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specifications of any and all sanyo semiconductor co.,ltd. products described or contained herein stipulate the performance, characteristics, and functions of the described products in the independent state, and are not guarantees of the performance, characteristics, and functions of the described products as mounted in the customer ' s products or equipment. to verify symptoms and states that cannot be evaluated in an independent device, the customer should always evaluate and test devices mounted in the customer ' s products or equipment. any and all sanyo semiconductor co.,ltd. products described or contained herein are, with regard to "standard application", intended for the use as general electronics equipment. the products mentioned herein shall not be intended for use for any "special application" (medical equipment whose purpose is to sustain life, aerospace instrument, nuclear control device, burning appli ances, transportation machine, traffic signal system, safety equipment etc.) that shall require extremely high level of reliab ility and can directly threaten human lives in case of failure or malfunction of the product or may cause harm to human bodies, nor shall they grant any guarantee thereof. if you should intend to use our products for new introduction or other application different from current conditions on the usage of automotive device, communication device, office equipment, industrial equipment etc. , please consult with us about usage condition (temperature, operation time etc.) prior to the intended use. if there is no consultation or inquiry before the intended use, our customer shall be solely responsible for the use. 82912hkpc 018-11-0084 no.a2106-1/11 STK433-060N-E overview the STK433-060N-E is a hybrid ic designed to be used in 50w 2ch class ab audio power amplifiers. application ? audio power amplifiers features ? pin-to-pin compatible outputs ranging from 40w to 150w. ? miniature package. ? output load impedance: r l = 6 recommended. ? allowable load shorted time: 0.3 second ? allows the use of predesigned applications for standby and mute circuit. series model stk433-040n-e STK433-060N-E stk433-130n-e stk433-330n-e output1 (10%/1khz) 40w 2ch 50w 2ch 150w 2ch 150w 3ch output2 (0.4%/20hz to 20khz) 25w 2ch 35w 2ch 100w 2ch 100w 3ch max. rating v cc (quiescent) 38v 46v 71.5v 71.5v max. rating v cc (6 ) 36v 40v 63v 63v recommended operating v cc (6 ) 24v 27v 44v 44v dimensions (excluding pin height) 47.0mm 25.6mm 9.0mm 67.0mm 25.6mm 9.0mm 64.0mm 36.6mm 9.0mm stk433-840n-e stk433-870n-e stk433-890n-e output1 (10%/1khz) 40w 4ch 60w 4ch 80w 4ch output2 (0.4%/20hz to 20khz) 25w 4ch 40w 4ch 50w 4ch max. rating v cc (quiescent) 38v 50v 54v max. rating v cc (6 ) 36v 44v 47v recommended operating v cc (6 ) 25v 30v 34v dimensions (excluding pin height) 64.0mm 31.1mm 9.0mm 78.0mm 44.1mm 9.0mm ordering number : ena2106 thick-film hybrid ic 2channel class-ab audio power ic 50w+50w
STK433-060N-E no.a2106-2/11 specifications absolute maximum ratings at ta = 25 c, tc = 25 c unless otherwise specified parameter symbol conditions ratings unit v cc max (0) non- signal 46 v v cc max (1) signal, r l 6 40 v maximum power supply voltage v cc max (2) signal, r l 4 33 v minimum operation supply voltage v cc min 10 v #13 operating voltage *5 vst off max #13 voltage -0.3 to +5.5 v thermal resistance j-c per one power transistor 3.5 c/w junction temperature tj max 150 c operating substrate temperature tc max should satisfy tj max and tc max 125 c storage temperature tstg -30 to +125 c allowable time for load short-circuit *4 ts v cc = 27v, r l = 6 , f = 50hz p o = 35w, 1ch drive 0.3 s operating characteristics at tc = 25 c, r