General Electric IS420ESWBH3A Mark VIe Industrial Ethernet Switch

Only 4 item(s) left in stock

Manufacturer: General Electric
Product No.: IS420ESWBH3A
Country of origin:United States
Product Type: Ethernet Switch
Barcode: 8537101190
Payment: T/T, Western Union
Weight: 820g
Dimensions: 2.1cm x 18.6cm x 26.3cm
Shipping port: Xiamen
Warranty: 12 months

View full details

Description

The GE IS420ESWBH3A is an industrial unmanaged Ethernet switch designed for real-time control applications within the Mark VIe and Mark VIeS Safety control systems. As a core component of the IONet infrastructure, this device provides the deterministic, high-speed connectivity required for critical turbine control networks. Operating with a dual independent 24/28 V dc input structure that is Diode-OR'd for hardware-level power redundancy, the module ensures high system availability. Unlike variants equipped with fiber-optic uplinks, this specific model features a high-density 16-port copper configuration using standard RJ-45 interfaces, delivering seamless physical system compatibility without the complexity of optical transceivers in localized control panels.

Features

Full operational compatibility with IEEE 802.3, 802.3u, and 802.3x automation networking standards.
Provides 16 auto-negotiating 10/100Base-TX copper ports equipped with robust RJ-45 connectors.
Integrated HP-MDIX auto-sensing across all ports to eliminate internal crossover cabling dependencies.
Dual-color port LEDs providing real-time local diagnostics for Link Presence, Activity, Duplex, and Channel Speed.
Dedicated power diagnostic LED verifying operational voltage across the internal logic circuitry.
High-capacity memory architecture including a minimum 256 KB packet buffer and a 4 K MAC address table.
G3 conformal coating as standard for advanced environmental protection against airborne contaminants.
Non-interfering safety rating allowing mixed deployment across standard and safety-instrumented system layers.

Applications

Real-time deterministic IONet switches inside Mark VIe gas, steam, or hydro turbine control frameworks.
Safety network distribution layers within Mark VIeS Functional Safety control enclosures.
High-density distribution blocks for power generation balance-of-plant (BOP) unmanaged sub-networks.
Corrosive industrial environments requiring certified Class 1, Div 2 or ATEX Zone 2 protection.

Ordering Information

Model Number	Copper Ports	Fiber Ports / Interface Type
IS420ESWBH1A	16 Ports (10/100Base-TX)	1 Port 100Base-FX, Multi-Mode Fiber (LC-Type)
IS420ESWBH2A	16 Ports (10/100Base-TX)	2 Ports 100Base-FX, Multi-Mode Fiber (LC-Type)
IS420ESWBH3A	16 Ports (10/100Base-TX)	No Fiber Ports (All-Copper Option)
IS420ESWBH4A	16 Ports (10/100Base-TX)	1 Port 100Base-LX10, Single-Mode Fiber (LC-Type)
IS420ESWBH5A	16 Ports (10/100Base-TX)	2 Ports 100Base-LX10, Single-Mode Fiber (LC-Type)

Technical Specifications Table

Parameter	Specification
Manufacturer	General Electric (GE)
Product Name	Mark VIe IONet Switch
Life-cycle Status	Active
Copper Ports	16 ports, 10/100Base-TX copper, RJ-45
Fiber Ports	No fiber ports
Power Requirements	24/28 V dc, 1 A max
Power Hardware Configuration	TB1 and TB2 inputs for independent power sources, Diode-OR'd for hardware redundancy
Power Supply Connector	Phoenix contact (MC 1.5/S-STF-3.81) (qty 2, Included)
Copper Cables	Cat 5e UTP cable with RJ-45 connectors (8P8C)
Cooling	Convection cooled
Safety Rated Capability	Non-interferring
G3 Compliant	Yes
Hazardous Locations	Class 1, Div 2/ Class 2, Zone 2 / ATEX
Ambient Operational Temperature	-40 to 70 degC (-40 to 158 Fahrenheit)
Storage Temperature	-40 to 85 degC (-40 to 185 Fahrenheit)
Dimensions (H x W x D)	18.8 x 8.6 x 5.6 cm (7.40 x 3.40 x 2.20 in)
Mounting Method	DIN-rail mounted with separately purchased mounting clip
Country of Origin	USA

Connections and Interfaces

Connector Pin / Terminal	Function / Circuit Assignment
RJ-45 Ports 1 to 16	10/100Base-TX unmanaged Ethernet lines for processing node communication
TB1 Terminal Connection	Primary 24/28 V dc control system power input feed
TB2 Terminal Connection	Secondary 24/28 V dc hot-standby power input feed

Alternative Models & Compatibility

When updating network assets within the Mark VIe topology, engineers must cross-reference the fiber requirements of the downstream I/O racks. The IS420ESWBH3A contains zero fiber interfaces and cannot directly replace an IS420ESWBH1A if the existing infrastructure utilizes the 100Base-FX multi-mode LC uplink port to span long structural distances. However, if the fiber interface on an existing H1A module is unused, the H3A serves as a direct drop-in replacement with identical power layouts and physical envelope. For fields migrating from the compact 8-port ESWA form factor to the 16-port ESWB layout, ensure control cabinet layouts can support the increased height clearance (18.8 cm vs 13.8 cm).

