Fiber Optics
Bi-Directional Pigtail SFF Transceiver 155 Mbit/s, 1310 nm Tx / 1550 nm Rx
V23870-Ax131-xx00 V23870-Ax132-xx00
This BIDI®-TRX is a bi-directional Small Form Factor (SFF) transceiver designed for full-duplex communication over a single fiber. The single fiber concept saves overall system costs by eliminating one fiber, allowing for doubling of capacity without installing new fibers, and simplifying fiber management. Features • • • • • • • • • Single fiber solution saving overall system cost Suitable for data rates up to 155 Mbit/s Single mode fiber pigtail with different connector options Industry standard 2x5 SFF MSA footprint Integrated WDM filter for dual wavelength Tx/Rx operation at 1310/1550 nm 1310 nm FP laser diode transmitter with laser driver 1550 nm PIN diode receiver with pre- and post-amplifier 3.3 V power supply Class 1 laser product
Applications • Access Networks, e.g. media converters for Fiber-In-The-Loop (FITL), Point-to-Point (P2P), and Passive Optical Networks (PON) • Inter-system communication between Servers, Switches, Routers, Add-DropMultiplexers, Cross Connects, etc. in Central Offices, Data Storage Networks, High Speed Server Farms, etc. • Digital Video and Closed Circuit Television (CCTV) applications for Transport, Traffic, and Security
For ordering information see next page.
Data Sheet
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Ordering Information Ordering Information
V23870 - Ax13x - xx00
Average Launched Power: 1: -8 ... -14 dBm 3: -3 ... -9 dBm Temperature Range: 1: 0 ... +70 °C(@ Ambient) 2: -40 ... +85 °C (@ Case) Connector: A: Pigtail without Connector B: SC/PC 0° C: SC/APC 8° F: MU H: MU-J K: LC Coupling: (Tx/Rx, Signal Detect) 1: AC/AC, PECL SD 2: DC/DC, PECL SD 5: AC/AC, TTL SD 6: DC/DC, TTL SD
Pin Configuration
Figure1
Data Sheet
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Pin Configuration Pin Description Pin No. 1 Symbol Level/Logic Function N/A Receiver Signal Ground Receiver Power Supply Signal Detect Normal operation: Logic 1 output, represents that light is present at receiver input. Fault condition: Logic 0 output. Recommended termination of 510 Ω to V EEr for PECL. Description
V EEr
2
V CCr
N/A
3
SD
see options on Page 2
4
RD–
PECL
Received Data Out Not Received Data Out Transmitter power supply Transmitter signal ground Transmitter Disable/ Enable Transmit Data Transmit Data Not Mounting Studs Housing Leads A low/open signal switches the laser on. A high signal switches the laser off. Transmitter Data In Transmitter Data In Not Mounting Studs are provided for transceiver mechanical attachment to the circuit board. The transceiver Housing Leads are provided for additional signal grounding. The holes in the circuit board must be included and be tied to signal ground.
5 6 7 8
RD+
PECL N/A N/A TTL Input
V CCt V EEt
TxDis
9 10 MS1 MS2 T1 T2 T3 T4
TD+ TD– MS
PECL PECL N/A
HL
N/A
Data Sheet
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Description Description The Infineon BIDI® transceiver - part of Infineon’s Small Form Factor transceiver family is based on the Physical Medium Depend (PMD) sublayer and baseband medium. Infineon's BIDI-TRX is designed to handle multiple data rates and can be designed into Fast Ethernet, FDDI, Fiber Channel, ATM-155, SDH STM-1, SONET OC-3, CCTV and other applications as well as different FTTx applications according to the 100 Mbps EFM standard (IEEE 802.3ah). It is suitable for both, short haul applications and distances of 20 km and beyond. The appropriate fiber optic cable is the 9µm singlemode fiber pigtail with different connector options. The Infineon BIDI transceiver is a single unit comprised of a transmitter, a receiver, WDM filter, and a singlemode fiber pigtail. This design frees the customer from many alignment and PC board layout concerns. This transceiver operates at 155 Mbit/s from a single power supply (+3.3 V). The full differential data inputs and outputs are PECL and LVPECL compatible. Functional Description of 2x5 Pin Row Transceiver This transceiver is designed to transmit and receive serial data via a single mode cable.
