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| rev.2.00 jun 15, 2005 page 1 of 48 HA12228F/ha12229f audio signal processor for car deck (decode only dolby b-type nr* with pb amp.) rej03f0134-0200 (previous: ade-207-325a) rev.2.00 jun 15, 2005 description HA12228F/ha12229f are silicon m onolithic bipolar ic providing dolby noise reduction system*, music sensor, pb equalizer system in one chip. notes: 1. dolby is a trademark of dolby laboratories licensing corporation. a license from dolby laboratories licensing corporation is required for the use of this ic. 2. ha12229f is not built-in dolby b-nr. functions ? pb equalizer 2 channel ? music sensor 1 channel ? dolby b-nr (only HA12228F) 2 channel ? line mute sw 2 channel features ? different type of pb equalizer characteristics selection (120 s/70 s) is available with fully electronic control switching built-in. ? easy interface with the pb head. (t he pb-eq resistance self-containing) ? changeable to forward, reverse-mode for pb head with fully electronic control switching built-in. ? available to change music sensing level by external resistor. ? available to change response of music sensor by external capacitor. ? music sensing level, built-in switch to change a band (msg v ). ? nr on/off fully electronic control switching built-in. (only HA12228F) ? line mute control switching built-in. ? available to connect direct with mpu. ? these ics are strong for a cellular phone noise.
HA12228F/ha12229f rev.2.00 jun 15, 2005 page 2 of 48 ordering information operating voltage product min max unit HA12228F ha12229f 6.5 12 v note: 1. these ics are designed to operate on single supply. standard level product package code (previous code) pb-out level HA12228F ha12229f plqp0040jb-a (fp-40b) 300 mvrms function product pb-eq music sensor mute dolby b-nr HA12228F ? ? ? ? ha12229f ? ? ? HA12228F/ha12229f rev.2.00 jun 15, 2005 page 3 of 48 pin description, equivalent circuit (v cc = 9 v single supply, ta = 25 c, no signal, the value in the table shows typical value.) pin no. terminal name note equivalent circuit description 13 msi ms input * 1 4 tai(l) 27 tai(r) v = v cc /2 v cc /2 v 100 k tape input 23 * 2 det(r) 8 * 2 det(l) v = 2.5 v time constant pin for nr rectifier 26 rip v = v cc /2 v cc gnd v ripple filter 5 * 3 bias v = 0.28 v gnd v dolby bias current input 14 msdet ? gnd time constant pin for ms rectifier * 1 25 pbout(r) 6 pbout(l) pb output 12 maout v = v cc /2 v cc gnd v ms amp. output * 1 29 eqout(r) 2 eqout(l) v = v cc /2 v cc gnd v equalizer output notes: 1. ms: music sensor 2. non connection regarding ha12229f. 3. test pin regarding ha12229f. usually open or pull down to gnd with 18 k ? . HA12228F/ha12229f rev.2.00 jun 15, 2005 page 4 of 48 pin description, equivalent circuit (cont.) (v cc = 9 v single supply, ta = 25 c, no signal, the value in the table shows typical value.) pin no. terminal name note equivalent circuit description 30 m-out(r) 1 m-out(l) v = v cc /2 v v cc gnd equalizer output for time constant 37 fin(r) 39 fin(l) ? equalizer input (forward) 35 rin(r) 33 rin(l) ? equalizer input (reverse) 20 mute on/off 21 * 1 nr on/off 19 120/70 17 f/r 18 s/r(ms g v ) ? 22 k gnd 100 k mode control input 16 msout ? i 100 k 200 v cc gnd ms output (to mpu) * 2 10 ms gv(s) 11 ms gv(r) v = v cc /2 v 90 k ms gain terminal * 2 31 nfi(r) 40 nfi(l) v = v cc /2 v to vref v cc equalizer output for time constant notes: 1. non connection regarding ha12229f. 2. ms: music sensor HA12228F/ha12229f rev.2.00 jun 15, 2005 page 5 of 48 pin description, equivalent circuit (cont.) (v cc = 9 v single supply, ta = 25 c, no signal, the value in the table shows typical value.) pin no. terminal name note equivalent circuit description 32 vref1 38 vref2 28 vref3 3 vref4 v = v cc /2 v cc gnd v HA12228F 32 38 r al 3 r al 28 r al * 1 reference output v cc gnd the same as the above. v v ha12229f 32 38 r al 3 r al 28 r al * 1 15 v cc ? v cc pin 36 gnd ? gnd pin 7 9 22 24 34 nc ? note: 1. r al : parasitic metal resistance HA12228F/ha12229f rev.2.00 jun 15, 2005 page 6 of 48 block diagram HA12228F eqout(r) f/r 120/70 ? + ? + pbout(r) nfi(l) m-out(r) m-out(l) dolby b-nr dolby b-nr mute-on/off mute-on/off s/r + + lpf det ? + ? + mute on/ off nr on/ off 120/ 70 ser /rep(ms gv) for /rev msout 31 vref3 tai(r) det(r) 21 22 23 24 25 26 27 rip tai(l) det(l) msgv(s) bias nc nc nc nc 28 29 30 10 9 8 7 6 5 4 3 2 eqout(l) vref4 1 32 33 34 35 36 37 38 39 fin(l) vref2 vref1 nfi(r) gnd nc 40 20 19 18 17 16 15 v cc unit r: ? c: f 14 msdet msi maout 13 msgv(r) 12 11 13k 270k 180 18k f/r 120/70 13k 270k 180 18k fin(r) rin(r) rin(l) pbout(l) + HA12228F/ha12229f rev.2.00 jun 15, 2005 page 7 of 48 ha12229f eqout(r) f/r 120/70 ? + ? + pbout(r) nfi(l) m-out(r) m-out(l) mute-on/off mute-on/off s/r + + lpf det ? + ? + mute on/ off 120/ 70 ser /rep(ms gv) for /rev msout 31 vref3 tai(r) 21 22 23 24 25 26 27 rip tai(l) msgv(s) bias nc nc nc nc nc nc 28 29 30 10 9 8 nc 7 6 5 4 3 2 eqout(l) vref4 1 32 33 34 35 36 37 38 39 fin(l) vref2 vref1 nfi(r) gnd nc 40 20 19 18 17 16 15 v cc unit r: ? c: f 14 msdet msi maout 13 msgv(r) 12 11 13k 270k 180 18k f/r 120/70 13k 270k 180 18k fin(r) rin(r) rin(l) pbout(l) + HA12228F/ha12229f rev.2.00 jun 15, 2005 page 8 of 48 functional description power supply range HA12228F/ha12229f are provided with three line output level, which will permit on optimum overload margin for power supply conditions. and these are designed to operate on single supply only. table 1 supply voltage range product single supply HA12228F ha12229f 6.5 v to 12.0 v note: the lower limit of supply voltage depen ds on the line output reference level. the minimum value of the overload margin is specified as 12 db by dolby laboratories. reference voltage these devices provide the reference voltage of half the supply voltage that is the signal grounds. as the peculiarity of these devices, the capacitor for the ripple filter is very sm all about 1/100 compared with their usual value. the block diagram is shown as figure 1. ? + ? + ? + ? + 15 v cc 26 3 32 28 38 + 36 gnd lch equalizer vref1 vref2 vref3 vref4 rch equalizer ms block lch dolby nr circuit : internal reference voltage rch dolby nr circuit figure 1a the HA12228F block diagram of reference supply voltage ? + ? + ? + 15 v cc 26 32 38 + 36 gnd lch equalizer vref1 vref2 28 vref3 3 vref4 rch equalizer ms block : internal reference voltage line amp. circuit figure 1b the ha12229f block diagram of reference supply voltage HA12228F/ha12229f rev.2.00 jun 15, 2005 page 9 of 48 operating mode control HA12228F/ha12229f provides fully electronic switching circuits. and each operating mode control are controlled by parallel data (dc voltage). when a power supply of this ic is cut off, for a voltage, in addition to a mode control terminal even though as do not destruct it, in series for resistance. table 2 threshold voltage (v th ) pin no. lo hi unit test condition 17, 18, 19, 20, 21* ?0. 2 to 1.0 3.5 to v cc v input pin measure v note: * non connection regarding ha12229f. table 3 switching truth table pin no. pin name lo hi 17 forward/reverse forward reverse 18 search/repeat search (ff or rev) repeat (normal speed) 19 120 /70 70 (metal or chrome) 120 (normal) 20 mute on/off mute-off mute-on 21* nr on/off nr-off nr-on notes: * non connection regarding ha12229f. 1. each pins are on pulled down with 100 k ? internal resistor. therefore, it will be low- level when each pins are open. 2. over shoot level and under shoot level of input signal must be the standardized. (high: v cc , low: ?0.2 v) 3. reducing pop noise is so much better for 10 k ? to 22 k ? resisitor and 1 f to 22 f capacitor shown figure 2. input pin 1 to 22 f mpu 10 to 22k ? + figure 2 interface for reduction of pop noise HA12228F/ha12229f rev.2.00 jun 15, 2005 page 10 of 48 input block diagram and level diagram the each level shown above is typical value when offering pbout level to pbout pin. (eq amp. g v = 40.8db at f = 1khz) note: ha12229f is not built-in dolby b-nr. eqout tai 30mvrms ( ? 28.2dbs) 300mvrms ( ? 8.2dbs) 0.55mvrms ( ? 63dbs) ? + ? + c2 0.1 f c1 0.01 f m-out nfi rin fin vref1 13k ? 180 ? 270k ? vref3 dolby b-nr circuit * pbout 18k ? r2 5.1k ? r1 5.1k ? figure 3 input block diagram adjustment of playback dolby level after replace r5 and r6 with a half-fix volume of 10 k ? , adjust playback dolby level. HA12228F/ha12229f rev.2.00 jun 15, 2005 page 11 of 48 the sensitivity adjustment of music sensor adjusting ms amp. gain by external resistor, the sensitiv ity of music sensor can set up. the music sensor block diagram is shown in figure 4, and frequency response is shown in figure 5. ? + ? + tai(r) tai(l) note: the impedance of msi is 100k ? . c8 0.01 f c6 0.33 f r11 330k ? msout rex2 cex2 rex1 cex1 ms ser ms rep ms amp. 1 ms det ma out msi 100k ? 90k ? + lpf det v cc dv cc l/r signal addition 25khz 20db ? 