Ericsson Ers 2460 — Datasheet

In the evolving landscape of enterprise networking, edge switches often serve as the unsung heroes of infrastructure. They are the first point of contact for end-user devices and the last mile before traffic funnels into the core network. Ericsson, a global leader in telecommunications and networking hardware, addressed this critical junction with the Ericsson ERS (Edge Routing Switch) 2460 Series.

For network engineers, procurement specialists, and IT managers searching for the "Ericsson ERS 2460 datasheet," accessing clear, concise, and detailed specifications is vital for deployment planning. This article serves as a comprehensive datasheet and analysis of the ERS 2460, covering hardware specifications, performance metrics, software features, PoE capabilities, and typical use cases.

Note: The Ericsson ERS 2460 series is often associated with the legacy products from the former Nortel/Avaya switching portfolio, which Ericsson has continued to support and develop for specific industrial and enterprise applications. Always verify the exact firmware version and manufacturing revision for your specific unit.

The power supply modules within the unit often feature load sharing and redundancy, ensuring the base station remains operational even if one power module fails.

Disclaimer: This document is a representative reconstruction. Ericsson AB and its successors do not guarantee the accuracy of this text for actual hardware. Verify all parameters with original factory documentation or by testing a sample unit.

The Ericsson Radio 2460 is a compact, passively cooled 2T4R dual-band remote radio unit designed for low-band (700/800/900 MHz) multi-standard networks including GSM, WCDMA, LTE, and 5G NR. Featuring one-bolt installation and versatile mounting options, this unit offers enhanced uplink performance and is compatible with Baseband 6631/6651 for high-capacity site deployment. For more details, visit Baseband 6631 & 6651 Configurations | PDF - Scribd

The Ericsson Radio 2460 is a dual-band remote radio unit (RRU) within the Ericsson Radio System portfolio. It is designed primarily for low-band coverage and capacity, specifically supporting frequencies such as 700MHz, 800MHz, and 900MHz. Key Technical Specifications

The following technical details are derived from industry deployment data and Ericsson’s radio portfolio:

Frequency Support: Supports low-band spectrum including 700MHz (n28), 800MHz (B20), and 900MHz (B8).

Radio Standards: Multi-standard capability supporting GSM, WCDMA, LTE, and 5G (FDD).

Receive Pathways: Notable for providing 4-way receive (4Rx) capability, which enhances uplink performance and coverage in rural and moderate urban areas.

Cooling: Features a fanless, passive cooling design to reduce maintenance and increase reliability.

Interface: Supports standard CPRI and packetized fronthaul (eCPRI) for integration with Cloud RAN and purpose-built Ericsson RAN Compute products. Design and Deployment Features

Modular Installation: Uses Ericsson’s unique one-bolt installation system, allowing for flexible mounting on rails, walls, poles, or ceilings. ericsson ers 2460 datasheet

Efficiency: Powered by Ericsson Silicon, the radio is designed for high energy efficiency and a reduced carbon footprint compared to previous generations.

Interference Mitigation: Includes built-in PIM (Passive Intermodulation) cancellation to reduce uplink interference when multiple signals share the same antenna.

Sustainability: Part of a portfolio that targets up to a 50% reduction in embodied carbon footprint. Product Documentation

For detailed installation and maintenance procedures, engineers can refer to the Radio 2460 Installation Guide on Scribd, which details required tools (e.g., Torx T30, torque wrenches) and safety precautions. Radio 2460

with newer Radio 44xx series models or see specific power consumption ratings for this unit?

Install Radio 2460 | PDF | Electrical Connector | Screw - Scribd

It was a typical Monday morning for John, a procurement engineer at a leading telecommunications equipment manufacturer. He was sipping his coffee and scrolling through his emails when he stumbled upon a message from one of his colleagues.

"Hey John, we need to find a replacement for our old Ericsson ER-S 2460 radio access network equipment," the email read. "The vendor is no longer supporting it, and we need to upgrade to a newer model."

John's eyes widened as he read the email. He had worked with the Ericsson ER-S 2460 before, back in his university days. It was a reliable and efficient system, but it was indeed old technology.

He quickly opened his web browser and typed in the keywords "Ericsson ER-S 2460 datasheet". The search results yielded a few hits, including a link to an archived version of the datasheet on Ericsson's website.

John clicked on the link and began to scroll through the pages of the datasheet. The ER-S 2460 was a radio access network (RAN) system that supported up to 480 cells and 10,000 subscribers. It was designed for outdoor installation and had a ruggedized design to withstand harsh environmental conditions.

As John continued to read through the datasheet, he noticed that the system used a proprietary Ericsson protocol for communication between the RAN and the core network. He made a mental note to check if their current core network equipment was compatible with newer RAN systems.

John spent the next few hours researching potential replacement options, comparing features and pricing from different vendors. He finally compiled a list of potential solutions and sent it to his colleagues for review. In the evolving landscape of enterprise networking, edge

The team decided to shortlist two vendors and schedule demos for the next week. John was tasked with preparing the evaluation criteria and leading the demo sessions.

The day of the demos arrived, and John was nervous but prepared. The first vendor presented their solution, a sleek and modern RAN system that seemed to tick all the boxes. However, during the Q&A session, John asked a few tough questions about compatibility and scalability.