Application Pitfalls & Engineering Notes

A common operational mistake involves combining multi-mode fiber runs with single-mode variations (H4A/H5A models) when trying to scale out copper lines with alternative ESWB units. Because the H3A completely omits optical elements, it is immune to optical signal attenuation pitfalls but remains limited to the 100-meter copper transmission ceiling defined by Cat 5e specifications. In unventilated control boxes experiencing high ambient thermal loads near the 70 degC maximum operating limit, the switch must be spaced away from adjacent high-dissipation power modules to prevent localized thermal clustering, as it relies strictly on convection passive cooling mechanisms.

Commissioning & Wiring Tips

During the commissioning phase, verify that both separate terminal paths (TB1 and TB2) originate from isolated power distribution points to achieve genuine dual-source infrastructure redundancy. When attaching network cables, ensure the shield of the Cat 5e cable makes continuous low-resistance contact with the metal shroud of the RJ-45 ports. This configuration routes high-frequency electrical noise out of the signal lines and into the DIN rail ground path, preventing network packet loss caused by nearby turbine ignition systems or variable frequency drives.

Installation Guidelines

CRITICAL WARNING:

Isolate and lock out all live industrial DC voltage feeds connected to terminal headers TB1 and TB2 before executing mounting or physical terminal block modifications. Working on energized components poses a risk of bridging networks or causing arc flash events that can damage internal logic components or cause personal injury. Confirm that field power sources match the 24/28 V dc system parameters prior to wire insertion.

Identify the intended structural orientation. Secure the separate mounting hardware component to the rear of the device frame using the factory screws. Utilize clip 259B2451BVP1 to orient the long edge parallel to the rail, or clip 259B2451BVP4 to secure it perpendicular to the rail layout.

Snap the structural base bracket onto a clean, grounded 35 mm DIN rail structure. Verify the assembly locks securely into position and maintains solid metal-to-metal bonding connection for proper EMI/RFI shielding dispersion.

Terminate the DC power supply lines into the provided 5-pin Phoenix Contact plugs (MC 1.5/S-STF-3.81). Connect the separate feeds to TB1 and TB2 to instantiate hardware-level power path redundancy, then tighten the integrated retaining fasteners.

Plug the Category 5e UTP control cables into the standard RJ-45 copper sockets (Ports 1 through 16). Ensure the locking mechanisms engage completely and map port assignments in accordance with the site's network configuration records.

Key Features:

#Ethernet Switches #Mark VIe

What is the physical and functional difference between the H3A and H1A hardware models?

The H3A is an all-copper variant featuring 16 RJ-45 ports and no fiber interfaces. The H1A includes 16 RJ-45 copper ports plus an additional 100Base-FX multi-mode fiber uplink port utilizing an LC connection.

How do I choose between an H3A model and an H1A or H4A model for my network layout?

Select the H3A if all devices reside within local control enclosures within a 100-meter limit. Choose the H1A for multi-mode fiber uplinks over intermediate spans, or the H4A/H5A models if long-distance single-mode fiber links are required between remote control facilities.

Does this module require any software setup or firmware flashing during commissioning?

No. This module functions as a pure unmanaged network layer device, providing auto-negotiation and auto-sensing features that work immediately upon physical hardware installation without software configuration.

What is the significance of the Diode-OR'd power connection layout on this switch?

The layout allows two isolated 24V or 28V DC power grids to supply the device simultaneously. If one input source fails or drops voltage, the internal diode steering circuit ensures the alternate source powers the switch with zero interruption.

Global Express Shipping

Standard Delivery: 4-6 Business Days via DHL, FedEx, and UPS.
Express Dispatch: Same-day dispatch for in-stock orders placed before 2:00 PM (GMT+8).
Worldwide Coverage: Serving over 150 countries, including rapid delivery to Saudi Arabia and UAE.

Returns & Warranty

30-Day Guarantee: Returns accepted for in-stock products in original, factory-sealed packaging.
12-Month Warranty: Every industrial component is backed by our professional technical warranty.

Orders are processed and delivered Monday-Friday (excluding public holidays).

For full eligibility, restocking fees, and international return details, please view our official Refund & Return Policy .

TECHNICAL SPECIFICATIONS

Color pattern	Black
Country of origin	United States
Ethernet lan interface type	Fast
Network protocols supported	Ethernet (IEEE 802.3)
Power source	DC Power

General Electric IS420ESWBH3A Mark VIe Industrial Ethernet Switch