6db 1 + gnd r l i l micro compute r figure 4 music sensor block diagram g v2 g v1 10 100k 25k 10k 1k f 3 f 4 f 2 f 1 f (hz) g v (db) 100 repeat mode search mode figure 5 frequency response HA12228F/ha12229f rev.2.00 jun 15, 2005 page 12 of 48 1. search mode g v1 = 20db + 20 log 1 + [db] 90k rex2 f 1 = [hz], f 2 = 25k [hz] 1 2 ? cex2 ? rex2 2. repeat mode g v2 = 20db + 20 log 1 + [db] 90k rex1 f 3 = [hz], f 4 = 25k [hz] 1 2 ? cex1 ? rex1 g v ia: lr signal addition circuit gain. the sensitivity of music sensor (s) is computed by the formula mentioned below. s = ? g v * 1 ? 20 log = 12.7 ? g v [db] 130* 3 30* 2 notes: 1. search mode: g v1 , repeat mode: g v2 2. standard level of tai pin (dolby level correspondence) = 30 mvrms 3. standard sensing level of music sensor = 130 mvrms item rex1, 2 cex1, 2 g v1, 2 f 1, 3 f 2, 4 s (one side channel) s (both channel) search mode 24 k ? 0.01 f 33.5 db 663 hz 25 khz ?14.8 db ?20.8 db repeat mode 2.4 k ? 1 f 51.7 db 66.3 hz 25 khz ?33.0 db ?39.0 db note: s is 6 db down in case of one-side channel. and this ms presented hysteresis lest msout terminal should turn over again high level or low level, in case of thresh s level constantly. music sensor time constant 1. sensing no signal to signal (attack) is determined by c6, 0.01 f to 1 f capacitor c6 can be applicable. 2. sensing signal to no signal (recovery) is dete rmined by c6 and r11, ho wever preceding (1), 100 k ? to 1 m ? can be applicable. music sensor output (msout) as for the internal circuit of music sensor block, music sensor output pin is connected to the collector of npn type directly, therefore, output level will be ?high? when sensing no signal. and output level will be ?low? when sensing signal. i l = * msout lo : sensing signal (about 1v) dv cc ? msout lo * r l note: 1. supply voltage of msout pin must be less than v cc voltage. HA12228F/ha12229f rev.2.00 jun 15, 2005 page 13 of 48 the tolerances of external components for dolby nr (only HA12228F) for adequate dolby nr tracking response, take external components shown below. also, leak is small capacity, and please employ a good quality object. 23 det(r) HA12228F 5 r10 18k ? 2% bias c14 0.1 f 10% 8 c7 0.1 f 10% det(l) figure 6 tolerance of external components countermeasure of a cellular phone noise this ic have reinforced a cellular phone noise countermeasure, to show it hereinafter. however, it is presumed that this effect change it greatly, by a mount set. please sufficiently examine an arrangement of positions, shie ld method, wiring pattern, in order to oftain a maximum effect. a high terminal of a noise sensitivity of this ic is fin, rin, nfi and rip. test condition ? use for sg by cellular radio for an evaluation use. ? sg output mode pdc system, burst up tch (transmission mode on the side of a movement machine) ? to evaluate a capacitor of 1000 pf as connecting with it directly. ? about eqout output, what you measure through din/audio filter. note: ref eqout ? + HA12228F nfi sg fin 1000 p ac vm wait din/audio 0.01 m-out 180 270 k 13 k figure 7 test circuit HA12228F/ha12229f rev.2.00 jun 15, 2005 page 14 of 48 frequency (mhz) eqout noise output (dbs) 0 ? 10 ? 20 ? 30 ? 40 ? 50 ? 60 100 1000 10000 fin eqout, v cc = 9 v, vin = 0 dbm HA12228F ha12229f figure 8 eqout noise output vs. transmission frequency characteristic higher harmonic input vin (dbm) eqout noise output (dbs) 10 ? 10 ? 30 ? 20 ? 40 ? 60 ? 50 ? 70 0 ? 80 ? 50 ? 10 ? 40 ? 30 ? 20 20 0 10 fin eqout, v cc = 9 v, f = 900 mhz HA12228F ha12229f figure 9 eqout noise output vs. transm ission signal input level characteristic HA12228F/ha12229f rev.2.00 jun 15, 2005 page 15 of 48 absolute maximum ratings (ta = 25 c) item symbol rating unit note maximum supply voltage v cc max 16 v power dissipation pd 400 mw ta 85 c operating temperature topr ?40 to +85 c storage temperature tstg ?55 to +125 c HA12228F/ha12229f rev.2.00 jun 15, 2005 page 16 of 48 electrical characteristics HA12228F item symbol test condition application terminal ic condition specification input output nr on/off off quiescent current input amp. gain mute on/off 120 / 70 ser/ rep for/ rev off on on on on ? off off b-type decode cut signal handling signal to noise ratio total harmonic distortion mute attenuation channel separation i q g v ia dec 2k (1) vo max s/n thd ctrl (1) ctrl (2) ct mute no signal no signal no signal thd=1% rg=10k ? , ccir/arm rg=680 ? , din-audio thd=1% (ta = 25 c, v cc = 9 v, dolby level 0 db = pbout level 0 db = 300 mvrms, eqout level 0 db = 60 mvrms) off off off off off off ? off off on 70 ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ser ? ? ? ? ? for ? ? control voltage ? v il ?? ? ? ? v ih ?? ?? ? ? pb-eq maximum output level pb-eq t.h.d. v om thd-eq ? ? 