data sheet 1 2001-12-01 parallel optical link: paroli ? tx ac, 1.25 gbit/s parallel optical link: paroli ? rx ac, 1.25 gbit/s fiber optics paroli ? is a registered trademark of infineon technologies ag v23814-k1306-m136 V23815-K1306-M136 features power supply 3.3 v multistandard differential signal electrical interface 12 electrical data channels asynchronous, ac-coupled optical link 12 optical data channels transmission data rate of up to 1250 mbit/s per channel, total link data rate up to 15 gbit/s 850 nm vcsel array technology pin diode array technology 62.5 m graded index multimode fiber ribbon mt based optical port smd technology oif 1) compliant iec class 1 laser safety compliant gbe mask compliant optical port designed for the simplex mt connector (smc) port outside dimensions: 15.4 mm x 6.8 mm (width x height) mt compatible (iec 61754-5) fiber spacing (250 m) and alignment pin spacing (4600 m) alignment pins fixed in module port integrated mechanical keying process plug (smc dimensions) included with every module 1) oif-vsr4-01.0 implementation agreement (vsr oc-192/stm-64)
v23814-k1306-m136 V23815-K1306-M136 applications data sheet 2 2001-12-01 features of the simplex mt connector (smc) (as part of optional paroli fiber optic cables) uses standardized mt ferrule (iec 61754-5) mt compatible fiber spacing (250 m) and alignment pin spacing (4600 m) snap-in mechanism ferrule bearing spring loaded integrated mechanical keying applications telecommunication switching equipment access network data communication interframe (rack-to-rack) intraframe (board-to-board) on board (optical backplane)
v23814-k1306-m136 V23815-K1306-M136 pin configuration data sheet 3 2001-12-01 pin configuration the numbering conventions for the tx and rx modules are the same. numbering conventions transmitter/receiver figure 1 pin description transmitter pin no. symbol level/ logic description 1 v cc power supply voltage of laser driver 2 t.b.l.o. to be left open 3 t.b.l.o. to be left open 4 t.b.l.o. to be left open 5 t.b.l.o. to be left open 6 lcu lvcmos out laser controller up high = normal operation low = laser fault or ? reset low 7 v ee ground 8 v in input v in rail cml: v in = reference supply (e.g. v cc ) lvpecl, lvds: v in = v ee 9 t.b.l.o. to be left open 10 t.b.l.o. to be left open 11 v ee ground 12 v ee ground 13 di01n data in data input #1, inverted 14 di01p data in data input #1, non-inverted
v23814-k1306-m136 V23815-K1306-M136 pin configuration data sheet 4 2001-12-01 15 v ee ground 16 v ee ground 17 di02n data in data input #2, inverted 18 di02p data in data input #2, non-inverted 19 v ee ground 20 v ee ground 21 di03n data in data input #3, inverted 22 di03p data in data input #3, non-inverted 23 v ee ground 24 v ee ground 25 t.b.l.o. to be left open 26 di04n data in data input #4, inverted 27 di04p data in data input #4, non-inverted 28 v ee ground 29 di05n data in data input #5, inverted 30 di05p data in data input #5, non-inverted 31 v ee ground 32 v ee ground 33 di06n data in data input #6, inverted 34 di06p data in data input #6, non-inverted 35 v ee ground 36 v ee ground 37 di07n data in data input #7, inverted 38 di07p data in data input #7, non-inverted 39 v ee ground 40 v ee ground 41 di08n data in data input #8, inverted 42 di08p data in data input #8, non-inverted 43 v ee ground 44 v ee ground 45 v ee ground 46 di09n data in data input #9, inverted 47 di09p data in data input #9, non-inverted 48 t.b.l.o. to be left open pin description transmitter (cont ? d) pin no. symbol level/ logic description
v23814-k1306-m136 V23815-K1306-M136 pin configuration data sheet 5 2001-12-01 49 v ee ground 50 v ee ground 51 di10n data in data input #10, inverted 52 di10p data in data input #10, non-inverted 53 v ee ground 54 v ee ground 55 di11n data in data input #11, inverted 56 di11p data in data input #11, non-inverted 57 v ee ground 58 v ee ground 59 di12n data in data input #12, inverted 60 di12p data in data input #12, non-inverted 61 v ee ground 62 v in v in rail cml: v in = reference supply (e.g. v cc ) lvpecl, lvds: v in = v ee 63 t.b.l.o. to be left open 64 ? reset lvcmos in high = laser diode array is active low = switches laser diode array off this input has an internal pull-down to ensure laser safety switch off in case of unconnected ? reset input 65 v ee ground 66 v ee ground 67 le lvcmos in laser enable. high active. high = laser array is on if ? le is also active. low = laser array is off. this input has an internal pull-up, therefore can be left open. 68 ? le lvcmos in laser enable. low active. low = laser array is on if le is also active. this input has an internal pull- down, therefore can be left open. 69 t.b.l.o. to be left open 70 t.b.l.o. to be left open 71 t.b.l.o. to be left open 72 v cc power supply voltage of laser driver pin description transmitter (cont ? d) pin no. symbol level/ logic description
