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Line card

A line card has two primary meanings in different contexts. In telecommunications and networking, it is a modular printed circuit board (PCB) that serves as an interface in equipment such as routers, switches, multiplexers, or telephone exchanges, providing transmitting and receiving ports to connect to local area networks (LANs), wide area networks (WANs), or subscriber lines.^[1] In telephony systems, it typically handles the termination of circuits like plain old telephone service (POTS) lines via twisted-pair cables, performing essential functions known as BORSCHT—battery feed, overvoltage protection, ringing, supervision (off-hook detection), codec (analog-to-digital conversion), hybrid (two-to-four wire conversion), and testing.^[2] These cards are hot-swappable in high-end modular chassis, allowing scalability and maintenance without system downtime, and they support a range of interfaces from analog voice to high-speed digital Ethernet or optical fiber connections for modern broadband and IP/MPLS services.^[3] Line cards differ from fixed ports in smaller devices, where interface circuitry is integrated directly into the motherboard, and from network interface cards (NICs) in end-user computers, as they are designed for carrier-grade, high-density environments.^[1] In contemporary networks, they enable line-rate forwarding, quality of service (QoS), and integration with software-defined networking (SDN) architectures, evolving to support triple-play (voice, video, data) and beyond.^[2] In business and sales, a line card is a concise document or brochure that lists the products, services, or manufacturers offered by a company or distributor, serving as marketing collateral to highlight offerings to potential customers.^[4]

Telecommunications and networking

Definition

A line card is a modular electronic circuit board (PCB) that interfaces between a network device, such as a router, switch, or access equipment, and external communication lines in telecommunications and networking systems.^[2] It serves as the primary point of connection for transmitting and receiving signals, converting between digital and analog formats where necessary to enable communication over various media like twisted-pair cables or optical fibers.^[1] In chassis-based architectures, the line card functions as a hot-swappable, pluggable module that handles operations at the physical and data link layers (Layers 1 and 2 of the OSI model) for specific interface types, such as Ethernet, SONET/SDH, or T1/E1 lines.^[5] This design distinguishes line cards from fixed interfaces, emphasizing modularity for easy replacement, scalability to support high port densities, and flexibility in upgrading without disrupting the entire system.^[6] As a key termination point, the line card connects subscriber lines or network trunks to broader access networks, including the Public Switched Telephone Network (PSTN) or wide area networks (WAN), thereby aggregating and routing traffic efficiently in carrier-grade environments.^[2] For instance, in traditional telephony setups, it may briefly incorporate BORSCHT functions to manage battery feed, ringing, and signaling for analog connections.^[2]

