Jumper Wire

Image	Part Number	Description / PDF	Quantity	Rfq
	920-0148-01 SchmartBoard	JUMPER WIRE M TO F 7" 100PCS	0
	920-0066-01 SchmartBoard	JUMPER WIRE FEMALE 9" 100PCS	0
	920-0095-01 SchmartBoard	JUMPER WIRE VARIOUS 25PCS	0
	920-0174-01 SchmartBoard	JUMPER WIRE F TO F 10PCS	0
	920-0017-01 SchmartBoard	JUMPER WIRE FEMALE 2" 100PCS	0
	920-0213-01 SchmartBoard	JUMPER WIRE FEMALE 7" 100PCS	0
	920-0173-01 SchmartBoard	JUMPER WIRE F TO F 4PCS	0
	920-0166-01 SchmartBoard	JUMPER WIRE FEMALE 3" 100PCS	0
	920-0146-01 SchmartBoard	JUMPER WIRE FEMALE 12" 100PCS	0
	920-0205-01 SchmartBoard	JUMPER WIRE FEMALE 7" 100PCS	0
	920-0168-01 SchmartBoard	JUMPER WIRE FEMALE 3" 100PCS	0
	920-0095-60 SchmartBoard	JUMPER WIRE VARIOUS 15PCS	0
	920-0109-01 SchmartBoard	JUMPER WIRE FEMALE 7" 100PCS	0
	920-0179-01 SchmartBoard	JUMPER WIRE FEMALE 5" 100PCS	0
	920-0194-50 SchmartBoard	QTY 50 RED DAISY CHAINED FEMALE	0
	920-0211-01 SchmartBoard	JUMPER WIRE FEMALE 7" 100PCS	0
	920-0207-01 SchmartBoard	JUMPER WIRE FEMALE 7" 100PCS	0
	920-0023-01 SchmartBoard	JUMPER WIRE M TO F 5" 100PCS	0
	920-0185-01 SchmartBoard	JUMPER WIRE FEMALE 9" 100PCS	0
	920-0195-50 SchmartBoard	QTY 50 BLK DAISY CHAINED FEMALE	0

Jumper Wire

1. Overview

Jumper wires are conductive cables used to establish temporary or permanent electrical connections between components on breadboards, PCBs, or prototyping systems. They eliminate the need for soldering in prototype development, enabling rapid circuit assembly and testing. Their importance in modern electronics lies in accelerating R&D cycles, facilitating modular design, and supporting educational/training applications.

2. Main Types & Functional Classification

Type	Functional Features	Application Examples
Single-core Jumper	Fixed-length, solid-conductor wire with male/female terminals	Arduino prototyping, breadboard circuits
Multi-core Ribbon	Flexible flat cable with multiple parallel conductors	Raspberry Pi GPIO connections, data buses
Stackable Jumper	Vertical connection design with dual male terminals	Shield stacking in microcontroller systems
High-frequency Coaxial	Shielded construction for signal integrity	RF circuit testing, oscilloscope probes
Adjustable Length	Telescopic design with variable length control	Field diagnostics, repair work

3. Structure & Composition

Typical jumper wires consist of:

Conductor: 22-28 AWG copper core (solid/stranded)
Insulation: PVC/PTFE materials (0.6-1.2mm thickness)
Terminations: Gold-plated phosphor bronze contacts
Color Coding: Standard 9-color system for wire identification

Mechanical specifications include 2.54mm pitch spacing and 0.64mm terminal diameter compliance with IPC-2221 standards.

4. Key Technical Parameters

Parameter	Importance
Wire Gauge (AWG)	Determines current capacity (300mA-3A range)
Contact Resistance	Impacts signal integrity (<10m critical)
Dielectric Strength	Safety factor (100V-1kV insulation rating)
Temperature Range	Operational limits (-40 C to +105 C standard)
Insertion Force	Durability consideration (0.5-2.0N typical)

5. Application Fields

Primary usage sectors:

Electronics R&D: Circuit prototyping, component testing
Industrial Control: PLC connectivity, sensor interfacing
Telecom: Fiber optic patching, network equipment
Education: STEM training kits, laboratory setups
Automotive: ECU diagnostics, CAN bus simulation

Case study: Arduino Uno R3 breadboarding requires 40-pin male-to-male jumpers for sensor integration.

6. Leading Manufacturers

Manufacturer	Representative Product	Key Features
DuPont	FCP1 Series	UL94-V0 insulation, 2000+ mating cycles
Molex	PicoBlade 0.8mm	Space-saving 0.8mm pitch design
TE Connectivity	Mini50 Series	High-speed signal transmission capability
Seeed Studio	Gravity Jumper	Magnetic quick-connect system

7. Selection Guidelines

Key considerations:

Electrical Requirements: Current/voltage ratings vs application demands
Mechanical Compatibility: Pitch spacing and termination type matching
Environmental Factors: Temperature/humidity resistance needs
Signal Integrity: Shielding requirements for high-speed applications
Cost Efficiency: Batch purchasing vs specialized connector needs

Recommendation: Use 22AWG stranded wire for power circuits (>500mA) and 28AWG for signal lines.

8. Industry Trends

Emerging developments:

Micro-miniaturization: 0.4mm pitch jumpers for wearable devices
Smart Integration: Jumpers with embedded current sensing
Material Innovation: Graphene-coated conductors for EMI reduction
Automated Assembly: Robotic-friendly jumper designs
Eco-friendly: Halogen-free insulation materials compliance

Market projections indicate 7.2% CAGR growth through 2028, driven by IoT and 5G infrastructure.