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Terminal Blocks - Headers, Plugs and Sockets

Image Part Number Description / PDF Quantity Rfq
SVP24-3,81

SVP24-3,81

Altech Corporation

PLUG PCB 24P 381MM VERT 11A 300V

0
PDV16-3,50-V-M

PDV16-3,50-V-M

Altech Corporation

PCB DUAL ROW HEADER 16P 350MM VE

0
PV07-3,50

PV07-3,50

Altech Corporation

PCB HEADER 7P 350MM VERTICAL 11A

0
SVP05-3,81

SVP05-3,81

Altech Corporation

PLUG PCB 5P 381MM VERT 11A 300V

0
SF22-5,08

SF22-5,08

Altech Corporation

PCB HORIZ INVERTEDPLUG 508MMPS 2

0
PDV24-3,50-H-M

PDV24-3,50-H-M

Altech Corporation

PCB DUAL ROW HEADER 24P 350MM HO

0
PDV22-3,50-H-M

PDV22-3,50-H-M

Altech Corporation

PCB DUAL ROW HEADER 22P 350MM HO

0
SVP24-3,81-K

SVP24-3,81-K

Altech Corporation

PLUG PCB 24P 381MM VERT 11A 300V

0
PDSH09-10,16

PDSH09-10,16

Altech Corporation

DOUBLE LV1 HDR HORIZ 18P1016MMPS

0
36.407

36.407

Altech Corporation

PCB HDR 7P 3.81MM HORZ

60
PVP09-7,50

PVP09-7,50

Altech Corporation

PCB HDR VERT 75MMPS CLOSED END9P

0
PHP12-3,81

PHP12-3,81

Altech Corporation

PCB HEADER 12P 381MM HORIZONTAL

0
SHS10-5,00

SHS10-5,00

Altech Corporation

PCB TERMPLUGGABLE5MMPS 10P10A250

0
37.513

37.513

Altech Corporation

PCB HEADER 13 P 5.08MM STLZ950/1

0
SH17-5,00

SH17-5,00

Altech Corporation

PCBPLUG 5MMPS 17P12A300VGRN

0
PDSV02-10,16

PDSV02-10,16

Altech Corporation

DOUBLE LVL HDR VERT 4P 1016MMPS1

0
36.202

36.202

Altech Corporation

PCB PLUG 2P 5.00MM VERT AK1100/0

0
PV14-7,50

PV14-7,50

Altech Corporation

PCB HDR VERT 75MMPS OPEN END14PS

0
PDV17-3,81-V-M

PDV17-3,81-V-M

Altech Corporation

PCB DUAL ROW HEADER 17P 381MM VE

0
PIP03-5,08

PIP03-5,08

Altech Corporation

PCB HDR 45 DEG 508PITCH CLOSED E

0

Terminal Blocks - Headers, Plugs and Sockets

1. Overview

Terminal blocks, headers, plugs, and sockets are essential components in electrical and electronic systems for establishing reliable connections between circuits. These devices enable signal transmission, power distribution, and system modularity. Their standardized designs ensure interoperability, scalability, and ease of maintenance in complex systems.

2. Main Types and Functional Classification

Type Functional Characteristics Application Examples
Terminal Blocks Screw/clamp-based connections for high current/ voltage Industrial control panels, power distribution units
PCB Headers Pin/grid arrays for board-to-board connections Embedded systems, Arduino shields
RJ Connectors Modular jacks for data/telecom signals Ethernet networks (RJ45), telephone systems (RJ11)
D-Sub Connectors Multi-pin trapezoidal shells for analog/digital signals Legacy serial interfaces, industrial sensors
USB Connectors Hot-pluggable interfaces for power/data Consumer electronics, peripheral devices

3. Structure and Components

Typical structures include:

  • Insulating housing (PA66, PBT, or LCP plastics)
  • Contact elements (phosphor bronze, beryllium copper)
  • Plating materials (gold, tin, nickel for corrosion resistance)
  • Actuation mechanisms (screws, spring clamps, or friction fits)
  • EMI shielding layers (for high-frequency applications)

4. Key Technical Specifications

Parameter Importance
Current Rating (A) Determines power handling capacity
Voltage Rating (V) Defines dielectric strength requirements
Contact Resistance (m ) Impacts signal integrity and power loss
Insertion Loss (dB) Critical for high-speed data transmission
Mating Cycles Indicates mechanical durability
Operating Temperature (- C to + C) Defines environmental tolerance

5. Application Fields

Primary industries include:

  • Industrial automation (PLCs, HMIs)
  • Telecommunications (5G base stations, routers)
  • Consumer electronics (smartphones, wearables)
  • Medical equipment (imaging devices, patient monitors)
  • Automotive (EV charging systems, ADAS)

6. Leading Manufacturers and Products

Manufacturer Representative Product
Phoenix Contact COMBICON series terminal blocks
TE Connectivity MICRO MATCH connectors
Molex SL Series headers
Amphenol D-Subminiature connectors
Samtec QTE high-speed socket systems

7. Selection Guidelines

Key considerations:

  • Electrical requirements (current/voltage levels)
  • Mechanical constraints (space, vibration)
  • Environmental factors (temperature, humidity)
  • Signal integrity needs (frequency, noise rejection)
  • Cost vs. reliability trade-offs
  • Compliance with standards (IPC, IEC, UL)

8. Industry Trends

Emerging developments include:

  • Miniaturization for wearable devices
  • High-speed connectors for 5G/6G ( 25 Gbps)
  • Hybrid connectors integrating power/data
  • Eco-friendly materials (halogen-free, RoHS compliant)
  • Smart connectors with built-in sensors
  • Automotive-grade connectors for EVs

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