Functions

Line cards in telecommunications systems primarily handle signal conversion and interfacing between analog subscriber lines and digital network cores. A core function is analog-to-digital (A/D) conversion, which digitizes incoming voice or data signals from the two-wire subscriber loop for processing in digital switches, and digital-to-analog (D/A) conversion, which reconstructs analog signals for transmission to the subscriber.^[7] These conversions ensure compatibility between traditional analog telephony and modern digital infrastructure. The operational roles of line cards are often encapsulated in the BORSCHT functions, an acronym denoting the essential processes performed by subscriber line interface circuits (SLICs) within the line card. Battery feed supplies a nominal DC voltage, typically -48 V, to the subscriber line to power the telephone set and maintain loop current during calls.^[7] Overvoltage protection safeguards the line card against transient high voltages from events like lightning strikes, often using isolation techniques to limit exposure up to 1 kV.^[7] Ringing generates an AC signal, such as 20 Hz at 80 V RMS, applied via a relay to activate the subscriber's ringer and alert the user to an incoming call.^[7] Supervision monitors line status by detecting changes in loop current or voltage, identifying on-hook/off-hook transitions to manage call states.^[7] The codec performs A/D and D/A encoding/decoding of voice signals at rates like 64 kbps using mu-law or A-law companding for pulse-code modulation (PCM) integration with the digital network. Hybrid functionality transforms the bidirectional two-wire line into unidirectional four-wire paths, balancing impedance to isolate transmit and receive signals and suppress echo.^[7] Testing enables diagnostic access, such as switching the line for metallic loop tests to verify continuity and signal quality.^[7] Beyond BORSCHT, line cards manage specific signaling tasks, including off-hook detection, which senses loop closure when the handset is lifted to initiate call setup, integrated within supervision circuits.^[7] Ring supervision monitors current during ringing to detect answer and trip the ring signal automatically upon off-hook.^[7] Line integrity testing assesses loop resistance, capacitance, and noise to ensure reliable transmission, often through automated metallic or longitudinal balance measurements.^[8] DTMF decoding interprets dual-tone multi-frequency signals generated by key presses for digit collection during dialing, while generation produces these tones for interactive voice response or automated systems. In core routers, line cards extend these roles to high-speed data networking by performing packet forwarding, where ingress engines classify and route packets based on IP or MPLS labels at rates up to hundreds of Gbps.^[8] Traffic management regulates flows using queuing mechanisms like deficit round-robin and shaping to prioritize classes of service and prevent congestion.^[8] Interface protocol termination handles Layer 1/2 framing and clock recovery for standards such as Ethernet or SONET/SDH, enabling seamless integration with diverse physical media.^[8] Error handling and diagnostics on line cards include monitoring packet errors, bit errors, and performance metrics, with loopback testing routing signals back to the source interface to isolate faults in transmission paths without external equipment.^[8] These capabilities ensure rapid fault detection and maintain network reliability.^[8]

Components and architecture

A line card in telecommunications and networking typically comprises several key hardware components that enable interface and processing capabilities. Central to analog line handling are Subscriber Line Interface Circuits (SLICs), which provide the electrical interface between the network and subscriber lines, managing functions such as battery feed, ringing, and supervision for voice or DSL connections.^[9] Optical and electrical transceivers serve as the physical layer interfaces, converting signals between electrical and optical formats to support high-speed data transmission over fiber or copper media, often using pluggable modules like SFP or QSFP for flexibility.^[10] Application-Specific Integrated Circuits (ASICs) handle core processing tasks, including packet forwarding, traffic management, and protocol handling, optimizing performance through custom silicon designs tailored to networking demands.^[11] The architecture of a line card emphasizes seamless integration with the router or switch chassis via a shared backplane, which facilitates high-bandwidth interconnections through fabric interfaces that enable data exchange between line cards and control modules.^[8] Power distribution is managed through dedicated voltage rails from the chassis power shelves, ensuring stable supply to components like ASICs and transceivers while incorporating regulators for efficient DC-DC conversion. Cooling mechanisms, such as integrated fans and heat sinks within the chassis, dissipate heat generated by high-density processing, with airflow directed across line cards to maintain operational temperatures.^[12]^[13] Line cards adopt a modular design to enhance deployability and upgradability, featuring form factors such as full-size cards occupying a complete chassis slot or half-height variants for denser configurations, alongside SFP-based modules that allow transceiver swaps without card replacement. These designs incorporate hot-pluggable Field-Replaceable Units (FRUs), enabling insertion or removal during live operation to minimize downtime in carrier environments.^[3]^[14] Internally, line cards are built on printed circuit boards (PCBs) that host edge connectors for backplane mating, along with voltage regulators to step down chassis-supplied power for sensitive ICs. Protection circuits, including surge suppressors and transient voltage suppressors, safeguard against electrical faults like lightning-induced surges on subscriber lines.^[15] Scalability is achieved through multi-port configurations on a single card, allowing aggregation of numerous interfaces; for instance, Cisco's 12000 Series supports 16-port OC-3 setups for high-density SONET/SDH deployments.^[16]