l = 6 (non-inductive load), rg = 600 , vg = 30db conditions *2 ratings parameter symbol v cc [v] f [hz] p o [w] thd [%] min typ max unit p o 1 27 20 to 20k 0.4 33 35 p o 2 27 1k 10 50 output power *1 p o 3 22 1k 1 r l =4 35 w thd 1 27 20 to 20k 0.4 total harmonic distortion *1 thd 2 27 1k 5.0 vg=30db 0.02 % frequency characteristics *1 f l , f h 27 1.0 +0 -3db 20 to 50k hz input impedance ri 27 1k 1.0 55 k output noise voltage *3 v no 33 rg=2.2k 1.0 mvrms quiescent current i cco 33 no load 15 30 70 ma quiescent current at stand-by i cst 33 vst=0v 1.0 ma output neutral voltage v n 33 -70 0 +70 mv #13 stand-by on threshold *5 vst on 27 stand-by 0 0.6 v #13 stand-by off threshold *5 vst off 27 operation 2.5 3.0 5.5 v note * 1. 1channel operation. * 2. all tests are measured using a constant-voltage supply unless otherwise specified * 3. the output noise voltage is peak value of an average-reading meter with a rms value scale (vtvm). a regulated ac supply (50hz) should be used to e liminate the effects of ac primary line flicker noise * 4. allowable time for load short-circuit and output noise voltage are measured using the specified transformer power supply. * 5. the impression voltage of ?#13 (stand-by) pin? must not exceed the maximum rating. power amplifier operate by impressing voltage +2.5 to +5.5v to ?#13 (stand-by) pin?. * please connect - prev cc pin (#1 pin) with the stable minimum voltage. and connect so that current does not flow in by reverse bias. * in case of heat sink design, we request customer to design in the condition to have assumed market. * the case of this hybrid-ic is using thermosetting silicon adhesive (tse322sx). * weight of hic : (typ) 12.0g outer carton dimensions (wlh) : 452mm325mm192mm specified transformer power supply (equivalent to mg-200) + + 10000 f 500 500 dba40c +v cc -v cc
STK433-060N-E no.a2106-3/11 package dimensions unit : mm (typ) rohs directive pass equivalent circuit 11 12 15 pre driver ch1 pre driver ch2 stand-by circuit 14 3 8 1 2 9 10 13 7 6 4 5 sub 5.0 25.6 12.8 9.0 17.6 4.0 2.9 5.5 0.4 3.6 14 2.0=28.0 2.0 (6.6) 0.5 47.0 41.2 115 (r1.8)
STK433-060N-E no.a2106-4/11 application circuit 12 13 14 15 11 10 9 8 7 6 5 4 3 2 1 stand-by +v cc gnd -pre -v cc +v cc ch1 out ch1 out ch2 out ch2 out +pre STK433-060N-E r23 r20 r08 r21 r09 c10 c01 c02 c11 c03 c23 r11 c13 r12 r30 c14 c20 c19 sub /amp gnd ic gnd ch1 in ch1 nf st-by ch2 nf ch2 in r01 r15 r05 r06 r03 r02 c07 c17 r18 c16 r17 c05 c08 l02 + + r14 l01 + + + + - v cc gnd ch1 out gnd ch2 out ch1 in gnd ch2 in + c04 + pcb layout example top view
STK433-060N-E no.a2106-5/11 stk433-040n-e/060n-e/130n-e/330n-e pcb parts list pcb name : stk403-000sr/100sr/200sr pcba location no. (*2) 2ch amp doesn't mount parts of ( ) . rating component stk433- hybrid ic#1 pin position - 040n-e 060n-e 130n-e/ 330n-e r01 100 , 1w r02, r03, (r04) 1k , 1/6w r05, r06, (r07), r08, r09, (r10) 56k , 1/6w r11, r12, (r13) 1.8k , 1/6w r14, r15, (r16) 4.7 , 1/4w r17, r18, (r19) 4.7 , 1w r20, r21, (r22) 0.22 , 5w c01, c02, c03, c23 (*3) 100 f, 100v c04, c05, (c06) 2.2 f, 50v (*1) c07, c08, (c09) 470pf, 50v c10, c11, (c12) 3pf, 50v c13, c14, (c15) 10 f, 10v (*1) c16, c17, (c18) 0.1 f, 50v c19, c20, (c21) ***p f, 50v 100pf 56pf n.c. r34, r35, (r36) 3k , 1/6w short l01, l02, (l03) 3 h tr1 vce 75v, ic 1ma d1 di r30 (*4) ***k , 1/6w (*4) r31 33k , 1/6w r32 1k , 1/6w r33 2k , 1/6w stand-by control circuit c32 33 f, 10v j1, j2, j3, j4, j5, j6, j8, j9 - j7, js2, js3, js4, js5, js7 js8, js9 - - js6, js10 - js1 (r23) 100 , 1w ( * 1) capacitor mark ?a? si de is ? ? ? (negative). ( * 2) stk433-040n-e/060n-e/130n-e (2ch amp) doesn't mount parts of ( ) ( * 3) add parts c23 to the other side of pcb. ( * 4) recommended standby circuit is used.
