Technical documents
Specifications
Brand
TE ConnectivitySplice Type
Parallel
Minimum Wire Size mm²
0.3mm²
Wire Size
22 → 14 AWG
Minimum Wire Size (mm²)
0.3mm²
Maximum Wire Size mm²
2mm²
Overall Length
7.6mm
Maximum Wire Size (mm²)
2mm²
Diameter
3.6mm
Insulation
Insulated
Contact Material
Copper
Contact Plating
Tin
Thickness
1.45mm
Product details
TE Connectivity SOLISTRAND Closed Barrel Parallel Splices
SOLISTRAND closed barrel parallel splices designed to terminate solid and stranded wire and irregular shaped conductors. These SOLISTRAND closed barrel parallel splices are made from fine grade high conductivity copper with tin plating and have closed barrels with brazed seams that create a uniform metal strength around the barrel. The inner surface of the barrels of these SOLISTRAND parallel splices are either dimpled or serrated for maximum tensile strength and to maximise the electrical contact area after crimping
TE Connectivity SOLISTRAND Terminals and Splices
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£ 0.21
Each (Supplied in a Bag) (ex VAT)
100
£ 0.21
Each (Supplied in a Bag) (ex VAT)
100
Buy in bulk
quantity | Unit price | Per Bag |
---|---|---|
100 - 400 | £ 0.21 | £ 21.00 |
500+ | £ 0.21 | £ 21.00 |
Technical documents
Specifications
Brand
TE ConnectivitySplice Type
Parallel
Minimum Wire Size mm²
0.3mm²
Wire Size
22 → 14 AWG
Minimum Wire Size (mm²)
0.3mm²
Maximum Wire Size mm²
2mm²
Overall Length
7.6mm
Maximum Wire Size (mm²)
2mm²
Diameter
3.6mm
Insulation
Insulated
Contact Material
Copper
Contact Plating
Tin
Thickness
1.45mm
Product details
TE Connectivity SOLISTRAND Closed Barrel Parallel Splices
SOLISTRAND closed barrel parallel splices designed to terminate solid and stranded wire and irregular shaped conductors. These SOLISTRAND closed barrel parallel splices are made from fine grade high conductivity copper with tin plating and have closed barrels with brazed seams that create a uniform metal strength around the barrel. The inner surface of the barrels of these SOLISTRAND parallel splices are either dimpled or serrated for maximum tensile strength and to maximise the electrical contact area after crimping