View STA516BE13TR_8830629.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

sta516be 500 w ffx digital amplifier power stage datasheet - production data features ? output power at 56 v supply voltage ? 2 x 250 w at 10% thd + n into 6 btl ? 2 x 200 w at 10% thd + n into 8 btl ? 4 x 130 w at 10% thd + n into 3 se ? 4 x 100 w at 10% thd + n into 4 se ? 1 x 480 w at 10% thd + n into 3 pbtl ? 1 x 380 w at 10% thd + n into 2 pbtl ? output power at 52 v supply voltage ? 2 x 200 w at 10% thd + n into 6 btl ? 4 x 100 w at 10% thd + n into 3 se ? 1 x 400 w at 10% thd + n into 2 pbtl ? < 0.1% thd + n at 1 w ? pso - 36 thermally enhanced package ? minimum input / output pulse width distortion ? high efficiency power stage (> 90%) with 190 m rdson ? cmos compatible logic inputs ? integrated self protection circuits including overtemperature, undervoltage, overvoltage, overload, short - circuit ? emi compliant when used with recommended system design ? automatic recovery mode after fault conditions applications ? home theater ? dvd receiver ? mini / micro audio systems description sta516be is a monolithic quad half - bridge stage in multipower bcd technology. the device can be used as dual bridge or reconfigured, by connecting pin config to pins vdd, as a single bridge with double - current capability or as a half bridge (binary mode) with half - current capability. a cost - effective, high fidelity audio system can be designed using st chipset, including a modulator (e.g. sta309a or sta321) and the sta516be. this system only requires a simple passive lc demodulation filter to deliver high - quality, high efficiency audio amplification with pr ove emi compliance. the efficiency of this digital amplifier is greater than 90% into 8 speakers, enabling the use of smaller power supplies and heatsinks. the sta516be has an innovative integrated protection system, safeguarding the device against diffe rent fault conditions that could damage the overall system. table 1: device summary part number temperature range package packing STA516BE13TR 0 to 90 c powerso36 epu tape and reel april 2014 docid026166 rev 1 1 / 20 this is information on a product in full production. www.st.com
contents sta516be contents 1 general information ........................................................................ 3 2 pin description ................................................................................ 4 3 electrical characteristics ................................................................ 6 3.1 test circuits ....................................................................................... 9 4 power supply and control sequencing ........................................ 10 5 technical information ................................................................... 12 5.1 logic interface and decod e ............................................................. 12 5.2 protection circuitry ........................................................................... 13 5.3 power outputs ................................................................................. 13 5.4 parallel output / high current operation ........................................... 13 5.5 outpu t filtering ................................................................................. 13 6 audio application circuits ............................................................. 14 7 package mechanical data ............................................................. 16 8 revision history ............................................................................ 19 2 / 20 docid026166 rev 1
sta516be general information 1 general information the sta516be is a second generation, high performance, integrated stereo digital amplifier power stage with improved protection system. it is capable of driving a 6 w b ridge tied load (btl) at up 250 w per channel with very low noise at the output, low thd+n and low idle power dissipation. the sta516be is available in powerso - 36 slug up package. the package contains a heat slug that is located on the top side of the devi ce for convenient thermal coupling to the heatsink. docid026166 rev 1 3 / 20
