CN204559521U - The weak ion beam current of a kind of vacuum collects amplifying device - Google Patents
The weak ion beam current of a kind of vacuum collects amplifying device Download PDFInfo
- Publication number
- CN204559521U CN204559521U CN201520129531.0U CN201520129531U CN204559521U CN 204559521 U CN204559521 U CN 204559521U CN 201520129531 U CN201520129531 U CN 201520129531U CN 204559521 U CN204559521 U CN 204559521U
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- terminal electrodes
- ion beam
- beam current
- shield
- amplifying device
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Abstract
The utility model discloses the weak ion beam current of a kind of vacuum and collect amplifying device, comprise the high vacuum chamber on the top that electromagnetic shielding box is set, Faraday shield cylinder is provided with in high vacuum chamber, pA signal bias amplifying circuit is provided with in electromagnetic shielding box, Faraday shield cylinder is connected by double shield joint with pA signal bias amplifying circuit, and the connecting portion of high vacuum chamber and electromagnetic shielding box is provided with seal.The utility model has the advantage of, circuit is adopted directly to amplify, overcome electron multiplier technical indicator not up to standard, useful life is short, be unsuitable for the problem worked long hours, Faraday shield cylinder is as in high vacuum chamber, and Faraday shield cylinder is connected with pA signal bias amplifying circuit by double shield joint, its structure is simple, and collection amplifying device is toasted when taking off amplifying circuit.Meanwhile, seal ensure that signal can not have loss in transmitting procedure, reduces noise jamming, and collection and the transmission of weak ion beam current have screen to protect.
Description
Technical field
The utility model relates to weak ion beam dump amplifying device, particularly relates to the weak ion beam dump amplifying device of a kind of vacuum, especially for the circuit amplifying device of pA magnitude cesium ion line.
Background technology
At present, the inner electron multiplier that mostly adopts of small size magnetic state selection cesium-beam atomic clock amplifies pA magnitude cesium ion, although electron multiplier has, volume is little, lightweight, high-temperature baking resistant and the few feature of vacuum deflation, but in actual use, the technical indicators such as the gain of the electron multiplier that domestic cesium-beam atomic clock is used and life-span all can not meet actual needs, electron multiplier unstable properties, useful life is short, in use multiplication constant decay is very large, and electron multiplier can not meet the job requirement of Long-Time Service; Propose the scheme utilizing electron multiplier to coordinate with amplifying circuit for this reason, but it is still undesirable in actual use procedure, because the electron multiplier life-span is short, be not suitable for long-time use, cause the lost of life of whole amplifying device, and micro-current signal that electron multiplier produces is introduced amplifier circuit by shielded flexible cable and is enlarged into voltage signal, and in the transmitting procedure of signal, micro-current signal can be lost; Directly utilize the device that amplifying circuit amplifies weak ion beam current, employing two-level operating amplifier amplifies, multistage amplification can introduce noise, and amplification scheme is more complicated, and does not consider the link such as collection, transmission of the cesium ion line in vacuum in second amplifying circuit.
Utility model content
The purpose of this utility model is to provide the weak ion beam current of a kind of vacuum and collects amplifying device, short for useful life to solve electron multiplier in prior art, be unsuitable for working long hours, can not toast, complex structure, shield effectiveness is poor, and processing is inconvenient, the collection of cesium ion line, transmission not problem easily.
For achieving the above object, the technical solution of the utility model is: the weak ion beam current of a kind of vacuum collects amplifying device, comprise high vacuum chamber 5 and electromagnetic shielding box 4, high vacuum chamber 5 is located at the top of electromagnetic shielding box 4, Faraday shield cylinder 1 is provided with in high vacuum chamber 5, be provided with pA signal bias amplifying circuit 3 in electromagnetic shielding box 4, Faraday shield cylinder 1 is connected by double shield joint 2 with pA signal bias amplifying circuit 3, and high vacuum chamber 5 is provided with seal with the connecting portion of electromagnetic shielding box 4.
Preferably, Faraday shield cylinder 1 comprises surge drum 6 and protection cylinder 9, and surge drum 6 is located in protection cylinder 9, and surge drum 6 is fixedly connected with double shield joint 2 with protection cylinder 9.
