Model Number: | CFP2 | Transmitter Frequency Range: | 191.25 ~ 196.10 THz |
---|---|---|---|
Transmitter Laser Frequency Stability: | -1.8 ~ +1.8 GHz | Rx Input Power: | 13dBm |
High Light: | CFP2 DCO Optical Module,DCI 200G Optical Module,Digital Coherent Optical Module |
Ref |
Parameter |
Condition/comments |
Typical |
Min |
Max |
Unit |
2.1 |
Environmental Storage Temperature |
Module complies with the environmental storage temperature range of: |
-40 |
+85 |
oC |
|
2.2 |
Environmental Storage (relative) Humidity |
Module tolerates environmental storage (relative) humidity up to: |
- |
85 |
% |
|
2.3 |
Module storage time |
Storage time at room temperature with controlled humidity and no operation: After storage time, the module is fully functioning without any additional measures to be taken. |
2 |
Years |
|||
2.4 |
Environmental Operating (relative) Humidity |
The module tolerate (relative) humidity (non-condensing) up to: |
85 |
% |
||
2.5 |
Operating Low Temperature |
Module shall turn up from cold start and meet performance at ambient temperature as low as -5 oC. As the module is active device, module internal temperature and case temperature is higher than the ambient temperature during operation. |
-5 |
oC |
|||
2.6 |
Operating at high temperature |
Module shall turn up from cold start and meet performance within this temperature range. However if operating at higher temperature range over long time will result higher FIT than that of at defined in section 11.7. This temperature is monitored through an internal thermal sensor (PCB-top left, MDIO register 9092H). The temperature reading represents the module case temperature at the specified location shown in 10.4. |
+70 |
oC |
||
2.7 |
Short term operating case temperature |
The module operates up to a maximum temperature for short term (96 Hours continuously, no more than 15 days per year) |
+75 |
oC |
Ref# |
Parameter |
Typ |
Min |
Max |
Unit |
Condition/comments |
3.1.1 |
Transmitter frequency range |
191.25 |
196.10 |
THz |
50GHz ITU-T grid. Frequency range over which the specifications hold unless noted otherwise |
|
3.1.2 |
Transmitter laser frequency stability |
-1.8 |
+1.8 |
GHz |
Frequency stability relative to ITU grid. |
|
3.1.3 |
Fine tune Frequency resolution |
0.1 |
GHz |
3.1.4 |
Transmitter output power range |
-15 |
1 |
dBm |
Transmitter Output is settable in steps of 0.1 dB at any power level within the specified frequency range |
|
3.1.5 |
Output power stability (standard range) |
-0.3 |
0.3 |
dB |
Output power change over temperature and over time, measured over 10ms second intervals. For the Output range defined in 8.1.30 |
|
3.1.6 |
Output power accuracy and stability (standard range) |
-1.0 |
1.0 |
dB |
Difference between the set value and actual value over temperature, time, wavelength and aging. For the output range -10dBm to 1dBm. |
|
3.1.7 |
Output power accuracy and stability
|
(extended range) |
-2.0 |
2.0 |
dB |
Difference between the set value and actual value over temperature, time, wavelength and aging. For the Output range -15dBm to -10dBm. |
|
3.1.8 |
Transmitter laser side mode suppression ratio |
40 |
dB |
SMSR without modulation |
|
3.1.9 |
Transmitter turn-up time from warm start w/o TOF |
100 |
ms |
Module is in Ready state. The maximum transmitter turn-up time is counted from de-assert the Tx_disable Pin to full Tx turn-up. |
|
Transmitter turn-up time from warm start w TOF |
- |
4 |
s |
|
3.1.10 |
Transmitter laser disable time |
10 |
ms |
Tx is in full turn-up state. The maximum transmitter turn-off time is counted from assert Tx_disable pin |
|
3.1.11 |
Transmitter wavelength switching time |
- |
60 |
s |
Tx is in full turn-up state. Maximum switching time from one on-grid wavelength to any other on-grid wavelength, including modulator bias optimization time. |
|||
3.1.12 |
Transmitter turn-up time from cold start |
50 |
- |
90 |
s |
Module is in Low_Power mode. The maximum Tx turn-up time is counted from de-assert the Low_power pin and Tx_disable pin to full Tx turn-up. The long turn-up time happens when the module is soaked at -5C with power off. |
3.1.13 |
Transmitter OSNR – 100G QPSK w or w/o TOF |
40 |
dB/0.1nm |
OSNR at transmitter Output (in- band) |
|
Transmitter OSNR – 200G 16 QAM w or w/o TOF |
37 |
Transmitter OSNR – 200G 8 QAM w or w/o TOF |
34.5 |
3.1.14 |
Transmitter OSNR – 100G QPSK w/o TOF |
34 |
dB/0.1nm |
Signal to the maximum out-of- band ASE level. |
|
Transmitter OSNR – 200G 16 QAM w/o TOF |
31 |
Transmitter OSNR – 200G 8 QAM w/o TOF |
28.5 |
Transmitter OSNR – 100G QPSK w TOF |
45 |
Transmitter OSNR – 200G 16 QAM w TOF |
Transmitter OSNR – 200G 8 QAM w TOF |
3.1.15 |
Transmitter optical return loss |
27 |
- |
dB |
3.1.16 |
Transmitter Output power with TX disabled |
|
-40 |
|
dBm |
Max Output power when changing laser frequency. |
|
3.1.17 |
Transmitter polarization dependent power |
|
1.0 |
|
dB |
Power difference between X and Y polarization |
|
3.1.18 |
Laser linewidth |
300 |
KHz |
Full width at half maximum of power density spectrum of CW |
|
3.1.19 |
Laser Average relative intensity noise |
-140 |
-135 |
dB/Hz |
10MHz-10GHz over Pout Averaged |
|
3.1.20 |
I/Q timing skew |
2 |
ps |
3.1.21 |
X/Y timing skew |
5 |
ps |
3.1.22 |
Modulated spectral width at -20dB for QPSK |
|
40 |
|
GHz |