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| Fiber Optics DC/DC (3.3V) Single Mode 622 MBd ATM/SDH/SONET 1x9 Transceiver Extended Temperature Range (-40C to 85C) V23826-H18-C366 Features * Compliant with ATM, SONET OC-3, SDH STM-1 and SONET OC-12, SDH STM-4 * Meets mezzanine standard height of 9.8 mm * Compact integrated transceiver unit with - MQW laser diode transmitter - InGaAs PIN photodiode receiver - Duplex SC receptacle * Class 1 FDA and IEC laser safety compliant * FDA Accession No. 9520890-12, 9520890-13 * Single power supply (3.3 V) * Signal detect indicator * PECL differential inputs and outputs * Process plug included * Input Signal Monitor * Wave solderable and washable with process plug inserted * Industry standard multisource 1x9 footprint * For distances of up to 15 km on single mode fiber Part Number V23826-H18-C366 Add suffix to PIN -C3 -D3 1) Voltage 1) Signal Detect PECL Input DC Output DC 3.3 V Shield options Metallized cover, forward springs Metallized cover, backward springs Standard version Data Sheet 1 2000-06-01 V23826-H18-C366 Pin Configuration Pin Configuration Top View 123456 789 Figure 1 Pin Description Pin No. 1 2 3 4 Symbol RxVEE RD RDn SD PECL Rx Signal Detect Rx 3.3 V Tx 3.3 V PECL Input Power Supply Mech. Support Tx Input Data Tx Ground Stud Pin Inverted transmitter input data Transmitter input data Negative power supply, normally ground Not connected Level/Logic Power Supply PECL Output Function Rx Ground Description Negative power supply, normally ground Inverted receiver output data A high level on this output shows that optical data is applied to the optical input. Positive power supply, 3.3 V Rx Output Data Receiver output data 5 6 7 8 9 S1/2 RxVCC TxVCC TDn TD TxVEE Power Supply Data Sheet 2 2000-06-01 V23826-H18-C366 Description Description The Infineon single mode ATM transceiver complies with the ATM Forum's Network Compatible ATM for Local Network Applications document and ANSI's Broadband ISDN - Customer Installation Interfaces, Physical Media Dependent Specification, T1.646-1995, Bellcore - SONET OC-3 / IR-1 and OC-12 / IR-1, ITU-T G.957 STM-1 / S.1.1. and STM-4 / S.4.1. ATM was developed to facilitate solutions in multimedia applications and real time transmission. The data rate is scalable, and the ATM protocol is the basis of the broadband public networks being standardized in the International Telecommunications Union (ITU), the former International Telegraph and Telephone Consultative Committee (CCITT). ATM can also be used in local private applications. The Infineon single mode ATM transceiver is a single unit comprised of a transmitter, a receiver, and an SC receptacle. This design frees the customer from many alignment and PC board layout concerns. The module is designed for low cost WAN applications. It can be used as the network end device interface in workstations, servers, and storage devices, and in a broad range of network devices such as bridges, routers, and intelligent hubs, as well as wide area ATM switches. This transceiver operates at 622.080 Mbit/s from a single power supply (+3.3 V). The differential data inputs and outputs are PECL compatible. Functional Description This transceiver is designed to transmit serial data via single mode cable. Signal Monitor and Automatic Shut-Down LEN TD TD Laser ISM* Driver Laser Coupling Unit e/o Laser Power Control Monitor RD RD SD o/e Single Mode Fiber RX Coupling Unit o/e *DC/DC Version only Receiver Figure 2 Functional Diagram Data Sheet 3 2000-06-01 V23826-H18-C366 Description The receiver component converts the optical serial data into PECL compatible electrical data (RD and RDnot). The Signal Detect (SD, active high) shows whether optical data is present 1). The transmitter converts electrical PECL compatible serial data (TD and TDnot) into optical serial data. This version contains an Input Signal Monitor (ISM), that switches off the optical power if a continuously low level is applied at Data Input. 