 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
| HFBR-0500Z series versatile link the versatile fiber optic connection data sheet features ? rohs-compliant ? low cost fber optic components ? enhanced digital links: dc-5 mbd ? extended distance links up to 120 m at 40 kbd ? low current link: 6 ma peak supply current ? horizontal and vertical mounting ? interlocking feature ? high noise immunity ? easy connectoring: simplex, duplex, and latching connectors ? flame retardant ? transmitters incorporate a 660 nm red led for easy visibility ? compatible with standard ttl circuitry applications ? reduction of lightning/volt age transient susceptibility ? motor controller triggering ? data communications and local area networks ? electromagnetic compatibility (emc) for regulated systems: fcc, vde, csa, etc. ? tempest-secure data processing equipment ? isolation in test and measurement instruments ? error free signalling for industrial and manufactur ing equipment ? automotive communica tions and control networks ? noise immune communica tion in audio and video equipment description the versatile link series is a complete family of fber optic link components for applications requiring a low cost solution. the HFBR-0500Z series includes trans - mitters, receivers, connec tors and cable specifed for easy design. this series of compo nents is ideal for solving problems with voltage isolation/insula tion, emi/rfi immunity or data security. the optical link design is simpli fed by the logic compat ible receivers and complete specif-cations for each component. the key optical and electrical parameters of links confgured with the HFBR-0500Z family are fully guaranteed from 0 to 70c. a wide variety of package confg u ra tions and connectors provide the designer with numerous mechanical solutions to meet application requirements. the transmitter and receiver compo nents have been designed for use in high volume/low cost assembly processes such as auto inser - tion and wave soldering. transmitters incorporate a 660 nm led. receivers include a monolithic dc coupled, digital ic receiver with open collector schottky output transistor. an internal pullup resistor is avail able for use in the hfbr-25x1z/2z/4z receivers. a shield has been in - tegrated into the receiver ic to provide additional, localized noise immunity. internal optics have been optim ized for use with 1 mm diameter plastic optical fber. versatile link specifcations incorporate all connector interface losses. therefore, optical calculations for common link applications are simplifed.
2 link selection guide (links specifed from 0 to 70c, for plastic optical fber unless specifed.) signal rate distance (m) 25c distance (m) transmitter receiver 40 kbd 120 110 hfbr-1523z hfbr-2523z 1 mbd 20 10 hfbr-1524z hfbr-2524z 1 mbd 55 45 hfbr-1522z hfbr-2522z 5 mbd 30 20 hfbr-1521z hfbr-2521z evaluation kit HFBR-0500Z 1 mbd versatile link: this kit contains: hfbr-1524z tx, hfbr-2524z rx, polishing kit, 3 styles of plastic connectors, bulkhead feedthrough, 5 meters of 1 mm diameter plastic cable, lapping flm and grit paper, and HFBR-0500Z data sheet. application literature application note 1035 (versatile link) valox ? is a registered trademark of the general electric corporation. package and handling information the compact versatile link pack age is made of a fame retardant valox ? ul 94 v-0 material (ul fle # e121562) and uses the same pad layout as a standard, eight pin dual-in-line package. vertical and horizontal mountable parts are available. these low profle versa tile link pack - ages are stackable and are enclosed to provide a dust resistant seal. snap action simplex, simplex latching, duplex, and duplex latching connectors are ofered with simplex or duplex cables. package orientation performance and pinouts for the vertical and hori - zontal packages are identical. to provide addi tional attachment support for the vertical versatile