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V23809-F7-T10 Datasheet, PDF (1/5 Pages) Infineon Technologies AG – Multimode 1300 nm LED Fibre Channel 266 MBd 1x9 Transceiver with ST Connector
V23809-F7-T10
Multimode 1300 nm LED Fibre Channel
266 MBd 1x9 Transceiver with ST© Connector
Dimensions in (mm) inches
(1.4)
(1) .039
A
1
(2.8)
max.
.11
max.
bottom
view
(0.6)
.024
(25.4) max.
1 max.
9
2x ∅(1.4)
∅.055
(3.8) .15 max.
∅(0.1) M A M
(12.7)
.5
(2.54) (20.32)
.1
8
(0.3) .012 x.012 x 9
∅(0.3) M A M
(5.27) .207
(14.4) .567
(18.47) .727
(20.32) .8
(41.2) 1.622
(9.8) max.
.39 max.
(3±0.2)
.118±.008
FEATURES
• Compliant with Fibre Channel standard
• Meets mezzanine standard height of 9.8 mm
• Compact integrated transceiver unit with duplex ST©
receptacle
• Single power supply with 3.0 V to 5.5 V range
• Extremely low power consumption < 0.7 W at 3.3 V
• PECL differential inputs and outputs
• System is optimized for 62.5/50 µm graded index fiber
• Industry standard multisource footprint
• Very low profile for high slot density
• Testboard available
• UL-94 V-0 certified
APPLICATIONS
• FC fabric point-to-point links
• HIPPI, SCSI, IPI
• High speed computer links
• Local area networks
• High definition digital television
• Switching systems
ST© is a registered trademark of AT&T
FC-V226368M09B-Fd7-T-TR1X0
Absolute Maximum Ratings
Exceeding any one of these values may destroy the device
immediately.
Supply Voltage (VCC–VEE).......................................... –0.5 to 7 V
Data Input Levels (PECL) (VIN) .................................. VEE to VCC
Differential Data Input Voltage (∆VIN)..................................... 3 V
Operating Ambient Temperature (TAMB).............. 0°C to 85°C
Storage Ambient Temperature (TSTG).................. –40°C to 85°C
Humidity/Temperature Test Condition (RH)................. 85%/85°C
Soldering Conditions, Temp/Time (TSOLD/tSOLD)
(MIL-STD 883C, Method 2003) .............................. 270°C/10 s
ESD Resistance (all pins to VEE, human body) .................. 1.5 kV
Output Current (IO) ........................................................... 50 mA
Fiber Optics
JULY 1999