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| 1 features applications description TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 25-mw directpath? stereo headphone amplifier with pop suppression the TPA6136A2 (tpa6136) features fully differential inputs with an integrated low pass filter to reduce 23 patented directpath? technology eliminates system noise pickup between the audio source and need for dc-blocking capacitors the headphone amplifier and to reduce dac ? outputs biased at 0 v out-of-band noise. the high power supply noise rejection performance and differential architecture ? excellent low frequency fidelity provides increased rf noise immunity. for active click and pop suppression single-ended input signals, connect inl+ and inr+ to hi-z output mode allows sharing output jack ground. 2.1 ma typical supply current the device has built-in pop suppression circuitry to fully differential inputs reduce system noise completely eliminate disturbing pop noise during turn-on and turn-off. the amplifier outputs have ? also configurable as single-ended inputs short-circuit and thermal-overload protection along sgnd pin eliminates ground loop noise with 8 kv hbm esd protection, simplifying end constant maximum output power from 2.3 v equipment compliance to the iec 61000-4-2 esd to 5.5 v supply standard. ? simplifies design to prevent acoustic the TPA6136A2 (tpa6136) operates from a single shock 2.3 v to 5.5 v supply with 2.1 ma of typical supply microsoft tm windows vista tm compliant current. shutdown mode reduces supply current to less than 1 m a. 100 db power supply noise rejection wide power supply range: 2.3 v to 5.5 v gain settings: 0 db and 6 db short-circuit and thermal-overload protection 8 kv hbm esd protected outputs small package available ? 16-ball, 1.6 x 1.6 mm, 0.4 mm pitch wcsp smart phones / cellular phones portable media / mp3 players notebook computers portable gaming the TPA6136A2 (sometimes referred to as tpa6136) is a directpath? stereo headphone amplifier that eliminates the need for external dc-blocking output capacitors. differential stereo inputs and built-in resistors set the device gain, further reducing external component count. gain is selectable at 0 db or 6 db. the amplifier drives 25 mw into 16 ? speakers from a single 2.3 v supply. the TPA6136A2 (tpa6136) provides a constant maximum output power independent of the supply voltage, thus facilitating the design for prevention of acoustic shock. 1 please be aware that an important notice concerning availability, standard warranty, and use in critical applications of texas instruments semiconductor products and disclaimers thereto appears at the end of this data sheet. 2 directpath is a trademark of texas instruments. 3 windows vista is a trademark of microsoft corporation. production data information is current as of publication date. copyright ? 2009, texas instruments incorporated products conform to specifications per the terms of the texas instruments standard warranty. production processing does not necessarily include testing of all parameters. inr+inr- inl+ inl- gnd sgnd outr hpvss cpp cpn vddhpvdd outl TPA6136A2 vbat codec outr+outr- outl+outl- gain enable en hi-z hi-z mode gain
TPA6136A2 slos621a ? july 2009 ? revised august 2009 ........................................................................................................................................................ www.ti.com these devices have limited built-in esd protection. the leads should be shorted together or the device placed in conductive foam during storage or handling to prevent electrostatic damage to the mos gates. functional block diagram 2 copyright ? 2009, texas instruments incorporated product folder link(s) :TPA6136A2 click-and-pop suppression + C hpvdd hpvss +C hpvdd hpvss charge pump inr+ inr- inl+ inl- outloutr cpp cpn hpvss gain en thermal protection control hi-z vdd supply control gnd sgnd hpvdd resistor array 2.2 f m 1 f m 2.2 f m short-circuit protection resistor array hpvdd device pinout TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 wcsp package (top view) pin functions pin i/o/p pin description name wcsp inl- a4 i inverting left input for differential signals; left input for single-ended signals inl+ b4 i non-inverting left input for differential signals. connect to ground for single-ended input applications inr+ c4 i non-inverting right input for differential signals. connect to ground for single-ended input applications inr- d4 i inverting right input for differential signals; right input for single-ended signals outr d3 o right headphone amplifier output. connect to right terminal of headphone jack hi-z d1 i output impedance select. set to logic low for normal operation and to logic high for high output impedance gain d2 i gain select. set to logic low for a gain of 0db and to logic high for a gain of 6db hpvss c2 p charge pump output and negative power supply for output amplifiers; connect 1 m f capacitor to gnd cpn c1 p charge pump negative flying cap. connect to negative side of 1 m f capacitor between cpp and cpn gnd b1 p ground cpp b2 p charge pump positive flying cap. connect to positive side of 1 m f capacitor between cpp and cpn hpvdd b3 p positive power supply for headphone amplifiers. connect to a 2.2 m f capacitor. do not connect to vdd en a1 i amplifier enable. connect to logic low to shutdown; connect to logic high to activate vdd a2 p positive power supply for TPA6136A2 sgnd c3 i amplifier reference voltage. connect to ground terminal of headphone jack outl a3 o left headphone amplifier output. connect to left terminal of headphone jack copyright ? 