link housing, the designer has the option of using a self- tapping screw through a printed circuit board into a mounting hole at the bottom of the package. for most applications this is not necessary. package housing color versatile link components and simplex connectors are color coded to eliminate confusion when making connec - tions. receivers are blue and transmit ters are gray, except for the hfbr-15x3z transmitter, which is black. HFBR-0500Z series part number guide hfbr x5xxz 1 = transmitter 2 = receiver z = rohs-compliant 5 = 600 nm transmitter and receiver products 1 = 5 mbd high performance link 2 = 1 mbd high performance link 3 = 40 kbd low current/extended distance link 2 = horizontal package 4 = 1 mbd standard link 3 = vertical package 6 = 155 mbd receiver 7 = 155 mbd transmitter 8 = 10 mbd high performance link 3 handling versatile link components are auto-insertable. when wave soldering is performed with versatile link compo - nents, the optical port plug should be left in to prevent contamination of the port. do not use refow solder processes (i.e., infrared refow or vapor-phase refow). nonhalogenated water soluble fuxes (i.e., 0% chloride), not rosin based fuxes, are recom mended for use with versatile link components. versatile link components are moisture sensitive devices and are shipped in a moisture sealed bag. if the components are exposed to air for an extended period of time, they may require a baking step before the solder - ing process. refer to the special labeling on the shipping tube for details. recommended chemicals for cleaning/degreasing alcohols: methyl, isopropyl, isobutyl. aliphatics: hexane, heptane. other: soap solution, naphtha. do not use partially halogenated hydrocarbons such as 1,1.1 trichloroethane, ketones such as mek, acetone, chloroform, ethyl acetate, methylene dichloride, phenol, methylene chloride, or n-methylpyrolldone. also, avago does not recommend the use of cleaners that use halogenated hydrocarbons because of their potential environmental harm. mechanical dimensions horizontal modules vertical modules 6.86 (0.270) 10.16 (0.400) 4.19 (0.165) 1.27 (0.050) 2.54 (0.100) 0.51 (0.020) 18.8 (0.74) 2.03 (0.080) 7.62 (0.30) 0.64 (0.025) 7.62 (0.300) 2.77 (0.109) 1.85 (0.073) 0.64 (0.025) dia. 5.08 (0.200) 3.81 (0.150) max. 3.56 (0.140) min. 2.03 (0.080) 10.16 (0.400) 5.08 (0.200) 6.86 (0.27) 18.80 (0.740) 18.29 (0.720) 4 versatile link printed board layout dimensions horizontal module vertical module interlocked (stacked) assemblies (refer to figure 1) horizontal packages may be stacked by placing units with pins facing upward. initially engage the inter - locking mechanism by sliding the l bracket body from above into the l slot body of the lower package. use a straight edge, such as a ruler, to bring all stacked units into uniform alignment. this tech nique prevents potential harm that could occur to fngers and hands of assemblers from the package pins. stacked horizontal packages can be disengaged if necessary. repeated stacking and unstack ing causes no damage to individual units. to stack vertical packages, hold one unit in each hand, with the pins facing away and the optical ports on the bottom. slide the l bracket unit into the l slot unit. the straight edge used for horizontal package alignment is not needed. stacking horizontal modules figure 1. interlocked (stacked) horizontal or vertical packages stacking vertical modules 4 1 3 2 5 8 7.62 (0.300) 1.01 (0.040) dia. 1.85 (0.073) min. pcb edge top view 2.54 (0.100) 7.62 (0.300) dimensions in millimeters (inches). 