JCO400 Coherent Optical Transceivers Datasheet
Download DatasheetProduct Overview
Co-developed by Juniper and an industry-leading optical partner, JCO400 Coherent Optical Transceivers are essential building blocks that enable operators to realize a transformative strategy for 400GbE and beyond in metro, edge, core, and cloud network modernization. Providing best-in-class power efficiency in a footprint-optimized form-factor and innovative software-integration for automation functions, JCO400 coherent DWDM optics eliminate the key operational pain-points of deploying a converged packet-optical solution. Additionally, the JCO400 series optics are compliant to key industry standards and specifications to ensure diversification of supply and seamless interoperability in multivendor environments.
Product Description
Juniper Networks® JCO400-QDD-ZR and JCO400-QDD-ZR-M Coherent Optical Transceivers are supported by 400GbE-ready router and switch platforms within the Juniper Networks ACX Series Routers, MX Series Routers, PTX Series Routers, and QFX Series Switches. Ideal for access, edge, core, data center, and cloud use cases, JCO400 coherent DWDM optics deliver industry-leading performance and operational simplicity in a footprint-optimized form factor while enabling service providers and cloud providers to realize the TCO savings of a converged IP-Optical architecture.
JCO400-QDD-ZR conforms to the Optical Internetworking Forum (OIF) 400ZR Implementation Agreement (IA), which was defined to address the growing demand from cloud providers for massive interconnect bandwidth between distributed data centers. Making use of Concatenated Forward Error Correction (CFEC), 400ZR transceivers can facilitate extended reach interconnects at scale with optimized power consumption.
JCO400-QDD-ZR-M conforms to the OpenZR+ Multi-Source Agreement (MSA), which extends upon the OIF 400ZR specification to address multiple performance-demanding applications required by CSPs for metro, regional, and core use cases. OpenZR+ transceivers employ Open Forward Error Correction (OFEC), which improves the net coding gain and maximizes the achievable performance at longer distances. As defined by OpenZR+ MSA, JCO400-QDD-ZR-M supports flexible configurations in various channelization modes to enable multiple use cases to be serviced out of a common module.
Features and Benefits
Industry-Leading Performance
The JCO400-ZR/ZR+ optics solutions provide best-in-class power efficiency in a footprint-optimized form factor that suits a range of metro, edge, and core network use cases, including data center interconnect, mobile backhaul, next gen packet core networks, and more. JCO400-ZR/ZR+ modules support flexible configurations and channelized modes as specified by the OIF 400ZR IA and OpenZR+ MSA.
Operational Simplicity
JCO400-ZR/ZR+ optic modules help network operators alleviate operational pain points in managing the health of the end-to-end IP/optical solution. For example, the JCO400-ZR/ZR+ optics have the ability to separate the operation of the host and line side interfaces. Separating the operation of the two interfaces enables simplified testing and provisioning of the optical elements of the network, independent of the IP-Ethernet layer. Additionally, Juniper supports the use of standardized OpenConfig models for vendor-agnostic management of 400GbE Coherent DWDM Optics, providing ease of integration, deployment, and network maintenance.
Open and Interoperable
As an active contributing member of the OIF, OpenZR+ MSA, and QSFP-DD MSA among other key optical-standards bodies, Juniper is at the forefront of building open and interoperable networking ecosystems. Juniper leverages a standards-compliant, multivendor ecosystem to seamlessly diversify the component supply chain ensuring stable supply and improved lead times.
Additional Resources
For compatibility questions, check out the Hardware Compatibility Tool. This online resourcecontains a regularly updated database of Juniper’s pluggable transceivers, direct attach cables (DACs), and active optical cables (AOCs), along with information regarding compatibility with Juniper platforms and interface modules.
Specifications
JCO400-QDD-ZR Specification
| Parameters | JCO400-QDD-ZR |
| MSA compliance (SFF, e.g., SFF-8665) | OIF 400ZR Implementation Agreement (IA) |
| Speed/Mode | 400 Gbps Ethernet, 4x100 Gbps Ethernet |
| Digital diagnostic monitoring (DDM) | Module temperature (Celsius) Pre - FEC bit error rate (BER) Uncorrected Frame Error Rate (FER) Signal-to-noise ratio (SNR) Tx power (dBm) Rx total power (dBm) Carrier frequency offset (MHz) Chromatic dispersion (ps/nm) Differential group delay (ps) Polarization dependent loss (PDL) (dB) Optical signal-to-noise ratio (OSNR) (dB) |
| Signaling rate, each lane | 478.750 Gbps 59.84375 GBd +/- 20 ppm |
| Modulation format | DP-16 quadrature amplitude modulation (QAM) |
| Forward error correction (FEC) types | Concatenated FEC (CFEC) |
| Channel plan wavelength range | 1567.13 nm through 1528.77 nm |
| Channel plan frequency range | 191.3 THz through 196.1 THz |
| Channel spacing | 75 GHz or 100 GHz |
| Channel tunability | 6.25 GHz grid |
| Optical transmitter output power (on) | Min: –10 dBm, Tx output power accuracy: +/–1.5 dB |
| Optical transmitter output power (off) | -20 dBm |
| Optical transmitter wavelength accuracy | +/- 1.8 GHz |
| Optical transmitter channel tuning time | 60 sec |
| Optical receiver input power range | –12 through 0 dBm |
| Optical receiver damage input power threshold | 15 dBm |
| Optical receiver input sensitivity (unamplified or dark-fiber applications) | -20 dBm |
| Optical receiver minimum OSNR (back-to-back), typical | < 26 dB |
| Optical receiver minimum OSNR (back-to-back), worst-case, EOL | 26 dB |
| Optical receiver chromatic dispersion tolerance | +/– 2.4 ns/nm |
| Optical receiver polarization-mode dispersion PMD tolerance | 10 ps (@ 0.7 dB OSNR penalty) 7 ps (@ 0.5 dB Rx sensitivity penalty) |
| Optical receiver polarization tracking | 50 krad/s |
| Receiver PDL tolerance (dB) | 3.5 dB (@ 1.8 dB OSNR penalty) 1.5 dB (@ 0.4 dB Rx sensitivity penalty) |
| Cable type | Single-mode fiber-optic (SMF) |
| Core size/cladding | 9/125 µm |
| Distance | 120 km |
| Notes for distance | <120 km (DWDM amplified, noise limited links), < 40 km (single wavelength unamplified, loss limited links) |
| Maximum power consumption (W) | 19 W |
| Operating temperature (range) | 0° C to 70° C |
| Storage temperature | –40° C to 85° C |
| Typical weight and dimensions | Weight: 85 g +/–5 g; Dimensions: QSFP-DD MSA compliant |
JCO400-QDD-ZR-M Specification
| Parameters | JCO400-QDD-ZR-M | ||||
| Use-Case | DCI | Metro | Regional | Long Haul | Ultra-Long Haul |
| MSA compliance (SFF, e.g., SFF-8665) | OIF 400ZR Implementation Agreement (IA) | OpenZR+ MSA | OpenZR+ MSA | OpenZR+ MSA | OpenZR+ MSA |
| Speed/Mode | 400 Gbps Ethernet, 4x100 Gbps Ethernet | 400 Gbps Ethernet, 4x100 Gbps Ethernet | 3x100Gbps Ethernet | 2x100Gbps Ethernet | 1x100Gbps Ethernet |
| Digital diagnostic monitoring (DDM) | Module temperature (Celsius) Pre - FEC bit error rate (BER) Uncorrected Frame Error Rate (FER) Signal-to-noise ratio (SNR) Tx power (dBm) Rx total power (dBm) Carrier frequency offset (MHz) Chromatic dispersion (ps/nm) Differential group delay (ps) Polarization dependent loss (PDL) (dB) Optical signal-to-noise ratio (OSNR) (dB) | ||||
| Signaling rate, each lane | 478.750Gbps, (59.84375GBd), +/-20ppm | 481.1Gbps, (60.14GBd), +/-20ppm | 360.8Gbps, (60.14GBd), +/-20ppm | 240.6Gbps, (60.14GBd), +/-20ppm | 120.3Gbps, (30.07GBd), +/-20ppm |
| Modulation format | DP-16QAM | DP-16QAM | DP-8QAM | DP-QPSK | DP-QPSK |
| Forward error correction (FEC) types | Concatenated FEC (CFEC) | OFEC | OFEC | OFEC | OFEC |
| Channel plan wavelength range | 1567.13 nm through 1528.77 nm | ||||
| Channel plan frequency range | 1191.3 THz through 196.1 THz | ||||
| Channel spacing | 1>75 GHz or greater | 1>75 GHz or greater | 1>75 GHz or greater | 1>75 GHz or greater | 50GHz or greater |
| Channel tunability | 6.25 GHz grid | ||||
| Optical transmitter output power (on) | Min: –10 dBm, Tx output power accuracy: +/–1.5 dB | Min: –10 dBm, Tx output power accuracy: +/–1.5 dB | Min: –10 dBm, Tx output power accuracy: +/–1.5 dB | Min. –9dBm, Tx output power accuracy: +/–1.5dB | Min. –8dBm, Tx output power accuracy: +/–1.5dB |
| Optical transmitter output power (off) | Max -30dBm | ||||
| Optical transmitter wavelength accuracy | +/- 1.5 GHz | ||||
| Optical transmitter channel tuning time | 60 sec | ||||
| Optical receiver input power range | –12 through 0 dBm | –12 through 0 dBm | -15 through 0dBm | -18 through 0dBm | -18 through 0dBm |
| Optical receiver damage input power threshold | 15 dBm | ||||
| Optical receiver input sensitivity (unamplified or dark-fiber applications) | –21dBm | -23dBm | -26dBm | -31dBm | -34dBm |
| Optical receiver minimum OSNR (back-to-back), typical | 25.5dB | 23.5dB | 20.5dB | 15.5dB | 12dB |
| Optical receiver minimum OSNR (back-to-back), worst-case, EOL | 26dB | 24dB | 21dB | 16dB | 12.5dB |
| Optical receiver chromatic dispersion tolerance | +/–2.4ns/nm | +/–20ns/nm | +/–40ns/nm | +/–50ns/nm | +/–100ns/nm |
| Optical receiver polarization-mode dispersion PMD tolerance | 10ps (@ 0.5dB OSNR penalty) | 20ps (@ 0.5dB OSNR penalty) | 25ps (@ 0.5dB OSNR penalty) | 25ps (@ 0.5dB OSNR penalty) | 30ps (@ 0.5dB OSNR penalty) |
| Optical receiver polarization tracking | 50 krad/s | 50 krad/s | 200 krad/s | 300 krad/s | 300 krad/s |
| Receiver PDL tolerance (dB) | 3.5 dB (@ 1.3 dB OSNR penalty) | ||||
| Cable type | Single-mode fiber-optic (SMF) | ||||
| Core size/cladding | 9/125 µm | ||||
| Distance | 40km (unamplified) 120km (amplified) | 40km (unamplified) 500km (amplified) | 50km (unamplified) 900km (amplified) | 70km (unamplified) 2000km (amplified) | 80km (unamplified) >>2000km (amplified) |
| Maximum power consumption (W) | 19W | 22W | 23W | 22W | 18.5W |
| Typical Power consumption (W) | 17W | 20W | 21.5W | 20W | 17W |
| Operating temperature (range) | 0° C to 70° C | ||||
| Storage temperature | –40° C to 85° C | ||||
| Typical weight and dimensions | Weight: 85 g +/–5 g; Dimensions: QSFP-DD MSA compliant | ||||
Ordering Information
Juniper coherent DWDM optics are orderable in bundled SKUs as shown in the below table. Please contact your Juniper sales representative for product availability.
| Optics Type | Bundle SKUs | Bundle Contents |
| OIF 400ZR | JCO-4C-ZR-P-B J | 1 x JCO400-QDD-ZR (Juniper Co-Developed) 1 x S-JCO-400-A1-ZR-P (400ZR License) |
| QDD-4C-ZR-P-B | 1 x QDD-400G-ZR (Generic Qualified) 1 x S-JCO-400-A1-ZR-P (400ZR License) | |
| 400G OpenZR+ | JCO-4C-ZRM-P-B | 1 x JCO400-QDD-ZR-M (Juniper Co-Developed) 1 x S-JCO-400-A1-ZRM-P (OpenZR+ License) |
| QDD-4C-ZRM-P-B | 1 x QDD-400G-ZR-M (Generic Qualified) 1 x S-JCO-400-A1-ZRM-P (OpenZR+ License) | |
| 400G OpenZR+ High Power | QDD-4C-ZRM-HP-P-B | 1 x QDD-400G-ZR-M-HP (Generic Qualified) 1 x S-JCO-400-A1-ZRM-P (OpenZR+ License) |
Statement of Product Direction
This datasheet contains information related to Juniper’s development and plans for future products, features or enhancements (“SOPD”). SOPD information is subject to change at any time, without notice. Except as may be set forth in definitive agreements for a potential transaction, Juniper provides no assurances, and assumes no responsibility, that future products, features or enhancements will be introduced. Except as may be set forth in definitive agreements for a potential transaction, recipients of this datasheet acknowledge that: a) purchasing decisions are not being made based upon reliance of timeframes or specifics outlined in this SOPD, and b) purchasing decisions would not be affected if Juniper delays or never introduces the future products, features or enhancements.
About Juniper Networks
At Juniper Networks, we are dedicated to dramatically simplifying network operations and driving superior experiences for end users. Our solutions deliver industry-leading insight, automation, security and AI to drive real business results. We believe that powering connections will bring us closer together while empowering us all to solve the world’s greatest challenges of well-being, sustainability and equality.
1000751 - 003 - EN JUNE 2023