Types and applications

Line cards in telecommunications networks are categorized based on their deployment in access, core, or aggregation layers, each tailored to specific transmission media and protocols. In access networks, Plain Old Telephone Service (POTS) or analog line cards facilitate connections to Public Switched Telephone Network (PSTN) loops, supporting traditional voice services over copper lines. DSL line cards enable broadband internet delivery, such as Asymmetric Digital Subscriber Line (ADSL) and Very-high-bit-rate Digital Subscriber Line (VDSL), by modulating data over existing telephone wires to provide high-speed access for residential and small business users. ISDN line cards handle digital voice and data transmission, utilizing Basic Rate Interface (BRI) or Primary Rate Interface (PRI) to support integrated services like simultaneous telephony and low-speed data at rates up to 144 kbps for BRI. Core and aggregation line cards focus on high-capacity fiber-optic transport. Optical line cards, often incorporating Dense Wavelength Division Multiplexing (DWDM), transport 100G Ethernet signals over long-haul fiber spans, achieving capacities up to 9.6 Tbps per card in coherent optics configurations for backbone networks. Ethernet line cards provide scalable interfaces for Local Area Network (LAN) and Wide Area Network (WAN) aggregation, featuring ports at 10 Gbps, 40 Gbps, or 100 Gbps to handle packet forwarding in metro and regional networks. These line cards find applications in various equipment for edge and transport roles. In routers like the Cisco 12000 series, they enable edge routing by processing high-volume traffic at network boundaries, supporting Gigabit Ethernet for service provider backbones. Switches such as the Juniper PTX series utilize line cards for packet transport, combining Packet Forwarding Engines with Ethernet interfaces to deliver terabit-scale throughput in core routing platforms. Subscriber loop carriers employ access-oriented line cards, such as those in Digital Subscriber Line Access Multiplexers (DSLAMs), to aggregate telco access signals from end-user loops into higher-speed uplinks. Hybrid or multi-service line cards integrate multiple protocols on a single module to support converged services. These cards accommodate mixed voice and data traffic, for instance, combining ADSL/VDSL broadband with voice-over-POTS or ISDN interfaces to streamline deployment in access nodes. Modern trends emphasize 5G and edge computing integrations, driving line cards toward higher port densities and multi-rate support. For example, advancements enable 36 x 400 Gigabit Ethernet ports per card in intelligent IP routers, facilitating low-latency edge processing for 5G-Advanced (5G-A) networks with enhanced connectivity and AI-driven optimization. As of 2025, developments in 800G Ethernet are enabling even higher capacities, with initial deployments in AI-driven data centers and core networks.^[17]

History and development

The origins of line cards in telecommunications trace back to the mid-20th century, but their modular form gained prominence in the 1970s and 1980s within telephone key systems and central office switches. The Western Electric 1A2 Key Telephone System, introduced in 1964 and widely deployed through the 1970s, utilized compact printed circuit line cards such as the 400-type series (e.g., 400D for central office/PBX line service) to interface multiple subscriber lines with key telephones, enabling efficient scaling for small businesses.^[18] These early cards handled analog signaling functions like ringing and supervision, often incorporating discrete components or early integrated circuits, and were driven by the need for cost-effective expansion in response to growing demand for multi-line service. By the 1980s, the transition from analog to digital networks accelerated with the adoption of pulse-code modulation (PCM) in switches like Northern Telecom's DMS-100 (launched 1976), where line cards began integrating coder-decoders (CODECs) for 64 kbit/s DS0 channels, laying the groundwork for higher-density deployments.^[19] In the 1990s, line cards evolved significantly to support digital services like Integrated Services Digital Network (ISDN) and early Digital Subscriber Line (DSL) technologies, reflecting the push toward integrated voice and data over existing copper infrastructure. Northern Telecom's DMS-100 platform incorporated digital line cards for ISDN basic rate interfaces, enabling simultaneous voice and 128 kbit/s data transmission, while advancements in subscriber line interface circuits (SLICs) reduced component counts and improved efficiency.^[20] A landmark example was Alcatel's A1000 Asymmetric Subscriber Access Multiplexer (ASAM) in 1997, which featured DSL line cards delivering multi-megabit downstream speeds for broadband internet trials, marking a shift from circuit-switched to packet-oriented access.^[21] This era's innovations were propelled by semiconductor progress, allowing system-on-chip designs that combined analog front-ends with digital processing, and the rising demand for data services amid ISDN's global rollout in the late 1980s and early 1990s.^[19] The 2000s saw line cards pivot toward core IP networking in routers, emphasizing modularity and high-speed interfaces to accommodate the internet boom. Cisco's 12000 Series Gigabit Switch Router, introduced in 1997 and expanded through the 2000s, featured line cards supporting OC-3 (155 Mbit/s) and DS3 (45 Mbit/s) interfaces for SONET/SDH transport, enabling scalable backbone connectivity for emerging IP traffic.^[22] This period's key driver was the rise of IP networks, supplanting traditional TDM hierarchies with packet switching, which necessitated pluggable line cards for easy upgrades and higher port densities in carrier environments. Modularity became central, allowing operators to mix interface types without full system overhauls.^[23] Post-2010 developments focused on ultra-high-speed optical line cards for data centers and emerging 5G infrastructure, supporting 100 Gbit/s and beyond to handle explosive bandwidth growth. Juniper Networks' PTX Series Packet Transport Routers, launched in 2011, introduced 100G line cards using coherent optics for long-haul transport, optimizing for low-latency IP/MPLS cores in cloud-scale networks.^[24] These advancements were fueled by the analog-to-digital legacy's full realization in all-optical systems, combined with IP dominance and 5G's fronthaul requirements, where modular designs now integrate DSP-based forwarding for terabit-scale scalability.^[23]