2009, texas instruments incorporated 3 product folder link(s) :TPA6136A2 d1 d2 d3 d4 c1 c2 c3 c4 b1 b2 b3 b4 a1 a3 a4 en gnd cpn hi - z vdd cpp hpvss gain outl hpvdd outr inl- inl+ inr+ a2 sgnd inr- board layout concept absolute maximum ratings TPA6136A2 slos621a ? july 2009 ? revised august 2009 ........................................................................................................................................................ www.ti.com over operating free-air temperature range, t a = 25 c (unless otherwise noted) value / unit supply voltage, vdd ? 0.3 v to 6.0 v headphone amplifier supply voltage, hpvdd (do not connect to external supply) ? 0.3 v to 1.9 v v i input voltage (inr+, inr ? , inl+, inl ? ) 1.4 v rms output continuous total power dissipation see dissipation rating table t a operating free-air temperature range ? 40 c to 85 c t j operating junction temperature range ? 40 c to 150 c t stg storage temperature range ? 65 c to 150 c outl, outr 8 kv esd protection ? hbm all other pins 2 kv ordering guide t a packaged devices (1) part number (2) symbol TPA6136A2yffr ? 40 c to 85 c 16 ? ball, 1.6 mm 1.6 mm wcsp aowi TPA6136A2yfft (1) for the most current package and ordering information, see the package option addendum at the end of this document, or see the ti web site at www.ti.com . (2) the yff package is only available taped and reeled. the suffix ? r ? indicates a reel of 3000; the suffix ? t ? indicates a reel of 250. 4 copyright ? 2009, texas instruments incorporated product folder link(s) :TPA6136A2 audio inputs C matched board layout for differential input signals enable control headphoneconnector gnd gain high-z d1 d2 d3 d4 c1 c2 c3 c4 b1 b2 b3 b4 a1 a3 a4 en cpn gain vdd cpp hpvss hi-z outl hpvdd outr inl- inl+ inr+ a2 sgnd inr- battery supply dissipation ratings table recommended operating conditions electrical characteristics TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 t a 25 c t a = 70 c t a = 85 c package derating factor (1) power rating power rating power rating yff (wcsp) 1250 mw 10 mw/ c 800 mw 650 mw (1) see jedec standard 51-3 for low-k board, jedec standard 51-7 for high-k board, and jedec standard 51-12 for using package thermal information. see jedec document page for downloadable copies: http://www.jedec.org/download/default .cfm. min max unit supply voltage, vdd 2.3 5.5 v v ih high-level input voltage; en, gain, hi-z 1.3 v v il low-level input voltage; en, gain, hi-z 0.6 v voltage applied to output; outr, outl (when en = 0 v) ? 0.3 3.6 v voltage applied to output; outr, outl (when en 1.3 v and hi ? z 1.3 v) ? 1.8 1.8 v t a operating free-air temperature ? 40 85 c t a = 25 c (unless otherwise noted) parameter test conditions min typ max unit output offset voltage ? 0.5 0.5 mv power supply rejection ratio v dd = 2.3 v to 5.5 v 100 db high-level output current (en, gain, hi-z) 1 a low-level output current (en, gain, hi-z) 1 a v dd = 2.3 v, no load, en = v dd 2.1 2.8 v dd = 3.6 v, no load, en = v dd 2.1 2.8 supply current ma v dd = 5.5 v, no load, en = v dd 2.2 2.9 v dd = 2.3 v to 5.5 v, no load, en = hi-z = v, 0.7 1.2 shutdown supply current en = 0 v, v dd = 2.3 v to 5.5 v 0.7 1.2 a copyright ? 2009, texas instruments incorporated 5 product folder link(s) :TPA6136A2 operating characteristics TPA6136A2 slos621a ? july 2009 ? revised august 2009 ........................................................................................................................................................ www.ti.com v dd = 3.6 v , t a = 25 c, r l = 16 ? (unless otherwise noted) parameter test conditions min typ max unit thd = 1%, f = 1 khz 25 p o output power (1) (outputs in phase) mw thd = 1%, f = 1 khz, r l = 32 ? 22 v o output voltage (1) (outputs in phase) thd = 1%, v dd = 3.6 v, f = 1 khz, r l = 100 ? 1.1 v rms gain = 0 v, (0 db) ? 0.95 ? 1.0 ? 1.05 a v closed-loop voltage gain (out / in ? ) v/v gain 1.3 v (6 db) ? 1.95 ? 2.0 ? 2.05 a v gain matching between left and right channels 1% gain = 0 v (0 db) 19.8 input impedance (per input pin) gain 1.3 v (6 db) 13.2 r in k ? input impedance in shutdown en = 0 v 10 (per input pin) v cm input common-mode voltage range ? 0.5 1.5 v en = hi-z 1.3 v, f = 10 khz 40 en = hi-z 1.3 v, f = 1 mhz 4.5 k ? output impedance en = hi-z 1.3 v, f = 10 mhz 0.75 en = 0 v (shutdown mode) 25 ? input-to-output attenuation in shutdown en = 0 v 80 db 200 mv pp ripple, f = 217 hz ? 80 -100 ac ac-power supply rejection ratio db psrr 200 mv pp ripple, f = 10 khz -90 p o = 20 mw, f = 1 khz 0.02% thd+n total harmonic distortion plus noise (2) p o = 25 mw into 32 ? , v dd = 5.5 v, f = 1 khz 0.01% snr signal-to-noise ratio p o = 20 mw; gain = 0 v, (a v = 0 db) 100 db e n noise output voltage a-weighted 5.5 m v rms f osc charge pump switching frequency 1200 1275 1350 khz t on start-up time from shutdown 5 ms crosstalk p o = 20 mw, f = 1 khz ? 80 db threshold 150 c thermal shutdown hysteresis 20 c (1) per output channel (2) a-weighted 6 copyright ? 