Advanced Cabling Solutions Contents

ADVANCED CABLING SOLUTIONS CONTENTS

Wireless 6 Cell Tower Cable Core Components 8 Power+™ Composite Indoor / Outdoor Cable 11 Direct Attach Systems (DAS) / Small Cell Cable 13 Copper & Fiber Hybrid Tower Cables 15

Transportation 16 Flat Flexible Cable (FFC) For Automotive 17 Rolling Stock Cable 18 CAN Bus Cable 21 Lightweight Aerospace Communication Cable 22 Federal Aviation Administration (FAA) Cable 23 Shipboard Cable 24

Industrial 25 Industrial Ethernet / Industrial Communication Cable 26 Flat Cable Solutions 33 Mini & Micro-coaxial Cable 43 SCSI, VGA & SVAGA Cable 46 Robotic & Automation Cable 53 Other Industrial Standards 60

Medical 63

Oil / Gas / Mining / Energy 64 Oil & Gas Cables 65 Mining Cables 66

Products for Additional Applications 67 Defense / Security 67 Building Infrastructure 68 Data Center 69

Appendix 70

1.800.772.0116 2 COMPANY PROFILE Hitachi Cable America (HCA), part of Hitachi Metals America (HMA), has three divisions: The Performance Cable Systems and Materials division, the High Performance Medical Solutions division, and the Automotive division.

In 1986, HCA-NH was established in Manchester, New Hampshire as the North American manufacturing location for copper and fiber optic communication cables. Over the years our product offering evolved from a handful of highly specialized cables to a wide range of cable products for an ever-growing list of applications. Our 300,000 square-foot (28,000 square meters) facility in Manchester now manufactures over 4,500 different cables, with additional products and solutions from our facilities from around the globe.

HCA Manchester supports global customer needs for high performance copper cable, fiber optic communication cable, flat and round electronics cable and custom cable. These products serve a wide range of applications and cover eight unique vertical markets.

• Wireless • Transportation • Industrial / Robotics • Medical • Oil / Gas / Mining / Energy • Defense / Security • Building Infrastructure • Data Center

Our expertise in making specialty materials and cable goes back well over 100 years. Hitachi Metals Group Ltd. (HML), a division of Hitachi Ltd., is known globally for engineering superior products that deliver industry leading performance using a wide variety of high performance materials. Unique materials enables HML to produce extremely sophisticated high-volume advanced materials and components for electric vehicles, engines, automobiles, transportation equipment, electronic components and industrial infrastructures centered around melting and casting technologies. Specialty alloys, ultra-fine wire and cable production, magnetic materials and batteries are all critical elements to the performance of many OEM products worldwide.

Trademarks Referenced In This Catalog: Power+™ and NexZ0™ are trademarks of Hitachi Cable America Inc.

ChannelFLEX®, Nanocore®, and MudGuard-EX® are registered trademarks of Hitachi Cable America Inc. Polyenex®, SONOEASE® and HIFC® are registered trademarks of Hitachi Metals, LTD. in Japan.

Registered to REACHCompliant ISO 9001:2015

Catalog materials are for reference only and may be subject to change.

www.hca.hitachi-cable.com 3 Vertical Markets Wireless There are many cable solutions needed to provide a wireless infrastructure to our communities. We can design and build large gauge power wires, combined with fiber optic cables and data or control pairs, for the largest freestanding cell towers. Hitachi Cable America (HCA) provides 5G Small Cell / Distributed Antenna System (DAS) cabling solutions for outdoor venues to enable mobile vehicular communications, provide phone services at sporting events or deliver UL approved infrastructure designs for indoor spaces such as airports, malls, subway stations or skyscrapers. Transportation Automotive, Rail & Rolling Stock, and Aerospace passenger safety are a primary design concerns for all transportation environments. We are material science experts and can offer guidance on cable and shielding designs to exceed U.S. and international aerospace, rapid transit / rail, and automotive standards and expectations. Flammability designs to comply with NFPA130-2010 standards or FAA regulations are part of our everyday design portfolio.

Industrial / Robotics Industrial / Robotics environments require innovation in design expertise. Data speed, flexibility, miniaturization, torsional control, flex life, environmental and chemical resistance are just a few of the characteristics that HCA offers in our portfolio of solutions. Thermoplastics, thermoset materials and fluoropolymers can be combined to deliver environment-suitable interconnect cable, connectors and assemblies, especially for Industrial Ethernet solutions. Robot designers rely on our low particulate, high flex flat interconnection cable and assembly solutions. Medical Our Medical components include solutions for the surgical, catheter, endoscopy and ultrasound markets. Whether a cable, a multilumen catheter, a luer and hub PICC assembly, or ultrasound probe assembly, we can provide custom cables or tubes up to finished medical devices. With our global production and design centers, we can bring you from concept to high volume production wherever you are located.

Oil / Gas / Mining / Energy Cable applications for the energy sector require rugged designs, especially for fiber optic communications to survive wide temperature extremes. Mining in certain regions require regional approvals. From very large cables to small ultrasound cable assemblies for non-destructive pipeline testing, Hitachi can bring our years of design experience to your next project.

Defense / Security HCA has cables installed in a wide range of U.S. government and military facilities both domestically and abroad. With ruggedized, tactical cables for a variety of physical environments, shielded cables for secure data transmissions and composite cables for long distance CCTV applications, Hitachi’s U.S. made cables deliver the performance and reliability required by our government agencies. Whether establishing a fiber optic link from one corner of the base to another or delivering 10 Gigabit Ethernet to the desktop, Hitachi has the solution. Building Infrastructure High speed data communications in or between buildings requires both electrical design and material science expertise. Size, flammability and installation are all factors important to building designers. We offer low-smoke, non- halogen designs as well as UL approved Plenum / Riser rated designs in copper and fiber optics for a broad portfolio of building and Industrial communication applications.

Data Center Delivering many single mode fibers in a compact and rugged, easy to terminate cable for a mega data center is our normal mission. HCA offers HDMI, Ethernet, USB, DisplayPort cables to support applications within the data center and many mobile and robotics devices.

1.800.772.0116 4 Available Catalogs

HITACHI CABLE AMERICA INC. Premise & Fiber Optic Cable Catalog WORLDWIDE COVERAGE

PREMISE & FIBER OPTIC CABLE CATALOG Since 1986, Hitachi Cable America (HCA) has been developing technologically advanced copper and fiber optic communication cables. These cables including Category 5e, 6, 6A, 7, 7A, and 8, as well as fiber optic cables, are built to exceed the requirements found in the governing ANSI/TIA and ISO/IEC standards. LSZH / CMR PREMISE & dual rated cables and NanoCore® fiber optic cables for assembly houses are also available. See HCA’s Premise FIBER OPTIC CABLE CATALOG & Fiber Optic Cable catalog for more information.

900 Holt Avenue, Manchester, New Hampshire 03109 USA

Tel: +1-603-669-4347 Fax +1-603-669-9621 05/2019Rev www.hca.hitachi-cable.com

Rev 05/2019

High Performance Medical Solutions High Performance Medical Solutions Catalog • Discrete & Bundled Cable • Catheter Tubing • Medical Machining • Assembly & Fabrication Services HCA offers a wide range of high-performance medical products for highly demanding and critical-to-care applications within the medical field and other non-medical markets. Our products and services are the backbone for customers that require a technological advantage for their next generation devices.

Flexible Cable Flexible Cable Catalog HCA cable solutions for port crane, gantry, festoon and other large industrial applications feature robust constructions with a variety of rubber jackets. From smaller high flex designs with fiber optics to large diameter, ultra-ruggedized power cable constructions, we offer standard designs for common applications as well as a custom design service.

Furcation Tubing Catalog

Unique Industry Loose tube fiber optic cable designs, such as Hitachi’s NanoCore® line of products, utilize 250 micron fibers to help Tubing Solutions deliver cables of very small diameters. A 144-strand NanoCore® cable is only 9.9mm in diameter. In these cables, the ends of the fiber optic strands, when terminated, are often inserted into reinforced tubes known as Furcation tubes. Furcation tubes help prevent damage to the fiber optic stands during handling and installation. HCA offers reinforced furcation tubes in various designs to meet the specific needs of its customers.

Cable Technology in Healthcare Today’s medical facilities are rich in technology. With an advanced communication infrastructure that directly relates to the patients care. HCA provides unique high performance cables for sophisticated communication applications.

www.hca.hitachi-cable.com 5 WIRELESS Have you ever been frustrated by a drop in cell phone signal as soon as you enter a building?

Have you tried to go online while at a sporting event only to watch your phone struggle to find and maintain a viable signal? Where building structures, environmental conditions or large numbers of users pose a challenge to cellular service or local wireless networks, a Distributed Antenna System (DAS) can be deployed. A DAS is an onsite customizable antenna system that enables the extension of a multitude of technologies, including 4G LTE and emerging 5G high-speed data, to all the desired users. Stadiums, campuses, large manufacturing facilities or high-rise buildings can benefit from a DAS. Such a system allows the owner to meet user expectations by populating areas with sufficient antennas to accommodate the number of anticipated users. And, DAS is just one of a growing list of wireless applications.

To support this growth Hitachi Cable America (HCA) manufactures a wide selection of cables that meet the demands of wireless technologies, such as DAS, Fiber to the Antenna (FTTA), and Power Over Ethernet (PoE). HCA manufactures fiber optic cables, coaxial cables, shielded and unshielded twisted pair cables, power and hybrid cables. HCA has supplied ruggedized hybrid cables for some of the most demanding tall, vertical cell towers in the Americas, as well as sophisticated smaller solutions for rail, aviation terminals, stadiums and concert venues. HCA is well positioned to support your specific needs.

As the Internet of Things (IoT) evolves and more and more devices become wirelessly networked, the demands on those wireless networks increase along with the dependence on the cable infrastructure that supports those wireless signals. Infrastructure for wireless technologies are currently experiencing exponential growth due to the dramatic increase in the use of wireless devices. Additionally, many of the components of a wireless network also derive their power from their low-voltage link to the network. As a result, PoE is growing in step with the spread of wireless networks.

1.800.772.0116 6 Cable Components and Solutions for Wireless

You may ask yourself, “What does a Sushi Master have to do with cable?” The answer to that question is simple. At Hitachi Cable America (HCA), we know cable like a Sushi master knows his craft. It takes years of training and expertise to go from the wakiita position “near the cutting board” to the itamae position “Master Chef in front of the board”. To make fine Sushi, one must

understand the ingredients, the subtle interactions between the ingredients and preparation, WIRELESS and, of course, the final arrangement to achieve a superb dish. To achieve greatness, only the finest of components are selected. Not unlike cable, components and preparation are essential to success. HCA carefully selects and manufactures the finest of core materials for each and every product.

We offer components and cabling for a variety of wireless applications that satisfy even the most sophisticated of supply chain needs.

Cable Core Components Page Fiber Optic Cable 07 Direct Current (DC) Power Cable 08 Low Inductance Wire (LIW) Cable 08 Alarm Wire Cable 09 Cable Solutions Copper and Fiber Hybrid Jumpers 10 Power Jumpers 10 Power+™ Indoor / Outdoor Cable 11 Distributed Antenna System (DAS) and Small Cell Tower Cable 13 Large Scale Hybrid Solutions Copper and Fiber Hybrid Tower Cable 14

Fiber Optic Cable HCA offers a wide selection of fiber core components to accommodate your wireless solution needs. We manufacture custom hybrid bundles specifically to suit the end application. HCA has a long history of designing carefully engineered fiber optic cable for best-in-class performance, ease of use and flexibility. Our facility features state-of-the-art machinery continuously monitoring and maintaining optimum line speeds while simultaneously protecting the glass fiber. From simplex fiber constructions to large, armored multi-fiber, indoor fiber optic, indoor / outdoor fiber optic, indoor / outdoor fiber composite, outside plant fiber optic cables and furcation tubing solutions.

Common configurations include: • Singlemode (SM) and Multimode (MM) fiber • A1, A2 and B3 900 micron tight buffer and 250 micron colorized fibers • Aramid or fiberglass strength members • 12 to 144 fibers with 12 fibers per subunits • Loose tube gel filled and Non-gel (dry-block) super absorbent polymer impregnated aramid strength members available • Standard fiber inner jacketing options with water blocked aramid yarn are: PVC, PVDF, TPE and low smoke zero halogen (LSZH). Standard outer jackets are: PVC or low smoke zero halogen TPE and PVDF • Indoor / outdoor plenum and riser rated cable • UL approved hybrid multi-bundles

www.hca.hitachi-cable.com 7 Direct Current (DC) Power Components

With so many manufacturers of DC power wire, it is important to understand that not every DC power wire is the same. When it comes to cabling of complex bundles, Hitachi Cable America (HCA) has identified many factors that affect the manufacturing quality and final performance of a hybrid bundle. HCA has invested significantly in sophisticated equipment and technologies that have enabled us to provide not only quality components that go into hybrid bundles, but also complex bundles necessary for cellular applications. Our clear understanding of the component manufacturing process and the subtleties of incorporating those components into a hybrid cell bundle makes HCA not only an ideal choice as a cable partner but also as a discrete component supplier. We can provide our customers high quality components for whatever the need. Direct current power wires used in cell tower constructions are 14 American Wire Gauge (AWG) to 4 AWG, stranded discrete wires. These are 600 volt (UL rated) DC wires THHN, THWN, THWN-2 constructions. WIRELESS

THHN Wire THWN Wire THWN-2 Wire

Conductor Size 14 AWG to 4 AWG 14 AWG to 4 AWG 14 AWG to 4 AWG

Conductor Type Stranded Stranded Stranded

Conductor Material Bare or Tinned Copper Bare or Tinned Copper Bare or Tinned Copper

Polyvinylchloride (PVC) with Polyvinylchloride (PVC) with Polyvinylchloride (PVC) with Insulation Material Nylon Jacket Nylon Jacket Nylon Jacket

194°F (90°C) dry locations, 194°F (90°C) dry locations, Max. Temperature 194°F (90°C) dry locations 167°F (75°C) wet locations 194°F (90°C) wet locations

Voltage Rating 600V 600V 600V

Low Inductance Wire (LIW)

Low Inductance Wire (LIW) has a PVC/Nylon core with a serve of copper wire covered with a PVC jacket. Inductance is a significant concern at the frequencies required for 5G communications and can be disruptive to a system. One purpose of the LIW is to fit two DC power conductors in a smaller space than two separate wires together. In the LIW approach the outer wires have the same circular mil conductance area as the central conductor, so electrically they are equivalent. The concentric outer conductor is served with a slight spiral. These are available in 4, 6 and 8 AWG, 19-strand constructions.

LIW Wire Typical Constructions

Conductor Size 8 AWG 6 AWG 4 AWG 6 AWG .0650

Conductor Type Stranded Stranded Stranded

Conductor Material Bare or Tinned Copper Bare or Tinned Copper Bare or Tinned Copper

Polyvinylchloride (PVC) Polyvinylchloride (PVC) Polyvinylchloride (PVC) Core Insulation inner with Nylon Jacket inner with Nylon Jacket inner with Nylon Jacket Material UL THWN-2 UL THWN-2 UL THWN-2

Outer Concentric Bare Copper Bare Copper Bare Copper Conductor Material

Outer Jacket PVC PVC PVC

194°F (90°C) dry and wet 194°F (90°C) dry and wet 194°F (90°C) dry and wet Max. Temperature locations locations locations

Outer Diameter 0.299 inches (7.59 mm) 0.363 inches (9.22 mm) 0.443 inches (11.25 mm)

Voltage Rating 600V 600V 600V

1.800.772.0116 8 Alarm Wire Components

Alarm wire used in cell tower cable is frequently Thermoplastic Flexible Fixture (TFFN) wire or Machine Tool Wire (MTW). TFFN is a universal building wire most commonly used as “fixture” or “lighting” wire, while MTW is used for machine tools, appliances and control cabinets. MTW wire offers a high strand count, yielding a more flexible option than TFFN. Both styles are rated to 600 volts.

These wires are available from 22 to 16 American Gauge Wire (AWG) discrete wires or twisted pairs for tower applications. The Nylon coating WIRELESS over the PVC insulation improves oil, gas and water resistance.

MTW Wire (UL) TFN / TFFN Wire (UL)

Conductor Size 22 to 16 AWG 18 to 16 AWG

Conductor Type Stranded Solid or Stranded

Conductor Material Bare or Tinned Copper Bare or Tinned Copper

Insulation Material Polyvinylchloride (PVC) and optional Nylon Jacket Polyvinylchloride (PVC) with Nylon Jacket

194°F (90°C) dry locations, 194°F (90°C) dry locations, Max. Temperature 167°F (75°C) wet locations 167°F (75°C) wet locations

Max. Voltage 600V 600V

Resistant To: Water, Oil and Gas (only with optional nylon) Water, Oil and Gas

www.hca.hitachi-cable.com 9 Copper and Fiber Hybrid Jumpers

Hybrid jumpers are used throughout wireless networks for connecting radios to the antennas for 5G implementation. These jumpers typically use two DC power wires and fiber components to carry the signals.

Power components: • Please refer to page 8 for more detail on DC Power conductors

Fiber components: • 900 micron tight buffered and 250 micron colorized • Singlemode (SM) and Multimode (MM) options available

WIRELESS • Fiber components 2 and up

Standard shielding / armoring configurations include: • 3 mil (0.076 mm) or 5 mil (0.127 mm) copper tape (helically applied) • 5 mil (0.127 mm) or 10 mil (0.254 mm) bare copper tape corrugated (cigarette fold applied) • Optional uninsulated bare copper grounding wire • Braided shielding available: Bare or Tinned Copper, or Bronze braids, and/or Aluminum Polyester with drain wires

Jacketing options: • PVC, LSZH, TPU • Tray cable (TC-OF), 600V • Thermoplastic elastomers (TPE)

Features: • Oil resistance • Sunlight resistance • FT4 Flame rating • -40°F (-40°C) to 194°F (90°C) (dry/wet) temperature rating • When used with fiber the temperature rating is based on that of the fiber which is rated to 176°F (80°C)

Power Jumpers Power jumpers typically consist of 2 to 12 conductor DC wires with an optional ground wire (bare or insulated). Based on the design, we can apply shielding, drain wire(s) and armoring as needed. Shielding is important in these cables because their location in the network is different than the large hybrid trunks which typically are not shielded. Therefore, some cell providers prefer to keep the power cables separate from the communications cable and power jumper designs serve those customers.

THHN Wire THWN Wire THWN-2 Wire

Conductor Size 14 AWG to 4 AWG 14 AWG to 4 AWG 14 AWG to 4 AWG

Conductor Count 2 Conductor and Up 2 Conductor and Up 2 Conductor and Up Conductor Type Stranded Stranded Stranded Conductor Material Bare or Tinned Copper Bare or Tinned Copper Bare or Tinned Copper

Insulation Material Polyvinylchloride (PVC) with Nylon Jacket Polyvinylchloride (PVC) with Nylon Jacket Polyvinylchloride (PVC) with Nylon Jacket Ground Wire Optional - Bare or Tinned Copper Optional - Bare or Tinned Copper Optional - Bare or Tinned Copper Optional Optional Optional Shielding • Braided Bare or Tinned Copper • Braided Bare or Tinned Copper • Braided Bare or Tinned Copper • Aluminum Polyester with drain wires • Aluminum Polyester with drain wires • Aluminum Polyester with drain wires

Optional: Optional: Optional: • 5 mil (0.127 mm) corrugated • 5 mil (0.127 mm) corrugated • 5 mil (0.127 mm) corrugated Armoring • 3 mil (0.076 mm) helical copper tape • 3 mil (0.076 mm) helical copper tape • 3 mil (0.076 mm) helical copper tape • 8 mil (0.203 mm) aluminum corrugated • 8 mil (0.203 mm) aluminum corrugated • 8 mil (0.203 mm) aluminum corrugated

194°F (90°C) dry locations, 194°F (90°C) dry locations, Max. Temperature 194°F (90°C) dry locations 167°F (75°C) wet locations 194°F (90°C) dry locations Voltage Rating 600V 600V 600V

1.800.772.0116 10 Power+™ Composite Indoor / Outdoor Cable WIRELESS WIRELESS

Power+™ composite indoor / outdoor plenum cables are the solution for applications where remote power and network connectivity are required and distance may be a factor. Power+™ composite cables utilize fiber optic strands to provide the link to the network and a pair of stranded copper conductors to deliver power. The different constructions of Power+™ composite cables address the variety of applications on the market. Power+™ composite cables are ideal for long distance PTZ camera installations, Distributed Antenna Systems (DAS), and Passive Optical Networks (PON). Power+™ composite cables are available with a plenum rating (CMP-OF), (CL3P-OF) or (CL2P-OF) which makes them suitable for a wide variety of environments.

Designed for Long Distance Power • Singlemode (SM) and Multimode (MM) glass available (2, 6 & 12 fiber) • Two DC power wires (choose from 12, 14, 16, 18, 20 & 22 AWG) • Stranded copper conductors (19 strands) offer greater cable flexibility • Supports a wide range of powering delivery Cable Design allows Easy Termination and Wide Use • UL Listed CMP-OF and CL3P-OF, 300V rated for use in plenum spaces • Indoor / outdoor plenum rating • Small outside diameters assist in installation • Tight buffered (900 micron) optical fibers reside inside individual aramid yarn filled subunits or separate • Compatible with all LC and SC fiber optic connectors

For all wireless applications, power to and signal from the antenna are necessary. This results in a need for copper cables for power, and with growing frequency, fiber optic cables for signal. Composite cables, cables that contain both copper and fiber optic components, are the ideal solution. Composite cables simplify installation by combining both media inside one jacket. Additionally, the use of fiber optic strands allows greater bandwidth between the antenna and the associated electronics. This is imperative for 5G applications. Hitachi Cable America (HCA) Power+™ composite cable solution offers a variety of composite cable constructions that can be used for cellular, wireless and other applications where remote power and network connectivity are required. Power+™ cables, though designed for outdoor use, also carry a plenum rating allowing them to be installed in a wide range of environments.

Safety Extra Low Voltage (SELV) 48Vdc PSE / 43Vdc PD Safety Extra Low Voltage (SELV) 56Vdc PSE / 48Vdc PD Powered Device at Load (Watts) Powered Device at Load (Watts) 6.49W 12.95W 25.5W 51W 71W 6.49W 12.95W 25.5W 51W 71W AWG Remote Power Distance (feet) AWG Remote Power Distance (feet) 22 990 496 252 126 90 22 1,833 919 467 233 168 20 1,574 789 401 200 144 20 2,915 1,461 742 371 266 18 2,500 1,253 636 318 229 18 4,630 2,320 7,178 589 423 16 3,974 1,992 1,011 506 363 16 7,359 3,688 1,873 936 673 14 6,339 3,177 1,683 807 579 14 11,740 5,883 2,988 1,498 1,073 12 10,047 5,035 2,557 1,279 918 12 18,606 9,325 4,735 2,368 1,701

www.hca.hitachi-cable.com 11 Power+™ Composite Cable (I/O Plenum) (UL) OFCP c(UL) OFCP FT6 Power+™ FO Cable Part Numbers 22 AWG Power+™ FO Cable Part Numbers 20 AWG CABLE 62.5 UM 50 UM 50 UM 50 UM 50 UM 8.3 UM FIBERS FIBERS CABLE 62.5 UM 50 UM 50 UM 50 UM 50 UM 8.3 UM Product Highlights O.D.(mm) OM1 OM2 OM3 OM4 OM5 OS2 O.D. (mm) OM1 OM2 OM3 OM4 OM5 OS2 • REACH & RoHS 2 compliant. 2 5.8 62860-4 62861-4 62862-4 62863-4 62864-4 62859-4 2 6.2 62866-4 62867-4 62868-4 62869-4 62870-4 62865-4 • Made in USA. 6 8.0 62860-8 62861-8 62862-8 62863-8 62864-8 62859-8 6 8.4 62866-8 62867-8 62868-8 62869-8 62870-8 62865-8 12 10.2 62860-14 62861-14 62862-14 62863-14 62864-14 62859-14 12 10.5 62866-14 62867-14 62868-14 62869-14 62870-14 62865-14 • Extending PoE and Limited Power SELV data transmission beyond 100 Power+™ FO Cable Part Numbers 18 AWG Power+™ FO Cable Part Numbers 16 AWG meters. CABLE 62.5 UM 50 UM 50 UM 50 UM 50 UM 8.3 UM CABLE 62.5 UM 50 UM 50 UM 50 UM 50 UM 8.3 UM FIBERS (mm) FIBERS (mm)

WIRELESS O.D. O.D. • Provides immunity from electro OM1 OM2 OM3 OM4 OM5 OS2 OM1 OM2 OM3 OM4 OM5 OS2 2 6.8 62872-4 62873-4 62874-4 62875-4 62876-4 62871-4 2 7.1 62878-4 62879-4 62880-4 62881-4 62882-4 62877-4 magnetic and radio frequency 6 8.4 62872-8 62873-8 62874-8 62875-8 62876-8 62871-8 6 8.4 62878-8 62879-8 62880-8 62881-8 62882-8 62877-8 interference. 12 10.2 62872-14 62873-14 62874-14 62875-14 62876-14 62871-14 12 10.5 62878-14 62879-14 62880-14 62881-14 62882-14 62877-14 • Choice of separate power conductors Power+™ FO Cable Part Numbers 14 AWG Power+™ FO Cable Part Numbers 12 AWG eliminates concerns associated with FIBERS CABLE 62.5 UM 50 UM 50 UM 50 UM 50 UM 8.3 UM FIBERS CABLE 62.5 UM 50 UM 50 UM 50 UM 50 UM 8.3 UM heat generation and length derating O.D. (mm) OM1 OM2 OM3 OM4 OM5 OS2 O.D. (mm) OM1 OM2 OM3 OM4 OM5 OS2 calculations as required by TIA 568 2 7.4 62884-4 62885-4 62886-4 62887-4 62888-4 62883-4 2 7.7 62890-4 62891-4 62892-4 62893-4 62894-4 62889-4 and NEC. 6 9.2 62884-8 62885-8 62886-8 62887-8 62888-8 62883-8 6 10.1 62890-8 62891-8 62892-8 62893-8 62894-8 62889-8 • Plenum and outdoor rating permits 12 10.8 62884-14 62885-14 62886-14 62887-14 62888-14 62883-14 12 11.3 62890-14 62891-14 62892-14 62893-14 62894-14 62889-14 use in a wide range of environments. Applications Options • Dry, super absorbent polymers (SAPs) • High noise areas and extended • Available with 2, 6 or 12 strands of fiber. eliminate water migration in cable distance. • Available with 1 pair of 12, 14, 16, 18, 20 interstices. • Security CCTV Cameras. or 22 AWG stranded conductors. • Suitable for lashed aerial, duct • Wireless Access Points. underground conduit and indoor • Distributed Antenna Systems (DAS). plenum applications. • All multimode and singlemode cables (except OM1) utilize bend-insensitive optical fibers. • Easy to strip and terminate. • Lightweight, flexible aramid yarns throughout the design enhance strength. Features • Each 900um buffered fiber esidesr in a 2mm subunit for easy termination to LC, SC connectors and more. Copper Conductor Standards • NEC CL2P-OF, CL3P-OF and CMP-OF rating, compliant with • Class 2 SELV (Safety Extra Low Voltage). • NFPA 262. • ANSI/TIA 568-C.2.

2 Fiber 6 Fiber (Size Enlarged to show detail) Optical Specifications TIA/EIA-568-C.3 I ISO/ IEC 11801, 2nd edition I Telcordia GR-409-CORE Fiber Max. Attenuation Min OFL Bandwidth Min EMBc Bandwidth Gb Ethernet distance 10 Gb Ethernet distance type (dB/km) (MHz-km) (MHz-km) (m) (m) 850 nm 1300 nm 850 nm 1300 nm 850 nm 1300 nm 850 nm 1300 nm 850 nm 1300 nm (MM) (MM) (MM) (MM) (MM) (MM) (MM) (MM) (MM) (MM) OM1 3.5 1.0 200 500 220 N/A 300 550 33 N/A OM2 3.0 1.0 700 500 950 N/A 750 550 150 N/A OM3 3.0 1.0 1500 500 2000 N/A 1000 550 300 N/A OM4 3.0 1.0 3500 500 4700 N/A 1100 550 550 N/A OM5* 3.0 1.0 3500 500 4700 N/A 1100 550 550 N/A 1310 nm 1550 1310 nm 1550 nm 1310 nm 1550 nm 1310 nm 1550 nm 1310 nm 1550 nm (SM) nm (SM) (SM) (SM) (SM) (SM) (SM) (SM) (SM) (SM) 10,000 - OS2 0.5 0.5 N/A N/A N/A N/A > 25,000 > 40,000 25,000 40,000 12 Fiber *OM5 optical fiber tested by glass manufacturer and exceeds the requirements of all applicable industry standards. Hitachi Cable America reserves the right to revise any specifications.

1.800.772.0116 12 Power+™ Composite Cable Distributed Antenna System (DAS) / Small Cell Cable

Distributed Antenna and Cellular networks are growing at an exceptional rate given the expanding usage of cell phones and the demand for high speed data with a greater bandwidth and improved cellular coverage. 5G is the latest cellular technology that promises vast improvements over the older generations of wireless technology. 5G is

much faster than previous generations, up to 40 times faster than 4G. WIRELESS

5G cellular networks require a much greater distribution of antennas in order to blanket an area with coverage when compared to previous cellular generations. Distributed

Antenna Systems (DAS) can be strategically located to supplement the cellular system in the area, for implementing densification. Hitachi Cable America (HCA) has solutions to help build large area networks.

Since 1986 Hitachi has been manufacturing high-performance cable for U.S. and global customers. We have over 50 years of global manufacturing experience in making a wide variety of high-performance products for diverse applications. We are presently one of the North American leaders in the manufacture of fiber / copper composite cables for the 5G rollout. HCA is a vertically integrated provider that can design and build wireless communication cables to meet a customer’s highly specific needs.

With decades of design experience and the latest in cable manufacturing technology and materials, HCA can offer common or custom core components in a wide variety of gauges and material options to build hybrid cables that include optical fibers, power wires, alarm wires and category rated twisted pairs. These components are all manufactured in Manchester, NH, which is crucial to providing a turnkey solution for customers to be confident that our cables provide the highest quality and performance every time. The cable components are rated for indoor and outdoor use and can be purchased sepa- rately if needed for our customers that choose to work with multiple suppliers.

Our cables are ideal for cell tower installation, building infrastructure, security systems, light poles and virtually anywhere that an antenna may reside close to users. The improved throughput of these systems will be beneficial to several emerging technologies, faster download speeds, vastly improved streaming, uninterrupted gaming and lower latency. Latency is critical to autonomous vehicles and has the potential for improving traffic flow and driver safety.

Contact HCA to learn more about our cables for wireless technologies. Let us provide you a custom solution that precisely meets your needs.

Wireless network benefits can include: • Improved network access and improved customer service • Increased security and corporate data collection • Increased employee productivity

Cable design options include: • Rugged, harsh environment constructions • Plenum and Riser 300V rated category cable available • UL rated Indoor / Outdoor constructions - Plenum CMP-OF, CL2P-OF and CL3P-OF, 300V for DAS • Sunlight Resistant for Indoor / Outdoor • Designs for Small Cell • Copper and Fiber hybrid bundles (Singlemode and Multimode) • Low smoke zero halogen (LSZH) or PVC insulations available for Small Cell solutions • Capable of power and data over long distances • A wide variety of gauge sizes and cable constructions available

www.hca.hitachi-cable.com 13 Copper & Fiber Hybrid Tower Cables WIRELESS

1.800.772.0116 14 Copper & Fiber Hybrid Tower Cables

Large Hybrid Trunk Cables

Hybrid trunk cables are the backbone of the wireless network. No matter where the cable is Two hybrid cable constructions shown below represent installed, Hitachi Cable America (HCA) has a solution to meet your needs. a mix of both copper and fiber optic cable. We offer our customers the choice of buying completed cable

bundles or core components within the cable based WIRELESS • Base Station upon the application and need. Talk to us about your • Massive MIMO LTE-Pro and 5G Network particular need and we can help you identify the optimum • Metro Core Network design for the performance and end application. • Metro Cell Network • Outdoor Small Cell Network • Urban Micro-cell network

Our cables can be installed almost anywhere. HCA is unique in that we are a vertically integrated supplier. We manufacture the high-quality copper and fiber-optic cable sub- components within our New Hampshire facility, as well as bringing those components together to form a final jacketed bundle. From small to large gauge varieties, we can deliver the quality and performance that customers have come to expect with the Hitachi brand.

We have made significant investments in extrusion technology as well as dedicated planetary cabling equipment, critical for neutralizing sub-components within a cable. Such neutralization helps to eliminate cable back-twist which can impact manufacturing quality and cable performance during final assembly installation. All of our armoring and jacketing is completed on site and we offer a wide variety of material options and technical expertise to ensure that the end product repeatedly meets our stringent customer requirements. A: Qty. 12, DC Power (UL THHN / THWN-2), 4-19 BC Conductor. Nominal Diameter 0.319 Inch (8.10 mm).

Cable Armoring / Grounding B: Qty. 1, 8.3 / 125 singlemode fiber bundle, contains (1 x 48 fiber, 4 x 2.3 mm tubes of 12 fiber each, 250 um OS2, A2). Armoring provides a physical barrier of protection and a ground path for protection against lightning strikes. It also protects the cable from impact damage and improves crush resistance. C: 2 mil (0.051 mm) Polyester tape, helically applied. HCA can offer a variety of solutions to meet your specific needs. D: 5 mil (0.127 mm) Bare copper tape, corrugated.

Standard configurations include: E: PVC jacket, dual aramid ripcord under the armor. • 3 mil (0.076 mm) bare copper tape (helically applied) • 5 mil (0.127 mm) or 10 mil (0.254 mm) bare copper tape corrugated (cigarette fold F: Fillers to ensure concentricity. applied) • 8 mil (0.203 mm) aluminum tape corrugated (cigarette fold applied) • 11 mil (0.279 mm) steel corrugated (when required for special applications) • Insulated and Uninsulated large diameter copper grounding wires

Outer Jacketing

HCA specializes in providing specialty materials and extrusions that are durable and offer protection in some of the harshest of environments. For cellular applications it is especially important to select jacket materials that provide resistance against the elements and high strength to prevent damage during installation and use.

We offer: • Multiple grades of PVC, including direct burial • Low smoke zero halogen (LSZH); Flame retardant polyolefins • Thermoplastic elastomers (TPE) A: Qty. 8, DC Power (UL THHN / THWN-2), 6-19 BC Conductor. Nominal Diameter 0.250 Inch (6.35 mm). Features: • RoHS Compliant B: Qty. 1, 8.3 / 125 / 250 singlemode OS2, contains (Multi-unit 48 fiber, 4 x 12 fiber tube, 3.0 mm loose • Oil and sunlight resistant tube (no gel), water-blocked, indoor/outdoor PVC). • FT4 Flame rating and -40°F (-40°C) to 176°F (80°C) • Ability to jacket diameters as large as 2 inches (50.8 mm) C: 3 mil (0.076 mm) bare copper tape conductive sheild. • Jacketing identification per customer specifications D: Polyester tape separator, helically applied. • Tray Cable (TC-OF, TC-ER-OF) and FT4, 600V • A wide variety of fiber components available (please refer to the fiber optic components E: Flame-Retardant LF PVC, ripcord under jacket. section for more details) F: Fillers to ensure concentricity.

www.hca.hitachi-cable.com 15 TRANSPORTATION Whether it is onboard entertainment, high speed communication, or mission critical custom cabling, Hitachi Cable America (HCA) provides solutions suitable for the harsh conditions common to transportation applications. Our cables are designed to be lightweight and robust, while consistently meeting the stringent requirements critical to onboard cabling. HCA manufactures cable from a variety of fluoropolymers so that our customers have the design options needed for custom applications.

Technical items to consider in the custom designs are: • Vibration • Noise • Signal integrity • Weight • Flammability and toxicity • Moisture intrusion • Chemical exposure • Heat and cold • Proper mechanical and electrical loading • Flexibility / bending / routing • Wear / chafing / clamping degradation • Maintenance and indirect damage • Planned connectorization and device assembly

Transportation Standards: • Federal Aviation Administration (FAA) • NFPA Compliant NFPA130-2010 • EN Compliant EN50355 and EN50343 • American Association of Rail (AAR) • MIL-STD • Ethernet • Can bus

1.800.772.0116 16 Flat Flexible Cable (FFC) For Automotive

Our wiring devices enable highly dense packaging and space-saving electrical transmission, making it possible to produce smaller electronic devices and automotive components with better performance.

We offer: TRANSPORTATION • Flexible flat cable (FFC) • Shielded flexible flat cable (FFC)

FFCs are flat flexible ribbon-shaped cables with multiple metallic conductors sandwiched between two insulating tapes. They are used extensively in consumer electronic products such as digital cameras, audio equipment, flat-screen televisions and office equipment. Shielded flexible flat cable (FFC) for automotive application use include high density mounting and fine lead pitch, improved flexibility and handing ability, high heat resistance PVC (105°C / 221°F) and low connection resistance.

Tin / lead alloy solder was formerly used on FFC conductors, but ongoing Restriction of the use of certain Hazardous Substances (RoHS) in electrical and electronic equipment requirements have led to lead-free FFCs. The drawback of applying lead-free electroplated tin to FFC conductors is that tin whiskers form in the area between the FFC and the connector. This can cause short circuits and arcing in electrical equipment. To address this, HCA has developed a tin-plated conductor with reduced tin whiskering based on applying a very thin “nano” coating of zinc on the electroplated tin.

Benefits of FFCs: • Reduced mounting costs. Since both ends of the terminals are machined, terminal machining preprocessing can be eliminated. • Excellent flexibility. The flat copper conductor encourages the CU-JoinerTM flexibility. • Custom designs are available to match the mounting method, the type and number of wires, pitch between wires, terminal length and insulation length. • Thirteen UL approved types available.

www.hca.hitachi-cable.com 17 Rolling Stock Cable - Polyenex®

Hitachi provides a full line-up of rolling stock to match the needs of all passenger railway transit, from energy efficient trains for daily commuting to high speed trains that can operate at the fastest commercial speeds possible.

To meet a growing range of demands, Hitachi has implemented new methods of vehicle construction and manufacturing based on our AT series product platform. Trains derived from the concept have delivered an outstanding level of quality that has exceeded the expectations even of Japanese railway operators, known the world over for exacting standards for reliability.

This success is supported by our commitment to a fully inclusive, comprehensive and proactive stakeholder management process. We work as one team, with continuous communication and

TRANSPORTATION a ‘no surprises’ approach.

As the development of railway networks continue to advance, demand is growing for rolling stock and components to support that advancement. In response to this demand, we have developed an extensive range of rolling stock cables that are employed in railway projects worldwide. Our products comply with major industry standards, while our product design, with safety at its core, can be tailored to meet the customer’s individual specification.

General & Signal Circuit: Hitachi Metals America, LTD (HMA, LTD) offers a wide range of cable solutions. Using unique insulating materials, we are capable of supplying thin-walled wires and cables, using unique insulating materials. Benefits to customers include reduced cross section and weight.

LAN Cables: Application of on-board LAN cables has expanded to passenger information service and rolling stock control. HMA, LTD supplies international-standard based LAN cables suitable for wiring in rolling stock.

High Voltage System: HMA, LTD is a key supplier of 30kV high-voltage cable and termination accessories. We have an established track record of delivering high voltage systems to some of world’s most advanced high speed railway systems currently operating in Japan and China.

Main Circuit: When a high current is required, heavy & thick rolling stock wires are generally used. HMA, LTD offers unique insulation technology, which enables the customer to apply high current through lighter & thinner wires.

Jumper Cables: For coach-to-coach applications, we offer special robust construction cables to withstand vibration.

1.800.772.0116 18 Rolling Stock Cable - Polyenex® WFHF 102S / 103S / 104S Cable

Series: NFPA130-2010 | Voltage Rating: AC 600V | Operating Temp. Range: -58°F to 302°F (-50°C to 150°C) Stranded with tin-coated annealed copper wire Flame Resistance, Low Toxicity, Chemical Resistance. Conductor: Inner Jacket: Ethylene Tetrafluoroethylene (ETFE) - black, white Low smoke zero halogen thermoplastic polyurethane jacket Shield: Tin-coated annealed copper braid shield suitable for harsh environments. TRANSPORTATION Insulation Jacket: Ethylene Tetrafluoroethylene (ETFE) - black Application: Multi-core cable that is applied to fixed internal / external wiring for rolling stock. Fire Protection: NFPA130-2010 / EN45545-2 Int. HL3 / ext.HL3 Cable Characteristics

Number of Conductors Insulation Approximate Overall Diameter Inches (mm) Maximum Conductor x Cross Section Thickness Screen Sheath Thickness Resistance at 68°F Approximate 2 Thickness Inches (mm) Minimum Maximum Weight (kg/km) (mm ) Inches (mm) Inches (mm) (20°C) (Ω/km) 2 x 0.75 0.008 (0.2) 0.012 (0.3) 0.039 (1.0) 0.22 (5.7) 0.26 (6.7) 26.6 65

2 x 1.25 0.008 (0.2) 0.012 (0.3) 0.039 (1.0) 0.25 (6.4) 0.30 (7.6) 16.0 80

2 x 2 0.008 (0.2) 0.012 (0.3) 0.039 (1.0) 0.28 (7.0) 0.32 (8.2) 10.2 105

3 x 0.75 0.008 (0.2) 0.012 (0.3) 0.039 (1.0) 0.23 (5.8) 0.27 (6.8) 26.6 75

3 x 1.25 0.008 (0.2) 0.012 (0.3) 0.039 (1.0) 0.26 (6.6) 0.31 (7.8) 16.0 100

3 x 2 0.008 (0.2) 0.012 (0.3) 0.043 (1.1) 0.29 (7.4) 0.34 (8.6) 10.2 135

4 x 0.75 0.008 (0.2) 0.012 (0.3) 0.039 (1.0) 0.25 (6.3) 0.29 (7.3) 26.6 85

4 x 1.25 0.008 (0.2) 0.012 (0.3) 0.043 (1.1) 0.29 (7.4) 0.34 (8.6) 16.0 120

4 x 2 0.008 (0.2) 0.012 (0.3) 0.043 (1.1) 0.31 (8.0) 0.37 (9.4) 10.2 165

N-RFH1 Cable

Series: NFPA130-2010 | Voltage Rating: AC 600V | Operating Temp. Range: -58°F to 302°F (-50°C to 150°C) Stranded with tin-coated annealed copper wire Flame Resistance, Low Toxicity, Chemical Resistance. Conductor: Insulation Jacket: Ethylene Tetrafluoroethylene (ETFE) - black Low smoke zero halogen thermoplastic polyurethane jacket NFPA130-2010 / EN45545-2 Int. HL3 / ext.HL3 suitable for harsh environments. Fire Protection: Application: Multi-core cable that is applied to fixed internal / external wiring for rolling stock. Cable Characteristics

Overall Diameter Inches (mm) Nominal Cross Insulation Thickness Maximum Conductor Resistance at Approximate 2 Section (mm ) Inches (mm) Minimum Maximum 68°F (20°C) (Ω/km) Weight (kg/km)

1.25 0.09 (2.3) 0.10 (2.5) 15.5 17

2 0.02 (0.5) 0.11 (2.7) 0.11 (2.9) 9.9 24

3.5 0.13 (3.4) 0.14 (3.6) 5.3 41

www.hca.hitachi-cable.com 19 C-WFM2 Cable

Application: Multi-core cable that is applied to fixed internal / external wiring for rolling stock. Cable Characteristics TRANSPORTATION

Overall Diameter Inches (mm) Maximum Conductor Nominal Cross Insulation Thickness Approximate Section (mm2) Inches (mm) Resistance at 68°F (20°C) Weight (kg/km) Minimum Maximum (Ω/km) 35 0.059 (1.5) 0.43 (10.9) 0.48 (12.1) 0.569 405

50 0.063 (1.6) 0.51 (12.9) 0.56 (14.3) 0.394 570

70 0.063 (1.6) 0.57 (14.4) 0.63 (16.0) 0.286 760

95 0.067 (1.7) 0.65 (16.5) 0.72 (18.3) 0.210 1020

120 0.071 (1.8) 0.73 (18.5) 0.80 (20.3) 0.166 1280

150 0.083 (2.1) 0.82 (20.9) 0.90 (22.9) 0.133 1570

185 0.083 (2.1) 0.89 (22.7) 0.97 (24.7) 0.108 1950

240 0.086 (2.2) 1.01 (25.6) 1.09 (27.8) 0.084 2500

1.800.772.0116 20 CAN Bus Cable

Hitachi Cable America’s (HCA) harsh environment CAN bus cables are exceptional for rolling stock applications especially for high temperature use. They can also be used for on and off- road trucks and trailers, in-vehicle communications, agricultural and heavy equipment and industrial machinery. Our durable shielded twisted pairs are easy to terminate and readily

customizable depending upon the application, whether commercial or military (land, air or sea). TRANSPORTATION

Available Construction Options: Insulation • 18 and 20 AWG conductor rolling stock constructions Shield • Conductor materials: Bare copper, Tin-coated copper, Silver-plated copper or Silver-plated high-strength copper alloy • Dielectrics: FEP, Foamed FEP • Core Wrapping: Aluminum / PET / Aluminum (J1939-11)

• Shielding: Tin-coated copper, Silver-coated copper or Nickel-coated copper • Drain Wire: Inside and outside shield drain in either bare or tinned copper • Outer Jacket: Engineered fluoropolymer (Halogen free laser markable FEP or ETFE) • Available Jacket Colors: black, white, brown, red, orange, yellow, green, blue, Jacket violet and gray – dependent on the jacket material selected 3x18 AWG

Performance Feature Capabilities: Wrap • Capable of withstanding demanding environments Filler • Compact, lightweight and flexible construction, capable of tight bend radius routings • Tough, abrasion and cut-through resistant materials • Waterproof jacketing • Outstanding chemical resistance • Typical 120Ω +/- 10% impedance (Can be customized as needed) • Operating voltage typically <15 volts • Broad Temperature Range: -85°F (-65°C) up to 392°F (200°C) based upon construction Shield • Up to 1 gigahertz (GHz) of high-performance data transmission Jacket • Electrical standards: SAE J1128 (low voltage primary cable), SAE J1939-11, -14 2x18 AWG and -15 (Serial Control and Communications Heavy Duty Vehicle Network) bus standards and ARINC Galley CAN (MIL) standard varieties • Flammability standards: IEEE 1202, BSS7230 & FAR Part 25, Appendix F, Part 1, SAE J1128 Foam and Solid Layer • Toxicity standards: BSS7239 Shield • Smoke Density standards: ASTM E 662, BSS7238 & FAR Parts 25 Appendix F, Part V • Smoke Density and Toxicity per: BSS7238 and BSS7239 (aerospace applications) Drain Wire

Commercial and Military Applications: Jacket • Onboard networks and management / control systems • High-speed data transmission and high-definition streaming 2x20 AWG • Digital sensors and onboard diagnostics • Camera, digital video and vision systems • Serial buses Shield • Radar and navigational support • Radio and communications systems

Jacket

Typical CAN bus Configuration

www.hca.hitachi-cable.com 21 Lightweight Aerospace Communication Cable

Reducing cable weight is critical to almost any application but it is especially critical for commercial and military aerospace applications. By closely choosing the materials of a cable we can readily help to optimize both the cable weight and the product performance. For aerospace applications, it’s all about selecting the right materials for reducing the overall cable size and weight while ensuring that it can withstand the harsh temperature and mechanical environments that aerospace applications demand.

Hitachi Cable America (HCA) has invested in technologies critical to the production of such cables. If you are interested in learning more about our capabilities, please contact us and arrange a visit.

TRANSPORTATION Cable Configuration: • 1 Pair • 2 Pair • 2 Pair Quad Format • 4 Pair

Gauge Size: • 23 AWG • 24 AWG • 26 AWG

Performance: • Category 5e • Category 6 • Category 6A • Category 7

Lightweight Materials Used: • Fluoropolymers for fire and smoke prevention

Applications: • Military / Aerospace • Avionics networks • Flight and cabin management systems • In-Flight Entertainment Systems • Digital video systems and Digital Visual Interface (DVI) • Ethernet backbone avionics

1.800.772.0116 22 Federal Aviation Administration (FAA) Cable

Not unlike our lightweight aerospace communication cable, Federal Aviation Administration (FAA) standard cabling offers high performance signaling as well as robust materials to withstand harsh chemicals and environments. Fluorinated Ethylene Propylene (FEP) is the material of choice for providing such cabling. FEP can be processed to provide thinner jackets when compared to other available materials, making the cable TRANSPORTATION lightweight and smaller in size. FEP is ideal for high temperature environments chemical resistance and applications requiring high flexibility.

Hitachi Cable America (HCA) cables are flame rated per FAR 25.869(a) & FAR 25.1713(c) and SkydrolTM resistant per NASM22729. We can provide 24 and 26 AWG constructions as well as custom designs based on the application requirements.

26 AWG FTP FAA Patch Category 6

24 AWG SFTP FAA Patch Category 6

www.hca.hitachi-cable.com 23 Shipboard Cable

At Hitachi Cable America (HCA), we have many customers who come to us for not only jacketed cables but also for our high-performance cable cores. We provide core technology category cable based on any of our existing category standards (such as Cat 6A or 5e). We customize those standards as needed to suit the particular end application. This allows our customers to offer their customers extremely robust assemblies ideally suited for the Navy and other shipboard applications. HCA manufactures some of the most challenging to build high-performance custom cables and category cable in the world. We are well- known for our technical strength in the standard premise cabling market and expertise in developing next- generation cable technologies. We provide these core component cables to other wire and cable companies to deliver custom solutions within their own respective markets. Category 5e shipboard cable was designed for 1000Base-T systems, but Category 6A cable is an enhanced

TRANSPORTATION design that supports 10000Base-T systems. The Category 6A cable has significantly more data capabilities than many 5e data systems used today. *Consult your HCA representative for more information.

Core Example:

Insulaton Maximum Thickness Insulation O.D. Average Conductor Insulation Inches Inches (mm) Impedance Conductor (mm) Resistance Nominal

23 AWG 9.38 Ω /100 Meters Solid Bare Cellular 0.049 0.058 110 ± 4 Ω Copper Polyolefin (1.245) (1.47) (1 to 40 MHz) @ 20°C

NEXT Loss ELFEXT Insertion Minimum Min. Frequency Loss (dB / 100 m) (dB / 100 m) (MHz) Maximum (dB / 100 m) WP PS WP PS

0.772 - 76.0 74.0 - - 1.0 2.08 74.3 72.3 67.8 64.8 4.0 3.80 65.3 63.3 55.8 52.8 8.0 5.31 60.8 58.8 49.7 46.7 10.0 5.93 59.3 57.3 47.8 44.8 16.0 7.49 56.2 54.2 43.7 40.7 20.0 8.38 54.8 52.8 41.8 38.8 25.0 9.38 53.3 51.3 39.8 36.8 31.25 10.50 51.9 49.9 37.9 34.9 62.5 14.99 47.4 45.4 31.9 28.9 100.0 19.14 44.3 42.3 27.8 24.8 200.0 27.58 39.8 37.8 21.8 18.8 300.0 34.27 37.1 35.1 18.3 15.3 400.0 40.05 35.3 33.3 15.8 12.8 500.0 45.26 33.8 31.8 13.8 10.8

1.800.772.0116 24 INDUSTRIAL What do almost all industrial applications have in common? Cables that require high reliability and repeatable performance under tough conditions, such as our featured industrial communications line of cables. Hitachi Cable America (HCA) Industrial Ethernet cables are the cables of choice for robotics, system integration, power limited tray cable (PLTC), factory automation and SCADA / control systems, due to its inherent reliability, performance and interoperability.

At HCA, we design our products for the best in class speed and harsh environment performance possible. We understand the importance of the criteria crucial to industrial designs, such as: • Noise and vibration reduction • EMI/RFI shielding • Utilizing materials ideal for resistance to temperature, chemical, mechanical and electrical extremes • Balancing cost against performance • Adherence to industry standards and testing criteria HCA’s communication cables and especially our Industrial Ethernet cables, are designed to meet the requirements for legacy, current, and emerging industrial environments. Our industrial cable products serve a wide variety of markets and applications, such as semi-conductor clean room cables or interconnect solutions for the emerging Ethernet/Industrial Protocol (IP). We have built our reputation on supporting complex systems that have location-specific concerns such as fungus growth inhibition in the high humidity environments of Singapore and Vietnam, to low temperature bending and routing challenges for the Alaskan, Siberian and Canadian oil pipelines.

Within this industrial section you will find cable for: CAN bus Industrial Cable Applications Page 28 High Definition Multimedia Interface (HDMI) Cable Page 29 Universal Serial Bus (USB) Page 30 to 32 Flat Cable Solutions Page 33 to 42 Micro-coaxial Cable Page 44 to 45 Small Computer Systems Interface (SCSI) Shielded Cable Page 46 to 49 Video Graphics Array (VGA) and Super Video Graphics Array (SVGA) Page 50 to 52 Robotic & Automation Cable Page 53 to 54 ChannelFLEX® Semi-Conductor / Medical Clean Room Cabling Solutions Page 55 to 59 Other Industrial Standards Page 60 to 62

www.hca.hitachi-cable.com 25 Industrial Ethernet / Industrial Communications Cable

Jacket Material Weight Per Qty. of Trans. Performance (Mhz Operation Temperature / Installation Conductor Insulation Approvals Shielded or Unshielded Static or Flexible Category Part Number Protocols / Applications Cable O.D. Inches (mm) 1,000 ft. Environments Pairs Range or Impedance) Temperature °F (°C) Jacket Color & LSZH Status Pounds (Kilograms) Ethernet / IP, Gigabit Ethernet, SBC FEP (UL) CMP 300V 221°F (105°C) Unshielded Static 5e 30310-8 Power+™ 4 10Base-T, Hi Power PoE 1-400 Mhz PVC 0.225 (5.71) -4 (-20) to +221 (105) / 32 (0) to +140 (60) 31.52 lbs (14.29 kg) Indoor Only

(UL) CMR, CMX CMG 167°F (75°C) (UL) PLTC 7/30 TC PFA/PP Aluminum/Polyester + 24 AWG (7/32) Low Flexibility 5e 41219-8 4 Ethernet / IP, Gigabit Ethernet, 1-250 Mhz PVC 0.340 (8.64) Teal -40 (-40) to +167 (75) / -13 (-25) to +167 (75) 78 lbs (34.4 kg) S, O - ER (UL) AWM 2570 600V 176°F (80°C) Tinned Copper Drain wire 10Base-T, Noisy enviroments (UL) CMR-CMX-CMG 167°F (75°C), (UL) PLTC STC PE/PP Aluminum/Polyester + 24 AWG (7/32) Static 5e 41493-8 4 Ethernet / IP, Gigabit Ethernet, 1-100 MHz PVC 0.330 (8.38) Black -22 (30) to +167 (75) / -4 (-20) to +140 (60) 68 lbs (30.8 kg) S, O - ER, (UL) AWM 2570 600V 176°F (80°C) Tinned Copper Drain wire 10Base-T, Noisy enviroments, CAN bus Aluminum/Polyester (each pair) + 36 Ethernet / IP, Gigabit Ethernet, SBC FEP (UL) CMP 300V 167°F (75°C) AWG 65% Tinned Copper Braid Static 7 41684-8 4 10GBase-T, PoE, HDBaseT3 1-600 MHz PVC 0.335 (7.47) Black -4 (-20) to +167 (75) / 32 (0) to +140 (60) 53.64 lbs (24.33 kg) Indoor Only (UL) CMR, CMX CMG 167°F (75°C) (UL) PLTC Aluminum/Polyester + 24 AWG (7/32) Ethernet / IP, Gigabit Ethernet, INDUSTRIAL 7/30 TC FOAMED PE/PP Low Flexibility 5e 41796-8 4 1-250 Mhz PVC 0.340 (8.64) Teal -40 (-40) to +167 (75) / -13 (-25) to +167 (75) 78 lbs (34.4 kg) S, O (UL) AWM 2570 600V 176°F (80°C) Tinned Copper Drain wire 10Base-T, Noisy enviroments

22 AWG 22 AWG (UL) CMP 300V 167°F (75°C) (UL) Verified ® Ethernet / IP, Gigabit Ethernet, SBC PE TIA-568-2.D Unshielded Static 6 30315-8 Drybit 4 100Base-T, 1000Base-T, PoE 1-250 Mhz PE 0.310 (7.87) Black -40 (-40) to +158 (90) / 32 (0) to +140 (60) 54.7 lbs (24.8 kg) Indoor Plenum, S, O, H, C

(UL) CMP 300V 167°F (75°C) (UL) Verified Aluminum/Polyester + 24 AWG (7/32) ® Ethernet / IP, Gigabit Ethernet, 10 SBC PE TIA-568-2.D Tinned Copper Drain wire Static 6A 30322-8 Drybit 4 Gigabit Ethernet, PoE 1-500 Mhz PE 0.310 (7.87) Black -40 (-40) to +158 (90) / 32 (0) to +140 (60) 56 lbs (25.4 kg) Indoor Plenum, S, O, H, C (UL) CMP 300V 167°F (75°C) (UL) Verified ® Ethernet / IP, Gigabit Ethernet, 10 SBC PE TIA-568-2.D Unshielded Static 6A 30323-8 Drybit 4 Gigabit Ethernet, PoE 1-500 Mhz PE 0.310 (7.87) Black -40 (-40) to +158 (70) / 32 (0) to +140 (60) 54.7 lbs (24.8 kg) Indoor Plenum, S, O, H, C Ethernet / IP, Gigabit Ethernet, SBC PE none Unshielded Static 6 30180-8 4 10Base-T 1-250 Mhz PE 0.270 (6.86) Black LSZH -58 (-50) to +167 (75) / -40 (-40) to +167 (75) 34 lbs (15.4 kg) S, O, Direct Bury, H Ethernet / IP, Gigabit Ethernet, SBC PE none Unshielded Static 6 30273-8 4 10Base-T 1-250 Mhz FRPO 0.260 (6.60) Black LSZH 14 (-10) to +176 (80) / 32 (0) to + 176 (80) 31 lbs (14.1 kg) S, H (UL) CMR, CMG 167°F (75°C) (UL) AWM 2570 SBC PE Unshielded Static 62 41239-8 4 Ethernet / IP, Gigabit Ethernet, 1-250 Mhz PVC 0.265 (6.73) Black/Teal -40 (-40) to +167 (75) / -40 (-40) to +167 (75) 35 lbs (15.9 kg) S, O 600V 176°F (80°C) 10Base-T

(UL) CMR, CMG 167°F (75°C) (UL) AWM 2570 SBC PE Aluminum/Polyester + 24 AWG Solid Static 5e2 41222-8 4 Ethernet / IP, Gigabit Ethernet, 1-100 Mhz PVC 0.265 (6.73) Black -40 (-40) to +167 (75) / -13 (-25) to +167 (75) 32 lbs (14.5 kg) S, O 600V 176°F (80°C) Tinned Copper Drain wire 10Base-T, Noisy enviroments Ethernet / IP, Gigabit Ethernet, SBC PE none Unshielded Static 5e 30200-8 4 10Base-T 1-100 Mhz FRPO 0.216 (5.49) Blue LSZH 14 (-10) to +176 (80) / 32 (0) to + 176 (80) 23 lbs (10.5 kg) S, H Ethernet / IP, Gigabit Ethernet, SBC PE none Unshielded Static 5e 30145-8 4 10Base-T 1-100 Mhz PE 0.230 (5.84) Black LSZH -58 (-50) to +167 (75) / -40 (-40) to +167 (75) 23 lbs (10.5 kg) S, O, Direct Bury, H

1 Ethernet / IP, Gigabit Ethernet, TPE Belt, TPU Jacket 0.300 (7.62) 19/36 BC PE (UL) AWM 20233 300V 176°F (80°C) Unshielded High Flexibility 5e 41249-8 4 10Base-T 1-100 Mhz Black LSZH -13 (-25) to +167 (80) / 5 (-15) to +167 (80) 44 lbs (20 kg) S, O

1 Ethernet / IP, Gigabit Ethernet, TPE Belt, TPU Jacket 0.340 (8.64) 19/36 BC PE (UL) AWM 20233 300V 176°F (80°C) 38 AWG 92% Tinned Copper Braid High Flexibility 5e 41494-8 4 10Base-T, Noisy enviroments 1-100 Mhz Black LSZH -13 (-25) to +167 (80) / 5 (-15) to +167 (80) 67 lbs (30.3 kg) S, O Ethernet / IP, Gigabit Ethernet, 19/36 TC PE (UL) CM Pending Unshielded High Flexibility 6 41740-8 4 10Base-T 1-250 Mhz TPE Jacket 0.265 in. (6.73 ) Teal LSZH -13 (-25) to +167 (80) / 5 (-15) to +167 (80) 31.4 lbs (14.28 kg) O Aluminum/Polyester + 38 AWG 90% Ethernet / IP, Gigabit Ethernet, 19/36 TC FOAMED PE (UL) CM Pending Tinned Copper Braid High Flexibility 6 41741-8 4 10Base-T 1-250 Mhz PVC Jacket 0.320 (8.13) Teal -13 (-25) to +167 (80) / 5 (-15) to +167 (80) 52.4 lbs (23.82 kg) S, O FS Pairs + Overall Aluminum/Polyester + Ethernet / IP, Gigabit Ethernet, 19/36 TC FFEP EN50264-1 EM102 85% TC Braid Static 7 41765-8 4 10Base-T, Noisy enviroments 1-100 Mhz XL LSZH 0.330 (8.38) Black LSZH -4 (-20) to +221 (105) / 14 (-10) to +167 (80) 65.5 lbs (29.78 kg) S, O, C Aluminum/Polyester + 24 AWG 7/32 TC Ethernet / IP, Gigabit Ethernet, SBC PE (UL) CMX OUTDOOR-CMR Drain Wire Static 5e 42012-8 4 10Base-T, Noisy enviroments 1 -1000 MHz PVC 0.265 (6.73) Teal -40 (-40) to +167 (75) / -13 (-25) to +167 (75) 34 lbs. (15.42 kg) S, O, C

3 Ethernet / IP, Gigabit Ethernet, 7/32 SPC FEP FAR 25.869(a) / FAR 25.1713(c) Aluminum/Polyester + 92% SPC Braid Low Flexibility 6 40627-8 4 10Base-T, Noisy enviroments 1-100 Mhz FEP 0.265 (6.73) Blue -67 (-55) to + 392 (200) / -40 (-40) to +302 (150) 48 lbs (21.8 kg) S, O, C

38 AWG Tinned Copper Counter-Spiral High Flexibility C-track 1 Ethernet / IP, Gigabit Ethernet, 19/38 TC FEP (UL) AWM 20276 shield (ChannelFLEX®) 5e 41231-8 4 10Base-T, Noisy enviroments 1-100 Mhz PVC 0.240 (6.10) White -40 (-40) to +75 (167) / -25 (-13) to +75 (167) 38 lbs (17.2 kg) -

High Flexibility C-track 1 Ethernet / IP, Gigabit Ethernet, TPE Belt, TPU Jacket 0.300 (7.62) 19/38 TC PE (UL) AWM 20233 300V 80°C 38 AWG 90% Tinned Copper Braid + torsion 5e 41495-8 4 10Base-T, Noisy enviroments 1-100 Mhz Black LSZH -13 (-25) to +167 (80) / 5 (-15) to +167 (80) 44 lbs (20 kg) S, O Ethernet / IP, Gigabit Ethernet, 19/38 SPC FEP FAR 25.869(a) / FAR 25.1713(c) Aluminum/Polyester Static 6 41332-8 4 10Base-T, Noisy enviroments 1-100 Mhz FEP 0.210 (5.33) Gray -67 (-55) to +392 (200) / -40 (-40) to +302 (150) 35 lbs (15.8 kg) S, O, C UL1685(NFPA 130) /IEEE1202 Flame: IEC Aluminum/Polyester Drain wire + 90% Ethernet / IP, Gigabit Ethernet, 7/32 TC FEP 60332-3-25 TC Braid Static 5e 41673-4 4 10Base-T, Noisy enviroments 1-100 Mhz ETFE 0.216 (5.49) Black -67 (-55) to +392 (200) / -40 (-40) to +302 (150) 36.5 lbs (16.56 kg) S, O, C Aluminum/Polyester (each pair) + 38 Ethernet / IP, Gigabit Ethernet, 7/34 BC FOAMED PO (UL) AWM 20622 300V 140°F (60°C) AWG 65% Tinned Copper Braid Static 7 41562-8 4 10GBase-T, HDBaseT3 1-600 MHz TPU Jacket 0.232 (5.89) Black LSZH -4 (-20) to +167 (75) / 32 (0) to +140 (60) 27.25 lbs (12.38 kg) Indoor Only, H Aluminum/Polyester (each pair) + 38 Ethernet / IP, Gigabit Ethernet, 7/34 BC FOAMED PO (UL) AWM 20276 30V 176°F (80°C) AWG 65% Tinned Copper Braid Static 7 41561-8 4 10GBase-T, HDBaseT3 1-600 MHz PVC Jacket 0.232 (5.89) Black -4 (-20) to +167 (75) / 32 (0) to +140 (60) 28.85 lbs (13.11 kg) Indoor Only

Passed UL1685(NFPA130) / REF: SAE Aluminum/Polyester Drain wire + 85% No Category 7/26 TC FFEP J1939/11 TC Braid Static Level- CAN bus 41631-2 1 CAN bus 120 ohms ETFE 0.360 (9.14) Black -67 (-55) to +392 (200) / -40 (-40) to +302 (150) 82.6 lbs (37.55 kg) S, O, C, N Passed UL1685(NFPA130) / REF: SAE Aluminum/Polyester Drain wire + 85% No Category 7/26 TC FFEP J1939/11 TC Braid Static Level- CAN bus 41631-3 1.5 CAN bus 120 ohms ETFE 0.381 (9.68) Black -67 (-55) to +392 (200) / -40 (-40) to +302 (150) 104.5 lbs (47.5 kg) S, O, C, N FEP/ FOAMED FEP Aluminum/Polyester Drain wire + 85% No Category 19/32 TC 2-layers** UL1685(NFPA 130) Flame: IEC 60332-3-25 TC Braid Static Level- CAN bus 41473-2 1 CAN bus 120 ohms ETFE .300 (7.62) Black -67 (-55) to +392 (200) / -40 (-40) to +302 (150) 62 lbs (28.1 kg) S, O, C, N CAN bus 26 AWG 24 23

1 Indicates that these cables exceed TIA Category 5e requirements for all performance paremeters except attenuation. 2 These cables are also available in 1000V 3 Also for use in multimedia and audio visual applications due to extruded stripes. **2 stage insulation; foam over the top of solid, for termination foam must be removed

1.800.772.0116 26 Industrial Ethernet / Industrial Communications Cable

(UL) CMR, CMX CMG 167°F (75°C) (UL) PLTC INDUSTRIAL 7/30 TC PFA/PP Aluminum/Polyester + 24 AWG (7/32) Low Flexibility 5e 41219-8 4 Ethernet / IP, Gigabit Ethernet, 1-250 Mhz PVC 0.340 (8.64) Teal -40 (-40) to +167 (75) / -13 (-25) to +167 (75) 78 lbs (34.4 kg) S, O - ER (UL) AWM 2570 600V 176°F (80°C) Tinned Copper Drain wire 10Base-T, Noisy enviroments (UL) CMR-CMX-CMG 167°F (75°C), (UL) PLTC STC PE/PP Aluminum/Polyester + 24 AWG (7/32) Static 5e 41493-8 4 Ethernet / IP, Gigabit Ethernet, 1-100 MHz PVC 0.330 (8.38) Black -22 (30) to +167 (75) / -4 (-20) to +140 (60) 68 lbs (30.8 kg) S, O - ER, (UL) AWM 2570 600V 176°F (80°C) Tinned Copper Drain wire 10Base-T, Noisy enviroments, CAN bus Aluminum/Polyester (each pair) + 36 Ethernet / IP, Gigabit Ethernet, SBC FEP (UL) CMP 300V 167°F (75°C) AWG 65% Tinned Copper Braid Static 7 41684-8 4 10GBase-T, PoE, HDBaseT3 1-600 MHz PVC 0.335 (7.47) Black -4 (-20) to +167 (75) / 32 (0) to +140 (60) 53.64 lbs (24.33 kg) Indoor Only (UL) CMR, CMX CMG 167°F (75°C) (UL) PLTC Aluminum/Polyester + 24 AWG (7/32) Ethernet / IP, Gigabit Ethernet, 7/30 TC FOAMED PE/PP Tinned Copper Drain wire Low Flexibility 5e 41796-8 4 10Base-T, Noisy enviroments 1-250 Mhz PVC 0.340 (8.64) Teal -40 (-40) to +167 (75) / -13 (-25) to +167 (75) 78 lbs (34.4 kg) S, O (UL) AWM 2570 600V 176°F (80°C)

(UL) CMP 300V 167°F (75°C) (UL) Verified Aluminum/Polyester + 24 AWG (7/32) ® SBC PE TIA-568-2.D Tinned Copper Drain wire Static 6 30277-8 Drybit 4 Ethernet / IP, Gigabit Ethernet, PoE 1-250 Mhz PE 0.310 (7.87) Black -40 (-40) to +158 (70) / 32 (0) to +140 (60) 56 lbs (25.4 kg) Indoor Plenum, S, O, H, C (UL) CMP 300V 167°F (75°C) (UL) Verified ® Ethernet / IP, Gigabit Ethernet, SBC PE TIA-568-2.D Unshielded Static 6 30315-8 Drybit 4 100Base-T, 1000Base-T, PoE 1-250 Mhz PE 0.310 (7.87) Black -40 (-40) to +158 (90) / 32 (0) to +140 (60) 54.7 lbs (24.8 kg) Indoor Plenum, S, O, H, C (UL) CMP 300V 167°F (75°C) (UL) Verified Aluminum/Polyester + 24 AWG (7/32) ® Ethernet / IP, Gigabit Ethernet, 10 SBC PE TIA-568-2.D Tinned Copper Drain wire Static 6A 30322-8 Drybit 4 Gigabit Ethernet, PoE 1-500 Mhz PE 0.310 (7.87) Black -40 (-40) to +158 (90) / 32 (0) to +140 (60) 56 lbs (25.4 kg) Indoor Plenum, S, O, H, C (UL) CMP 300V 167°F (75°C) (UL) Verified ® Ethernet / IP, Gigabit Ethernet, 10 SBC PE TIA-568-2.D Unshielded Static 6A 30323-8 Drybit 4 Gigabit Ethernet, PoE 1-500 Mhz PE 0.310 (7.87) Black -40 (-40) to +158 (70) / 32 (0) to +140 (60) 54.7 lbs (24.8 kg) Indoor Plenum, S, O, H, C Ethernet / IP, Gigabit Ethernet, SBC PE none Unshielded Static 6 30180-8 4 10Base-T 1-250 Mhz PE 0.270 (6.86) Black LSZH -58 (-50) to +167 (75) / -40 (-40) to +167 (75) 34 lbs (15.4 kg) S, O, Direct Bury, H Ethernet / IP, Gigabit Ethernet, SBC PE none Unshielded Static 6 30273-8 4 10Base-T 1-250 Mhz FRPO 0.260 (6.60) Black LSZH 14 (-10) to +176 (80) / 32 (0) to + 176 (80) 31 lbs (14.1 kg) S, H (UL) CMR, CMG 167°F (75°C) (UL) AWM 2570 SBC PE Unshielded Static 62 41239-8 4 Ethernet / IP, Gigabit Ethernet, 1-250 Mhz PVC 0.265 (6.73) Black/Teal -40 (-40) to +167 (75) / -40 (-40) to +167 (75) 35 lbs (15.9 kg) S, O 600V 176°F (80°C) 10Base-T

S: Sun O: Oil C: Chemical H: High Temperature N: NFPA130 2010 Compliant

www.hca.hitachi-cable.com 27 CAN Bus Industrial Cable Applications

Controller Area Network bus style designs, or CAN bus for short, is a bus style data communications standard used heavily in automotive applications for microcontrollers and other devices to communicate together without the need for a host computer. First developed in 1983 and launched into production in 1991, CAN bus has grown in popularity thanks in part for its ability to reduce copper wiring cost while reducing the weight of the cables in the vehicle.

Since its inception CAN bus has become one of five protocols used in the on-board diagnostics (OBD)-II vehicle diagnostics standard, making it a mandatory part for all cars and light trucks sold in the United States after 1996. Several designs, currently are available. CAN bus has expanded beyond the automotive market and has moved into other transportation applications such as locomotive. INDUSTRIAL Hitachi Cable America (HCA) specializes in highly unique industrial applications for CAN bus cables. One example is a high temperature CAN bus sensor cable for engines and locomotive drive systems for NOx reduction.

Applications: Architecture and Cable advantages: • Industrial equipment • Lower costs infrastructures • Production and production automation equipment • System centralization • Robotics and mechanical control • Flexible modifications • Elevators, escalators and people movers • High system reliability and efficiency • Building automation • High temp cable constructions meeting • Medical instruments and equipment NFPA130-2010 Standard • Automotive and Locomotive • Suitable for high vibration environments

1.800.772.0116 28 High Definition Multimedia Interface (HDMI) Cable INDUSTRIAL

Hitachi was one of the original founders of the High-Definition Multimedia Interface (HDMI) technology. The proprietary HDMI standard developed was specifically for transmitting uncompressed and compressed video and digital audio data from an HDMI-compliant end device, to video monitors or a projector. The system requires highly engineered cables to support the application. Our cables are known for their exceptional quality and performance.

Several versions of the HDMI standard have been developed since the inception. The most current standard is HDMI 2.1 which was released in 2017. Moving large amounts of data quickly and with high fidelity was paramount to the HDMI success. The initial standard allowed for 3.96 Gbit/s data rate while the latest standard has skyrocketed to 42.6 Gbit/s.

Thanks in part to Hitachi’s unique construction materials our HDMI cables are well suited to withstand even the most stringent of installation and usage requirements, while providing customers with outstanding performance and cables that last.

UL Style: 20276 | UL Voltage Rating: 30V | UL Temp: 176°F (80°C)

High-Definition Multimedia Interface. Enables true high definition for audio & video content. Ideal for Digital TV.

Applications: High-Definition Multimedia Interface.

Lead Free materials: RoHS and REACH compliant.

PHYSICAL CONSTRUCTION DESCRIPTION Each precision HDMI Cable is extruded using Hitachi Cable America’s unique Flometrics Liquid Film ™ extrusion process. After extrusion, each conductor is braided with balanced, tensioned controlled braiders. Each component is then extruded with a PVC jacket. Multi-coax bundles are cabled together then extruded with an overall PVC jacket. Non jacketed, bundled cables are also available. Please contact the factory.

(4) Shielded Pair (1) Twisted Pair Singles (Insulation Core) Overall Shield Series Number Conductor Insulation Drain Shield Conductor Insulation Conductor Insulation Tape Braid 30 AWG 30 AWG 30 AWG 30 AWG 40516 Flometrics AL/PET SR-PVC PVC AL/PET 90% (7/38) TC (7/38) TC (7/38) TC (7/38) TC

Conductor Attenuation dB/ft (dB/m) Nominal Impedance Resistance Insulation Resistance Time Delay Within Pair Part Number (Ohms) Ohm/km @20°C, 500V-DC ns/m Skew ps/m Nominal 100 MHz 200 MHz 400 MHz @20°C 1.31 1.96 2.95 40516-14-000-S-01000 100 ± 10 357 min. 10M, Ohm/km 4.30 10.00 (0.40) (0.60) (0.90) 1.31 1.96 2.95 40516-15-000-S-01000 100 ± 10 357 min. 10M, Ohm/km 4.20 10.00 (0.40) (0.60) (0.90)

Shielded pairs are color coded with WHT/BLU, WHT/GRN, WHT/RED and WHT/BRN. Single pair is color coded RED/YEL. Singles are color coded ORG, Lt GRY, BLK, BLU and (GRN).

www.hca.hitachi-cable.com 29 Universal Serial Bus (USB) Cable

Universal Serial Bus (USB) was developed to simplify and improve the interface between personal computers and associated peripheral devices as well as the user. Such peripheral devices include keyboards, pointing devices, printers, disk drives, network adapters and portable consumer electronics like video cameras and music players. USB cables were designed to be “hot pluggable” and self-configuring once connected. This greatly alleviated the need for operator device inputs, system configuration and rebooting. The cables were also designed to transmit both signal and power making them highly versatile. In fact, USB cables have become frequently used to power smaller portable devices. The USB standard is unique in that it can takes advantage of peripheral device processing power, enabling the devices to self-manage and speed up operations. However, USB cables are limited in length, generally short runs from a host to a peripheral device. INDUSTRIAL USB 2.0 transmits data at a maximum speed of 480 Mbps. It was released in April of 2000 and is still widely in use today. It has since been superseded by USB 3.0 Superspeed which offers further improvements in performance, i.e. 5.0 Gbit/s, SuperSpeed 3.1 at 10 Gbit/s and SuperSpeed 3.2 at 20 Gbit/s. The USB 4.0 specification released in 2019 is based on the Thunderbolt 3 specification, which supports 40 Gbit/s and is backwards compatible with USB 3.2 and USB 2.0. The new USB-C Standard is just emerging in the market. Please consult your HCA representative to discuss our current USB solutions to fulfill your specification requirements.

USB 3.0 Pin-outs:

1.800.772.0116 30 Superspeed USB 3.0 Cable - Standard 5 Gbits/s

UL Style: 20276 | UL Voltage Rating: 30V | UL Temp: 176°F (80°C) Shield: Dual shield, aluminum polyester and 85% tinned copper braid Cable is UL recognized USB Rev. 3.0 for UL 758 “Appliance Wiring Material” Standard. Jacket: Black PVC (Lead Free) Flame test: VW-1

Applications: Internal and External Interconnection of electronic Diameter: 0.245 inches (6.22 mm) INDUSTRIAL equipment in class 2 circuits. Target Assembly Length: 16.4 feet (5.0 m) External high speed connections; HD video Min. Bend Radius: 6.0 inches (152.4 mm) transfer; external hard drives; Industrial inspection cameras; Industrial sensors.

USB 3.0 High Speed Signal Pairs: Parallel pairs Quantity 2 Insulation Cable O.D. Conductor Insulation O.D. Inches Inches (mm) Twinaxial Twinaxial Minor O.D. Major O.D. (mm) Nominal Shield Jacket Inches (mm) Inches (mm) Aluminum 26 SPC Foamed 0.042 (1.06) 0.023 (0.58) polyester tape and Heat sealed 0.053 (1.34) 0.092 (2.33) Polyolefin 28 AWG Drain wire polyester tape

Contains: Insulation O.D. Description Conductor Insulation Inches (mm)

Power Core SR-PVC 2 Singles 24 (7/34) TC (Lead Free) 0.038 (0.96)

USB 2.0 Pair 26 (7/34) TC FR Polyolefin 0.034 (0.86)

*For more detail on this product please call a sales representative.

Superspeed USB 3.0 Cable - Flexible 5 Gbits/s

UL Style: 20233 | UL Voltage Rating: 300V | UL Temp: 176°F (80°C) Inner jacket: Thermoplastic Elastomer 0.016 inches (0.406 mm) wall Cable is Flexible USB 3.0 with TPU jacket Shield: Braid 38 AWG tinned copper 85% Utilizes shielded twisted pairs for increased flexibility. Jacket: Violet Polyurethane 0.032 inches (0.813 mm) thickness Thermoplastic polyurethane (TPU) jacket suitable for harsh environments. Diameter: 0.372 inches (9.45 mm) Target Assembly Length: 16.4 feet (5.0 m) Applications: External high speed connections; HD video transfer; external hard drives and Machine Vision. Min Bend Radius: 2.50 inches (63.5 mm)

Flexible USB 3.0 High Speed Signal Pairs: Shielded pairs Quantity 2 Insulation Conductor Insulation O.D. Inches Shield Jacket O.D. Inches (mm) (mm) Foamed 38 AWG TC Braid 0.010" 26 (7/34) TC Polyolefin 0.043 (1.09) 92% coverage TPE Gray 0.124 (3.14)

Contains: Insulation Description Conductor Insulation O.D. Inches (mm) Power Core SR-PVC 2 Singles 28 (7/36) TC (Lead Free) 0.035 (0.89)

USB 2.0 Pair 28 (7/36) TC Polyolefin 0.026 (0.66)

*For more detail on this product please call a sales representative.

www.hca.hitachi-cable.com 31 Superspeed USB 3.0 Cable - Extended Length - 5 Gbits/s

UL Style: 20276 | UL Voltage Rating: 30V | UL Temp: 176°F (80°C) Overall Shield: Dual shield, aluminum polyester and 85% tinned copper braid Cable is UL recognized USB Rev. 3.0 for UL 758 “Appliance Wiring Material” Standard. Overall Jacket: PVC (Lead Free) Flame test: VW-1 Applications: Internal and External Interconnection of electronic equipment in class 2 circuits. External high Diameter: 0.293 inches (7.44 mm) speed connections; HD video transfer; external hard drives. Target Assembly Length: 23 feet (7.0 m) Typically used for longer distance USB runs. Min. Bend Radius: 7.0 inches (177.8 mm)

Extended Length USB 3.0 High Speed Signal Twinaxial Pairs: Parallel Pairs Quantity 2 Minor Major INDUSTRIAL Twinaxial Twinaxial Insulation O.D. Cable O.D. Inches Twinaxial Twinaxial O.D. O.D. Conductor Insulation Inches (mm) (mm) Nominal Shield Jacket Inches Inches (mm) (mm) Aluminum Heat sealed 1/23 Foamed 0.058 (1.47) 0.293 (7.44) polyester tape and polyester 0.066 0.118 SPC Polyolefin 26 AWG Drain wire tape (1.68) (3.0)

Contains:

Description Conductor Insulation Insulation O.D. Inches (mm)

Power Core SR-PVC 2 Singles 20 (19/32) BC (Lead Free) 0.062 (1.57)

USB 2.0 Pair 24 (19/36) BC FR Polyolefin 0.046 (1.17)

*For more detail on this product please call a sales representative.

USB 2.0 Cable - 480 Mbits/s

UL Style: 20276 | UL Voltage Rating: 30V | UL Temp: 176°F (80°C) Shield: Dual shield, aluminum polyester and 85% tinned copper braid UL 758 “Appliance Wiring Material” Standard. Jacket: PVC (Lead Free) Applications: Internal and External Interconnection of Flame test: VW-1 electronic equipment in class 2 circuits. Connects computer peripherals such as mice, keyboards, PDA’s, gamepads and joysticks, scanners, digital cameras, printers, personal media players and flash drives.

USB 2.0 Pair Single Pairs Insulation O.D. Conductor Insulation Inches (mm) Twisted Diameter Inches (mm) Nominal

28 7/36 Polyethylene 0.033 (0.84) .066 (1.68)

Description Conductor Insulation Insulation O.D. Inches (mm) Power Core 28 7/36 SR-PVC 0.035 (0.89) 2 Singles

1.800.772.0116 32 Superspeed USB 3.0 Cable - Extended Length - 5 Gbits/s Flat Cable Solutions

Hitachi Cable America (HCA) offers a variety of flat cable designs and materials to help meet your specific performance and environmental needs. Our commitment to excellence ensures that we are globally competitive and efficient. By starting with the best materials and employing world

class manufacturing personnel with access to the best equipment and tooling available, HCA can INDUSTRIAL offer some of the highest performing product with the tightest tolerances (ribbon span and width) in the industry, while ensuring consistent mechanical, electrical and environmental performance and connector compatibility.

Products Offered: • High Performance Ribbon Cables • Micro Quick Twist (MQT Ribbon Cables) • Microzip Cables • Mini Probe Cables • 0.050 inches Pitch Ribbon Cables • Quick-Twist Cables • Shielded Flat Ribbon Cables • Wide Pitch Ribbon Cables

At HCA, our specialty flat cable spans a wide range of styles and constructions. We have seven primary product segments that we support: • Conventional extruded flat: 0.050” and 0.025” PVC zip constructions • Non-conventional extruded flat: 0.033”, 1 mm, 0.100” and 0.156” PVC zip constructions • Twist n flat: Quick Twist (QT) and Micro Quick Twist (MQT) constructions • Flat to round: Transitional cable • ChannelFLEX®: High flex automation cabling (reference the industrial section of the catalog for more details) • Flat Flexible Cable (FFC): Metallic conductors sandwiched between tapes (Reference the transportation section of the catalog for more details) • Cable extruded (non-conventional flat): Micro-coaxial cable and twinaxial cable designs

Cable extruded Twist n flat (non-conventional flat)

Conventional extruded flat Flat to round

Non-conventional extruded flat ChannelFLEX®

Flat Flexible Cable (FFC)

www.hca.hitachi-cable.com 33 Ribbon X (38 & 40 AWG Ribbon Micro-coaxial) Cable

UL Style: 21168 | UL Voltage Rating: 30V | UL Temp: 176°F (80°C)

This ribbonized coax features Hitachi’s top quality micro-coaxial cable.

Cable is fully extruded to eliminate the need for laminating.

UL Approved.

Common ground termination is simplified with parallel ribbon design.

INDUSTRIAL Excellent mechanical strength and flex life characteristics.

Applications: Parallel processing, high speed interconnect, CPU management and board to board interface.

RoHS and REACH Compliant.

Overall Product Specifications Width

Pitch: 0.025 inches (0.635 mm) Span

Pitch Tolerance: ± 0.002 inches (±0.050 mm) 0.0250 +/- 0.0016 Coax Sheath Color: see Note 1 Below Coax Sheath Material: PET Ribbon Jacket: Lead-Free PVC 0.026 +/- 0.002 Impedance @ TDR (ohms): 50 ± 2 Conductor Coating: SPC Alloy 0.0130 +/- 0.004

PHYSICAL CONSTRUCTION DESCRIPTION Basic construction of Ribbon X cable uses 50 ohm coaxial cable built from a silver plated alloy conductor insulated with high temperature insulation. The shield is a 48 AWG tinned copper spiral serve with a copper metalized tape over it. The colored PET tape is applied over the individual coax and a clear PVC jacket is applied over all of the coaxials to form the ribbon construction.

Conductor Conductor Dielectric AWG Diameter Resistance Capacitance Width “W” Span “S” Part Number Number of Diameter Shield Stranding / Inches ohms/ft pF/ft Inches Inches Put-Up Feet (m) Conductors Inches Design Coating (mm) (ohms/m) (pF/m) (mm) (mm) (mm) Insulation @20° C

38 48 AWG TC 7/46 0.013 0.017 0.615 29 0.476 ± 0.005 0.450 ± 0.005 19 Spiral Shield + Silver Plated Alloy (0.34) (0.044) (2.019) (95) (12.105 ± 0.127) (11.430 ± 0.127) Cu metal tape 20037-19-P-00200* FEP 200 (60.96) 38 48 AWG TC 7/46 0.013 0.017 0.615 29 0.501 ± 0.005 0.475 ± 0.005 20 Spiral Shield + Silver Plated Alloy (0.34) (0.044) (2.019) (95) (12.740 ± 0.127) (12.065 ± 0.127) Cu metal tape FEP 40 48 AWG TC 7/48 0.009 0.017 1.125 30 0.475 ± 0.008 0.450 ± 0.006 19 Spiral Shield + Silver Plated Alloy (0.25) (0.044) (3.693) (100) (12.065 ± 0.203) (11.430 ± 0.152) Cu metal tape 20113-19-P-00200* FEP 200 (60.96) 40 48 AWG TC 7/48 0.013 0.017 1.125 30 0.500 ± 0.008 0.475 ± 0.006 20 Spiral Shield + Silver Plated Alloy (0.34) (0.044) (3.693) (100) (12.700 ± 0.203) (12.065 ± 0.152) Cu metal tape FEP 38 48 AWG SPC 7/46 0.013 0.017 0.615 29 0.477 ± 0.005 0.450 ± 0.005 19 Spiral Shield + Silver Plated Alloy (0.34) (0.044) (2.019) (95) (12.115 ± 0.127) (11.430 ± 0.127) Cu metal tape 20227-19-P-00200 FEP 200 (60.96) 38 48 AWG SPC 7/46 0.013 0.017 0.615 29 0.501 ± 0.005 0.475 ± 0.005 20 Spiral Shield + Silver Plated Alloy (0.34) (0.044) (2.019) (95) (12.740 ± 0.127) (12.065 ± 0.127) Cu metal tape FEP Note 1: For 38 AWG color sequence - blue, black repeated with Red for polarity. For 40 AWG - blue, green repeated with yellow Note 2: Other conductor counts available upon request. 20037-10, -25, -30 / 20227-10, -25, -30 available as standard designs. * Made to Order Only / Non-Stock

1.800.772.0116 34 Ribbon Twinax Jacketed Cable

UL Style: 21162 | UL Voltage Rating: 30V | UL Temp: 176°F (80°C)

0.646 +/- 0.007 Intended for rolling flex, continuous motion applications requiring stable 0.560 +/- 0.007 impedance. 0.0800 +/- 0.0023 INDUSTRIAL Precise pair to pair pitch. 0.0565 +/- .002 Applications: Test and measurement equipment, low skew pair to pair and low in pair skew. 0.0430 +/- 0.004 0.280 Nom 0.040 Nom

RoHS and REACH Compliant.

PHYSICAL CONSTRUCTION DESCRIPTION 16 - 30 AWG (7/38) silver plated conductors insulated with FEP are converted into 8 twinaxials, each with a 44 AWG silver plated braid, 90% coverage. Overall, an extruded PVC jacket holds the 8 flexible twinaxials together.

Conductor Propagation Conductor AWG Resistance Impedance Capacitance Part Number Number of Delay Maximum Skew Width "W" Span “S” Stranding / Coating Shield Design ohms/Mft Diff. (G-S) pF/ft Put-Up Feet (m) Conductors Nanoseconds/ft ps/ft (ps/m) Inches (mm) Inches (mm) Insulation (ohms/km) (Ohms) (pF/m) (ns/m) @20° C

30 20257-16-P-00200 7/38 98 13 pF/ft 1.44 Nominal 0.646 ± 0.007 0.560 ± 0.007 96 ± 5 200 feet (60.96 m) Silver Plated (324) 42.5 pF/m (4.72) (16.40 ± 0.177) (14.22 ± 0.177) FEP 31 Braid Shield, SPC, 20265-16-P-00200 16 Conductors 7/39 125 13 pF/ft 1.44 Nominal 0.646 ± 0.007 0.560 ± 0.007 90% 7 ends of 44 100 ± 5 3 (10) 200 feet (60.96 m) (8 twinaxials) Silver Plated (410) 42.5 pF/m (4.72) (16.40 ± 0.177) (14.22 ± 0.177) AWG FEP 30 20225-16-P00200 1/30 102 13 pF/ft 1.44 Nominal 0.646 ± 0.007 0.560 ± 0.007 100 ± 5 200 feet (60.96 m) Silver Plated (334) 42.5 pF/m (4.72) (16.40 ± 0.177) (14.22 ± 0.177) FEP

These cables are made to order. Other conductor counts available upon request.

www.hca.hitachi-cable.com 35 Mini-Probe (3 x 38 AWG 100 ohm Twinax) Cable

UL Style: 21162 | UL Voltage Rating: 30V | UL Temp: 176°F (80°C) Sheath Cu/PET tape Ribbon Twinax design. Inner Flexible 100 ohm construction. Conductor Applications: Non-invasive probe devices, test and measurement, CEP and CMOS video. Dielectric Braid RoHS and REACH Compliant. Shield

INDUSTRIAL .1260 ± .005

.0410 .0820 ± .005 ± .002

.0330 ± .002 .0137 (Ref.) .0220 ± .004

PHYSICAL CONSTRUCTION DESCRIPTION Using individually extruded PFA primaries, conductors are pulled parallel and taped with PET. Each leg is then braided with 85% braid coverage. Each braided core is then jacketed parallel for a flat cable profile.

Conductor Conductor Dielectric Width "W" # of Braid Shield Design/ Resistance Capacitance AWG Diameter Impedance Span "S" Part Number Conductors/ Isolation Tape Jacket ohms/ft pF/ft Stranding/ Coating Inches (Ohms) Inches # of Twinax Mtl. (ohms/m) (pF/m) Insulation (mm) (mm) @20° C 38 85% Coverage 7/46 0.011 6 ends/ 46 AWG Silver 0.615 0.126 (3.200) 20233-6-S-00000 6/3 9 (29) 100 Silver Plated Alloy (0.279) Plated Copper PET (2.019) 0.082 (2.082) PFA Isolation Tape PVC Jkt. Other conductor counts available upon request.

1.800.772.0116 36 0.050 Inches (1.27 mm) PVC Stranded & Hi-Flex Cable

UL Style: 2651 | UL Voltage Rating: 300V | UL Temp: 221°F (105°C)

Symmetrical profile offers easy conductor separation (zip) without cable damage and allows reverse termination.

Design for use with high speed automated termination equipment. INDUSTRIAL Applications: Internal wiring of electronic equipment.

RoHS and REACH Compliant.

.027 ± .002 P

PHYSICAL CONSTRUCTION DESCRIPTION 23100 is extruded gray PVC flat planar cable using 28 AWG (7/36) tinned copper, on 0.050 inch (1.27mm) centers. 23108 is Hi-Flex extruded gray PVC flat planar cable using 28 AWG stranded (19/40) tinned copper, 0.050 inch (1.27 mm) centers. Conductor number one is marked with a red polarity stripe.

Conductor Conductor AWG Resistance Impedance Capacitance Propagation Delay Maximum Part Number Number of Width “W” and Stranding / Coating ohms/Mft Diff. (G-S) pF/ft Nanoseconds/ft Skew ps/ft Put-Up Feet (m) Conductors Span “S” Inches (mm) Insulation (ohms/km) (Ohms) (pF/m) (ns/m) (ps/m) @20° C

23100-06-P-00100 6 23100-09-P-00100 9 23100-10-P-00100 10 23100-12-P-00100 12 23100-14-P-00100 14 23100-15-P-00100 15 23100-16-P-00100 16 23100-20-P-00100 20 23100-24-P-00100 24 23100-25-P-00100 25 28 7/36 AWG TC 67.5 (221.4) 145 ohms 8.90 (29.19) 1.40 (4.59) 0.035 (0.114) 23100-26-P-00100 26 23100-30-P-00100 30 W = XX * 0.050 (1.27) 23100-34-P-00100 34 S = XX * 0.050 (1.27) - 0.050 (1.27) 23100-36-P-00100 36 23100-37-P-00100 37 23100-40-P-00100 40 23100-50-P-00100 50 23100-60-P-00100 60 23100-64-P-00100 64 23108-10-P-00100 10 23108-20-P-00100 20 23108-26-P-00100 26 28 19/40 AWG TC 63.1 (206.96) 142 ohms 8.36 (27.42) 2.90 (9.51) 0.050 (0.164) 23108-34-P-00100 34 23108-34-P-00100 40 23108-50-P-00100 50

Note: XX is number of conductors. Other conductor counts and put-ups available upon request. Available in tinned overcoat copper (20069), 30 AWG Solid TC (20052), 28 solid TC (23197), and 26 AWG stranded TC (23043). Other Put-up lengths possible. Contact factory for details.

www.hca.hitachi-cable.com 37 0.025 Inches (0.635 mm) PVC Solid & Stranded Microzip Cable

UL Style: 2678 | UL Voltage Rating: 150V | UL Temp: 221°F (105°C)

Tightest pitch tolerance in the industry.

Solid conductor construction for lower cost and higher impedance.

Operating temperature: -4°F (-20°C) to +221°F (105 °C).

Applications: Ultra ATA 133 and Ultra 160 SCSI, backwards compatible Internal interconnections for electronic equipment.

INDUSTRIAL RoHS and REACH Compliant.

PHYSICAL CONSTRUCTION DESCRIPTION This Microzip consists of 30 AWG solid bare or stranded tinned copper. Conductors are then fully extruded with PVC insulation. A red polarity stripe is added to the first conductor for easy identification. Standard color is gray. Pitch Tolerance = ± .0016 inches ( ± .040 mm).

23129-20-P-00100 20 23129-25-P-00100 25 23129-26-P-00100 26 23129-34-P-00100 34 23129-40-P-00100 40 30 1/30 AWG BC 104 (34.12) 130 ohms 10.7 (3.26) 1.52 (4.98) 0.036 (0.118) 23129-50-P-00100 50 23129-60-P-00100 60 23129-68-P-00100 68 23129-80-P-00100 80 23129-11*-P-00400 100 W = XX * 0.050 (1.27) 23113-10-P-00100 10 S = XX * 0.050 (1.27) - 0.050 (1.27) 23113-16-P-00100 16 23113-20-P-00100 20 23113-26-P-00100 26 23113-30-P-00100 30 23113-34-P-00100 34 30 7/38 AWG TC 106 (347.68) 110 ohms 15.8 (51.82) 1.62 (5.31) 0.030 (0.098) 23113-40-P-00100 40 23113-50-P-00100 50 23113-60-P-00100 60 23113-80-P-00100 80 23113-11*-P-00400 100

Note: XX is number of conductors. Other conductor counts and put-ups available upon request.

1.800.772.0116 38 0.050 Inches (1.27 mm) Rainbow Ribbon Cable

UL Style: 20932 | UL Voltage Rating: 300V | UL Temp: 221°F (105°C)

Pitch tolerance ± 0.003 inches (± .0762mm). PVC insulated conductors. INDUSTRIAL Applications: Internal wiring of appliances, electronic computers or business equipment. RoHS and REACH Compliant.

PHYSICAL CONSTRUCTION DESCRIPTION This 0.050 inch (1.27 mm) flat Rainbow Ribbon cable is constructed with individually extruded 28 AWG (7/36 stranded TC). All primaries are then pulled parallel and jacketed with clear PVC. Color sequence: ten unique colors: Brown, Red, Orange, Yellow, Green, Blue, Violet, Gray, White, Black and repeat.

Conductor Conductor AWG Resistance Impedance Capacitance Maximum Part Number Number of Propagation Delay Width “W” and Stranding / Coating ohms/Mft Diff. (G-S) pF/ft Skew ps/ft Put-Up Feet (m) Conductors Nanoseconds/ft (ns/m) Span “S” Inches (mm) Insulation (ohms/km) (Ohms) (pF/m) (ps/m) @20° C

23026-09-P-00100 9 23026-10-P-00100 10 23026-14-P-00100 14 23026-15-P-00100 15 23026-16-P-00100 16 23026-20-P-00100 20 23026-24-P-00100 24 W = XX * 0.025 (0.635) 23026-25-P-00100 25 28 7/36 AWG TC 67.5 (221.4) 135 ohms 7.48 (24.53) 1.45 (4.75) 0.086 (0.28) S = XX * 0.025 (0.635) - 0.025 (0.635) 23026-26-P-00100 26 23026-34-P-00100 34 23026-37-P-00100 37 23026-40-P-00100 40 23026-50-P-00100 50 23026-60-P-00100 60 23026-64-P-00100 64

Other conductor counts and put-ups available upon request.

Other variations include 30 AWG and 26 AWG (20074) cables. PVC - BI: Intermittently Heat bonded PVC insulated wires with no lamination tapes. Spacing between bonded section is 6.25 inches (158.75 mm)

www.hca.hitachi-cable.com 39 Micro Quick Twist (MQT) Cable Family

PVC UL Style: 20528 UL Voltage Rating: 300V PVC UL Temp: 221°F (105°C) TPO UL Style: 21057 TPO UL Temp: 194°F (90°C)

Heat bonded construction providing tighter pitch control. Contoured flat sections for ease of IDC termination. Non-laminated versions offer increased air flow. Stranded construction for greater flexibility and flex life.

INDUSTRIAL Solid copper constructions also available. Applications: Constructions are suitable for SE, MSE, LVD, PCIe Gen4.0 and MLVD. RoHS and REACH Compliant.

Conductor Impedance Conductor AWG Resistance Propagation Maximum HCA Short HCA Series Diff. (G-S) Capacitance Stranding / Coating Insulation ohms/Mft Delay Skew ps/ft Description Number (Ohms) pF/m (pF/ft) Insulation (ohms/km) ns/ft (ns/m) (ps/m) @20° C

23195 106 117 ohms 14.9 (48.87) 1.56 (5.116) MQT 30 7/38 AWG TC PVC 0.035 (0.114) 20050 (347.68) 113 ohms 14.6 (47.88) 1.52 (4.98) 20062 10.3 (33.78) TPO MQT 30 7/38 AWG TC TPO 106 (347.6) 120 ohms 1.56 (5.116) 0.035 (0.114) 20051 10.8 (35.78) 20188 30 1/30 AWG TC 125 ohms 11.0 (36.08) 1.45 (4.756) 0.025 (0.082) 20187 20095 120 ohms 10.4 (34.11) 1.56 (5.116) 106 (347.6) 0.025 (0.082) 20089 117 ohms 10.0 (32.8) 1.50 (4.92) 30 7/38 AWG TC TPO DLMQT 20096 TPO 11.0 (36.08) 20090 115 ohms 20185 10.7 (3.26) 1.56 (5.116) 0.035 (0.114) 32 AWG 106 (347.6) 20196 7/40 12.5 (3.81) 120 ohms 20197 Tinned 110 (360.9) 10.7 (3.26) 20036 32 AWG 11.2 7/40 130 ohms (36.745) 20048 Tinned 32 AWG 13.2 20049 7/40 185 132 ohms SMQT PVC (43.31) 1.56 (5.116) 0.035 (0.114) Tinned (606.95) 11.2 20077 130 ohms 32 AWG (36.745) 7/40 13.2 20081 Tinned 132 ohms (43.31) 20092 32 AWG 86 ohms 185 12 (39.37) DLSMQT 20093 7/40 PVC 1.56 (5.116) 0.035 (0.114) (606.95) 90 ohms 20094 Tinned 10 (32.81)

Other conductor counts and put-ups available upon request.

1.800.772.0116 40 0.033”, 1.0 mm, 0.100” and 0.156” PVC Zip Cable

UL Style: 2678 / 2651 | UL Voltage Rating: 150V / 300V | UL Temp: 221°F (105°C) INDUSTRIAL

0.033 inches & 1.0 mm PVC Stranded 0.100 inches Wide Pitch Ribbon 0.156 inches Wide Pitch Ribbon Microzip Cable Constructions Cable Constructions Cable Constructions

PHYSICAL CONSTRUCTION DESCRIPTION HCA’s series 23124, 23147 and 20057 are constructed with stranded tinned copper. Conductors are fully extruded with flexible gray PVC compound. For 0.100 inches wide pitch flat planar cable using 22, 24, or 26 AWG stranded tinned copper, extruded in PVC on 0.100 inches (2.54 mm) centers. Conductor number one is marked with a polarity stripe. Standard cable color is gray. For 0.156 inches wide pitch flat planar cable using 18, 20, or 22 AWG stranded copper, extruded in PVC on 0.156 inches centers. Conductor number one is marked with a polarity stripe.

Conductor Conductor AWG Resistance Impedance Capacitance Part Number Number of Con- Width “W” and Span “S” Conductor Pitch Inches Stranding / Coating ohms/Mft Diff. (G-S) pF/ft Put-Up Feet (m) ductors Inches (mm) Plating (mm) Insulation (ohms/km) (Ohms) (pF/m) @20° C

XX * 0.033 (0.84) 23124-XX-P-00100 96 30 7/38 AWG TC 106 (347.68) 136.2 ohms 14.4 (47.23) XX * 0.033 (0.84) - 0.033 (0.84) 0.033 (0.84) Tinned 20057-XX-P-00100 10, 20, 34, 40, 50 28 7/36 AWG TC 67.5 (221.40) 125 ohms 12.3 (40.3) XX * 0.039 (0.99) XX * 0.039 (0.99) - 0.039 (0.99) 23147-XX-P-00100 44, 50 30 7/38 AWG TC 106 (347.68) 140 ohms 10.03 (32.89) 0.039 (0.99)

23232-XX -P-00YYY 4, 6, 8, 10, 12, 14, 16 26 7/34 AWG TC 42.5 (139.4) 150 ohms 12 (39.36)

23224-XX -P-00YYY 5, 6, 7, 8 , 10, 28 24 7/32 AWG TC 25.7 (84.2) 130 ohms 13 (42.64) Tinned

5, 6, 8, 9, 10, 12, 23225-XX -P-00YYY 22 7/30 AWG TC 15.0 (49.2) 115 ohms 12 (39.36) 16, 20 XX * 0.100 (2.54) XX * 0.100 (2.54) - 0.100 (2.54) 3, 4, 5, 6, 10, 11, 12, 20028-XX -P-00YYY 26 7/34 AWG TTC 43.1 (141.3) 150 ohms 12 (39.36) 0.100 (2.54) 14, 16, 24 Tinned 20027-XX -P-00YYY 10, 12 24 7/32 AWG TTC 26.5 (86.92) 130 ohms 13 (42.64) Topcoated

20026-XX -P-00YYY 3, 4, 7, 10, 14, 28 22 7/30 AWG TTC 15.0 (49.2) 115 ohms 12 (39.36)

20008-XX -P-00YYY 3, 4, 9, 10 22 AWG (7/30) TC 16.8 (55.1) 160 ohms 10 (32.8) Tinned

Tinned 20029-XX -P-00YYY 6, 8, 10, 16, 20, 24 22 AWG (7/30) TC 16.8 (55.1) 160 ohms 10 (32.8) Topcoated

23261-XX -P-00YYY 4, 5, 10 20 AWG (7/28) TC 10.3 (33.78) 140 ohms 11 (36.08) XX * 0.156 (3.96) Tinned XX * 0.156 (3.96) - 0.156 (3.96) Tinned 23198-XX -P-00YYY 10, 12, 15, 18, 24 20 AWG (7/28) TTC 10.3 (33.78) 127 ohms 12.6 (41.32) 0.156 (3.96) Topcoated

23236-XX -P-00YYY 2, 3, 4, 6, 7, 8, 15, 24 18 AWG (19/30) TC 6.07 (19.9) 125 ohms 10 (32.8) Tinned

Tinned 20017-XX -P-00YYY 7, 10, 24 18 AWG (19/30) TTC 6.07 (19.9) 125 ohms 10 (32.8) Topcoated

Other conductor counts and put-ups available upon request.

www.hca.hitachi-cable.com 41 Round to Flat Ribbon Cable

UL Style: 20381 | UL Voltage Rating: 300V | UL Temp: 221°F (105°C)

Available unshielded and double shielded.

Shielded includes an aluminum tape and braid.

Cable core features our 0.050 inch (1.27 mm) pitch gray ribbon cable for use with popular IDC connectors. Core is slit 1.50 inch (38.1 mm) then bonded 0.75 inch (19.05 mm) for ease of termination. INDUSTRIAL

Applications: Internal and external wiring of electronic equipment and consumer products.

RoHS and REACH Compliant.

PHYSICAL CONSTRUCTION DESCRIPTION Cable core consists of slit and bonded flat gray ribbon cable. Core is folded and twisted into a round format before being taped with either Polyester (23149) or Aluminum/Polyester (23122) tape (Al side out). For dual shielded versions, cable is then braided. The core is jacketed in Black PVC.

Capacitance Propagation Conductor Resistance Delay Series Number Number of Conductor Insulation Shielding Jacket AWG ohms/1000 ft Nanoseconds/ft (ohms/Km) (ns/m)

23122-16-P-00660 16

23122-20-P-00660 20

23122-25-P-00660 25

23122-26-P-00660 26

23122-34-P-00660 34 Al/PET Tape & Braid 23122-37-P-00660 37

23122-40-P-00660 40

23122-50-P-00660 50 28 7/36 PVC 67.5 (221.4) 1.62 (5.31) PVC 23122-60-P-00660 60 AWG TC 23122-64-P-00660 64

23149-16-P-00660 16

23149-20-P-00660 20

23149-26-P-00660 26

23149-34-P-00660 34 PET Tape

23149-37-P-00660 37

23149-40-P-00660 40

23149-50-P-00660 50

Other conductor counts and put-ups available upon request. This product is available in 30 AWG solid and stranded constructions. Please consult with factory for more information. Standard jacket color is Black. Other colors are available by special request.

1.800.772.0116 42 Mini-coaxial Cable

UL / CSA Listing (UL) CMG c(UL) 75°C

Meets UL 444 FT-4 Burn Requirements

INDUSTRIAL Various Outside Diameters to meet your specific needs.

Engineered to provide optimal VSWR, minimized attenuation and impedance control.

Single coax or zip construction available.

Applications: RF, wireless, antenna and broadband transmission.

RoHS and REACH Compliant.

Attenuation - dB/ft (dB/m) Conductor Impedance Jacket O.D. Conductor AWG D i e l e c t r i c O . D . Shield AWG Resistance Time Delay Capacitance 100 1.0 2.0 3.0 4.0 5.0 6.0 Part Number Ω I n c h e s ( m m ) (Stranding) I n c h e s ( m m ) Ω/Mft. n s / m p F / f t (TDR) Type / Color Coating Type Braid / Co Type @ 20°C (ns/ft) nom ( p F / m ) MHz GHz GHz GHz GHz GHz GHz (Ω)/km) 0.110 (0.279) 40711-1-000-S-01000 50 +/- 2 0.195 (4.953) 19 (1/19) BC Cellular 36 DSB-TC 7 . 6 1 . 2 7 25 (83) 0.03 0.12 0.17 0.23 0.26 0.29 0.31 Poly O / Black Poly O (25) (4.17) (0.10) (0.40) (0.55) (0.75) (0.85) (0.95) (1.02) 0.105 x 0.22 40386-2-000-S-01000 50 +/- 3 (2.667 x 5.588) 25 (1/25) SC 0.060 (1.524) 38 SB-TC 8 . 1 1 . 5 3 31 (102) 0.07 0.25 0.37 0.50 0.51 0.58 0.66 PVC / Black Clad steel Poly O Alum Tape (2.66) (5.02) (0.21) (0.82) (1.21) (1.64) (1.67) (1.90) (2.17) 0.110 (2.794) 25 (1/125) BC 0.060 (1.524) 8 1 1 . 5 3 0.08 0.24 0.35 0.50 0.57 0.64 40659-1-000-S-01000 50 +/- 3 PVC / Black copperweld Poly O 38 DSB-TC (266) (5.02) 31 (101) (0.26) (0.79) (1.15) (1.64) (1.87) (2.10) - 0.072 (1.829) 0.045 (1.143) 3 7 1 . 2 0 0.10 0.32 40549-1-900-S-01000 50 +/- 2 FEP / White 26 (7/34) SC FEP 36 SB-SC (121 (3.94) 24 (79) (0.33) (1.05) ----- 0.071 (1.803) 0.046 (0.151) 3 7 1 . 2 1 0.10 0.34 40551-1-400-S-01000 50 +/- 2 FEP / Yellow 26 (7/34) SC Cellular FEP 40 SB-TC (121 (3.97) 24 (79) (0.31) (1.11) ----- 0.075 (1.910) 0.037 (0.940) 6 8 1 . 3 6 0.10 0.38 0.55 0.81 40236-1-999-S-01000 50 +/- 5 FEP / Natural 28 (1/28) SC FEP 38 SB-SC (223) (4.46) 29 (95) (0.33) (1.23) (1.80) (2.64) --- 0.072 (1.830) 0.034 (0.860) 9 7 1 . 4 5 0.14 0.54 0.72 1.12 1.20 1.36 1.50 40194-1-000-S-01000 50 +/- 3 FEP / Black 30 (7/38) SC FEP 38 SB-SC (321) (4.76) 28 (92) (0.46) (1.77) (2.37) (3.68) (3.94) (4.46) (4.92) 0.052 (1.320) 0.035 (0.890) 9 9 1 . 4 3 0.13 0.43 0.64 0.76 0.96 1.05 1.21 40505-1-000-S-01000 50 +/- 2 FEP / Black 30 (7/38) SC Special PFA 44 SB-TC (326 (4.69) 29 (95) (0.44) (1.42) (2.11) (2.49) (3.14) (3.43) (3.98) 0.050 (1.270) 0.031 (0.790) 2 6 2 1 . 4 3 0.13 0.58 0.70 0.88 0.98 1.13 1.27 40309-1-000-S-01000 50 +/- 3 FEP / Black 30 (1/30) SC Special PFA 44 SB-TC (868) (4.61) 30 (98) (0.43) (1.89) (2.30) (2.90) (3.20) (3.70) (4.16) 0.037 (0.94) 0.026 (0.660) 44 SB-TSC 1 0 2 1 . 3 2 0.15 0.50 0.88 1.07 1.28 1.52 1.70 40371-1-600-S-01000 50 +/- 3 FEP / Blue 30 (1/30) SC Cellular PE CU tape (340) (4.33) 26 (85) (0.49) (1.64) (2.89) (3.50) (4.20) (5.00) (5.57) 0.060 (1.524) 31 (7/39) SC 0.028 (0.710) 1 5 5 1 . 4 7 0.18 0.70 0.98 1.24 1.46 1.67 1.87 40278-1-000-S-01000 50 +/- 3 FEP / Black Alloy FEP 44 SB_SC (509) (4.82) 31 (101) (0.59) (2.31) (3.20) (4.06) (4.80) (5.49) (6.14) 0.052 (1.320) 0.026 (0.660) 1 8 2 1 . 4 3 0.18 0.59 0.86 0.99 1.23 1.35 1.55 40281-1-800-S-01000 50 +/- 3 FEP / Gray 32 (7/40) SC Special PFA 44 DSB-TC (597) (4.69) 29 (95) (0.59) (1.94) (2.81) (3.25) (4.02) (4.42) (5.09) 0.044 (1.130) 0.026 (0.660) 1 8 1 1 . 4 3 0.18 0.59 0.86 1.06 1.24 1.42 1.57 40322-1-000-S-01000 50 +/- 3 FEP / Black 32 (7/40) SC Special PFA 44 SB-TC (596) (4.69) 29 (95) (0.59) (1.94) (2.81) (3.46) (4.08) (4.66) (5.16) 0.108 (2.740) 0.060 (1.524) 40118-1-160-S-01000 75 +/- 5 30 (7/38) SC 38 SB-SC 9 6 1 . 4 6 0.08 0.30 PVDF / Beige FEP (316) (4.79) 19 (62) (0.26) (0.98) ----- 0.120 (3.050) 0.060 (1.524) 9 6 1 . 4 6 0.08 0.30 40137-1-100-S-01000 75 +/- 5 FEP / Brown 30 (7/38) SC FEP 38 DSB-SC (316) (4.79) 19 (62) (0.26) (0.99) ----- 0.116 (2.946) 0.064 (0.210) 9 7 1 . 4 5 0.08 0.30 40643-1-100-S-01000 75 +/- 3 FEP / Brown 30 (7/38) SC FEP 38 SB-SC (317) (4.79) 19 (62) (0.26) (0.99) ----- 0.098 (2.490) 0.052 (1.32) 1 0 6 1 . 2 9 0.08 0.29 49277-1-000-S-01000 75 +/- 5 PVC / Black 30 (7/38) TC Poly O 38 SB-TC (349) (4.23) 18 (62) (0.25) (0.96) ----- 34 (1/34) Silver 40252-1-900-S-01000 75 +/- 5 0.070 (1.780) CU 0.033 (0.840) 40 SB-TC 7 9 8 1 . 4 6 20 (66) 0.05 ------PVC / White Clad steel FEP (2625) (4.79) (0.16)

www.hca.hitachi-cable.com 43 Micro-Coaxial50 Ohm Micro-Coaxial and Mini-Coaxial Cable Solutions

50 Ohm Micro-Coaxial Cable Maximum Insertion Loss (S21) - dB/m (dB/ft) Jacket O.D. Conductor/ Conductor Propagation Capacitance Part Number Impedance Coaxial Inches AWG Core O.D. Shield Resistance D e l a y p F / m ( p F / f t ) 100 1.0 2.0 3.0 4.0 5.0 6.0 Packaging / Weight Ω Application ( m m ) I n c h e s ( m m ) Ω Ω Notes UL Rating (TDR) Type Jkt Type / (Stranding) Ins. Type Description /m ( /ft) n s / m @ 1 kHz MHz GHz Ghz GHz GHz GHz GHz Color Plating @ 20°C max (ns/ft) nom nom 40626-1-999-S-01000 3 0 4 . 8 m / 0 . 5 5 k g 0.037 (0.94) 36 (7/44) 0 . 0 1 6 ( 0 . 4 0 ) 46 AWG TC 1 . 6 0 4 . 8 5 1 . 2 0 3 . 5 5 5 . 2 5 6 . 5 0 7 . 8 5 9 . 1 0 1 0 . 3 0 ( 1 0 0 0 f t / 1 . 2 2 l b s ) 50 +/- 2 AN FEP / Clear SPC Alloy PFA SB - 90% (0.487) (1.48) 102 (31) (0.37) (1.08) (1.60) (1.98) (2.39) (2.77) (3.14) - N/A HPC-35EF 40322-1-000-S-01000 40322/1 mating 3 0 4 . 8 m / 0 . 8 7 k g 50 +/- 2 AN 0.044 (1.13) 32 (7/40) 0 . 0 2 6 ( 0 . 6 6 ) 44 AWG TC 0 . 5 9 7 4 . 7 5 98 (30) 0 . 6 8 2 . 2 0 3 . 3 5 4 . 2 2 5 . 1 0 5 . 9 5 6 . 7 0 connector ( 1 0 0 0 f t / 1 . 9 3 l b s ) FEP / Black SPC PFA SB - 92% (0.181) (1.45) (0.21) (0.67) (1.02) (1.29) (1.55) (1.81) (2.04) Hirose U.FL

INDUSTRIAL UL 1745 40281-1-800-S-01000 3 0 4 . 8 m / 1 . 3 3 k g 0.052 (1.32) 32 (7/40) 0 . 0 2 6 ( 0 . 6 6 ) 44 AWG TC 0 . 5 9 7 4 . 7 5 0 . 6 8 2 . 2 0 3 . 3 5 4 . 2 2 5 . 1 0 5 . 9 5 6 . 7 0 40281/1 mating ( 1 0 0 0 f t / 2 . 9 3 l b s )50 +/- 2 AN FEP / Gray SPC" PFA DSB - 92% (0.181) (1.45) 98 (30) (0.21) (0.67) (1.02) (1.29) (1.55) (1.81) (2.04) connector UL 1745 Hirose U.FL 40278-1-000-S-01000 3 0 4 . 8 m / 1 . 4 5 k g 0.060 (1.52) 31 (7/39) 0 . 0 3 0 ( 0 . 7 6 ) 44 AWG SPC 0 . 5 0 8 4 . 7 5 0 . 6 0 2 . 1 7 3 . 3 0 4 . 1 9 5 . 0 0 5 . 7 5 6 . 4 0 ( 1 0 0 0 f t / 3 . 2 0 l b s )50 +/- 2 AN FEP / Black SPC Alloy FEP SB - 94% (0.155) (1.45) 98 (30) (0.18) (0.66) (1.00) (1.28) (1.52) (1.75) (1.95) - UL 1745 135 40371-1-600-S-01000 3 0 4 . 8 m / 0 . 5 8 k g 0.037 (0.94) 30 (solid) 0 . 0 2 7 ( 0 . 6 9 ) 44 AWG SPC 0 . 3 4 7 4 . 3 0 0 . 5 4 1 . 8 5 2 . 7 3 3 . 4 2 4 . 0 4 4 . 7 0 5 . 3 0 Ultra-small ( 1 0 0 0 f t / 1 . 2 9 l b s )50 +/- 2 AN PET Tape / SPC Cellular PE SB - 91% (0.106) (1.31) 90 (27) (0.16) (0.56) (0.83) (1.04) (1.23) (1.43) (1.62) diameter UL 1354 Blue w/tape jacket 40309-1-000-S-01000 3 0 4 . 8 m / 1 . 1 1 k g 0.050 30 (solid) 0 . 0 3 2 ( 0 . 8 0 ) 44 AWG TC 0 . 3 4 7 4 . 7 5 0 . 5 6 1 . 7 5 2 . 6 3 3 . 2 5 3 . 8 5 4 . 4 0 4 . 9 0 ( 1 0 0 0 f t / 2 . 4 5 l b s )50 +/- 2 AN ( 1 . 2 7 ) SPC PFA SB - 95% (0.106) (1.45) 98 (30) (0.17) (0.53) (0.80) (0.99) (1.17) (1.34) (1.49) - UL 1943 FEP / Black 40505-1-000-S-01000 3 0 4 . 8 m / 1 . 1 7 k g 0.052 (1.32) 30 (7/38) 0 . 0 3 5 ( 0 . 8 9 ) 44 AWG TC 0 . 3 5 4 4 . 7 5 0 . 5 0 1 . 6 0 2 . 3 8 3 . 0 0 3 . 5 9 4 . 2 0 4 . 7 8 ( 1 0 0 0 f t / 2 . 7 6 l b s )50 +/- 2 AN FEP / Black SPC PFA SB - 95% (0.108) (1.45) 98 (30) (0.15) (0.49) (0.73) (0.91) (1.09) (1.28) (1.46) - UL 1745 40331-1-000-S-01000 3 0 4 . 8 m / 2 . 3 4 k g 0.070 (1.78) 40 (7/38) 0 . 0 3 3 ( 0 . 8 4 ) 38 AWG SPC 0 . 8 0 2 4 . 7 5 0 . 5 2 1 . 7 0 3 . 0 8 ( 1 0 0 0 f t / 5 . 1 6 l b s )50 +/- 2 AN FEP / Black SPA FEP SB - 96% (0.244) (1.45) 105 (32) (0.16) (0.52) N/A (0.94) N/A N/A N/A RG-178/U Type UL 1943 40194-1-000-S-01000 3 0 4 . 8 m / 2 . 3 5 k g 0.070 (1.78) 30 (7/38) 0 . 0 3 3 ( 0 . 8 4 ) 38 AWG SPC 0 . 3 5 4 4 . 7 5 0 . 5 0 1 . 8 0 2 . 6 8 3 . 4 0 4 . 1 0 4 . 7 5 5 . 3 5 ( 1 0 0 0 f t / 5 . 1 7 l b s )50 +/- 2 AN FEP / Black SPC FEP SB - 96% (0.108) (1.45) 98 (30) (0.15) (0.55) (0.82) (1.04) (1.25) (1.45) (1.63) - UL 1943 40236-1-998-S-01000 3 0 4 . 8 m / 2 . 7 2 k g 0.075 (1.91) 28 (1/28) 0 . 0 3 7 ( 0 . 9 4 ) 38 AWG SPC 0 . 2 2 3 4 . 4 6 9 5 0 . 3 3 1 . 2 3 1 . 8 0 2 . 6 4 N/A N/A N/A - ( 1 0 0 0 f t / 6 . 0 0 l b s )50 +/- 3 AN FEP / Natural SPC FEP SB - 96% (0.068) (1.36) (29) (0.10) (0.38) (0.55) (0.81) N/A 40551-1-400-S-01000 3 0 4 . 8 m / 2 . 3 9 k g 0.071 (1.80) 26 (7/34) 0 . 0 4 6 ( 1 . 1 5 ) 40 AWG TC 0 . 1 2 1 3 . 9 7 7 9 0 . 3 1 1 . 1 1 ( 1 0 0 0 f t / 5 . 2 7 l b s )50 +/- 2 AN FEP / Yellow SPC Cellular FEP SB - 95% (0.037) (1.21) (24) (0.09) (0.34) N/A N/A N/A N/A N/A - N/A 49278-1-900-S-01000 3 0 4 . 8 m / 2 . 0 5 k g 0.100 (1.83) 26 (7/34) 0. 060 (1.14) 36 AWG TC 0 . 3 0 1 . 0 5 (1000 ft / 4.52 lbs) 50 +/- 2 AN FEP / White SPC FEP SB - 90% 30.8 (0.94) 5.02 (1.52) 105 (32) (0.09) (0.32) N/A N/A N/A N/A N/A RG 174U Type UL CL2P 40659-1-000-S-01000 Alum/PET 3 0 4 . 8 m / 3 . 9 6 k g 0.110 (2.79) 25 (1/25) 0 . 0 6 0 ( 1 . 5 2 ) Tape plus 0 . 2 6 6 5 . 0 2 1 0 1 0 . 2 6 0 . 7 9 1 . 1 5 1 . 6 4 1 . 8 7 2 . 1 0 ( 1 0 0 0 f t / 8 . 7 3 l b s )50 +/- 3 AN PVC / Black BCW PE 38 AWG TC (0.081) (1.53) (31) (0.08) (0.24) (0.35) (0.50) (0.57) (0.64) N/A LMR 100 Type N/A SB - 93% 40386-2-000-S-01000 Alum/PET 3 0 4 . 8 m / 8 . 5 0 k g 0.105 x 0.220 25 (1/25) 0 . 0 6 0 ( 1 . 5 2 ) Tape plus 0 . 2 6 6 5 . 0 2 1 0 1 0 . 2 1 0 . 8 2 1 . 2 1 1 . 6 4 1 . 6 7 1 . 9 0 2 . 1 7 Siamese ( 1 0 0 0 f t / 1 8 . 7 4 l b s )50 +/- 3 AN ( 2 . 6 6 x 5 . 5 9 ) BCW PE 38 AWG TC (0.081) (1.53) (31) (0.07) (0.25) (0.37) (0.50) (0.51) (0.58) (0.66) construction N/A PVC / Black SB - 93% 40735-1-000-S-01000 3 0 4 . 8 m / 1 1 . 2 7 k g 0.195 (4.96) 19 (1/19) 0.110 (2.79) 36 AWG TC 0 . 0 2 5 4 . 1 7 8 3 0 . 1 0 . 4 0 0 . 5 5 0 . 7 5 0 . 8 5 0 . 9 5 1 . 0 2 ( 1 0 0 0 f t / 2 4 . 8 6 l b s )50 +/- 2 AN PVC / Black BC PE DSB - 95% (0.0076) (1.27) (25) (0.03) (0.12) (0.17) (0.23) (0.26) (0.29) (0.31) LMR 195 Type N/A Key: Micro-Coaxial Application Type: AN - Antenna; AV - Audio/Video; AVP - Audio/Video Plenum rated; CO - Central Office; IM - Industrial/Mining; IT - General; ME - Medical; MT - Military Type

1.800.772.0116 44 75Micro-Coaxial Ohm Micro-Coaxial and Mini-Coaxial Cable Solutions

75 Ohm Micro-Coaxial Cable Maximum Insertion Loss (S21) - dB/m (dB/ft) Jacket O.D. Core O.D. Conductor Propagation Capacitance Part Number Impedance Coaxial I n c h e s ( m m ) Conductor / i n . ( m m ) Shield Resistance D e l a y p F / m ( p F / f t ) Packaging / Weight Ω (TDR) Application Jacket Type / AWG (Strand- Insulation Description Ω/m (Ωft) ns/m (ns/ft) @ 1 kHz 100 MHz 1.0 GHz Notes UL Rating Type Color ing) Plating Type @ 20°C max. nominal nominal 40118-1-160-S-01000 INDUSTRIAL 304.8 m / 4.64 kg 0 . 1 0 8 30 (7/38) 0.060 38 AWG 0 . 3 1 6 4 . 7 9 6 2 . 0 RG 179 (1000 ft / 10.24 lbs) 75 +/- 5 AV/CO ( 2 . 7 4 ) SPC ( 1 . 5 2 ) S P C (0.096) (1.46) (19.0) 0.26 (0.08) 0.98 (0.30) Type UL CMG PVDF / Beige FEP SB - 95% 40137-1-100-S-01000 0 . 1 2 0 304.8 m / 7.23 kg ( 3 . 0 5 ) 30 (7/38) 0.060 38 AWG 0 . 3 1 6 4 . 7 9 6 2 . 0 RG 179 (1000 ft / 15.94 lbs) 75 +/- 5 AV/CO FEP / Lt. SPC ( 1 . 5 2 ) SPC (0.096) (1.46) (19.0) 0.26 (0.08) 0.98 (0.30) Dual Shield UL 1943 Brown FEP DSB - 95% Type

40252-1-900-S-01000 304.8 m / 1.65 kg 0 . 0 7 0 34 (1/34) 0.033 4 0 A W G T C 2 . 6 2 5 4 . 7 9 6 6 . 0 ( 1 0 0 0 f t / 3 . 6 3 l b s75 ) +/- 5 AV/CO ( 1 . 7 8 ) Silver Copper ( 0 . 8 3 9 ) SB - 85% (0.798) (1.46) (20.0) 0.16 (0.05) N/A - UL 1943 PVC / White Clad Steel FEP

75 Ohm for Video Maximum Insertion Loss (S21) - dB/m (dB/ft) Jacket O.D. Conductor Core O.D. Conductor Propagation Part Number Impedance Coaxial I n c h e s ( m m ) / AWG I n c h e s ( m m ) Shield Resistance D e l a y Capacitance 10 22.5 50 100 200 Packaging / Weight Ω (TDR) Application Jacket Type / (Stranding) Insulation Description Ω/m (Ω/ft) ns/m (ns/ft) pF/m (pF/ft) @ 1 MHz 5 MHz MHz MHz MHz MHz MHz UL Rating Type Color Plating Type @ 20°C max. nominal 1 kHz nominal 40637-3-000-S-01000 (or) PET 40637-5-000-S-01000 0 . 1 2 6 0.077 304.8 m / 4.82 kg 75 +/- 3 AV/CO ( 3 . 2 4 ) 26 (1/26) ( 1 . 9 6 ) Aluminum + 0 . 1 3 4 4 . 2 6 5 6 . 1 0 . 0 1 6 4 0 . 0 3 6 0 . 0 3 7 7 0 . 0 7 2 1 0 . 1 0 4 3 0 . 1 2 2 6 0 . 1 4 6 6 (1000 ft / 10. 63 l bs) PVC / Gray SPC Cellular PE 3 8 A W G T C (0.041) (1.30) (17.1) (0.01) (0.01) (0.01) (0.02) (0.03) (0.04) (0.04) UL CMP and CMG SB - 90% 40553-11-000-S-01000 0 . 1 2 6 0.061 304.8 m / 4.82 kg 28 (7/36) + 3 8 A W G T C 0 . 2 2 2 3 . 9 7 5 3 . 0 0 . 0 1 9 7 0 . 0 4 5 9 0 . 0 6 8 9 0 . 1 0 6 4 0 . 1 6 7 3 0 . 2 4 9 3 - ( 1 0 0 0 f t / 1 0 . 6 3 l b s )75 +/- 3 AV/CO ( 3 . 2 4 ) TC ( 1 . 5 5 ) SB - 94% (0.074) (1.21) (16.1) (0.01) (0.01) (0.02) (0.03) (0.05) (0.08) UL CMP and CMG PVC / Gray Cellular FEP 75 Ohm for Mining Maximum Insertion Loss (S21) - dB/m (dB/ft) Jacket O.D. Conductor Dielectric Inner Jacket Conductor Capacitance Part Number Impedance Coaxial I n c h e s ( m m ) / AWG O.D. O.D. in. Shield Resistance Propagation p F / m ( p F / f t ) Packaging / Weight Ω Application ( m m ) Barrier Ω /km Delay ns/m 160 MHz 486 MHz UL Rating (TDR) Type Jacket Type / (Stranding) I n c h e s ( m m ) Type / Description (Ω/1000ft) (ns/ft) nominal @ 1 kHz Color Plating Type Color @ 20°C max. nom 40602-1-400-S-01000 0 . 6 2 7 0.396 0 . 5 3 3 304.8 m / 79 kg (15.93) 11 (1/11) ( 1 3 . 5 3 ) Polyester 0.0236” BC 4 . 0 3 . 9 7 5 3 0 . 0 4 3 N/A 0 . 0 4 3 N/A (1000 ft / 175 lbs) 75 +/- 3 IM PVC / BC ( 1 0 . 0 6 ) P E Tape SPIRAL (1.23) (1.21) (16.15) (0.13) (0.13) M S H A Yellow PE Black 40603-1-400-S-01000 304.8 m / 55.3 kg 0.352 (8.94) 11 (1/11) 0 . 2 4 0 PTFE 0.0236” BC 4 . 0 4 . 1 1 8 2 0 . 0 6 6 0 . 1 6 4 0 . 0 6 6 0 . 1 6 4 ( 1 0 0 0 f t / 1 2 2 l b s75 ) +/- 3 IM PVDF / BC ( 6 . 1 0 ) None Tape SPIRAL (1.23) (1.25) (25.0) (0.02) (0.05) (0.02) (0.05) CL2P Yellow Foam FEP 75 Ohm for Military Maximum Insertion Loss (S21) - dB/m (dB/ft) Jacket O.D. Conductor Dielectric Conductor Propagation Capacitance Part Number Impedance Coaxial I n c h e s ( m m ) / AWG O.D. Shield Resistance Delay ns/m pF/m 50 100 400 1.0 3.0 5.0 11.0 Packaging / Weight Ω Application Inches Ω/km ( p F / f t ) Notes UL Rating (TDR) Type Jacket Type / (Stranding) ( m m ) Description ( Ω /1000ft) (ns/ft) @ 1 kHz MHz MHz MHz GHz GHz GHz GHz Color Plating Type @ 20°C max. nominal nominal 41109-1-000-S-01000 0.425 304.8 m / 63.5 kg MT ( 1 0 . 8 0 ) 13 0.285 34 AWG 5 . 7 7 5 . 0 5 1 0 6 0 . 0 5 6 0 . 2 2 3 0 . 9 2 1 . 9 7 Corona ( 1 0 0 0 f t / 1 4 0 l b s ) 50 +/- 2 m17/75* Non-Cont. (7/0.296) ( 7 . 2 4 ) SPC (1.76) (1.54) (32.2) (0.017) - (0.068) - (0.28) - (0.60) Extinction RG-214 Type PVC / Black SPC PE DSB - 95% (5kV-min) 41478-1-000-S-01000 0.405 304.8 m / 49.8 kg MT (10.29) 13 0.285 34 AWG BC 5 . 7 7 5 . 0 5 1 0 6 0 . 0 5 6 0 . 2 2 3 0 . 9 2 1 . 9 7 Corona ( 1 0 0 0 f t / 1 1 0 l b s ) 50 +/- 2 m17/74* Non-Cont. (7/0.296) ( 7 . 2 4 ) SB - 95% (1.76) (1.54) (32.2) (0.017) - (0.068) - (0.28) - (0.60) Extinction RG-213 Type PVC / Black BC PE (5kV-min) Key: Micro-Coaxial Application Type: AN - Antenna; AV - Audio/Video; AVP - Audio/Video Plenum rated; CO - Central Office; IM - Industrial/Mining; IT - General; ME - Medical; MT - Military Type 41176-1-000-S-01000 0 . 1 9 5 Corona 304.8 m / 11.3 kg MT ( 4 . 9 5 ) 20 0.116 36 AWG TC 4 8 . 5 4 5 . 0 5 1 0 6 0 . 1 3 0 . 2 1 0 . 5 6 0 . 9 2 Extinction ( 1 0 0 0 f t / 2 5 l b s ) 50 +/- 2 m17/28* Non-Cont. (19/.0072) ( 2 . 9 5 ) SB - 93% (14.80) (1.54) (32.2) (0.04) (0.065) (0.17) (0.28) --- (1.9kV- R G - 5 8 T y p e PVC / Black TC FEP min) 41110-1-000-S-01000 0.212 Corona 304.8 m / 18.1 kg ( 5 . 3 8 ) 19 0.116 36 AWG 2 9 . 4 2 5 . 0 5 1 0 6 0 . 2 1 0 . 3 9 0 . 6 9 1 . 3 1 1 . 8 0 2 . 7 6 Extinction ( 1 0 0 0 f t / 4 0 l b s ) 50 +/- 2 MT Non-Cont. (1/0.035) ( 2 . 9 5 ) SPC (8.97) (1.54) (32.2) - (0.065) (0.12) (0.21) (0.40) (0.55) (0.84) (1.9kV- RG-223 Type PVC / Black SPC FEP DSB - 95% min) 41422-1-000-S-01000 0.242 Corona 304.8 m / 16.5 kg MT ( 6 . 1 5 ) 23 0.146 34 AWG BC 1 5 7 . 4 4 5 . 0 5 0 . 2 9 0 . 5 2 Extinction ( 1 0 0 0 f t / 3 6 l b s ) 75 +/- 2 m17/29* Non-Cont. (1/0.0226) ( 3 . 7 1 ) SB - 97% (48.0) (1.54) 72.2 (22) -- (0.09) (0.16) --- (2.3kV- RG-59 Type PVC / Black CCS PE min) 41578-1-000-S-01000 0.425 304.8 m / 44 kg MT ( 1 0 . 8 0 ) 18 0.285 34 AWG TC 21.65 5 . 0 5 0 . 2 1 0 . 8 7 Corona ( 1 0 0 0 f t / 9 7 l b s ) 75 +/- 2 m17/6* Non-Cont. (7/0.0159) ( 7 . 2 4 ) SB - 95% (6.6) (1.54) 72.2 (22) -- (.065) - (0.27) -- Extinction RG-211 Type PVC / Black TC PE (5kV-min)

Key: Micro-Coaxial Application Type: AN - Antenna; AV - Audio/Video; AVP - Audio/Video Plenum rated; CO - Central Office; IM - Industrial/Mining; IT - General; ME - Medical; MT - Military Type *HCA offering against listed Mil Type, but no current Mil spec approvals in place.

www.hca.hitachi-cable.com 45 Small Computer Systems Interface (SCSI) Shielded Cable

Small Computer Systems Interface (SCSI) is a standard legacy system used around the world for fast and effective connection and data transfer between computers and the devices connected to or within them. SCSI is bus technology designed to connect devices to a computer, where all devices connect to a central bus and are “daisy-chained” together. SCSI uses three different signaling types, Single-Ended (SE) Differential, HVD (or high-volt-age differential), and LVD (or low-voltage differential). SCSI is available in both round and flat cable constructions.

SCSI cables available from Hitachi Cable America (HCA) are available in numerous constructions and configurations to best suit the wide variety of applications they are used for. SCSI cables are primarily INDUSTRIAL available as bulk SCSI electronic cable and SCSI ribbon cables.

SCSI electronic cable is manufactured by HCA to meet the most rigorous specifications for computers, PC components, and other electronics. They are also designed and manufactured to satisfy the strict OEM tolerances required by various industries and applications. SCSI cables are available in 28 AWG and 30 AWG SCSI Non Shielded, 30 AWG SCSI Shielded, and SCSI Lite HDI configurations for applications that call for particular size advantages over standard RS-232 cables.

SCSI Electronic Cables are commonly used for: • High density connectors • General purpose point-to-point • Telecom/Datacomm applications • Parallel PC processing • High speed interconnect CPU management • Board to board interfacing • Storage array systems • Blade storage devices • Parallel SCSI, Ultra SCSI and Fast SCSI • RAID devices

Note: Cable assembly shown for reference only. HCA does not manufacture these cable assemblies. Please call the office for more information regarding our assembly partners.

1.800.772.0116 46 30 AWG Non-shielded SCSI NexZO™ Cable

UL/CSA Approved

Meets ANSI X3T.10 Standards for interconnection of SCSI devices.

Hi-Twist used for quality twisted pairs. INDUSTRIAL SPI, SCSI 3 Fast-20 and SPI-2 compliant. METHOD OF TESTING Per ANSI X3T.10 Document: 855 Annex D (Pub. Ref. X3.253-1995).

RoHS and REACH Compliant.

Conductor Capacitance Prop. Delay Part Number Number of Conductors Insulation Tape Resistance Jacket pf/ft (G-S) ns/ft Ω/Mft. @20°C

Flame Retardant PVC Matte 40325-68-000-S-01000 68 11 (3.35) 100% Polypro Tape 1.34 (0.41) 106 Cellular Black Polyolefin

PHYSICAL CONSTRUCTION DESCRIPTION Basic construction uses 30 AWG stranded with FRFPO insulation. Conductors are then twisted into pairs with varying left-hand lays to reduce crosstalk. The required number of pairs are cabled with a left-hand lay, wrapped with a foam polypro tape. The cable is jacketed with Hi-Flex PVC.

Conductor Capacitance Prop. Delay Resistance Part Number Number of Conductors Insulation Tape Jacket pf/ft (pf/m) G-S ns/ft Ω/ft @ 68F Ω/km @ 20°C

40498-68-000-S-01000 PVC Matte 68 Polyolefin 13 (3.96) 100% Polypro Tape 1.53 (0.46) 106 Black 40376-68-000-S-01000

www.hca.hitachi-cable.com 47 30 AWG Shielded SCSI NexZ0™ Cable

UL/CSA Approved

Meets ANSI X3T.9 (Project 0375M Publishes Ref. X3-131- 1994) and X3T.10 (Per ANSI X3T.10 Document: 855 Annex D) Standards for interconnection of SCSI devices.

Hi-Twist used for quality twisted pairs.

Applications: Parallel processing, high speed interconnect CPU management

INDUSTRIAL and board to board interface.

RoHS and REACH Compliant.

PHYSICAL CONSTRUCTION DESCRIPTION Basic construction uses 30 AWG stranded or solid conductor FRFPO. Conductors are then twisted into pairs with varying left-hand lays to reduce crosstalk. The required number of pairs are cabled with a left-hand lay, wrapped with a foam polypro tape, then shielded with both an AL/PET tape (AL side out) and braid shield. The cable is jacketed with Hi-Flex PVC.

Conductor Capacitance Prop. Delay Resistance Part Number Number of Conductors Insulation Tape Jacket pf/ft (pf/m) G-S ns/ft Ω/ft @ 68F Ω/km @ 20°C

Flame Retardant 100% Polypro Tape PVC Matte 49557-50-S-01000 50 1.36 (0.41) 1.13 Cellular & AL/PET Black Polyolefin 10 (3.05) Foam Polypro Tape Flex PVC LF 40471-68-S-01000 68 Cellular Polyolefin 1.42 (0.43) 1.11 & AL/PET Black

Other pair counts available upon request.

1.800.772.0116 48 28 AWG Shielded SCSI & SCSI NexZ0™ Cable

UL/CSA Approved

Meets ANSI X3T.9 (Project 0375M Publishes Ref. X3-131- 1994) and X3T.10 (Per ANSI X3T.10 Document: 855 Annex D) Standards for interconnection

of SCSI devices. INDUSTRIAL

Harmonized CMG listed for safety.

Applications: Internal wiring of electronic equipment such as PC Notebooks, FPDs, LCDs and PDAs.

RoHS and REACH Compliant.

PHYSICAL CONSTRUCTION DESCRIPTION Basic construction uses 28 AWG solid or stranded conductors with FRPP insulation. Conductors are then twisted into pairs with varying left-hand lays to reduce crosstalk. The required number of pairs are cabled with a left-hand lay, wrapped with a foam polypro tape. The cable is then dual shielded with an AL/PET tape (aluminum side out) and braid shield (A 28 AWG drain wire is inserted between the two shields). The cable is then jacketed in a CMG rated PVC jacket.

Conductor Capacitance Prop. Delay Resistance Part Number Number of Conductors Insulation Tape Jacket pf/ft (pf/m) G-S ns/ft Ω/ft @ 68F Ω/km @ 20°C

48331-50-000-S-01000 50

48331-68-000-S-01000 68 14 (4.27)

48331-100-000-S-01000 100 1.50 (0.46)

48213-50-000-S-01000 50 Flame Retardant 100% 48213-68-000-S-01000 68 Polypropylene Polypro Tape PVC 10 (3.05) 67 & AL/PET Black 48360-50-000-S-01000 50 Flame Retardant 1.54 (0.47) 48360-68-000-S-01000 68 Cellular

48212-50-000-S-01000 50 8 (2.44) 1.40 (0.43) 48212-68-000-S-01000 68

40426-68-000-S-01000 68 10 (3.05) 1.35 (0.41)

* The 50 pair 48331 series cable is compliant with High Performance Parallel Interface (HiPPI). Other pair counts available upon request.

www.hca.hitachi-cable.com 49 VGA & SVGA Cable

Video Graphics Array (VGA) and Super Video Graphics Array (SVGA) also known as enhanced or ultra VGA cables have been around for a very long time. Many computers, monitors and even televisions still support these connections despite the advancement of other video standards such as DVI and HDMI. VGA cables support 640 x 480 resolutions, while SVGA support up to 800 x 600 resolution. Both standards are being used for existing legacy equipment and new installation conversion cabling.

Hitachi Cable America (HCA) provides cables that are well suited for carrying high-resolution signals over long distances of several meters in length. Without a high-quality cable image quality can suffer, such

INDUSTRIAL as double images, smeared images and, possibly, no image at all. When transmitting high-resolution images over distances shorter than 5 feet, lower cost, less sophisticated cables are likely to be adequate. The standard construction uses 28 and/or 26 AWG stranded tinned copper conductors with cellular insulation. Twisted pair (or discrete wires) are cabled with coaxes and shielded. Both non-plenum and plenum rated constructions available.

VGA & SVGA Cable Applications: • Flat screen displays • Multi-media applications • External wiring of monitors, CRT’s and other video graphic displays • LCD projectors for extended remote distances

Note: Cable assembly shown for reference only. HCA does not manufacture these cable assemblies. Please call the office for more information regarding our assembly partners.

1.800.772.0116 50 SVGA Series Cable

UL/CSA Approved PVC Jacket Standard design for VGA applications. Braid Shield Various configurations available. INDUSTRIAL

Low attenuation with cellular Polyolefin construction.

Composite cable in custom designs available.

Applications: Internal wiring of electronic equipment such as PC Notebooks, FPDs, LCDs and PDAs.

RoHS and REACH Compliant. 1 Coax 30 AWG FMPP Insulation

Outer Jacket

Braid Shield

PHYSICAL CONSTRUCTION DESCRIPTION Basic construction uses 30 AWG stranded tinned copper conductor with cellular Polyolefin insulation. Twisted pairs (or discrete wires) are cabled with coaxes and shielded. The cable is jacketed with Pebble Gray PVC.*

Conductor Impedance (Ohms) Capacitance (pF/ft.) Prop. Delay Resistance Series Number Coax Shield Nominal Nominal ns/ft. Ω/ft @ 68F Ω/km @ 20°C

(Coax) 38 AWG TC 85% Braid 49020 30 AWG (7/38) TC (Overall) AL/PET tape +36 AWG TC 85% Braid (Coax) 75 17 (5.18) 1.33 (0.41) 105.8 (32) 38 AWG TC 85% Braid (Overall) 48969 30 AWG (7/38) TC AL/PET/AL tape +36 AWG TC 85% Dual Braid

Number of Jacketed O.D. (Nom.) Part Number Number Misc. Conductors Color Coax Coaxes Inches (mm)

49020-7-850-S-01000 3 4 (discrete) Red, Green and Blue 0.3 (7.62)

48969-13-850-S-01000 3 10 (5 pair) Red, Green and Blue 0.38 (9.703)

*Pebble Gray is the standard jacket color for this product but other colors are available upon request.

www.hca.hitachi-cable.com 51 Plenum Rated VGA & SVGA Cable Braid Shield UL/CSA Approved PVDF Jacket Plenum rated version; CMP rated for in ceiling routing. 26 AWG Foam Standard design for SVGA applications. FEP Low attenuation with cellular FEP Flometrics construction. Insulation Applications: LCD projectors for extended remote distances. RoHS and REACH Compliant. INDUSTRIAL

Braid Shield Outer Jacket

PHYSICAL CONSTRUCTION DESCRIPTION Basic construction uses 28 and/or 26 AWG stranded tinned copper conductors with cellular FEP insulation. Twisted pair (or discrete wires) are cabled with coaxes and shielded. The cable is jacketed with Black LS PVC. Cable is Plenum rated.

Conductor Impedance (Ohms) Capacitance (pF/ft.) Prop. Delay Resistance Series Number Coax Shield Nominal Nominal ns/ft. Ω/ft @ 68F Ω/km @ 20°C

(Coax) 38 AWG TC 94% Braid 40974 28 AWG (7/36) TC (Overall) 18.1 1.33 67 AL/PET tape +36 AWG TC 85% Braid 75 (Coax) 40637 26 AWG (7/34) TC 38 AWG TC 92% Braid 16.7 1.22 41 AL/PET tape

Jacketed O.D. (Nom.) Part Number Number of Coaxes Number Misc. Conductors Color Coax Inches (mm)

40974-11-000-S-01000 3 3 pair + 2C Red, Green and Blue 0.269 (6.83)

40637-3-000-S-01000 3 N/A Red, Green and Blue 0.249 (6.32)

40637-5-000-S-01000 5 N/A Red, Green, Blue, Yellow and Black 0.304 (7.72)

1.800.772.0116 52 Robotic & Automation Cable

Robotic cable demand and the need for ruggedized and highly sophisticated cables is growing at an exceptional pace. Our cables are designed to withstand harsh environments similar to conventional industrial cabling with the added benefit of long service life under bending and torsional strain. Power, monitoring and communication cabling features Halogen-free Polyurethane outer sheathing that is INDUSTRIAL resistant to UV light, oils, hydrolysis and microbial attack. The jacketing offers low external adhesion, abrasion resistance, self-extinguishing and flame retardant properties.

Our cables can be used in combination with our high-flex life core components as well fiber

optic subelements, resulting in hybrid cables capable of withstanding millions of alternating bend cycles (some rated for as much as 5 million rolling flex cycles). Hybrid cables are ideal for product miniaturization and overall system architecture simplification.

Benefits of robotic cabling: • Mechanical, chemical and thermal ruggedness • Rigid but flexible constructions able to withstand millions of flex cycles with raid acceleration and deceleration • Outstanding tensile and compressive strength with excellent torsional stress resistance • Resistant to high temperatures, welding spatters, oils and various other chemicals • Highly abrasion and media resistant while retaining the original materials high flexibility • Can be designed to withstand Tick-tock, S-bend, C-track and small bend radius flexing • Ability to withstand high mechanical loads • Individually labeled conductors help with conductor organization and connectorization

Applications: • Data communication (USB3, Display Port, CAN bus, CameraLink, Ethernet, Power Over Ethernet (PoE) and GigE Vision) • Monitoring (alarm systems, control systems and device messaging) • Control and proportional valve cables • Regulated voltage cables for welding control • Bus cables • Power delivery cabling

www.hca.hitachi-cable.com 53 Robotic & Automation Cable

Binder Tape UL/CSA Approved

Spiral Serve Rated for 5 Million rolling Flex Cycles. Rigid but flexible construction. Binder Smaller bend radius. Individually labelled conductors. Separator Robust construction. RoHS and REACH Compliant. INDUSTRIAL * Drawing shown is series number 40722 referenced below.

PHYSICAL CONSTRUCTION DESCRIPTION Each robotic cable is PVC Jacket designed with high strand tinned copper. Paired, quad or single components are used and cabled together overall AL/PET (AL side in) tape and drain with Single Conductor jacketed in oil resistant PVC.

Conductor AWG Number of Jacketed OD Bend Radius Number Series Number Stranding / Coating Insulation Shield Tapes Outer jacket Overall Shield Conduc- Pounds of Cu (Nom.) Inches Inches of Pairs Insulation tors (mm)

Ind. Pairs 40722 22 AWG (26/36) TC SR PVC 36 AWG TC 7.00 33 16 212 0.710 (18.03) Spiral 16 AWG (105/36) Oil Resistant Overall 34 AWG PTFE Yes 40815 TC PVC PVC 7.75 37 0 363 0.780 (19.81 TC SPiral 18 AWG (65/36) TC 16 AWG (105/36) Overall 34 AWG 40721 PVC 9.00 49 0 552 0.910 (23.11) TC TC SPiral

6 Conductors UL/CSA Approved 16 AWG PVC Rated for 1 Million Rolling Flex Cycles. Insulation Priced for lower flex applications. Robust construction. Individually labelled conductors. RoHS and REACH Compliant. Outer * Drawing shown is series number 40210 referenced below. Jacket

PHYSICAL CONSTRUCTION DESCRIPTION Each robotic cable is designed with high strand tinned copper. Paired, quad or single components Single Conductor are used and cabled together overall AL/PET (AL side in) tape and drain with jacketed in oil resistant PVC.

Conductor AWG Jacketed Bend Radius Number of Number of Series Number Stranding / Coating Insulation Shield Tapes Outer jacket Pounds of Cu OD (Nom.) Inches Conductors Pairs Insulation Inches (mm)

40517 22 AWG (19/34) TC SR PVC AL/PET Part of Sheild PVC 7.00 33 16 137 0.580 (14.73)

16 AWG (65/34) TC 40210 PVC Overall AL/PET PET PVC 11.75 37 0 293 0.985 (25.02) 18 AWG (41/34) TC 40211 16 AWG (65/34) TC PVC Overall AL/PET PET Oil Resistant PVC 14.50 49 12 quads 473 1.200 (30.41)

1.800.772.0116 54 ChannelFLEX® Flat Cable

ChannelFLEX® is a unique cabling solution that permits the owner to safely run cables and/or hoses in flat pods, from Point A to Point B, without concerns of binding or kinking. ChannelFLEX® utilizes an internal structure that supports the entire construction and eliminates the need for C-track in assembled form. ChannelFLEX® reduces installation time,

minimizes cable related downtime, and ensures maximum performance. INDUSTRIAL

C-track material, when flexed, generates particulates. ChannelFLEX® utilizes enclosed pods made from ultra-low friction material that encapsulate and trap unwanted particulate. ChannelFLEX® pods are designed to accommodate a number of cables and/or tubes carrying gases or liquids.

ChannelFLEX® is designed for long and predictable flex life applications (up to 30,000,000 cycles or more for some cables). The quantity of pods in the ChannelFLEX® link can be customized. You can have individual or multiple cables per pod. If desired, a self- supporting non-metallic chain can be inserted into a pod to allow the link to maintain a minimum bend radius. This feature ensures cable and tube bend radius minimums are not exceeded.

The ChannelFLEX® link is IPA Class 1 rated for particulate emissions, it can be used in cleanroom environments, such as those in medical or semiconductor manufacturing.

Features: • Longer flex life • Improved flexibility • EMI/RFI shielding performance approaching a braid shield and certainly better than a spiral shield • Improved termination of the shield

www.hca.hitachi-cable.com 55 ChannelFLEX® Flat Cable

Build a Laminated Cable • Composite laminated EPTFE outer jackets • Eliminates migrating particulates • Trackless construction where C-track is utilized or internal self-supporting chains are not required • Extended flexlife construction

INDUSTRIAL • Stackable configuration • More compact configuration with custom pod shapes • High-volume/low cost solution

APPLICATIONS • Robotic, linear motion, pick and place, medical and UL Style: 21671 pharmaceutical, wafer manufacturing and handling. UL Voltage Rating: 300V UL Temp: 150°C

If you want Hitachi to provide a laminated cable assembly...

Please provide the following information: # of pods

the application cables to be used in each pod or sequence of pods

overall length of the cable to be produced. Note: Minimums do apply

desired width of pod material. For widths beyond 4 inches, please consult with HCA

Note: Self-supporting chains are not available in laminated constructions.

PHYSICAL CONSTRUCTION DESCRIPTION Various components are laid parallel and fully laminated with composite laminated ePTFE jacket. Each independent construction is made to specific widths and tolerance. Consult HCA for construction options. Examples are below.

Conductor Number of Operating Bend Part Number AWG Conductors Shield All Temp Width / Thickness POD Jackets Temperature °F Radius Put-Up Feet (m) Coating Pairs Design Pods Shielded (°C) Inches (mm) Inches (mm) Insulation Pods

20269-38-P-00100 26(19/38) TC 38 All pods 18 (65/36) BC 16 -13°F to 176°F 2.47 (62.73) 90% TPU (-25°C to 80°C) Yes 1.60 (40.64) 0.135 (3.42) 100 (30.48) TPE/FEP 6 Braid TC

All pods 20269-38-P-00100 26(19/38) TC 39 90% 12 (19/34) TC 13 Alloy -13°F to 176°F 1.66 (42.16) FEP/PTFE (-25°C to 80°C) Yes 1.75 (44.45) 0.208 (5.28) 100 (30.48) TPE 3 Braid SPC

20268-15-P-00100 24(19/36) TC 15 95% 0.62 (15.74) SPC Alloy 0 -22°F to 176°F Spiral TPU (-30°C to 80°C) Yes 1.75 (44.45) 0.135 (62.738) Examples 100 (30.48) FEP 1 BC

8(420/34) TC ETFE 20240-21-P-00100 20(41/36) TC ETFE 21 90% 22(19/34) TC FEP -13°F to 176°F 3.16 (80.26) 5 Dual TPU (-25°C to 80°C) No 3.25 (82.55) 0.250 (6.35) 100 (30.48) 16(105/36) TC 9 Spiral ETFE

1.800.772.0116 56 ChannelFLEX® Flat Cable

Build Your Own ®

ChannelFLEX Cable INDUSTRIAL Semiconductor robotics cable or medical cable can be very expensive due to the sizeable minimum order quantities for typical extrusion lines. Now, with the ChannelFLEX® system from Hitachi,

you can avoid the high costs and extra cable length by buying just the cable components you need and assembling the cable at your facility.

Step 1: Select the number of pods for your cable. See Table 1 below. Step 2: Choose the application cable(s) needed in Self-Supporting Chains. each pod. See tables on pages 58 & 59. Step 3: Add a self-supporting chain** of the right radius if required (choose from 40mm, 70mm and 100mm). Figure A Self-supporting chain is used to hold the cable up during Step 4: Choose the tubes (if any) that you want. its flexing cycle without the use of C-track. Visit the HCA website for tube information. Step 5: Optional. If you wish to add clamps or have connectors installed.

Self-supporting chain The ePTFE pod is IPA Class 1 rated for particulate emission.

The pod tubes can hold one or more cables, self-supporting chain or tubing. Standard pods are shown in Figure A, but custom-sized pods and custom-designed cables are always an option.

PHYSICAL CONSTRUCTION DESCRIPTION Each ChannelFLEX® assembly is unique to the customer requirement, combining appropriate class 1 pod(s) to support the desired number of cables for each cable assembly. Customer can deliver assemblies fabricated in own factory to any length desired, with the ChannelFLEX® ultimate custom cabling configuration system.

POD Thickness Inches POD Width* Inches POD Overall Width Inches POD Part Number Number of POD (mm) (mm) (mm)

20379-1 1 POD 0.04 (1.0) 0.75 (19.0) 0.93 (23.6)

20379-2 2 POD 0.04 (1.0) 0.75 (19.0) 1.77 (44.91)

20379-3 3 POD 0.04 (1.0) 0.75 (19.0) 2.61 (66.2)

20379-4 4 POD 0.04 (1.0) 0.75 (19.0) 3.45 (87.5)

20379-5 5 POD 0.04 (1.0) 0.75 (19.0) 4.29 (108)

20379-6 6 POD 0.04 (1.0) 0.75 (19.0) 5.13 (130.1)

20379-7 7 POD 0.04 (1.0) 0.75 (19.0) 6.05 (153.7)

20379-8 8 POD 0.04 (1.0) 0.75 (19.0) 6.95 (176.7)

20387-1 1 POD 0.04 (1.0) 1.18 (30.0) 1.36 (34.5)

20386-1 1 POD 0.04 (1.0) 4.11 (104.39) 4.29 (109)

20385-1 1 POD 0.04 (1.0) 4.96 (125.73) 5.14 (123.6)

20384-1 1 POD 0.04 (1.0) 1.50 (38.1) 1.68 (42.7)

20383-1 1 POD 0.04 (1.0) 2.43 (61.72) 2.61 (66.3)

20381-1 1 POD 0.04 (1.0) 3.27 (83.06) 3.45 (87.6)

20388-3 3 POD 0.04 (1.0) 1.50 (38.1) 4.86 (123.4)

*0.75 inches (19 mm) is the standard Pod width. Other sizes, considered custom, are available. **Self-supporting chain not sold individually.

www.hca.hitachi-cable.com 57 ChannelFLEX® Flat Cable

Application Cables

Diameter HCA Part No. of cables that Cable Cross Section Description Construction (Nominal) fit in 0.75 Number Inches (mm) inches (19 mm) POD

Conductor - Bare Copper, 4/C 20 AWG FEP INS. EPTFE 20 AWG 4 Conductor INDUSTRIAL Insulation - FEP, 41074-4 Shielded Servo Montor 0.212 (5.38) 2 Binders Spiral Shield Binder - ePTFE, Power Cable PVC Jacket Jacket - PVC LF1

Conductor - Bare Copper, 6/C 20 AWG FEP INS. EPTFE 20 AWG 6 Conductor Insulation - FEP, 41074-6 Shielded Servo Motor 0.246 (6.25) 2 Binders Sprial Shield Binder - ePTFE, Power/Brake Cable PVC Jacket F=Filler Jacket - PVC LF

Conductor - Bare Copper, 4/C 18 AWG FEP INS. EPTFE 18 AWG 4 Conductor Insulation - FEP, 41073-4 Shielded Servo Motor 2.35 (5.97) 2 Binders Spiral Shield Binder - ePTFE, Power Cable PVC Jacket Jacket - PVC LF

Conductor - Bare Copper, 4/C 16 AWG FEP INS. EPTFE 16 AWG 4 Conductor Insulation - FEP, 41072-4 Shielded Servo Motor 0.269 (6.83) 1 Binders Spiral Shield Binder- ePTFE, Power Cable PVC Jacket Jacket - PVC LF

5 PR. 26AWG ETFE INS. Filler Conductor - Tinned Copper, ePTFE Binder 26 AWG 5pr Shielded 5 PR. 26 AWG ETFE INS. Filler Insulation - ETFE, Spiral Shield Servo Motor Encoder 41426-10 Binder - ePTFE, 0.215 (5.46) 2 ePTFE Binder PVC Jacket Spiral Signal Dual Spiral Served Shield, Shield PVC Jacket Power & Control Jacket - PVC LF

7/C 22AWG FEP INS. Filler ePTFE Binder Conductor - Tinned Copper, 7/C 22 AWG FEP INS. Filler Insulation - FEP, Spiral Shield 22 AWG 7/c Shielded 41414-7 Binder - ePTFE, 0.235 (5.97) 2 ePTFE Binder PVC Jacket Spiral Power & Control Shield PVC Jacket Spiral Served Shield, Jacket - PVC LF

2 /C 22AWG ETFE INS. 2 PR. 26AWG ETFE INS. Conductor - Tinned Copper, 22 AWG 2c + 26 AWG 6/C COMPOSITE 26 ePTFE AWG Tape ETFE INS. Insulation - FEP & ETFE, 2pr Shielded Servo Motor Spiral Shield 41427-6 Binder - ePTFE, 0.200 (5.1) 2 ePTFE Tape Spiral Shi Encoder Signal Power & PVC Jacket C.O. Spiral Shield, eld PVC Jacket Control Jacket - PVC LF

1.800.772.0116 58 ChannelFLEX® Flat Cable

Application Cables (continued)

Diameter No. of cables that HCA Part fit in 0.75 (Nominal) INDUSTRIAL Cable Cross Section Number Description Construction inches (19 mm) Inches (mm) POD

3/P 26 AWG (.15mm2) 3/P 26 AWG ETFEETFE INS. Ins. & (A) 2/C 22 AWG (.33mm2) FEP Ins. Conductors - Tinned Copper, 2/C 22 AWG FEP INS.(B) EPT- 22 & 26 AWG 8pr ePTFE Tape Insulation - ETFE, FE Tape F C.O. Spiral 41877-8 Shielded Control Cable 0.230 (5.8) 2 C.O. Spiral Shield Binder - ePTFE, Power & Control Shield PVC PVC Jacket Jacket Jacket - PVC LF F+FillerF = Filler

Conductor - Bare Copper, 4/C 26 AWG FEP EPTFE 26 AWG 4 Conductor Insulation - FEP, Binders Sprial Shields 41081-4 Shielded IEEE 1394 Binder - ePTFE, 0.216 (5.5) 2 PVC Jacket F=Filler Communication Jacket - PVC LF

4/P 26 AWG FEP INS. Conductor - Tinned Copper, PTFE Tape Dual 26 AWG Cat 5e Insulation - FEP, 41231-8 Ethernet Patch Cable Binder - ePTFE, 0.240 (6.10) 2 Spiral Shield PTFE Tape Communication Dual Spiral Served Shield, PVC Jacket Jacket - PVC LF

8 PR. 26AWG ETFE INS.

ePTFE Binder Conductor - Tinned Copper, 8 PR. 26 AWG ETFE INS. ePTFE 41410- 26 AWG 8pr Signal I/O Insulation - ETFE, PVC Jacket 0.220 (5.6) 2 Binder PVC Jacket 16 Communication Binder - ePTFE, Jacket - PVC LF

Conductor - Bare Copper, 2/C 22 AWG FEP INS. EPTFE 22 AWG 2 Conductor Insulation - FEP, 41082-2 Shielded IEEE 1394 0.150 (3.8) 2 Binders Sprial Shield Binder - ePTFE, Communication PVC Jacket F=Filler Jacket - PVC LF

COMPOSITE CABLE 2 COAX 30 AWG 4/C 26 24 AWG 3c + 28 Conductor - Bare Copper, AWG 3c + 2c Coaxial Insulation - FEP, 41224-8 0.225 (5. 8) 1 AWG 2/C 26 AWG Shielded Video & Binder - ePTFE, PTFE Tapes Braid Vision Cable Jacket - PVC LF Shield PVC Jacket

3 COAX 30 AWG C.O. Spiral Shield Conductor - Silver Plated Alloy Copper, Insulation - FEP Fluoropolymer, ePTFE Tape 3 Conductor 75 Ohms 3 COAX 30 AWG Spiral Dual Spiral Served Shield, PVC Jacket 41078-3 30 AWG Coaxial 2.65 (6.73) 1 FEP Inner Jackets, Shield ePTFE Tape Video Cable Binder - ePTFE, Jacket - PVC LF

www.hca.hitachi-cable.com 59 Other Industrial Standards

Sometimes people use the term ‘legacy cabling’ to describe an old technical standard. However, some technology is designed to operate with a 5 year life cycle while others operate with a 25 or 35 year life cycle or longer. Legacy cabling is more appropriately deemed existing infrastructure cabling that has varying life cycles in different industries. While other cable companies prematurely drop production of older technologies, Hitachi Cable America understands that many of these standards are so well established that to change the infrastructure is often costly and not always possible. As the old adage goes, “If ain’t broke, then don’t fix it”, all too often applies. Hitachi makes an extra effort to provide support for

INDUSTRIAL the most popular application cable styles such as:

IEEE 1284: The IEEE 1284 standard released in 1994, was designed primarily around printer throughput. It allowed for faster transfer data than previous SCSI interfaces and it could be produced at a much lower cost. This benefited many aspects of the computer network (scanners, tape drives, hard disks, network adapters and other devices). Expensive SCSI cards were no longer necessary, the built-in parallel interface was sufficient.

UL2464 styles that historically supported RS232 devices: The Underwriters Laboratories (UL) AWM (appliance wiring material) 2464 cable usually has a general purpose PVC jacket and is available from 2 to 10 conductors or more in a wide range of gauges (16 AWG to 28 AWG) resulting in outer diameters from 3.8 mm to 6.5 mm.

1.800.772.0116 60 IEEE 1284 Bidirectional Printer Cable

UL/CSA Listing: (UL) CMG c(UL)75°C Meets UL 444 FT-4 Burn Requirements

IEEE Std. 1284-1994 Compliant. (IEEE Standard for Bi-Directional, Parallel Peripheral Interface for Personal Computers). INDUSTRIAL Choose from a wide selection of conductor counts.

Application: Bidirectional Printers, IEEE 1284 applications.

REACH and RoHS compliant.

PHYSICAL CONSTRUCTION DESCRIPTION Basic construction uses 28 AWG stranded tinned conductor solid polyolefin insulation 0.026 inches Nominal O.D. Conductors are then twisted into pairs with varying left-hand lays to reduce crosstalk. The pairs are cabled with a left-hand lay, shielded with both an AL / PET tape (AL side out) and braid shield. The cable is jacketed with Black Hi-Flex PVC.

Number of Nominal Primary O.D. Part Number Conductors Conductor Insulation Inches (mm) Tape Braid Drain Jacket

Flame Retardant Solid 0.026 (0.660) 100% AL/ Polyolefin PET 28 AWG 85% 49112-36-H00-000 36 7/38 Coverage N/A Flex PVC TC Capacitance Unbalanced Conductor Resistance Ω/ 36 AWG Black pf/ft. (pf/m) Mft @20°C (Ω/m @20°C)

20.2 (6.15) 67 (0.2198) 24 AWG Discrete SR-VPC Foil Shielded Cable

UL Style: AWM 2464 CMG | UL Voltage Rating: 300V | UL Temp: 169°F (76°C)

Large range of conductor counts available.

Application: RS-232 and other internal or external interconnection of electronic equipment.

REACH and RoHS compliant.

PHYSICAL CONSTRUCTION DESCRIPTION Basic construction uses 24 AWG stranded tinned copper conductors, SR-PVC insulated 0.037 inches Nominal O.D. The required number of discrete- conductors are cabled together with a left-hand lay and wrapped with an AL/PET tape (AL side out) and drain. The standard jacket color is chrome gray.

Nominal Number of Primary Jacket O.D. Part Numbers Conductors Insulation Conductors O.D. (Nominal) Tape Drain Jacket Inches (mm) Inches (mm)

48837-2-880-S-01000 2 0.130 (3.302)

48837-4-880-S-01000 4 0.169 (4.293)

48837-7-880-S-01000 7 0.169 (4.293) 24 AWG 7/32 Chrome SR PVC 0.037 (0.940) 100% AL/PET 24 AWG 7/32 TC 48837-10-880-S-01000 10 TC 0.193 (4.902) Gray PVC

48837-12-880-S-01000 12 0.205 (5.207)

48837-15-880-S-01000 15 0.233 (5.918)

48837-25-880-S-01000 25 0.271 (6.883)

www.hca.hitachi-cable.com 61 UL2464 Control & Communications Cable

UL Style: AWM 2464 CMG | UL Voltage Rating: 300V | UL Temp: 176°F (80°C)

Large range of conductor counts available. Application: RS-232 and other internal or external interconnection of electronic equipment. RoHS Compliant INDUSTRIAL

PHYSICAL CONSTRUCTION DESCRIPTION From 3 to 50 conductors are cabled together with a left hand lay and wrapped with an aluminum/mylar shield. A 24 AWG7/32 tinned copper drain wire is applied overall. 100% shield coverage. See customer specification for color code.

Nom. Primary O.D. Inches Series Number Conductor Insulation (mm) Tape Braid Drain Jacket SR-PVC 0.044 (1.12) AL/PET

24 AWG Capacitance to Shield** 24 AWG PVC Chrome 40861 7/32 Capacitance* pf/ft. (pf/m) pf/ft. (pf/m) N/A TC 7/32 TC Gray

33 (108) 55 (180)

Number of Conductors Jacket Thickness Inches (mm) Jacket O.D. Part Numbers (Nominal) Inches (mm) Put-up Feet (m) Standard Weight

40861-3-880-S-01000 3 0.032 (0.86) 0.162 (4.11) 1000 (305) 18

40861-5-880-S-01000 5 0.032 (0.86) 0.189 (4.8) 1000 (305) 22

40861-15-880-S-01000 15 0.04 (1.02) 0.284 (7.21) 1000 (305) 56

40861-25-880-S-01000 25 0.042 (1.07) 0.339 (8.61) 1000 (305) 86

40861-30-880-S-01000 30 0.052 (1.32) 0.38 (9.65) 1000 (305) 102

40861-40-880-S-01000 40 0.057 (1.45) 0.43 (10.92) 1000 (305) 130

40861-50-880-S-01000 50 0.053 (1.35) 0.46 (11.68) 1000 (305) 168

* Capacitance between conductors. ** 65 pf/ft on 3 and 5 conductor. Capacitance between conductor and other conductors connected to shield. Chrome gray is standard color. Other colors are available upon request.

1.800.772.0116 62 MEDICAL Hitachi has become a recognized leader in the medical cable space. Since our founding in 1910, Hitachi has lived up to our founder’s mission: “Contribute to society through the development of superior, original technology and products.”

One of Hitachi’s many strengths is building complex fine wire bundles. These are traditionally found in ultrasound imaging environments for medical probe cables in both medical and non- medical applications where precision and performance are paramount.

Hitachi offers a broad range of products, capabilities and customized cables that support a wide variety of applications and equipment. Our expertise spans several medical market segments endoscopy, surgical catheter manufacturing & assembly, and cable manufacturing & device assembly. We strive to listen to the needs of our customers and develop the next generation of lifesaving products that our OEMs require.

Some examples of our medical technologies are:

• SONOEASE®, a bundling technology offering softer High Performance Medical Solutions

and superior flexibility / limpness to reduce operator • Discrete & Bundled Cable • Catheter Tubing fatigue and increase the product life cycle. • Medical Machining • HiFC® a proprietary alloy providing improved • Assembly & Fabrication Services conductivity when required. • 48 AWG low capacitance micro-coaxial cable; among the smallest in the industry. • Non-tacky silicone jacketing offering unsurpassed performance for sterilization and harsh environments. • 50 AWG micro-coaxial cable specifically designed for performance and long life.

www.hca.hitachi-cable.com 63 OIL / GAS / MINING / ENERGY

Imagine some of the toughest environments and machinery on Earth. Then picture the cables necessary to support the equipment operating within those environments. Such harsh environment cables need to be safe, reliable and cost effective. Customers trust Hitachi to provide cable solutions that help maintain critical to function operations. At Hitachi Cable America (HCA), we manufacture state-of-the-art Oil, Gas & Mining, and Energy copper and fiber optic cable solutions specific to the application. Whether it is a drilling rig cable or a communication cable within tunnels and mines, HCA has the technical expertise to support your needs.

All of our application specific cables undergo comprehensive quality control and stringent testing to ensure compliance with all industry approvals and standards. In addition, we offer custom solutions when unique applications arise. Please consult with our sales staff to let us know about your particular needs.

Applications include: • Power, Fiber Optic and Communication cable • Instrumentation, Control, Monitoring and Alarm cable • Ultrasound cable for pipeline inspection • Energy cable

Features: • Severe cold durability • Flame retardant • Drilling Mud resistant • Oil and chemical resistant • Armoring and durability • RoHS compliant

1.800.772.0116 64 Oil & Gas Cable

Fiber Optic Cable

MudGuard-EX® OIL / GAS MINING • NEK 606 Compliant • Excellent low temperature flexibility -67° F (-55° C) • Flame retardant • Bronze or stainless steel braid options • Distribution or Breakout constructions Jacket Types:

• Polyurethane (flame retardant; oil & gas resistant) • LSZH (flame retardant; oil & gas resistant) • Specialty compounds

Braid Options: • Bronze • Stainless steel OIL / GAS / MINING / ENERGY Performance Options: • Low temperature flexibility -67°F (-55°C) • High temperature 176°F (80°C) • MUD resistance

Constructions: • Distribution style (up to 24 fibers) • Breakout style (up to 24 fibers) • Hybrids • Fiber types: OS2, OM1, OM2, OM3, OM4 Copper Cable

Ultrasound Pipeline Inspection Cables & Assemblies • 38 AWG - 50 ohm microcoaxials - 40 AWG and smaller cable available - Multiple conductor strands (18, 32/34, 64/68) • TPU Jacket • Used for ultrasound array assemblies. (Contact HCA for assembly capabilities)

www.hca.hitachi-cable.com 65 Mining Cable

Fiber Optic Cable

Indoor / Outdoor Fiber Optic Cables • MSHA listed • Available with OS2, OM1, OM2, OM3 and OM4 fiber Tactical Fiber Optic Cables

• Superior durability OIL / GAS MINING • Bend-insensitive glass Outside Plant Fiber Optic Cables • Robust construction with PE jacket • Gel filled design prevents moisture penetration Copper Cable

Hybrid Copper & Fiber Optic Cables • Power wires (Available: 4 to 18 AWG) • Alarm wires (Example: 18 AWG) • Fiber cables (Available: 2-96 fibers)

1.800.772.0116 66 DEFENSE / SECURITY Hitachi Cable America’s (HCA) copper and fiber optic communication cables offer maximum flexibility when it comes to application support. Four-pair cables, such as shielded Category 6 and shielded Category 6A, offer superior gigabit and 10 gigabit support in cable constructions that inhibit harmful RFI and EMI. And, fiber optic cables that utilize bend insensitive optical glass deliver unsurpassed throughput performance in environments that are often challenging.

HCA cables can be used to support applications such as: • Ethernet (10/100BASE-T, 1000BASE-T, 10GBASE-T) • Security (CCTV) • PoE, PoE++ • Wireless Access Points (WAP) • Access Control • Broadband Video • Voice (Analog, Digital, VOIP) • ATM (25.6, 155, 1000 Mb/s) • Token Ring • MOIP

Where are HCA products used? • Tactical Deployment Applications • National Defense Emergency Cell Tower Application • Cyber Security / Data Centers / SCIF • Barracks / Military Field Camps • Cloud Computing / SIPERNET / NIPERNET / Plenum Environments • High Voltage or Fiber Optic Sea Base Communications

www.hca.hitachi-cable.com 67 BUILDING INFRASTRUCTURE In virtually all cable based communication links, it is the cable that determines the ultimate performance of that link. It is primarily the cable, not the connectors, that establishes how well the applications will be supported. This is the reason why many cable manufacturers make different performance levels of Category 6 and 6A cable while jack and plug manufacturers produce only one jack or plug to mate to them. The desirable headroom that results from the link is provided by the cable. With a growing list of applications for Category cable critical to a facility’s operation, selecting a quality cable from an established manufacturer is key. Hitachi Cable America has a strong reputation as a leader in high performance specialty wire and cable. So, protect your investment by selecting Hitachi.

Whether you are installing the highest-performing copper or fiber optic cabling infrastructure, there are a number of well-known brands available to choose from. What makes one brand a wiser choice than another? Which one offers maximum performance, while also providing the best value? Open System Architecture (OSA) from Hitachi Cable America (HCA) provides world class performance using virtually any combination of HCA cables with verified connective hardware in the network. The ANSI/TIA-568 standard specifies the performance requirements of all network components and defines interoperability base-line limits to ensure that combinations of cable with connectivity will meet or exceed the system’s intended application. By employing a HCA OSA solution, end users have the freedom to choose from a wide range of approved quality connectivity products that best meet their specific needs and be confident that the chosen solution will support all applications designed to operate over that solution.

1.800.772.0116 68 DATA CENTER Data centers are centralized locations where the computing and networking equipment are concentrated for the purpose of collecting, storing, processing, distributing data. Hitachi Cable America (HCA) has a long history of manufacturing and supplying high performance copper cables and fiber optic cables for building infrastructure and data center application Copper and fiber optic cables are available in Plenum, Riser and Low Smoke Halogen Free/ Riser constructions. Certain fiber optic cables also have a CPR listing. Both copper cable and fiber optic cable are our specialties.

To improve the data center deployment, most organizations use a mixture of copper cable and fiber optics in their network infrastructure, since copper, like fiber, has its own advantages, making it both necessary and complimentary to an installation. Copper can also transfer high bandwidth data (in excess of 100 Gbps for a distance of 8 meters) between servers and between clustered switches. Copper cables are very reliable and can be quite cost effective, as compared to that of a fiber optic installation. Savings pre and post installation can be significant. Copper cables also offer lower latency, use much less power and the subsequent cooling requirements are reduced, which lowers the overall facilities power consumption and operational expenditures over the life of the datacenter. In recent years, the ability to

HITACHI CABLE AMERICA INC. deliver direct current power on Ethernet copper cables while delivering high speed data has revolutionized datacenter strategies.

Fiber is ideal for transporting vast amounts of data quickly and efficiently over long distances WORLDWIDE COVERAGE while being immune to electromagnetic interference (EMI) and radio frequency interference (RFI). Because of this, fiber is central to most datacenters, whether they are local, wide area

PREMISE & FIBER OPTIC CABLE CATALOG or metropolitan. Beyond the data center, fiber is used to link networks together between buildings, be they commercial or residential, and within building infrastructures when distance and interference is a concern for copper applications.

HCA’s Nanocore® loose tube cables are optimized for datacenter applications. These indoor, tight fiber count cables have reduced diameters and allow for higher density fiber counts seen PREMISE & in most datacenters. These designs terminate more easily in the ribbon style mass termination FIBER OPTIC CABLE CATALOG connectors.

900 Holt Avenue, Manchester, New Hampshire 03109 USA

Tel: +1-603-669-4347 Fax +1-603-669-9621 05/2019Rev www.hca.hitachi-cable.com

Rev 05/2019

www.hca.hitachi-cable.com 69 APPENDIX NOTES APPENDIX

APPENDIX

Conductor Design Pages 70 to 75 Stranded 72 Solid 73 Plating 74 Comparison of Conductor Materials and Platings 74 Current Carrying Capacity of Copper Conductors 75 Insulation Design Pages 76 to 79 Materials 76 to 77 Materials Comparison Properties Chart 78 to 79 Design Equations Pages 80 to 85 Braid Design 80 Spiral Shield Design 81 Shielding Coverage & Resistance 82 Coaxial Design 83 Twinaxial Design 84 Individually Taped Twisted Pair Design 85 Acronym Glossary Pages 86 to 87

1.800.772.0116 70 APPENDIX APPENDIX NOTES

www.hca.hitachi-cable.com 71 APPENDIX CONDUCTOR DESIGN

Conductors - Stranded

Cross-Sectional DCR @ Cross-Sectional DCR @ AWG Stranding Diameter Weight Weight AWG Stranding Diameter Weight Weight Area 20°C-OHMS/M ft. Area 20°C-OHMS/M ft.

Bare or Silver Tinned Lbs./ Bare or Silver Tinned Lbs./ Inches mm CMA mm2 Kg / Km Inches mm CMA mm2 Kg / Km Plated Cu. Cu. 1000 ft. Plated Cu. Cu. 1000 ft. 36 7/44 0.006 0.152 28 0.013 446 479 0.085 0.127 14 19/27 0.068 1.727 3830.4 1.940 2.874 3.054 1.940 2.892 34 7/42 0.008 0.191 43.75 0.022 274 294 0.132 0.197 14 41/30 0.07 1.778 4100 2.075 2.735 2.937 2.075 3.093 32 7/40 0.009 0.229 67.27 0.034 169.5 182 0.203 0.303 14 105/34 0.086 2.184 4167.5 2.111 2.724 2.924 2.111 3.147

APPENDIX 32 19/44 0.008 0.203 76 0.036 165.9 178.1 0.23 0.343 12 7/20 0.096 2.438 7168 3.630 1.516 1.574 3.630 5.412 CONDUCTOR 30 7/38 0.012 0.305 112 0.057 100.3 107.7 0.339 0.505 12 19/25 0.09 2.286 6087.6 3.084 1.806 1.916 3.084 4.597 30 19/42 0.013 0.330 118.75 0.059 101.9 109.4 0.359 0.535 12 65/30 0.102 2.591 6500 3.289 1.725 1.853 3.289 4.904 28 7/36 0.015 0.381 175 0.089 63.55 68.22 0.55 0.820 12 165/34 0.095 2.413 6548.9 3.317 1.75 1.878 3.317 4.945 28 19/40 0.016 0.406 182.59 0.093 63.06 67.69 0.59 0.880 10 37/26 0.11 2.794 9353.6 4.736 1.189 1.263 4.736 7.061 27 7/35 0.017 0.432 219.52 0.111 50.44 54.15 0.632 0.942 10 49/27 0.116 2.946 9878.4 5.003 1.136 1.207 5.003 7.459 27 65/44 0.018 0.457 260 0.124 49.41 53.05 0.7 1.044 10 105/30 0.12 3.048 10530 5.313 1.068 1.147 5.313 7.921 26 7/34 0.019 0.483 277.83 0.141 39.7 42.61 0.87 1.297 8 49/25 0.147 3.734 15699.6 7.953 0.714 0.757 7.953 11.857 26 10/36 0.02 0.508 250 0.127 44.92 48.21 0.77 1.148 8 133/29 0.166 4.216 16984.1 8.605 0.661 0.701 8.605 12.829 26 19/38 0.02 0.508 304 0.154 37.33 40.07 0.93 1.387 8 655/36 0.147 3.734 16625 8.319 0.706 0.757 8.319 12.402 24 7/32 0.024 0.610 448 0.227 24.46 26.25 1.38 2.057 6 133/27 0.206 5.232 26812.8 13.579 0.418 0.445 13.579 20.245 24 10/34 0.023 0.584 396.9 0.201 28.06 31.12 1.22 1.819 6 266/30 0.21 5.334 25900 13.460 0.426 0.457 13.460 20.067 24 19/36 0.025 0.635 475 0.241 23.64 25.38 1.47 2.192 6 1050/36 0.184 4.674 26250 13.335 0.44 0.472 13.335 19.881 24 41/40 0.024 0.610 384.4 0.201 29.78 31.97 1.25 1.864 4 7x19/25 0.257 6.528 42613 21.586 0.263 0.279 21.586 32.182 22 7/30 0.03 0.762 700 0.354 15.57 16.72 2.19 3.265 4 259/27 0.232 5.893 52214.4 26.444 0.217 0.231 26.444 39.425 22 19/34 0.032 0.813 754.11 0.382 14.77 16.1 2.32 3.459 4 1666/36 0.232 5.893 41650 21.158 0.277 0.298 21.158 31.545 22 26/36 0.029 0.737 650 0.330 17.44 18.72 1.97 2.937 2 133/23 0.292 7.417 67936.4 34.407 0.164 0.171 34.407 51.298 20 7/28 0.038 0.965 1111 0.563 9.81 10.42 3.49 5.203 2 259/26 0.292 7.417 65475.2 33.152 0.173 0.184 33.152 49.426 20 10/30 0.036 0.914 1000 0.506 11 11.81 3.14 4.681 2 665/30 0.235 5.969 66500 33.143 0.17 0.183 33.143 49.413 20 19/32 0.038 0.965 1216 0.616 9.1 9.765 3.75 5.591 2 2646/36 0.292 7.417 66150 33.604 0.175 0.187 33.604 50.101 20 26/34 0.04 1.016 1031.94 0.523 10.9 11.7 3.21 4.786 1 19/.0664 0.328 8.331 82983.6 42.47 0.134 0.137 42.47 63.319 20 41/36 0.038 0.965 1025 0.521 11.17 11.99 3.17 4.726 1 19x44/30 0.377 9.576 81700 43.302 0.135 0.171 43.302 64.558 18 7/26 0.046 1.168 1769.6 0.896 6.165 6.55 5.04 7.514 1 2109/34 0.328 8.331 83706.2 42.391 0.137 0.147 42.391 63.201 18 16/30 0.046 1.168 1600 0.810 6.877 7.384 5 7.455 1/0 133/21 0.368 9.347 108038.9 54.716 0.104 0.108 54.716 81.576 18 19/30 0.048 1.219 1900 0.961 5.791 6.218 5.9 8.796 1/0 259/24 0.368 9.347 104636 52.991 0.108 0.112 52.991 79.005 18 41/34 0.046 1.168 1627.29 0.824 6.975 7.487 5.06 7.544 2/0 133/20 0.414 10.516 136192 68.974 0.082 0.085 68.974 102.833 18 65/36 0.048 1.219 1625 0.823 7.043 7.56 5 7.455 2/0 259/23 0.414 10.516 132297 67.003 0.086 0.089 67.003 99.895 16 7/24 0.06 1.524 2828 1.432 3.855 4.002 8.56 12.762 2/0 1330/30 0.406 10.312 133300 67.298 0.085 0.091 67.298 100.335 16 19/29 0.054 1.372 2426.3 1.229 4.538 4.817 7.5 11.182 3/0 259/22 0.464 11.786 163195 83.968 0.068 0.071 83.968 125.188 16 26/30 0.058 1.473 2600 1.316 4.273 4.588 8.06 12.017 3/0 427/24 0.464 11.786 172508 87.364 0.066 0.068 87.364 130.251 16 65/34 0.059 1.499 2579.85 1.307 4.4 4.723 8.03 11.972 4/0 259/21 0.597 15.164 210385.7 106.553 0.054 0.056 106.553 158.859 16 105/36 0.059 1.499 2625 1.334 4.36 4.68 8.09 12.061 4/0 427/23 0.598 15.189 218111.6 110.465 0.052 0.054 110.465 164.692 14 7/22 0.073 1.854 4480 2.296 2.428 2.531 2.269 3.383 4/0 2107/30 0.608 15.443 211468 106.614 0.054 0.058 106.614 158.951

Note: All data subject to change. Contact Hitachi Cable for most current data.

1.800.772.0116 72 APPENDIX CONDUCTOR DESIGN

Conductors - Solid Wire Cross-Sectional AWG Stranding Diameter DCR @ Break Strength Weight Weight Area 20C-OHMS/M ft.

2 Bare or Silver Tinned Lbs./ Inches mm CMA mm Plated Cu. Cu. (Lbs.) Max 1000 ft. Kg / Km

46 Solid .00155 0.039 2.391 0.001 4932 5294 0.155 0.015 0.022 CONDUCTOR APPENDIX 44 Solid .00195 0.050 3.801 0.002 3030 3253 0.195 0.018 0.027 42 Solid .00246 0.062 6.044 0.003 1862 1999 0.246 0.023 0.034 40 Solid .0031 0.079 9.61 0.005 1152 1236.6 0.311 0.029 0.043 39 Solid .0035 0.089 12.3 0.006 897.1 963 0.392 0.037 0.055 38 Solid .0040 0.102 16 0.008 681.9 732 0.494 0.048 0.072 37 Solid .0045 0.114 20.3 0.010 535.7 575.1 0.623 0.061 0.091 36 Solid .0050 0.127 25 0.013 431.9 463.6 0.785 0.076 0.113 35 Solid .0056 0.142 31.4 0.016 342.8 368 0.990 0.095 0.141 34 Solid .0063 0.160 39.7 0.020 269.8 289.6 1.249 0.12 0.179 33 Solid .0071 0.180 50.4 0.026 211.7 227.3 1.575 0.153 0.228 32 Solid .0080 0.203 64 0.032 166.2 178.4 1.986 0.194 0.289 31 Solid .0089 0.226 79.2 0.040 133.9 143.7 2.504 0.24 0.358 30 Solid .0100 0.254 100 0.051 105.8 113.6 3.157 0.304 0.454 29 Solid .0113 0.287 128 0.065 82.9 88 4.012 0.387 0.577 28 Solid .0126 0.320 159 0.080 66.7 70.8 4.983 0.481 0.717 27 Solid .0142 0.361 202 0.102 52.5 55.8 6.331 0.61 0.909 26 Solid .0159 0.404 253 0.128 41.9 44.5 7.983 0.765 1.141 25 Solid .0179 0.455 320 0.162 33 25 10.07 0.97 1.446 24 Solid .0201 0.511 404 0.205 26.2 27.2 12.69 1.22 1.819 23 Solid .0226 0.574 511 0.259 20.7 21.5 15.41 1.55 2.311 22 Solid .0253 0.343 640 0.324 16.5 17.2 19.43 1.94 2.892 21 Solid .0285 0.724 812 0.411 13 13.5 24.5 2.46 3.668 20 Solid .0320 0.813 1020 0.519 10.7 3.1 30.89 10.3 15.356 19 Solid .0359 0.912 1290 0.653 8.54 3.9 38.95 8.21 12.240 18 Solid .0403 1.024 1620 0.823 6.78 4.92 49.12 6.52 9.721 17 Solid .0453 1.151 2050 1.039 5.37 6.21 61.93 5.16 7.693 16 Solid .0508 1.290 2580 1.307 4.26 7.81 78.1 4.1 6.113 15 Solid .0571 1.450 3260 1.651 3.38 9.87 98.48 3.25 4.845 14 Solid .0641 1.628 4110 2.081 2.68 12.4 124.2 2.58 3.847 13 Solid .0720 1.829 5180 2.625 2.12 15.7 156.6 2.04 3.041 12 Solid .0808 2.052 6530 3.306 1.68 19.8 197.5 1.62 2.415 11 Solid .0907 2.304 8230 4.166 1.34 24.9 249 1.29 1.923 10 Solid .1019 2.588 10380 5.259 1.06 31.4 314 1.02 1.521 9 Solid .1144 2.906 13090 6.628 0.833 39.6 380.5 0.809 1.206 8 Solid .1285 3.264 16510 8.363 0.66 50 479.8 0.641 0.956 7 Solid .1443 2.665 20820 10.546 0.523 63 605 0.508 0.757 6 Solid .1620 4.115 26240 13.291 0.415 79.4 762.9 0.403 0.601 5 Solid .1819 4.620 33090 16.757 0.329 100 961.9 0.32 0.477 4 Solid .2043 5.189 41740 21.139 0.261 126 1213.3 0.254 0.379 3 Solid .2294 5.827 52520 26.652 0.206 159 1526.7 0.201 0.300 2 Solid .2593 6.586 66360 34.052 0.161 201 1929 0.157 0.234 1 Solid .2893 7.348 83690 42.387 0.129 253 2432 0.126 0.188 1/0 Solid .3249 8.252 105600 53.461 0.102 319 2984 0.1 0.149 2/0 Solid .3648 9.266 133100 67.398 0.081 403 3763 0.080 0.119 3/0 Solid .4096 10.404 167800 84.968 0.062 508 4745 0.063 0.094 4/0 Solid .4600 11.684 211600 107.168 0.051 641 5983 0.05 0.075

Note: All data subject to change. Contact Hitachi Cable for most current data.

www.hca.hitachi-cable.com 73 APPENDIX CONDUCTOR DESIGN: PLATING Technical Information Conductor Plating

Types and Methods Bare copper alloy conductors will oxidize due to air exposure, heat, moisture and foreign chemical presence. This oxide, once present on the conductor surface, will prevent good, reliable connections. To prevent oxidation, a conductor can be coated with a material that will not oxidize easily.

APPENDIX Coating Materials CONDUCTOR • Tin—The most commonly used due to processing ease and relatively low cost (up to 150°C). • Silver—Commonly used in conjunction with insulations made with high temperature fluoropolymers, such as TFE, silver can meet high temperature requirements typically up to 200°C. • Nickel—Used when service temperature exceeds 200°C—mainly aerospace and select military applications. • Gold—Rarely used due to expense, gold has been applied when a flexible high conductivity coating was needed for aerospace control cable.

Coating Methods • Hot Dip—A method where the strand or strand(s) are passed through a molten bath of coating material. • Electroplating—Using the electrolysis method of bonding the coating metal to the base conductor. • Cladding—Welding under heat and pressure two or more dissimilar metals.

Coating Types • Tinned or Heavy Tinned—This is the simple application of a coating material by the dip or electroplating methods. Typically 40 micro inches of tin remains on each strand and for heavy tin, 100 micro inches. • Prefused—Sometimes called “Pre-bonded”, this method takes heavy tinned strands and fuses them with heat when they are in a stranded conductor form to create a bonded conductor. • Topcoated—After bare copper strands are cabled together, a layer of coating material, typically tin, is applied over the entire conductor, creating a bonded conductor. • Overcoated—After coated copper strands are cabled together, a layer of additional coating material, typically tin, is applied over. CONDUCTOR DESIGN: Comparison Of Conductor Materials And Platings Purpose of this chart: Customers frequently ask questions about the performance differences for various conductor copper or copper alloy or coatings. This chart demonstrates the impact on flex life, elongation, weight, resistivity and break strength for a single gauge size. Use this as a representative example for what is possible

Direct Current Nominal Resistance (DCR) Minimum Minimum Maximium Conductor OD Elongation % Breakstrength Flex Life Pounds Weight Pounds/Feet (Meters) Ohms/Feet (Meters)

#28(7/36) Silver Plate 0.015 66.7 (20.3) 10% 4.65 0.568 (0.173) Good Cu

#28(7/36) Tinned 0.015 70.8 (21.6) 10% 4.65 0.579 (0.176) Good Cu

#28(7/36) Bare 0.015 66.7 (20.3) 10% 4.65 0.568 (0.173) Good Cu

#28(7/36) Silver Plate Cu 0.015 166.8 (50.8) 10% 7.55 0.559 (0.170) Excellent Clad Steel 40%

#28(7/36) Bare Cu 0.015 166.8 (50.8) 10% 7.55 0.559 (0.170) Excellent Clad Steel

#28(7/36) Silver Plate 0.015 83.4 (25.4) 7% 7.56 0.568 (0.173) Excellent Alloy 135

#28(7/36) Silver Plate 0.015 83.4 (25.4) 7% 7.56 0.568 (0.173) Excellent Alloy 162

1.800.772.0116 74 APPENDIX CONDUCTOR DESIGN Current Carrying Capacity of Copper Conductors

Current carrying capacity is defined as the amperage a conductor can safely carry before melting occurs in the conductor and/or the insulation. There are many factors that will limit the amount of current that can be passed through a wire. Determining factors include:

CONDUCTOR

• Conductor Size—The larger the circular mil area, the greater the current capacity. APPENDIX • Insulation—The amount of heat generated should never exceed the maximum temperature rating of the insulation material. • Ambient (surrounding) temperature—The higher the ambient temperature, the less heat required to reach the maximum temperature rating of the insulation. • Conductor Number—Heat dissipation is lessened as the number of individually insulated conductors, bundled together, is increased. • Installation Conditions—Restricting the heat dissipation by installing the conductor in conduit, duct, trays or raceways lessens the current carrying capacity. This restriction can be alleviated somewhat by using proper ventilation methods, forced air cooling, etc.

Taking into account all the variables involved, no simple chart of current ratings can be developed. The chart below should be used ONLY as an estimations guide. Amperes per conductor in free air @ 30°C ambient temperature: Conductor Count Adjustment Factors

Ref. Risistance Maximum Dielectric Temperature Number of Percent of Conductor AWG Size Conductors Ampacity Ohms/1000 ft 80°C 90°C 105°C 125°C 200°C 4–6 80 30 AWG 104 2 3 3 3 4 28 AWG 65.3 3 4 4 5 6 7–9 70 26 AWG 41 4 5 5 6 7 10–20 50 24 AWG 25.7 6 7 7 8 10 21–30 45 22 AWG 16.2 8 9 10 11 13 20 AWG 10.1 10 12 13 14 17 31–40 40 18 AWG 6.39 15 17 18 20 24 41 and above 35 16 AWG 4.02 19 22 24 26 32 Note: This table is from National Electric Code 14 AWG 2.52 27 30 33 40 45 Adjustment Factors for More Than Three Current-Carrying Conductors in a 12 AWG 1.59 36 40 45 50 55 Raceway or Cable 10 AWG 0.99 47 55 58 70 75 Number of conductors is the total number of conductors in the raceway or 8 AWG 0.63 65 70 75 90 100 cable adjusted in accordance with 310.15(B)(5) and (6). “Conductor Ampacity” is from Table 310.15(B)(16) through Table 310.15(B)(19), 6 AWG 0.39 95 100 105 125 135 as adjusted for ambient temperature if necessary. 4 AWG 0.25 125 135 145 170 180 2 AWG 0.17 170 180 200 225 240 To use this chart, select the gauge of conductor that will give the desired amperage under the 10°C temperature rise line. For a bundled construction, multiply the amperage by the derating factor to find the recommended current capacity for individual conductor in a bundle Ambient Temperature Correction Factors

Ambient Temperature Rating of Conductor Ambient Temperature (°C) 60°C 75°C 90°C Temperature (°F) 10 or less 1.29 1.2 1.15 50 or less 11-15 1.22 1.15 1.12 51-59 16-20 1.15 1.11 1.08 60-68 21-25 1.08 1.05 1.04 69-77 26-30 1 1 1 78-86 31-35 0.91 0.94 0.96 87-95 36-50 0.82 0.88 0.91 96-104 41-45 0.71 0.82 0.87 105-113 46-50 0.58 0.75 0.82 114-122 51-55 0.41 0.67 0.76 123-131 56-60 — 0.58 0.71 132-140 61-65 — 0.47 0.65 141-149 66-70 — 0.33 0.58 150-158 71-75 — — 0.5 159-167 76-80 — — 0.41 168-176 81-85 — — 0.29 177-185

Note: This table is from National Electric Code Single Conductor in Free Air 30°C Ambient Temp. Ambient Temperature Correction Factors Based on 30°C (86°F) For ambient temperatures other than 30°C (86°F), multiply the allowable ampacities specified in the ampacity tables by the appropriate correction factor shown below.

www.hca.hitachi-cable.com 75 APPENDIX INSULATION DESIGN: Materials Insulations

PVC (Polyvinyl Chloride) (thermoplastic)

• PVC formulations vary widely depending on the desired properties. Because it is relatively inexpensive, easy to extrude and exhibits many excellent mechanical and electrical properties, PVC has been used for many applications. • The maximum temperature range for the best PVC formulations is -55°C to 105°C with general purpose vinyls ranging -20°C to 80°C. PVC can have excellent flame, moisture and abrasion resistance, as well as superb gasoline, alcohol, ozone, acids and solvent resistance. • PVC can be formulated with non-migrating plasticizers for special electrical or termination applications. It can be modified for medical and food PLASTIC

APPENDIX preparation applications because PVC in general is odorless, tasteless, and non-toxic. PVC compounds exhibit high capacitance and attenuation loss due to their relatively high dielectric constant when used in wire and cable. In retractile cord applications, PVC has below average to average elastomeric properties. Additionally, at low temperatures, PVC should not be used when flexibility and flex life are required. • PVC can be used in thin and heavy wall applications as a primary wire insulation as well as a cable jacket insulation.

Semi Rigid PVC • Used as a very abrasion resistant primary PVC insulation. For 30-16 gauge, a 10 mil. wall meets UL style 1061, 80°C 300V.

Polyethylene (thermoplastic) • Polyethylene is the compound most widely used in coaxial and low capacitance cables due to its fine electrical properties. Although polyethylene is flammable, additives can be used to make the polyethylene flame retardant at the expense of the dielectric constant and power loss characteristics. • Usable temperature ranges from a low of -65°C to as high as 80°C. Polyethylene (in high, medium and low densities) is generally very hard and stiff, and these properties typically do not change over the usable temperature range. Polyethylene can be foamed to reduce the dielectric constant to 1.50, creating an economically attractive insulation for use in special application coaxials and ultra low capacitance transmission cable. Polyethylene can be used by for primary insulation as will as a cable jacketing compound.

Polyethylene—Based Variations • Foamed or Cellular Polyethylene—Foaming polyethylene reduces the dielectric constant to approximately 1.5, which makes this a very attractive insulation compound for cables requiring a high-speed transmission rate. Once foamed, the compound loses some of its tensile strength, elongation, and dielectric strength properties, although they are still acceptable for use in many applications. • Cross-linked Polyethylene—Rated at 150°C. Cross-linking changes polyethylene from a thermoplastic to a thermoset material, which creates a high resistance to stress cracking, cut-through, soldering, and many solvents. • Flame-retardant Polyethylene—Polyethylene is a very flammable material that can be controlled by the use of special flame-retardant additives. These additives, however adversely affect many of polyethylene’s fine electrical properties, such as the dielectric constant, power factor, and dielectric strength.

Polypropylene (thermoplastic) • Polypropylene has properties almost identical to that of polyethylene and is used almost exclusively for thin wall primary insulations. Polypropylene can be rated for -30°C to 80°C. Polypropylene can be foamed for improved electrical properties.

Polyurethane • Polyurethane in general has excellent low-temp flexibility, high tensile strength, and long flex-life. It exhibits excellent chemical, water, and abrasion resistance, as well as being extremely tough and cut-through resistant. Plasticizers, which can migrate out to contaminate other compounds or cause embrittlement with aging, are not present in polyurethane. Polyurethane is extremely flammable but can be offered in a flame-retardant version at the expense of tensile strength and surface finish. One major disadvantage of polyurethane is its poor electrical qualities, which restrict its use to jackets. It does have excellent retractile cord characteristics, and is a good candidate for use in salt-spray and low-temperature military applications.

Hytrel® • Hytrel® was developed by E. I. du Pont de Nemours and Company to be used for thin-wall applications. Hytrel® is similar to Nylon in its toughness, chemical resistance, flexibility, and resilience. • Some applications include primary insulation for retractile and telephone line cords, high flex-life cables, and cables requiring a tight bend radius.

Nylon • Nylon exhibits excellent jacket toughness, especially in thin-wall applications, and has excellent abrasion, cut-through, and chemical resistance. Its main application is to provide these qualities when extruded over softer insulation compounds. Nylon has a very low coefficient of friction, making it a good choice for use in high flex applications. • Nylon does absorb moisture, which somewhat degrades its electrical properties from their original state.

1.800.772.0116 76 APPENDIX INSULATION DESIGN: Materials

Insulations (Cont.)

Surlyn • Surlyn™, an electrical grade ionomer from from E.I. du Pont de Nemours and Company, has been used for application requiring excellent mechanical properties. Combining superb cut through and stress cracking resistance with ultra low temperature flexibility and a brittleness

™ APPENDIX

temperature under -100°C, Surlyn can be used to meet many of the stringent military requirements. PLASTIC

TPR • Thermoplastic Rubber was developed to act as a substitute in many applications for true thermoset rubber. Some advantages over thermoset material are: Colorability, higher processing speeds, and wide service temperature range. TPR has excellent heat, weathering, and aging resistance, and no curing is necessary. • Most commonly used in applications where cut-through resistance is not required, but other properties of rubber are still necessary.

KYNAR® • KYNAR’s advantages include: Exceptional chemical resistance, high tensile strength, abrasion resistance, cut through and UV resistance. Additionally, it is highly flame resistant and produces very little smoke in the presence of flame. For applications requiring increased flexibility and stress crack resistance, KYNAR FLEX® copolymers are recommended.

SOLEF® • SOLEF® is a registered trademark of Solvay Specialty Polymers, LLC., a manufacturer of Vinylidene Fluoride-based resins. Solef has a number of grades which are widely being used in fiber and overall jacketing applications. It’s properties are very similar to KYNAR’s.

PFA • PFA possesses some of fluorocarbon’s best properties. Its high temperature rating of 250°C, low temperature of -65°C and dissipation factor of 0.0002 equal or better most of the other fluorocarbons’ properties. However, it does not possess the thermoset properties of TFE which limits it to a select group of applications. Although it can be processed in long lengths, PFA’s high material cost has prevented it from gaining widespread use. FEP • FEP is the most commonly used fluoropolymer currently because of its excellent processing characteristics and wide applications range. Although it is not a thermoset, this material does have high flame resistance. Hence, its usage in plenum cable and military applications has been steadily increased as pricing and processing improve. FEP can also be “foamed” for improved data transmission characteristics.

ETFE and ECTFE • Although lacking many of FEP’s excellent electrical properties, ECTFE and ETFE posses better flexibility and mechanical strength than either PFA or FEP. Additionally, ECTFE & ETFE can become thermoset by the irradiation method. ECTFE can also be “foamed” for improved data transmission characteristics and is frequently used for the purpose of weight reduction.

www.hca.hitachi-cable.com 77 APPENDIX INSULATION DESIGN: Material Comparison Properties Chart Technical Information Insulations: Properties Chart To use this chart, select the gauge of conductor that will give the desired amperage under the 10°C temperature rise line. For a bundled construction, multiply the amperage by the derating factor to find the recommended current capacity for individual conductor in a bundle.

ASTM Semi-Rigid Polyethylene PP PLASTIC Properties PVC Polyethylene PP APPENDIX Method PVC Foamed Foamed

Specific Gravity D-792-66 1.16-1.70 1.38 0.91-1.26 0.50-0.60 0.890-0.905 0.50-0.60

Tensile Strength, psi D-638-7.2 500-4500 4000 1500-2200 550 2900-4500 260

Elongation D-412 40-400 250 180-600 175 700 100

Volume Resistivity, 1.5 x 10^15 ohm-cm D-257-6 10^12-10^16 10^15 10^15+ - 2.8 x 10^15 -

Dielectric Strength, volts/mil D-149-64 250-500 400 230-1420 300 450-850 300

Dielectric Constant, @ 1 kHz D-150-70 3.0-8.0 3.8 2.27-2.50 1.69 2.25 1.69

Power Factor 0.0036- (Dissipation) @ 1 kHz. 0.009-0.16 - 0.00048-0.00049 0.00025 0.0050 0.0035

Abrasion Resistance Good Excellent Good Poor Fair Poor

Heat Resistance Good Good Good Poor Good Poor

Weatherability Good Good Excellent Poor Excellent Poor

Flame Retardancy Excellent Good Poor Poor Poor Poor

Water Resistance Good Good Excellent Poor Excellent Poor

Acid Resistance Good Good Good Fair Excellent Poor

Alkali Resistance Excellent Excellent Good Fair Excellent Fair

Aliphatic Hydro Resistance Good Good Poor Fair Fair Poor

Aromatic Hydro Resistance Poor Poor Poor Fair Fair Poor

1.800.772.0116 78 APPENDIX INSULATION DESIGN: Material Comparison Properties Chart (Cont.)

Thermoset ASTM Properties Method Polyurethane Hytrel Nylon Surlyn TPR Neoprene SBR Specific Gravity D-792-66 1.05-1.25 1.25 1.09 0.95 0.89-1.28 1.23-1.65 0.94 Tensile Strength, psi D-638-7.2 5000+ 6000 6000 4000 1300-2300 1200-2700 3000+ APPENDIX PLASTIC Elongation D-412 540-750 500 500 450 500-750 300-700 450+ Volume Resistivity, 2 x 10^14 ohm-cm D-257-6 11 x 10^14 10^11 10^13 - 5 x 10^16 10^11-10^13 3 x 10^16 Dielectric Strength, volts/mil D-149-64 330-630 460 475 485 500-900 600 420-520 Dielectric Constant @ 60 Hz D-150-70 5.4-7.6 4 4.7 2.36 2.22-2.46 - 2.5-3.4 Dielectric Constant @ 1 kHz D-150-70 5.6-7.6 3.9 4.5 2.36 - 5.0-7.0 2.9 Power Factor (Dissipation) @ 60 Hz 0.015-0.046 0.016 0.04 0.0016 - - 0.002-0.003 Power Factor (Dissipation) @ 1 kHz 0.043-0.060 0.019 0.04 0.0019 - 3.5 0.0032 Abrasion Resistance Excellent Excellent Excellent Excellent Good Excellent Good Heat Resistance Good Good Good Good Good Good Excellent Weatherability Good Excellent Good Excellent Good Good Good Flame Retardancy Fair Poor Poor Poor Good Good Excellent Water Resistance Good Good Fair Excellent Good Excellent Good Acid Resistance Fair Good Good Good Good Good Excellent Alkali Resistance Fair Good Good Good Good Good Excellent Aliphatic Hydro Resistance Fair Good Good Good Good Good Excellent Aromatic Hydro Resistance Fair Good Good Good Good Fair Excellent

Properties ASTM KYNAR HALAR Foam Halar Solef 11010 PFA FEP Foam FEP TFE Method 47% air 49% air Specific Gravity D-792-66 1.75-1.78 1.68 0.9 1.77 2.12-2.17 2.12-2.17 ~1.1 2.13-2.20 Tensile Strength, psi D-638-7.2 5200-7500 6000-7000 ~2500 6000 4000-4300 2700-3100 ~1000 1000-3500 Elongation D-412 500 200-300 ~20 300-400 300 250-330 ~100 275 Volume Resistivity, ohm-cm D-257-6 2 x 10^14 10^15 <10^16 6 x 10^14 10^15+ 2 x 10^18 - 10^18+ Dielectric Strength, volts/mil D-149-64 260 500 100 ~1000 500 500-600 100 500 Dielectric Constant @ 60 Hz D-150-70 8.4 2.6 1.85 10 2.1 2.1 1.5 2.0-2.1 Dielectric Constant @ 1 kHz D-150-70 7.5 2.53 1.8 - 2.1 2.1 1.5 2.0-2.1 Power Factor (Dissipation) @ 60 Hz. 0.049 < 5x10-4 3x10-4 58x10-3 0.000027 0.0002 *** 0.0004 Power Factor (Dissipation) @ 1 kHz. 0.019 < 1.5x10-2 < 0.8x10-2 - 0.00002 0.0007 *** 0.0001 Abrasion Resistance Good Excellent Good Excellent Fair Good Fair Fair Heat Resistance Excellent Excellent Very Good Very Good Excellent Excellent Good Excellent Weatherability Good Excellent Very Good Very Good Good Good Excellent Excellent Flame Retardancy Excellent Excellent Good Very Good Excellent Excellent Good Excellent Water Resistance Good Excellent Good Very Good Excellent Good Good Excellent Acid Resistance Excellent Excellent Good Very Good Excellent Excellent Good Excellent Alkali Resistance Excellent Excellent Good Very Good Excellent Excellent Good Excellent Aliphatic Hydro Resistance Excellent Excellent Good Very Good Excellent Excellent Good Excellent Aromatic Hydro Resistance Excellent Excellent Good Very Good Excellent Excellent Good Excellent Alkali Resistance Fair Good Good Good Good Good Excellent - Aliphatic Hydro Resistance Fair Good Good Good Good Good Excellent - Aromatic Hydro Resistance Fair Good Good Good Good Fair Excellent -

www.hca.hitachi-cable.com 79 APPENDIX DESIGN EQUATIONS: Braid Design Technical Information

Table of Variables 4. Re-calculate “F” by: Variable Definition F= NPd % Percent Coverage sin (a) N Number of Strands (integers from 1-13) P Picks per inch d Diameter of strand (inches) a Angle of shield to axis of cable (degrees) APPENDIX D Diameter under shield (inches) 5. Re-calculate % by: C # of carriers (typically 4,8,12,16,24,48) π Pi (3.14159) CABLE AND WIRE DESIGN % =100 (2F-F) w Weight of strand, per M’ (lbs/M’) W Weight of shield, per M’ (lbs/M’)

Braid shield algorithm: Procedure 6. Calculate weight by: 1. Covert desired % coverage into an “F” value by: W= 1.03 CN w cos (a) F=1- 100-% 100

2. a) *Select an angle you’d like to chose to be close to and calculate “N”:

N= 2 π cos (a) (D+2d) F dC

b) Round “N” up (lowes angle) or down (raises angle) to an integer value. Recalculate “a”.

a = cos CNd 2 π (D+2d) F

3. a) Using “a” from step 2B, calculate “P”

P= C tan(a) ( 2 π (D+2d) )

b) Round up Picks to next increment available. Use new “P” to Re-calculate “a” by:

a = tan 2 π P(D+2d) ( C )

1.800.772.0116 80 APPENDIX DESIGN EQUATIONS: Spiral Shield Design

Spiral Shield Algorithm: Procedure CABLE AND WIRE DESIGN 1. Covert desired minimum % coverage into an “F” value by: 4. a) Re-calculate F by:

F = % / 100 NPd F= APPENDIX sin (a)

b) Coverage is:

% = 100F

2. a) *Select an angle you’d like to chose to be close to and calculate by:

N= π cos (a) (D+d) F dC

This will yield a non-integer value for N. Round N up (lowers angle) or Round N down (raises angle) to an 5. Calculate actual weight/M’ of shield by: integer value. 1.03 CNw W= a) Now re-calculate “a” using N from step 2a by: cos (a)

a = cos Cnd ( π (D+d)F )

3. a) Using new “a” from step 2b, estimate P by:

C tan (a) P= π (D+d)

b) Round Pick value from 3a up to next available pick increment for the carriers you used in Step 2a. Now re-calculate “a” by:

a = tan π P(D+d) ( C )

*NOTE: Recommended angle range: For D .020” - .380”, use 20° to 40°. For D larger than .380”, use 40° to 80°.

www.hca.hitachi-cable.com 81 APPENDIX DESIGN EQUATIONS: Shielding Coverage & Resistance

Shield Coverage:

The following equation can be used to determine the percent coverage of a braided or spiral shield.

BRAID: Tan a = 2 π (D+2d)P SPIRAL: Tan a = π P (D+d) C C

Variable Definition

% Percent Coverage (Must be less than 100%) APPENDIX N Number of Strands per carrier (Typically integers from 1-13)

P Picks per inch CABLE AND WIRE DESIGN

d Diameter of strand (inches) (Typically #30 AWG Solid to #40 AWG Solid)

a Angle of shield (degrees)

D Diameter under shield (inches)

Where: % = (2F-F2 ) x 100 for Braid Shields % = 100 x F for Spiral Shields

NPd And: F= sin (a)

Shield Resistance:

The D.C. resistance for braided shields can be calculated using the following equation: r R= NC cos (a)

Where: R = D.C. resistance, (ohms/m’) for the braided shield construction r = D.C. resistance of 1 strand (ohms/m’) a = Braid angle, degrees N = Number of strands per carrier C = Number of carriers

1.800.772.0116 82 APPENDIX DESIGN EQUATIONS: Coaxial Design CABLE AND WIRE DESIGN APPENDIX

Cable Formula: 3. Inductance (L): Microhenries per foot Definition: Resistance to change in current. Variables: L = 0.136 * log D + 1.5 * W ( S*d ) Er = Relative dielectric constant of insulation P = Power factor of dielectric D = O.D. over dielectric (inch)

S = Stranding factor of conductor 4. Velocity of Propogation (Vp): Percentage (%) d = O.D. of conductor (inch) Definition: The transmission speed of an electrical signal traveling a F = Frequency (MHz) length of cable as compared with the Speed of Light in free space. W = O.D. of shielding strands V = 100/ E Variables: p √ r

Solid 1.000 5. Time delay (Td): Nanoseconds per foot 105 Strands .988 Definition: The amount of time required for an electrical signal to travel 65 Strands .985 a specified length of cable. 41 Strands .980 19 Strands .970 T = 1.0167* E 7 Strands .939 d √ r

6. Attenuation (A): dB per 100 feet 1. Capacitance (C): Picofarads per foot Definition: Signal loss in a given length of cable at a specified frequency. Definition: The ability to store an electrical charge a1 a2 A = 0.435 + F + 2.78 * E * P * F Z * ( d D ) * √ √ r 7.354 * E 0 C = r D + 1.5*W log Where a1 and a2 are constants of the cable. ( S * d )

2. Characteristic Impedance (Z0): Ohms Definition: The Ratio of voltage to current in a cable of infinite length. 101670 Z0 = C * Vp Or D + 1.5 * W Z = 138.25 log 0 ( S*d ) √Er

www.hca.hitachi-cable.com 83 APPENDIX DESIGN EQUATIONS: Twinaxial Design

/D APPENDIX

CABLE AND WIRE DESIGN Cable Formula: 3. Inductance (L): Microhenries per foot Definition: Resistance to change in current. Variables: L = 0.136 * log D + 1.5 * W ( S*d ) Er = Relative dielectric constant P = Power factor of dielectric D = O.D. over dielectric (inch)

S = Stranding factor of conductor 4. Velocity of Propogation (Vp): Percentage (%) d = O.D. factor of conductor (inch) Definition: The transmission speed of an electrical signal traveling a F = Frequency (MHz) length of cable as compared with the Speed of Light in free space. W = O.D. of shielding strands y = Separation between two conductors V = 100/ E p √ r

Stranding Factor: 5. Time delay (Td): Nanoseconds per foot Definition: The amount of time required for an electrical signal to travel Solid 1.000 a specified length of cable. 105 Strands .988 65 Strands .985 T = 1.0167* E 41 Strands .980 d √ r 19 Strands .970 7 Strands .939

1. Capacitance (C): Picofarads per foot Definition: The ability to store an electrical charge 2.942 * E C = r y log ( S * d )

2. Characteristic Impedance (Z0): Ohms Definition: The Ratio of voltage to current in a cable of infinite length.

276 ( 1.2D ) Z0 = log * F*d √Er

1.800.772.0116 84 APPENDIX DESIGN EQUATIONS CABLE AND WIRE DESIGN APPENDIX

Individually Taped Twisted Pair Cable Formula: 1. Capacitance (C): Picofarads per foot Definition: The ability to store an electrical charge Variables: 2.942 * E(eff) C = D Er = Relative dielectric constant log P = Power factor of dielectric ( S * d ) D = O.D. over dielectric (inch) S = Stranding factor of conductor 2. Characteristic Impedance (Z0): Ohms d = O.D. factor of conductor (inch) Definition: The Ratio of voltage to current in a cable of infinite length. F = Frequency (MHz) W = O.D. of shielding strands 276.5 log y E(eff) = Effective dielectric constant or, E x factor Z = r E ( S*d ) r Factor = 0.90 if foam insulation Or √ Factor = 0.95 if solid insulation Z = 101670 1.25 * C * Vp

Stranding Factor: 3. Velocity of Propogation (Vp): Percentage (%) Definition: The transmission speed of an electrical signal traveling a Solid 1.000 length of cable as compared with the Speed of Light in free space. 105 Strands .988 65 Strands .985 V = 100/ E 41 Strands .980 p √ r 19 Strands .970 7 Strands .939 4. Time delay (Td): Nanoseconds per foot Definition: The amount of time required for an electrical signal to travel a specified length of cable.

T = 1.0167* E d √ r

www.hca.hitachi-cable.com 85 APPENDIX Acronym Glossary

ATA – Advanced Technology Attachment protocol (also LLDPE – Linear Low-density Polyethylene

known as IDE, Intelligent or Integrated Drive Electronics) LDPE – Low-density Polyethylene (natural)

BC – Bare Copper LSZH – Low-smoke Zero Halogen

BOC – Bare Overcoated Copper (bare individual ends LVDS – Low-voltage Differential Signaling

stranded together with tin overcoat) MDPE – Medium-density Polyethylene APPENDIX CAP – Capacitance MLVDS – Multipoint Low-voltage Differential Signaling

ACRONYM GLOSSARY CCA – Copper-clad Aluminum Microzip – 0.025” pitch Ribbon

CCS – Copper-clad Steel (Copperweld) MQT – Micro Quick Twist

CSA – Canadian Standards Association Span – Single Twisted section plus one single Bond

Cu – Copper Bond – Flat section between twisted sections

DL – Dual-laminated NC – Nickle-plated Copper

DLMQT – Dual-laminated Micro Quick Twist NL – Non-laminated

DLSMQT – Dual-laminated Sub-micro Quick Twist PLANAR – single plane configuration of signals (Ribbon)

DIFF – Differential PE – Polyethylene

ETFE – Ethylene tetrafluoroethylene, a flourine based PET – Polyethylene Terephthalate

plastic. Duponts tradename is Tefzel® PFA – Perfluoroalkoxy

Fast SCSI – 10 MB/sec interface PP – Polypropylene

FEP – Fluorinated-ethylene-propylene PVC – Polyvinyl Chloride

FR – Flame Retardant REACH – Registration, Evaluation, Authorization and

G-S – Ground-signal configuration Restriction of Chemicals (EU Directive)

G-S-S-G – Ground-signal-signal-ground configuration RoHS – Restriction of Hazardous Substances (EU Directive)

HDPE – High-density Polyethylene SAS – Serial-Attached-SCSI

IDC – Insulation Displacement Connector SCSI – Small Computer System Interface (3.5MB/sec

IR – Irradiated asynchronously or 5.0 MB/sec synchronous mode)

LF – Lead Free SCSI-3 – 40 MB/sec Interface

SE – Single-ended

1.800.772.0116 86 APPENDIX Acronym Glossary

SMQT – Sub-micro Quick Twist

SPC – Silver-plated Copper Units of Measure o C degrees Celsius ACRONYM GLOSSARY o SPI – SCSI Parallel Interface F degrees Fahrenheit decibel dB APPENDIX SPI-2 – (LVD SCSI) 80 MB/sec Interface ft foot gigahertz SPI-3 – (Ultra 160) 160 MB/sec Interface GHz in inch SPI-4 – (Ultra 320) 320 MB/sec Interface km kilometer lbf pound force SPI-5 – (Ultra 640) 640 MB/sec Interface m meter SR-PVC – Semi-Rigid PVC MHz megahertz mm millimeter TDR – Time-domain Reflectometer N newton nm nanometer TPE – Thermoplastic Elastomer ns nanosecond volts root mean square TPO – Thermoplastic Olefin Vrms µm micron or micrometer TC – Tinned Copper

TOC – Tin Overcoated Copper (tinned individual ends stranded together with tin overcoat) Conversion Table English to Metric UL – Underwriter’s Laboratories Multiply by: VDLMQT – Variable Span Dual-laminated Micro Quick Twist from inches to centimeters 2.54 from feet to meters 0.3048 VFWR – Voltage Standing Wave Ratio from yards to meters 0.9144 Wide SCSI – 20 MB/sec Interface from ounces to grams 28.3495 from pounds to kilograms 0.453592 XL-PVC – Crosslinked PVC from Fahrenheit to Celsius (F-32)/1.8

XL-PE – Crosslinked Polyethylene

Trademarks Referenced In This Catalog: Power+™ and NexZ0™ are trademarks of Hitachi Cable America Inc.

ChannelFLEX®, Nanocore®, and MudGuard-EX® are registered trademarks of Hitachi Cable America Inc. Polyenex®, SONOEASE® and HIFC® are registered trademarks of Hitachi Metals, LTD. in Japan.

www.hca.hitachi-cable.com 87 900 Holt Avenue, East Industrial Park • Manchester, New Hampshire 03109 USA Tel: +1.603.669.4347 • Sales: +1.800.772.0116 • Fax: +1.603.669.9621 www.hca.hitachi-cable.com 01/2021