Business and sales

Definition and purpose

In the context of business and sales, a line card is a concise printed brochure or document that lists the products, descriptions, and specifications offered by a company, distributor, or manufacturer's representative.^[2] It serves as a high-level overview of a business's product lines, often used by third-party sellers such as value-added resellers (VARs) or distributors to communicate their portfolio to potential clients.^[2] Unlike more detailed resources, a line card focuses on essential highlights, typically spanning 1-2 pages, to provide quick accessibility during interactions.^[4] The primary purpose of a line card is to act as a "menu" of offerings for potential clients, enabling sales teams to deliver rapid overviews in settings like pitches, trade shows, or partnership discussions.^[4] It facilitates product comparisons by including key details such as specifications and manufacturers, helping buyers assess options and costs without overwhelming depth.^[2] In B2B environments, line cards originated as tools for distributors and representatives to showcase carried lines, evolving from simple lists to structured collateral that underscores supplier relationships.^[4] Line cards are particularly common in industries like manufacturing, information technology (IT), and distribution, where they highlight portfolios without requiring full catalogs.^[4] They differ from comprehensive catalogs by emphasizing brevity and strategic summaries over exhaustive technical or pricing data, making them ideal for initial engagements.^[2] Key benefits include building client awareness of available solutions, supporting lead generation through efficient demonstrations, and differentiating a business by illustrating its broad market reach and partnerships in competitive sectors.^[4]

Typical contents

A typical business line card serves as a compact sales tool that outlines a company's offerings, often in a single- or double-sided format, to facilitate quick reference during client interactions. Core elements generally include the company logo for branding, full contact information such as phone numbers, email addresses, and website URLs, and a categorized list of products or services grouped by industry, type, or function.^[25]^[4] Product or service listings typically feature brief descriptions highlighting key features, along with essential specifications like capabilities, dimensions, or performance metrics where relevant, without overwhelming detail. For distributors, these lists often incorporate manufacturer logos and names to demonstrate partnerships and supply chain breadth. Value propositions, such as certifications (e.g., ISO standards) or unique benefits like short lead times and customization options, are commonly emphasized to differentiate the offerings.^[4]^[26] Visual aids enhance readability and appeal, including high-quality images or icons representing products, icons for service categories, and clean layouts with white space, columns, and color accents to guide the viewer's eye. The front side usually focuses on an overview with branding, a tagline, and high-level summaries, while the back provides detailed listings organized into sections for clarity.^[25]^[26] In manufacturing contexts, line cards often list industrial products like valves, gauges, or components with specs such as material types and pressure ratings, alongside supplier details to validate inventory reach. For IT services, they highlight bundles of software, hardware, or managed solutions, including capabilities like cloud integration or cybersecurity features, tailored to demonstrate comprehensive support.^[4]^[2] Customization is key, with content adapted to the target audience—for instance, including more technical specifications and diagrams for engineers, or high-level benefits and case studies for executives—to align with sales contexts where the line card reinforces the company's role in addressing client needs.^[27]^[25]

Design and best practices

Effective line cards in business and sales are designed to be concise documents, typically limited to one or two pages in PDF or digital formats, to ensure quick consumption by distributors, partners, or prospects during meetings or events. Clean layouts with generous white space promote readability, while high-quality product images or icons visually represent offerings without cluttering the page. Consistent branding elements, such as company logos, color schemes, and typography, reinforce professional identity and align with broader marketing materials.^[4]^[2] Best practices emphasize scannability to capture attention in brief interactions, achieved through bullet points for product descriptions, bold headings for categories, and hierarchical text to guide the eye from key benefits to details. Incorporating calls-to-action, like "Contact us for custom quotes" or QR codes linking to full catalogs, drives immediate follow-up. Regular updates—at least annually or with major product changes—keep the content relevant, reflecting new offerings and preventing obsolescence that could undermine trust.^[2]^[4] Tools for creation include professional software like Adobe InDesign for precise layouts and custom graphics, ideal for print-ready versions used at trade shows. For quicker digital iterations, platforms like Canva offer user-friendly templates that support easy customization and export to shareable PDFs or interactive online formats via email or websites.^[28] Digital line cards excel in remote sharing and analytics tracking, whereas printed ones provide tangible impact in face-to-face networking.^[28] Common pitfalls include overloading pages with dense text or excessive specifications, which reduces engagement as prospects scan for value in seconds; instead, focus on benefits over raw data. Outdated information risks eroding credibility, so implement version controls during updates. Generic content without unique selling points fails to differentiate from competitors, and neglecting mobile optimization in digital formats can hinder accessibility on devices used in the field. Ensure designs pass basic readability tests across screens and prints.^[4]^[27] In manufacturing, well-designed line cards have driven partnerships by integrating brief success stories, such as reduced lead times through featured products, leading to stronger distributor alignments as noted in sales collateral analyses. For example, firms emphasizing customer outcomes in their line cards reported higher engagement in industry guides, facilitating deals by clearly demonstrating supply chain value.^[4]

