3 ghz and 6 ghz fiber optic links wireless applications features emcore advantage applications the 3 ghz and 6 ghz fiber optic links for wireless signals are cost- effective, high-performance broadband transmitter, receiver, and transceiver modules designed for wireless interfacility link applications. each module comes with optimal optical power stability with assured performance over full temperature range. transmit and receive alarm/indicator leds simplify installation and provide operational status. each module is packaged in a rugged cast metal housing. emcores vertically integrated, iso-9001, rohs compliant facility and its world-class gaas inp wafer fab (ortel heritage) has been successfully designing and manufacturing highly linear, wide-dynamic-range laser/photodiode die, modules, pcbas, cards, and integrated systems for the catv, satcom, and telecommunications rf fber signal transport applications. this module series is developed with selected laser and photodiode die and modules, then designed and integrated into a pcb module assembly specifcally for the wireless and other wideband rf signal transport applications. ? 30 mhz-3 ghz and 30 mhz-6 ghz rf fiber optic links for wireless signals ? 3 m or 1.5 m low noise isolated dfb laser ? optional cwdm wavelengths ? internal tx rf pre-amplifer ? automatic optical power control ? 50 ohm sma rf connector ? sc/apc or fc/apc optical connector ? ld/pd monitoring and alarm ? optional wide dc input: +12 vdc to +24 vdc ? rugged dust-tight housing ? laser: class 1 per cdrh and iec-825 ? 4g lte ? distributed antenna system (indoor/outdoor) ? cellular backhaul ? wimax wireless satcom-sales@emcore.com www.emcore.com information contained herein is deemed to be reliable and accurate as of the issue date. emcore reserves the right to change the design or specifcations at any time without notice. ? 2016 emcore corporation | rev 2016.01 +1 626-293-3400 datasheet | january 2016
performance highlights - 6 ghz link parameter min typical max units link frequency range 30 - 6000 mhz frequency response - +/- 3 - db noise figure (with rf pre-amp) - 41 (21) - db input third-order intercept (with rf pre-amplifer) 4 - 18.5 (2) - dbm spurs free dynamic range (with rf pre-amp) 2 - 101 (103) - db/hz 2/3 rf link gain (with rf pre-amp) 3 - 0 (16) 1 (18) db tx output optical power - 3 6 dbmo wavelength 1310 - 1610 nm input impedance - 50 or 75 - ohm input return loss - 11 8 db input power supply current (with rf pre-amplifer) 1 @ 12 vdc - 80 (160) 95 (175) ma rx optical input 6 -15 - - dbmo output impedance - 50 or 75 - ohm output return loss - 11 8 db input power supply current 1 @ 12 vdc - 160 180 ma tr input power supply current (with rf pre-amplifer) @ 12 vdc - 250 (330) 400 (480) ma 1. does not include custom gain, nf and iiip3 confgurations 2. sfdr = 2/3 * (iip3 + 174 - nf) 3. measured with 1 m of fber. link rf gain db = tg + rg - 2* fiber loss dbo (assumes rin = rout) 4. equivalent to imd 60 db @ 0 dbm total output power (2-tone measurement) 5. dbmo and dbo indicate optical power and loss 6. minimum optical input is dependent on rf signal type and modulation bandwidth 3 ghz and 6 ghz fiber optic links ireless applications parameter min typical max units link frequency range 30 - 3000 mhz frequency response - +/- 2 - db noise figure (with rf pre-amplifer) - 41 (21) - db input third-order intercept (with rf pre-amplifer) 4 - 30 (12) - dbm spurs free dynamic range (with rf pre-amplifer) 2 - 104 (107) - db/hz 2/3 rf link gain (with rf pre-amplifer) 3 - 0 (19) 2 (21) db tx output optical power - 3 6 dbmo wavelength 1310 - 1610 nm input impedance - 50 or 75 - ohm input return loss - 12 9 db input power supply current (with rf pre-amplifer) 1 @ 12 vdc - 60 (140) 80 (160) ma rx optical input 6 -15 - - dbmo output impedance - 50 or 75 - ohm output return loss - 13 11 db input power supply current 1 @ 12 vdc - 155 175 ma tr input power supply current (with rf pre-amplifer) @ 12 vdc - 250 (320) 400 (460) ma performance highlights - 3 ghz link 1. does not include custom gain, nf and iiip3 confgurations 2. sfdr = 2/3 * (iip3 + 174 - nf) 3. measured with 1 m of fber. link rf gain db = tg + rg - 2* fiber loss dbo (assumes rin = rout) 4. equivalent to imd 60 db @ 0 dbm total output power (2-tone measurement) 5. dbmo and dbo indicate optical power and loss 6. minimum optical input is dependent on rf signal type and modulation bandwidth wireless satcom-sales@emcore.com www.emcore.com information contained herein is deemed to be reliable and accurate as of the issue date. emcore reserves the right to change the design or specifcations at any time without notice. ? 2016 emcore corporation | rev 2016.01 +1 626-293-3400 datasheet | january 2016