v23814-k1306-m136 V23815-K1306-M136 pin configuration data sheet 6 2001-12-01 pin description receiver pin no. symbol level/ logic description 1 v ee ground 2 v cc power supply voltage of preamplifier and analog circuitry 3 v cc power supply voltage of preamplifier and analog circuitry 4 t.b.l.o. to be left open 5 oen lvcmos in output enable high = normal operation low = sets all data outputs to low this input has an internal pull-up which pulls to high level when this input is left open 6 sd1 lvcmos out signal detect on fiber #1. high = signal of sufficient ac power is present on fiber #1 low = signal on fiber #1 is insufficient. 7 v cco power supply voltage of output stages 8 v ee ground 9 t.b.l.o. to be left open 10 v ee ground 11 v ee ground 12 v ee ground 13 do01p lvds out data output #1, non-inverted 14 do01n lvds out data output #1, inverted 15 v ee ground 16 v ee ground 17 do02p lvds out data output #2, non-inverted 18 do02n lvds out data output #2, inverted 19 v ee ground 20 v ee ground 21 do03p lvds out data output #3, non-inverted 22 do03n lvds out data output #3, inverted 23 v ee ground 24 v ee ground 25 t.b.l.o. to be left open
v23814-k1306-m136 V23815-K1306-M136 pin configuration data sheet 7 2001-12-01 26 do04p lvds out data output #4, non-inverted 27 do04n lvds out data output #4, inverted 28 v ee ground 29 do05p lvds out data output #5, non-inverted 30 do05n lvds out data output #5, inverted 31 v ee ground 32 v ee ground 33 do06p lvds out data output #6, non-inverted 34 do06n lvds out data output #6, inverted 35 v ee ground 36 v ee ground 37 do07p lvds out data output #7, non-inverted 38 do07n lvds out data output #7, inverted 39 v ee ground 40 v ee ground 41 do08p lvds out data output #8, non-inverted 42 do08n lvds out data output #8, inverted 43 v ee ground 44 v ee ground 45 v ee ground 46 do09p lvds out data output #9, non-inverted 47 do09n lvds out data output #9, inverted 48 t.b.l.o. to be left open 49 v ee ground 50 v ee ground 51 do10p lvds out data output #10, non-inverted 52 do10n lvds out data output #10, inverted 53 v ee ground 54 v ee ground 55 do11p lvds out data output #11, non-inverted 56 do11n lvds out data output #11, inverted 57 v ee ground 58 v ee ground pin description receiver (cont ? d) pin no. symbol level/ logic description
v23814-k1306-m136 V23815-K1306-M136 pin configuration data sheet 8 2001-12-01 59 do12p lvds out data output #12, non-inverted 60 do12n lvds out data output #12, inverted 61 v ee ground 62 v ee ground 63 v ee ground 64 t.b.l.o. to be left open 65 v ee ground 66 v cco power supply voltage of output stages 67 ? sd12 lvcmos out low active signal detect on fiber #12. low = signal of sufficient ac power is present on fiber #12. high = signal on fiber #12 is insufficient. 68 ensd lvcmos in enable signal detect high = sd1 and sd12 function enabled low = sd1 and sd12 are set to permanent active. this input has an internal pull-up which pulls to high level when this input is left open 69 t.b.l.o. to be left open 70 v cc power supply voltage of preamplifier and analog circuitry 71 v cc power supply voltage of preamplifier and analog circuitry 72 v ee ground pin description receiver (cont ? d) pin no. symbol level/ logic description
v23814-k1306-m136 V23815-K1306-M136 description data sheet 9 2001-12-01 description paroli is a parallel optical link for high-speed data transmission. a complete paroli system consists of a transmitter module, a 12-channel fiber optic cable, and a receiver module.the transmitter supports lvds, cml and lvpecl differential signals. the receiver module is described for the lvds electrical output only. a specification for infineon ? s adjustable cml output can be provided separately. transmitter v23814-k1306-m136 the transmitter module converts parallel electrical input signals via a laser driver and a vertical cavity surface emitting laser (vcsel) diode array into parallel optical output signals. all input data signals are multistandard differential signals (lvds compatible; they also support