C-13-2500/C-FDFB-SLC2 Features Duplex Single Mode Transceiver Sma
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2.5Gbps Single Mode Transceiver (IR1)
C-13-2500/C-FDFB-SLC2
Features Duplex Single Mode Transceiver Small Form Factor Multi-sourced Package 1310nm, Laser SONET /SDH STM-16 Compliant Single +3.3V Power Supply LVPECL/CML Differential level Inputs Outputs LVTTL LVPECL logic level signal-detect output choice (C-13-2500-FDFB-SLC LVPECL C-13-2500C-FDFB-SLC LVTTL) LVTTL disable input Temperature Range: Class Laser International Safety Standard Compliant Complies with Bell Core TA-NWT-000983
General Operating Parameter Supply Voltage Total Current Inrush Current Power Supply Noise Rejectiona Operating Temperature (case) Storage Temperature Data Rate OC48/STM-16
20Hz 155MHz
Symbol Icc'
3.135
Typical
3.465
2488
Unit mVp-p Mb/s
Transmitter Specifications Parameter Optical Power Average Launch power Extinction Ratio (dynamic) Mask Optical Jitter generation Optical Rise timeb Optical Fall timeb Mean Wavelength Maximum width Relative Intensity Noise
20%-80% values
Symbol Poff Jgen
Typical
Unit
SONET/SDH compliant
0.002 1310
1260
1360 -120
dB/Hz
Transmitter Electrical Parameter Input Differential PECL Single Ended data input swing PECL Differential data input swing TxFault_Fault TxFault_Normal TxDisable_Disable TxDisable_Enable
Symbol Vfault Vnormal
Typical
1600 Vee+0.8
Unit mVp-p mVp-p
2.5Gbps Single Mode Transceiver (IR1)
C-13-2500/C-FDFB-SLC2
Receiver Specifications Parameter Receive Power Lowd Receive Power High Damage Threshold Receiver Wavelength Assert De-assert hysteresis 10-10 BER, PRBS 223-1 Electrical Output Parameter PECL Single ended data output swing PECL Differential data output swing Data output rise time Data output fall time
Symbol Rsens,low Rsens,high Pin,damage
Typical
1100
1600
Unit
Symbol Vout Vout
Typical
1000
Unit mVp-p mVp-p
Timing Electrical Parameter Disable Negate time Disable assert time Time initialize, including reset fault fault Assert time Disable reset Assert time De-assert time Serial Clock Rate RX_LOS Voltage (high) RX_LOS Voltage (low) output voltage-Fault output voltage-Normal MOD_DEF (0:2)-High MOD_DEF (0:2)-Low
Symbol t_on t_off t_init t_fault t_reset t_loss_on t_loss_off f_serial_clock
Typical
Unit
Vee+0.3 Vee+0.3 Vee+0.3
VLOS fault VLOS normal
2.5Gbps Single Mode Transceiver (IR1)
C-13-2500/C-FDFB-SLC2
Outline Drawing
Pinout Definitions
Symbol
RxGND RxVcc RDRD+ TxVcc TxGND TxDIS
Notes
Directly connect this receiver ground plane +3.3V power receiver section Active high this indicates received optical signal (LVTTL LVPECL) Receiver Data Bar(LVPECL/CML) Receiver Data (LVPECL/CML) +3.3V power transmitter section Directly connect this transmitter ground plane Transmitter disable (LVTTL) Transmitter Data (LVPECL/CML) Transmitter Data (LVPECL/CML)
Attaching Posts
attaching posts case potential connected chassis ground. They isolated from circuit ground.
Recommended Circuit Schematics
Inputs C-1x-2500/C-Fx-SLCx series transmitters coupled internally terminated through ground. These transceivers operate with LVPECL logic levels. input signal must have least peak peak (single ended) signal swing. Output from receiver section module also coupled expected drive into load. Different termination strategies required depending particular Serializer/Deserializer chip used. C-1x-2500/C-Fx-SLCx series product family designed with coupled data inputs outputs provide following advantages: Close positioning SERDES with respect transceiver; allow shorter line lengths gigabit speeds reduces EMI. Mininum number external components. Internal termination reduces potential unterminated stubs which would otherwise increase jitter reduce transmission margin. Figure illustrates recommended transmit receive data line terminations SERDES with LVPECL Inputs/outputs respectively.
2.5Gbps Single Mode Transceiver (IR1)
C-13-2500/C-FDFB-SLC2
ogic level
Z=50!
cc_RX
POST
Z=50!
Fig. Z=50!
erializer De-S erializer lnputs/Outputs
BIAS
_GND
Z=50!
Note
Figure Recommended TRANSMIT RECEIVE Data Termination SERDES with I/Os Note Consult SERDES manufacurer's data sheet application data appropriate receiver iput biasing network. Some deserializer inputs internally termintated need external termination resistors.
TX_DI
logic
Z=50!
cc_T
Z=50!
Z=50!
Note
ializ eria with lnpu ts/Outputs
_GND
Z=50!
Figure Recommended TRANSMIT RECEIVE Data Terminations SERDES with PECL I/Os. Note Consult SERDES manufacurer's data sheet application data appropriate receiver iput biasing network. Some deserializer inputs internally termintated need external termination resistors.
2.5Gbps Single Mode Transceiver (IR1)
C-13-2500/C-FDFB-SLC2
SIGNAL DETECT transceivers equipped with LVTTL LVPECL signal detect outputs. standard LVTTL output eliminates need LVPECL LVTTL level shifter most applications.
