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ordering number : enn * 6615a 20802tn (ot)/11201rm (ot) no. 6615-1/14 functions cd-rom decoder/encoder functions cd decoder/encoder functions pit and wobble clv servo cav audio functions atapi interface (includes the register block) subcode encoder/decoder functions atip demodulator/atip decoder supports burn-proof recording write strategy function (cd-r/rw) features ecc and edc correction/addition (decoding/encoding) for cd-rom data. ecc error correction/addition (decoding/encoding) for subcode data servo control implemented in a digital servo system (decoding/encoding) clv servo control using atip data (encoding) atip decoding function and crc check function (decoding/encoding) circ code generation and addition and efm modulation (encoding) cav audio functions provides 16 write for cd-r/rw due to write strategy function built-in atapi interface (with ultra dma 33 support) supports 40 decoding and 16 encoding. clock frequency: 33.8688 mhz transfer rates: up to 16.6 mb/s (when 32 iordy used), up to 33 mb/s when ultra dma used. these values apply when 16-bit 45 ns edo dram is used. from 1 to 64 mbits of buffer ram can be used. (16-bit data bus edo dram) the user can freely set up the cd main channel, c2 flag, and subcode areas in buffer ram. batch transfer function (function for transferring the cd main channel, c2 flag, subcode, and other data in a single operation) multi-transfer function (function for automatically transferring multiple block to the host in a single operation) cav audio functions supports ultra dma modes 0, 1, and 2. preliminary lc898093kw, 898093kl sanyo electric co.,ltd. semiconductor company tokyo office tokyo bldg., 1-10, 1 chome, ueno, taito-ku, tokyo, 110-8534 japan 40 playback/16 write cd-r/rw encoder/decoder ic with built-in atapi interface cmos ic any and all sanyo products described or contained herein do not have specifications that can handle applications that require extremely high levels of reliability, such as life-support systems, aircraft? control systems, or other applications whose failure can be reasonably expected to result in serious physical and/or material damage. consult with your sanyo representative nearest you before using any sanyo products described or contained herein in such applications. sanyo 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 specifications of any and all sanyo products described or contained herein. ?urn-proof?stands for proof against buffer under run error, not for proof against burning. ?urn-proof?is a trademark of sanyo electric co., ltd.
no. 6615- 2 /14 lc898093kw, 898093kl p ac ka g e dimensions unit: mm 3261-sqfp208j (28 28 ) unit: mm 3264-lqfp208 28.0 31.2 0.15 0.2 3.56max 0.8 31.2 (0.5) (1.25) 28.0 1 52 156 105 53 208 104 157 (3.2) 0.1 sanyo: sqfp208j (28 28 ) [lc898093kw] 28.0 25.5 (0.5) 30.0 0.09 0.22 0.5 1.6max 25.5 30.0 0.5 28.0 0.10 (1.4) 1 52 156 105 53 208 104 157 sanyo: lqfp208 [LC898093KL] parameter symbol conditions ratings unit supply voltage v dd 5 max ta 25 c ?.3 to +6.0 v v dd 3 max ta 25 c ?.3 to +4.6 v i/o voltages v i 5, v o 5 ta 25 c ?.3 to v dd 5 + 0.3 v v i 3, v o 3 ta 25 c ?.3 to v dd 3 + 0.3 v allowable power dissipation pd max ta 70 c 900 mw operating temperature topr ?0 to +70 c storage temperature tstg ?5 to +125 c soldering conditions (pins only) 10 seconds 260 c specifications absolute maximum ratings at v ss = 0 v parameter symbol conditions ratings unit min typ max [i/o cells, 5.0 v power supply] supply voltage v dd 5 4.5 5.0 5.5 v input voltage range v in 0 v dd 5 v [internal cells, 3.3 v power supply] supply voltage v dd 3 3.0 3.3 3.6 v input voltage range v in 0 v dd 3 v allowable operating ranges at ta = ?0 to +70 c, v ss = 0 v
