V23818-M15-B57 Infineon Technologies, V23818-M15-B57 Datasheet - Page 12

V23818-M15-B57

Manufacturer Part Number

V23818-M15-B57

Description

Manufacturer

Infineon Technologies

Datasheet

1.V23818-M15-B57.pdf (18 pages)

Specifications of V23818-M15-B57

Optical Fiber Type

TX/RX

Data Transfer Rate

2125Mbps

Jitter

0.04ns

Operating Temperature Classification

Commercial

Peak Wavelength

1360/1580nm

Package Type

SFP

Operating Supply Voltage (min)

3.1V

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (max)

3.5V

Output Current

50mA

Operating Temp Range

0C to 70C

Mounting

Snap in

Pin Count

Lead Free Status / RoHS Status

Supplier Unconfirmed

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V23818-M15-B57

Application Notes

EMI-Recommendation

To avoid electromagnetic radiation exceeding the required limits please take note of the

following recommendations.

When Gigabit switching components are found on a PCB (multiplexers, clock recoveries

etc.) any opening of the chassis may produce radiation also at chassis slots other than

that of the device itself. Thus every mechanical opening or aperture should be as small

as possible.

On the board itself every data connection should be an impedance matched line (e.g.

strip line, coplanar strip line). Data, Datanot should be routed symmetrically, vias should

be avoided. A terminating resistor of 100

should be placed at the end of each matched

line. An alternative termination can be provided with a 50

resistor at each (D, Dn). In

DC coupled systems a thevenin equivalent 50

resistance can be achieved as follows:

For 3.3 V: 125

and 82

, for 5 V: 82

and 125

at Data

and Datanot. Please consider whether there is an internal termination inside an IC or a

transceiver.

In certain cases signal GND is the most harmful source of radiation. Connecting chassis

GND and signal GND at the plate/bezel/chassis rear e.g. by means of a fiber optic

transceiver may result in a large amount of radiation. Even a capacitive coupling

between signal GND and chassis may be harmful if it is too close to an opening or an

aperture.

If a separation of signal GND and chassis GND is not possible, it is strongly

recommended to provide a proper contact between signal GND and chassis GND at

every location where possible. This concept is designed to avoid hotspots. Hotspots are

places of highest radiation which could be generated if only a few connections between

signal and chassis GND exist. Compensation currents would concentrate at these

connections, causing radiation.

By use of Gigabit switching components in a design, the return path of the RF current

must also be considered. Thus a split GND plane of Tx and Rx portion may result in

severe EMI problems.

The cutout should be sized so that all contact springs make good contact with the face

plate.

For the SFP transceiver a connection of the SFP cage pins to chassis GND is

recommended. If no separate chassis GND is available on the users PCB the pins

should be connected to signal GND. In this case take care of the notes above.

Please consider that the PCB may behave like a waveguide. With an

r of 4, the

wavelength of the harmonics inside the PCB will be half of that in free space. In this

scenario even the smallest PCBs may have unexpected resonances.

Data Sheet

2002-05-06

V23818-M15-B57 Infineon Technologies, V23818-M15-B57 Datasheet - Page 12

V23818-M15-B57

Specifications of V23818-M15-B57

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