Circular Connectors

Circular Connectors - Housings

Part Number	Description / PDF	Quantity
KPTC6E10-6S-D-DN VEAM	CONN PLUG HSNG FMALE 6POS INLINE	0
KJG6T22N55SNL VEAM	CONN PLUG HSG FMALE 55POS INLINE	0
FRCIR08-20-29S-F80-VO VEAM	CONN PLUG HSNG FMALE 17POS R/A	0
KPTC7E14-19S-C VEAM	CONN RCPT HSG FMALE 19POS PNL MT	0
PV70L14-4PWL/C VEAM	PV 4C 4#12 PIN RECP	6
CIR00F-28-21S-F80-VO VEAM	CONN RCPT HSG FMALE 37POS PNL MT	0
KPSE01F20-16PWF0 VEAM	CONNECTOR	84
CIR020R-28-16S-F80T89-VO-G1 VEAM	CIR 20C 20#16 SKT RECP	6
CA3102E18-10PBF80F0A232 VEAM	CB 4C 4#12 PIN RECP BOX	0
CIR01CF-36-10S-F80-VO VEAM	CONN RCPT HSG FMALE 48POS INLINE	60
CIR030-24-9P-VO VEAM	CONN RCPT HSNG MALE 2POS PNL MT	54
PV75W18-32SL VEAM	CONN PLUG HSG FMALE 32POS INLINE	0
120-8551-007 VEAM	SS-7R GSS BLK	5221
192900-0052 VEAM	CONN PLG HSG FMALE 32POS INLINE	12
KJL5E23N53SNL27 VEAM	CONN RCPT HSG FMALE 53POS PNL MT	0
CA3102E14S-9PF0 VEAM	CONN RCPT HSNG MALE 2POS PNL MNT	0
CA06COME20-27SF80F0 VEAM	CAC 14C 14#16 SKT PLUG	0
FRCIR01AF-20-33S-F80-VO VEAM	CONN RCPT HSG FMALE 11POS INLINE	0
KJL6T13N8PNL VEAM	CONN PLUG HSNG MALE 8POS INLINE	0
KJB0T19F35AN VEAM	CONN RCPT HSNG MALE 66POS PNL MT	0

Circular Connectors - Housings

1. Overview

Circular connectors housings are electromechanical devices designed to protect and organize electrical contacts in circular configurations. They serve as mechanical support structures while providing environmental protection, electrical insulation, and strain relief. These housings are critical components in maintaining signal integrity and power transmission across diverse applications, from industrial automation to aerospace systems.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Metal Housings	High durability, EMI/RFI shielding, vibration resistance	Military equipment, aerospace systems
Plastic Housings	Lightweight, corrosion-resistant, cost-effective	Consumer electronics, medical devices
Hybrid Housings	Combination of metal/plastic for optimized performance	Automotive sensors, industrial machinery
High-Density Housings	Miniaturized contact arrangements with advanced insulation	Telecom equipment, data centers

3. Structure and Components

Typical circular connector housings consist of: - Shell Body: Cylindrical main structure (metal/plastic) with mounting threads - Contact Cavities: Precision-machined compartments for terminal placement - Sealing System: Integrated gaskets/O-rings for IP65+ protection - Polarization Key: Mechanical feature preventing misalignment - Retention System: Threaded coupling or bayonet mechanisms - Cable Entry: Strain relief provisions with gland seals

4. Key Technical Specifications

Parameter	Importance
Current Rating (A)	Determines power transmission capacity
Voltage Withstand (V)	Ensures dielectric strength
Operating Temperature (-40 C to +125 C)	Defines environmental tolerance
Vibration Resistance (10-2000Hz)	Crucial for harsh environments
IP Rating (IP67/IP68)	Specifies ingress protection level
Contact Retention Force	Prevents accidental disconnection

5. Application Fields

Industrial Automation: Robotics, PLC systems
Medical Equipment: MRI machines, patient monitoring systems
Aerospace: Avionics, flight control systems
Telecommunications: 5G base stations, fiber optic equipment
Energy: Wind turbines, solar inverters

6. Leading Manufacturers and Products

Manufacturer	Representative Product
TE Connectivity	DEUTSCH DT series metal housings
Amphenol	Hermetic circular connector enclosures
Molex	T1 Mini sealed automotive housings
Phoenix Contact	Heavy-duty QUICKON connectors

7. Selection Guidelines

Key considerations include: - Environmental factors (temperature, moisture, chemicals) - Mechanical requirements (vibration, shock, mating cycles) - Electrical parameters (current/voltage requirements) - Material compatibility (corrosion resistance needs) - Space constraints and mounting options - Cost vs. performance trade-offs Example: For underwater robotics applications, prioritize IP68-rated plastic housings with corrosion-resistant coatings and pressure sealing.

8. Industry Trends

Current development trends include: - Miniaturization for IoT device integration - Advanced polymer composites for weight reduction - Integrated smart sensors in connector housings - Enhanced EMI shielding for 5G applications - Sustainability focus on recyclable materials - Additive manufacturing enabling complex geometries