Transponder including a fluid cushioning medium and a method for its production
First Claim
1. A transponder comprising an elongate tubular enclosure of bottom-closed nature and defining a mouth at an upper end opposite from the bottom and circuit-receiving space within the enclosure, an electronic circuit assembly within said space having an upper end located proximally of the mouth and not projecting beyond the mouth, a cap for closing the mouth, the enclosure and cap each being of tough synthetic resin material which will not be damaged by being dropped and is intrinsically capable of absorbing shock to a substantial degree when so dropped, the cap being hermetically joined to the enclosure by a seal between the cap and enclosure, fluid cushioning medium within the enclosure, the circuit assembly being completely immersed in the cushioning medium whereby it completely surrounds the circuit assembly in all directions, the cushioning medium providing absorption of impact energy, the cushioning medium when within the closure having an upper fluid level extending above the seal and above the upper end of the circuit assembly, whereby the transponder repeatedly survives a 2-meter drop test without failure of the circuit assembly.
1 Assignment
0 Petitions
Accused Products
Abstract
Transponder A,B! formed of a bottom-closed elongate tubular enclosure 12! having a mouth 12'"'"'! at an upper end and circuit-receiving space within the enclosure for fully receiving an electronic transponder circuit assembly 15!. A cap 14,114! closes the mouth, the enclosure and cap each being of tough synthetic resin material which will not be damaged by being dropped and is intrinsically capable of absorbing shock to a substantial degree when so dropped. The circuit assembly is completely immersed in silicone oil or gel cushioning medium 16! so that it completely surrounds the circuit assembly in all directions, the cushioning medium providing absorption of impact energy. The silicone cushioning medium when within the closure has its fluid level extending above the seal and above an upper end 15'"'"'! of the circuit assembly. The cap is hermetically joined to the enclosure by ultrasonic welding. The transponder repeatedly survives a 2-meter drop test without failure of the circuit assembly. Method for assembling the transponder involves introducing silicone fluid is introduced into the enclosure using a dispensing needle having a tip placed at a closed bottom of the enclosure in order to minimize the creation of air pockets in the silicone, and the predetermined volume of silicone fluid so dispensed is slightly greater than volume available for the silicone fluid after introduction of the circuit assembly.
125 Citations
11 Claims
- 1. A transponder comprising an elongate tubular enclosure of bottom-closed nature and defining a mouth at an upper end opposite from the bottom and circuit-receiving space within the enclosure, an electronic circuit assembly within said space having an upper end located proximally of the mouth and not projecting beyond the mouth, a cap for closing the mouth, the enclosure and cap each being of tough synthetic resin material which will not be damaged by being dropped and is intrinsically capable of absorbing shock to a substantial degree when so dropped, the cap being hermetically joined to the enclosure by a seal between the cap and enclosure, fluid cushioning medium within the enclosure, the circuit assembly being completely immersed in the cushioning medium whereby it completely surrounds the circuit assembly in all directions, the cushioning medium providing absorption of impact energy, the cushioning medium when within the closure having an upper fluid level extending above the seal and above the upper end of the circuit assembly, whereby the transponder repeatedly survives a 2-meter drop test without failure of the circuit assembly.
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9. A transponder comprising:
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an elongate tubular enclosure, the enclosure having generally cylindrical wall configuration and being of bottom-closed nature and defining a mouth at an upper end opposite from the bottom and defining circuit-receiving space within the enclosure; an electronic circuit assembly within said space, the circuit assembly having an upper end located proximally of the mouth and not projecting above the mouth; a cap for closing the enclosure mouth; the enclosure and cap each being of tough synthetic resin material which will not be damaged by being dropped and is intrinsically capable of absorbing shock to a substantial degree when so dropped; the cap being hermetically joined to the enclosure by a hermetic seal between opposed surfaces of the cap and enclosure; fluid cushioning medium within the enclosure the circuit assembly being completely immersed in the cushioning medium whereby it completely surrounds the circuit assembly in all directions, the cushioning medium providing absorption of impact energy, the cushioning medium when within the closure having an upper fluid level extending above the seal and above the upper end of the circuit assembly; whereby the transponder repeatedly survives a 2-meter drop test without failure of the circuit assembly.
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10. A method of assembling a transponder having an elongate tubular enclosure of bottom-closed nature and defining a mouth of the enclosure at an upper end opposite from the bottom and circuit-receiving space within the enclosure, and an electronic circuit assembly for being received within said space, and a cap for closing the mouth, the enclosure and cap each being of tough synthetic resin material which may be ultrasonically welded, the method comprising:
filling the enclosure with a predetermined volume of silicone fluid less than the volume of the enclosure, inserting the electronic circuit assembly therein such than when the electronic circuit assembly is inserted within the tube, the assembly will not only be completely submerged in the silicone fluid but also will cause the surface of the silicone to be at or a point slightly above mouth of the enclosure, and with an upper end of the circuit assembly is located proximally of the mouth but not higher than the level of the mouth, placing the cap on the mouth such may cause the silicone fluid to be exuded from the mouth and surfaces thereof to be sealed to surfaces of the cap, and ultrasonically welding such surfaces through any silicone on the surfaces to bring about a hermetic seal between the cap and enclosure. - View Dependent Claims (11)
Specification