lvpecl and cml because of the wide common input range). the electrical interface (lvds, lvpecl or cml) is selected by the supply inputs v in . the data rate is up to 1250 mbit/s for each channel.the transmitter module ? s min. data rate of 500 mbit/s is specified for the cid 1) worst case pattern (disparity 72) or any pattern with a lower disparity. a logic low level at ? reset switches all laser outputs off. during power-up ? reset must be used as a power-on reset which disables the laser driver and laser control until the power supply has reached a 3.135 v level. the laser controller up (lcu) output is low if a laser fault is detected or ? reset is forced to low. all non data signals have lvcmos levels. transmission delay of the paroli system is � 1 ns for the transmitter, � 1 ns for the receiver and approximately 5 ns per meter for the fiber optic cable. figure 2 transmitter block diagram 1) consecutive identical digit (cid) immunity test pattern for stm-n signals. itu-t recommendation g.957 sec. ii. input stage laser diode array 12 12 data data in electrical input optical output -reset laser controller up (lcu) 12 laser driver laser control 12 le -le laser enable vin
v23814-k1306-m136 V23815-K1306-M136 description data sheet 10 2001-12-01 receiver V23815-K1306-M136 the paroli receiver module converts parallel optical input signals into parallel electrical output signals. the optical signals received are converted into voltage signals by pin diodes, transimpedance amplifiers, and gain amplifiers. there are two different modules available for lvds and infineon ? s adjustable cml output. this description only refers to a module with lvds output. a module description for cml output can be provided separately. the data rate is up to 1250 mbit/s for each channel. the receiver module ? s min. data rate of 500 mbit/s is specified for the cid 1) worst case pattern (disparity 72) or any pattern with a lower disparity. additional signal detect outputs (sd1 active high / sd12 active low) show whether an optical ac input signal is present at data input 1 and/or 12. the signal detect circuit can be disabled with a logic low at ensd. the disabled signal detect circuit will permanently generate an active level at signal detect outputs, even if there is insufficient signal input. this could be used for test purposes. a logic low at lvds output enable (oen) sets all data outputs to logic low. sd outputs will not be effected. all non data signals have lvcmos levels. transmission delay of the paroli system is at a maximum 1 ns for the transmitter, 1 ns for the receiver and approximately 5 ns per meter for the fiber optic cable. figure 3 receiver block diagram 1) consecutive identical digit (cid) immunity test pattern for stm-n signals, itu-t recommendation g.957 sec. ii. pin diode array lvds output stage 12 12 data out data optical input electrical output 12 gain amplifier signal detect circuit 12 amplifier output enable (oen) ensd sd1 -sd12
v23814-k1306-m136 V23815-K1306-M136 laser safety data sheet 11 2001-12-01 laser safety the transmitter of the ac coupled parallel optical link (paroli) is an iec 60825-1 amend.2 class 1 laser product. it complies with fda performance standards (21 cfr 1040.10 and 1040.11) for laser products except for deviations pursuant to laser notice no. 50, dated july 26, 2001. to avoid possible exposure to hazardous levels of invisible laser radiation, do not exceed maximum ratings. the paroli module must be operated under the specified operating conditions (supply voltage can be adjusted between 3.0 v and 3.6 v) under any circumstances to ensure laser safety. attention: class 1 laser product note: any modification of the module will be considered an act of ?manufacturing?, and will require, under law, recertification of the product under fda (21 cfr 1040.10 (i)). figure 4 laser emission laser safety design considerations to ensure laser safety for all input data patterns each channel is controlled internally and will be switched off if the laser safety limits are exceeded. a channel alerter switches the respective data channel output off if the input duty cycle permanently exceeds 57%. the alerter will not disable the channel below an input duty cycle of 57% under all circumstances. the minimum alerter response time is 1 s with a constant high input, i.e. in the input pattern the time interval of excessive high input (e.g. ? 1 ? s in excess of a 57% duty cycle, consecutive or non-consecutive) must not exceed 1 s, otherwise the respective channel will be switched off. the alerter switches the respective channel from off to on without the need of resetting the module if the input duty cycle is no longer violated. all of the channel alerters operate independently, i.e. an alert within a channel does not affect the other channels. to decrease the power consumption of the module unused channel inputs can be tied to high input level. in this way a portion of the supply current in this channel is triggered to shut down by the corresponding alerter. laser aperture and beam