2009, texas instruments incorporated product folder link(s) :TPA6136A2 typical characteristics TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 t a = 25 c, v dd = 3.6 v, gain = 0 db, en = 3.6 v, c hpvdd = c hpvss = 2.2 m f, c input = c flying = 1 m f, outputs in phase total harmonic distortion + noise vs total harmonic distortion + noise vs output power output power figure 1. figure 2. total harmonic distortion + noise vs frequency total harmonic distortion + noise vs frequency figure 3. figure 4. total harmonic distortion + noise vs frequency total harmonic distortion + noise vs frequency figure 5. figure 6. copyright ? 2009, texas instruments incorporated 7 product folder link(s) :TPA6136A2 0.01 0.1 1 10 thd+n - total harmonic distortion + noise - % 0.1 1 10 50 p - output power per channel - mw o v = 2.5 v, in phase dd v = 3.6 v, in phase dd v = 2.5 v, out of phase dd v = 3.6 v, out of phase dd r = 32 , f = 1khz l w 0.1 1 10 50 p - output power per channel - mw o 0.01 0.1 1 10 thd+n - total harmonic distortion + noise - % v = 2.5 v, in phase dd v = 2.5 v, out of phase dd v = 3.6 v, out of phase dd v = 3.6 v, in phase dd r = 16 , f = 1khz l w 20 100 1k 10k 20k f - frequency - hz 0.001 0.01 0.1 1 thd+n - total harmonic distortion + noise - % p = 4 mw per channel o p = 10 mw per channel o p = 1 mw per channel o r = 16 , v = 2.5 v l dd w 0.001 0.01 0.1 1 thd+n - total harmonic distortion + noise - % 20 100 1k 10k 20k f - frequency - hz p = 10 mw per channel o r = 16 , v = 3.6 v l dd w p = 1 mw per channel o p = 20 mw per channel o 20 100 1k 10k 20k f - frequency - hz 0.001 0.01 0.1 1 thd+n - total harmonic distortion + noise - % p = 20 mw per channel o p = 10 mw per channel o p = 1 mw per channel o r = 16 , v = 5 v l dd w 20 100 1k 10k 20k f - frequency - hz 0.001 0.01 0.1 1 thd+n - total harmonic distortion + noise - % p = 4 mw per channel o p = 10 mw per channel o r = 32 , v = 2.5 v l dd w p = 1 mw per channel o TPA6136A2 slos621a ? july 2009 ? revised august 2009 ........................................................................................................................................................ www.ti.com typical characteristics (continued) total harmonic distortion + noise vs frequency total harmonic distortion + noise vs frequency figure 7. figure 8. output power vs supply voltage output power vs supply voltage figure 9. figure 10. output power vs load resistance output power vs load resistance figure 11. figure 12. 8 copyright ? 2009, texas instruments incorporated product folder link(s) :TPA6136A2 0.001 0.01 0.1 1 thd+n - total harmonic distortion + noise - % 20 100 1k 10k 20k f - frequency - hz p = 20 mw per channel o p = 10 mw per channel o p = 1 mw per channel o r = 32 , v = 3.6 v l dd w 0.001 0.01 0.1 1 thd+n - total harmonic distortion + noise - % 20 100 1k 10k 20k f - frequency - hz p = 20 mw per channel o p = 1 mw per channel o r = 32 , v = 5 v l dd w p = 10 mw per channel o 2.5 3 3.5 4 4.5 5 5.5 v - supply voltage - v dd thd+n = 1% thd+n = 10% 0 5 10 15 20 25 30 35 40 45 50 p - output power per channel - mw o r = 16 l w thd+n = 1% thd+n = 10% 2.5 3 3.5 4 4.5 5 5.5 v - supply voltage - v dd 0 5 10 15 20 25 30 35 40 45 50 p - output power per channel - mw o r = 32 l w 1 10 40 10 100 1000 r - load resistance - l w v = 2.5 v, 1% thd+n dd v = 3.6 v, 10% thd+n dd p - output power per channel - mw o f = 1 khz v = 2.5 v, 10% thd+n dd v = 3.6 v, 1% thd+n dd 0 5 10 15 20 25 30 10 100 200 r - load resistance - l w p - output power per channel - mw o thd+n = 1%, v = 3.6 v dd hpvss and flying cap = 2.2 f m hpvss and flying cap = 1 f m hpvss and flying cap = 0.47 f m TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 typical characteristics (continued) output voltage vs supply voltage supply voltage rejection ratio vs frequency figure 13. figure 14. supply voltage rejection ratio vs frequency quiescent supply current vs supply voltage figure 15. figure 16. supply current vs total output power supply current vs total output power figure 17. figure 18. copyright ? 2009, texas instruments incorporated 9 product folder link(s) :TPA6136A2 v = 2.5 v dd v = 3.6 v dd v = 5 v dd 20 100 1k 10k 20k f - frequency - hz r = 16 l w -110 -90 -70 -50 -30 -10 ksvr - supply v oltage rejection ratio - db 0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 2 2.5 3 3.5 4 4.5 5 5.5 v - supply voltage - v dd load = 16 w load = 32 w load = 600 w v - output voltage - v o rms f = 1 khz,thd+n = 1% -110 -90 -70 -50 -30 -10 ksvr - supply v oltage rejection ratio - db 20 100 1k 10k 20k f - frequency - hz v = 2.5 v dd v = 3.6 v dd v = 5 v dd r = 32 l w 0 1 2 3 4 5 6 7 8 9 10 2.5 3 3.5 4 4.5 5 5.5 v - supply voltage - v dd en = 1.3 v, no load quiescent supply current - ma 0.001 0.01 0.1 1 10 50 p - total output power - mw o 1 10 100 i - supply current - ma d d v = 3.6 v dd v = 5 v dd v = 3 v dd v = 2.5 v dd r = 16 , f = 1khz l w 1 10 100 i - supply current - ma dd 0.001 0.01 0.1 1 10 50 p - total output power - mw o v = 2.5 v dd r = 32 , f = 1khz l w v = 3.6 v dd v = 5 v dd v = 3 v dd TPA6136A2 slos621a ? july 2009 ? revised august 2009 ........................................................................................................................................................ www.ti.com typical characteristics (continued) crosstalk vs frequency output spectrum vs frequency figure 19. figure 20. hi-z output impedance vs frequency startup waveforms vs time figure 21. figure 22. shutdown waveforms vs time figure 23. 