5 figure 2. typical 5 mbd interface circuit figure 4. guaranteed system performance with improved cable (hfbr-15x1z/25x1z) figure 3. guaranteed system performance with standard cable (hfbr-15x1z/25x1z) 100 50 40 30 20 10 5 01 02 03 04 05 0 i ? forward current (ma) f ? cable length ? metres overdrive underdrive 25c 0c?70c 100 50 40 30 20 10 5 01 02 03 04 05 0 i ? forward current (ma) f ? cable length ? metres 60 25c 0c?70c overdrive underdrive 5 mbd link (hfbr-15x1z/25x1z) system performance 0 to 70c unless otherwise specifed. parameter symbol min. typ. max. units conditions ref. high data rate dc 5 mbd ber 10 -9 , prbs:2 7 -1 link distance 19 m i fdc = 60 ma fig. 3 (standard cable) 27 48 m i fdc = 60 ma, 25c note 3 link distance 22 m i fdc = 60 ma fig. 4 (improved cable) 27 53 m i fdc = 60 ma, 25c note 3 propagation t plh 80 140 ns r l = 560 f, c l = 30 pf fig. 5, 8 delay t phl 50 140 ns fber length = 0.5 m notes 1, 2 -21.6 p r -9.5 dbm pulse width t d 30 ns p r = -15 dbm fig. 5, 7 distortion t plh -t phl r l = 560 f, c l = 30 pf notes: 1. the propagation delay for one metre of cable is typically 5 ns. 2. typical propagation delay is measured at p r = -15 dbm. 3. estimated typical link life expectancy at 40c exceeds 10 years at 60 ma. performance 5 mbd 6 figure 5. 5 mbd propagation delay test circuit figure 8. typical link propagation delay vs. optical power figure 7. typical link pulse width distortion vs. optical power figure 6. propagation delay test waveforms t d ? pulse width distortion ? ns -25 500 200 0 p r ? input optical power ? dbm -20 -15 -5 400 100 300 -10 0 70c 25c 0c 70c 25c 0c hfbr-15x1z/25x1z hfbr-15x2z/25x2z hfbr-15x4z/25x4z t p ? propagation delay ? ns -25 500 200 0 p r ? input optical power ? dbm -20 -15 -5 400 100 300 -10 0 hfbr-15x1z/25x1z hfbr-15x2z/25x2z hfbr-15x4z/25x4z t plh t phl t plh 7 hfbr-15x1z transmitter all hfbr-15xxz led transmitters are classifed as iec 825-1 accessible emission limit (ael) class 1 based upon the current proposed draft scheduled to go into efect on january 1, 1997. ael class 1 led devices are considered eye safe. contact your local avago sales representative for more information. absolute maximum ratings parameter symbol min. max. units reference storage temperature t s C40 +85 c operating temperature t a C40 +85 c lead soldering cycle temp. 260 c note 1, 4 time 10 sec forward input current i fpk 1000 ma note 2, 3 i fdc 80 reverse input voltage v br 5 v notes: 1. 1.6 mm below seating plane. 2. recommended operating range between 10 and 750 ma. 3. 1 s pulse, 20 s period. 4. moisture sensitivity level (msl) is 3. anode 1 cathode 2 n.c. 3 n.c. 4 8 do not connect 5 do not connect pin # function 1 anode 2 cathode 3 open 4 open 5 do not connect 8 do not connect note: pins 5 and 8 are for mounting and retaining purposes only. do not electrically connect these pins. 8 figure 9. typical forward voltage vs. drive current figure 10. normalized typical output power vs. drive current v f ? forward voltage ? v 2 1.8 1.6 1.4 i fdc ? transmitter drive current (ma) 10 1.7 1.5 100 70?c 25?c 0?c p t ? normalized output power ? db 2 5 -5 -20 i fdc ? transmitter drive current (ma) 10 0 -15 100 -10 transmitter electrical/optical characteristics 0c to 70c unless otherwise specifed. parameter symbol min. typ. [5] max. units conditions ref. transmitter output p t -16.5 -7.6 dbm i fdc = 60 ma notes 1, 2 -14.3 -8.0 dbm i fdc = 60 ma, 25c output optical power ?p t /?t -0.85 %/c temperature coefcient peak emission pk 660 nm wavelength forward voltage v f 1.45 1.67 2.02 v i fdc = 60 ma forward voltage ?v f /?t -1.37 mv/c fig. 9 temperature coefcient efective diameter d 1 mm numerical aperture na 0.5 reverse input breakdown v br 5.0 11.0 v i fdc = 10 a, voltage t a = 25c diode capacitance c o 86 pf v f = 0, f = mhz rise time t r 80 ns 10% to 90%, note 3 fall time t f 40 ns notes: 1. measured at the end of 0.5 m standard fber optic cable with large area detector. 2. optical power, p (dbm) = 10 log [p(w)/1000 w]. 