FAM-50X3S-T40 [SOURCE]
Transponder, 1530nm Min, 1565nm Max, 10312.5Mbps(Tx), 10312.5Mbps(Rx), SC Connector, Panel Mount;型号: | FAM-50X3S-T40 |
厂家: | SOURCE PHOTONICS, INC. |
描述: | Transponder, 1530nm Min, 1565nm Max, 10312.5Mbps(Tx), 10312.5Mbps(Rx), SC Connector, Panel Mount |
文件: | 总14页 (文件大小:242K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
July 10, 2005
OC-192/STM-64 SFF Transponder
(1550nm, 40km, 65km and 80km transmission)
Members of Softac Family
Standard
Compliant with 300-PIN MSA
Compliant with ITU-T G.691
Compliant with ITU-T G.959.1
Compliant with Telcordia GR-253
Compliant with IEEE 802.3ae
Features
Compliant with OIF SFI-4 interface
Compliant with Telcordia GR-468-Core
Compliant with FDA 21CFR 1040.10 Class Ⅰ
ꢀ
ꢀ
ꢀ
1550nm externally EA modulated laser
Wide dynamic range PIN or APD receiver
Support transmission distance of 40km, 65km
and 80km
Description
ꢀ
Support multi-rate operation from 9.953Gb/s to
11.318 Gb/s
The transponders are intended for 1550nm system
applications with reaches of up to 40km, 65km and
80km, which is designed to provide high optical
performance for SONET OC-192 / SDH STM-64.
The transmitter converts the electrical data into
10Gbit/s optical signal, which uses 1550nm
externally EA modulated laser with specified driving
circuit.
ꢀ
ꢀ
ꢀ
1:16 MUX/DEMUX integrated
16-bit parallel 622.08Mbps LVDS data interface
Selectable dual fixed-rate jitter clean-up which
can be bypassed for multi-rate operation
Compliant with the 300 pin MSA in a compact
size
ꢀ
ꢀ
Compliant I2C MSA (Edition 4.0) interface for
monitoring/control
At the receiving side, the incoming data stream is
received at 10Gb/s PIN or APD receiver, which
converts it into a 10Gb/s electrical data stream.
The MUX section multiplexes 16 parallel 622Mb/s
electrical channels into a 10Gb/s series data stream
and sent it to the transmitter. And the DEMUX
section demultiplexes the 10Gb/s electrical data
stream into 16 parallel 622Mb/s electrical channels.
The parallel data is sent out to and get from the
300-pin MSA (Multi Source Agreement) compliant
connector.
ꢀ
ꢀ
Supply voltage: +1.8V, +3.3V, +5.0V, -5.2V
Operating case temperature: -5℃ to +70℃
Applications
ꢀ
ꢀ
ꢀ
ꢀ
Metro network SDH / SONET system
10 Gigabit Ethernet system
Forward Error Correction (FEC) system
Optical Transport Network (OTN) System
The transmitter and receiver reference clock rates
are selectable for divide by 16 or 64.
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Page 1 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Block Diagram
LsENABLE
LsPOWMON
LsBIASMON
LsPOWALM
LsBIASALM
APC
16
TxDIN[0:15]P/N
TxPICLKP/N
TxREFCLKP/N
MUX
TxREFSEL
with CMU
OC-192
Optical Output
Driver
TX E-O
ATC
TxRESET
TxFIFORES
TxRATESEL0/1
TxPCLKP/N
TxMCLKP/N
TxLOCKERR
TxFIFOERR
LsTEMPMON
LsTEMPALM
Serial
Monitor
I2CDATA
I2CCLOCK
16
RxDOUT[0:15]P/N
RxPOCLKP/N
RxMCLKP/N
DEMUX
OC-192
Optical Iutput
RX O-E
RxREFCLKP/N
with CDR
RxREFSEL
RxLCKREF
RxRATESEL0/1
Optical
Monitor
RxPOWMON
RxPOWALM
RxLOCKERR
RxALIMINT
TxALIMINT
ALMINT
+5.0V +3.3V +1.8V -5.2V GND
Figure 1, Block Diagram of Transponder
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Page 2 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Absolute Maximum Ratings
Stresses in excess of the Absolute Maximum Ratings can cause permanent damage to the device.