10 copyright ? 2009, texas instruments incorporated product folder link(s) :TPA6136A2 -150 -130 -110 -90 -70 -50 -30 -10 0 5000 10000 15000 20000 f - frequency - hz v - output amplitude - dbv o single channel, load = 16 , v = 3.6 v w dd -140 -120 -100 -80 -60 -40 -20 0 20 100 1k 10k 20k f - frequency - hz crosstalk - db r = 16 , power = 15 mw, v = 3.6 v l dd w -3 -2 -1 0 1 2 3 4 5 0 2 4 6 8 10 t - time - ms en v out v - voltage - v load = 16 , v = 3.6 v, v = 0.5 v at 1 khz w dd i rms 100 1k 10k 100k 10 100 1000 10k 100k 1m 10m 100m f - frequency - hz z - h-z output impedance - o w v = 3.6 v, en = 3.6 v, hiz = 3.6 v dd left channel right channel -3 -2 -1 0 1 2 3 4 5 0 50 100 150 200 t - time - s m en v out v - voltage - v load = 16 , v = 3.6 v, v = 0.5 w dd i v at 20 khz rms application information application circuit TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 figure 24. typical application configuration with differential input signals figure 25. typical application configuration with single-ended input signals copyright ? 2009, texas instruments incorporated 11 product folder link(s) :TPA6136A2 tpa2012d2 inr+inr- inl+ inl- gnd sgnd outr hpvss cpp cpn vdd hpvdd outl vbat abb tlv320aic3104 outr+ outrC outl+ outlC inr+inr- inl+ inl- outr outl gain enable en hi-z hi-z mode gain TPA6136A2 tlv320dac32 tlv320aic33 pcm1774 or 0.22 f x 4 2.2 f 1 f 1 f 0.22 f x 4 2.2 f inr-inr+ inl-inl+ gnd sgnd outr hpvss cpp cpn vddhpvdd outl TPA6136A2 vbat right in left in en enable gain hi-z hi-z mode gain 1 f 2.2 f 2.2 f 1 f 1 f 1 f gain control high output impedance TPA6136A2 slos621a ? july 2009 ? revised august 2009 ........................................................................................................................................................ www.ti.com the TPA6136A2 has two gain settings which are controlled with the gain pin. the following table gives an overview of the gain function. gain voltage amplifier gain 0.6 v 0 db 1.3 v 6 db table 1. windows vista? premium mobile mode specifications windows premium mobile vista device type requirement TPA6136A2 typical performance specifications thd+n ? 65 db fs [20 hz, 20 khz] ? 75 db fs [20 hz, 20 khz] analog speaker line jack dynamic range with signal [r l = 10 k ? , fs = 0.707 ? 80 db fs a-weight ? 100 db fs a-weight present vrms] line output crosstalk ? 60 db [20 hz, 20 khz] ? 90 db [20 hz, 20 khz] thd+n ? 45 db fs [20 hz, 20 khz] ? 65 db fs [20 hz, 20 khz] analog headphone out jack dynamic range with signal ? 80 db fs a-weight ? 94 db fs a-weight [r l = 32 ? , fs = 0.300 vrms] present headphone output crosstalk ? 60 db [20 hz, 20 khz] ? 90 db [20 hz, 20 khz] the TPA6136A2 has a hi-z control pin that increases output impedance while muting the amplifier. apply a voltage greater than 1.3 v to the hi-z and en pin to activate the hi-z mode. this feature allows the headphone output jack to be shared for other functions besides audio. for example, sharing of a headphone jack between audio and video as shown in figure 26 . the TPA6136A2 output impedance is high enough to prevent attenuating the video signal. maximum external voltage enable voltage hi-z voltage output impedance comments applied to the output pins 0.6 v 0.6 v 20 ? ? 30 ? ? 0.3 v to 3.3 v (1) shutdown mode 0.6 v 1.3 v 20 ? ? 30 ? 1.3 v 0.6 v 1 ? ? active mode 40 k ? @ 10 khz 1.3 v 1.3 v 4.5 k ? @ 1 mhz ? 1.8 v to 1.8 v hi-z mode 750 ? @ 10 mhz (1) if v dd is < 3.3 v, then maximum allowed external voltage applied is v dd in this mode figure 26. sharing one connector between audio and video signals example 12 copyright ? 2009, texas instruments incorporated product folder link(s) :TPA6136A2 + C video buffer/amp (i.e: ths7375) TPA6136A2 75 w outr outl ground sense function headphone amplifiers (1) (2) TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 the ground sense pin, sgnd, reduces ground-loop noise when the audio output jack is connected to a different ground reference than codec and amplifier ground. always connect the sgnd pin to the headphone jack. this reduces output offset voltage and eliminates turn-on pop. figure 27 shows how to connect sgnd when an fm radio antenna function is implemented on the headphone wire. the nh coil and capacitor separate the rf signal from the audio gnd signal. in this case, sgnd is used to eliminate the offset voltage that is generated from the audio signal current and the rf coil low-frequency impedance. the voltage difference between sgnd and agnd cannot be greater than 300 mv. the amplifier performance degrades if the voltage difference between sgnd and agnd is greater than 300 mv. figure 27. typical application circuit using ground sense function single-supply headphone amplifiers typically require dc-blocking capacitors to remove dc bias from their output voltage. the top drawing in figure 28 illustrates this connection. if dc bias is not removed, large dc current will flow through the headphones which wastes power, clips the output signal, and potentially damages the headphones. these dc-blocking capacitors are often large in value and size. headphone speakers have a typical resistance between 16 ? and 32 ? . this combination creates a high-pass filter with a