V23809-F7-T10 Datasheet, PDF(3/5 Page) Infineon Technologies AG – Multimode 1300 nm LED Fibre Channel 266 MBd 1x9 Transceiver with ST Connector

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V23809-F7-T10 Datasheet, PDF (3/5 Pages) Infineon Technologies AG – Multimode 1300 nm LED Fibre Channel 266 MBd 1x9 Transceiver with ST Connector

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Transmitter Electro-Optical Characteristics

Transmitter

Data Rate

Launched Power

(Average)(1, 2)

into 62.5 Âµm Fiber

Center Wavelength(2, 3)

Spectral Width

(FWHM)(2, 4)

Output Rise Time,

10%â90%(5)

Output Rise Time,

10%â90%(5)

Temperature Coefficient

of Optical Output Power

Extinction Ratio

(Dynamic)(2, 6)

Deterministic Jitter(7, 8)

Random Jitter(7, 9)

Symbol Min. Typ.

â20 â16

Î»C

1280

âl

0.6

TCp

tDJ

tRJ

Max. Units

266 MBaud

â14 dBm

1380 nm

200

2.0 ns

2.2

0.03 dB/Â°C

12 %

Notes

1. Measured at the end of 5 meters of 62.5/125/0.275 graded index

fiber using calibrated power meter and a precision test ferrule.

Cladding modes are removed. Values valid for EOL.

2. The input data pattern is a 12.5 MHz square wave pattern.

3. Center wavelength is defined as the midpoint between the two

50% levels of the optical spectrum of the LED.

4. Spectral width (full width, half max.) is defined as the difference

between 50% levels of the optical spectrum of the LED.

5. 10% to 90% levels. Measured using a 12.5 MHz square wave pat-

tern with an optoelectronic measurement system (detector and

oscilloscope) with 3 dB bandwidth ranging from less than 0.1 MHz

to more than 750 MHz.

6. Extinction ratio is defined as PL/PH x 100%. Measurement system

as in Note 5.

7. Test method and consideration as in FC-PH Appendix A.

8. Measured with the K28.5 pattern from Chapter II of the FC-PH at

266 MBd.

9. Measured with the K28.7 pattern from Chapter II of the FC-PH

which equals a 133 MHz square wave.

Receiver Electro-Optical Characteristics

Receiver

Data Rate

Symbol Min. Typ. Max. Units

5(1)

266 MBaud

Sensitivity

(Average Power)(2)

â30 â26 dBm

Saturation

(Average Power)(3)

PSAT

â14 â11

Deterministic

Jitter(4, 5)

Random Jitter(4, 6)

Signal Detect

Assert Level(7)

tDJ

tRJ

PSDA

â43.5

19 %

â29 dBm

Signal Detect

Deassert Level(8)

PSDD

â45

â30.5

Signal Detect

Hysteresis

Output Low

Voltage(9)

PSDAâ 1.5

PSDD

VOLâVCC â1810

â1620 mV

Output High

Voltage(9)

VOHâVCC â1025

â880

Output Data Rise/Fall t , t

Time, 20%â80%

1.3 ns

Output SD Rise/Fall

Time, 20%â80%

Notes

1. Pattern: Manchester coding / NRZI (no scrambling)

2. For a bit error rate (BER) of less than 1x10E-12 over a receiver eye

opening of least 1.0 ns. Measured with a 27â1 PRBS.

3. For a BER of less than 1x10E-12. Measured in the center of the eye

opening with a 27â1 PRBS.

4. Test method and considerations as in FH-PC Appendix A.

5. Measured with the K28.5 pattern from Chapter II of the FC-PH at

266 MBd.

6. Measured with the K28.7 pattern from Chapter II of the FC-PH

which equals a 133 MHz square wave.

7. An increase in optical power through the specified level will cause

the Signal Detect output to switch from a Low state to a High state.

8. A decrease in optical power through the specified level will cause

the Signal Detect output to switch from a High state to a Low state.

9. PECL compatible. Load is 50 â¦ into VCCâ2 V. Measured under DC

conditions. For dynamic measurements a tolerance of 50 mV should

be added for VCC=5 V.

Fiber Optics

V23809-F7âT10, MM 1300 nm LED Fibre Channel 1x9 Transceiver (ST)

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