v23814-k1306-m136 V23815-K1306-M136 technical data data sheet 12 2001-12-01 technical data stress beyond the values stated below may cause permanent damage to the device. exposure to absolute maximum rating conditions for extended periods of time may affect device reliability. absolute maximum ratings parameter symbol limit values unit min. max. supply voltage v cc ? v ee ? 0.3 4.5 v data/control input levels 1) 1) at data and lvcmos inputs. v ,1 ? 0.5 v cc +0.5 data input differential voltage 2) 2) � v id � = � (input voltage of non-inverted input minus input voltage of inverted input) � . � v ,' � 2.0 operating case temperature 3) 3) measured at case temperature reference point (see package outlines figure 15 ). t &$6( 080 c storage ambient temperature t 67* ? 20 100 operating moisture 20 85 % storage moisture 20 85 esd resistance (all pins to v ee , human body model) 4) 4) to avoid electrostatic damage, handling cautions similar to those used for mos devices must be observed. 1kv
v23814-k1306-m136 V23815-K1306-M136 technical data data sheet 13 2001-12-01 recommended operating conditions parameter symbol limit values unit min. typ. max. transmitter power supply voltage v cc 3.135 3.6 v noise on power supply 1) n ps1 50 mv noise on power supply 2) n ps2 100 data input voltage range 3) 4) v datai 500 v cc data input differential voltage 4) 5) � v id � 80 1000 data input skew 6) t spn 0.5 x t r , t f ps data input rise/fall time 7) t r , t f 50 400 lvcmos input high voltage v lvcmosih 2.0 v cc v lvcmos input low voltage v lvcmosil v ee 0.8 lvcmos input rise/fall time 8) t r , t f 20 ns receiver power supply voltage v cc 3.0 3.6 v noise on power supply 1) n ps1 50 mv noise on power supply 2) n ps2 ��� differential lvds termination impedance r t 80 120 � lvcmos input high voltage v lvcmosih 2.0 v cc v lvcmos input low voltage v lvcmosil v ee 0.8 lvcmos input rise/fall time 8) t r , t f 20 ns optical input rise/fall time 9) t r , t f ��� ps input extinction ratio er 6.0 db input center wavelength � c 830 860 nm voltages refer to v ee = 0 v. 1) noise frequency is 1 khz to 10 mhz. voltage is peak-to-peak value. 2) noise frequency is > 10 mhz. voltage is peak-to-peak value. 3) this implies that the input stage can be ac coupled. 4) level diagram: see figure 5 5) � v id � = � (input voltage of non-inverted input minus input voltage of inverted input) � . 6) skew between positive and negative inputs measured at 50% level. 7) 20% - 80% level. 8) measured between 0.8 v and 2.0 v. 9) 20% - 80% level. non filtered values.
v23814-k1306-m136 V23815-K1306-M136 technical data data sheet 14 2001-12-01 figure 5 input level diagram figure 6 input stage mv v cc 500 time |v id | r in /2 r in /2 v cc data in p internal p internal n transmitter module data in n >6 k 1.95 v v in
v23814-k1306-m136 V23815-K1306-M136 technical data data sheet 15 2001-12-01 the electro-optical characteristics described in the following tables are valid only for use under the recommended operating conditions. transmitter electrical characteristics parameter symbol limit values unit min. typ. max. supply current i cc 350 450 ma power consumption p 1.2 1.6 w data rate per channel dr 500 1) 1) specified for cid worst case pattern (disparity 72) or any pattern with a smaller disparity. 1250 mbit/s lvcmos output voltage low v lvcmosol 0.4 v lvcmos output voltage high v lvcmosoh 2.5 lvcmos input current high/low i lvcmosi ? 500 500 a lvcmos output current high 2) 2) source current. i lvcmosoh 0.5 ma lvcmos output current low 3) 3) sink current. i lvcmosol 4.0 data differential input impedance 4) 4) data input stage. r in 80 120 � data input differential current � i i � 5.5 ma