cutoff frequency as shown in equation 1 , where r l is the load impedance, c o is the dc-block capacitor, and f c is the cutoff frequency. for a given high-pass cutoff frequency and load impedance, the required dc-blocking capacitor is found as: reducing f c improves low frequency fidelity and requires a larger dc-blocking capacitor. to achieve a 20 hz cutoff with 16 ? headphones, c o must be at least 500 m f. large capacitor values require large packages, consuming pcb area, increasing height, and increasing cost of assembly. during start-up or shutdown the dc-blocking capacitor has to be charged or discharged. this causes an audible pop on start-up and power-down. large dc-blocking capacitors also reduce audio output signal fidelity. two different headphone amplifier architectures are available to eliminate the need for dc-blocking capacitors. the capless amplifier architecture provides a reference voltage to the headphone connector shield pin as shown in the middle drawing of figure 28 . the audio output signals are centered around this reference voltage, which is typically half of the supply voltage to allow symmetrical output voltage swing. copyright ? 2009, texas instruments incorporated 13 product folder link(s) :TPA6136A2 inr+inr- inl+ inl- gnd sgnd outr hpvss cpp cpn vddhpvdd outl TPA6136A2 vbat codec outr+outr- outl+outl- gain enable en hi-z hi-z mode gain fm tuner nh coil f = c 1 2 r c p l o o c l 1 c = 2 r | p eliminating turn-on pop and power supply sequencing TPA6136A2 slos621a ? july 2009 ? revised august 2009 ........................................................................................................................................................ www.ti.com when using a capless amplifier do not connect the headphone jack shield to any ground reference or large currents will result. this makes capless amplifiers ineffective for plugging non-headphone accessories into the headphone connector. capless amplifiers are useful only with floating gnd headphones. figure 28. amplifier applications the directpath? amplifier architecture operates from a single supply voltage and uses an internal charge pump to generate a negative supply rail for the headphone amplifier. the output voltages are centered around 0 v and are capable of positive and negative voltage swings as shown in the bottom drawing of figure 28 . directpath amplifiers require no output dc-blocking capacitors. the headphone connector shield pin connects to ground and will interface with headphones and non-headphone accessories. the TPA6136A2 is a directpath amplifier. the TPA6136A2 has excellent noise and turn-on / turn-off pop performance. it uses an integrated click-and-pop suppression circuit to allow fast start-up and shutdown without generating any voltage transients at the output pins. typical start-up time from shutdown is 5 ms. directpath technology keeps the output dc voltage at 0 v even when the amplifier is powered up. the directpath technology together with the active pop-and-click suppression circuit eliminates audible transients during start up and shutdown. use input coupling capacitors to ensure inaudible turn-on pop. activate the TPA6136A2 after all audio sources have been activated and their output voltages have settled. on power-down, deactivate the TPA6136A2 before deactivating the audio input source. the en pin controls device shutdown: set to 0.6 v or lower to deactivate the TPA6136A2; set to 1.3 v or higher to activate. 14 copyright ? 2009, texas instruments incorporated product folder link(s) :TPA6136A2 c o c o conventional v out gnd v out gnd v bias capless directpath? gnd v dd v ss rf and power supply noise immunity constant maximum output power and acoustic shock prevention input coupling capacitors (3) (4) charge pump flying capacitor and hpvss capacitor operation with dacs and codecs and input rf noise rejection TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 the TPA6136A2 employs a new differential amplifier architecture to achieve high power supply noise rejection. power supply noise is common in modern electronics. although power supply noise frequencies are much higher than the 20 khz audio band, signal modulation often falls in-band. this, in turn, modulates the supply voltage, allowing a coupling path into the audio amplifier. a common example is the 217 hz gsm frame-rate buzz often heard from an active speaker when a cell phone is placed nearby during a phone call. the TPA6136A2 has excellent rejection of power supply noise, preventing audio signal degradation. typically the output power increases with increasing supply voltage on an unregulated headphone amplifier. the TPA6136A2 maintains a constant output power independent of the supply voltage. thus the design for prevention of acoustic shock (hearing damage due to exposure to a loud sound) is simplified since the output power will remain constant, independent of the supply voltage. this feature allows maximizing the audio signal at the lowest supply voltage. input coupling capacitors block any dc bias from the audio source and ensure maximum dynamic range. input coupling capacitors also minimize TPA6136A2 turn-on pop to an inaudible level. the input capacitors are in series with TPA6136A2 internal input resistors, creating a high-pass filter. equation 3 calculates the high-pass filter