Product DescriptionThe MMC-16 to MTP-16 Fiber Optic Jumper is engineered for next-generation 400G/800G parallel transmission systems.
Featuring the Very Small Form Factor (VSFF) MMC connector on one end and a US Conec MTP-16 Elite connector on the other, this jumper delivers 3× higher density than traditional MPO cabling—making it ideal for hyperscale, cloud, and AI data centers where every RU counts.
Designed with bend-insensitive fiber, DirectConec push-pull technology, and plenum-rated OFNP construction, this jumper ensures fast deployment, stable optical performance, and long-term reliability in both multimode (OM4) and single-mode (OS2) applications.
Product Applications
- 400G/800G parallel transmission using QSFP-DD, OSFP, DR8/DR8+ modules
- High-density structured cabling in hyperscale & enterprise data centers
- Spine–leaf topology and cross-connect/inter-rack connections
- MPO/MTP → VSFF migration, enabling future-proof infrastructure
- Short-range optical links within cassettes, panels, and cabinets
- Fiber testing & R&D labs requiring precision, repeatable measurements
Core Features
1. Ultra-Compact VSFF MMC Interface (3× Density Gain)
The MMC VSFF connector dramatically increases port density, allowing more fibers per rack unit and optimizing cabinet space.
2. DirectConec Push-Pull Boot for Tool-Free Handling
One-hand insertion/extraction even in crowded panels. Ideal for top-of-rack, rear-access, and high-density enclosures.
3. MTP-16 Elite Ferrule (≤0.35 dB IL)
High-precision TMT Elite ferrules ensure low insertion loss, excellent APC return loss, and superior long-term stability.
4. OM4 & OS2 Fiber Options
OM4 (Magenta) — high-speed short-reach 400G/800G
OS2 (Yellow) — long-distance single-mode transmission
5. Bend-Insensitive Fiber Construction
Minimum bend radius:
7.5 mm (OM4)
10 mm (OS2)
Ideal for confined routing paths in high-density racks.
6. Strict Fire-Safety Compliance (OFNP Rated)
Suitable for data center plenum spaces and HVAC air-handling environments.
7. Plug-and-Play, Factory-Terminated, Fully Tested
Each jumper includes:
✔ 100% IL/RL test
✔ Polarity check
✔ Serial number traceability
✔ Optional OEM labeling
Feature Details (Expanded)
1- VSFF MMC High-Density Connector
Triples your available port count vs MPO-12/MPO-16, ideal for next-generation AI clusters and 800G fabrics.
2- Push-Pull DirectConec Technology
Improves accessibility in tight spaces with reliable latching and stress-free removal.
3- TMT Elite APC Ferrule
Ensures:
- Insertion loss: ≤ 0.35 dB
- Return loss: ≥ 40–45 dB (OM4) / ≥ 60 dB (OS2)
- Excellent repeatability for high-frequency plug cycles
4- Dual Fiber Compatibility
OM4 50/125 μm multimode
OS2 9/125 μm single-mode (G.657.A1)
5- Bend-Insensitive Fiber Design
Reduces micro-bend loss in tight routing paths.
6- Plenum-Rated Jacket (OFNP)
Suitable for North American data center building codes.
Product Specification
| Parameter | Description |
|---|---|
| Connector A | US Conec MMC Female (Pinless) |
| Connector B | US Conec MTP-16 Elite Female (Pinless) |
| Fiber Type | OM4 / OS2 |
| Fiber Count | 16 Fibers |
| Glass Fiber | Bend-Insensitive (OM4) / G.657.A1 (OS2) |
| Polarity | Jumper Polarity |
| Cable Diameter | 2.5 mm |
| Jacket Rating | OFNP (Plenum) |
| Min Bend Radius | 7.5 mm (OM4) / 10 mm (OS2) |
| Insertion Loss | ≤ 0.35 dB |
| Return Loss | ≥ 40–45 dB (OM4) / ≥ 60 dB (OS2) |
| Attenuation @850 nm | ≤ 3.5 dB/km |
| Attenuation @1300 nm | ≤ 1.5 dB/km |
| Attenuation @1310 nm | ≤ 0.4 dB/km |
| Attenuation @1550 nm | ≤ 0.3 dB/km |
| Tensile Strength | 30 N (long-term) / 100 N (short-term) |
| Operating Temp | −10°C ~ +60°C |
| Storage Temp | −10°C ~ +70°C |
| Durability | ≥ 500 mating cycles |
Where It’s Used
1- 400G/800G Data Center Connectivity
Optimized for QSFP-DD, OSFP, and DR8/DR8+ parallel-optics applications.
2- High-Density Patch Panels & Modular Cassettes
Ideal for tight enclosures with space-restricted cable routing.
3- Enterprise Structured Cabling Systems
Supports modernization and bandwidth scalability.
4- Testing & Lab Environments
Provides stable, high-precision optical paths.
5- Telecom Networks
Reliable long-term performance for service provider networks.
