The tubular-form end-sleeves, with or without plastic collars, prevent the splitting of individual strands of fine-stranded copper conductors and facilitate their insertion into terminals. The dimensions of the end sleeves comply with DIN 46228-4/1 ...
The tubular-form end-sleeves, with or without plastic collars, prevent the splitting of individual strands of fine-stranded copper conductors and facilitate their insertion into terminals. The dimensions of the end sleeves comply with DIN 46228-4/1 ...
The tubular-form end-sleeves, with or without plastic collars, prevent the splitting of individual strands of fine-stranded copper conductors and facilitate their insertion into terminals. The dimensions of the end sleeves comply with DIN 46228-4/1 ...
The tubular-form end-sleeves, with or without plastic collars, prevent the splitting of individual strands of fine-stranded copper conductors and facilitate their insertion into terminals. The dimensions of the end sleeves comply with DIN 46228-4/1 ...
The tubular-form end-sleeves, with or without plastic collars, prevent the splitting of individual strands of fine-stranded copper conductors and facilitate their insertion into terminals. The dimensions of the end sleeves comply with DIN 46228-4/1 ...
The tubular-form end-sleeves, with or without plastic collars, prevent the splitting of individual strands of fine-stranded copper conductors and facilitate their insertion into terminals. The dimensions of the end sleeves comply with DIN 46228-4/1 ...
Cable clips are used as end-sleeves which facilitate the splicing or crimping of the individual wires of stranded and fine-stranded copper conductors in terminals. With the end-sleeves in this clip form, compression of the conductor is not achieved.
Cable clips are used as end-sleeves which facilitate the splicing or crimping of the individual wires of stranded and fine-stranded copper conductors in terminals. With the end-sleeves in this clip form, compression of the conductor is not achieved.
Uninsulated flat receptacles are electrical contact elements made of sheet metal. Their dimensions are designed in accordance with DIN, or deviate from it accordingly. Flat receptacles are available in a wide variety of plug sizes, materials and ...
Uninsulated flat receptacles are electrical contact elements made of sheet metal. Their dimensions are designed in accordance with DIN, or deviate from it accordingly. Flat receptacles are available in a wide variety of plug sizes, materials and ...
Uninsulated flat receptacles are electrical contact elements made of sheet metal. Their dimensions are designed in accordance with DIN, or deviate from it accordingly. Flat receptacles are available in a wide variety of plug sizes, materials and ...
Uninsulated flat receptacles are electrical contact elements made of sheet metal. Their dimensions are designed in accordance with DIN, or deviate from it accordingly. Flat receptacles are available in a wide variety of plug sizes, materials and ...
Uninsulated flat receptacles are electrical contact elements made of sheet metal. Their dimensions are designed in accordance with DIN, or deviate from it accordingly. Flat receptacles are available in a wide variety of plug sizes, materials and ...
Uninsulated flat receptacles are electrical contact elements made of sheet metal. Their dimensions are designed in accordance with DIN, or deviate from it accordingly. Flat receptacles are available in a wide variety of plug sizes, materials and ...
THT socket connectors (Through-Hole Technology) are electromechanical components commonly used in PCB assembly. They are typically available in straight or angled variants. They are paired with a corresponding plug tongue of matching width and ...
THT socket connectors (Through-Hole Technology) are electromechanical components commonly used in PCB assembly. They are typically available in straight or angled variants. They are paired with a corresponding plug tongue of matching width and ...
THT socket connectors (Through-Hole Technology) are electromechanical components commonly used in PCB assembly. They are typically available in straight or angled variants. They are paired with a corresponding plug tongue of matching width and ...
Uninsulated round plug-in sleeves are electrical contact elements which are made of sheet metal and usually have a crimp area for the cable connection. round plug-in sleeves are available in a wide variety of plug sizes, materials and surfaces.
THT socket connectors (Through-Hole Technology) are electromechanical components commonly used in PCB assembly. They are typically available in straight or angled variants. They are paired with a corresponding plug tongue of matching width and ...
Rivet solder terminals (also called "eyelets") are small metal sleeves with an opening at both ends that are often used in the electronics industry as fasteners for electronic components. Rivet solder terminals are typically used in through-hole ...
Receptacles for wire-wrap-pins are special electrical connection components designed for use in PCB assembly and wiring. They are designed to provide a secure and reliable connection between the wire ends and the pins mounted on the PCB. The ...
Terminal pins are electrical connection components used in various electronic applications. They are typically used in PCB assembly and wiring to establish a secure and permanent connection between electronic components. In general, terminal pins are ...
A solder bridge is an electromechanical connector used to make a connection between two contacts. Solder bridges can also be used as jumper connections to connect two separate circuits. A solder bridge can also be used to bypass a faulty connection ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...
Tubular rivets are made from seamless drawn precision tubing. Compared to deep drawn hollow rivets, this has the advantage that both inner and outer diameters at the shank, are exactly cylindrical with consistent wall thickness. Tubular rivets are ...