no. 6615- 3 /14 lc898093kw, 898093kl parameter symbol conditions ratings unit min typ max input high-level voltage v ih ttl level inputs: (1) 2.2 v input low-level voltage v il 0.8 v input high-level voltage v ih ttl level inputs with built-in pull-up resistors: (4), (17) 2.2 v input low-level voltage v il 0.8 v input high-level voltage v ih ttl level inputs with built-in pull-down resistors: (16) 2.2 v input low-level voltage v il 0.8 v input high-level voltage v ih ttl level schmitt trigger inputs: (0), (7) 2.4 v input low-level voltage v il 0.8 v input high-level voltage v ih ttl level schmitt trigger inputs 2.4 v input low-level voltage v il built-in pull-up resistors: (9), (14) 0.8 v input high-level voltage v ih cmos level schmitt trigger inputs: (19) 0.7 v dd v input low-level voltage v il 0.3 v dd v input high-level voltage v ih cmos level inputs with built-in pull-up resistors: (10) 0.7 v dd v input low-level voltage v il 0.3 v dd v analog input voltage v ani (11) 1/4 v dd 3/4 v dd v output high-level voltage v oh i oh = ?2 ma: (20) v dd ?2.1 v output low-level voltage v ol i ol = 12 ma: (20) 0.4 v output high-level voltage v oh i oh = ? ma: (21) v dd ?2.1 v output low-level voltage v ol i ol = 4 ma: (21) 0.4 v output high-level voltage v oh i oh = ? ma: (3), (8) v dd ?2.1 v output low-level voltage v ol i ol = 8 ma: (3), (8) 0.4 v output high-level voltage v oh i oh = ? ma: (2), (4), (6) v dd ?2.1 v output low-level voltage v ol i ol = 2 ma: (2), (4), (6) 0.4 v output low-level voltage v ol i ol = 2 ma: (5) 0.4 v output high-level voltage v oh i oh = ? ma: (7), (12), (14), (15) v dd ?2.1 v output low-level voltage v ol i ol = 24 ma: (7), (12), (14), (15) 0.4 v output high-level voltage v oh i oh = ? ma: (17), (18) 2.4 v output low-level voltage v ol i ol = 6 ma: (17), (18) 0.4 v analog output voltage v ano (22) 1/4 v dd 3/4 v dd v input leakage current i il v i = v ss , v dd : (0), (1), (7), (9) ?0 +10 a output leakage current i oz in the high-impedance output state: (2), (7), (8), (12), (13) ?0 +10 a (14), (15) pull-up resistance r up (10) 50 100 200 k pull-up resistance r up (4), (5) 40 80 160 k pull-up resistance r up (9), (13), (14) 7 10 13 k pull-up resistance r up (15) 7 10 13 k electrical characteristics at ta = ?0 to +70 c, v ss = 0 v, v dd = 4.5 to 5.5 v the applicable pin groups are listed on the following page.
no. 6615- 4 /14 lc898093kw, 898093kl applicable pins [input] (0) ?????? cs, rd, wr, reset, wobble, cs1fx, cs3fx, dior, diow, hrst, da0 to da2, dmack (9) ?????? dmack (1) ?????? test0 to test3, sua0 to sua7 (16) ????? test4 (10) ????? fg (11) ???? ad0, ad1, rrec, fe, te, vref, fr, opp, css, pckistf, pckistp, efmin, efmin2, slcist1, slcist2 (19) ????? write [output] (2) ?????? pds1 to pds3 (18) ????? ra0 to ra9, cas0 and cas1, ras0 to ras2, lwe, uwe, oe (3) ?????? ssp2/1, rapc, wapc, h11t0, ldh, atest3/1, wdat, nwdat, efmg, shock, lock, efmo (5) ?????? int0 to int1, swait (6) ?????? ldon (12) ????? intrq, iocs16 (13) ????? iordy (15) ????? dmarq (20) ????? pck2, subsync (21) ????? dslb (22) ????? sda0 to sda2, tdo, fdo, sldo, spdo, jitc, lout, rout, pdo, rpo, sldo, slco1 to slco3 [inout] (4) ?????? d0 to d7 (17) ????? io0 to io15 (7) ?????? dd0 to dd15 (8) ?????? bidata, biclk, atipsync, acrcng (14) ????? dasp, pdiag note: the xtal0 pin is not specified in the dc characteristics. the pull-up and pull-down resistors on pins (9), (13), (14), and (15) are disabled after a reset.