pin description sta516be 2 pin description figure 1 : pin out table 2: pin function pin name type description 1 gnd_sub pwr substrate ground 2, 3 out2b o output half bridge 2b 4 vcc2b pwr positive supply 5 gnd2b pwr negative supply 6 gnd2a pwr negative supply 7 vcc2a pwr positive supply 8, 9 out2a o output half bridge 2a 10, 11 out1b o output half bridge 1b 12 vcc1b pwr positive supply 13 gnd1b pwr negative supply 14 gnd1a pwr negative supply 15 vcc1a pwr positive supply 16, 17 out1a o output half bridge 1a 18 n.c. - no internal connection 19 gnd_clean pwr logical ground 20 gnd_reg pwr ground for regulator v dd 21, 22 vdd pwr 5 - v regulator referred to ground 23 vl pwr high logical state setting voltage, v l 24 config i configuration pin: 0: normal operation vcc_ s i g n vcc_ s i g n vs s vs s in2 b in2 a in1 b in1 a t h _ w a r n f a u l t t r is t a t e pwrd n c o n f i g v l v d d v d d gnd_re g g nd _ c l e a n sub _ gn d ou t 2 b ou t 2 b vcc2 b gnd2 b gnd2 a vcc2 a ou t 2 a ou t 2 a ou t 1 b ou t 1 b vcc1 b gnd1 b gnd1 a vcc1 a ou t 1 a ou t 1 a n. c . 3 6 3 5 3 4 3 3 3 2 3 1 3 0 2 9 2 8 2 7 2 6 2 5 2 4 2 3 2 2 2 1 2 0 1 9 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 s t a516b e 4 / 20 docid026166 rev 1
sta516be pin description pin name type description 1: bridges in parallel (out1a = out1b, out2a = out2b (if in1a = in1b, in2a = in2b)) 25 pwrdn i standby pin: 0: low - power mode 1: normal operation 26 tristate i hi - z pin: 0: all power amplifier outputs in high impedance state 1: normal operation 27 fault o fault pin advisor (open - drain device, needs pull - up resistor): 0: fault detected (short circuit or thermal, for example) 1: normal operation 28 th_warn o thermal warning advisor (open - drain device, needs pull - up resistor): 0: temperature of the ic >130 c 1: normal operation 29 in1a i input of half bridge 1a 30 in1b i input of half bridge 1b 31 in2a i input of half bridge 2a 32 in2b i input of half bridge 2b 33, 34 vss pwr 5 - v regulator referred to +v cc 35, 36 vcc_sign pwr signal positive supply docid026166 rev 1 5 / 20
electrical characteristics sta516be 3 electrical characteristics table 3: absolute maximum ratings symbol parameter value unit v cc_max dc supply voltage (pins 4, 7, 12, 15) 65 v v max maximum voltage on pins 23 to 32 5.5 v t j_max operating junction temperature 0 to 150 c t stg storage temperature - 40 to 150 c stresses beyond those listed under ?absolute maximum ratings? make cause permanent damage to the device. these are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under ?recommended operating condition? are not implied. exposure to absolute - maximum - rated conditions for extended periods may affect device reliability. in the real application, power supply with nominal value rated inside recommended operating conditions, may experience some rising beyond the maximum operating condition for short time when no or very low current is sinked (amplifier in mute state). in this case the reliability of the d evice is guaranteed, provided that the absolute maximum rating is not exceeded. table 4: thermal data symbol parameter min typ max unit t j - case thermal resistance junction to case (thermal pad) - 1 2.5 c/w t warn thermal warning temperature - 130 - c t jsd thermal shut - down junction temperature - 150 - c t hsd thermal shut - down hysteresis - 25 - c table 5: recommended operating conditions symbol parameter min typ max unit v cc supply voltage for pins pvcca, pvccb 10 - 60 v t amb ambient operating temperature 0 - 90 c unless otherwise stated, the test conditions for table 6: "electrical characteristics " below are v l = 3.3 v, v cc = 50 v and t amb = 25 c table 6: electrical characteristics symbol parameter test co nditions min typ max unit r dson power p - channel/n - channel mosfet r dson i dd = 1 a - 190 240 m i dss power p - channel/n - channel leakage idss - - - 50 a g n power p - channel r dson matching i dd = 1 a 95 - - % 6 / 20 docid026166 rev 1
