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Home > Products > Discrete Magnetic Transformers > HF-84023 10/100 BASE-TX Surface Mount LAN Magnetics Quad-Port

HF-84023 10/100 BASE-TX Surface Mount LAN Magnetics Quad-Port

Product Details

Place of Origin: Guangdong,China

Brand Name: LINK-PP

Certification: UL,RoHS,Reach,ISO

Model Number: HF-84023

Payment & Shipping Terms

Minimum Order Quantity: 400/2000/10K/25K

Price: $0.5-$1.2

Packaging Details: T&R

Delivery Time: In Stock Ship Within 3 Days

Payment Terms: TT,NET30/60/90 Days

Supply Ability: 3KK/Month

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Highlight:

HF-84023

,

Surface Mount LAN Magnetics

,

Quad-Port LAN Transformers

Part Number:
HF-84023
Transformer Type:
10/100 BASE-TX LAN Transformers
Length:
28.25mm/1.125in Max
Width:
16.26mm/0.640in Max
Height:
12.19/ 0.480in
Mounting Style:
Surface-mount (SMT)
Configuration:
Quad-port
Application:
Network Switches, NICs
Part Number:
HF-84023
Transformer Type:
10/100 BASE-TX LAN Transformers
Length:
28.25mm/1.125in Max
Width:
16.26mm/0.640in Max
Height:
12.19/ 0.480in
Mounting Style:
Surface-mount (SMT)
Configuration:
Quad-port
Application:
Network Switches, NICs
HF-84023 10/100 BASE-TX Surface Mount LAN Magnetics Quad-Port
HF-84023 10/100 BASE-TX Surface Mount LAN Magnetics Quad-Port
Product Overview

The HF-84023 is a quad-port, surface-mount magnetics module designed for 10/100 BASE-TX Ethernet applications. It integrates the required isolation, coupling, and filtering magnetics in a compact SMT package, tailored for space-efficient PCB design in Ethernet modules, switches, or network interface devices.

Typical target applications include LAN switching hubs, network interface cards (NICs), embedded Ethernet motherboards, and other 10/100 Mbps systems requiring multiple RJ-45 ports.

Key Features
  • Supports 10/100 Mbps BASE-TX Ethernet standard.
  • Quad-port configuration (4 independent magnetics ports) -- helps reduce board space and simplify BOM for multi-port Ethernet devices.
  • Surface-mount technology (SMT) footprint -- designed for automated assembly and compact design.
  • Integrated magnetics module: typically includes transformer windings, common-mode chokes, isolation, and termination components (as is common in 10/100 magnetics modules).
  • Suitable for high-density multi-port Ethernet applications thanks to its compact packaging.
  • Complies with typical Ethernet magnetics isolation and performance requirements.
Typical Benefits for Designers
  • Confirm network speed requirement: If your system requires Gigabit (1000 Base-T) or higher, select accordingly; LP1188NL is optimized for 10/100 Base-T.
  • Ensure the PCB layout accommodates transformer placement near the PHY or RJ45 magnetics path for optimal signal integrity.
  • Consider the isolation voltage rating relative to the system safety/regulatory environment.
  • Verify the suitability of the reflow profile (SMT) and the maximum component height, considering enclosure constraints.
  • If PoE (Power-over-Ethernet) capability is required, ensure magnetics and RJ45 interface are rated accordingly (LP1188NL is for NON-PoE).
Typical Design/Board Layout Considerations
  1. Ensure correct footprint and pad layout per the module's mechanical drawing (refer to datasheet for pin-out and solder-pad dimensions).
  2. Maintain correct isolation clearance around the magnetics to meet Ethernet isolation standards (typically 1500 Vrms or higher between windings).
  3. Route differential pairs (Tx/Rx) in close proximity, controlled impedance, and maintain return path integrity to maximize signal integrity at 100 Mbps.
  4. Consider placement relative to the RJ-45 connector: the magnetics are often placed immediately adjacent to the RJ-45 to minimize stub length and EMI.
  5. Follow manufacturer's recommendation for grounding/shielding: typically, the magnetics module shielding or drain pin should connect to chassis ground or signal ground as specified.
  6. EMI/EMC: Use of integrated magnetics helps meet emissions/privacy specifications; still, layout must follow good practices (e.g., keep noisy switching away, maintain common-mode choke effectiveness, use proper decoupling).
  7. Thermal & reliability: Although magnetics modules generally carry low losses, verify that ambient temperature, board reflow profile, and any nearby heat sources are considered (especially in dense, multi-port designs).