120 120 ? ? for for/ rev on on on dec 2k (2) dec 5k (1) dec 5k (2) off off off ? ? ? ? ? ? ? ? ? ? off pbout offset off off ? pb-eq input conversion noise ms sensing level ms output low level ms output leakage current v n v on (1) v on (2) v ol i oh ? off off ? off ? 120 ? ? ? ? ? ser rep ser ? for/ rev ? ? ? for 1k 2k 1k 1k 1k 1k 1k 1k ? ? 1k 1k 2k 5k 5k (1k) 5k 5k 5k ? ? notes: 1. 2. 3. v cc = 12v v cc = 6.5v for inputting signal to one side channel min other 19.0 ? 5.8 12.0 70.0 ? 50.0 70.0 70.0 4.0 ? 0.2 3.5 300 ? ? 10.0 ? 4.7 ? 9.7 ? ? 36.0 ? 18.0 ? ? typ 20.0 ? 4.3 13.0 80.0 0.05 60.0 80.0 80.0 9.5 ? ? 600 0.1 ? 8.5 ? 3.2 ? 8.2 0.7 ? 32.0 ? 14.0 1.0 0.0 rcom 27 27 ? 27 27 27 37 27 27 ? ? 37 37/35 37/35 27 27 ? l 4 4 4 4 4 39 4 4 ? ? 39 39/33 39/33 4 4 ? r 25 25 25 25 25 29 2 25 ? ? 29 29 29 25 ? ? l 6 6 6 6 6 2 29 25 66 25 6 ? ? ???? 2 2 2 6 ? ? 15 17 to 21 16 16 16 max 21.0 ? 2.8 27 4 25 6 ? ? 0.3 ? ? ? 15.0 1.0 v cc ? 0.3 ? 7.0 27 4 25 6 ? 1.7 27 4 25 6 ? 6.7 1.5 ? 28.0 ? 10.0 1.5 2.0 unit remark db db db db db db 2 3 27 4 25 6 16 3 db % db db db ma v v mvrms db % vrms db db v a fin (hz) 0 ? 20 ? (0) 0 ? (+12) (+12) ? ? ? ? ? 30 ? 20 ? 30 ? ? ? 0 ? ? eqout level (db) pbout level (db) ? ? ? ? ? ? ? ? +14db ? ? ? ? ? ? g v eq 1k pb-eq gain g v eq 10k(1) g v eq 10k(2) ? ? ? 120 120 70 ? ? ? for/ rev for for 1k 10k 10k 37.8 33.9 29.6 40.8 36.9 32.6 37/35 37 37 39/33 39 39 29 2 43.8 db db 29 2 29 2 39.9 35.6 ? ? ? 0 0 0 (+20) ? ? ? ? ? ? ? ? off vofs off on ??? ? ? 150 0 ? 25 6 1 150 mv ? ? HA12228F/ha12229f rev.2.00 jun 15, 2005 page 17 of 48 ha12229f item symbol test condition application terminal ic condition specification input output quiescent current input amp. gain mute on/off 120 / 70 ser/ rep for/ rev signal handling signal to noise ratio total harmonic distortion mute attenuation channel separation i q g v ia vo max s/n thd ctrl (1) ctrl (2) ct mute no signal no signal no signal thd=1% rg=10k ? , ccir/arm rg=680 ? , din-audio thd=1% (ta = 25 c, v cc = 9 v, pbout level 0 db = 300 mvrms, eqout level 0 db = 60 mvrms) off off off off off ? off off on 70 ? ? ? ? ? ? ? ? ? ? ? ? ? ? ser ? ? ? ? for ? ? control voltage v il ?? ? ? v ih ?? ? ? pb-eq maximum output level pb-eq t.h.d. v om thd-eq ? ? 120 120 ? ? for for/ rev pbout offset pb-eq input conversion noise ms sensing level ms output low level ms output leakage current v n v on (1) v on (2) v ol i oh ? off off ? off ? 120 ? ? ? ? ? ser rep ser ? for/ rev ? ? ? for 1k 1k 1k 1k 1k 1k 1k ? ? 1k 1k (1k) 5k 5k 5k ? ? notes: 1. 2. 3. v cc = 12v v cc = 6.5v for inputting signal to one side channel min other 19.0 12.0 70.0 ? 50.0 70.0 70.0 3.0 ? 0.2 3.5 300 ? ? ? 36.0 ? 18.0 ? ? typ 20.0 13.0 80.0 0.05 60.0 80.0 80.0 5.0 ? ? 600 0.1 0.7 ? 32.0 ? 14.0 1.0 0.0 rcom 27 ? 27 27 27 37 27 27 ? ? 37 37/35 37/35 27 27 ? l 4 4 4 4 39 4 4 ? ? 39 39/33 39/33 4 4 ? r 25 25 25 25 29 2 25 ? ? 29 29 29 25 ? ? l 6 6 6 6 2 29 25 66 25 6 ? ? ???? 2 2 2 6 ? ? 15 17 to 20 16 16 16 max 21.0 ? ? 0.3 ? ? ? 8.0 1.0 v cc ? 0.3 1.5 ? 28.0 ? 10.0 1.5 2.0 unit remark db db 2 3 27 4 25 6 16 3 db % db db db ma v v mvrms db % vrms db db v a fin (hz) 0 ? (0) 0 ? (+12) (+12) ? ? ? ? ? ? ? 0 ? ? eqout level (db) pbout level (db) ? ? ? ? ? ? ? +14db g v eq 1k pb-eq gain g v eq 10k(1) g v eq 10k(2) ? ? ? 120 120 70 ? ? ? for/ rev for for 1k 10k 10k 37.8 33.9 29.6 40.8 36.9 32.6 37/35 37 37 39/33 39 39 29 2 43.8 db db 29 2 29 2 39.9 35.6 ? ? ? 0 0 0 (+20) ? ? ? ? ? ? ? ? vofs off on ??? ? ? 150 0 ? 25 6 1 150 mv ? ? HA12228F/ha12229f rev.2.00 jun 15, 2005 page 18 of 48 test circuit eqout(r) f/r 120/70 ? + ? + nfi(l) m-out(r) m-out(l) dolby b-nr dolby b-nr mute-on/off mute-on/off s/r sw6 sw8 rin tai lch rch fin sw4 sw2 rin fin tai sw3 ext off on sw12 eq pb eq sw10 rch lch ex sw5 sw7 eq eq pb ex off on sw1 + + + + lpf audio sg dc source3 dc source1 oscillo scope noise meter noise meter with ccir/arm filter and din/audio filter ac vm2 distortion analyzer dc source2 (5v) ac vm1 det ? + ? + mute on/ off ext off on sw11 sw9 pbr pbl ms dc vm ext 70 120 sw13 120/ 70 ser /rep(ms gv) for /rev msout 31 vref3 tai(r) det(r) 21 22 23 24 25 26 27 rip nr on/ off tai(l) det(l) msgv(s) bias nc nc nc nc 28 29 30 10 9 8 7 6 5 4 3 2 eqout(l) vref4 1 32 33 34 35 36 37 38 39 vref2 vref1 nfi(r) gnd nc 40 20 19 18 17 16 15 v cc notes: 1. 2. 