sta516be electrical characteristics symbol parameter test co nditions min typ max unit g p power n - channel r dson matching i dd = 1 a 95 - - % dt_s low current dead time (static) see figure 2: "test circuit" - 10 20 ns dt_d high current dead time (dynamic) l = 22 h, c = 470 nf r l = 8 , i dd = 4.5 a see figure 3: "current dead- time test circuit" - - 50 ns t d on turn - on delay time resistive load - - 100 ns t d off turn - off delay time resistive load - - 100 ns t r rise time resistive load see figure 2: "test circuit" - - 25 ns t f fall time resistive load see figure 2: "test circuit" - - 25 ns v in - high high level input voltage - - - v l / 2 + 300 mv v v in - low low level input voltage - v l / 2 - 300 mv - - v i in - h high level input current v in = v l - 1 - a i in - l low level input current v in = 0.3 v - 1 - a i pwrdn - h high level pwrdn pin input current v l = 3.3 v - 35 - a v low low logical state voltage (pins pwrdn, tristate) (see table 7: "threshold switching voltage variation with voltage on pin vl" ) v l = 3.3 v 0.8 - v v high high logical state voltage (pins pwrdn, tristate) (see table 7: "threshold switching voltage variation with voltage on pin vl" ) v l = 3.3 v - 1.7 v i vcc - pwrdn supply current from v cc in power down v pwrdn = 0 v - - 2.4 ma i fault output current on pins fault, th_warn with fault condition v pin = 3.3 v - 1 - ma i vcc - hiz supply current from v cc in tristate v tristate = 0 v - 22 - ma i vcc supply current from v cc in operation, both channels switching) input pulse width = 50% duty, switching frequency = 384 khz, no lc filters - 70 - ma docid026166 rev 1 7 / 20
electrical characteristics sta516be symbol parameter test co nditions min typ max unit i ocp overcurrent protection threshold i sc (short - circuit current limit) (1) - 8.5 9.5 11 a v uvp undervoltage protection threshold - - 7 - v v ovp overvoltage protection threshold - 61 62.5 v t pw_min output minimum pulse width no load 50 - 110 ns notes: (1) see specific application note number: an1994 table 7: threshold switching voltage variation with voltage on pin vl voltage on pin vl, v l v low max v high min unit 2.7 1.05 1.65 v 3.3 1.4 1.95 v 5.0 2.2 2.8 v table 8: logic truth table pin tristate inputs as per figure 3: "current dead - time test circuit" transistors as per figure 3: "current dead - time test circuit" output mode inxa inxb q1 q2 q3 q4 0 x x off off off off hi z 1 0 0 off off on on dump 1 0 1 off on on off negative 1 1 0 on off off on positive 1 1 1 on on off off not used 8 / 20 docid026166 rev 1
sta516be electrical characteristics 3.1 test circuits figure 2 : test circuit figure 3 : current dead - time test circuit l o w cu r r e n t dead time = m a x( d t r , d t f ) ou t xy v c c (3/4) v c c (1/2) v c c (1/4) v c c t d tf d t r d u t y c y cle = 50% i n xy ou t xy g nd + v c c m58 m57 r 8 ? + - v67 = v dc = v c c/2 d03 a u1458 high current dead time for bridge application = abs(dtout(a)-dtin(a))+abs(dtout(b)-dtin(b)) +v cc rload=8 w q2 outxb dtout(b) dtin(b) dtout(a) c71 470nf c70 470nf c69 470nf iout=4.5a iout=4.5a q4 q1 q3 m64 inxb m63 d00au1162 m58 inxa m57 dtin(a) duty cycle=a duty cycle=b duty cycle a and b: fixed to have dc output current of 4.5a in the direction shown in figure l68 22 m l67 22 m outxa docid026166 rev 1 9 / 20
power supply and control sequencing sta516be 4 power supply and control sequencing to guarantee correct operation and reliability, the recommended power - on sequence as given below should be followed: ? apply v cc and v l , in any order, keeping pwrdn low in this phase ? release pwrdn from low to high, keeping tristate low (until v dd and v ss are stable) ? release tristate from low to high always maintain pwm inputs inxy < v l . figure 4 : power - on sequence v cc should be turned on before v l . this prevents uncontrolled current flowing through the internal protection diode connected between v l (logic supply) and v cc (high power supply). which could result in damage to the device. pwrdn mu st be released after v l is switched on. an input signal can then be sent to the power stage. 10/ 20 docid026166 rev 1
sta516be power supply and control sequencing figure 5 : power - off sequence docid026166 rev 1 11/ 20
technical information sta516be 5 technical information the sta516be is a dual channel h - bridge that is able to deliver 200 w per channel (into r l = 6 w with thd = 10% and v cc = 51v) of audio output power very efficiently. it operates in conjunction with a pulse - width modulator driver such as the sta321 or sta309a. the sta516be converts ternary, phase - shift or binary - controlled pwm signals into audio power at the load. it includes a logic interface, integrated bridge driver s, high efficiency mosfet outputs and thermal and short - circuit protection circuitry. in differential mode (ternary, phase - shift or binary differential), two logic level signals per channel are used to control high - speed mosfet switches to connect the spea ker load to the input supply or to ground in a bridge configuration, according to the damped ternary modulation operation. in binary mode, both full bridge and half bridge modes are supported. the sta516be includes overcurrent and thermal protection as wel l as an undervoltage lockout with automatic recovery. a thermal warning status is also provided. figure 6 : block diagram of full - bridge ffx? or binary mode figure 7 : block diagram of binary half - bridge mo de 5.1 logic interface and decode the sta516be power outputs are controlled using one or two logic - level timing signals. in order to provide a proper logic inter face, the vl input must operate at the same voltage as the ffx control logic supply. i nl[1,2] i n r[1,2] v l pwrd n t r is t a te f a u l t t h w ar n out p l outn l out p r outn r l e ft h - b r idge lo g i c inte r f a c e an d d ec ode protection regulators ri g ht h-b r id g e inl[1,2] i n r[1,2] v l pwrd n t r is t a te f a u l t t h w arn outp l outn l outp r outn r l efta ? - b r idge l o gic int er f a c e a n d d e code protec t i on regulator s l eftb ? - b r idge r i ghta ? - b r idge rightb ?-b r id g e 12/ 20 docid026166 rev 1
sta516be technical information 5.2 protection circuitry the sta516be includes protection circuitry for overcurrent and thermal overload conditions. a thermal warning pin (thwarn, pin 28, open drain mosfet) is activated low when the ic temperature exceeds 130 c, just in advance of thermal shutdown. when a fault condition is detected an internal fault signal immediately disables the output power mosfets, placing both h - bridges in a high - impedance state. at the same time the opendrain mosfet of pin fault (pin 27) is switched on. there are two possible modes subsequent to activating a fault. ? shutdown mode : with pins fault (with pull - up resistor) and tristate separate, an activated fault disables the device, signaling a low at pin fault output. ? the device may subsequently be reset to normal operation by toggling pin tristate from high to low to high using an external logic signal. ? automatic recovery mode: this is shown in the applications circuits below where pins fault and tristate are connected together to a timeconstant circuit (r59 and c58). ? an activated fault forces a reset on pin tristate causing normal operation to r esume following a delay determined by the time constant of the circuit. ? if the fault condition persists, the circuit operation repeats until the fault condition is cleared. ? an increase in the time constant of the circuit produces a longer recovery interval . care must be taken in the overall system design not to exceed the protection thresholds under normal operation. 5.3 power outputs the sta516be power and output pins are dupl icated to provide a low - impedance path for the device bridged outputs. all duplicate power, ground and output pins must be connected for proper operation. the pwrdn or tristate pin should be used to set all power mosfets to the highimpedance state during p ower - up until the logic power supply, v l , has settled. 5.4 parallel output / high current operation when using the ffx mode output, the sta516be output s can be connected in parallel in order to increase the output current capability to a load. in this configuration the sta516be can provide up to 240 w into a 3 load. this mode of operation is enabled with the pin config (pin 24) connected to pin vdd. th e inputs are joined so that in1a = in1b, in2a = in2b and similarly the outputs out1a = out1b, out2a = out2b as shown in figure 9: "typical mono - btl (pbtl) configuration" . 5.5 output filtering a passive 2nd - order filter is used on the sta516be power outputs to reconstruct the analog audio signal. system performance can be significantly affected by the output filter design and choice of passive components. a filter design for 6 or 8 loads is shown in the application circuit of figure 8: "typical audio application circuit (dual btl)" , and for 3 or 4 loads in figure 9: "typical m ono - btl (pbtl) configuration" and figure 10: "typical quad half - bridge configuration (quad single ended)" . docid026166 rev 1 13/ 20