3. rise and fall times are measured with a voltage pulse driving the transmitter and a series connected 50 f load. a wide bandwidth optical to electrical waveform analyzer, terminated to a 50 f input of a wide bandwidth oscilloscope, is used for this response time measurement. optical power i f = 60 ma 9 hfbr-25x1z receiver absolute maximum ratings parameter symbol min. max. units reference storage temperature t s C40 +85 c operating temperature t a C40 +85 c lead soldering cycle temp. 260 c note 1, 3 time 10 sec supply voltage v cc C0.5 7 v note 2 output collector current i oav 25 ma output collector power dissipation p od 40 mw output voltage v o C0.5 18 v pull-up voltage v p C5 v cc v fan out (ttl) n 5 notes: 1. 1.6 mm below seating plane. 2. it is essential that a bypass capacitor 0.1 f be connected from pin 2 to pin 3 of the receiver. total lead length between both ends of the capacitor and the pins should not exceed 20 mm. 3. moisture sensitivity level (msl) is 3. receiver electrical/optical characteristics 0c to 70c, 4.75 v v cc 5.25 v unless otherwise specifed. parameter symbol min. typ. max. units conditions ref. input optical power p r(l) C21.6 C9.5 dbm v ol = 0.5 v notes 1, level for logic 0 i ol = 8 ma 2, 4 C21.6 C8.7 v ol = 0.5 v i ol = 8 ma, 25c input optical power p r(h) C43 dbm v ol = 5.25 v note 1 level for logic 1 i oh 250 a high level output current i oh 5 250 a v o = 18 v, p r = 0 note 3 low level output current v ol 0.4 0.5 v i ol = 8 ma, note 3 p r = p r(l)min high level supply i cch 3.5 6.3 ma v cc = 5.25 v, note 3 current p r = 0 low level supply current i ccl 6.2 10 ma v cc = 5.25 v note 3 p r = -12.5 dbm efective diameter d 1 mm numerical aperture na 0.5 internal pull-up resistor r l 680 1000 1700 f notes: 1. optical fux, p (dbm) = 10 log [p (w)/1000 w]. 2. measured at the end of the fber optic cable with large area detector. 3. r l is open. 4. pulsed led operation at i f > 80 ma will cause increased link t plh propagation delay time. this extended t plh time contributes to increased pulse width distortion of the receiver output signal. pin # function 1 v o 2 ground 3 v cc 4 r l 5 do not connect 8 do not connect note: pins 5 and 8 are for mounting and retaining purposes only. do not electrically connect these pins. 4 3 2 1 do not connect 5 do not connect 8 r l v cc ground v o 1000 ? 10 1 mbd link (high performance hfbr-15x2z/25x2z, standard hfbr-15x4z/25x4z) system performance under recommended operating conditions unless otherwise specifed. parameter symbol min. typ. max. units conditions ref. high data rate dc 1 mbd ber 10 -9 , prbs:2 7 -1 link distance 39 m i fdc = 60 ma fig. 14 (standard cable) 47 70 m i fdc = 60 ma, 25c notes 1, 3, 4 link distance 45 m i fdc = 60 ma fig. 15 (improved cable) 56 78 m i fdc = 60 ma, 25c notes 1, 3, 4 propagation t plh 180 250 ns r l = 560 f, c l = 30 pf fig. 16, 18 delay t phl 100 140 ns i = 0.5 metre notes 2, 4 p r = -24 dbm pulse width t d 80 ns p r = -24 dbm fig. 16, 17 distortion t plh -t phl r l = 560 f, c l = 30 pf note 4 performance 1 mbd parameter symbol min. typ. max. units conditions ref. standard data rate dc 1 mbd ber 10 -9 , prbs:2 7 -1 link distance 8 m i fdc = 60 ma fig. 12 (standard cable) 17 43 m i fdc = 60 ma, 25c notes 1, 3, 4 link distance 10 m i fdc = 60 ma fig. 13 (improved cable) 19 48 m i fdc = 60 ma, 25c notes 1, 3, 4 propagation t plh 180 250 ns r l = 560 f, c l = 30 pf fig. 16, 18 delay t phl 100 140 ns i = 0.5 metre notes 2, 4 p r = -20 dbm pulse width t d 80 ns p r = -20 dbm fig. 16, 17 distortion t plh -t phl r l = 560 f, c l = 30 pf note 4 notes: 1. for i fpk > 80 ma, the duty factor must be such as to keep i fdc 80 ma. in addition, for i fpk > 80 ma, the following rules for pulse width apply: i fpk 160 ma: pulse width 1 ms i fpk > 160 ma: pulse width 1 s, period 20 s. 2. the propagation delay for one meter of cable is typically 5 ns. 3. estimated typical link life expectancy at 40c exceeds 10 years at 60 ma. 4. pulsed led operation at i fpk > 80 ma will cause increased link t plh propagation delay time. this extended t plh time contributes to increased pulse width distortion of the receiver output signal. 