no. 6615- 5 /14 lc898093kw, 898093kl de-scramble & buffering address generator microcontroller ram access address generator address generator ecc & edc ide i/f block based hiside address generator data output input i/f bus arbiter & dram controller external buffer dram each block bus control signal each block register r0-r255 cd-dsp i/f & sync detector digital servo & circ endec host micro controller decoder pll & clock generator *8 dac *9 *13 *10 *6 *7 *3 *4 *5 cav-audio sub-code ecc address generator *1 *2 write strategy & link-position *12 sub-code i/f de-interleve/interleve address generator atip/clv servo atipsync int0, int1 zswait xtalck0 xtal0 each block data bus[0:7] address bus[0:21] ram data bus[0:15] lc898093k a13486 block diagram *1 dslb (pin96) to fr (pin123), css (pin126) to spd (pin142), shock (pin147) to pck2 (pin155) *2 subsync *3 dd0 to dd15, dasp, pdiag *4 cs1fx, cs3fx, da0 to da2, dior, diow, dmack *5 dmarq, hintrq, iocs16, iordy *6 rd, wr, sua0 to sua7, cs *7 d0 to d7 *8 io0 to io15 *9 ra0 to ra9, ras0, ras1, ras2, cas0, cas1, oe, uwe, lwe *10 wobble, atipsync, bidata, biclk *12 write, ssp2/1, rapc, wapc, h11t0, ldh, atest3, atest1, wdat, nwdat, efmg *13 lout, rout **1 hiside (wd25c32) is made by western digital.
no. 6615- 6 /14 lc898093kw, 898093kl pin functions pin type i input b bidirectional pin nc not connected o output p power supply a analog pin pin no. pin name type pin function 1 v ss p digital system ground (v ss ) 2 ra4 o 3 ra5 o 4 ra6 o cd-rom encoder/decoder dram address lines 5 ra7 o 6 ra8 o 7 ra9 o 8 v dd p digital system power supply (5 v) 9 v ss p digital system ground (v ss ) 10 io0 b 11 io1 b 12 io2 b cd-rom encoder/decoder buffer ram data lines 13 io3 b these pins have built-in pull-up resistors. 14 io4 b 15 io5 b 16 v dd p digital system power supply (3.3 v) 17 v ss p digital system ground (v ss ) 18 io6 b 19 io7 b cd-rom encoder/decoder buffer ram data lines 20 io8 b these pins have built-in pull-up resistors. 21 io9 b 22 io10 b 23 v ss p digital system ground (v ss ) 24 v dd p digital system power supply (3.3 v) 25 io11 b 26 io12 b 27 io13 b cd-rom encoder/decoder buffer ram data lines 28 io14 b these pins have built-in pull-up resistors. 29 io15 b 30 atipsync o atip sync detection signal 31 bidata b 32 biclk b atip demodulator signals 33 wobble i 34 v dd p digital system power supply (5 v) 35 v ss p digital system ground (v ss ) 36 acrcng o atip crc result output signal 37 write i write strategy signal control input 38 ssp2 o servo sampling pulse output 39 ssp1 o servo sampling pulse output 40 rapc o laser control sampling pulse output 41 wapc o laser control sampling pulse output 42 h11t0 o running opc sampling pulse 43 ldh o recording laser diode control signal output 44 v dd p analog system power supply (3.3 v) 45 v ss p analog system ground (v ss ) 46 atest3 o rw output 47 atest1 o internal monitor test output 48 wdat o recording laser diode control signal output 49 nwdat o recording laser diode control signal output (wdat inverted) 50 v dd p analog system power supply (3.3 v) 51 v ss p analog system ground (v ss ) continued on next page.