LVPECL LVTTL Logic
LVTTL leve 100k LVPECL level
Figure Signal Detect
POWER COUPLING suggested layout power ground connections given figure below. Connections made separate voltage ground planes. mounting posts case ground should connected circuit ground. mounting posts case gound should connected circuit ground. ferrite gead should provide real impedance ohms 1000MHz. Bypass capacitors should placed close 10-pin connector possible.
LUES: 1000p 1000 MHz.
igure Suggested Coupling-Electrical Schematic
LUES: 1000p 0.1uF 10uF, 1000MHz.
nent shown ttom throug oard
LEHEND:
TION
igure Suggest Coupling-Com ponent lacement
CIRCUIT NNEC TION
2.5Gbps Single Mode Transceiver (IR1)
C-13-2500/C-FDFB-SLC2
Printed Circuit Board Layout Consideration fiber-optic receiver employs very high gain, wide bandwidth transimpedance amplifier. This ampifier detects amplifies signals that only tens amplitude when receiver operating near limit. unwanted signal current that couples into receiver circuitry causes decrease receiver's senitivity also degrade receiver's signal detect(SD) circuit. minimize coupling unwanted noise into receiver, careful attention must given printed circuit board. minimun, double-sided printed circuit board (PCB) with large component side ground plane beneath transceiver must used. applications that include many other high speed devices, multi-layer highly recommended. This permits placement power ground separate layers, which allows them isolated from signal lines. Multilayer construction also permits routing signal traces away from high level, high speed signal lines. minimize possibility coupling noise into receiver section, high level, high speed signals such transmitter inputs clock lines should routed away possible from recevier pins. Noise that couples into receiver through power supply pins also degrade performance. recommended that filter both transmitter receiver supplied.
Considerations transceivers offer metalized plastic case special chassis grounding clip. shown drawing, this clip connects module case chassis grounding clip then installs flush through panel cutout. grounding clip this brushes edge cutout order make proper contact. grounding clip also provides increased electrostatic protection helps reduce radiated emissions from module host circuit board through chassis faceplate. attaching posts case potential connected chassis ground. They should connected circuit ground. Plastic optical subassemblies used further reduce possibility radiated emissions eliminating metal from transmitter receiver diode housings, which extend into connector space. proficing non-metal receptacle optical cable ferrule, gigabit speed electrical signal isolated from connector area thus preventing radiated energy leakage from these surfaces outside panel.
Laser Safety This single mode transceiver Class laser product. complies with 1040.10 1040.11. transceiver must operated within specified temperature voltage limits. optical ports module shall determinate with optical connector with dust plug.
Package Diagram
Units (inch)
48.8+0.2
(1.921)+(.000 -(0.008)
(0.535) .000) -(0.004)
#3.20
(0.594)
(0.520)
6.97
(0.274
3.95
(0.#55)
(0.53#)
(0.386) .000) -(0.004)
(0.374)
(0.447)
(0.086) (0.386)
&3.50
9.50
(0.039±0.002)
#.00 0.05
(0.020) (0.070)
(0.150)
(0.413)
3.8#
#0.50
0.50 #.78
#7.7
(0.280)
7.#2
(0.200)
5.08
(0.246)
6.25
(0.700)
Case with Shielding Finger
(0.400)
#0.#6
2.5Gbps Single Mode Transceiver (IR1)
C-13-2500/C-FDFB-SLC2
Recommended Board layout Hole Pattern
vvvvvvvvvvv
NSIO CHES COMMAND RCUI BOAR AYOU ANSCE P-OUT HOUS STANDO GROUND CONNE P-OUT MOUN SHOUL CHASSI GROUND CHANI
Recommended Panel mounting
NSIO CHES
2.5Gbps Single Mode Transceiver (IR1)
C-13-2500/C-FDFB-SLC2
Warnings
Handling Precautions: This device susceptible damage result electrostatic discharge (ESD). static free environment highly recommended. Follow guidelines according proper procedures. Laser Safety: Radiation emitted laser devices dangerous human eyes. Avoid exposure direct indirect radiation.
Legal Notice
IMPORTANT NOTICE! information contained this document subject change without notice, Luminent's sole absolute discretion. Luminent warrants performance products current specifications only accordance with company's standard one-year warranty; however, specifications designated "preliminary" given describe components only, Luminent expressly disclaims warranties said products, including express, implied, statutory warranties, warranties merchantability, fitness particular purpose, non-infringement proprietary rights. Please refer company's Terms Conditions Sale further warranty information. Luminent assumes liability applications assistance, customer product design, software performance, infringement patents, services, intellectual property described herein. license, either express implied, granted under patent right, copyright, intellectual property right, Luminent makes representations warranties that product(s) described herein free from patent, copyright, intellectual property rights. Products described this document intended implantation other life support applications where malfunction result injury death persons. Luminent customers using selling products such applications their risk agree fully defend indemnify Luminent damages resulting from such sale. INFORMATION CONTAINED THIS DOCUMENT PROVIDED BASIS. Customer agrees that Luminent liable actual, consequential, exemplary, other damages arising directly indirectly from information contained this document. Customer must contact Luminent obtain latest version this publication verify, before placing order, that information contained herein current. Luminent, Inc. 2002 rights reserved
20550 Nordhoff Chatsworth, 91311 tel: 818.773.9044 fax: 818.576.9486 LUMINENT.COM
LUMNDS235-1023
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