corner frequency. the input impedance, rin, is dependent on device gain. larger input capacitors decrease the corner frequency. see the operating characteristics table for input impedance values. for a given high-pass cutoff frequency, the minimum input coupling capacitor is found as: example: design for a 20 hz corner frequency with a TPA6136A2 gain of +6 db. the operating characteristics table gives rin as 13.2 k ? . equation 4 shows the input coupling capacitors must be at least 0.6 m f to achieve a 20 hz high-pass corner frequency. choose a 0.68 m f standard value capacitor for each TPA6136A2 input (x5r material or better is required for best performance). input capacitors can be removed provided the TPA6136A2 inputs are driven differentially with less than 1 v rms and the common-mode voltage is within the input common-mode range of the amplifier. without input capacitors turn-on pop performance may be degraded and should be evaluated in the system. the TPA6136A2 uses a built-in charge pump to generate a negative voltage supply for the headphone amplifiers. the charge pump flying capacitor connects between cpp and cpn. it transfers charge to generate the negative supply voltage. the hpvss capacitor must be at least equal in value to the flying capacitor to allow maximum charge transfer. use low equivalent-series-resistance (esr) ceramic capacitors (x5r material or better is required for best performance) to maximize charge pump efficiency. typical values are 1 m f to 2.2 m f for the hpvss and flying capacitors. although values down to 0.47 m f can be used, total harmonic distortion (thd) will increase. when using amplifiers with codecs and dacs, sometimes there is an increase in the output noise floor from the audio amplifier. this occurs when the output out ? of ? band noise of the codec/dac folds back into the audio frequency due to the limited gain bandwidth product of the audio amplifier. single ? ended rf noise can also fold back into the audio band thus degrading the audio signal even further. copyright ? 2009, texas instruments incorporated 15 product folder link(s) :TPA6136A2 c in in 1 = 2 r c f p in c in 1 c = 2 r | p power supply and hpvdd decoupling capacitors and connections package information package dimensions layout recommendations gnd connections board layout TPA6136A2 slos621a ? july 2009 ? revised august 2009 ........................................................................................................................................................ www.ti.com the TPA6136A2 has a built-in low-pass filter to reduce codec/dac out ? of ? band noise and rf noise, that could fold back into the audio frequency. the TPA6136A2 directpath headphone amplifier requires adequate power supply decoupling to ensure that output noise and total harmonic distortion (thd) remain low. use good low equivalent-series-resistance (esr) ceramic capacitors (x5r material or better is required for best performance). place a 2.2 m f capacitor within 5 mm of the vdd pin. reducing the distance between the decoupling capacitor and vdd minimizes parasitic inductance and resistance, improving TPA6136A2 supply rejection performance. use 0402 or smaller size capacitors if possible. ensure that the ground connection of each of the capacitors has a minimum length return path to the device. failure to properly decouple the TPA6136A2 may degrade audio or emc performance. for additional supply rejection, connect an additional 10 m f or higher value capacitor between vdd and ground. this will help filter lower frequency power supply noise. the high power supply rejection ratio (psrr) of the TPA6136A2 makes the 10 m f capacitor unnecessary in most applications. connect a 2.2 m f capacitor between hpvdd and ground. this ensures the amplifier internal bias supply remains stable and maximizes headphone amplifier performance. warning: do not connect hpvdd directly to vdd or an external supply voltage. the voltage at hpvdd is generated internally. connecting hpvdd to an external voltage can damage the device. the package dimensions for this yff package are shown in the table below. see the package drawing at the end of this data sheet for more details. table 2. yff package dimensions packaged devices d e min = 1530 m m min = 1530 m m TPA6136A2yff max = 1590 m m max = 1590 m m the sgnd pin is an input reference and must be connected to the headphone ground connector pin. this ensures no turn-on pop and minimizes output offset voltage. do not connect more than 0.3 v to sgnd. gnd is a power ground. connect supply decoupling capacitors for vdd, hpvdd, and hpvss to gnd. in making the pad size for the wcsp balls, it is recommended that the layout use non-solder-mask defined (nsmd) land. with this method, the solder mask opening is made larger than the desired land area, and the opening size is defined by the copper pad width. figure 29 and table 3 shows the appropriate diameters for a wcsp layout. for improved rf immunity it is recommended that all signal traces are routed in the middle layers of the multi-layer pcb. the top and bottom layers are used for the supply voltage plane and the gnd plane. 16 copyright ? 