v23814-k1306-m136 V23815-K1306-M136 technical data data sheet 16 2001-12-01 figure 7 timing diagram transmitter electro-optical characteristics parameter symbol limit values unit min. typ. max. optical rise time 1) t r 200 ps optical fall time 1) t f 200 total jitter 2) j t 0.284 ui deterministic jitter j d 0.1 channel-to-channel skew 3) t csk 100 ps launched average power p avg ? 9.0 ? 5.0 ? 3.0 dbm launched power shutdown p sd ? 30.0 center wavelength � c 830 860 nm spectral width (fwhm) �� 2 spectral width (rms) �� 0.85 relative intensity noise rin ? 117 db/hz extinction ratio (dynamic) er 6.0 db optical modulation amplitude 4) oma 0.15 5) 0.46 6) mw eye mask compliance gbe 7) optical parameters valid for each channel. 1) 20% - 80% level, non filtered values. 2) measured using a filter as defined in ieee 802.3 (2000-edition) gigabit ethernet specification, section 38.6.5. 3) with input channel-to-channel skew 0 ps and a maximum data channel-to-channel average deviation and swing deviation of 5%. 4) peak to peak values. 5) corresponds to a minimum extinction ratio of 6 db. 6) corresponds to a typical extinction ratio of 8 db. 7) ieee 802.3, sec. 38.6.5. 3.6 v v cc data 3.135 v data invalid data valid 0.8 v t 3 t 2 t 1 3.6 v v cc data -reset v data invalid data valid 2.0 v t 3 t 2 t 1
v23814-k1306-m136 V23815-K1306-M136 technical data data sheet 17 2001-12-01 parameter symbol limit values unit min. max. ? reset on delay time t 1 100 ms ? reset off delay time t 2 50 s ? reset low duration 1) t 3 10 1) only when not used as power on reset. at any failure recovery, ? reset must be brought to low level for at least t 3 . receiver electrical characteristics parameter symbol limit values unit min. typ. max. supply current i cc 250 350 ma power consumption p 0.8 1.3 w lvds output low voltage 1), 2) 1) level diagram: see figure 8 2) lvds output must be terminated differentially with r t . v lvdsol 925 mv lvds output high voltage 1), 2) v lvdsoh 1475 lvds output differential voltage 1), 2), 3) 3) � v od � = � (output voltage of non-inverted output minus output voltage of inverted output) � . � v od � 250 400 lvds output offset voltage 1), 2), 4) 4) v os = 1/2 (output voltage of inverted output + output voltage of non-inverted output). v os 1125 1275 lvds rise/fall time 5) 5) measured between 20% and 80% level with a maximum capacitive load of 5 pf. t r , t f 400 ps lvcmos output voltage low v lvcmosol 400 mv lvcmos output voltage high v lvcmosoh 2500 lvcmos input current high/low i lvcmosi ? 500 500 a lvcmos output current high 6) 6) source current. i lvcmosoh 0.5 ma lvcmos output current low 7) 7) sink current. i lvcmosol 4.0 total jitter 8), 9) 8) with no optical input jitter. 9) at sensitivity limit of 0.028 mw oma. j t 0.332 ui deterministic jitter 8) j d 0.08 channel-to-channel skew 10) 10) with input channel-to-channel skew 0 ps. t csk 100 ps
v23814-k1306-m136 V23815-K1306-M136 technical data data sheet 18 2001-12-01 figure 8 output level diagram . receiver electro-optical characteristics parameter symbol limit values unit min. max. data rate per channel dr 500 1) 1) specified for cid worst case pattern (disparity 72) or any pattern with a smaller disparity. 1250 mbit/s sensitivity (average power) 2) 2) ber = 10 ? 12 , extinction ratio = infinite, specified for cid worst case pattern (disparity 72) or any pattern with a smaller disparity. p in ? 18.5 dbm optical modulation amplitude 3) 3) peak to peak value. oma 0.028 4) 4) corresponds to an maximum sensitivity (average power) of ? 18.5 dbm at an infinite extinction ratio. mw saturation (average power) p sat ? 3.0 dbm signal detect assert level 5) 5) extinction ratio = infinite, p sda : average optical power when sd switches from inactive to active. p sdd : average optical power when sd switches from active to inactive. p sda ? 19.5 signal detect deassert level 5) p sdd ? 29.0 signal detect hysteresis 5) p sda ? p sdd 1.0 4.0 db return loss of receiver a rl 12 optical parameters valid for each channel. mv 1475 925 time |v od |
v23814-k1306-m136 V23815-K1306-M136 technical data data sheet 19 2001-12-01 figure 9 timing diagrams parameter symbol max. unit signal detect deassert time t 1 10 s signal detect assert time t 2 10 lvds output enable off delay time t 3 20 ns lvds output enable on delay time t 4 20 t 1 t 2 data out 1, 12 signal detect 1 signal detect 12 t 3 t 4 output enable oen data out data valid 2.0 v 0.8 v data low data valid