Table 1- Absolute Maximum Ratings
Parameter
Symbol
TS
Min.
-40
Max.
+85
+75
+6.0
+4.2
+3.3
+0.5
85
Unit
°C
°C
V
Storage Temperature
Operating Case Temperature
Tcm
-10
Vcc
-0.5
-0.5
-0.5
-7.0
Vdd1
Vdd2
Vee
V
Supply Voltage
V
V
Operating Relative Humidity (non-condensing)
Electro-Static Discharge
%
V
RH
ESD
2000
+3
PIN
Input Optical Power
APD
Pin
dBm
+1
Recommended Operating Conditions
Specified performance is maintained over all conditions in the table below, and damage to the device may
occur over an extended period of time.
Table 2 - Recommended Operating Conditions
Parameter
Symbol
TC
Min.
-5
Typ.
Max.
+70
Unit
°C
Operating Case Temperature
Vcc
+4.75
+3.15
+1.71
-5.45
+5.0
+3.3
+1.8
-5.2
90
+5.25
+3.45
+1.89
-4.95
150
V
Vdd1
Vdd2
Vee
Icc
V
Supply Voltage
Supply Current
V
V
mA
mA
mA
mA
W
Idd1
300
700
450
5.0
600
Idd2
750
Iee
500
Power consumption
Power supply noise rejection
Note:
Pd
6.5
50
mVp-p
1. An additional 0.2 W of power dissipation is required or single or dual rate jitter filter.
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Page 3 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Optical Interface Characteristics
Table 3 - Optical Characteristics
Parameter
Symbol
Min.
Typical
Max.
Unit
Notes
Transmitter
Centre Wavelength
λC
1530
-1
1565
+2
nm
Normal-Power
Output Power
0
POUT
dBm
1
High-Power
0
+2
+4
Output Power Stability
∆POUT
-0.5
+0.5
-45
0.3
dBm
dBm
nm
Output Power at laser disable
Spectral Width (-20dB)
POUT
∆
20
Side Mode Suppression Ratio
SMSR
ER
35
8.2
10
dB
40km
Extinction Ratio
9
dB
65/80km
11
40km
800
1300
1600
Chromatic
65km
D
ps/nm
Dispersion
80km
Compliant with Telcordia GR-253-CORE and ITU-T
G.691
Output Optical Eye
Jitter Generation
B1
B2
0.3
0.1
UI
UI
2
2
Receiver
Centre Wavelength
λC
1290
1600
-17
nm
PIN
Receiver Sensitivity
APD
-19
-26
0
PIN
dBm
3
3
-24
PIN
Receiver Overload
APD
-1
-9
PIN
dBm
-6
Optical Path Penalty
Reflection of Receiver
Jitter Tolerance
2
dB
dB
-27
Compliant with Telcordia GR-253 and ITU-T G.825
Compliant with Telcordia GR-253 and ITU-T G.825
Jitter Transfer
Notes:
1. The optical power is launched into SMF.
2. Measured with a NRZ PRBS 231-1 test pattern @ 9.95328Gbps.
3. Measured with a NRZ PRBS 231-1 test pattern @ 9.95328Gbps, BER ≤1×10-12.
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Page 4 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Electrical Interface Characteristics
Table 4 - LVDS Input/Output Specification
Parameter
LVDS interface
Symbol
Min.
Typical
Max.
Unit
Notes
Input Differential Voltage
Input Differential impedance
Output Differential Voltage
VID
RID
VOD
200
80
mV
Ω
100
120
500
1000
mV
Output Common Mode Voltage
Output Differential impedance
Rise Time/Fall time
VCMO
ROD
80
45
100
50
120
250
55
Ω
ps
%
Trise/fall
Clock Signal Duty Cycle
VP
Common Mode
Voltage
Differantial
Voltage
(VCMI or VCMD
)
(VOD or VID)
VN
Definition of Differantial Voltage Levels
Table 5 - Input Reference Clocks
Parameter
Symbol
VID
Min.
