 |
|
| 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: |
| 1345-type receiver with clock recovery and data retiming data sheet january 2000 operating at 1.3 m m or 1.55 m m wavelengths and at 155 mbits/s or 622 mbits/s, the versatile 1345-type receiver is manufactured in a 20-pin, plastic dip with a multimode fiber pigtail. features n backward compatible with 1330 family n space-saving, self-contained, 20-pin plastic dip n silicon based ics n single 5 v power supply operation including photocurrent monitor capability n exceeds all sonet (gr-253-core) and itu-t g.958 jitter requirements n clocked decision circuit n regenerated differential clock signal n wide dynamic range n qualified to meet the intent of telcordia technolo- gies ? reliability practices n operates at data rates of 155 mbits/s or 622 mbits/s n positive ecl (pecl) data outputs n cmos (ttl) link-status flag output n operation at 1.3 m m or 1.55 m m wavelengths n operating temperature range of C40 c to +85 c applications n telecommunications: inter- and intraoffice sonet/itu-t sdh subscriber loop metropolitan area networks n high-speed data communications description the 1345-type fiber-optic receiver is designed for use in transmission systems or medium- to high- speed data communication applications. used in intermediate- and long-reach applications, the receiver operates at the sonet oc-3 or oc-12 data rate as well as the itu-t synchronous digital hierar- chy (sdh) rate of stm-1 or stm-4, depending on the receiver model chosen. the receiver meets all present telcordia technologies gr-253-core requirements, the current ansi t1x1.5 intraoffice specifications, and the itu-t g.957 and g.958 rec- ommendations. compact packaging, a high level of integration, and a wide dynamic range make these receivers ideal for data communications. manufactured in a 20-pin dip, the receiver consists of a planar ingaas pin photodetector, a silicon pream- plifier, a silicon bipolar limiting amplifier that converts the small signal to ecl levels, a timing recovery unit to recover the clock, and a silicon bipolar decision cir- cuit.
2 2 agere systems inc. 1345-type receiver with data sheet clock recovery and data retiming january 2000 description (continued) the receiver converts optical signals in the range of 1.1 m m to 1.6 m m into retimed clock and data signals. the clock and data outputs are raised-ecl (pecl) logic levels. a cmos-level flag output indicates when there is a loss of optical signal. the receiver requires a 5 v power supply for the ampli- fier, logic, and pll crc circuits. the operating case temperature range is C40 c to +85 c. pin 10 pin 10 on the 1345-type receiver is not an internally connected (nic) pin. this definition allows the 1345 to be used in most customer 20-pin receiver module applications. customers printed-wiring boards that are designed with ground, +5 v, C5 v, or no connection to this pin are all acceptable options. for those applica- tions that require monitoring the photocurrent of the pin photodetector for power monitoring purposes, there are versions of the 1345 that require +5 v or C5 v applied to pin 10. check tables 3 and 4 for ordering information. flag output when the optical input falls below the link status flag switching threshold, the link status flag is deactivated and its output logic level changes from a cmos logic high to a cmos logic low. squelched data and clock outputs in some versions of the 1345 receiver (see table 4), when the link status flag is deactivated, the data and clock outputs are squelched (stop outputting a signal). when this occurs, the data, data , clock, and clock outputs switch to a constant dc output voltage level of 1.3 v. nonsquelched data and clock outputs agere systems also manufactures nonsquelching ver- sions of the 1345 receiver for those applications that require the data and clock outputs to continue to func- tion after the link status flag is deactivated. in those versions of the receiver, when the link status flag is deactivated, a signal will continue to appear at the data, data , clock, and clock outputs. see table 4 for nonsquelching codes. 