alarm and monitoring circuit diagram 3 ghz and 6 ghz fiber optic links wireless applications parameter min max unit storage temperature - c operating temperature - c dc supply oltage maximum tx rf input (o rf pre-amplifer) - dbm maximum rx optical input - mw absolute maximum rating pin # function laser enale (dc laser o) c c ( ma max) ground laser bias monitor ( ma) laser bias alarm (open collector ma) received poer monitor ( mw) received poer alarm (open collector ma) monitor confguration (rs-232, db-9 connector) led indicator green red transmitter laser bias current ormal ma laser bias current fault receiver input optical poer ormal - dbm input optical poer fault unit status led indicator wireless satcom-sales@emcore.com www.emcore.com information contained herein is deemed to be reliable and accurate as of the issue date. emcore reserves the right to change the design or specifcations at any time without notice. ? 2016 emcore corporation | rev 2016.01 +1 626-293-3400 datasheet | january 2016
tx/rx/tr diagram 3 ghz and 6 ghz fiber optic links wireless applications wireless satcom-sales@emcore.com www.emcore.com information contained herein is deemed to be reliable and accurate as of the issue date. emcore reserves the right to change the design or specifcations at any time without notice. ? 2016 emcore corporation | rev 2016.01 +1 626-293-3400 datasheet | january 2016
? when ordering replace ww with one of the frequency band option ? when ordering replace x with one of the tx rf pre-amplifer options ? when ordering replace yy with one of the rf connector type options ? when ordering replace zz with one of the optical wavelength options ? when ordering replace aa with one of the optical connector options transmitter (t) fol-wwtx / yy-zz-aa model series frequency band (ghz) ww tx pre-amplifer options x rf connector type options yy optical wavelength options zz optical connector options a a fol - fiber optic link 33 = 30 mhz - 3 ghz 36 = 30 mhz - 6 ghz 1 = no pre-amp 2 = with pre-amp s5 = sma (50 ohm) 13= 1310 nm 47= 1470 nm 49 = 1490 nm 51= 1510 nm 53 = 1530 nm 55= 1550 nm 57 = 1570 nm 59= 1590 nm 61 = 1610 nm sa = sc/apc fa = fc/apc orerin nrmtin ? when ordering replace ww with one of the frequency band options ? when ordering replace xx with one of the rf connector type options ? when ordering replace yy with one of the optical connector options receiver (r) fol-wwr/xx-yy model series frequency band (ghz) ww rf connector type option xx optical connector options yy fol - fiber optic link 33 = 30 mhz - 3 ghz 36 = 30 mhz - 6 ghz s5 = sma (50 ohm) sa = sc/apc fa = fc/apc 3 ghz n 6 ghz fiber optic link iree appictin wireless satcom-sales@emcore.com www.emcore.com information contained herein is deemed to be reliable and accurate as of the issue date. emcore reserves the right to change the design or specifcations at any time without notice. ? 2016 emcore corporation | rev 2016.01 +1 626-293-3400 datasheet | january 2016
transceiver (tr) fol-wwtrx/yy-zz-aa model series frequency band (ghz) ww tx pre-amplifer option x rf connector type option yy optical wavelength option zz optical connector options a a fol - fiber optic link 33 = 30 mhz - 3 ghz 36 = 30 mhz - 6 ghz 1 = no pre-amp 2 = with pre-amp s5 = sma (50 ohm) 13= 1310 nm 47= 1470 nm 49 = 1490 nm 51= 1510 nm 53 = 1530 nm 55= 1550 nm 57 = 1570 nm 59= 1590 nm 61 = 1610 nm sa = sc/apc fa = fc/apc ? when ordering replace ww with one of the frequency band options ? when ordering replace x with one of the tx rf pre-amplifer options ? when ordering replace yy with one of the rf connector type options ? when ordering replace zz with one of the optical wavelength options ? when ordering replace aa with one of the optical connector options ordering information 3 ghz and 6 ghz fiber optic links wireless applications wireless satcom-sales@emcore.com www.emcore.com information contained herein is deemed to be reliable and accurate as of the issue date. emcore reserves the right to change the design or specifcations at any time without notice. ? 2016 emcore corporation | rev 2016.01 +1 626-293-3400 datasheet | january 2016
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