Gigabit Ethernet Extended Temperature 10 km Dual Fiber Proposal for Baseline Text. Steve Joiner Ignis Optics

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Transcription:

Gigabit Ethernet Extended Temperature 10 km Dual Fiber Proposal for Baseline Text Ignis Optics steve.joiner@ignisoptics.com

PAR Objective Objective: Provide a family of physical layer specifications: 1000BASE-X extended temperature range optics What does this specifically mean? Extend temperature range expectation See next slide Extend existing 5 km SM 1000Base-LX to 10 km? Compatibility with existing 10 km parts now shipping? 2

Extended Temperature 802.3 specifications do not provide normative environmental requirements example see clause 38.8 But uncooled lasers change their optical properties over temperature so we must have an expectation of temperature range in developing optical specifications. Propose we add an informative section (annex or note in clause) that states the temperature range used in developing this specification. Propose we use Temperature of case of fiber optic package of -40 to +85 degrees C. Assuming 0.4 nm/deg 50 nm variation (assume laser at temperature relative to case) Note: This page based on reflector traffic over the past 3 months THANKS everyone. 3

10 km specification? >= Five companies delivering 10 km gigabit Ethernet products. Stopped searching after five Market obviously exists for 10 km Single fiber EFM solution targeting 10 km Propose EFM create a 10 km dual fiber extended temperature link 4

Compatibility with existing 10 km A defacto industry standard exists for 10 km Gigabit Ethernet Objective: Make the EFM extended temperature compatible with this industry standard. 5

Key Differences TX/RX Specification 1000 BASE-LX Industry 10 km Units TX: Avg Tx Power (min) (ER 9 min) -11-9.5 dbm wavelength 1270-1355 1270-1355 or 1285-1343 nm RMS spectral width 4 3 or 2.8 nm RX: Optical Receiver Avg power -19-20 dbm Propose use common industry 10 km specifications 6

Specification Methodology Choose between OMA and ER methodology. 1000BASE-LX is ER based specification Propose OMA based specification 7

Proposal Informative temperature range -40-+85 deg C 10 km link length Wavelength range = 1270 1355 nm Use 10GbE link budget spreadsheet to create triple tradeoff curve for spectral width vs. wavelength Use OMA spec methodology Tx output power (min): -9.5 dbm (ER=9) Rx input (min): -20 dbm (ER=9) 8

Baseline Motion The basis for the first draft of the 802.3ah 1000Base-LX extended temperature objective be met with text that uses 1000Base-LX 5 km single mode specification (clause 38) as the starting point with the following changes and additions: Informative temperature range -40-+85 deg C 10 km link length Wavelength range = 1270 1355 nm Use EFM link budget spreadsheet (v3.1.16) to create triple tradeoff curve for spectral width vs. wavelength vs OMA Conversion to OMA spec methodology Tx output power (min): -9.5 dbm (ER=9) Rx input (min): -20 dbm (ER=9) Made: ; Ignis Optics Second: Schelto vandoorn For: No: Abstain: This motion was amended see next two slides. 9

Amendment to motion Change wavelength range to 1260-1360 M: Jack Jewell S: Jim Tatum F: 27 N: 0 A: 14 10

Baseline Motion The basis for the first draft of the 802.3ah 1000Base-LX extended temperature objective be met with text that uses 1000Base-LX 5 km single mode specification (clause 38) as the starting point with the following changes and additions: Informative temperature range -40-+85 deg C 10 km link length Wavelength range = 1260 1360 nm Use EFM link budget spreadsheet (v3.1.16) to create triple tradeoff curve for spectral width vs. wavelength vs OMA Conversion to OMA spec methodology Tx output power (min): -9.5 dbm (ER=9) Rx input (min): -20 dbm (ER=9) Made: ; Ignis Optics Second: Schelto vandoorn For: 42 No: 0 Abstain: 5 This motion passes. 11

Parameters for link budget Q = 7.04 Base rate 1250 Mbd Uw = 2.9 nm Tx pwr OMA = -7.6 db Tx mask X1 = 0.22 UI X2 = 0.375 UI Y1 = 0.2 Ts (20-80) = 0.26 ns RIN (OMA) = -120 db/hz RIN_coef = 0.7 Det Jitter = 160 ps DCD_DJ = 65 ps MPN (k)(oma) = 0.5 Refl Tx = -12 db Target reach = 10 km Connections = 2 db C1 = 480 ns.mhz Reflection Noise factor = 0.6 Attenuation 0.5 db NomSensOMA = -20.3 dbm Refl Rx = -12 db Rec_BW = 1000 Mhz C_rx = 329 ns.mhz RMS Baseline wander = 0.025 Test Rx BW = 1000 MHz Test source ER = 9 Parameters used in link budget spreadsheet 12

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