400
80
Typical
Max.
1800
120
Unit
mV
Ω
Notes
Input Differential Voltage
Differential Input Impedance
RID
100
Clock signal Duty Cycle
Tw/To
45
55
%
Table 6 - LVTTL Input/Output Pin Characteristics
Parameter
Input High Voltage
Symbol
VIH
Min.
Typical
Max.
Vdd
0.8
Unit
Notes
2.0
V
V
Input Low Voltage
VIL
GND
Output High Voltage
Output Low Voltage
VOH
VOL
2.4
Vdd
0.4
V
V
GND
Transponder Clock Interfaces and Control
There are seven clock interfaces to the transponder. This section details the specific functions, capabilities,
and limitations of each. Note that all clock rates shown are at STM-64/OC-192 rate, but should be scaled
appropriately for other data rates.
The LVPECL TxREFCLK, provided via the 300-pin interface, may be at 1/16 or 1/64 of the transmitted serial
data rate. The TxREFCLK must be synchronous with the TxPICLK. There are several approaches to ensure
this synchronous relationship. The two most common are
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OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
1) Locking the TxPICLK to the TxPCLK out of the transponder
2) Generating TxPICLK and TxREFCLK from the same clock on the line-card.
The LVPECL RxREFCLK may be at 1/16 or 1/64 of the incoming data rate also.
Table 7 - Reference Clock characteristics
Parameter
Symbol
Min. Typical Max.
Transmitter
Unit
Notes
TxREFCLKP
TxREFCLKN
Frequency
155.52/622.08
MHz
ppm
Serial data-rate is 9.953Gbps
Frequency
tolerance
-100
40
+100
Rise/Fall time
Duty Cycle
Tr/Tf
300
60
ps
%
50
Receiver
RxREFCLKP
RxREFCLKN
Frequency
155.52/622.08
MHz
ppm
Serial data-rate is 9.953Gbps
Frequency
tolerance
-100
40
+100
Rise/Fall time
Duty Cycle
Tr/Tf
300
60
ps
%
50
Table 8 - Transmitter/Receiver Parallel Data/Clock Interface
Parameter
Symbol
Level
Notes
Transmitter 16-bit parallel Date Input
TxDin[0:15]P/N
LVDS
TxDin0:LSB, TxDin15:MSB
Transmitter
Source
synchronous
TxPICLKP/N
LVDS
ParallelInput Clock
Transmitter Counter Clock
LVDS
LVDS
TxPCLKP/N
Receiver 16-bit parallel Date Output
Receiver Source synchronous Parallel
Output Clock
RxDout[0:15]P/N
RxDout0:LSB, RxDout15:MSB
RxPOCLKP/N
LVDS
Table 9 - Transmitter/Receiver Parallel Data/Clock Timing
Parameter Symbol Min.
Typical
Max.
Unit
Notes
Transmitter Data/Clock Timing: SERDES Input Timing at SERDES pin
Duty Cycle
Rise and Fall time
Setup time
Tw/To
Tr/Tf
Ts
40
60
%
ps
ps
TxPICLK
TxDin
300
20 – 80%
300
300
Hold time
Th
ps
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OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
To
Tw
TxPICLKP
TxDin[0:15]P/N
Th
Ts
Ts: Measuring from the LHS inner data eye to the immediate rising edge of clock pulse
Th: Measuring from the rising edge of clock pulse to the inner RHS of data eye
Receiver Data/Clock Timing: SERDES Output Timing at SERDES pin
RxPOCLK
Duty cycle
Tw/To
Tr/Tf
40
60
%
ps
ps
ps
Rise and Fall time
300
250
250
20 – 80%
RxDout
