高些或稳定些,光听的话没区别的。 5,R407及R408的误差1%或5%区别不大,猜测可能是人家库存就是1%(耳机这种要求很少,而且R434及R435已经用了5%)。( i+ C/ a( }; T) S2 B9 X 6,耳机插入检测回路楼上已经图文并茂;高峰值会误动作这种千万分之一真出现了,额外延迟(关闭)不足50毫秒。 |
fangxiaoyan 发表于 2015-3-11 15:46 选频电路应该是FM的接收端吧,为什么会在天线上? 您都说了是用来将高频信号隔离的,您觉得电感有用吗?电感是滤低频的。。。 8 M' J" g4 ?; B, C* Z |
fangxiaoyan 发表于 2015-3-12 09:40 没错,65-108M,50KHZ的步进。 |
fangxiaoyan 发表于 2015-3-11 20:58 应该是天线尺寸(耳机线长)远大于信号的波长即可收到信号,至于如何选择这个频点是你FM收音芯片干的活。2 V6 I8 }4 T# f |
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