STK433-060N-E no.a2106-6/11 recommended external components stk433-040n-e/060n-e/130n-e/330n-e parts location recommended value circuit purpose above recommended value below recommended value r01, r23 100 /1w resistance for ripple filter . (fuse resistance is recommended. ripple filter is constituted with c03, c23.) short-through current may decrease at high frequency. short-through current may increase at high frequency. r02, r03, r04 1k resistance for input filters. - - r05, r06, r07 56k input impedance is determined. output neutral voltage(vn) shift. (it is referred that r05=r08, r06=r09) r08, r09, r10 56k voltage gain (vg) is determined with r11, r12, r13 - - r11, r12, r13 1.8k voltage gain (vg) is determined with r8, r9, r10 (as for vg, it is desirable to set up by r11, r12, r13) it may oscillate. (vg < 30db) with especially no problem r14, r15, r16 4.7 resistance for oscillation prevention. - - r17, r18, r19 4.7 /1w resistance for oscillation prevention. - - r20, r21, r22 0.22 /2w this resistance is used as detection resistance of the protection circuit application. decrease of maximum output power it may cause thermal runaway r30 note *5 select restriction resistance, for the impres sion voltage of ?#17 (stand-by) pin? must not exceed the maximum rating. c01, c02 100 f/50v capacitor for o scillation prevention. ? locate near the hic as much as possible. ? power supply impedance is lowered and stable operation of the ic is carried out. (electro lytic capacitor is recommended.) - - c03, c23 100 f/50v decoupling capacitor ? the ripple ingredient mixed in an input side is removed from a power supply line. (ripple filter is constituted with r01, r23.) the change in the ripple ingredient mixed in an input side from a power supply line c04, c05, c06 2.2 f/50v input coupling capacitor. (for dc current prevention.) - c07, c08, c09 470pf input filter capacitor ? a high frequency noise is reduced with the filter constituted by r02, r03, r04 - c10, c11, c12 3pf capacit or for oscillation prevention. it may oscillate. c13, c14, c15 10 f/10v negative feedba ck capacitor. the cutoff frequency of a low cycle changes. (fl = 1/(2 ? c13 ? r11)) the voltage gain (vg) of low frequency is extended. however, the pop noise at the time of a power supply injection also becomes large. the voltage gain (vg) of low frequency decreases. c16, c17, c18 0.1 f capacitor for oscillation pr evention. it may oscillate. c19, c20, c21 100pf (040n-e) 56pf (060n-e) n.c. (130n-e, 330n-e) capacitor for oscillation pr evention. it may oscillate. l01, l02, l03 3 h coil for oscillation prevention. with especially no problem it may oscillate.
STK433-060N-E no.a2106-7/11 [stk433-000n/-100n/-300nsr pin layout] 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 (size) 47.0mm 25.6mm 9.0mm 2ch classab/2.00mm stk433-040n 40w/jeita stk433-060n 50w/jeita (size) 67.0mm 25.6mm 9.0mm stk433-130n 150w/jeita - p r e - v c c + v c c o u t / c h 1 + o u t / c h 1 - o u t / c h 2 + o u t / c h 2 - + p r e s u b g n d i n / c h 1 n f / c h 1 s t a n d ? b y n f / c h 2 i n / c h 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 (size) 64.0mm 36.6mm 9.0mm 3ch classab/2.00mm stk433-330n 150w/jeita - p r e - v c c + v c c o u t / c h 1 + o u t / c h 1 - o u t / c h 2 + o u t / c h 2 - + p r e s u b g n d i n / c h 1 n f / c h 1 s t a n d ? b y n f / c h 2 i n / c h 2 i n / c h 3 n f / c h 3 o u t / c h 3 + o u t / c h 3 - [stk433-000n/-100n/-800nsr pin layout] 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 (size) 47.0mm 25.6mm 9.0mm 2ch classab/2.00mm stk433-040n 40w/jeita stk433-060n 50w/jeita (size) 67.0mm 25.6mm 9.0mm stk433-130n 150w/jeita - p r e - v c c + v c c o u t / c h 1 + o u t / c h 1 - o u t / c h 2 + o u t / c h 2 - + p r e s u b g n d i n / c h 1 n f / c h 1 s t a n d ? b y n f / c h 2 i n / c h 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 (size) 64.0mm 31.1mm 9.0mm 4ch classab/2.00mm stk433-840n 40w/jeita stk433-870n 60w/jeita (size) 78.0mm 44.1mm 9.0mm stk433-890n 80w/jeita - p r e - v c c + v c c o u t / c h 1 + o u t / c h 1 - o u t / c h 2 + o u t / c h 2 - + p r e s u b g n d i n / c h 1 n f / c h 1 s t a n d ? b y n f / c h 2 i n / c h 2 n f / c h 3 i n / c h 3 i n / c h 4 n f / c h 4 o u t / c h 3 - o u t / c h 3 + o u t / c h 4 - o u t / c h 4 +
STK433-060N-E no.a2106-8/11 characteristic of evaluation board thd ? p o 0.001 2 3 5 7 2 3 5 7 2 3 5 7 2 3 5 7 2 3 5 7 0.01 0.1 1.0 10 100 0 10 20 30 50 40 70 80 90 60 100 0.1 1.0 23 57 23 57 23 57 23 57 23 57 23 57 10 1.0 10 100 1k 10k 20 25 30 35 100 100 output power, p o /ch -- w pd ? p o total power dissipation within the board, pd -- w 0.1 supply voltage, v cc -- v p o ? v cc 0 10 20 30 50 40 60 70 80 90 100 10 20 30 50 40 60 70 80 90 100 15 40 frequency, f -- hz p o ? f output power, p o /ch -- w 0 10 2 3 57 2 3 57 2 3 57 2 3 57 100k output power, p o /ch -- w total harmonic distortion, thd -- % output power, p o /ch -- w f=20khz t h d = 1 0 % t h d = 0 . 4 % thd=10% thd=0.4% f=1khz v cc = 27v r l =6 2ch drive vg=30db rg=600 tc=25 c f=1khz r l =6 2ch drive vg=30db rg=600 tc=25 c v cc = 27v r l =6 2ch drive f=1khz vg=30db rg=600 tc=25 c v cc = 27v r l =6 2ch drive vg=30db rg=600 tc=25 c
STK433-060N-E no.a2106-9/11 a thermal design tip for STK433-060N-E amplifier [thermal design conditions] the thermal resistance ( c-a) of the heat-sink which manages the heat dissipation inside the hybrid ic will be determined as follow: (condition 1) the case temperature (tc) of the hybrid ic should not exceed 125c pd c-a + ta < 125c (1) where ta : the ambient te mperature for the system (condition 2) the junction temperature of e ach power transistor should not exceed 150c pd c-a + pd/n j-c + ta < 150c(2) where n : the number of transistors (two for 1 channel , ten for channel) j-c : the thermal resistance of each transistor (see specification) note that the power consumption of each power transistor is assumed to be equal to the total power dissipation (pd) divided by the number of transistors (n). from the formula (1) and (2), we will obtain: c-a < (125 ? ta)/pd(1)? c-a < (150 ? ta)/pd ? j-c/n(2)? the value which satisfies above formula (1)? and (2)? w ill be the thermal resistance for a desired heat-sink. note that all of the component except power transistors employed in the hybr id ic comply with above conditions. [example of thermal design] generally, the power consumption of actual music signals are being estimated by the continuous signal of 1/8 p o max. (note that the value of 1/8 p o max may be varied from the country to country.) (sample of STK433-060N-E ; 35w2ch) if v cc is 27v, and r l is 6 , then the total power dissipation (pd) of inside hybrid ic is as follow; pd = 33w (at 4.375w output power,1/8 of p o max) there are four (4) transistors in audio sectio n of this hybrid ic, and thermal resistance ( j-c) of each transistor is 3.5c/w. if the ambient temperature (ta) is gu aranteed for 50c, then the thermal resistance ( c-a) of a desired heat- sink should be; from (1)? c-a < (125 ? 50)/33 < 2.27 from (2)? c-a < (150 ? 50)/33 ? 3.5/4 < 2.16 therefore, in order to satisfy both (1)? and (2)?, the th ermal resistance of a desired heat-sink will be 2.16c/w. [note] above are reference only. the samples ar e operated with a constant power suppl y. please verify the conditions when your system is actually implemented.