1-724(c) figure 1. block diagram filter si preamplifier ingaas pin silicon bipolar limiting amplifier 5 v data data silicon bipolar decision circuit flag pll timing recovery unit clock clock flag optional v pin 3 agere systems inc. data sheet 1345-type receiver with january 2000 clock recovery and data retiming absolute maximum ratings stresses in excess of the absolute maximum ratings can cause permanent damage to the device. these are abso- lute stress ratings only. functional operation of the device is not implied at these or any other conditions in excess of those given in the operational sections of the data sheet. exposure to absolute maximum ratings for extended periods can adversely affect device reliability. parameter symbol min max unit supply voltage v cc 05.5v operating case temperature range t c C40 85 c storage case temperature range t stg C40 85 c lead soldering temperature/time 250/10 c/s operating wavelength range l 1.1 1.6 m minimum fiber bend radius 1.0 (25.4) in. (mm) pin information * pins designated as no user connection are not connected inter- nally. however, to allow for future functional upgrades, it is recom- mended that the user not make any connections to these pins. ? the link status flag is a logic flag that indicates the presence or absence of a minimum acceptable level of optical input. a logic high on the flag output indicates the presence of a valid optical signal. mounting and connections the pigtail consists of a 39 in. 4 in. (1 m 10 cm), 62.5 m m core/125 m m cladding multimode fiber. the standard fiber has a 0.036 in. (914 m) diameter tight- buffered outer-jacket. the minimum fiber bending radius during operation is 1.0 in. (25.4 mm). electrostatic discharge caution: this device is susceptible to damage as a result of electrostatic discharge (esd). take proper precautions during both handling and testing. follow guide- lines such as eia ? standard eia -625. although protection circuitry is designed into the device, take proper precautions to avoid exposure to esd. agere systems inc. employs a human-body model (hbm) for esd susceptibility testing and protection- design evaluation. esd voltage thresholds are depen- dent on the critical parameters used to define the model. a standard hbm (resistance = 1.5 k w capaci- tance = 100 pf) is widely used and, therefore, can be used for comparison purposes. the hbm esd thresh- old established for the 1345 receiver is 1000 v. receiver processing the 1345-type receiver devices can withstand normal wave-soldering processes. the complete receiver module is not hermetically sealed; therefore, it should not be immersed in or sprayed with any cleaning solu- tion or solvents. the process cap and fiber pigtail jacket can deform at temperatures greater than 85 c. the receiver pins can be wave-soldered at maximum tem- perature of 250 c for 10 seconds. pin name pin name 1 ground 20 no user connection* 2 ground 19 no user connection* 3 ground 18 no user connection* 4 clock 17 no user connection* 5clock 16 ground 6 ground 15 ground 7data 14flag ? 8 ground 13 ground 9data 12 flag ? 10 no internal connection or optional v pin 11 v cc 4 4 agere systems inc. 1345-type receiver with data sheet clock recovery and data retiming january 2000 application information the 1345 receiver is a highly sensitive fiber-optic receiver. although the data outputs are digital logic lev- els (pecl), the device should be thought of as an ana- log component. when laying out the printed-wiring board (pwb), the 1345 receiver should be given the same type of consideration one would give to a sensi- tive analog component. at a minimum, a double-sided printed-wiring board with a large component-side ground plane beneath the receiver must be used. in applications that include many other high-speed devices, a multilayer pwb is highly recommended. this permits the placement of power and ground connections on separate layers, which helps minimize the coupling of unwanted signal noise into the power supplies of the receiver. layout considerations a fiber-optic receiver employs a very high-gain, wide- bandwidth transimpedance amplifier. the amplifier detects and amplifies signals that are only tens of na in amplitude. any unwanted signal currents that couple into the receiver circuitry cause a decrease in the receiver's sensitivity and can also degrade the perfor- mance of the receiver's loss of signal (flag) circuit. to minimize the coupling of unwanted noise into the receiver, route high-level, high-speed signals such as transmitter inputs and clock lines as far away as possi- ble from the receiver pins. if this is not possible, then the pwb layout engineer should consider interleaving the receiver signal and flag traces with ground traces in order to provide the required isolation. noise that couples into the receiver through the power supply pins can also