Claims
- 1. An ampule for delivering high purity chemical comprising:
- a an ampule lid having an opening therethrough;
- b. a digital level sensor assembly extending through the opening in said lid and into the interior of said ampule, said digital level sensor assembly comprising:
- i. at least one digital metallic float level sensor having at least one trigger point, said at least one digital metallic float level sensor comprising two digital metallic float sensors, an upper digital metallic sensor having two trigger points and a lower digital metallic sensor having three trigger points; and
- ii. an electrical cable having multiple conductors connected to said at least one digital float level sensor, said cable comprising at least six conductors;
- c. a flange permanently attached to said digital level sensor assembly and removably securing said digital level sensor assembly to a mating surface surrounding said opening in said lid; and
- d. an O-ring disposed between the mating surfaces of said flange and lid.
- 2. A high purity chemical delivery system comprising:
- a. an ampule having a lid, said having opening communicating with the interior of said ampule;
- b. a digital level sensor assembly extending through the opening in said lid and into the interior of said ampule, said digital level sensor assembly comprising:
- i. at least one digital metallic float level sensor having at least one trigger point, said at least one digital metallic float level sensor comprising two digital metallic float sensors, an upper digital metallic sensor having two trigger points and a lower digital metallic sensor having three trigger points; and
- ii. an electrical cable having multiple conductors connected to said at least one digital float level sensor said cable comprising at least six conductors; and
- iii. the digital outputs of said trigger points are communicated to the electronics of a reactor chamber by said conductors via a digital to analog circuit;
- c. a flange permanently attached to said digital level sensor assembly and removably securing said digital level sensor assembly to a mating surface surrounding said opening in said lid; and
- d. an O-ring disposed between the mating surfaces of said flange and lid.
- 3. A chemical refill system for high purity chemicals comprising:
- a. a refillable ampule;
- b. a bulk container containing a high purity source chemical;
- c. a refill line interposed between and communicating with said ampule and said bulk container for transferring the high purity source chemical from said bulk container to said ampule;
- d. an inert gas pressure source communicating with the interior of said bulk container to force the high purity source chemical from said bulk container to said ampule through said refill line;
- e. a first metallic float sensor inside said ampule having at least one trigger point for detecting a level of the high purity source chemical;
- f. a control unit electronically communicating with said metallic float and having an indicator that provides a signal to indicate that the high purity source chemical in said ampule is at said level when the level of the high purity source chemical in said ampule reaches the trigger point of said first metallic float sensor; and
- g. a manifold, comprising:
- i. a carrier gas line for providing inert gas from said inert gas pressure source to said bulk container;
- ii. means disposed in said refill line for isolating the outlet of said bulk container from a portion of said refill line;
- iii. means in said carrier gas line for isolating said inert gas pressure source from the inlet of said bulk container;
- iv. means for connecting a vacuum source to said carrier gas line; and
- v. means for bypassing said inert gas pressure source and the vacuum source to at least a portion of said refill line that was not isolated by said means for isolating said refill line.
- 4. A chemical refill system for high purity chemicals comprising:
- a. a refillable ampule;
- b. a bulk container containing a high purity source chemical;
- c. a refill line interposed between and communicating with said ampule and said bulk container for transferring the high purity source chemical from said bulk container to said ampule;
- d. an inert gas pressure source communicating with the interior of said bulk container to force the high purity source chemical from said bulk container to said ampule through said refill line;
- e. a first metallic float sensor inside said ampule having at least one trigger point for detecting a level of the high purity source chemical;
- f. a control unit electronically communicating with said metallic float and having an indicator that provides a signal to indicate that the high purity source chemical in said ampule is at said level when the level of the high purity source chemical in said ampule reaches the trigger point of said first metallic float sensor; and
- g. a manifold, comprising:
- i. a process line isolation valve interposed in said refill line for isolating said bulk container from a portion of said refill line;
- ii. a carrier gas isolation valve for isolating said bulk container from said inert gas pressure source;
- iii. a low pressure vent valve for isolating a vacuum source from said carrier gas line; and
- iv. a canister bypass valve for bypassing said pressure source and the vacuum source to at least a portion of said refill line that was not isolated by said process isolation valve.
- 5. A chemical refill system for high purity chemicals according to claim 4, wherein said canister bypass valve bypasses said pressure source and the vacuum source to all of said refill line that was not isolated by said process isolation valve.
Parent Case Info
This application is a continuation-in-part application of copending U.S. patent application Ser. No. 08/184,226, filed Jan. 19, 1994, which is a continuation-in-part application of copending U.S. patent application Ser. No. 08/054,597, filed Apr. 28, 1993, now U.S. Pat. No. 5,465,766, which applications are incorporated herein by reference in their entirety.
US Referenced Citations (29)
Foreign Referenced Citations (1)
Number |
Date |
Country |
1036717 |
Aug 1958 |
DEX |
Non-Patent Literature Citations (3)
Entry |
B/W Unifloat.RTM. Liquid Level Control Systems, New single float/multiple switch level sensing system provides versatile, reliable means of controlling any type of liquid!, Brochure by B/W Controls Inc. |
Transfil.TM., Chemical Refill System, Brochure by Air Products and Chemicals, Inc., Aug. 1991 Rev. 1, Schumacher. |
Announcing A New Era In Liquid Chemical Delivery, Transfil II.TM., Product Brochure by Schumacher (Apr. 1990). |
Continuation in Parts (2)
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Number |
Date |
Country |
Parent |
184226 |
Jan 1994 |
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Parent |
54597 |
Apr 1993 |
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