1 mbd 11 figure 11. required 1 mbd interface circuit figure 15. guaranteed system performance for the hfbr-15x2z/25x2z link with improved cable figure 14. guaranteed system performance for the hfbr-15x2z/25x2z link with standard cable figure 13. guaranteed system performance for the hfbr-15x4z/25x4z link with improved cable figure 12. guaranteed system performance for the hfbr-15x4z/25x4z link with standard cable the hfbr-25x2z receiver cannot be overdriven when using the required interface circuit shown in figure 11 80 70 50 60 40 30 05 20 10 25 15 i ? forward current (ma) f ? cable length ? metres 100 90 20 hfbr-15x4z/25x4z 0c?70c 25c 80 70 50 60 40 30 02 0 10 30 i ? forward current (ma) f ? cable length ? metres 100 90 20 hfbr-15x4z/25x4z 0c?70c 25c 100 50 40 30 20 10 5 01 02 03 04 05 0 i ? forward current (ma) f ? cable length ? metres underdrive 25c 0c?70c 100 50 40 30 20 10 5 01 02 03 04 05 0 i ? forward current (ma) f ? cable length ? metres 60 25c 0c?70c underdrive 12 figure 17. pulse width distortion vs. optical power figure 16. 1 mbd propagation delay test circuit figure 19. propagation delay test waveforms figure 18. typical link propagation delay vs. optical power t d ? pulse width distortion ? ns -25 500 200 0 p r ? input optical power ? dbm -20 -15 -5 400 100 300 -10 0 70c 25c 0c 70c 25c 0c hfbr-15x1z/25x1z hfbr-15x2z/25x2z hfbr-15x4z/25x4z t p ? propagation delay ? ns -25 500 200 0 p r ? input optical power ? dbm -20 -15 -5 400 100 300 -10 0 hfbr-15x1z/25x1z hfbr-15x2z/25x2z hfbr-15x4z/25x4z t plh t phl t plh 13 pin # function 1 anode 2 cathode 3 open 4 open 5 do not connect 8 do not connect note: pins 5 and 8 are for mounting and retaining purposes only. do not electrically connect these pins. hfbr-15x2z/15x4z transmitters all hfbr-15xxz led transmitters are classifed as iec 825-1 accessible emission limit (ael) class 1 based upon the current proposed draft scheduled to go into efect on january 1, 1997. ael class 1 led devices are considered eye safe. contact your avago sales repre - sentative for more information. absolute maximum ratings parameter symbol min. max. units reference storage temperature t s C40 +85 c operating temperature t a C40 +85 c lead soldering cycle temp. 260 c note 1, 4 time 10 sec forward input current i fpk 1000 ma note 2, 3 i fdc 80 reverse input voltage v br 5 v notes: 1. 1.6 mm below seating plane. 2. recommended operating range between 10 and 750 ma. 3. 1 s pulse, 20 s period. 4. moisture sensitivity level (msl) is 3. transmitter electrical/optical characteristics 0c to 70c unless otherwise specifed. for forward voltage and output power vs. drive current graphs. parameter symbol min. typ. max. units conditions ref. transmitter hfbr-15x2z p t C13.6 C4.5 dbm i fdc = 60 ma output C11.2 C5.1 i fdc = 60 ma, 25c optical hfbr-15x4z p t C17.8 C4.5 dbm i fdc = 60 ma power C15.5 C5.1 i fdc = 60 ma, 25c output optical power ?p t /?t C0.85 %/c temperature coefcient peak emission wavelength pk 660 nm forward voltage v f 1.45 1.67 2.02 v i fdc = 60 ma forward voltage ?v f /?t C1.37 mv/c fig. 11 temperature coefcient efective diameter d t 1 mm numerical aperture na 0.5 reverse input breakdown v br 5.0 11.0 v i fdc = 10 a, voltage t a = 25c diode capacitance c o 86 pf v f = 0, f = 1 mhz rise time t r 80 ns 10% to 90%, note 1 fall time t f 40 ns i f = 60 ma note: 1. rise and fall times are measured with a voltage pulse driving the transmitter and a series connected 50 f load. a wide bandwidth optical to electrical waveform analyzer, terminated to a 50 f input of a wide bandwidth oscilloscope, is used for this response time measurement. anode 1 cathode 2 n.c. 3 n.c. 4 8 do not connect 5 do not connect 14 pin # function 1 v o 2 ground 3 v cc 4 r l 5 do not connect 8 do not connect note: pins 5 and 8 are for mounting and retaining purposes only. do not electrically connect these pins. hfbr-25x2z/25x4z receivers absolute maximum ratings parameter symbol min. max. units reference storage temperature t s C40 +85 c operating temperature t a C40 +85 c lead soldering cycle temp. 260 c note 1, 3 time 10 sec supply voltage v cc C0.5 7 v note 2 output collector current i oav 25 ma output collector power dissipation p od 40 mw output voltage v o C0.5 18 v pull-up voltage v p C5 v cc v fan out (ttl) n 5 notes: 1. 