STK433-060N-E no.a2106-10/11 stk433-000n-e/100n-e series stand-by control & mute control & load-short protection application 12 13 14 15 11 10 9 8 7 6 5 4 3 2 1 -pre 56k 6.8k 22k 56k 10k 10k 10k 2.2k 1k 10k 2.7k 33k 2k 1k 33 f /10v r1 (*4) (*1) v1 latch up circuit mute control h : single mute l : normal stand-by control(ex) h : operation mode(+5v) l : stand-by mode(0v) ch2 out ch1 in gnd ch2 in gnd gnd +v cc load short protection circuit -v cc (*4) r1 is changed depending on the power-supply voltage(-v cc ). please set resistance(r1) to become [v1 ? 0v] by the following calculation types. (*1) please use restriction resistance as there is no stand-by terminal voltage (#13pin) beyond maximun rating (vstmax). stand-by control +5v +5v mute st-by st-by play mute mute control gnd ch1 out 0.1 f 56k 56k 56k 6.8k 0.22k /5w 0.22k /5w -v cc +v cc ch1 out ch1 out ch2 out ch2 out +pre stk433-000n-e/100n-e series sub gnd ch1 in ch1 nf st-by ch2 nf ch2 in + + + + + + + + + [stk433-000n-e/100n-e series stand-by control example] [feature] ? the pop noise which occurs to the time of power supply on/off can be improved substantially by recommendation stand-by control application. ? stand-by control can be done by additionally adjusting th e limitation resistance to the voltage such as miccom, the set design is easy. (reference circuit) stk4 33-000n-e/100n-e series test circuit to stand-by control added +5v. 12 13 14 15 11 10 9 8 7 6 5 4 3 2 1 -pre -v cc +v cc ch1 out ch1 out ch2 out ch2 out +pre stk433-000n-e/100n-e series sub/amp gnd ic gnd ch1 in vbe vbe ist stand-by circuit in predriver ic stand-by control h : operation mode(+5v) l : stand-by mode(0v) switching transistor in the bias circuit #13pin stand-by off threshold. ex)stand-by control voltage vst=+5v vst is set by the limitation resistance(*1). . ist=(vst-vbe*2)/((*1)+(*2)) =(5v-0.6v*2)/(4.7k +2.7k ) ? 0.513(ma) . vst=ist 4.7k +vbe=0.513 4.7k+0.6 ? 3.0v ch1 nf st- by ch2 nf ch2 in 2.7k (*1) 33k 2k (*3) 1k (*3) 33 f (*2) + 4.7k (*2) vst [operation explanation] #13pin stand-by control voltage vst (1) operation mode the switching transistor in the bias circuit turns on and places the amplifie r into the operating mode, when 13pin (vst) voltage added above 2.5v (typ 3.0v). (2) stand-by mode when 13pin (vst) voltage is stopped (= 0v), the switching transistor in the bias circuit turn off. placing the amplifier into the standby mode. ( * 1) the current limiting resistor must be used to ensure that stand-by pin (13pin) voltage does not exceed its maximum rated value vst max. ( * 2) the pop noise level when the power is turned on can be reduced by setting the time constant with a capacitor in operating mode. ( * 3) determines the time constant at which the capacitor ( * 2) is discharged in stand-by mode.
STK433-060N-E no.a2106-11/11 ps this catalog provides information as of august, 2012. specifications and information herein are subject to change without notice. sanyo semiconductor co.,ltd. assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specif ications of any and all sanyo semiconductor co.,ltd. products described or contained herein. regarding monolithic semiconductors, if you should intend to use this ic continuously under high temperature, high current, high voltage, or drastic temperature change, even if it is used within the range of absolute maximum ratings or operating conditions, there is a possibility of decrease reliability. please contact us for a confirmation. sanyo semiconductor co.,ltd. strives to supply high-quality high-reliability products, however, any and all semiconductor products fail or malfunction with some probability. it is possible that these probabilistic failures or malfunction could give rise to accidents or events that could endanger human lives, trouble that could give rise to smoke or fire, or accidents that could cause damage to other property. when designing equipment, adopt safety measures so that these kinds of accidents or events cannot occur. such measures include but are not limited to protective circuits and error prevention circuits for safe design, redundant design, and structural design. in the event that any or all sanyo semiconductor co.,ltd. products described or contained herein are controlled under any of applicable local export control laws and regulations, such products may require the export license from the authorities concerned in accordance with the above law. no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying and recording, or any information storage or retrieval system, or otherwise, without the prior written consent of sanyo semiconductor co.,ltd. any and all information described or contained herein are subject to change without notice due to product/technology improvement, etc. when designing equ ipment, refer to the "delivery specification" for the sanyo semiconductor co.,ltd. product that you intend to use. upon using the technical information or products described herein, neither warranty nor license shall be granted with regard to intellectual property rights or any other rights of sanyo semiconductor co.,ltd. or any third party. sanyo semiconductor co.,ltd. shall not be liable for any claim or suits with regard to a third party's intellectual property rights which has resulted from the use of the technical information and products mentioned above.

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