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 transmitter failures. A reset is only possible by turning the power off, and then on again. The transceiver contains a supervisory circuit to control the power supply. This circuit generates an internal reset signal whenever the supply voltage drops below the reset threshold. It keeps the reset signal active for at least 15 milliseconds after the voltage has risen above the reset threshold. During this time the laser is inactive. Regulatory Compliance Feature Electrostatic Discharge (ESD) to the Electrical Pins Standard MIL-STD 883C Method 3015.4 Comments Class 1 (>1000 V) Immunity: EN 61000-4-2 Electrostatic Discharge IEC 61000-4-2 (ESD) to the Duplex SC Receptacle Immunity: Radio Frequency Electromagnetic Field EN 61000-4-3 IEC 61000-4-3 Discharges of 15 kV with an air discharge probe on the receptacle cause no damage. With a field strength of 3 V/m rms, noise frequency ranges from 10 MHz to 1 GHz. No effect on transceiver performance between the specification limits. Noise frequency range: 30 MHz to 6 GHz; Margins depend on PCB layout and chassis design Emission: Electromagnetic Interference EMI 1) FCC Class B EN 55022 Class B CISPR 22 We recommend to switch off the transmitter supply (VCC - Tx) if no transmitter input data is applied. Data Sheet 4 2000-06-01 V23826-H18-C366 Technical Data Technical Data Absolute Maximum Ratings Parameter Package Power Dissipation Supply Voltage 3.3 V Data Input Levels Differential Data Input Voltage Operating Ambient Temperature Storage Ambient Temperature Soldering Conditions Temp/Time (MIL-STD 883C, Method 2003) 1) Symbol 1) Limit Values min. max. 0.9 Unit W V VCC - VEE 5 VCC + 0.5 2.5 -40 -40 85 85 250/5.5 C/s C For VCC - VEE (min., max.). 50% duty cycle. The supply current does not include the load drive current of the receiver output. Exceeding any one of these values may destroy the device immediately. Recommended Operating Conditions Parameter Ambient Temperature Power Supply Voltage 3.3 V Supply Current 3.3 V Transmitter Data Input High Voltage DC/DC VIH - VCC -1165 Data Input Low Voltage DC/DC VIL - VCC Input Data Rise/Fall Time 10%-90% Receiver Input Center Wavelength 1) Symbol min. Limit Values typ. 3.3 160 max. 85 3.5 250 -880 -1475 1300 Unit C V mA mV ps 1) TAMB -40 VCC - VEE 3.1 ICC -1810 100 tR , tF C 1270 1356 nm For VCC - VEE (min., max.) 50% duty cycle. The supply current does not include the load drive current of the receiver output. Data Sheet 5 2000-06-01 V23826-H18-C366 Technical Data The electro-optical characteristics described in the following tables are only valid for use under the recommended operating conditions. Transmitter Electro-Optical Characteristics Parameter Launched Power (Average) 1) Center Wavelength Spectral Width (RMS) Relative Intensity Noise Extinction Ratio (Dynamic) Reset Threshold 3.3 V 2) Reset Time Out 2) Eye Diagram 3) 1) 2) 3) Symbol min. Limit Values typ. -11 max. -8 1356 2.5 -120 8.2 2.7 15 22 35 -15 1274 Unit dBm nm dB/Hz dB V ms PO C l RIN ER VTH tRES ED Into single mode fiber, 9 m diameter. Laser power is shut down if power supply is below VTH and switched on if power supply is above VTH after tRES. Transmitter meets ANSI T1E1.2, SONET OC-3 and OC-12, and ITU-T G.957 mask patterns. Data Sheet 6 2000-06-01 V23826-H18-C366 Technical Data Receiver Electro-Optical Characteristics Parameter Sensitivity (Average Power) Signal Detect Assert Level Signal Detect Hysteresis Signal Detect Assert Time Signal Detect Deassert Time Output Low Voltage 4) Output High Voltage 4) Output Data Rise/Fall Time, 20%-80% Return Loss of Receiver 1) Symbol min. 1) Limit Values typ. -30 -8 -37 -38 -31.4 -34.5 1.5 100 350 -1950 -1025 -1620 -720 375 12 -28 -29 max. -28 Unit dBm Saturation (Average Power) 2) Signal Detect Deassert Level 3) PIN PSAT PSDA PSDD PSDA - PSDD tASS tDAS VOL - VCC VOH - VCC tR , tF ARL dB s mV ps dB 2) 3) 4) Minimum average optical power at which the BER is less than 1x10-12 or lower. Measured with a 223 - 1 NRZ PRBS as recommended by ANSI T1E1.2, SONET OC-3 and OC-12, and ITU-T G.957. An increase in optical power of data signal above the specified level will cause the SIGNAL DETECT to switch from a Low state to a High state. A decrease in optical power of data signal below the specified level will cause the SIGNAL DETECT to switch from a High state to a Low state. DC/DC for data, DC/DC PECL for Signal Detect, PECL compatible. Load is 50 into VCC - 2 V for data, 270 (3.3 V) to VEE for Signal Detect. Measured under DC conditions. For dynamic measurements a tolerance of 50 mV should be added. VCC = 3.3 V. TAMB = 25C. Data Sheet 7 2000-06-01 V23826-H18-C366 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 Absolute Maximum Ratings. 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)). Laser Data Wavelength Total output power (as defined by IEC: 50 mm aperture at 10 cm distance) Total output power (as defined by FDA: 7 mm aperture at 20 cm distance) Beam Divergence 1300 nm less than 2 mW less than 180 W 4 FDA Complies with 21 CFR 1040.10 and 1040.11 IEC Class 1 Laser Product Figure 3 Required Labels Indication of laser aperture and beam Figure 4 Laser Emission Data Sheet 8 2000-06-01 V23826-H18-C366 Application Notes Application Notes ATM transceivers and matching circuits are high frequency components and shall be terminated as recommended in the application notes for proper EMI performance. Electromagnetic emission may be caused by these components. To prevent emissions it is recommended that cutouts for the fiber connectors be designed as small as possible. It is recommended that the Tx plug and the Rx plug be separated with a bar that divides the duplex SC opening. Single Mode 622 MBd ATM 1x9 Transceiver VCC SerDes 3.3 V VCC R11 C6 R10 R7 Tx+ ECL/PECL Driver TxR8 VCCTx 6 C1 VCCRx 5 C2 SD 4 SD to upper level R1 R9 PreAmp Limiting Amplifier RDRxD 3 C4 R2 L2 C3 L1 VCC 3.3 V Serializer/ Deserializer TxVEE 9 TxD Laser Driver 8 TxD 7 C7 Infineon Transceiver V23826-H18-C366 DC/DC Option Signal Detect RDReceiver PLL etc. RD+ RxD 2 C5 RD+ R3 R5 R6 C1/2/3 = 4.7 F C4/5/6/7 = 100 nF L1/2 = 1 H R10/11 = 127 (3.3 V) (depends on SerDes chip used) R7/8 = 82 (3.3 V) (depends on SerDes chip used) R5/6 = 150 (3.3 V) R9 = 270 (3.3 V) Place R1/2/3/4 close to SerDes chip, depends on SerDes chip used, see application note of SerDes supplier. Place R7/8/10/11 close to Infineon Transceiver Figure 5 Data Sheet 9 R4 RxVEE 1 2000-06-01 V23826-H18-C366 Application Notes 3.3 V-Transceivers can be directly connected to SerDes-Chips using standard PECL Termination network. Value of R1...R4 may vary as long as proper 50 termination to VEE or 100 differential is provided. The power supply filtering is required for good EMI performance. Use short tracks from the inductor L1/L2 to the module VCCRx/VCCTx. Further application notes for electrical interfacing are available upon request. Ask for Appnote 82. We strongly recommend a VEE plane under the module for getting good EMI performance. The transceiver contains an automatic shutdown circuit. Reset is only possible if the power is turned off, and then on again. (VCCTx switched below VTH). Application Board available on request. Data Sheet 10 2000-06-01 V23826-H18-C366 Shield Options Shield Options Shield with Forward Springs, -C3 Dimensions in mm [inches] Figure 6 Data Sheet 11 2000-06-01 V23826-H18-C366 Shield Options Shield with Backward Springs, -D3 Dimensions in mm [inches] Figure 7 Data Sheet 12 2000-06-01 V23826-H18-C366 Package Outlines (1.9-0.1) 2x .075-.004 0.1 M (2.54) .1 20.32 .8 11x .004 M 9x (0.8-0.1) .032-.004 Footprint Top view (2.54) .1 8x 2.54 8x .1 .8 20.32 (8.6 max) .343 max 4.875 .192 .5 (2.05-0.05) .079-.002 (11 max) .433 max (2.5-0.1) .098-.002 12.7 3 (0.35-0.1) .014-.004 A A 0.3 M .012 M OPTICAL CENTERLINE (3.8 max) .15 max 2 product label (1.4 -0.05) .005 -.002 1 2x 4 Top view 20.32 PC board M .004 M Z 0.1 1 2 3 45 8x 11x 6789 2.54 (3.3-0.2) .130-.008 8x .1 20.32 .8 1 (9.79 max) .385 max 2 .08 (PC board thickness) Package Outlines 9x 0.3 M .012 M A A (0.63-0.2) .025-.008 ( 0.46-0.05) .018-.002 Data Sheet Figure 8 View Z (lead cross section and standoff size) Dimensions in (mm) inches TRX without Shield (0.6-0.1) .024-.004 (1-0.1) .04-.004 (25.25-0.05) .994-.002 A .8 (38.6-0.15) 1.52-.006 32 13 DUPLEX SC 5 RECEPTACLE (15.88-0.5) .625-.02 (2.8 max) .11 max 2000-06-01 V23826-H18-C366 Revision History: Previous Version: Page Subjects (major changes since last revision) Document's layout has been changed: 2002-Aug. 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. 2000-06-01 DS0 Edition 2000-06-01 Published by Infineon Technologies AG, St.-Martin-Strasse 53, 81669 Munchen, Germany (c) Infineon Technologies AG 2002. 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. |
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