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document number: 81211 for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com www.vishay.com rev. 1.4, 29-jul-09 1 fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation tfdu6103 vishay semiconductors description the tfdu6103 is a low-power infrared transceiver module compliant to the latest irda ? physical layer standard for fast infrared data communication, supporting irda speeds up to 4 mbit/s (fir), and carrier bas ed remote control modes up to 2 mhz. integrated within the transceiver module are a pin photodiode, an infrared emitter (ired), and a low-power cmos control ic to provide a total front-end solution in a single package. vishay fir transceivers are available in different package options, including this babyface package (tfdu6103). this wide selection provides flexibility for a variety of applications and space constraints. the transceivers are capable of directly interfacing with a wide variety of i/o devices which perform the modulation/demodulation function, including national semiconductor?s pc87338, pc87108 and pc87109, smc?s fdc37c669, fdc37n769 and cam35c44, and hitachi?s sh3. tfdu6103 has a tri-state output and is floating in shut-down mode with a weak pull-up. applications ? notebook computers, desktop pcs, palmtop computers (win ce, palm pc), pdas ? digital still and video cameras ? printers, fax machines, photocopiers, screen projectors ? telecommunication products (cellular phones, pagers) ? internet tv boxes, vi deo conferencing systems ? external infrared adapters (dongles) ? medical an industrial data collection features ? supply voltage 2.4 v to 5.5 v, operating idle current (receive mode) < 3.3 ma, shutdown current < 1 a over full temperature range ? surface mount package, top and side view, 9.7 mm x 4.7 mm x 4 mm ? operating temperature - 25 c to 85 c ? transmitter wavelength typ. 886 nm, supporting irda and remote control ? irda compliant, link distance > 1 m, 15, window losses are allowed to still be inside the irda spec. ? remote control range > 8 m, typ. 22 m ? esd > 1 kv ? latchup > 100 ma ? emi immunity > 550 v/m for gsm frequency and other mobile telephone bands/(700 mhz to 2000 mhz, no external shield) ? split power supply, led can be driven by a separate power supply not loading the r egulated supply. u.s. pat. no. 6,157,476 ? tri-state-receiver output, floating in shut down with a weak pull-up ? eye safety class 1 (iec 60825-1, ed. 2001), limited led on-time, led current is controlled, no single fault to be considered ? qualified for lead (pb)-free and sn/pb processing (msl4) ? compliant to rohs directive 2002/95/ec and in accordance to weee 2002/96/ec 20110 product summary part number data rate (kbit/s) dimensions h x l x w (mm x mm x mm) link distance (m) operating voltage (v) idle supply current (ma) tfdu6103 4000 4 x 9.7 x 4.7 0 to ?? 1 2.4 to 5.5 2 parts table part description qty/reel tfdu6103-tr3 oriented in carrier tape for side view surface mounting 1000 pcs TFDU6103-TT3 oriented in carrier tape for top view surface mounting 1000 pcs
tfdu6103 vishay semiconductors fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation www.vishay.com for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com document number: 81211 2 rev. 1.4, 29-jul-09 functional block diagram pinout tfdu6103 weight 0.2 g definitions: in the vishay transceiver datasheets the following nomenclature is used for defini ng the irda operating modes: sir: 2.4 kbit/s to 115.2 kbit/s, equivalent to the basic serial infrared standard with the physical layer version irphy 1.0 mir: 576 kbit/s to 1152 kbit/s fir: 4 mbit/s vfir: 16 mbit/s mir and fir were implemented with irphy 1.1, followed by irphy 1.2, adding the sir lo w power standard. irphy 1.3 extended the low power option to mir and fir and vfir was added with irphy 1.4. a new version of the standard in any case obsoletes the former version. note we apologize to use someti mes in our documentation the abbreviation led and the word light emitting diode instead of infrared emitting diode (ired) for ir -emitters. that is by definition wrong; we are here following just a bad trend. typical values are for design aid only, not guaranteed nor subject to production testing and may vary with time. contro lle d dr i v er tr i- stat e dr i v er g n d txd rxd v cc2 v cc1 am pl if ie r co mp ar ator sd lo gi c and contro l ir ed c 1 8 46 8 ?u? option ba b y face ( u ni v ersal) ired detector 1357 246 8 170 8 7 pin description pin number symbol description i/o active 1 v cc2 ired anode connect ired anode directly to v cc2 . for voltages higher than 3.6 v an external resistor might be necessary for reducing the internal power dissipation. an unregulated separate power s upply can be used at this pin 2 ired cathode ired cathode, internally c onnected to driv er transistor 3txd this input is used to transmit serial data when sd is low. an on-chip protection circuit disables the led driver if the txd pin is asserted for longer than 100 s. when used in conjunction with the sd pin, this pin is also used to set receiver speed mode ihigh 4rxd received data output, push-pull cmos driver output capable of driving a standard cmos or ttl load. no external pull-up or pull-down resist or is required. floating with a weak pull-up of 500 k ? (typ.) in shutdown mode olow 5sd shutdown, also used for dynamic mode switching. setting this pin active places the module into shutdown mode. on the falling edge of this signal, the state of the txd pin is sampled and used to set receiver low bandwidth (txd = low, sir) or high bandwidth (txd = high, mir and fir) mode ihigh 6v cc1 supply voltage 7nc 8 gnd ground
tfdu6103 fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation vishay semiconductors document number: 81211 for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com www.vishay.com rev. 1.4, 29-jul-09 3 note reference point ground pin 8, unless otherwise noted. typical values are for desi gn aid only, not guaranteed nor subject to pr oduction testing and may vary with time. note vishay transceivers operating inside t he absolute maximum ratings are classifi ed as eye safe according the above table. absolute maximum ratings parameter test conditions symbol min. typ. max. unit supply voltage range, transceiver 0 v < v cc2 < 6 v v cc1 - 0.5 + 6 v supply voltage range, transmitter 0 v < v cc1 < 6 v v cc2 - 0.5 + 6.5 v input currents for all pins, except ired anode pin 10 ma output sinking current 25 ma power dissipation see derat ing curve, figure 6 p d 500 mw junction temperature t j 125 c ambient temperature range (operating) t amb - 25 + 85 c storage temperature range t stg - 25 + 85 c soldering temperature see recommended solder profile (see figure 4) 260 c average output current i ired (dc) 125 ma repetitive pulse output current < 90 s, t on < 20 % i ired (rp) 600 ma ired anode voltage v ireda - 0.5 + 6.5 v voltage at all inputs and outputs v in > v cc1 is allowed v in 5.5 v eye safety information standard classification iec/en 60825-1 (2007-03), din en 60825-1 ( 2008-05) ?safety of laser products - part 1: equipment classification and requirements?, simplified method class 1 iec 62471 (2006), cie s009 (2002) ?photobiological safety of lamps and lamp systems? exempt directive 2006/25/ec of the european parliament and of the council of 5 th april 2006 on the minimum health and safety requirements regarding the exposure of workers to risks arising from physical agents (artificial optical radiation) (19 th individual directive within the meaning of article 16(1) of directive 89/391/eec) exempt electrical characteristics (1) parameter test conditions symbol min. typ. max. unit transceiver supply voltage v cc 2.4 5.5 v dynamic supply current receive mode only, idle in transmit mode, add additional 85 ma (typ.) for ired current. add rxd output current depending on rxd load. sir mode i cc 1.8 3 ma mir/fir mode i cc 23.3ma shutdown supply current sd = high t = 25 c, not ambient light sensitive, detector is disabled in shutdown mode i sd 0.01 a sd = high, full specified temperature range, not ambient light sensitive i sd 1a operating temperature range t a - 25 + 85 c input voltage low (txd, sd) v il - 0.5 0.5 v
tfdu6103 vishay semiconductors fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation www.vishay.com for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com document number: 81211 4 rev. 1.4, 29-jul-09 note (1) t amb = 25 c, v cc1 = v cc2 = 2.4 v to 5.5 v unless otherwise noted. typical values are for design aid only, not guaranteed nor subject to production testing. (2) the typical threshold level is 0.5 x v cc1 (v cc1 = 3 v). it is recommended to use the specified min./max. values to avoid increased operating current. transceiver input voltage high (txd, sd) cmos level (2) v ih v cc - 0.3 6 v input leakage current (txd, sd) v in = 0.9 x v cc1 i ich - 1 + 1 a input capacitance, txd, sd c i 5pf output voltage low i ol = 500 a, c load = 15 pf v ol 0.4 v output voltage high i oh = 250 a, c load = 15 pf v oh 0.9 x v cc1 v output rxd current limitation high state low state short to ground short to v cc1 20 20 ma ma sd shutdown pulse duration activating shutdown 30 ? s rxd to v cc1 impedance r rxd 400 500 600 k ? sd mode programming pulse duration all modes t sdpw 200 ns electrical characteristics (1) parameter test conditions symbol min. typ. max. unit optoelectronic characteristics (1) parameter test conditions symbol min. typ. max. unit receiver minimum irradiance e e in angular range (3) sir mode 9.6 kbit/s to 115.2 kbit/s ? = 850 nm to 900 nm e e 25 (2.5) 35 (3.5) mw/m 2 (w/cm 2 ) minimum irradiance e e in angular range, mir mode 1.152 mbit/s ? = 850 nm to 900 nm e e 65 (6.5) mw/m 2 (w/cm 2 ) minimum irradiance e e inangular range, fir mode 4 mbit/s ? = 850 nm to 900 nm e e 80 (8) 90 (9) mw/m 2 (w/cm 2 ) maximum irradiance e e in angular range (4) ? = 850 nm to 900 nm e e 5 (500) kw/m 2 (mw/cm 2 ) maximum no detection irradiance (2) e e 4 (0.4) mw/m 2 (w/cm 2 ) rise time of output signal 10 % to 90 %, 15 pf t r (rxd) 10 40 ns fall time of output signal 90 % to 10 %, 15 pf t f (rxd) 10 40 ns rxd pulse width of output signal, 50 %, sir mode input pulse length, 1.4 s < p wopt < 25 s t pw 2.1 s input pulse length, 1.4 s < p wopt < 25 s, - 25 c < t < 85 c (5) t pw 1.5 1.8 2.6 s rxd pulse width of output signal, 50 %, mir mode input pulse length, p wopt = 217 ns, 1.152 mbit/s t pw 110 250 270 ns rxd pulse width of output signal, 50 %, fir mode input pulse length, p wopt = 125 ns, 4 mbit/s t pw 100 140 ns input pulse length, p wopt = 250 ns, 4 mbit/s t pw 225 275 ns stochastic jitter, leading edge input irradiance = 100 mw/m 2 , 4 mbit/s 20 ns input irradiance = 100 mw/m 2 , 1.152 mbit/s 40 ns input irradiance = 100 mw/m 2 , 576 kbit/s 80 ns input irradiance = 100 mw/m 2 , ? 115.2 kbit/s 350 ns receiver start up time after completion of shutdown programming sequence power on delay 250 s latency t l 40 100 s
tfdu6103 fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation vishay semiconductors document number: 81211 for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com www.vishay.com rev. 1.4, 29-jul-09 5 notes (1) t amb = 25 c, v cc = 2.4 v to 5.5 v unless otherwise noted. all timing data measured with 4 mbit/s are m easured using the irda fir transmission header. the data given here are valid 5 s after starting the preamble. typical values are for design aid only, not guaranteed nor s ubject to production testing. (2) this parameter reflects the backlight test of the irda physical layer specification to guarantee i mmunity against light from fl uorescent lamps. (3) irda sensitivity definition: minimum irradiance e e in angular range, power per unit area. the rece iver must meet the ber specification while the source is operating at the minimum in tensity in angular range into the minimum half-angular range at t he maximum link lengt h. (4) maximum irradiance e e in angular range, power per unit area. the optical delive red to the detector by a source operating at the maximum intensity in angular range at minimum link length must not caus e receiver overdrive distortion and possible related link errors . if placed at the active output interface reference plane of the transmitter, the rece iver must meet its bit error ratio (ber) spec ification. for more definitions see the document ?symbols and termi nology? on the vishay website (5) retriggering once during appli ed optical pulse may occur. (6) maximum value is given by eye safety class 1, iec 60825-1, simplified method. (7) due to this wavelength restriction compared to the irda spec of 850 nm to 900 nm the transmitter is able to operate as source f or the standard remote control applications with codes as e.g. philips rc5/rc6 ? or recs 80. when operated under irda full range conditions (125 mw/sr) the rc range to be covered is in the range from 8 m to 12 m, pr ovided that state of the art re mote control receivers are used. transmitter ired operating current, switched current limiter note: no external current limiting resistor is needed for v cc1 = v cc2 = 3.3 v i d 330 440 600 ma output pulse width limitation input pulse width t < 20 s t pw ts input pulse width 20 s < t < 150 s t pw 18 150 s input pulse width t ? 150 s t pw_lim 150 s output leakage ired current i ired - 1 1 a output radiant intensity, see figure 1, recommended application circuit v cc = v ired = 3.3 v, ? = 0 txd = high, sd = low, r1 = 1 ? i e 110 170 468 (6) mw/sr output radiant intensity, see figure 1, recommended application circuit v cc = v ired = 3.3 v, ? = 0, 15 txd = high, sd = low, r1 = 1 ? i e 100 130 468 (6) mw/sr output radiant intensity v cc1 = 3.3 v, ? = 0, 15 txd = low or sd = high (rec eiver is inactive as long as sd = high) i e 0.04 mw/sr output radiant intensity, angle of half intensity ? 24 deg peak - emission wavelength (7) ? p 875 886 900 nm spectral bandwidth ?? 45 nm optical rise time, optical fall time t ropt , t fopt 10 40 ns optical output pulse duration input pulse width 217 ns, 1.152 mbit/s t opt 207 217 227 ns input pulse width 125 ns, 4 mbit/s t opt 117 125 133 ns input pulse width 250 ns, 4 mbit/s t opt 242 250 258 ns optical overshoot 25 % optoelectronic characteristics (1) parameter test conditions symbol min. typ. max. unit
tfdu6103 vishay semiconductors fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation www.vishay.com for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com document number: 81211 6 rev. 1.4, 29-jul-09 recommended circuit diagram vishay semiconductors transceivers integrate a sensitive receiver and a built-in power driver. the combination of both needs a careful circuit board layout. the use of thin, long, resistive and inductive wiring should be avoided. the inputs (txd, sd) and the output rxd should be directly (dc) coupled to the i/o circuit. fig. 1 - recommended application circuit the capacitor c1 is buffering the supply voltage and reduces the influence of the inductance of the power supply line. this one should be a tantalum or other fast capacitor to guarantee the fast rise time of the ired current. the resistor r1 is only necessary for higher operating voltages and elevated temperatures, see derating curve in figure 6, to avoid too high internal power dissipation. the capacitors c2 and c3 combined with the resistor r2 (as the low pass filter) is smoothing the supply voltage v cc1 . r2, c1, c2, and c3 are optional and dependent on the quality of the supply voltages v cc1 and v cc2 and injected noise. an unstable power supply with dropping voltage during transmission may reduce sensitivity (and transmission range) of the transceiver. the placement of these parts is critical. it is strongly recommended to position c2 and c3 as close as possible to the transceiver power supply pins. an tantalum capacitor should be used for c1 and c3 while a ceramic capacitor is used for c2. in addition, when connecting the described circuit to the power supply, low impedance wiring should be used. when extended wiring is used the inductance of the power supply can cause dynamically a voltage drop at v cc2 . often some power supplies are not able to follow the fast current rise time. in that case another 4.7 f (type, see table under c1) at v cc2 will be helpful. keep in mind that basic rf-design rules for circuit design should be taken into account. especially longer signal lines should not be used without termi nation. see e.g. ?the art of electronics? paul horowitz, wienfield hill, 1989, cambridge university press, isbn: 0521370957. i/o and software in the description, already different i/os are mentioned. different combinations are test ed and the function verified with the special drivers available from the i/o suppliers. in special cases refer to the i/o manual, the vishay application notes, or contact directly vishay sales, marketing or application. mode switching the tfdu6103 is in the sir mode after power on as a default mode, therefore the fir data transfer rate has to be set by a programming sequence using the txd and sd inputs as described below. the low frequency mode covers speeds up to 115.2 kbit/s. signals with higher data rates should be detected in the high frequency mode. lower frequency data can also be received in the high frequency mode but with reduced sensitivity. to switch the transceivers from low frequency mode to the high frequency mode and vice versa, the programming sequences described below are required. setting to the high bandwidth mode (0.576 mbit/s to 4 mbit/s) 1. set sd input to logic ?high?. 2. set txd input to logic ?high?. wait t s ? 200 ns. 3. set sd to logic ?low? (this negative edge latches state of txd, which determines speed setting). 4. after waiting t h ? 200 ns txd can be set to logic ?low?. the hold time of txd is limited by the maximum allowed pulse length. after that txd is enabled as normal txd input and the transceiver is set for the high bandwidth (576 kbit/s to 4 mbit/s) mode. ired anode v cc gro u nd sd txd rxd ired cathode v cc2 v cc1 g n d sd txd rxd r1 r2 c1 c2 c3 197 8 9 table 1 - recommended application circuit components component recommended value vishay part number c1, c3 4.7 f, 16 v 293d 475x9 016b c2 0.1 f, ceramic vj 1206 y 104 j xxmt r1 3.3 v supply voltage: no resistors necessary, the internal controller is able to control the current e.g. 2 x crcw-1206-1r0-f-rt1 r2 10 ? , 0.125 w crcw-1206-10r0-f-rt1
tfdu6103 fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation vishay semiconductors document number: 81211 for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com www.vishay.com rev. 1.4, 29-jul-09 7 setting to the lower bandwidth mode (2.4 kbit/s to 115.2 kbit/s) 1. set sd input to logic ?high?. 2. set txd input to logic ?low?. wait t s ? 200 ns. 3. set sd to logic ?low? (this negative edge latches state of txd, which determines speed setting). 4. txd must be held for t h ? 200 ns. after that txd is enabled as normal txd input and the transceiver is set for the lo wer bandwidth (9.6 kbit/s to 115.2 kbit/s) mode. note when applying this sequence to the device already in the lower bandwidth mode, the sd pulse is interpreted as shutdown. in this case the rxd output of the transce iver may react with a single pulse (going active low) for a durat ion less than 2 s. the operating software should take care for this condition. in case the applied sd pulse is longer than 4 s, no rxd pulse is to be expected but the receiver startup time is to be taken into account before the device is in receive condition. fig. 2 - mode switching timing diagram recommended solder profiles solder profile for sn/pb soldering fig. 3 - recommended solder profile for sn/pb soldering lead (pb)-free, recomm ended solder profile the tfdu6103 is a lead (pb)-free transceiver and qualified for lead (pb)-free processing. for lead (pb)-free solder paste like sn (3.0 - 4.0) ag (0.5 - 0.9) cu, there are two standard reflow profiles: ramp-soak-spike (rss) and ramp-to-spike (rts). the ramp-soak-spike profile was developed primarily for reflow ovens heated by infrared radiation. with widespread use of forced convection reflow ovens the ramp-to-spike profile is used increasingly. shown in figure 4 and 5 are vishay's recommended profiles for use with the tfdu6103 transceivers. for more details please refer to the application note ?smd assembly instructions?. a ramp-up rate less than 0.9 c/s is not recommended. ramp-up rates faster than 1. 3 c/s could damage an optical part because the thermal conductivity is less than compared to a standard ic. wave soldering for tfduxxxx and tfbsxxxx transceiver devices wave soldering is not recommended. manual soldering manual soldering is the standard method for lab use. however, for a production process it cannot be recommended because the risk of damage is highly dependent on the experience of the operator. nevertheless, we added a chapter to the ab ove mentioned application note, describing manual soldering and desoldering. txd sd t s t h 50 % high: fir low: sir 50 % 50 % 14873 table 2 - truth table inputs outputs sd txd optical input irradiance mw/m 2 rxd transmitter high x x weakly pulled (500 k ? ) to v cc1 0 low high x low (active) i e high > 150 s x high 0 low < 4 high 0 low > min. irradiance e e < max. irradiance e e low (active) 0 low > max. irradiance e e x0 0 20 40 60 8 0 100 120 140 160 1 8 0 200 220 240 260 0 50 100 150 200 250 300 350 time/s temperat u re (c) 2 to 4 c/s 2 to 4 c/s 10 s max. at 230 c 120 to1 8 0 s 160 c max. 240 c max. 90 s max. 19535
tfdu6103 vishay semiconductors fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation www.vishay.com for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com document number: 81211 8 rev. 1.4, 29-jul-09 storage the storage and drying processes for all vishay transceivers (tfduxxxx and tfbsxxx) are equ ivalent to msl4. the data for the drying procedure is given on labels on the packing and also in the application note ?taping, labeling, storage and packing?. fig. 4 - solder profile, rss recommendation fig. 5 - rts recommendation current derating diagram figure 6 shows the maximum operating temperature when the device is operated without external current limiting resistor. a power dissipating resistor of 2 ? is recommended from the cathode of the ired to ground for supply voltages above 4 v. in that case the device can be operated up to 85 c, too. fig. 6 - temperature derating diagram 0 25 50 75 100 125 150 175 200 225 250 275 0 50 100 150 200 250 300 350 time/s temperat u re/c 30 s max. 2 c/s to 3 c/s 2 c/s to 4 c/s 90 s to 120 s t 217 c for 70 s max. t peak = 260 c 70 s max. t 255 c for 10 s....30 s 19532 0 40 8 0 120 160 200 240 2 8 0 0 50 100 150 200 250 300 time/s temperat u re/c < 4 c/s 1.3 c/s time a b o v e 217 c t 70 s time a b o v e 250 c t 40 s peak temperat u re t peak = 260 c < 2 c/s t peak = 260 c max. tfdu fig3 50 55 60 65 70 75 80 85 90 2 2.5 3 3.5 4 4.5 5 5.5 6 operating voltage (v) at duty cycle 20 % ambient temperature (c) 18097
tfdu6103 fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation vishay semiconductors document number: 81211 for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com www.vishay.com rev. 1.4, 29-jul-09 9 package dimensions in millimeters fig. 7 - package drawing and solder footpr ints for top and side view mounting tfdu6103, tolerance 0.2 mm if not otherwise mentioned 20111
tfdu6103 vishay semiconductors fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation www.vishay.com for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com document number: 81211 10 rev. 1.4, 29-jul-09 reel dimensions in millimeters 14017 dra w ing- n o.: 9. 8 00-5090.01-4 iss u e: 1; 29.11.05 tape width (mm) a max. (mm) n (mm) w 1 min. (mm) w 2 max. (mm) w 3 min. (mm) w 3 max. (mm) 24 330 60 24.4 30.4 23.9 27.4
tfdu6103 fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation vishay semiconductors document number: 81211 for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com www.vishay.com rev. 1.4, 29-jul-09 11 tape dimensions in millimeters fig. 8 - tape drawing, tfdu6103 for t op view mounting, tolerance 0.1 mm 19 8 24 dra w ing- n o.: 9.700-5251.01-4 iss u e: 3; 02.09.05
tfdu6103 vishay semiconductors fast infrared transceiver module (fir, 4 mbit/s) for 2.4 v to 5.5 v operation www.vishay.com for technical questions within your region, please contact one of the following: irdasupportam@vishay.com , irdasupportap@vishay.com , irdasupporteu@vishay.com document number: 81211 12 rev. 1.4, 29-jul-09 tape dimensions in millimeters fig. 9 - tape drawing, tfdu6103 for si de view mounting, tolerance 0.1 mm 19 8 75
document number: 91000 www.vishay.com revision: 18-jul-08 1 disclaimer legal disclaimer notice vishay all product specifications and data are subject to change without notice. vishay intertechnology, inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, ?vishay?), disclaim any and all liability fo r any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product. vishay disclaims any and all li ability arising out of the use or application of any product describ ed herein or of any information provided herein to the maximum extent permit ted by law. the product specifications do not expand or otherwise modify vishay?s terms and conditions of purcha se, including but not limited to the warranty expressed therein, which apply to these products. no license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of vishay. the products shown herein are not designed for use in medi cal, life-saving, or life-sustaining applications unless otherwise expressly indicated. customers using or selling vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify vishay for any damages arising or resulting from such use or sale. please contact authorized vishay personnel to obtain written terms and conditions regarding products designed for such applications. product names and markings noted herein may be trademarks of their respective owners.

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