Heater sensor complex with high thermal capacity

The invention claimed is: 1. A heater-sensor sub-assembly adapted for use in a soldering system comprising: an insulating pipe; a heating wire made of first metallic material having proximal end portion, a central winding portion wrapped around said insulating pipe and a distal end portion; a first non-heating wire made of the same first metallic material as said heating wire, said non-heating wire connected to the proximal end of said heating wire; a second non-heating wire made of a second metallic material, said non-heating wire having a proximal end and a distal end with at least a portion of said non-heating wire extending axially through said insulating pipe; a thermocouple formed by connecting said distal end of said heating wire made of said first metallic material connected to a distal end of said second non-heating wire made of said second metallic material; and a third non-heating wire connected to a proximal end of said first non-heating wire, said third non-heating wire made from a metallic material selected from the group consisting of a metallic material having a lower volume resistivity than said first non-heating wire and a metallic material identical to said second non-heating wire. 2. The heater-sensor sub-assembly of claim 1 , further comprising: an iron-chromium alloy material as said first metallic material; and a nickel or nickel alloy material as said second metallic material. 3. The heater-sensor sub-assembly of claim 1 , wherein said first non-heating wire has a diameter 2 to 4 times greater than a diameter of said heating wire. 4. The heater-sensor sub-assembly of claim 1 , wherein said first non-heating wire has a diameter 2 to 4 times greater than a diameter of said heating wire and said third non-heating wire has a diameter less than the diameter of said first non-heating wire. 5. The heater-sensor sub-assembly of claim 1 , wherein said central winding portion of said heating wire covers about one half of a length of said insulating pipe and said central winding portion is centered on said insulating pipe whereby said central winding portion is spaced from said thermocouple. 6. The heater-sensor sub-assembly of claim 1 , further comprising: a fourth non-heating wire made from the same material as said heating wire and connected between said distal end of said heating wire and said thermocouple. 7. The heater-sensor sub-assembly of claim 1 , wherein said first non-heating wire has a diameter of 1.0 mm to 1.2 mm, said heating wire has a diameter of 0.2 mm to 0.45 mm, and said third non-heating wire has a diameter less than 0.8 mm. 8. The heater-sensor sub-assembly of claim 1 , wherein said central winding portion of said heating wire has an axial length of 8 mm to 20 mm and a distal end of said central winding portion is spaced at least 4 mm from said thermocouple. 9. The heater-sensor sub-assembly of claim 1 , wherein said insulating pipe has an axial length of about 35 mm to 40 mm and the axial length of said central winding portion of said heating wire has an axial length of about 19 mm with a distal end of the central winding portion of said heating wire positioned about 10 mm proximally from said thermocouple. 10. A heater-sensor sub-assembly adapted for use in a de-soldering system comprising: a hollow central tube; a heating wire made of first metallic material having proximal end portion, a central winding portion wrapped around said hollow central tube and a distal end portion; a non-heating conductor made of the same first metallic material as said heating wire, said non-heating conductor connected to the proximal end of said heating wire; a non-heating wire made of a second metallic material, said non-heating wire having a proximal end and a distal end with at least a portion of said non-heating wire lying on said hollow central tube extending under said central winding portion of said heating wire; a thermocouple formed by connecting said distal end of said heating wire made of said first metallic material to a distal end of said non-heating wire made of said second metallic material; and a second non-heating wire connected to a proximal end of said non-heating conductor, said second non-heating wire made from a metallic material selected from the group consisting of a metallic material having a lower volume resistivity than said non-heating conductor and a metallic material identical to said second non-heating wire. 11. A heater-sensor sub-assembly adapted for use in a soldering or de-soldering system, comprising: a heating wire made of first metallic material having a diameter of 0.2 mm to 0.45 mm, a proximal end of said heating wire connected to a non-heating conductor made of the same first metallic material, said non-heating conductor having a diameter of 1.0 mm to 1.2 mm; a non-heating return wire made of a second metallic material; a thermocouple formed by connecting a distal tip end of said heating wire to a distal tip end of said non-heating return wire; and said heating wire further comprising a coil portion a distal end of which is spaced at least 5 mm proximally from said thermocouple. 12. A solder cartridge for use in a soldering system comprising: a high thermal mass soldering tip; a housing a distal end of which is secured to said soldering tip and a proximal end including at least two electrical contacts; a heater-sensor sub-assembly mounted within said housing, said heater-sensor sub-assembly comprising: an insulating pipe; a heating wire made of first metallic material having proximal end portion, a central winding portion wrapped around said insulating pipe and a distal end portion; a non-heating conductor made of the same first metallic material as said heating wire, said non-heating conductor connected to the proximal end of said heating wire; a first non-heating wire made of a second metallic material, said first non-heating wire having a proximal end coupled to one of said electrical contacts of said housing and a distal end with at least a portion of said first non-heating wire extending axially through said insulating pipe; a thermocouple formed by connecting said distal end of said heating wire made of said first metallic material connected to a distal end of said first non-heating wire made of said second metallic material; and a second non-heating wire connected to a proximal end of said non-heating conductor, said second non-heating wire made from the a metallic material selected from the group consisting of a metallic material having a lower volume resistivity than said first non-heating conductor and a metallic material identical to said first non-heating wire. 13. The solder cartridge of claim 12 , wherein said non-heating conductor has a diameter 2 to 4 times greater than a diameter of said heating wire and said second non-heating wire has a diameter less than the diameter of said non-heating conductor. 14. The solder cartridge of claim 12 , wherein said central winding portion of said heating wire covers about one half of a length of said insulating pipe and said central winding portion is centered on said insulating pipe whereby said central winding portion is spaced from said thermocouple. 15. The solder cartridge of claim 12 , further comprising: a third non-heating wire made from the same material as said heating wire and connected between said distal end of said heating wire and said thermocouple. 16. The solder cartridge of claim 12 , wherein said non-heating conductor has a diameter of 1.0 mm to 1.2 mm, said heating wire has a diameter of 0.2 mm to 0.45 mm, and said second non-heating