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FTM-33X1C-X10G Datasheet, PDF (1/11 Pages) Source Photonics, Inc. – 10G 1310nm XFP Transceiver
Mar. 28, 2006
10G 1310nm XFP Transceiver
(Up to 10km transmission)
Members of FlexonTM Family
Compliant with ITU-T G.959
Compliant with IEEE 802.3ae-2002
Compliant with 10GFC standard
Compliant with FCC 47 CFR Part 15, Class B
Compliant with FDA 21 CFR 1040.10 and
1040.11, Class I
RoHS compliance
Description
Features
Up to 11.1Gbps data-rate
Up to 10km transmission
1310nm uncooled EML and PIN receiver
XFI electrical interface
2-wire interface for integrated Digital Diagnostic
monitoring
XFP MSA package with duplex LC connector
Hot pluggable
Very low EMI and excellent ESD protection
+5V, +3.3V power supply
Power consumption less than 2.5 W
Operating case temperature: 0 to +70℃
Applications
SDH I-64.1 at 9.953Gbps
10G Ethernet 10GBASE-LR at 10.3125Gbps
10G Fiber Channel at 10.51875Gbps
OC192 over FEC at 10.709Gbps
10GE over G.709 at 11.09Gbps
Other optical links
Standard
Compliant with XFP MSA
Compliant with ITU-T G.691
FTM-33X1C-X10G is a high performance, cost
effective modules, used for 10G SDH/SONET and
10G Ethernet, supporting data-rate from 9.953Gbps
to 11.1Gbps and transmission distance up to 10km.
The transceiver consists of two sections: The
transmitter section incorporates a 1310nm uncooled
EML, driver and re-timer. The receiver section
consists of a PIN photodiode integrated with a
transimpedance preamplifier (TIA) and CDR.
The module is hot pluggable into the 30-pin
connector. The high-speed electrical interface is
base on low voltage logic, with nominal 100 Ohms
differential impedance and AC coupled in the
module. The optical output can be disabled by
LVTTL logic high-level input of TX_DIS. Loss of
signal (RX_LOS) output is provided to indicate the
loss of an input optical signal of receiver.
A serial EEPROM in the transceiver allows the user
to access transceiver monitoring and configuration
data via the 2-wire XFP Management Interface. This
interface uses a single address, A0h, with a memory
map divided into a lower and upper area. Basic
digital diagnostic (DD) data is held in the lower area
while specific data is held in a series of tables in the
high memory area.
Fiberxon Proprietary and Confidential, Do Not Copy or Distribute
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Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Last printed 2006-12-7 20:34