2009, texas instruments incorporated product folder link(s) :TPA6136A2 trace width TPA6136A2 www.ti.com ........................................................................................................................................................ slos621a ? july 2009 ? revised august 2009 figure 29. land pattern dimensions table 3. land pattern dimensions (1) (2) (3) (4) solder pad solder mask (5) copper stencil (6) (7) stencil copper pad definitions opening thickness opening thickness non-solder-mask 275 m m 275 m m sq. 230 m m (+0.0, ? 25 m m) 310 m m (+0.0, ? 25 m m) 1 oz max (32 m m) 100 m m thick defined (nsmd) (rounded corners) (1) circuit traces from nsmd defined pwb lands should be 75 m m to 100 m m wide in the exposed area inside the solder mask opening. wider trace widths reduce device stand off and impact reliability. (2) best reliability results are achieved when the pwb laminate glass transition temperature is above the operating the range of the intended application (3) recommend solder paste is type 3 or type 4. (4) for a pwb using a ni/au surface finish, the gold thickness should be less 0,5 mm to avoid a reduction in thermal fatigue performance. (5) solder mask thickness should be less than 20 m m on top of the copper circuit pattern (6) best solder stencil performance is achieved using laser cut stencils with electro polishing. use of chemically etched stencils results in inferior solder paste volume control. (7) trace routing away from wcsp device should be balanced in x and y directions to avoid unintentional component movement due to solder wetting forces. recommended trace width at the solder balls is 75 m m to 100 m m to prevent solder wicking onto wider pcb traces. for high current pins (vdd, hpvdd, hpvss, cpp, cpn, outl, and outr) of the TPA6136A2, use 100 m m trace widths at the solder balls and at least 500 m m pcb traces to ensure proper performance and output power for the device. for the remaining signals of the TPA6136A2, use 75 m m to 100 m m trace widths at the solder balls. the audio input pins (inl ? , inl+, inr ? and inr+) must run side-by-side to maximize common-mode noise cancellation. copyright ? 2009, texas instruments incorporated 17 product folder link(s) :TPA6136A2 copper trace width solder pad width solder maskopening copper trace thickness solder mask thickness packaging information orderable device status (1) package type package drawing pins package qty eco plan (2) lead/ball finish msl peak temp (3) TPA6136A2yffr active dsbga yff 16 3000 green (rohs & no sb/br) snagcu level-1-260c-unlim TPA6136A2yfft active dsbga yff 16 250 green (rohs & no sb/br) snagcu level-1-260c-unlim (1) the marketing status values are defined as follows: active: product device recommended for new designs. lifebuy: ti has announced that the device will be discontinued, and a lifetime-buy period is in effect. nrnd: not recommended for new designs. device is in production to support existing customers, but ti does not recommend using this part in a new design. preview: device has been announced but is not in production. samples may or may not be available. obsolete: ti has discontinued the production of the device. (2) eco plan - the planned eco-friendly classification: pb-free (rohs), pb-free (rohs exempt), or green (rohs & no sb/br) - please check http://www.ti.com/productcontent for the latest availability information and additional product content details. tbd: the pb-free/green conversion plan has not been defined. pb-free (rohs): ti's terms "lead-free" or "pb-free" mean semiconductor products that are compatible with the current rohs requirements for all 6 substances, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. where designed to be soldered at high temperatures, ti pb-free products are suitable for use in specified lead-free processes. pb-free (rohs exempt): this component has a rohs exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between the die and leadframe. the component is otherwise considered pb-free (rohs compatible) as defined above. green (rohs & no sb/br): ti defines "green" to mean pb-free (rohs compatible), and free of bromine (br) and antimony (sb) based flame retardants (br or sb do not exceed 0.1% by weight in homogeneous material) (3) msl, peak temp. -- the moisture sensitivity level rating according to the jedec industry standard classifications, and peak solder temperature. important information and disclaimer: the information provided on this page represents ti's knowledge and belief as of the date that it is provided. ti bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the accuracy of such information. efforts are underway to better integrate information from third parties. ti has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. ti and ti suppliers consider certain information to be proprietary, and thus cas numbers and other limited information may not be available for release. in no event shall ti's liability arising out of such information exceed the total purchase price of the ti part(s) at issue in this document sold by ti to customer on an annual basis. package option addendum www.ti.com 21-aug-2009 addendum-page 1 tape and reel information *all dimensions are nominal device package type package drawing pins spq reel diameter (mm) reel width w1 (mm) a0 (mm) b0 (mm) k0 (mm) p1 (mm) w (mm) pin1 quadrant TPA6136A2yffr dsbga yff 16 3000 180.0 8.4 1.65 1.65 0.81 4.0 8.0 q1 TPA6136A2yffr dsbga yff 16 3000 180.0 8.4 1.65 1.65 0.81 4.0 8.0 q1 