3. resistor tolerance 1% capacitor tolerance 1% unit r: ? , c: f 14 msdet msi maout 13 msgv(r) 12 11 13k 270k c3 0.01 r26 680 c19 22 180 18k f/r 120/70 13k 270k 180 18k c18 0.01 c7 0.1 c11 0.01 c10 0.33 c4 0.1 c6 2.2 c13 0.01 r7 5.1k r10 18k r11 10k r18 10k r9 10k r17 24k r15 330k r14 3.9k r8 5.1k r20 5.1k r21 5.1k + r16 2.4k c12 1 c22 100 + r27 680 c21 22 + r1 680 c1 22 + r2 680 c2 22 + + c15 2.2 c17 0.1 c20 1 c14 0.1 r19 10k ext ser rep sw14 ext for rev sw15 HA12228F/ha12229f rev.2.00 jun 15, 2005 page 19 of 48 characteristic curves frequency (hz) decode cut vs. frequency (HA12228F) decode cut (db) 0 ? 4 ? 8 ? 6 ? 2 ? 10 ? 12 100 1k 10k 20k 0db ? 10db ? 40db ? 30db ? 20db v cc = 9 v tai pbout nr-on supply voltage (v) quiescent current vs. supply voltage (HA12228F) 6 9101112 8 7 13 quiescent current (ma) 13 12 11 10 7 9 8 6 no signal all "l" 120 nr-on HA12228F/ha12229f rev.2.00 jun 15, 2005 page 20 of 48 frequency (hz) input amp. gain vs. frequency (HA12228F) gain (db) 30 ? 10 0 10 20 ? 20 10 100k 10k 1k 100 1m v cc = 9 v tai pbout nr-off total harmonic distortion vs. frequency (HA12228F) (1) t.h.d. (%) 1 0.01 0.1 0.001 frequency (hz) 100 1k 10k 20k ? 10 db 0 db 10 db v cc = 9 v tai pbout nr-off HA12228F/ha12229f rev.2.00 jun 15, 2005 page 21 of 48 total harmonic distortion vs. frequency (HA12228F) (2) t.h.d. (%) 1 0.01 0.1 0.001 frequency (hz) 100 1k 10k 20k ? 10 db 0 db 10 db v cc = 9 v tai pbout nr-on output level vout (db) total harmonic distortion vs. output level (HA12228F) (1) ? 15 0 5 10 15 ? 5 ? 10 20 t.h.d. (%) 10 1 0.1 0.01 v cc = 9 v tai pbout 0 db = 300 mvrms nr-off 100 hz 1 khz 10 khz HA12228F/ha12229f rev.2.00 jun 15, 2005 page 22 of 48 output level vout (db) total harmonic distortion vs. output level (HA12228F) (2) ? 15 051015 ? 5 ? 10 20 t.h.d. (%) 10 1 0.1 0.01 v cc = 9 v tai pbout 0 db = 300 mvrms nr-on 100 hz 1 khz 10 khz supply voltage (v) total harmonic distortion vs. supply voltage (HA12228F) (1) 513 12 11 10 9 8 7 6 t.h.d. (%) 1 0.1 0.01 0.001 tai pbout = 300 mvrms nr-off 100 hz 1 khz 10 khz HA12228F/ha12229f rev.2.00 jun 15, 2005 page 23 of 48 supply voltage (v) total harmonic distortion vs. supply voltage (HA12228F) (2) 513 12 11 10 9 8 7 6 t.h.d. (%) 1 0.1 0.01 0.001 tai pbout = 300 mvrms nr-on 100 hz 1 khz 10 khz supply voltage (v) signal handling (HA12228F) 615 14 13 12 11 10 9 8 716 vomax (db) 40 35 30 25 20 15 10 5 0 nr-off nr-on tai pbout = 300 mvrms f = 1 khz, t.h.d. = 1% HA12228F/ha12229f rev.2.00 jun 15, 2005 page 24 of 48 supply voltage (v) signal to noise ratio vs. supply voltage (HA12228F) signal to noise ratio (db) 90 85 80 75 70 65 6 7 8 9 10 11 12 13 nr-off nr-on tai pbout = 300 mvrms f = 1 khz ccir/arm filter frequency (hz) eq amp. gain vs. frequency (HA12228F) eq gain (db) 70 50 40 30 20 10 0 60 ? 10 10 100 100k 10k 1k 1m v cc = 9 v fin eqout 70 120 HA12228F/ha12229f rev.2.00 jun 15, 2005 page 25 of 48 total harmonic distortion vs. frequency (HA12228F) t.h.d. (%) 1 0.01 0.1 0.001 frequency (hz) 100 1k 10k 20k 120 70 v cc = 9 v fin eqout vout = +20 db 0 db = 60 mvrms output level vout (db) total harmonic distortion vs. output level (HA12228F) (1) ? 5 15 20 25 30 0510 35 t.h.d. (%) 10 0.1 1 0.01 0.001 v cc = 9 v fin eqout 120 0 db = 60 mvrms 100 hz 1 khz 10 khz HA12228F/ha12229f rev.2.00 jun 15, 2005 page 26 of 48 output level vout (db) total harmonic distortion vs. output level (HA12228F) (2) ? 5 15 20 25 30 0510 35 t.h.d. (%) 10 0.1 1 0.01 0.001 v cc = 9 v fin eqout 70 0 db = 60 mvrms 100 hz 1 khz 10 khz supply voltage (v) total harmonic distortion vs. supply voltage (HA12228F) (1) 13 12 11 10 9 8 7 6 t.h.d. (%) 1 0.1 0.01 0.001 fin eqout 120 0 db = 60 mvrms vout = +10 db 100 hz 1 khz 10 khz HA12228F/ha12229f rev.2.00 jun 15, 2005 page 27 of 48 supply voltage (v) total harmonic distortion vs. supply voltage (HA12228F) (2) 13 12 11 10 9 8 7 6 13 12 11 10 9 8 7 6 t.h.d. (%) 1 0.1 0.01 0.001 fin eqout 70 0 db = 60 mvrms vout = +10 db 100 hz 1 khz 10 khz supply voltage (v) signal handling (HA12228F) (1) vomax (db) 40 35 30 20 25 15 fin eqout 120 0 db = 60 mvrms f = 1 khz t.h.d. = 1% HA12228F/ha12229f rev.2.00 jun 15, 2005 page 28 of 48 13 12 11 10 9 8 7 6 supply voltage (v) signal handling (HA12228F) (2) vomax (db) 40 35 30 20 25 15 13 12 11 10 9 8 7 6 supply voltage (v) fin eqout 70 0 db = 60 mvrms f = 1 khz t.h.d. = 1% signal to noise ratio vs. supply voltage (HA12228F) signal to noise ratio (db) 80 75 70 65 60 55 50 45 40 120 70 fin eqout 0 db = 60 mvrms f = 1 khz din-audio filter HA12228F/ha12229f rev.2.00 jun 15, 2005 page 29 of 48 frequency (hz) ripple rejection ratio vs. frequency (HA12228F) (1) ripple rejection ratio r.r.r. (db) 20 10 0 ? 