1.6 mm below seating plane. 2. it is essential that a bypass capacitor 0.1 f be connected from pin 2 to pin 3 of the receiver. total lead length between both ends of the capacitor and the pins should not exceed 20 mm. 3. moisture sensitivity level (msl) is 3. receiver electrical/optical characteristics 0c to 70c, 4.75 v v cc 5.25 v unless otherwise specifed. parameter symbol min. typ. max. units conditions ref. receiver hfbr-2522z p r(l) C24 dbm v ol = 0 v notes 1, 2, 3 optical input i ol = 8 ma power level hfbr-2524z C20 note 4 logic 0 optical input power p r(h) -43 dbm v oh = 5.25 v level logic 1 i oh = 250 a high level output current i oh 5 250 a v o = 18 v, p r = 0 note 5 low level output voltage v ol 0.4 0.5 v i ol = 8 ma note 5 p r = p r(l)min high level supply current i cch 3.5 6.3 ma v cc = 5.25 v, note 5 p r = 0 low level supply current i ccl 6.2 10 ma v cc = 5.25 v, note 5 p r = -12.5 dbm efective diameter d 1 mm numerical aperture na 0.5 internal pull-up resistor r l 680 1000 1700 f notes: 1. measured at the end of the fber optic cable with large area detector. 2. pulsed led operation at i f > 80 ma will cause increased link t plh propagation delay time. this extended t plh time contributes to increased pulse width distortion of the receiver output signal. 3. the led drive circuit of figure 11 is required for 1 mbd operation of the hfbr-25x2z/25x4z. 4. optical fux, p (dbm) = 10 log [p(w)/1000 w]. 5. r l is open. 4 3 2 1 do not connect 5 do not connect 8 r l v cc ground v o 1000 ? 15 figure 20. typical 40 kbd interface circuit figure 22. guaranteed system performance with improved cable figure 21. guaranteed system performance with standard cable 40 kbd link system performance under recommended operating conditions unless otherwise specifed. parameter symbol min. typ. max. units conditions ref. data rate dc 40 kbd ber 10 -9 , prbs: 2 7 - 1 link distance 13 41 m i fdc = 2 ma fig. 21 (standard cable) 94 138 m i fdc = 60 ma note 1 link distance 15 45 m i fdc = 2 ma fig. 22 (improved cable) 111 154 m i fdc = 60 ma note 1 propagation t plh 4 s r l = 3.3 kf, c l = 30 pf fig. 22, 25 delay t phl 2.5 s p r = -25 dbm, 1 m fber note 2 pulse width t d 7 s -39 p r - 14 dbm fig. 23, 24 distortion t plh -t phl r l = 3.3 kf, c l = 30 pf notes: 1. estimated typical link life expectancy at 40c exceeds 10 years at 60 ma. 2. the propagation delay for one metre of cable is typically 5 ns. 120 60 40 10 20 6 4 01 02 03 04 05 0 i ? forward current (ma) f ? cable length ? metres 60 hfbr-15x3z/25x3z 0c?70c 25c 70 80 90 100 100 80 2 1 120 60 40 10 20 6 4 01 02 03 04 05 0 i ? forward current (ma) f ? cable length ? metres 60 70 80 90 100 100 80 2 110 hfbr-15x3z/25x3z 0c?70c 25c 16 figure 23. 40 kbd propagation delay test circuit figure 26. propagation delay test waveforms figure 25. typical link propagation delay vs. optical power figure 24. typical link pulse width distortion vs. optical power 5 3 4 2 1 -40 -28 -34 -10 t ? pulse width distortion ? s d 6 0 -22 -16 p ? input optical power, dbm r 5 3 4 2 1 -40 -28 -34 -10 t ? propagation delay ? s p 6 0 -22 -16 p ? input optical power, dbm r 7 8 t plh t phl 17 pin # function 1 anode 2 cathode 3 open 4 open 5 do not connect 8 do not connect note: pins 5 and 8 are for mounting and retaining purposes only. do not electrically connect these pins. hfbr-15x3z transmitter all hfbr-15xxz led transmitters are classifed as iec 825-1 accessible emission limit (ael) class 1 based upon the current proposed draft scheduled to go into efect on january 1, 1997. ael class 1 led devices are considered eye safe. contact your avago sales representative for more information. transmitter electrical/optical characteristics 