TPA6136A2yfft dsbga yff 16 250 180.0 8.4 1.65 1.65 0.81 4.0 8.0 q1 TPA6136A2yfft dsbga yff 16 250 180.0 8.4 1.65 1.65 0.81 4.0 8.0 q1 package materials information www.ti.com 2-oct-2009 pack materials-page 1 *all dimensions are nominal device package type package drawing pins spq length (mm) width (mm) height (mm) TPA6136A2yffr dsbga yff 16 3000 190.5 212.7 31.8 TPA6136A2yffr dsbga yff 16 3000 190.5 212.7 31.8 TPA6136A2yfft dsbga yff 16 250 190.5 212.7 31.8 TPA6136A2yfft dsbga yff 16 250 190.5 212.7 31.8 package materials information www.ti.com 2-oct-2009 pack materials-page 2 important notice texas instruments incorporated and its subsidiaries (ti) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. all products are sold subject to ti?s terms and conditions of sale supplied at the time of order acknowledgment. ti warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with ti?s standard warranty. testing and other quality control techniques are used to the extent ti deems necessary to support this warranty. except where mandated by government requirements, testing of all parameters of each product is not necessarily performed. ti assumes no liability for applications assistance or customer product design. customers are responsible for their products and applications using ti components. to minimize the risks associated with customer products and applications, customers should provide adequate design and operating safeguards. ti does not warrant or represent that any license, either express or implied, is granted under any ti patent right, copyright, mask work right, or other ti intellectual property right relating to any combination, machine, or process in which ti products or services are used. information published by ti regarding third-party products or services does not constitute a license from ti to use such products or services or a warranty or endorsement thereof. use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from ti under the patents or other intellectual property of ti. reproduction of ti information in ti data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. reproduction of this information with alteration is an unfair and deceptive business practice. ti is not responsible or liable for such altered documentation. information of third parties may be subject to additional restrictions. resale of ti products or services with statements different from or beyond the parameters stated by ti for that product or service voids all express and any implied warranties for the associated ti product or service and is an unfair and deceptive business practice. ti is not responsible or liable for any such statements. ti products are not authorized for use in safety-critical applications (such as life support) where a failure of the ti product would reasonably be expected to cause severe personal injury or death, unless officers of the parties have executed an agreement specifically governing such use. buyers represent that they have all necessary expertise in the safety and regulatory ramifications of their applications, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any use of ti products in such safety-critical applications, notwithstanding any applications-related information or support that may be provided by ti. further, buyers must fully indemnify ti and its representatives against any damages arising out of the use of ti products in such safety-critical applications. ti products are neither designed nor intended for use in military/aerospace applications or environments unless the ti products are specifically designated by ti as military-grade or "enhanced plastic." only products designated by ti as military-grade meet military specifications. buyers acknowledge and agree that any such use of ti products which ti has not designated as military-grade is solely at the buyer's risk, and that they are solely responsible for compliance with all legal and regulatory requirements in connection with such use. ti products are neither designed nor intended for use in automotive applications or environments unless the specific ti products are designated by ti as compliant with iso/ts 16949 requirements. buyers acknowledge and agree that, if they use any non-designated products in automotive applications, ti will not be responsible for any failure to meet such requirements. following are urls where you can obtain information on other texas instruments products and application solutions: products applications amplifiers amplifier.ti.com audio www.ti.com/audio data converters dataconverter.ti.com automotive www.ti.com/automotive dlp? products www.dlp.com broadband www.ti.com/broadband dsp dsp.ti.com digital control www.ti.com/digitalcontrol clocks and timers www.ti.com/clocks medical www.ti.com/medical interface interface.ti.com military www.ti.com/military logic logic.ti.com optical networking www.ti.com/opticalnetwork power mgmt power.ti.com security www.ti.com/security microcontrollers microcontroller.ti.com telephony www.ti.com/telephony rfid www.ti-rfid.com video & imaging www.ti.com/video rf/if and zigbee? solutions www.ti.com/lprf wireless www.ti.com/wireless mailing address: texas instruments, post office box 655303, dallas, texas 75265 copyright ? 2009, texas instruments incorporated |
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