20 ? 10 ? 30 ? 50 ? 40 ? 60 10 100 100k 10k 1k nr-on nr-off v cc = 9 v vin = 100 mvrms pbout frequency (hz) ripple rejection ratio vs. frequency (HA12228F) (2) ripple rejection ratio r.r.r. (db) 20 10 0 ? 20 ? 10 ? 30 ? 50 ? 40 ? 60 10 100 100k 10k 1k 70 s 120 s v cc = 9 v vin = 100 mvrms eqout for mode HA12228F/ha12229f rev.2.00 jun 15, 2005 page 30 of 48 frequency (hz) channel separation vs. frequency (HA12228F) (1) channel separation (db) ? 40 ? 50 ? 60 ? 70 ? 80 ? 90 10 100 100k 10k 1k v cc = 9 v fin(l) eqout(l r) vout = +12 db frequency (hz) channel separation vs. frequency (HA12228F) (2) channel separation (db) ? 50 ? 60 ? 70 ? 80 ? 90 ? 100 10 100 100k 10k 1k v cc = 9 v tai(l) pbout(l r) vout = +12 db HA12228F/ha12229f rev.2.00 jun 15, 2005 page 31 of 48 frequency (hz) crosstalk vs. frequency (HA12228F) crosstalk (db) ? 40 ? 50 ? 60 ? 70 ? 80 ? 90 10 100 100k 10k 1k v cc = 9 v fin(l) rin(l) eqout(l) vout = +12 db frequency (hz) mute attenuation vs. frequency (HA12228F) mute attenuation (db) ? 40 ? 60 ? 80 ? 100 ? 120 ? 140 10 100 100k 10k 1k v cc = 9 v tai pbout vout = +12 db HA12228F/ha12229f rev.2.00 jun 15, 2005 page 32 of 48 frequency (hz) ms amp. gain vs. frequency (HA12228F) (1) gain (db) 50 40 30 10 20 0 ? 10 ? 20 10 100 100k 10k 1k v cc = 9 v tai (ser mode) msi maout frequency (hz) ms amp. gain vs. frequency (HA12228F) (2) gain (db) 50 40 30 10 20 0 ? 10 ? 20 10 100 100k 10k 1k v cc = 9 v tai (rep mode) msi maout HA12228F/ha12229f rev.2.00 jun 15, 2005 page 33 of 48 frequency (hz) ms sensing level vs. frequency (HA12228F) ms sensing level (db) 10 100 100k 10k 1k 10 0 ? 10 ? 20 ? 30 ? 40 ser l h ser h l rep l h rep h l v cc = 9 v tai pbout f = 5 khz 0 db = 300 mvrms resistance r15 ( ? ) no-signal sensing time vs. resistance (HA12228F) no-signal sensing time (ms) 1000 10 100 1 10m 100k 1m 10k ser ser ser rep rep rep v cc = 9 v tai pbout nr off f = 5 khz c10 0.33 r15 14 v cc pbout msout 0 db ? 5 db ? 10 db 0 db ? 5 db ? 10 db HA12228F/ha12229f rev.2.00 jun 15, 2005 page 34 of 48 1000 10 100 1 ser ser ser rep rep rep v cc = 9 v tai pbout nr off f = 5 khz 0 db ? 5 db ? 10 db 0 db ? 5 db ? 10 db capacitance c10 ( f) signal sensing time vs. capacitance (HA12228F) signal sensing time (ms) 0.001 0.01 10 1 0.1 c10 r15 330k 14 v cc pbout msout supply voltage (v) quiescent current vs. supply voltage (ha12229f) 6 9101112 8 7 13 quiescent current (ma) 7 6.5 6 5.5 5 4.5 4 no signal all "l" 120 HA12228F/ha12229f rev.2.00 jun 15, 2005 page 35 of 48 frequency (hz) input amp. gain vs. frequency (ha12229f) gain (db) 30 ? 10 0 10 20 ? 20 10 100k 10k 1k 100 1m v cc = 9 v tai pbout total harmonic distortion vs. frequency (ha12229f) t.h.d. (%) 1 0.01 0.1 0.001 frequency (hz) 100 1k 10k 20k ? 10 db 0 db 10 db v cc = 9 v tai pbout HA12228F/ha12229f rev.2.00 jun 15, 2005 page 36 of 48 output level vout (db) total harmonic distortion vs. output level (ha12229f) ? 15 051015 ? 5 ? 10 20 t.h.d. (%) 10 1 0.1 0.01 v cc = 9 v tai pbout 0 db = 300 mvrms 100 hz 1 khz 10 khz supply voltage (v) total harmonic distortion vs. supply voltage (ha12229f) 513 12 11 10 9 8 7 6 t.h.d. (%) 1 0.1 0.01 0.001 tai pbout = 300 mvrms 100 hz 1 khz 10 khz HA12228F/ha12229f rev.2.00 jun 15, 2005 page 37 of 48 supply voltage (v) signal handling (ha12229f) 615 14 13 12 11 10 9 8 716 vomax (db) 40 35 30 25 20 15 10 5 0 tai pbout = 300 mvrms f = 1 khz, t.h.d. = 1% supply voltage (v) signal to noise ratio vs. supply voltage (ha12229f) signal to noise ratio (db) 90 85 80 75 70 65 6789101112 13 tai pbout = 300 mvrms f = 1 khz ccir/arm filter HA12228F/ha12229f rev.2.00 jun 15, 2005 page 38 of 48 frequency (hz) eq amp. gain vs. frequency (ha12229f) eq gain (db) 70 50 40 30 20 10 0 60 ? 10 v cc = 9 v fin eqout 70 120 10 100k 10k 1k 100 1m total harmonic distortion vs. frequency (ha12229f) t.h.d. (%) 1 0.01 0.1 0.001 frequency (hz) 100 1k 10k 20k 120 70 v cc = 9 v fin eqout vout = +20 db 0 db = 60 mvrms HA12228F/ha12229f rev.2.00 jun 15, 2005 page 39 of 48 output level vout (db) total harmonic distortion vs. output level (ha12229f) (2) ? 5 15 20 25 30 0510 35 t.h.d. (%) 10 0.1 1 0.01 0.001 v cc = 9 v fin eqout 70 0 db = 60 mvrms 100 hz 1 khz 10 khz output level vout (db) total harmonic distortion vs. output level (ha12229f) (1) ? 