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PRODUCTS
25G/50G/100G
100Gb/s Single Lambda
- Compliant with SFF-8636
- Compliant with QSFP28 MSA
- Single Lambda 100G QSFP28 Single-Mode
- Cooled 1310 nm EML Transmitter
- DWDM: 200 GHz Grid, O Band defined in the CW-WDM MSA
- 2-Wire Interface for Integrated Digital Diagnostic Monitoring
- Maximum Power Dissipation < 3.5W for QPS-5100PWG, QPS-5102PWG, QPS-5110PWG, QPS-5120PWG, QPS-5130PWG
- Maximum Power Dissipation < 4W for QPS-5140PWG
- Maximum Power Dissipation < 4.5W for QPS-5100PAWG, QPS-5102PAWG, QPS-5110PAWG, QPS-5120PAWG, QPS-5130PAWG
- Maximum Power Dissipation < 5W for QPS-5130PW-OXXG, QPS-5140PW-OXXG
- Single +3.3V Power Supply
- RoHS Compliant (lead-free)
Single Lambda 100G QSFP28 SM
Product Number |
Bit Rate |
100G |
Reach |
Wavelength |
Package |
Temperature
Range |
Data Sheet |
QPS-5100PWG |
100 Gb/s |
DR1 |
500 m |
1310 nm |
QSFP+ with DMI |
0 ~ 70°C |
|
QPS-5100PAWG |
100 Gb/s |
DR1 |
500 m |
1310 nm |
QSFP+ with DMI |
-40 ~ 85°C |
|
QPS-5102PWG |
100 Gb/s |
FR1 |
2 km |
1310 nm |
QSFP+ with DMI |
0 ~ 70°C |
|
QPS-5102PAWG |
100 Gb/s |
FR1 |
2 km |
1310 nm |
QSFP+ with DMI |
-40 ~ 85°C |
|
QPS-5110PWG |
100 Gb/s |
LR1 |
10 km |
1310 nm |
QSFP+ with DMI |
0 ~ 70°C |
|
QPS-5110PAWG |
100 Gb/s |
LR1 |
10 km |
1310 nm |
QSFP+ with DMI |
-40 ~ 85°C |
|
QPS-5120PWG |
100 Gb/s |
LR1 |
20 km |
1310 nm |
QSFP+ with DMI |
0 ~ 70°C |
|
QPS-5120PAWG |
100 Gb/s |
LR1 |
20 km |
1310 nm |
QSFP+ with DMI |
-40 ~ 85°C |
|
QPS-5130PWG |
100 Gb/s |
ER1 |
30 km |
1310 nm |
QSFP+ with DMI |
0 ~ 70°C |
|
QPS-5130PAWG |
100 Gb/s |
ER1 |
30 km |
1310 nm |
QSFP+ with DMI |
-40 ~ 85°C |
|
QPS-5140PWG |
100 Gb/s |
ER1 |
40 km |
1310 nm |
QSFP+ with DMI |
0 ~ 70°C |
|
Single Lambda 100G O-Band DWDM QSFP28 SM
Product Number |
Bit Rate |
100G |
Reach |
Wavelength |
Package |
Temperature
Range |
Data Sheet |
QPS-5130PW-OXXG |
100 Gb/s |
ER1 |
30 km |
O-Band DWDM* |
QSFP+ with DMI |
0 ~ 70°C |
|
QPS-5140PW-OXXG |
100 Gb/s |
ER1 |
40 km |
O-Band DWDM* |
QSFP+ with DMI |
0 ~ 70°C |
|
* 200 GHz Grid, O-Band defined in the CW-WDM MSA