v23814-k1306-m136 V23815-K1306-M136 assembly data sheet 20 2001-12-01 assembly on the next pages are some figures to assist the customer in designing his printed circuit board (pcb). figure 10 shows the mechanical dimensions of the paroli transmitter and receiver modules and figure 11 to figure 13 give the dimensions of the holes and solder pads on a customer pcb that are necessary to mount the modules on this pcb. keeping the tolerances for the pcb given in figure 11 to figure 13 is required to properly attach the paroli transmitter and receiver module to the pcb. attachment to the customer pcb should be done with four m2 screws torqued to 0.25 nm +0.05 nm (see figure 10 , cross section b-b). the screw length a should be 3 to 4 mm plus the thickness b of the customer pcb. special care must be taken to remove residues from the soldering and washing process which can impact the mechanical function. avoid the use of aggressive organic solvents like ketones, ethers, etc. consult the supplier of the paroli modules and the supplier of the solder paste and flux for recommended cleaning solvents. the following common cleaning solvents will not affect the module: deionized water, ethanol, and isopropyl alcohol. air-drying is recommended to a maximum temperature of 150 c. do not use ultrasonics. during soldering, heat must be applied to the leads only, to ensure that the case temperature never exceeds 150 c. the module must be mounted with a hot-air or hot- bar soldering process using a snpb solder type, e.g. sn62pb36ag2, in accordance with iso 9435.
v23814-k1306-m136 V23815-K1306-M136 assembly data sheet 21 2001-12-01 figure 10 drawing of the paroli transmitter and receiver module dimensions in [mm] inches
v23814-k1306-m136 V23815-K1306-M136 assembly data sheet 22 2001-12-01 figure 11 recommended circuit board layout: transmitter dimensions in [mm] inches
v23814-k1306-m136 V23815-K1306-M136 assembly data sheet 23 2001-12-01 figure 12 recommended circuit board layout: receiver no electronic components are allowed on the customer pcb within the area covered by the paroli module and the jumper used to attach a ribbon fiber cable. dimensions in [mm] inches
v23814-k1306-m136 V23815-K1306-M136 assembly data sheet 24 2001-12-01 figure 13 mounting hole, detail y (see figure 11 and figure 12 ) dimensions in [mm] inches
v23814-k1306-m136 V23815-K1306-M136 assembly data sheet 25 2001-12-01 figure 14 applications point-to-point tx module ribbon cable cml, lvds or lvpecl rx module paroli smc port cml, lvds or lvpecl smc port paroli i/o board passive optical backplane tx rx feed through optical backplane paroli tx module ribbon cables link controller cml, lvds or lvpecl paroli rx module board-to-board smc port
v23814-k1306-m136 V23815-K1306-M136 package outlines data sheet 26 2001-12-01 package outlines figure 15 dimensions in [mm] inches
edition 2001-12-01 published by infineon technologies ag, st.-martin-strasse 53, d-81541 m nchen, germany ? infineon technologies ag 2002. all rights reserved. attention please! the information herein is given to describe certain components and shall not be considered as warranted characteristics. terms of delivery and rights to technical change reserved. we hereby disclaim any and all warranties, including but not limited to warranties of non-infringement, regarding circuits, descriptions and charts stated herein. infineon technologies is an approved cecc manufacturer. information for further information on technology, delivery terms and conditions and prices please contact your nearest infineon technologies office in germany or our infineon technologies representatives worldwide. warnings due to technical requirements components may contain dangerous substances. for information on the types in question please contact your nearest infineon technologies office. infineon technologies components may only be used in life-support devices or systems with the express written approval of infineon technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. life-support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. if they fail, it is reasonable to assume that the health of the user or other persons may be endangered. for questions on technology, delivery and prices please contact the infineon technologies offices in germany or the infineon technologies companies and representatives worldwide: see our webpage at http://www.infineon.com. v23814-k1306-m136 V23815-K1306-M136 revision history: 2001-12-01 ds0 previous version: page subjects (major changes since last revision) document ? s layout has been changed: 2002-aug.
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