The second vendor, a relatively new player in the market, presented a more innovative solution that used open-standard protocols and had a more modular design. John was impressed by their approach and asked several follow-up questions.

After careful evaluation, John's team decided to go with the second vendor's solution. The new RAN system was more flexible, scalable, and cost-effective than the other option.

As John was about to leave the meeting room, his colleague approached him and said, "Thanks for leading the evaluation process, John. Your knowledge of the Ericsson ER-S 2460 datasheet was invaluable in making this decision."

John smiled and replied, "It's all in a day's work. Now, let's get the new system up and running!"

| Pin | Name | Description | |-----|------|-------------| | 1 | Vin+ | Positive input | | 2 | Vin- | Negative input | | 3 | On/Off | Remote control (active low, logic compatible) | | 4 | Trim | Output voltage adjust | | 5 | Sense+ | Remote sense positive | | 6 | Sense- | Remote sense negative | | 7 | Vout+ | Positive output | | 8 | Vout- | Negative output |

Model: Ericsson ERS 2460
Product type: Fixed Ethernet switch (Layer 2/Layer 3 capable modular switch)

Key specifications

Switching capacity: 48 Gbps (wire-speed non-blocking)

Forwarding rate: ~35.7 Mpps

MAC address table: 16,000 entries

VLANs: 802.1Q VLAN tagging, up to 4,096 VLAN IDs

Spanning Tree: 802.1D, 802.1w (RSTP), 802.1s (MSTP) support

QoS: 8 hardware queues, 802.1p priority, DiffServ (DSCP) mapping, rate limiting and traffic shaping

Link aggregation: IEEE 802.3ad (LACP) support

IGMP: v1/v2 snooping, querier support

Security features: Port security, 802.1X authentication, RADIUS/TACACS+ support, DHCP snooping, BPDU guard, storm control, ACLs (L2–L4)

Management:

Redundancy & availability: VRRP support, redundant power options (hot-swappable PSU in chassis variants), hot-swappable fans (for chassis or high-availability models)

Environmental:

Power:

Compliance & certifications: CE, FCC, RoHS (model dependent)

Use cases

Deployment notes (concise)

Common limitations

Reference action

Ericsson Radio 2460 (part of the Ericsson Radio System) is a low-band, multi-band remote radio unit (RRU) designed to provide wide-area coverage and excellent signal penetration for LTE (4G) networks. It is particularly effective for rural and suburban deployments where long-range macro-cell performance is critical. The Pulse of the Valley: A Technical Tale

The engineers in the small valley of Oakhaven called it "The Silent Guardian." To everyone else, it was just the Ericsson Radio 2460

, a 37.5 kg block of aluminum alloy bolted to a rail at the top of the ridge.

For years, Oakhaven was a "dead zone." The town sat deep in a geographic bowl where signals from the distant city simply couldn't reach. But when the local carrier decided to modernize, they didn't just want a signal; they wanted a foundation. They chose the Radio 2460 because it spoke the three "low-band languages" the valley needed: Band 8 (900 MHz) Band 20 (800 MHz) Band 28 (700 MHz) On installation day, the technician, Sarah, appreciated the one-bolt installation

system. As she tightened the final 5 mm bolt and connected the SFP modules , she knew that even if the temperature dropped to in the winter or hit in a summer heatwave, the 2460’s passive cooling

would keep it humming without a single mechanical fan to fail. Once powered up at its standard

, the radio began its work. Its 2Tx/4Rx architecture pushed data across the valley floor, penetrating thick brick walls and reaching basement workshops that hadn't seen a "bar" of signal in a decade. It wasn't just about faster downloads; it was the spectrum efficiency. By combining three bands into one hardware footprint, the carrier saved on site rental and energy, using roughly to light up an entire township.

Now, as the sun sets over Oakhaven, the Radio 2460 sits silently on its pole, resisting wind loads of up to

. It doesn't look like much, but for the people below, it is the invisible thread connecting them to the rest of the world. Key Specifications from the Datasheet Radio Type : Outdoor macro remote radio unit. Frequency Support : Triple-band (B8, B20, B28B). Dimensions : 37.5 kg. Power Consumption : Typical 1215 W. Environment : Operating range from futuristic story involving its 5G-ready capabilities, or perhaps a technical breakdown of its mounting options? KRC161831/1 – Radio 2460 24B8 / 24B20 / 24B28B M01

The Ericsson ERS 2460 (often referenced as part of the RBS 6601 family) is a rugged, outdoor-capable radio base station designed for wireless communications. It belongs to Ericsson’s "Main Remote" architecture, where the baseband and radio functions are separated or integrated into a compact, weatherproof enclosure.

This unit is designed to provide wide-area coverage for mobile networks. It is widely deployed in both urban environments (where space is at a premium) and rural areas (where environmental hardening is required).

Datasheet Claim: High-density aggregation via modular line cards. Review: The ERS 2460 chassis was designed to terminate thousands of slow-speed links (like DSL or early DOCSIS) and aggregate them into fewer, high-speed uplinks (10 Gigabit Ethernet). The datasheet details a variety of Gigabit Ethernet and 10GE line cards.