5 15 20 25 30 0510 35 t.h.d. (%) 10 0.1 1 0.01 0.001 v cc = 9 v fin eqout 120 0 db = 60 mvrms 100 hz 1 khz 10 khz HA12228F/ha12229f rev.2.00 jun 15, 2005 page 40 of 48 supply voltage (v) total harmonic distortion vs. supply voltage (ha12229f) (1) 13 12 11 10 9 8 7 6 t.h.d. (%) 1 0.1 0.01 0.001 fin eqout 120 0 db = 60 mvrms vout = +10 db 100 hz 1 khz 10 khz supply voltage (v) total harmonic distortion vs. supply voltage (ha12229f) (2) 13 12 11 10 9 8 7 6 t.h.d. (%) 1 0.1 0.01 0.001 fin eqout 70 0 db = 60 mvrms vout = +10 db 100 hz 1 khz 10 khz HA12228F/ha12229f rev.2.00 jun 15, 2005 page 41 of 48 13 12 11 10 9 8 7 6 supply voltage (v) signal handling (ha12229f) (2) vomax (db) 40 35 30 20 25 15 fin eqout 70 0 db = 60 mvrms f = 1 khz t.h.d. = 1% 13 12 11 10 9 8 7 6 supply voltage (v) signal handling (ha12229f) (1) vomax (db) 40 35 30 20 25 15 fin eqout 120 0 db = 60 mvrms f = 1 khz t.h.d. = 1% HA12228F/ha12229f rev.2.00 jun 15, 2005 page 42 of 48 13 12 11 10 9 8 7 6 supply voltage (v) signal to noise ratio vs. supply voltage (ha12229f) signal to noise ratio (db) 80 75 70 65 60 55 50 45 40 120 70 fin eqout 0 db = 60 mvrms f = 1 khz din-audio filter frequency (hz) ripple rejection ratio vs. frequency (ha12229f) (1) ripple rejection ratio r.r.r. (db) 20 10 0 ? 20 ? 10 ? 30 ? 50 ? 40 ? 60 10 100 100k 10k 1k v cc = 9 v vin = 100 mvrms pbout HA12228F/ha12229f rev.2.00 jun 15, 2005 page 43 of 48 frequency (hz) ripple rejection ratio vs. frequency (ha12229f) (2) ripple rejection ratio r.r.r. (db) 20 10 0 ? 20 ? 10 ? 30 ? 50 ? 40 ? 60 10 100 100k 10k 1k 120 s 70 s v cc = 9 v vin = 100 mvrms eqout for mode frequency (hz) channel separation vs. frequency (ha12229f) (1) channel separation (db) ? 40 ? 50 ? 60 ? 70 ? 80 ? 90 v cc = 9 v fin(l) eqout(l r) vout = +12 db 10 100k 10k 1k 100 HA12228F/ha12229f rev.2.00 jun 15, 2005 page 44 of 48 frequency (hz) crosstalk vs. frequency (ha12229f) crosstalk (db) ? 40 ? 50 ? 60 ? 70 ? 80 ? 90 v cc = 9 v fin(l) rin(l) eqout(l) vout = +12 db 10 100k 10k 1k 100 frequency (hz) channel separation vs. frequency (ha12229f) (2) channel separation (db) ? 50 ? 60 ? 70 ? 80 ? 90 ? 100 v cc = 9 v tai(l) pbout(l r) vout = +12 db 10 100k 10k 1k 100 HA12228F/ha12229f rev.2.00 jun 15, 2005 page 45 of 48 frequency (hz) mute attenuation vs. frequency (ha12229f) mute attenuation (db) ? 40 ? 60 ? 80 ? 100 ? 120 ? 140 v cc = 9 v tai pbout vout = +12 db 10 100k 10k 1k 100 10 100k 10k 1k 100 frequency (hz) ms amp. gain vs. frequency (ha12229f) (1) gain (db) 50 40 30 10 20 0 ? 10 ? 20 v cc = 9 v tai (ser mode) msi maout HA12228F/ha12229f rev.2.00 jun 15, 2005 page 46 of 48 10 100k 10k 1k 100 frequency (hz) ms amp. gain vs. frequency (ha12229f) (2) gain (db) 50 40 30 10 20 0 ? 10 ? 20 v cc = 9 v tai (rep mode) maout msi frequency (hz) ms sensing level vs. frequency (ha12229f) ms sensing level (db) 10 100 100k 10k 1k 10 0 ? 10 ? 20 ? 30 ? 40 ser l h ser h l rep l h rep h l v cc = 9 v tai pbout f = 5 khz 0 db = 300 mvrms HA12228F/ha12229f rev.2.00 jun 15, 2005 page 47 of 48 resistance r15 ( ? ) no-signal sensing time vs. resistance (ha12229f) no-signal sensing time (ms) 1000 10 100 1 10m 100k 1m 10k ser ser ser rep rep rep v cc = 9 v tai pbout f = 5 khz c10 0.33 r15 14 v cc pbout msout 0 db ? 5 db ? 10 db 0 db ? 5 db ? 10 db 1000 10 100 1 ser ser ser rep rep rep v cc = 9 v tai pbout f = 5 khz 0 db ? 5 db ? 10 db 0 db ? 5 db ? 10 db capacitance c10 ( f) signal sensing time vs. capacitance (ha12229f) signal sensing time (ms) 0.001 0.01 10 1 0.1 c10 r15 330k 14 v cc pbout msout HA12228F/ha12229f rev.2.00 jun 15, 2005 page 48 of 48 package dimensions index mark * 3 * 2 * 1 20 21 30 31 10 11 xm y p f 1 40 d e d e b z h e z h d 2 1 1 detail f c a l l a a terminal cross section p 1 1 c b b c p-lqfp40-7x7-0.65 plqp0040jb-a 0.2g mass[typ.] 1.40 1.70 1.0 0 8 0.65 0.12 0.17 0.22 0.20 0.25 0.30 8.8 9.0 9.2 7.0 0.50 9.2 9.0 8.8 0.13 0.10 0.13 7.0 1 e d 1 1 p 1 e d 2 l z z y x c b b a h a e d reference symbol dimension in millimeters min nom max a c e l h previous code jeita package code renesas code fp-40b 0.08 0.22 0.575 0.575 0.40 0.60 0.22 0.15 note) 1. dimensions" * 1"and" * 2" do not include mold flash 2. dimension" * 3"does not include trim offset. e keep safety first in your circuit designs! 