audio application circuits sta516be 6 audio application circuits figure 8: "typical audio application circuit (dual btl)" shows a stereo - btl configuration capable of giving 210 w per channel in to a 6 load at 10% thd with v cc = 52 v. this result was obtained using the sta309a+sta516b demo board. figure 8 : typical audio application circuit (dual btl) figure 9: "typical mono - btl (pbtl) configuration" below shows a single - btl configuration capable of giving 400 w into a 3 load at 10% thd with v cc = 52 v. sta516be can also drive 2 speakers as single - btl configuration, to provide up to 280 w per channel at 10% thd with v cc = 37 v. figure 10: "typical quad half - bridge configuration (quad single ended)" below shows a quad- se configuration capable of giving 110 w into a 3 load at 10% thd with v cc = 54 v. sta516be can also drive 2 speakers as quad - se con figuration, to provide up to 80 w per channel at 10% thd with v cc = 38 v. all results were obtained using the sta309a+sta516b demo board. note that a pwm modulator as driver is required to feed the sta516be. l18 22 m h l19 22 m h c30 1 m f c20 100nf c99 100nf c101 100nf c107 100nf c106 100nf c23 470nf c55 1000 m f c21 100nf c58 100nf c58 100nf r57 10k r59 10k r63 20 r98 6 r100 6 c53 100nf c60 100nf c31 1 m f c52 330pf r104 20 c109 330pf 15 m3 in1a in1a v l config pwrdn pwrdn fault tri-state th_war th_war +3.3v in1b v dd v dd v ss v ss v cc sign v cc sign gnd-reg gnd-clean in2a in1b in2a in2b protections & logic regulators 29 23 24 25 27 26 28 30 21 22 33 34 35 36 m2 m5 m4 17 16 out1a gnd1a out1a v cc 1a 14 12 10 11 out1b gnd1b out1b v cc 1b 13 l113 22 m h l112 22 m h c32 1 m f +v cc c108 470nf c33 1 m f 7 m17 m15 m16 m14 8 9 out2a gnd2a out2a v cc 2a 6 4 2 3 out2b gnd2b d00au1148b out2b v cc 2b 5 19 31 20 gndsub 1 in2b 32 c110 100nf c111 100nf r103 6 r102 6 8 w 8 w 14/ 20 docid026166 rev 1
sta516be audio a pplication circuits figure 9 : typical mono - btl (pbtl) configuration figure 10 : typical quad half - bridge configuration (quad single ended) for more information, refer to the application note an1994. 12 m h 12 m h 100nf film 100nf x7r 100nf x7r 1 m f x7r 2200 m f 63v 680nf film 100nf film 100nf 10k 10k 6.2 1/2w 6.2 1/2w 100nf x7r 100nf x7r add. in1a in1a v l config pwrdn npwrdn fault tri-state th_war th_war +3.3v 100nf 100nf x7r in1b v dd v dd v ss v ss v cc sign v cc sign gnd-reg gnd-clean in1b in2a 29 23 n.c. 24 25 27 26 28 30 21 22 33 34 35 36 17 16 18 out1a gnd1b out1a v cc 1b 10 13 11 out1b gnd1a out1b 14 +36v 330pf 22 w 1/2w 4 w gnd2a 6 2 12 v cc 1a 15 v cc 2b 4 v cc 2a 7 3 out2b gnd2b d04au1545 out2b 5 19 31 20 gndsub 1 in2b 32 8 9 out2a out2a 1 m f x7r +36v l11 22 m h l12 22 m h c51 1 m f c71 100nf c91 1 m f c81 100nf c31 820 m f c21 2200 m f c58 100nf c58 100nf r57 10k r59 10k r41 20 r61 5k r62 5k r51 6 c53 100nf c60 100nf c61 100nf 15 m3 in1a in1a v l config pwrdn pwrdn fault tri-state th_war th_war +3.3v in1b v dd v dd v ss v ss v cc sign v cc sign gnd-reg gnd-clean in2a in1b in2a in2b protections & logic regulators 29 23 24 25 27 26 28 30 21 22 33 34 35 36 m2 m5 m4 17 16 outpl pgnd1p outpl v cc 1p 14 12 10 11 outnl pgnd1n outnl v cc 1n 13 c52 1 m f +v cc c62 100nf 7 m17 m15 m16 m14 8 9 outpr pgnd2p outpr v cc 2p 6 4 2 3 outnr pgnd2n d03au1474 outnr v cc 2n 5 19 31 20 gndsub 1 in2b 32 c72 100nf c92 1 m f c82 100nf r52 6 c41 330pf r42 20 c42 330pf c32 820 m f l13 22 m h l14 22 m h c73 100nf c93 1 m f c83 100nf c33 820 m f r43 20 r53 6 c74 100nf c94 1 m f c84 100nf r54 6 c43 330pf r44 20 c44 330pf c34 820 m f r63 5k r64 5k r65 5k r66 5k r67 5k r68 5k 4 w 4 w 4 w 4 w docid026166 rev 1 15/ 20
package mechanical data sta516be 7 package mechanical data in order to meet environmental requirements, st offers these devices in different grades of ecopack ? packages, depending on their level of environmental compliance. ecopack ? specifications, grade definitions and product status are available at: www.st.com. ecopack ? is an st trademark. 16/ 20 docid026166 rev 1
sta516be package mechanical data figure 11 : powerso36 exposed pad up outline drawing docid026166 rev 1 17/ 20