no. 6615- 7 /14 lc898093kw, 898093kl continued from preceding page. pin no. pin name type pin function 52 v dd p digital system power supply (5 v) 53 v ss p digital system ground (v ss ) 54 r1 i 55 vcnt1 i write strategy analog signals 56 mdc1 o 57 pd1 o 58 swait o wait signal to the microcontroller 59 int0 o interrupt request signal outputs to the microcontroller 60 int1 o these are open-drain outputs with built-in pull-up resistors. 61 d0 b 62 d1 b 63 d2 b microcontroller data signal lines 64 d3 b these pins have built-in pull-up resistors. 65 d4 b 66 d5 b 67 d6 b 68 v dd p digital system power supply (5 v) 69 v ss p digital system ground (v ss ) 70 d7 b microcontroller data signal line 71 sua0 i 72 sua1 i 73 sua2 i 74 sua3 i command register selection address 75 sua4 i 76 sua5 i 77 sua6 i 78 sua7 i 79 cs i chip select signal input from the microcontroller 80 rd i data read signal input from the microcontroller 81 wr i data write signal input from the microcontroller 82 test0 i test pin. this pin must be tied to v ss . 83 vcnt i vco control voltage 84 r i vco bias resistor connection 85 pd o charge pump output 86 v dd p analog system power supply (3.3 v) 87 v ss p analog system ground (v ss ) 88 test1 i test pin. this pin must be tied to v ss . 89 reset i reset input 90 xtalck0 i crystal oscillator circuit input (33.8688 mhz) 91 xtal0 o crystal oscillator circuit output 92 rout o d/a converter output 93 v ss p analog system ground (v ss ) 94 v dd p analog system power supply (5 v) 95 lout o d/a converter output 96 dslb o slc pwm output 97 slcist1 i efm slice level setting input 98 slcist2 i 99 v ss p analog system ground (v ss ) 100 v dd p analog system power supply (3.3 v) 101 slco0 o 102 slco1 o efm slice level output 103 slco2 o 104 v dd p digital system power supply (5 v) 105 v ss p digital system ground (v ss ) 106 slco3 o efm slice level output continued on next page.
no. 6615- 8 /14 lc898093kw, 898093kl continued from preceding page. pin no. pin name type pin function 107 efmin i efm input 108 efmin2 i 109 test4 i test pin. this pin must be tied to v ss 110 jitc o jitter output 111 rpo o p/n balance adjustment 112 opp i 113 pckistf i frequency comparator charge pump 114 pckistp i phase comparator charge pump 115 v ss p analog system ground (v ss ) 116 v dd p analog system power supply (3.3 v) 117 pdo o charge pump filter 118 pds1 o charge pump selection 119 pds2 o 120 v dd p digital system power supply (3.3 v) 121 v ss p digital system ground (v ss ) 122 pds3 o charge pump selection 123 fr i vco frequency setting 124 test2 i test pin. this pin must be tied to v ss . 125 test3 i dram voltage (5 v/3.3 v) selection pin 126 css i center servo input 127 ad0 i ad input 128 rrec i optical signal discrimination input 129 fe i fe input 130 te i te input 131 vref i vref input 132 ad1 i ad input 133 v ss p analog system ground (v ss ) 134 da0 o da output 135 da1 o da output 136 da2 o da output 137 tdo o tracking output 138 v dd p analog system power supply (5 v) 139 v ss p analog system ground (v ss ) 140 fdo o focus output 141 sldo o sled output 142 spdo o spindle output 143 v ss p digital system ground (v ss ) 144 v dd p digital system power supply (3.3 v) 145 subsync o subcode sync signal 146 efmg o write gate signal 147 shock o shock detection signal 148 lock o pll lock state output 149 def i defect detection signal input 150 hfl i mirror detection signal input 151 tes i tracking zero cross signal input 152 efmo o post-binarization efm signal output 153 ldon o laser control 154 fg i fg input 155 pck2 o pck output 156 v dd p digital system power supply (5 v) 157 v ss p digital system ground (v ss ) 158 hrst i 159 dasp b ide interface signals 160 cs3fx i 161 cs1fx i continued on next page.