Figure2
Data Sheet
Functional Diagram
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Description The receiver component converts the optical serial data into PECL compatible electrical data (RD+ and RD-). The Signal Detect (SD, active high) shows whether an optical signal is present. The transmitter converts PECL compatible electrical serial data (TD+ and TD-) into optical serial data. Data lines are differentially 100 Ohm terminated. The transmitter contains a laser driver circuit that drives the modulation and bias current of the laser diode. The currents are controlled by a power control circuit to guarantee constant output power of the laser over temperature and aging. The power control uses the output of the monitor PIN diode (mechanically built into the laser coupling unit) as a controlling signal, to prevent the laser power from exceeding the operating limits. Single fault condition is ensured by means of an integrated automatic shutdown circuit that disables the laser when it detects laser fault to guarantee the laser Eye Safety. The transceiver contains a supervisory circuit to control the power supply. This circuit makes an internal reset signal whenever the supply voltage drops below the reset threshold. It keeps the reset signal active for at least 140 milliseconds after the voltage has risen above the reset threshold. During this time the laser is inactive. The laser can be disabled by the TxDis input.
Data Sheet
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Technical Data Technical Data Absolute Maximum Ratings Parameter Storage Ambient Temperature Power Dissipation (without Rx load) V23870-Ax131-xx00 V23870-Ax132-xx00 Power Supply Voltage Soldering Conditions Temp/Time Iron Soldering Only Recommended Operating Conditions Parameter Operating Temperature Range at Ambient1) Operating Temperature Range at Case 2) Power Supply Voltage
1) 2)
Symbol –40
Limit Values min. max. 85 1.0 1.2 5 400/10
Unit °C W
V °C/s
Symbol min.
Limit Values typ. max. +70 +85 3.3 3.53 0 –40 3.1
Unit °C
TA TC V CC–V EE
V
For V23870-Ax131-xx00. For V23870-Ax132-xx00.
The electro-optical characteristics described in the following tables are valid only for use under the recommended operating conditions.
Data Sheet
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Technical Data Transmitter Electro-Optical Characteristics Parameter Average Launched Power1) Average Launched Power
2)
Symbol min.
Limit Values typ. max. –3 –8 1360 3.0 8.5 1 2.5 2.5 ITU-T G.957 mask pattern 250 2.5 140 88 2.75 240 111 1600 2.99 560 140 6 135 185 –9 –14 1260
Unit dBm nm nm dB ns ns ns mV V ms ms ms mA
P out, max
λ σλ ER
Emission Wavelength Range Spectral Bandwidth (RMS) Extinction Ratio (Dynamic) Jitter (pkpk) Rise Time (20% - 80%) 3) Fall Time (20% - 80%)3) Eye Diagram Data Input Differential Voltage Reset Threshold 4) Reset Time-out
4)
JPP tR tF V DIFF V TH tRES tPWR_ON tDIS ITX
Power on Delay Shut Off Time for TxDis Max. Tx Supply Current5) Max. Tx Supply Current6)
1) 2) 3) 4) 5) 6)
For V23870-A313x-xx00 and into single mode fiber, 9 µm diameter. For V23870-A113x-xx00 and into single mode fiber, 9 µm diameter. Rise and fall times are measured with the OC-3 filter ON. Laser power is shut down if power supply is below VTH and switch on if power supply is above V TH after t RES . For V23870-Ax131-xx00. For V23870-Ax132-xx00.