degrade device performance. the application schematics, figures 23, show recom- mended power supply filtering that helps minimize noise coupling into the receiver. the bypass capacitors should be high-quality ceramic devices rated for rf applications. they should be surface-mount compo- nents placed as close as possible to the receiver power supply pins. the ferrite bead should have as high an impedance as possible in the frequency range that is most likely to cause problems. this will vary for each application and is dependent on the signaling frequen- cies present on the application circuit card. surface- mount, high-impedance beads are available from sev- eral manufacturers. data and flag outputs the data and clock outputs of the 1345 receiver are driven by open-emitter npn transistors which have an output impedance of approximately 7 w . each output can provide approximately 50 ma maximum output cur- rent. due to the high switching speeds of ecl outputs, transmission line design must be used to interconnect components. to ensure optimum signal fidelity, both data outputs (data and data ) and clock outputs (clock and clock ) should be terminated identically. the signal lines connecting the data and clock outputs to the next device should be equal in length and should have matched impedances. controlled impedance stripline or microstrip construc- tion must be used in order not to degrade the quality of the signal into the next component and to minimize reflections back into the receiver. excessive ringing due to reflections caused by improperly terminated signal lines makes it difficult for the component receiving these signals to decipher the proper logic levels and may cause transitions to occur where none were intended. also, by minimizing high frequency ringing due to reflections caused by improperly designed and terminated signal lines, possible emi problems can be avoided. the applications sections in the signetics? ecl 10k/100k data manual or the national semicon- ductor ? ecl logic databook and design guide pro- vide excellent design information on ecl interfacing. the flag and flag outputs of the oc-3/stm-1 155 mbits/s receiver and the oc-12/stm-4 622 mbits/s receiver are 5 v ttl logic-level compatible. the flag output is provided directly by the comparator ic. how- ever, the flag output is derived from the flag output through an inverter. excessive loading of the flag out- put can cause the flag output to malfunction. recommended user interface the 1345 receiver is designed to be operated from a 5 v power supply and provides raised or pseudo-ecl (pecl) data outputs. figures 2 and 3 show two possi- ble application circuits for the 1345 receiver. figure 2 represents an application for a pecl compatible inter- face while figure 3 shows a possible application for an ac-coupled, ecl-compatible interface. in both instances, the data outputs are terminated with a thvenin equivalent circuit, which provides the equiva- lent of a 50 w load terminated to (v cc C 2 v). a single 50 w resistor terminated to (v cc C 2 v) could also be used, but this requires a second power supply. other methods of terminating ecl-type outputs are dis- cussed in the references previously mentioned. 5 agere systems inc. data sheet 1345-type receiver with january 2000 clock recovery and data retiming recommended user interface (continued) 1-725(c).b figure 2. pecl-compatible (5 v) interface 1-870(c).d figure 3. ac-coupled ecl-compatible interface optical fiber 1345 alr 10 82 w 124 w 7 4 5 clock* clock* 9 11 82 w 124 w 124 w 124 w data* data* 2.2 ? 2.2 ? 1 ? 5.0 v top view 82 w 82 w 0.1 ? 14 12 flag flag v pin optical fiber 1345 clock 0.1 ? clock 0.1 ? 300 w 300 w data 0.1 ? data 0.1 ? 300 w 300 w 4 9 7 5 11 2.2 ? 5.0 v 2.2 ? 1 ? 0.1 ? 14 12 flag flag * data, data , clock, and clock are 50 w transmission lines that can be ac- or dc-coupled. 6 6 agere systems inc. 1345-type receiver with data sheet clock recovery and data retiming january 2000 installation considerations although the receiver has been designed with ruggedness in mind, care should be used during handling. the opti- cal connector should be kept free from dust, and the process cap should be kept in place as a dust cover when the device is not connected to a cable. if contamination is present on the optical connector, the use of canned air with an extension tube should remove any debris. other cleaning procedures are identified in the cleaning fiber-optic assemblies technical note (tn95-010lwp). characteristics minimum and maximum values specified over operating case temperature range and end-of-life (eol). typical val- ues are measured at beginning-of-life (bol) room temperature unless otherwise noted. table 1. electrical characteristics 1. customers have the option for either a +5 v or C5 v supply. 2. includes approximately 50 ma of data and clock output termination current. 3. measured with 50 w load terminated to (v cc C 2.00) v. 4. data and clock outputs are 10k ecl compatible. 5. measured as shown in figure 4. 6. measured with an input data pseudorandom word 2 23 C 1. parameter symbol min typ max unit dc power supply voltages v cc 4.75 5.0 5.25 v pin photodetector supply voltage (pin 10) 1 v pin v pin 4.75 C5.25 5.0 C5.0 5.25 C4.75 v v dc power supply currents: 2 oc-3/stm-1 version oc-12/stm-4 version i cc i cc 110 150 150 200 ma ma output data/clock voltage: 3, 4 low high v ol v oh v cc C 1.95 v cc C 1.03 v cc C 1.63 v cc C 0.88 v v output data/clock rise and fall time: oc-3/stm-1 version oc-12/stm-4 version t r /t f t r /t f 1100 320 1300 360 1700 500 ps ps output flag voltage: low high vf l vf h 0 v cc C 0.5 0.6 v cc v v clock/data alignment: 5 oc-3/stm-1 version oc-12/stm-4 version t cda t cda C800 C300 800 300 ps ps clock duty cycle dc 45 55 % output clock random jitter: 6 oc-3/stm-1 version oc-12/stm-4 version j c j c 0.003 0.005 0.008 0.01 ui ui output clock jitter peaking j p 0.04 0.05 0.1 db jitter tolerance telcordia technologies gr-253-core and itu-t g.958 compliant jitter transfer telcordia technologies gr-253-core and itu-t g.958 compliant 7 agere systems inc. data sheet 1345-type receiver with january 2000 clock recovery and data retiming characteristics (continued) table 2. optical characteristics * for a 1 x 10 C10 ber. measured with a 2 23 C 1 pseudorandom word optical input having a 50% average duty cycle. ? whenever the flag output is deasserted (logic low), the data and clock outputs are silenced. see the flag output section on page 2 for the data and clock output signal levels. ? power supply noise in excess of 50 mvp-p may degrade the performance of the receiver. see user interface section for recom- mended power supply filtering. 1-725(c) figure 4. clock/data alignment parameter symbol data rates mbits/s min typ max * unit measured average sensitivity:* , ? oc-3 oc-12 p rl p rl oc-3/stm-1 oc-12/stm-4 38 C32.5 C36 C30 dbm dbm maximum input power ? p max oc-3/stm-1 oc-12/stm-4 0 C6 2 C4 dbm dbm link status flag threshold: ? decreasing light input decreasing light input lst d lst i oc-3/stm-1 oc-12/stm-4 oc-3/stm-1 oc-12/stm-4 C50 C50 C50 C50 C41 C38.8 C38 C35 C37.5 C32.5 C37.0 C32.0 dbm dbm dbm dbm flag hysteresis hys 155/622 0.5 3 6 db flag response time t flag 155/622 3 100 m s detector responsivity r 155/622 0.7 0.8 1.2 a/w 50% 50% clock out data out t cda 8 agere systems inc. 1345-type receiver with data sheet clock recovery and data retiming january 2000 pwb layout guidelines n follow high-speed ecl design rules. n all high-speed output lines must be controlled-impedance lines, and the termination impedance must match the line impedance. controlled-impedance interruptions should be avoided (i.e., 90 bends, etc.) and paired lines (i.e., data and data ) should be of equal length. n each output line should be terminated at the end of the line and must have a bypass capacitor on the voltage side of the resistor for each termination. n data and clock output lines should be as short and as straight as possible and isolated from noise sources (and each other) to prevent noise from feeding back into the receiver. n noise that couples into the receiver through the power supply pins can degrade device performance. see figure 2 for an example of power supply filtering for the receiver 5 v power supply pins. n use a multilayer board so that the ground plane surrounds the areas occupied by the receiver and directly under- neath it. directly attach all pins listed as ground pins to the ground plane with no additional lead length. all unused outputs must be terminated as shown. all resistors are 1/8 w, thin-film, ceramic chips. all capacitors are 25 vdc, ceramic x7r or equivalent. qualification and reliability to help ensure high product reliability and customer satisfaction, agere systems is committed to an intensive qual- ity program that starts in the design phase and proceeds through the manufacturing process. optoelectronics mod- ules are qualified to agere systems internal standards using mil-std-883 test methods and procedures and using sampling techniques consistent with telcordia technologies requirements. the 1345 series of receivers have undergone an extensive and rigorous set of qualification tests. this qualification program fully meets the intent of telcordia technologies reliability practices tr-nwt-000468 and ta-nwt-000983. in addition, the design, develop- ment, and manufacturing facility of the optoelectronics unit at agere systems is certified to be in full compliance with the latest iso ? -9001 quality system standards. 