1. renesas technology corp. puts the maximum effort into making semiconductor products better and more reliable, but there is al ways the possibility that trouble may occur with them. trouble with semiconductors may lead to personal injury, fire or property damage. remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of nonflammable material or (iii) prevention against any malfunction or mishap. notes regarding these materials 1. these materials are intended as a reference to assist our customers in the selection of the renesas technology corp. product best suited to the customer's application; they do not convey any license under any intellectual property rights, or any other rights, belonging to renesas t echnology corp. or a third party. 2. renesas technology corp. assumes no responsibility for any damage, or infringement of any third-party's rights, originating i n the use of any product data, diagrams, charts, programs, algorithms, or circuit application examples contained in these materials. 3. all information contained in these materials, including product data, diagrams, charts, programs and algorithms represents in formation on products at the time of publication of these materials, and are subject to change by renesas technology corp. without notice due to product improvement s or other reasons. it is therefore recommended that customers contact renesas technology corp. or an authorized renesas technology corp. product distrib utor for the latest product information before purchasing a product listed herein. the information described here may contain technical inaccuracies or typographical errors. renesas technology corp. assumes no responsibility for any damage, liability, or other loss rising from these inaccuracies or e rrors. please also pay attention to information published by renesas technology corp. by various means, including the renesas technolo gy corp. semiconductor home page (http://www.renesas.com). 4. when using any or all of the information contained in these materials, including product data, diagrams, charts, programs, an d algorithms, please be sure to evaluate all information as a total system before making a final decision on the applicability of the information and products. renesas technology corp. assumes no responsibility for any damage, liability or other loss resulting from the information contained herein. 5. renesas technology corp. semiconductors are not designed or manufactured for use in a device or system that is used under cir cumstances in which human life is potentially at stake. please contact renesas technology corp. or an authorized renesas technology corp. product distributor when considering the use of a product contained herein for any specific purposes, such as apparatus or systems for transportation, vehicular, medical, aerosp ace, nuclear, or undersea repeater use. 6. the prior written approval of renesas technology corp. is necessary to reprint or reproduce in whole or in part these materia ls. 7. if these products or technologies are subject to the japanese export control restrictions, they must be exported under a lice nse from the japanese government and cannot be imported into a country other than the approved destination. any diversion or reexport contrary to the export control laws and regulations of japan and/or the country of destination is pro hibited. 8. please contact renesas technology corp. for further details on these materials or the products contained therein. sales strategic planning div. nippon bldg., 2-6-2, ohte-machi, chiyoda-ku, tokyo 100-0004, japan http://www.renesas.com refer to " http://www.renesas.com/en/network " for the latest and detailed information. renesas technology america, inc. 450 holger way, san jose, ca 95134-1368, u.s.a tel: <1> (408) 382-7500, fax: <1> (408) 382-7501 renesas technology europe limited dukes meadow, millboard road, bourne end, buckinghamshire, sl8 5fh, u.k. tel: <44> (1628) 585-100, fax: <44> (1628) 585-900 renesas technology hong kong ltd. 7th floor, north tower, world finance centre, harbour city, 1 canton road, tsimshatsui, kowloon, hong kong tel: <852> 2265-6688, fax: <852> 2730-6071 renesas technology taiwan co., ltd. 10th floor, no.99, fushing north road, taipei, taiwan tel: <886> (2) 2715-2888, fax: <886> (2) 2713-2999 renesas technology (shanghai) co., ltd. unit2607 ruijing building, no.205 maoming road (s), shanghai 200020, china tel: <86> (21) 6472-1001, fax: <86> (21) 6415-2952 renesas technology singapore pte. ltd. 1 harbour front avenue, #06-10, keppel bay tower, singapore 098632 tel: <65> 6213-0200, fax: <65> 6278-8001 renesas sales offices ? 200 5. re nesas technology corp ., all rights reser v ed. printed in ja pan. colophon 2.0 |
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