An electrical connector assembly having a housing with terminal receiving passages. The terminal receiving passages have wire receiving portions. Wires are positioned in the wire receiving portions. The wires have cable jackets and center conductors. Electrically conductive components for controlling impedance of sections of the wires are positioned in the wire receiving portions of the terminal receiving passages. The electrically conductive components includes base walls with end walls, The end walls extend in a direction which is essentially perpendicular to planes of the base walls. The base walls have lengths which are approximately equal to lengths of the wire receiving portions of the terminal receiving passages. Insulation displacement slots are provided on the end walls. Lead-in sections extend from the insulation displacement slots in a direction away from the base wall.

An electrical connector assembly having a housing with terminal receiving passages. The terminal receiving passages have wire receiving portions. Wires are positioned in the wire receiving portions. The wires have cable jackets and center conductors. Electrically conductive components for controlling impedance of sections of the wires are positioned in the wire receiving portions of the terminal receiving passages. The electrically conductive components includes base walls with end walls, The end walls extend in a direction which is essentially perpendicular to planes of the base walls. The base walls have lengths which are approximately equal to lengths of the wire receiving portions of the terminal receiving passages. Insulation displacement slots are provided on the end walls. Lead-in sections extend from the insulation displacement slots in a direction away from the base wall.

An electrical connector assembly having a housing with terminal receiving passages. The terminal receiving passages have wire receiving portions. Wires are positioned in the wire receiving portions. The wires have cable jackets and center conductors. Electrically conductive components for controlling impedance of sections of the wires are positioned in the wire receiving portions of the terminal receiving passages. The electrically conductive components includes base walls with end walls, The end walls extend in a direction which is essentially perpendicular to planes of the base walls. The base walls have lengths which are approximately equal to lengths of the wire receiving portions of the terminal receiving passages. Insulation displacement slots are provided on the end walls. Lead-in sections extend from the insulation displacement slots in a direction away from the base wall.

An electrical connector assembly having a housing with terminal receiving passages. The terminal receiving passages have wire receiving portions. Wires are positioned in the wire receiving portions. The wires have cable jackets and center conductors. Electrically conductive components for controlling impedance of sections of the wires are positioned in the wire receiving portions of the terminal receiving passages. The electrically conductive components includes base walls with end walls, The end walls extend in a direction which is essentially perpendicular to planes of the base walls. The base walls have lengths which are approximately equal to lengths of the wire receiving portions of the terminal receiving passages. Insulation displacement slots are provided on the end walls. Lead-in sections extend from the insulation displacement slots in a direction away from the base wall.

An insulation displacement contact has a tubular body extending along a longitudinal axis toward an open end. The tubular body has a pair of cutting edges at the open end. The tubular body has a pair of opposing side surfaces each having a slot extending to the open end and disposed between the cutting edges. The slot on one of the opposing side surfaces is a contacting slot and the slot on the other of the opposing side surfaces is a positioning slot. A first clear width of the contacting slot is less than a second clear width of the positioning slot.

An insulation displacement contact has a tubular body extending along a longitudinal axis toward an open end. The tubular body has a pair of cutting edges at the open end. The tubular body has a pair of opposing side surfaces each having a slot extending to the open end and disposed between the cutting edges. The slot on one of the opposing side surfaces is a contacting slot and the slot on the other of the opposing side surfaces is a positioning slot. A first clear width of the contacting slot is less than a second clear width of the positioning slot.

An insulation displacement contact has a tubular body extending along a longitudinal axis toward an open end. The tubular body has a pair of cutting edges at the open end. The tubular body has a pair of opposing side surfaces each having a slot extending to the open end and disposed between the cutting edges. The slot on one of the opposing side surfaces is a contacting slot and the slot on the other of the opposing side surfaces is a positioning slot. A first clear width of the contacting slot is less than a second clear width of the positioning slot.

An insulation displacement contact has a tubular body extending along a longitudinal axis toward an open end. The tubular body has a pair of cutting edges at the open end. The tubular body has a pair of opposing side surfaces each having a slot extending to the open end and disposed between the cutting edges. The slot on one of the opposing side surfaces is a contacting slot and the slot on the other of the opposing side surfaces is a positioning slot. A first clear width of the contacting slot is less than a second clear width of the positioning slot.

An insulation-displacement connector including two cutting and connecting blades, each one provided with a section for inserting and centering of a cable, a cutting edge which extends from the section for centering and insertion, a base, and an arm for joining each blade to the base; where the cutting edges are inclined along the entire extension of the edges such that they cross one another, and where the cutting and connecting blades are not joined together at an end of the blades opposite to the joining end of the sections, but rather are joined to the arms such that the blades may be separated from one another according to a transverse direction.

An insulation-displacement connector including two cutting and connecting blades, each one provided with a section for inserting and centering of a cable, a cutting edge which extends from the section for centering and insertion, a base, and an arm for joining each blade to the base; where the cutting edges are inclined along the entire extension of the edges such that they cross one another, and where the cutting and connecting blades are not joined together at an end of the blades opposite to the joining end of the sections, but rather are joined to the arms such that the blades may be separated from one another according to a transverse direction.