9 agere systems inc. data sheet 1345-type receiver with january 2000 clock recovery and data retiming outline drawings dimensions are in inches and (millimeters). unless noted otherwise, tolerances are 0.005 in. (0.127 mm). 1-988(c) 1.339 (34.01) 0.968 (24.58) 0.635 (16.14) 0.147 (3.73) top view pin 1 indicator 0.125 (3.17) 0.110 (2.80) 0.100 (2.54) 0.900 (22.86) 0.350 (8.89) 0.400 (10.16) pin 20 pin 11 pin 1 pin 10 0.018 (0.46) 10 agere systems inc. 1345-type receiver with data sheet clock recovery and data retiming january 2000 ordering information table 3. oc-3/stm-1 receiver versions * these versions have nonsquelching data and clock outputs. see nonsquelched data and clock outputs section on page 2. table 4. oc-12/stm-4 receiver versions * these versions have nonsquelching data and clock outputs. see nonsquelched data and clock outputs section on page 2. table 5. related products device code pin 10 requirements connector comcode 1345fmpc no internal connections fc-pc 108339979 1345cmpc sc 108354473 1345tmpc st ? 108572421 1345fmpd * fc-pc 108354515 1345cmpd * sc 108354481 1345tmpd * st 108572439 1345fapc requires +5 v or C5 v fc-pc 108468687 1345capc sc 108359175 1345tapc st 108572249 1345fapd* fc-pc 108572322 1345capd* sc 108572280 1345tapd* st 108572389 device code pin 10 requirements connector comcode 1345fnpc no internal connections fc-pc 108155722 1345cnpc sc 107354499 1345tnpc st 108572447 1345fnpd * fc-pc 108354523 1345CNPD * sc 108354507 1345tnpd* st 108572454 1345fbpc requires +5 v or C5 v fc-pc 108572355 1345cbpc sc 108572298 1345tbpc st 108572397 1345fbpd* fc-pc 108573965 1345cbpd* sc 108572306 1345tbpd* st 108572413 description document number 1241/1243/1245-type receivers for sonet/sdh applications ds99-073lwp 1340-type receiver with clock recovery and data retiming ds00-098lwp 11 agere systems inc. data sheet 1345-type receiver with january 2000 clock recovery and data retiming notes 1345- t ype receiver wi t h d ata s h eet clo c k rec o ve r y a n d d ata re t iming janua r y 2000 age r e syste m s i n c . r ese r v es the r ig h t t o m a k e chang e s to the p r oduct ( s) or in f o r mati o n co n taine d he r ein w i t hout notic e . no l i a b ility is assum e d a s a resul t o f thei r us e o r a p plication. st is a r egiste r ed t r a d emark o f ag e re syste m s inc. co p yright ? 200 1 a g ere syste m s inc. all rights res e r v ed j a n ua r y 2000 d s00- 0 99o p t o (replac e s d s 99-071 l wp) for additional information, contac t y our agere systems ac c ount manager or t he following: i n terne t : http://ww w . a g er e .com e-m a il: do c m a ste r @ a g e r e . c om n. a m erica : agere systems in c . , 555 union boul e v ard, room 30l - 15p-b a , a llen t own, p a 18109-3286 1 - 80 0 - 37 2 - 2 4 4 7 , f a x 6 10 -7 1 2 - 4 1 06 ( i n c an a d a: 1 - 8 0 0 - 5 5 3 - 2 44 8 , f a x 6 1 0 - 71 2 - 4 1 06) asia: agere systems hong k ong ltd., suites 3201 & 3210-12, 32/ f , t ower 2 , the gat e w a y , harbour ci t y , k o wloon t el. ( 85 2 ) 3 1 2 9 - 2 0 0 0 , f ax (852) 3129-2020 c h in a : ( 86 ) 21 - 5 0 4 7 - 1 2 1 2 ( s h a n gh a i ) , ( 86 ) 1 0 - 6 52 2 - 5 5 6 6 ( b e i j i n g ) , ( 8 6 ) 7 5 5 - 69 5 - 72 2 4 ( s h en z h en) j a p a n : ( 81 ) 3 - 5 4 2 1 - 1 6 0 0 ( t ok y o) , k orea: (8 2 ) 2 -7 6 7 - 1 8 50 (seoul), singapore: ( 6 5 ) 7 78 - 8 8 3 3 , t ai w an : ( 8 8 6 ) 2 -2 7 2 5 - 5 8 5 8 ( t a i p e i) e u r ope: t e l . ( 4 4 ) 7 0 00 6 2 4 62 4 , f a x ( 4 4 ) 1 3 4 4 4 8 8 0 4 5 telcordia technologies is a trademark of telcordia technologies inc. eia is a registered trademark of electronic industries association. signetics is a registered trademark of signetics corp. national semiconductor is a registered trademark of national semiconductor corporation. iso is a registered trademark of the international organization for standardization. |
Price & Availability of 1345CNPD
 |
|
|
|
|
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] |