Backplane Connectors - Specialized

Part Number	Description / PDF	Quantity
127050-0110 VEAM	DLM5-260R	3
DPA-32-33S-A VEAM	CONN PLUG RACK & PNL 32P PNL MT	0
111995-0000 VEAM	DLM6-360PW6A	14
DPA-32-34P-A VEAM	CONN RCPT RACK & PNL 32P PNL MT	0
DLM2-96RW4B VEAM	112137-0001	51
111987-0000 VEAM	DL5-260RW6B	470
DL1-156RW4B VEAM	110536-1006	0
QLC260R1 VEAM	CONN RCPT 260POS PCB	0
127050-0109 VEAM	DLM5-260P	272
QLC260R-M01 VEAM	CONN RCPT 260POS PCB	0
110901-0010 VEAM	DL3-60RW6B	69
QLC260R PARKING VEAM	CONN RCPT 260POS PCB	0
111996-0001 VEAM	DLM6-360RW6B	12
110855-0014 VEAM	DL2-96RW6B	968
110777-0025 VEAM	DL2-96PW6A	0
DLM5-260R-PF VEAM	127050-0313	3
110535-0000 VEAM	DL1-156P	37
QLC260R1-M01 VEAM	CONN RCPT 260POS PCB	0
127050-0224 VEAM	DLM3-60R	240
086-0031-000 VEAM	DL2-96R 96 PIN CRIMP CONNECTOR	561

Backplane Connectors - Specialized

1. Overview

Specialized backplane connectors are critical electromechanical components designed to establish reliable interconnections between printed circuit boards (PCBs) in complex electronic systems. These connectors enable high-speed data transmission, power distribution, and signal integrity in demanding environments. Their importance spans industries such as telecommunications, industrial automation, and aerospace, where system reliability and performance are paramount.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
High-Speed Backplane Connectors	Support data rates >25 Gbps with controlled impedance	Data center switches, 5G base stations
High-Power Backplane Connectors	Rated for >50A per contact with thermal management	Industrial motor drives, EV charging systems
High-Density Backplane Connectors	Miniaturized contacts with pitch <1.0mm	Medical imaging equipment, test instrumentation
Hermetic Backplane Connectors	IP68-rated sealing for extreme environments	Subsea sensors, military avionics

3. Structure and Components

Typical construction includes: - Contact Pins: Phosphor bronze or beryllium copper with gold plating - Insulation Housing: LCP (Liquid Crystal Polymer) or PPS (Polyphenylene Sulfide) - Shielding: 360 EMI protection with stainless steel springs - Retention Mechanism: Polarized keying and threaded inserts - Thermal Management: Integrated heat dissipation fins

4. Key Technical Specifications

Parameter	Typical Range	Importance
Current Rating	1-100A	Power transmission capability
Contact Resistance	0.5-5m	Signal integrity maintenance
Dielectric Withstanding Voltage	500V-5kV	Electrical safety assurance
Operating Temperature	-55 C to +125 C	Environmental reliability
Mating Cycles	500-20,000	Long-term durability

5. Application Fields

Telecommunications: 5G NR base stations, optical transport networks
Industrial: Programmable logic controllers (PLCs), robotics
Medical: MRI scanners, digital radiography systems
Transportation: Railway signaling systems, EV powertrains

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Feature
TE Connectivity	Hypertac Backplane	100Gbps data rate with floating contact design
Amphenol	Rosenberger 400Gbps	Modular architecture for scalable networks
Molex	Impel High-Speed	Differential pair shielding for signal integrity

7. Selection Guidelines

Evaluate system bandwidth requirements (e.g., PCIe 5.0 needs 32 GT/s)
Verify vibration/thermal cycling compliance (e.g., Telcordia GR-63-CORE)
Assess PCB footprint compatibility (e.g., orthogonal vs. parallel mounting)
Confirm RoHS/REACH compliance for regulatory requirements
Balance cost vs. expected product lifecycle (5-15 years typical)

8. Industry Trends

Key developments include: - Transition to 112 Gbps PAM4 signaling for next-gen data centers - Integration of optical interfaces in hybrid electro-optical connectors - Adoption of advanced plating materials (e.g., nano-coated gold alloys) - Growing demand for circular (360 ) interconnect solutions - Implementation of AI-driven predictive maintenance features in connectors