Data Sheet
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Technical Data Receiver Electro-Optical Characteristics Parameter Receiving Wavelength Range Sensitivity (Average Power)
1)
Symbol min. λR 1480 –3.0
Limit Values typ. max. 1600 –30 –30.5 –41 0.5 -1.200 -1.900 2.4 Vee 0.5 0.8 4 6 -0.820 -1.580 Vcc 0.5 0.93 100 350 1.5 10 60 130
Unit nm dBm dBm dBm dBm dB V V V V V µs µs ns dB mA
P IN P SAT P SDA P SDD P SDA –P SDD
VOH-VCC VOL-V CC VOH-VCC VOL-V CC
4)
Saturation (Average Power) Signal Detect Assert Level 2) Signal Detect Deassert Level 3) Signal Detect Hysteresis PECL Data Voltage Out High4) PECL Data Voltage Out Low TTL Data Voltage Out High TTL Data Voltage Out Low Data Output Differential Voltage 6) Signal Detect Assert Time Signal Detect Deassert Time Rise/Fall Time (20% - 80%) S/X Ratio Max. Rx Supply Current
1)
5)
4)
V DIFF tASS tDAS t R, t F
SX
7)
IRX
2)
3)
4) 5) 6)
7)
Minimum average optical power at which the BER is less than1x10E–10. Measured with a 1023 –1 NRZ PRBS as recommended by ANSI T1E1.2, SONET OC-3, and ITU-T G.957. An increase in optical power above the specified level will cause the Signal Detect output to switch from a low state to a high state. A decrease in optical power below the specified level will cause the Signal Detect to change from a high state to a low state. DC coupling for data with load of 50 Ω to Vcc-2V DC coupling for data with load of 50 Ω AC coupling for data. Load 50 Ω t o GND or 100 Ω differential. For dynamic measurement a tolerance of 50 mV should be added. Supply current excluding Rx output load.
Data Sheet
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Technical Data Module Electro-Optical Characteristics Parameter Receiver Reflectance
1)
Symbol min.
1)
Limit Values typ. max. 14
Unit dB
ORL
Source wavelength is 1550nm, BIDI Tx and Rx is Off.
Fiber Characteristics Parameter Mode Field Diameter Cladding Diameter Mode Field/Cladding Concentricity Error Cladding Non-circularity Mode Field Non-circularity Jacket Diameter Bending Radius Tensile Strength Fiber Case Length
see Figure 3
Symbol min. 8 123
Limit Values typ. 9 125 max. 10 127 1 2 6 0.8 30 5 1
Unit µm µm µm % nm mm mm N
L
0.9
1.1
m
Figure3
Pigtail Length Description
Data Sheet
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Eye Safety Eye Safety This laser based single mode transceiver is a Class 1 product. It complies with IEC 60825-1 and FDA 21 CFR 1040.10 and 1040.11. To meet laser safety requirements the transceiver shall be operated within the maximum operating limits. Attention: All adjustments have been made at the factory prior to shipment of the devices. No maintenance or alteration to the device is required. Tampering with or modifying the performance of the device will result in voided product warranty. Note: Failure to adhere to the above restrictions could result in a modification that is considered an act of “manufacturing”, and will require, under law, recertification of the modified product with the U.S. Food and Drug Administration (ref. 21 CFR 1040.10 (i)).
Figure4
Required Labels
Figure5
Laser Emission
Data Sheet
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Application Notes Application Notes AC/AC Coupling
Figure6
Data Sheet
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Application Notes DC/DC Coupling
Figure7
Data Sheet
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Application Notes Transceiver Assembly/Soldering Recommended requirements o avoid temperatures on fiber and connector above 85°C o only iron soldering permitted o single pin or simultaneous pin soldering valid
Data Sheet
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Package Outlines Package Outlines
Figure8
Data Sheet
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V23870-Ax131-xx00 V23870-Ax132-xx00 Revision History: Previous Version: Page 9 2 all Subjects (major changes since last revision) Fiber length tolerance Better defined operating temperature condition new datasheet format 2003-06-13 DS0
For questions on technology, delivery and prices please contact the Infineon Technologies Offices in Germany or the Infineon Technologies Companies and Representatives worldwide: see our webpage at http://www.infineon.com.
Edition 2003-06-13 Published by Infineon Technologies AG, St.-Martin-Strasse 53, D-81541 München, Germany
© Infineon Technologies AG 2003.
All Rights Reserved. Attention please! The information herein is given to describe certain components and shall not be considered as warranted characteristics. Terms of delivery and rights to technical change reserved. We hereby disclaim any and all warranties, including but not limited to warranties of non-infringement, regarding circuits, descriptions and charts stated herein. Infineon Technologies is an approved CECC manufacturer. Information For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies Office in Germany or our Infineon Technologies Representatives worldwide. Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life-support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered.