Maretron Mid Bulk Cables

Maretron Mid Bulk Cables


The Maretron Mid Bulk Cables are primarily used as drop cable but can also serve at the trunk line depending on the network power requirements.


  • Bulk cable with field-attachable connectors allows for maximum flexibility
  • Meets and exceeds NMEA 2000 specifications for the highest reliability
  • Optimized for voltage drop sensitive networks
Free Shipping on this product
List Price
Your Price
Usually ships in 1-2 weeks

Shipping Information
Return Policy
Why Buy From Fondriest?
Notable Specifications:


  • Outer Jacket Mat/Color: PVC/Gray - DG1 PVC/Blue - DB1
  • Insulation Material: PE (data wires), PVC (power wires)
  • Construction: 2x16 (1.29mm) AWG, 2x20 (0.81mm) AWG, 20 (0.81mm) AWG Drain Wire 
  • Shielding (3 levels): Foil (overall), Foil (power pair), Foil (data pair)

    Power Pair
  • Wire: 2x16 (1.29mm) AWG
  • Resistance/Conductor: 4.1 Ohms/1000 ft max
  • Max Amperage: 14 Amps
  • Color Code: Red/Black

    Data Pair 
  • Wire: 2x20 (0.81mm) (AWG)
  • Characteristic Impedance: 120 Ohms +/- 10%
  • Capacitance: 10.75 pF/ft
  • Color Code: White/Blue

  • UL: PLTC 75 deg C Sunlight Resistant E90625, AWM 80 deg C 300V
  • CSA: CMX-OUTDOOR-CMG LL54185 75 deg C, AWM I/II A/B 80 deg C 300V FT4 
  • NMEA: NMEA 2000 Approved
  • IEC: IEC-61162-3
  • Image Part # Product Description Price Stock Order
    Maretron Mid Bulk Cables DG1-100C Mid bulk cable, gray, 100 meters
    Usually ships in 1-2 weeks
    Maretron Mid Bulk Cables DB1-100C Mid bulk cable, blue, 100 meters
    In Stock
    Additional Product Information:

    Maretron Mid Bulk Cables Reviews

    | Write a Review

    Be the first to write a review

    Related Products

    In The News

    Figuring Out How Microplastics Move From Mussels To Fish

    Microscopic beads and fabrics float in our waterways, get ingested by fish and other creatures, and impact the environment in lots of negative ways. But despite that knowledge, there is little we know about how these microplastics first enter aquatic food webs. In a pilot study, researchers at the University of Notre Dame are studying the dynamics of just how microscopic plastics are first transferred from filter feeders to fish. Their investigation is using asian clams and sculpins to pinpoint the interactions underway. The researchers originally wanted to use round gobies, a prolific invasive fish in Lake Erie.

    Read More

    Imaging Foraminifera Shell Formation Clarifies Sediment Samples

    In sediment samples taken throughout the world’s oceans, researchers key on shell fragments from single-celled organisms to learn more about the history of an area’s chemistry. But surprisingly little is known about how these organisms form their shells in the first place. In a bid to alleviate some uncertainty, scientists at the University of Washington have imaged some of the actions that take place. As a starting point, the researchers have zeroed in specifically on the time period during which single-celled organisms first start to form their shells. The researchers caught juvenile foraminifera by diving in deep water off Southern California. They then raised them in the lab, using tiny pipettes to feed them brine shrimp during their weeklong lives.

    Read More

    ROV Yogi Gets Underway In Yellowstone Lake

    Earlier this year, we covered a work in progress to build a new remotely operated vehicle (ROV) for Yellowstone Lake . It was just an idea back then, but the exploratory craft has since become a reality thanks to some determined researchers and a Kickstarter campaign that reached a goal of $100,000 in funding. Full cost for building the vessel was around $500,000, but crowdfunding a portion of it allowed officials at the Global Foundation for Ocean Exploration (GFOE), a nonprofit engineering group, to spur public interest. In a similar vein, they named the completed ROV “Yogi” in honor of the famous fictional comic book character devised by Hanna-Barbera who gets into trouble at Yellowstone National Park.

    Read More