package mechanical data sta516be table 9: powerso36 exposed pad up dimensions symbol mm inch min typ max min typ max a 3.25 - 3.43 0.128 - 0.135 a2 3.10 - 3.20 0.122 - 0.126 a4 0.80 - 1.00 0.031 - 0.039 a5 - 0.20 - - 0.008 - a1 0.03 - - 0.04 0.001 - - 0.002 b 0.22 - 0.38 0.009 - 0.015 c 0.23 - 0.32 0.009 - 0.013 d 15.80 - 16.00 0.622 - 0.630 d1 9.40 - 9.80 0.370 - 0.386 d2 - 1.00 - - 0.039 - e 13.90 - 14.50 0.547 - 0.571 e1 10.90 - 11.10 0.429 - 0.437 e2 - - 2.90 - - 0.114 e3 5.80 - 6.20 0.228 - 0.244 e4 2.90 - 3.20 0.114 - 0.126 e - 0.65 - - 0.026 - e3 - 11.05 - - 0.435 - g 0 - 0.08 0 - 0.003 h 15.50 - 15.90 0.610 - 0.626 h - - 1.10 - - 0.043 l 0.80 - 1.10 0.031 - 0.043 m 2.25 - 2.60 0.089 - 0.102 n - - 10 degrees - - 10 degrees r - 0.6 - - 0.024 - s - - 8 degrees - - 8 degrees 18/ 20 docid026166 rev 1
sta516be revision history 8 revision history table 10: document revision history date revision changes 02- apr- 2014 1 initial release. docid026166 rev 1 1 9 / 20
sta516be please read carefully information in this document is provided solely in connection with st products. stmicroelectronics nv and its subsidiaries ("st") reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any time, without notice. all st products are sold pursuant to st?s terms and condition s of sale. purchasers are solely responsible for the choice, selection and use of the st products and services described herein, and st assumes no liability whatsoever relating to the choice, selection or use of the st products and services described her ein. no license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. if any part of this document refers to any third party products or services it shall not be deemed a license grant by st fo r the use of such third party products or services, or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoeve r of such third party products or services or any intellectual property contained therein . unless otherwise set forth in st?s terms and conditions of sale st disclaims any express or implied warranty with respect to the use and/or sale of st products including without limitation implied warranties of merchantability, fitness for a particular purpose (and their equivalents under the laws of any jurisdiction), or infringement of any patent, copyright or other intellectual property right. st products are not designed or authorized for use in: (a) safety critical applications such as life suppor ting, active implanted devices or systems with product functional safety requirements; (b) aeronautic applications; (c) automotive applications or environments, and/or (d) aerospace applications or environments. where st products are not designed for such use, the purchaser shall use products at purchaser?s sole risk, even if st has been informed in writing of such usage, unless a product is expressly designated by st as being intended for "automotive, automotive safety or medical" industry domains accordin g to st product design specifications. products formally escc, qml or jan qualified are deemed suitable for use in aerospace by the corresponding governmental agency. resale of st products with provisions different from the statements and/or technical features set forth in this document shall immediately void any warranty granted by st for the st product or service described herein and shall not create or extend in any manner whatso ever, any liability of st. st and the st logo are trademarks or regis tered trademarks of st in various countries. information in this document supersedes and replaces all information previously supplied. the st logo is a registered trademark of stmicroelectronics. all other names are the property of their respective owners. ? 2014 stmicroelectronics - all rights reserved stmicroelectronics group of companies australia - belgium - brazil - canada - ch ina - czech republic - finland - france - germany - hong kong - india - israel - italy - japan - malaysia - malta - morocco - philippines - singapore - spain - sweden - switzerland - united kingdom - united states of america www.st.com 20/ 20 docid026166 rev 1

▲Up To Search▲

Price & Availability of STA516BE13TR

	To Download STA516BE13TR Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .