QSFP-100G-CWDM4 Nokia Compatible 100G QSFP28 2KM Transceiver
NOKIA (Alcatel) compatible QSFP-100G-CWDM4 - Key Features
- Compatibility: NOKIA (Alcatel)
- Media Type: Single-Mode Fiber (SMF)
- Connector: Double LC/UPC
- Fiber Count: Duplex
- Maximum Distance: 2 km
- Average Link Budget: 3.5 dB
- Tx Wavelength: CWDM 4 Ch
- Supported Data Rate: 103.125 Gbps
- DDM/DOM: Supported
- Forward Error Correction (FEC): Host FEC Supported
- Temperature Range: Standard 0°-70°C
NOKIA (Alcatel) QSFP-100G-CWDM4 Price
In Stock - Ships Next Business DayNOKIA (Alcatel) compatible QSFP-100G-CWDM4 Specifications
Form Factor | QSFP28 |
Modulation | NRZ (Non-Return to Zero) |
Media Type | Single-Mode Fiber (SMF) |
Connector | Double LC/UPC |
Fiber Count | Duplex |
Maximum Distance | 2 km |
Average Link Budget | 3.5 dB |
TX Wavelength | 4-channel CWDM (1271/1291/1311/1331 nm) |
RX Wavelength | 4-channel CWDM (1271/1291/1311/1331 nm) |
Supported Data Rate | 103.125 Gbps |
Supported Ethernet Applications | 100G Ethernet (103.125 Gbps) |
Supported Fiber Channel Applications | 4x 32G Fiber Channel (112.2Gbps) |
Optical Transport Network (OTN) Applications | OTU4 (112 Gbps) |
DDM/DOM | Supported |
Forward Error Correction (FEC) | Host FEC Supported |
Transmitter Type | DML Laser |
Tx Wave Bandwidth | 4 CWDM Lanes (73 nm 1264.50 – 1337.50nm) (L0 Tx center 1271nm, L1 Tx center 1291nm, L2 Tx center 1311nm, L3 Tx center 1331nm) |
Average Launch Power (Min) Each Lane | -6.5 dBm |
Average Launch Power (Max) Each Lane | 2.5 dBm |
Extinction Ratio (Min) | 4 dB |
Receiver Type | PIN photodiode |
RX Wave Bandwidth | 4 CWDM Lanes (73 nm 1264.50 – 1337.50nm) (L0 Tx center 1271nm, L1 Tx center 1291nm, L2 Tx center 1311nm, L3 Tx center 1331nm) |
Average Receiver Sensitivity (Min) Each Lane | -10 dBm |
Average Receiver Sensitivity (Max) Each Lane | 0 dBm |
Receiver Overload | 3.3 dBm |
Temperature Range | Standard 0°-70°C |
Storage Temperature | -40° to 85°C |
Relative Humidity | 5 to 85% |
Power Consumption (Max) | 3.5 W |
Power | +3.3V single power supply |
Compliance | CE, RoHS, Class 1 FDA and IEC60825-1 Laser Safety Compliant, 100G CLR4 Alliance, 100G CWDM4 MSA, QSFP28 MSA, SFF-8636 (Management Interface for 4-lane modules), SFF-8665 |
NOKIA (Alcatel) compatible QSFP-100G-CWDM4 Datasheet
v2Complete technical specifications and product details
NOKIA (Alcatel) compatible QSFP-100G-CWDM4 Description
EdgeOptic's QSFP-100G-CWDM4 compatible is a Nokia (Alcatel-Lucent)-coded CWDM4 QSFP28 version of the EdgeOptic 100G-QSFP28-2.1 multi-vendor 100G CWDM4 2km transceiver. Nokia carries the OEM optic under the ordering code QSFP-100G-CWDM4 and the internal catalog number 3HE10552AA, supplied for QSFP28 ports across the 7750 SR service router family and aligned SR OS platforms.
The module runs four CWDM channels on the 1271, 1291, 1311, and 1331 nm wavelength plan defined by the CWDM4 MSA and ITU-T G.694.2, with NRZ modulation across each lane. Output uses a duplex LC/UPC connector and supports 2 km links over G.652 single-mode fibre. The optical front end uses DML transmitters and PIN receivers, with host-side FEC supported per the CWDM4 MSA Technical Specification. Operating temperature spans the commercial 0 to 70 °C range.
QSFP-100G-CWDM4 is Nokia's 100 Gigabit Ethernet ordering code, coded for 100GE client ports on the 7750 SR. Nokia 7750 SR can also carry OTU4 client framing on QSFP28 ports, but that path uses a separate dedicated Nokia transceiver, QSFP28-OTU4-CWDM4, with its own EEPROM coding rather than the 100GE QSFP-100G-CWDM4. The EdgeOptic 100G-QSFP28-2.1 platform additionally supports OTU4 (112 Gbps) and 4x32G Fibre Channel (112.2 Gbps) variants for OTN transport and SAN deployments, shipping as separate part numbers. For the OTU4 or Fibre Channel coding contact our sales team.
Nokia lists QSFP-100G-CWDM4 across the 7750 SR service router family and aligned SR OS chassis carrying QSFP28 ports. Engineers running 100G uplinks between SR-class chassis or peering Nokia service-router edges to upstream 100G aggregation cover the 2 km span over a single duplex fibre pair with this optic on both ends. Verify the supported slot and line card position against the Nokia transceiver compatibility documentation for the platform image and chassis revision in service.
EdgeOptic codes the QSFP-100G-CWDM4 compatible with Nokia-recognized EEPROM, so SR OS accepts the module on the interface under standard transceiver registration. The EEPROM identifies the optic against the QSFP-100G-CWDM4 ordering code and the 3HE10552AA catalog number, so SR OS show commands, chassis inventory, and SNMP transceiver tables report the module consistently with Nokia OEM stock.
Digital diagnostics (DDM/DOM) report TX power, RX power, bias current, supply voltage, and temperature per SFF-8636. The module is QSFP28 MSA SFF-8665 compliant and aligned with the CWDM4 MSA Technical Specification.
Backed by 15+ years of EdgeOptic compatibility engineering across vendor optical platforms. Ships next business day from EU stock with a lifetime warranty.
Frequently Asked Questions
Is there a dedicated Nokia transceiver for OTU4 on the 7750 SR, separate from the QSFP-100G-CWDM4?
Yes. Nokia ships a separate OTU4 CWDM4 QSFP28 ordering code, QSFP28-OTU4-CWDM4, for OTU4 client framing on the 7750 SR. The QSFP-100G-CWDM4 on this page is the 100 Gigabit Ethernet ordering code and is coded for 100GE client use, not OTU4. The two parts share the CWDM4 wavelength plan and 2 km reach but use distinct EEPROM coding. For the OTU4 variant on the EdgeOptic 100G-QSFP28-2.1 platform, contact our sales team.
Does the Nokia QSFP-100G-CWDM4 interoperate with the Cisco QSFP-100G-CWDM4-S on the same link?
Both modules implement the CWDM4 MSA wavelength plan on 1271, 1291, 1311, and 1331 nm with 2 km reach over single-mode fibre, so a Nokia QSFP-100G-CWDM4 at one end and a Cisco QSFP-100G-CWDM4-S at the other can carry the same 100GE span when each host is configured for 100GE on the QSFP28 cage. The two SKUs use different EEPROM coding for their respective platforms, which affects chassis recognition rather than the optical interface itself. Match transmit and receive optics by wavelength plan and reach class when commissioning either side of the link.