Data/Clock skew
Tcq_min,
Tcq_max
T o
T w
R x P O C L K P
T c q _ m a x
R x D o u t[0 :1 5 ]P /N
T c q _ m in
Table 10 - Monitor Clock
Parameter
Symbol
Level
Notes
Transmitter
The LVDS TxMCLK is either a 1/16 or 1/64 replica of the
clock used to time the serial data output. The rate of the
TxMCLK is always the same as that of the TxREFCLK
The LVDS RxMCLK is a 1/16 or 1/64 replica of the clock
recovered from the incoming data
monitor clock
TxMCLKP/N
RxMCLKP/N
LVDS
Receiver
LVDS
monitor clock
Table 11 - Serial Data Rate selection
(LVTTL with pull-up resistor)
Function
TxRATESEL1/ TxRATESEL0/
RxRATESEL1 RxRATESEL0
Tx/Rx Serial Data
Rate
10.3125Gbps
Parallel Data Rate
TxDIN[0:15]/RxOUT[0:15]
644.54Mbps
TxPICLK/RxPOCLK
L
L
L
644.54Mbps
690.56/693.43/
707.37Mbps
657.43/666.51/
669.32Mbps
622.08Mbps
11.049/11.095/
11.318Gbps
690.56/693.43/
707.37Mbps
H
10.519/10.664/
10.709Gbps
657.43/666.51/
669.32Mbps
H
H
L
H
9.95328Gbps
622.08Mbps
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Page 7 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Digital Control Signal
Table 12 - Input Digital signals
Function
Module
Symbol
Level
Description
Module reset
Note
L
Reset both Tx and Rx section
(LVTTL with pull-up resistor)
MOD_RESET
LVTTL
RESET
H
Normal operation
Diagnostic
Loop-back
L
Enable
DLOOPENB
LLOOPENB
LVTTL
LVTTL
(LVTTL with pull-up resistor)
(LVTTL with pull-up resistor)
H
L
Normal operation
Enable
Line
Loop-back
Transmitter
H
Normal operation
0,0
0,1
10.3125Gbps
11.049/11.095/
11.318Gbps
Select
serial
TxRATESEL1, 0 LVTTL
(LVTTL with pull-up resistor)
data rate
10.519/10.664/
10.709Gbps
1,0
1,1
L
9.95328Gbps
Select
the
1/64 data-rate
1/16 data-rate
1/16 data-rate
TxREFSEL
LVTTL
LVTTL
(LVTTL with pull-up resistor)
frequency of
TxREFCLK
H
L
Select
the
TxPICLKSEL
(LVTTL with pull-down resistor)
frequency of
TxPICLK
H
L
1/32 data-rate
Enable
Enable internal
Line Timing
On multi-rate units without jitter
clean up, this pin is ignored.
(LVTTL with pull-up resistor)
TxLINETIMSEL LVTTL
TxSKEWSEL0,1 LVTTL
H
Normal operation
Select delay of
TxPICLK
0,0
0,1
1,0
1,1
L
Delays 915ps
Delays 1015ps
Delays 715ps
Delays 815ps
Normal operation
Laser disabled
MUX reset
(LVTTL with pull-up resistor)
Enable/Disable
Laser
LsENABLE
TxRESET
LVTTL
LVTTL
(LVTTL with pull-down resistor)
(LVTTL with pull-up resistor)
H
Asynchronous
system reset
L
H
Normal operation
Internally the FIFO reset is
connected to TxRESET and
TxFIFOERR. TxFIFOERR will
initiate a FIFO reset
L
MUX FIFO reset
Normal operation
MUX
reset
FIFO
TxFIFORES
LVTTL
H
(LVTTL with pull-up resistor)
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Page 8 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Receiver
0,0
0,1
10.3125Gbps
11.049/11.095/
11.318Gbps
Select
rate
data
the
TxRATESEL0,1 LVTTL
(LVTTL with pull-up resistor)
10.519/10.664/
10.709Gbps
1,0
1,1
L
9.95328Gbps
Select
1/64 data-rate
RxREFSEL
RxMCLKSEL
RxLCKREF
LVTTL
LVTTL
LVTTL
(LVTTL with pull-down resistor)
(LVTTL with pull-up resistor)
(LVTTL with pull-up resistor)
(LVTTL with pull-up resistor)
(LVTTL with pull-up resistor)
frequency of
RxREFCLK
H
1/16 data-rate
Select
the
L
H
L
1/64 data-rate
1/16 data-rate
frequency of
RxMCLK
Lock
Lock to RxREFCLK
Normal operation
RxPOCLK to
RxREFCLK
H
Mutes
the
Mutes the
L
RxDOUT[0:15]
RxDOUT[0:15]
Normal operation
RxMUTEDOUT LVTTL
RxMUTEMCLK LVTTL
H
L
Mutes
the
Mutes the RxMCLK
Normal operation
receiver output
monitor clock
Mutes receiver
parallel output
clock
H
L
Mutes the
RxPOCLK
RxMUTEPOCLK LVTTL
(LVTTL with pull-up resistor)
(LVTTL with pull-up resistor)
H
Normal operation
RxPOCLK
Rx
L
Asynchronous reset
Normal operation
RxRESET
LVTTL
synchronous
system reset
H
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OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Digital Alarm Signal
Table 13 - Alarms Digital signals
Function
Symbol
Level
Description
Note
Common Digital Signal
Any alarm from
both transmitter
and receiver
Indicates
all
L
Activation Time: 10ms
ALMINT
LVTTL
alarm active
Deactivation Time: 10ms
H
Normal operation
Transmitter
L
Alarm active
Loss of transmitter PLL lock
Loss of Tx PLL
lock
TxLOCKERR LVTTL
Activation Time: 1ms
H
Normal operation
Deactivation Time: 1ms
Alarm active
TxError is internally connected to
TxFIFO RES. (Default) Customer may
have control of TXFIFO RES without
internal loopback (Optional)
L
(FIFO overflow)
MUX FIFO error TxFIFOERR LVTTL
H
Normal operation
Alarm active
(laser bias
Alarm when laser bias changes by a
factor of 2 from beginning of life or if
L
Laser bias out
LsBIASALM LVTTL
of range
current alarm)
monitor
reaches
maximum
level
corresponding to approximate150mA.
Activation Time: 10 ms
H
Normal operation
Deactivation Time: 10 ms
Laser
Laser temperature 5°C from nominal,
Activation Time : 10ms
L
H
L
Alarm active
Normal operation
Alarm active
LsTEMPALM LVTTL
LsPOWALM LVTTL
temperature out
of range
Deactivation Time : 10ms
Laser
output
Output power degrades 3dB below the
BOL Activation Time : 10ms
Deactivation Time : 10ms
power out of
range
H
Normal operation
Alarm from
transmitter
L
Activation Time: 10 ms;
Deactivation Time: 10 ms
Tx alarms
TxALMINT
LVTTL
H
Normal operation
Receiver
Loss of Rx PLL
lock
L
H
L
Alarm active
Normal operation
Alarm active
Activation Time: 1ms
RxLOCKERR LVTTL
RxPOWALM LVTTL
Deactivation Time: 1ms
Loss of receiver
average power
alarm
Activation Time: <1ms
Deactivation Time: <1ms
H
Normal operation
Alarm from
transmitter
L
Activation Time: 10 ms;
Deactivation Time: 10 ms
Rx alarms
RxALMINT
LVTTL
H
Normal operation
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Page 10 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Analog Monitoring Signal
Table 14 - Monitor Signals
Function
Symbol
Min.
Typ.
Max.
Unit
Transmitter
Normalized laser power monitor voltage BOL
Laser power monitor voltage slope
0.47
0.5
0.53
V
LsPOWMON
0.25 V change for 50% power variation
(mW)
Laser bias monitor voltage offset
Laser bias monitor voltage slope
Normalized laser temperature Monitor voltage
Laser temperature Monitor voltage slop
Receiver
0.2
18
0
2
V
LsBIASMON
LsTEMPMON
20
2.5
25
22
2.6
27
mV/mA
V
2.4
23
mV/℃
Input optical power monitor PIN
0.08
0.60
0.8
0.10
0.80
1.0
0.12
1.00
1.26
8.1
mV
voltage offset @-10dBm
Input optical power monitor PIN
voltage slope
APD
RxPOWMON
V/mW
dB
APD
7.9
8.0
Input optical power monitor error
-1.5
+1.5
I2C Serial Interface
Table 14 – I2C Interface
Function
Symbol
Level
Description
Note
I2C address input for module
addressing (LSB)
(LVTTL with pull-down
resistor)
I2CAD0
LVTTL
I2C address input for module
addressing
(LVTTL with pull-down
resistor)
I2C Address
I2CAD1
I2CAD2
LVTTL
LVTTL
I2C address input for module
addressing (MSB)
(LVTTL with pull-down
resistor)
Open
collector
Open
I2C clock input/output for
remote access
I2C Clock
I2C Data
I2CCLOCK
I2CDATA
N/A
N/A
I2C data input/output for
remote access
collector
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OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Pin Definitions
Table 15 - Pin Function Definitions
K
J
H
GND
G
F
NUC
E
D
GND
C
B
GND
A
1
2
3
4
5
6
7
8
+5V
+5V
RxTRACE
FFU
RxDout12P
RxDout12N
GND
RxDout8P
RxDout8N
GND
RxDout4P
RxDout4N
GND
RxDout0P
RxDout0N
GND
GND
NUC
GND
GND
RxRATESEL0 RxRATESEL1
FFU
RxPOWMON
+3.3V
I2CAD0
GND
RxDTV
GND
+3.3V
+3.3V
NUC
NUC
GND
RxDout13P
RxDout13N
GND
RxDout9P
RxDout9N
GND
RxDout5P
RxDout5N
GND
RxDout1P
RxDout1N
GND
GND
+3.3V
GND
GND
Rx_Reset
+3.3V
NUC
DLOOPENB
GND
RxPOWALM
+3.3V
I2CAD1
GND
RxMUTE Dout
GND
FFU
RxDout14P
RxDout14N
GND
RxDout10P
RxDout10N
GND
RxDout6P
RxDout6N
GND
RxDout2P
RxDout2N
GND
+3.3V
FFU
GND
+3.3V
GND
GND
9 RxMUTEPOCLK
NUC
FFU
FFU
I2CAD2
GND
RxLCKREF
GND
10
11
-5.2V
-5.2V
APS Sense
APS Set
NUC
GND
RxDout15P
RxDout15N
GND
-5.2V
RxDout11P
RxDout11N
GND
RxDout7P
RxDout7N
GND
RxDout3P
RxDout3N
GND
GND
-5.2V
GND
GND
12 RxMUTEMCLK
FFU
FFU
MOD RESET
GND
RxMCLKSEL
GND
13
14
-5.2V
-5.2V
FFU
GND
FFU
-5.2V
RxPOCLKP
RxPOCLKN
GND
RxMCLKP
RxMCLKN
GND
RxREFCLKP
RxREFCLKN
GND
RxALMINT
NUC
GND
FFU
-5.2V
GND
GND
15 I2CCLOCK
ALMINT
GND
GND
RxREFSEL
NUC
FFU
RxLOCKERR
GND
16
17
18
19
20
+5V
+5V
TxALMINT
FFU
TxDin12P
TxDin12N
GND
TxDin8P
TxDin8N
GND
GND
TxDin4P
TxDin4N
GND
TxDin0P
TxDin0N
GND
GND
NUC
GND
GND
I2CDATA
+3.3V
+3.3V
NUC
FFU
LsBIASMON
+3.3V
LsPOWMON
GND
TxSKEWSEL0
GND
FFU
GND
TxDin13P
TxDin13N
GND
TxDin9P
TxDin9N
GND
TxDin5P
TxDin5N
GND
TxDin1P
TxDin1N
GND
FFU
GND
+3.3V
GND
GND
21 TxRATESEL0 TxRATESEL1
FFU
LsENABLE
+3.3V
LsTEMPMON
GND
TxSKEWSEL1
GND
22
23
24
25
26
+3.3V
+3.3V
FFU
FFU
GND
TxDin14P
TxDin14N
GND
TxDin10P
TxDin10N
GND
TxDin6P
TxDin6N
GND
TxDin2P
TxDin2N
GND
GND
+3.3V
GND
GND
TxRESET
-5.2V
NUC
FFU
LsBIASALM
-5.2V
FFU
FFU
NUC
GND
TxDin15P
TxDin15N
GND
TxDin11P
TxDin11N
GND
GND
TxDin7P
TxDin7N
GND
GND
TxDin3P
TxDin3N
GND
-5.2V
NUC
GND
-5.2V
GND
GND
27 TxFIFORES
NUC
LLOOPENB
GND
LsTEMPALM
-5.2V
FFU
TxPICLKSEL
GND
28
29
-5.2V
-5.2V
FFU
TxPICLKP
TxPICLKN
GND
TxPCLKP
TxPCLKN
GND
GND
TxMCLKP
TxMCLKN
GND
TxREFCLKP
TxREFCLKN
GND
TxTRACE
NUC
GND
-5.2V
GND
GND
30 TxFIFOERR
LINETIMESEL
TxREFSEL
LsPOWALM
TxLOCKERR
FFU: Reserved for Future Use
NUC: No Use Connection
Fiberxon Proprietary and Confidential, Do Not Copy or Distribute
Page 12 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Mechanical Design Diagram
The mechanical design diagram is shown in Figure 2.
Figure 2, Mechanical Diagram
Ordering Information
FAM
Wavelength
5: 1550nm
Distance
40: 40km
65: 65km
80: 80km
Others
Reserved by vendor
H: High Optical Power
Receptacle
C: LC
S: SC
Package
T: 300-PIN
Function
0: Without jitter filter
1: With jitter filter
F: FC
M: MU
Data rate
X1: Multi-rate from 9.95328G to 10.709G (without jitter filter)
X2: 9.95328G (single jitter-filter)
X3: 10.3125G (single jitter-filter)
X4: 10.644G (single jitter-filter)
X5: 10.709G (single jitter-filter)
XA: 9.95328&10.709G (dual jitter-filter)
XB: 9.95328&10.3125G (dual jitter-filter)
Part No.
Product Description
FAM-50X1S-T40
FAM-50X1S-T65
FAM-50X1S-T80
1550nm, 10Gbps, 40km, PIN, SC connector, Without jitter-filter.
1550nm, 10Gbps, 65km, APD, SC connector, Without jitter-filter.
1550nm, 10Gbps, 80km, APD, SC connector, Without jitter-filter.
FAM-50X1S-T80H 1550nm high power laser, 10Gbps, 80km, APD, SC connector, Without jitter-filter.
Fiberxon Proprietary and Confidential, Do Not Copy or Distribute
Page 13 of 14
OC-192/STM-64 1550nm Transponder
40km, 65km and 80km transmission
Preliminary Data Sheet
July 10, 2005
Related Documents
For further information, please refer to the following documents:
ꢁ
ꢁ
Application Note for Fiberxon 10G Transponder I2C Serial Interface Specifications
Reference Document for 300 pin Multi Source Agreement for 10 Gigabit Transponders (SERDES
Transceivers), Edition 4, August 14, 2002
ꢁ
I2C Reference Document for 300-PIN MSA 10G and 40G Transponders, Edition 4, July 24, 2002.
Obtaining Document
You can visit our website:
http://www.fiberxon.com
Or contact with Fiberxon, Inc. America Sales Office listed at the end of documentation to get the latest
documents.
© Copyright Fiberxon Inc. 2005
All Rights Reserved.
All information contained in this document is subject to change without notice. The products described in this
document are NOT intended for use in implantation or other life support applications where malfunction may
result in injury or death to persons.
The information contained in this document does not affect or change Fiberxon’s product specifications or
warranties. Nothing in this document shall operate as an express or implied license or indemnity under the
intellectual property rights of Fiberxon or third parties. All information contained in this document was obtained
in specific environments, and is presented as an illustration. The results obtained in other operating
environment may vary.
THE INFORMATION CONTAINED IN THIS DOCUMENT IS PROVIDED ON AN ”AS IS” BASIS. In no event
will Fiberxon be liable for damages arising directly from any use of the information contained in this document.
Contact
U.S.A. Headquarter:
5201 Great America Parkway, Suite 340
Santa Clara, CA 95054
U. S. A.
Tel: 408-562-6288
Fax: 408-562-6289
Or visit our website: http://www.fiberxon.com
Fiberxon Proprietary and Confidential, Do Not Copy or Distribute
Page 14 of 14
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