0c to 70c unless otherwise specifed. for forward voltage and output power vs. drive current graphs. parameter symbol min. typ. max. units conditions ref. transmitter output p t C11.2 C5.1 dbm i fdc = 60 ma, 25c notes 3, 4 optical power C13.6 C4.5 i fdc = 60 ma C35.5 i fdc = 2 ma, 0-70c fig. 9, 10 output optical power ?p t /?t C0.85 %/c temperature coefcient peak emission pk 660 nm wavelength forward voltage v f 1.45 1.67 2.02 v i fdc = 60 ma forward voltage ?v f /?t C1.37 mv/c fig. 18 temperature coefcient efective diameter d 1 mm numerical aperture na 0.5 reverse input breakdown v br 5.0 11.0 v i fdc = 10 a, voltage t a = 25c diode capacitance c o 86 pf v f = 0, f = 1 mhz rise time t r 80 ns 10% to 90%, note 1 fall time t f 40 i f = 60 ma note: 1. rise and fall times are measured with a voltage pulse driving the transmitter and a series connected 50 f load. a wide bandwidth optical to electrical waveform analyzer, terminated to a 50 f input of a wide bandwidth oscilloscope, is used for this response time measurement. absolute maximum ratings parameter symbol min. max. units reference storage temperature t s C40 +85 c operating temperature t a C40 +85 c lead soldering cycle temp. 260 c note 1, 4 time 10 sec forward input current i fpk 1000 ma note 2, 3 i fdc 80 reverse input voltage v br 5 v notes: 1. 1.6 mm below seating plane. 2. recommended operating range between 10 and 750 ma. 3. 1 s pulse, 20 s period. 4. moisture sensitivity level (msl) is 3. anode 1 cathode 2 n.c. 3 n.c. 4 8 do not connect 5 do not connect for product information and a complete list of distributors, please go to our website: www.avagotech.com avago, avago technologies, and the a logo are trademarks of avago technologies in the united states and other countries. data subject to change. copyright ? 2005-2011 avago technologies. all rights reserved. obsoletes 5989-4630en av02-1501en - august 25, 2011 pin # function 1 v o 2 ground 3 open 4 v cc 5 do not connect 8 do not connect note: pins 5 and 8 are for mounting and retaining purposes only. do not electrically connect these pins. hfbr-25x3z receiver absolute maximum ratings parameter symbol min. max. units reference storage temperature t s C40 +85 c operating temperature t a C40 +85 c lead soldering cycle temp. 260 c note 1, 3 time 10 sec supply voltage v cc C0.5 7 v note 2 average output collector current i o C1 5 ma output collector power dissipation p od 25 mw output voltage v o C0.5 7 v notes: 1. 1.6 mm below seating plane. 2. it is essential that a bypass capacitor 0.1 f be connected from pin 2 to pin 4 of the receiver. 3. moisture sensitivity level (msl) is 3. receiver electrical/optical characteristics 0c to 70c, 4.5 v v cc 5.5 v unless otherwise specifed. parameter symbol min. typ. max. units conditions ref. input optical power p r(l) C39 C13.7 dbm v o = v ol , i ol = 3.2 ma notes 1, level logic 0 C39 C13.3 v o = v ol , 2, 3 i oh = 8 ma, 25c input optical power p r(h) C53 dbm v oh = 5.5 v note 3 level logic 1 i oh = 40 a high level output voltage v oh 2.4 v i o = -40 a, p r = 0 w low level output voltage v ol 0.4 v i ol = 3.2 ma note 4 p r = p r(l)min high level supply current i cch 1.2 1.9 ma v cc = 5.5 v, p r = 0 w low level supply current i ccl 2.9 3.7 ma v cc = 5.5 v, note 4 p r = p rl (min) efective diameter d 1 mm numerical aperture na 0.5 notes: 1. measured at the end of the fber optic cable with large area detector. 2. optical fux, p (dbm) = 10 log p(w)/1000 w. 3. because of the very high sensitivity of the hfbr-25x3z, the digital output may switch in response to ambient light levels when a cable is not occupying the receiver optical port. the designer should take care to flter out signals from this source if they pose a hazard to the system. 4. including current in 3.3 k pull-up resistor. 4 3 2 1 do not connect 5 do not connect 8 open v cc ground v o |
Price & Availability of HFBR-0500Z
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |