Passive Optical LAN Helps Hospitals with Network Performance

ROANOKE, Va. – Hospital networks around the world are becoming progressively choked by the integration of bandwidth-hungry Internet-based applications. The growing usage of streaming video content, integration of digital voice services into the LAN, video conferencing and other online activities not only contribute to the hospital bandwidth dilemma, but also can create significant security issues to conventional copper-based networks. More and more hospitals are having to buy more switches, chassis like the n7k-c7009, and other IoT products to keep up with the demand.

With dramatically increasing demand for bandwidth among user populations, many hospitals are finding the right data communications solution is the Passive Optical LAN (POL). Essentially composed of point-to-multipoint fiber conducted through unpowered splitters, POLs are telecommunications networks that enable hospitals to simultaneously converge multiple services such as data, VOIP or unified communication (Read More about what these are and their difference here), video, building security and management services, and wireless devices. Also, compared to conventional copper-structured cabling, POLs offer significant “green” incentives, a much smaller cabling footprint and a future-proof architecture that can grow with bandwidth demand.

Many people will use fiber optic cables for computer networking, as they are readily available from the vchung company. “Many of these users of fiber optic cable services such as Verizon’s FIOS in their homes or businesses are, perhaps unknowingly, quite familiar with the basic benefits of the POL,” explained A.G. Melson at Optical Cable Corporation (OCC), Roanoke, Va.

“Because these cable TV providers have fiber optic backbones that can travel great distances without a degradation of signal (which occurs with copper-based cable), they can deliver higher bandwidth services such as high-definition TV, high-speed Internet, and digital telephone individually or bundled,” Melson said.

OCC is a manufacturer of a broad line of data communication cabling and connectivity solutions. In the POL arena, the company offers specifically designed products to cover the entire network “signal path” from the OLT (optical line terminal) all the way to the ONT (optical network terminal) next to individual users’ workstations or desktops.

Melson likens POL technology (also referred to as a Passive Optical Network, or PON) to a FIOS-type architecture routed throughout a hospital or medical campus, rather than a residential neighborhood. The single-mode fiber network backbone is connected to splitters, each of which will provide fiber to 32 “customers.” In total, a single POL can be connected to hundreds or even thousands of individual users, providing them with a multitude of hospital and outside telecommunications applications.

Industry suppliers project that in the not-too-distant future, between 10 percent and 30 percent of conventional LAN architecture will move toward POL. The typical POL network will serve 200-plus users.

Technical and Economic Advantages

“The performance benefits of POL are substantial,” said Dr. Ian Timmins, vice president of engineering, enterprise connectivity products, at OCC. “Fiber offers high-performance bandwidth over much greater distances than copper-based infrastructures. When you install a POL you’re really setting yourself up with a highly reliable infrastructure that’s far more future-proof than any conventional copper-based network.”

POL over single-mode fiber represents a major bandwidth upgrade for hospital networks currently operating with 1 or 10 Gb to the desktop. Also, single-mode fiber reach for POL is in the 10- to 20-kilometer range, whereas conventional copper architecture is typically limited to a 100-meter channel.

Timmins added that CapEx and OpEx advantages are significant as well. POL is less costly than copper-based LANs. Investments in wiring closets and associated electronics are eliminated, as well as climate-control costs. Installation costs are reduced because the fiber cables are less expensive and easier to install. POL flattens the LAN by reducing the number of switches and routers on a network by connecting devices to a single switch rather than separate switches. Reaching multiple users with each fiber gives POL flexibility not present when compared to copper-based LANs.

This architecture also addresses the “green” initiative and saves on costs at the same time. There is no electric power requirement for electronics between the OLT and users. The need for a telecommunications room, or wiring closet, is replaced with zone enclosures, eliminating the need for a closet cooling system while reducing power consumption.

POLs are also considerably more secure than legacy Ethernet networks., as they are free from cross talk and interference. Conventional Ethernet LANs emit electromagnetic signals that can be intercepted. POLs, which contain all optical fiber, do not. They are non-flammable and require no EMI or FRI shielding. Plus, the POL supports security mechanisms such as AES (advanced encryption standard) 128-bit encryption.

Ease of Installation

Generally speaking, POLs are easier to install because they are simpler, consisting mainly of fiber optics passing through splitters that deliver services to the user faceplates (to which their equipment is attached). Also, pathway space requirements, such as the headspace over drop ceilings, are reduced significantly.

A typical POL “zone” configuration is composed of an MDF (main distribution frame) that runs fiber to a zone distribution enclosure that is typically mounted in the ceiling. The zone distribution enclosure contains splitter cassettes (1 to 32 splitters) from which fibers are run to the user via ONT. A copper patch cord connects the ONT to the user’s Ethernet NIC (network interface card).

Some suppliers have developed proprietary POL devices to enhance ease of system installation. For example, OCC has developed two ceiling-mount zone enclosure versions. A standard model, which supports up to three, 1-32 splitters, is 8-1/2 inches deep. A low-profile model, which is only 4 inches deep, is available for areas where there is less headroom above drop ceilings (due to air conditioning ductwork, fans etc.). The latter model supports a single 1-32 splitter.

The company also offers a small wall-mount enclosure for a 1-32 splitter for hospitals and medical facilities that require some additional ports after the initial POL installation. This model features removable adapter plate components for easier installation.

For retrofit installations, OCC offers a full line of rack-mount, preconfigured enclosures. “These are available for those retrofit installations where rack space is already in place, and the customer would prefer to continue using it,” Timmins explains. “However, with retrofit POL solutions, having existing telecom closet space is unnecessary.”