References

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Definition of line card | PCMag
A printed circuit board that provides a transmitting/receiving port for a local area network (LAN) or a carrier's telephone or wide area network (WAN). Line ...
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What is a line card? - TechTarget
Mar 14, 2022 · Its role is to link the router to an external network through an optical fiber interface. The optical line card may be part of a router or ...
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Cisco ASR 9000 Series Ethernet Line Cards
These line cards deliver economical, scalable, highly available, line-rate Ethernet and IP/Multiprotocol Label Switching (IP/MPLS) edge services.
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Cisco CRS Carrier Routing System 16-Slot Line Card Chassis ...
Jul 4, 2014 · Each MSC, FP, and LSP is paired with a corresponding physical layer interface module (PLIM, also called line card) that contains the physical ...Missing: definition | Show results with:definition
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PTX10004 Line Card Components and Descriptions
Line cards are field-replaceable units (FRUs) that can be installed in the line-card slots on the front of the router chassis.
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None
### Summary of BORSCHT Functions in HC-5502X/4X SLIC
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[PDF] Line Cards, Physical Layer Interface Modules, and Shared Port ...
The MSC, FP, and LSP card, also called line cards, are the Layer 3 forwarding engine in the CRS 8-slot routing system. Each line card is paired with a ...Missing: definition | Show results with:definition
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[PDF] AN-316 The Subscriber Line Card in a Distributed Control Switching ...
Abstract: This note describes a set of integrated circuit components that, together, form a major portion of a com- plete subscriber line card subsystem.
[9]
QFX10000 Line Cards - Juniper Networks
Line cards are field-replaceable units (FRUs) that can be installed in the line card slots on the front of the switch chassis. The line cards are hot-insertable ...
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[PDF] EX8200 Ethernet Line Cards Datasheet - Juniper Networks
The EX8200 PFE2 complex is comprised of two ASICs: the packet processor and the switch fabric interface. The hardware pipeline on the packet processor ASIC ...
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Cooling System [Cisco CRS Line Card Chassis Enhanced]
Jul 4, 2014 · It is designed to support the 40G, 140G, 400G and future higher capacity fabric cards and line cards. The complete LCC cooling system includes:.
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This chapter describes the power and cooling requirements for the Cisco CRS-1 Carrier Routing System 16-Slot Line Card Chassis.
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https://www.cisco.com/en/US/docs/routers/crs/crs1/16_slot/site_planning/requirements/guide/sitplch3.html
[14]
[PDF] AN-100 Designing Surge and Power Fault Protection Circuits for ...
The LCAS (Line Card Access Switch) is equipped with a current limiting and steering protection circuit along the lines of Figure 6 above. The design of the ...
[15]
Cisco 12000 Series 16-Port OC-3c/STM-1c POS/SDH Line Card
The new line cards provide two interface types: a 16-port OC-3/PoS and 8-port OC-3/PoS multimode fiber interface using MTRJ connectors and a 16-port OC-3/PoS ...
[16]
[PDF] Advances in the 1A2 Key Telephone System
The above chart illustrates the dramatic increase in the number of lines required to meet an ever- growing demand for key telephone service. In. 1970, Western ...Missing: history | Show results with:history
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Evolution of the Line Card: Part 1 - EE Times
Voice communication has evolved considerably since the first successful recorded voice transmission over wires occurred on March 10th, 1876.Missing: definition authoritative
[18]
Evolution of the Line Card: Part 2 - EDN
### Historical Milestones for Line Cards by Decade
[19]
Milestones:Asymmetric Digital Subscriber Line (ADSL) Enabling ...
Sep 9, 2025 · Early 1990s, Digital Subscriber Line technology was in full development. Be it as part of the ISDN (Integrated Services Digital Network) ...<|control11|><|separator|>
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May 25, 2004 · Cisco last announced a new core router in 1997, though the 12000 Series has undergone significant upgrades since then. Cisco also is launching a ...
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Sep 28, 2008 · In the course of this three part series, we examined the history of line card and looked at the progress over the decades. We examined different ...
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Mar 3, 2011 · The company has unveiled the PTX Series Packet Transport Switch, the foundation of its newly announced Converged Supercore architecture initiative.
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May 4, 2021 · A line card is a piece of sales collateral that lists the names, descriptions, and manufacturers of products sold by a third party, primary ...Missing: definition | Show results with:definition
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What Is a Line Sheet: Small Business Guide (+ Free Template)
May 25, 2023 · Your cover page should display your logo or brand name, product line title, date range (e.g., Brand Name Spring/Summer 2023-24 Wholesale Line ...
[25]
The Do's and Dont's of Line Cards: Where Manufacturing Deals Begin
Sep 28, 2025 · Do: Use visual cues to guide the eye around the page. The goal is to make your line card easy to read and navigate. Use columns, white space ...
[26]
Line Cards as Manufacturing Sales Collateral: A Complete Guide
Aug 15, 2025 · Most manufacturing line cards are product catalogs disguised as marketing. They list capabilities, specs, and certifications that mean nothing ...
[27]
How to Create a Line Card for Your Business - LinkedIn
Jul 19, 2024 · A line card is a concise catalog that highlights your company's offerings. It serves several important purposes: Enhances Sales Efforts: ...
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Use our free business card maker to create custom business cards. Add logos, images, text, change colors, download, or print—all on Canva.
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Rating 9.4/10 (382) It's used by manufacturers, wholesalers, and brands to display basic, yet important information about their products to potential buyers and retailer partners.Missing: definition | Show results with:definition