no. 6615- 9 /14 lc898093kw, 898093kl continued from preceding page. pin no. pin name type pin function 162 da2 i 163 da0 i 164 pdiag b 165 dai i 166 iocs16 o ide interface signals 167 intrq o 168 dmack i 169 iordy o 170 dior i 171 diow i 172 v dd p digital system power supply (5 v) 173 v ss p digital system ground (v ss ) 174 dmarq o 175 dd15 b 176 dd0 b 177 dd14 b ide interface signals 178 dd1 b 179 dd13 b 180 dd2 b 181 v ss p digital system ground (v ss ) 182 dd12 b 183 dd3 b 184 dd11 b 185 dd4 b ide interface signals 186 dd10 b 187 dd5 b 188 dd9 b 189 dd6 b 190 v dd p digital system power supply (3.3 v) 191 v ss p digital system ground (v ss ) 192 dd8 b ide interface signals 193 dd7 b 194 ras0 o 195 ras1 o dram ras signal outputs 196 ras2 o 197 lwe o dram lower write enable 198 v dd p digital system power supply (3.3 v) 199 v ss p digital system ground (v ss ) 200 uwe o dram upper write enable 201 cas0 o dram cas signal output 202 cas1 o 203 oe o dram output enable 204 ra0 o 205 ra1 o cd-rom encoder/decoder dram address lines 206 ra2 o 207 ra3 o 208 v dd p digital system power supply (3.3 v)
no. 6615- 10 /14 lc898093kw, 898093kl pin functions cs1fx (input) chip select signal that selects the command block register. cs3fx (input) chip select signal that selects the control block register. da0 to da2 (input) address for accessing the atapi interface registers. dasp (input/output) drive 1 is output and drive 0 is input. signal used to indicate to drive 0 that drive 1 exists. dd0 to dd15 (input/output) 16-bit data bus. this interface supports both 8-bit and 16-bit transfers. dior (input) read strobe from the host. diow (input) write strobe from the host. dmack (input) acknowledge signal from the host used during dma transfers. corresponds to the dmarq request signal from the drive. dmarq (input) drive request signal used during dma transfers. hintrq (output) drive interrupt request signal to the host. iocs16 (output) signal asserted by the drive when the drive supports 16-bit transfers. this signal is not asserted during dma transfers. iordy (output) indicates that the drive is ready to respond. used during data transfers. this signal will be low when the drive is not ready. pdiag (input/output) signal asserted by drive 1 to indicate to drive 0 that diagnostics have completed. hrst (input) reset signal from the host. the ide interface is reset by a low-level input to this pin. cs (input) chip select signal from the microcontroller. the microcontroller interface is active when this pin is low. rd, wr (input) connect the microcontroller read and write lines to these inputs. swait (input) wait signal output to the microcontroller. when accessing buffer ram, the microcontroller must wait if this pin is low. sua0 to sua7 (input) internal register address lines d0 to d7 (input) microcontroller data bus. these pins have built-in pull-up resistors. int0, int1 (output) interrupt request signals output to the microcontroller. int1 can be set to output the atapi interrupt by setting int1en (conf-r11 bit 7) these are open drain outputs with built-in 80 k (at room temperature, 5 v) pull-up resistors.
no. 6615- 11 /14 lc898093kw, 898093kl i/o0 to i/o15 (input/output) buffer ram data bus. these pins have built-in pull-up resistors. ra0 to ra9 (output) buffer ram address lines. ras0, ras1, ras2 (output) buffer dram ras outputs. normally, ras0 is used. however, if two 16-mbit drams are used, connect the ras0 and ras1 lines to the ras pins on the drams. if four 16-mbit drams are used, connect the ras0, ras1, ras2, and lwe lines to the ras pins on the drams. cas0, cas1 (output) buffer dram cas outputs. normally, cas0 is used. however, if two 16-mbit drams are used, connect the cas0 output to the cas pins on the drams. if 2-cas type drams are used, connect cas0 to ucas and cas1 to lcas. oe (output) buffer ram read output. uwe, lwe (output) buffer ram write outputs. connect these to the corresponding pins. if 2-cas type drams are used, uwe must be connected. (leave lwe open.) 1. analog interface pins ccs (input) midpoint servo input pin. rrec (input) optical discrimination input. fe (input) focus error signal input. te (input) tracking error signal input. vref (input) input for the servo system reference voltage. sad0, sad1 (input) a/d converter auxiliary inputs. sda0, sda1, sda2 (input) d/a converter auxiliary inputs. tes (input) tes comparator input. tdo (output) tracking control signal output. fdo (output) focus control signal output. sldo (output) sled control signal output. spdo (output) spindle control signal output. 2. efm input block pins efmin (input) efm signal input. the high-frequency components of the rf signal acquired from the rf amplifier are cut with a capacitor, and this pin inputs that signal biased by the value of the slco0 to slco3 outputs passed through a low-pass filter. efmin2 (input) used to change the time constant of the low-pass filter.
