Ci 鈮� CBYP / 10 (9)
鍙冩暩(sh霉)璩囨枡
鍨嬭櫉(h脿o)锛� TPA2008D2PWPRG4
寤犲晢锛� Texas Instruments
鏂囦欢闋�(y猫)鏁�(sh霉)锛� 10/26闋�(y猫)
鏂囦欢澶�?銆�?/td> 0K
鎻忚堪锛� IC AMP AUDIO PWR 3W STER 24TSSOP
妯�(bi膩o)婧�(zh菙n)鍖呰锛� 2,000
椤炲瀷锛� D 椤�
杓稿嚭椤炲瀷锛� 2 閫氶亾锛堢珛楂旇伈锛�
鍦ㄦ煇璨�(f霉)杓夋檪(sh铆)鏈€澶ц几鍑哄姛鐜� x 閫氶亾鏁�(sh霉)閲忥細 3W x 2 @ 3 姝愬
闆绘簮闆诲锛� 4.5 V ~ 5.5 V
鐗归粸(di菐n)锛� 娑堥櫎鐖嗛煶锛屽樊鍒嗚几鍏ワ紝鐭矾鍜岀啽淇濊(h霉)锛岄棞(gu膩n)姗�(j墨)锛岄煶閲忔帶鍒�
瀹夎椤炲瀷锛� 琛ㄩ潰璨艰
渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁濓細 24-HTSSOP
灏佽/澶栨锛� 24-TSSOP锛�0.173"锛�4.40mm锛夎8闇茬剨鐩�
鍖呰锛� 甯跺嵎 (TR)
閰嶇敤锛� 296-18922-ND - EVAL MODULE FOR TPA2008D2
www.ti.com
Ci 鈮� CBYP / 10
(9)
POWER SUPPLY DECOUPLING, CS
MIDRAIL BYPASS CAPACITOR, CBYP
CBYP 鈮� 10 脳 Ci
(10)
DIFFERENTIAL INPUT
SHUTDOWN MODES
TPA2008D2
SLOS413C 鈥� JULY 2003 鈥� REVISED MAY 2004
APPLICATION INFORMATION (continued)
A further consideration for this capacitor is the leakage path from the input source through the input network (Ci)
and the feedback network to the load. This leakage current creates a dc offset voltage at the input to the
amplifier that reduces useful headroom, especially in high gain applications. For this reason a low-leakage
tantalum or ceramic capacitor is the best choice. When polarized capacitors are used, the positive side of the
capacitor should face the amplifier input in most applications as the dc level there is held at VDD/2, which is likely
higher than the source dc level. Note that it is important to confirm the capacitor polarity in the application.
Ci must be 10 times smaller than the bypass capacitor to reduce clicking and popping noise from power on/off
and entering and leaving shutdown. After sizing Ci for a given cutoff frequency, size the bypass capacitor to 10
times that of the input capacitor.
The TPA2008D2 is a high-performance CMOS audio amplifier that requires adequate power supply decoupling
to ensure the output total harmonic distortion (THD) is as low as possible. Power supply decoupling also
prevents oscillations for long lead lengths between the amplifier and the speaker. Optimum decoupling is
achieved by using two capacitors of different types that target different types of noise on the power supply leads.
For higher frequency transients, spikes, or digital hash on the line, a good low equivalent-series-resistance (ESR)
ceramic capacitor, typically 0.1 F, placed as close as possible to the device VDD terminal works best. For
filtering lower-frequency noise signals, a larger aluminum electrolytic capacitor of 10 F or greater placed near
the audio power amplifier is recommended.
The midrail bypass capacitor (CBYP) is the most critical capacitor and serves several important functions. During
start-up or recovery from shutdown mode, CBYP determines the rate at which the amplifier starts up. The second
function is to reduce noise produced by the power supply caused by coupling into the output drive signal. This
noise is from the midrail generation circuit internal to the amplifier, which appears as degraded PSRR and
THD+N.
Bypass capacitor (CBYP) values of 0.47-F to 1-F ceramic or tantalum low-ESR capacitors are recommended for
the best THD and noise performance.
Increasing the bypass capacitor reduces clicking and popping noise from power on/off and entering and leaving
shutdown. To have minimal pop, CBYP should be 10 times larger than Ci.
The differential input stage of the amplifier cancels any noise that appears on both input lines of the channel. To
use the TPA2008D2 EVM with a differential source, connect the positive lead of the audio source to the INP
input and the negative lead from the audio source to the INN input. To use the TPA2008D2 with a single-ended
source, ac ground either input through a capacitor and apply the audio signal to the remaining input. In a
single-ended input application, the unused input should be ac-grounded at the audio source instead of at the
device input for best noise performance.
The TPA2008D2 employs a shutdown mode of operation designed to reduce supply current (IDD) to the absolute
minimum level during periods of nonuse for battery-power conservation. The SHUTDOWN input terminal should
be held high during normal operation when the amplifier is in use. Pulling SHUTDOWN low causes the outputs to
mute and the amplifier to enter a low-current state, IDD(SD) = 1 A. SHUTDOWN should never be left
unconnected because the amplifier state would be unpredictable.
18
鐩搁棞(gu膩n)PDF璩囨枡
PDF鎻忚堪
ADS1232IPWG4 IC ADC 24-BIT 10/80SPS 24-TSSOP
MS3106A20-18S CONN PLUG 9POS STRAIGHT W/SCKT
VE-JNW-MX CONVERTER MOD DC/DC 5.5V 75W
TLV2545CDGK IC 12-BIT SERIAL A/D 8-MSOP
VE-BW3-MX-F2 CONVERTER MOD DC/DC 24V 75W
鐩搁棞(gu膩n)浠g悊鍟�/鎶€琛�(sh霉)鍙冩暩(sh霉)
鍙冩暩(sh霉)鎻忚堪
TPA200RL 鍔熻兘鎻忚堪:TVS 浜屾サ绠� - 鐬厠(t脿i)闆诲鎶戝埗鍣� 200V 50uA Bidirect RoHS:鍚� 鍒堕€犲晢:Vishay Semiconductors 妤垫€�:Bidirectional 宸ヤ綔闆诲: 鎿婄┛闆诲:58.9 V 閴椾綅闆诲:77.4 V 宄板€兼氮娑岄浕娴�:38.8 A 绯诲垪: 灏佽 / 绠遍珨:DO-214AB 鏈€灏忓伐浣滄韩搴�:- 55 C 鏈€澶у伐浣滄韩搴�:+ 150 C
TPA2010 鍒堕€犲晢:TI 鍔熻兘鎻忚堪:2.5-W high efficiency filter-free class-D audio power amplifier
TPA2010D1 鍒堕€犲晢:Texas Instruments 鍔熻兘鎻忚堪:Audio Amp Mono 2.5W Class-D TPA2010D1 鍒堕€犲晢:TI 鍔熻兘鎻忚堪:2.5-W MONO FILTER-FREE CLASS-D AUDIO POWER AMPLIFIER
TPA2010D1_06 鍒堕€犲晢:TI 鍒堕€犲晢鍏ㄧū:Texas Instruments 鍔熻兘鎻忚堪:2.5-W MONO FILTER-FREE CLASS-D AUDIO POWER AMPLIFIER
TPA2010D1EVM 鍔熻兘鎻忚堪:闊抽牷 IC 闁嬬櫦(f膩)宸ュ叿 TPA2010D1 Eval Mod RoHS:鍚� 鍒堕€犲晢:Texas Instruments 鐢�(ch菐n)鍝�:Evaluation Kits 椤炲瀷:Audio Amplifiers 宸ュ叿鐢ㄤ簬瑭�(p铆ng)浼�:TAS5614L 宸ヤ綔闆绘簮闆诲:12 V to 38 V
鐧�(f膩)甯冪穵鎬ラ噰璩�(g貌u)锛�3鍒嗛悩宸﹀彸鎮ㄥ皣寰楀埌鍥炲京(f霉)銆�

閲囪臣(g貌u)闇€姹�

(鑻ュ彧閲囪臣(g貌u)涓€姊濆瀷铏�(h脿o)锛屽~瀵竴琛屽嵆鍙�)

鐧�(f膩)甯冩垚鍔�锛佹偍鍙互绻肩簩(x霉)鐧�(f膩)甯冮噰璩�(g貌u)銆備篃鍙互閫�(j矛n)鍏ユ垜鐨勫悗鑷�(t谩i)锛屾煡鐪嬪牨(b脿o)鍍�(ji脿)

鐧�(f膩)甯冩垚鍔�锛佹偍鍙互绻肩簩(x霉)鐧�(f膩)甯冮噰璩�(g貌u)銆備篃鍙互閫�(j矛n)鍏ユ垜鐨勫悗鑷�(t谩i)锛屾煡鐪嬪牨(b脿o)鍍�(ji脿)

*鍨嬭櫉(h脿o) *鏁�(sh霉)閲� 寤犲晢 鎵硅櫉(h脿o) 灏佽
娣诲姞鏇村閲囪臣(g貌u)

鎴戠殑鑱�(li谩n)绯绘柟寮�

*
*
*
    • 鎴�
    • 閲囪喘
    • 鎼滅储
    • 浼氬憳