no. 6615- 12 /14 lc898093kw, 898093kl slcist1, slcist2 (input) slice level controller charge pump bias resistor connection. slco0, slco1, slco2, slco3 (output) slice level controller charge pump outputs. these levels bias the rf signal input to the efmin pin after being passed through a low-pass filter. dslb (output) slice level control pwm output. efmo (output) post-binarization efm signal output. (for monitoring) 3. efm clock generation block pins fr (input) efm reproduction pll vco bias resistor connection. pdo, pds1, pds2, pds3 (output) efm reproduction pll lag-lead filter connection. pckistf (input) efm reproduction pll frequency comparator charge pump bias resistor connection. pckistp (input) efm reproduction pll phase comparator charge pump bias resistor connection. rpo (output) p/n balance adjustment. opp (input) p/n balance adjustment. pck2 (output) efm reproduction bit clock output. 4. jitter discrimination pins jitc (output) jitter output. 5. spindle speed detection pins fg (input) input for the speed monitor signal from the spindle driver. 6. audio interface pins lout, rout (output) left and right channel audio signal outputs. 7. rf amplifier interface pins ldon (output) rf amplifier interface. 8. write strategy pins write, ssp2/1, rapc, wapc, h11t0, ldh, atest3, 1, wdat, nwdat (i/o) write strategy signal connections. 9. atip decoder related pins atipsync (output) atip synchronization detection signal. (for monitoring) bidata, biclk (i/o) input mode: input for the biphase data and biphase clock when an external atip demodulator is used. output mode: output of the biphase data and biphase clock when the internal atip demodulator is used. (for monitoring)
no. 6615- 13 /14 lc898093kw, 898093kl wobble (input) wobble signal input when the internal atip demodulator is used. acrcng (output) outputs the result of the atip decoder crc check. (for monitoring) reset (input) the lc898093k reset input. a low level input resets the lc898093k. this pin must be held low for at least 1 s when power is first applied. test4 to test0 (input) test inputs. these pins must be connected to ground. xtalck0 (input) , xtal0 (output) drive these pins at 33.8688 mhz. this signal is used, without modification, as main clock for the cd-rom encoder and decoder blocks, including the dram interface. consult the manufacturer of the oscillator element concerning the design of the oscillator circuit. r, vcnt, pdo, r1, vcnt1, pd1, mdc1 (i/o) clock reproduction pll circuit pins. subsync (output) subcode sync output signal from the circ encoder during encoding. (for monitoring) efmg (output) outputs a high-level signal (5 v) during write operations. shock (output) outputs a high level (5 v) when a mechanical shock is detected during decodeing. lock (output) outputs a high level (5 v) when the pll circuit is locked. def (input) inputs the defect detection signal. hfl (input) inputs the mirror detection signal.
ps no. 6615- 14 /14 lc898093kw, 898093kl this catalog provides information as of february, 2002. specifications and information herein are subject to change without notice. specifications of any and all sanyo 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? 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? products or equipment. sanyo electric co., ltd. strives to supply high-quality high-reliability products. however, any and all semiconductor products fail with some probability. it is possible that these probabilistic failures could give rise to accidents or events that could endanger human lives, that could give rise to smoke or fire, or 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 products (including technical data, services) described or contained herein are controlled under any of applicable local export control laws and regulations, such products must not be exported without obtaining 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 permission of sanyo electric co., ltd. any and all information described or contained herein are subject to change without notice due to product/technology improvement, etc. when designing equipment, refer to the ?elivery specification for the sanyo product that you intend to use. information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for volume production. sanyo believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use or any infringements of intellectual property rights or other rights of third parties.

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