Preferably; double shield joint 2 comprises collects bar 11, terminal electrodes 12, collection bar screen 10 and terminal electrodes screen 13; collect bar 11 to be threaded with terminal electrodes 12; collect bar screen 10 to be connected with protection cylinder 9 and terminal electrodes screen 13 respectively; collect bar 11 to be connected with surge drum 6; the end of collecting bar 11 is provided with and supports earthenware 8, and terminal electrodes 12 is connected with pA signal bias amplifying circuit 3.
Preferably, seal comprises interior insulating ceramics pipe 14, external insulation earthenware 15 and outer shielding layer 16, interior insulating ceramics pipe 14 is socketed in terminal electrodes 12, external insulation earthenware 15 is socketed on terminal electrodes screen 13, and outer shielding layer 16 to be socketed on external insulation earthenware 15 and to be connected with electromagnetic shielding box 4.
Preferably, pA signal bias amplifying circuit 3 comprises external shield input 18, inner shield input 19, signal input part 20, operational amplifier 21, reference power source input 24 and amplification output 23, external shield input 18, inner shield input 19, signal input part 20 is connected with the negative pole of operational amplifier 21, reference power source input 24 is connected with the positive pole of operational amplifier 21, operational amplifier 21 is connected with amplification output 23, feedback resistance 22 is provided with between signal input part 20 and amplification output 23, divider resistance 25 and voltage stabilizing didoe 26 is provided with between reference power source input 24 and operational amplifier 21.
Preferably, outer shielding layer 16 is connected with external shield input 18, and terminal electrodes screen 13 is connected with inner shield input 19, and terminal electrodes 12 is connected with signal input part 20, and reference power source input 24 is connected with external power source.
Preferably, the end of collecting bar 11 and terminal electrodes 12 is provided with joint sealing-in lid 17.
The utility model has the advantage of: the utility model adopts circuit directly to amplify, avoid use electron multiplier, overcome electron multiplier technical indicator not up to standard, useful life is short, is unsuitable for the problem worked long hours, and Faraday shield cylinder is as in high vacuum chamber, pA signal bias amplifying circuit is as in electromagnetic shielding box, centre is undertaken excessively by double shield joint, and its structure is simple, enables weak ion beam current collect amplifying device and toasts when taking off pA signal bias amplifying circuit.Meanwhile, seal ensure that signal can not have loss in transmitting procedure, reduces the interference of noise to signal, and collection and the transmission of weak ion beam current have screen to protect, and shield effectiveness is good, easy making process, and production cost is low.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the partial enlarged drawing of the utility model Faraday shield cylinder and double shield joint.
Fig. 3 is the circuit diagram of the utility model pA signal bias amplifying circuit.
Reference numeral implication is as follows: Faraday shield cylinder (1), double shield joint (2), pA signal bias amplifying circuit (3), electromagnetic shielding box (4), high vacuum chamber (5), surge drum (6), support earthenware (8), protection cylinder (9), collect bar screen (10), collect bar (11), terminal electrodes screen (12), terminal electrodes screen (13), interior insulating ceramics pipe (14), external insulation earthenware (15), outer shielding layer (16), joint sealing-in lid (17), external shield input (18), inner shield input (19), signal input part (20), operational amplifier (21), feedback resistance (22), amplify output (23), reference power source input (24), divider resistance (25), voltage stabilizing didoe (26).
Embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail.
The weak ion beam current of a kind of vacuum as shown in Figure 1 collects amplifying device, comprise high vacuum chamber 5 and electromagnetic shielding box 4, high vacuum chamber 5 is located at the top of electromagnetic shielding box 4, Faraday shield cylinder 1 is provided with in high vacuum chamber 5, pA signal bias amplifying circuit 3 is provided with in electromagnetic shielding box 4, Faraday shield cylinder 1 is connected by double shield joint 2 with pA signal bias amplifying circuit 3, Faraday shield cylinder 1 and double shield joint achieve to be collected the weak ion beam current in high vacuum chamber 1 and the transmission of weak current signal, shielding, high vacuum chamber 5 is provided with seal with the connecting portion of electromagnetic shielding box 4, seal all adopts metal and ceramic material soldering sealing-in to make, high temperature resistant, high-temperature baking work can be completed, whole collection amplifying device structure is simple, easy to process, reduce production cost.
The weak ion beam current of a kind of vacuum as shown in Figure 2 collects amplifying device; Faraday shield cylinder 1 comprises surge drum 6 and protection cylinder 9; surge drum 6 is located in protection cylinder 9, and surge drum 6 is fixedly connected with double shield joint 2 with protection cylinder 9, and ion beam current source is aimed in the porch of surge drum 6.
The weak ion beam current of a kind of vacuum as shown in Figure 2 collects amplifying device; double shield joint 2 comprises collects bar 11, terminal electrodes 12, collection bar screen 10 and terminal electrodes screen 13; collect bar 11 to be threaded with terminal electrodes 12; collect bar screen 10 to be connected with protection cylinder 9 and terminal electrodes screen 12 respectively; collect bar 11 to be connected with surge drum 6; its type of attachment is and is rigidly connected; avoid flexible cable and connect the loss of signal caused; the end of collecting bar 11 is provided with and supports earthenware 8, and terminal electrodes 12 is connected with pA signal bias amplifying circuit 3.
As Fig. 1, the weak ion beam current of a kind of vacuum shown in Fig. 2 collects amplifying device, seal comprises interior insulating ceramics pipe 14, external insulation earthenware 15 and outer shielding layer 16, interior insulating ceramics pipe 14 is socketed in terminal electrodes 12, external insulation earthenware 15 is socketed on terminal electrodes screen 13, outer shielding layer 16 to be socketed on external insulation earthenware 15 and to be connected with electromagnetic shielding box 4, interior insulating ceramics pipe 14, external insulation earthenware 15 and outer shielding layer 16 cooperatively interact, protection and electromagnetic shielding are formed to the circulation of current signal, not only reduce noise, and effectively protect the integrality of signal, shield effectiveness is obvious.
The weak ion beam current of a kind of vacuum as shown in Figure 3 collects amplifying device, pA signal bias amplifying circuit 3 comprises external shield input 18, inner shield input 19, signal input part 20, operational amplifier 21, reference power source input 24 and amplification output 23, external shield input 18, inner shield input 19, signal input part 20 is connected with the negative pole of operational amplifier 21, reference power source input 24 is connected with the positive pole of operational amplifier 21, operational amplifier 21 is connected with amplification output 23, feedback resistance 22 is provided with between signal input part 20 and amplification output 23, divider resistance 25 and voltage stabilizing didoe 26 is provided with between reference power source input 24 and operational amplifier 21, outer shielding layer 16 is connected with external shield input 18, terminal electrodes screen 13 is connected with inner shield input 19, terminal electrodes 12 is connected with signal input part 20, reference power source input 24 is connected with external power source, .
Collect in bar 11 and terminal electrodes 12 to make support pottery 8 and interior insulating ceramics pipe 14 more firmly be fixed on, the end of collecting bar 11 and terminal electrodes 12 is provided with joint sealing-in lid 17.
The course of work of the present utility model is as follows: the surge drum 6 of Faraday shield cylinder 1 aims at the weak ion beam current in high vacuum chamber 5, weak ion beam current is collected and forms weak positive current signal, the signal input part 20 of pA signal bias amplifying circuit 3 is transferred to again through the collection bar 11 of double shield joint 2 and terminal electrodes 12, weak positive current signal flows into the negative pole of operational amplifier 21, the I-V change-over circuit formed through operational amplifier 21 and feedback resistance 22 is enlarged into voltage signal, finally exports to and amplifies output 23 for follow-up measurement.
The core of pA signal bias amplifying circuit 3 is I-V change-over circuits of operational amplifier 21; 1pA current signal is converted to 100mV voltage signal by the resistance through 100G Ω; and on the homophase and inverting input of operational amplifier 21, produce positive bias; pA signal bias amplifying circuit 3 is arranged in electromagnetic shielding box 4; outer shielding layer 16 is connected with electromagnetic shielding box 4; shielding protection effect is played to pA signal bias amplifying circuit 3, there is good shield effectiveness.
In the collection process of weak ion beam current; surge drum 6 applies positive bias; eliminate the impact of space charge in high vacuum chamber 5; protection cylinder 9 is connected with collection bar screen 10 and terminal electrodes screen 12; surge drum 6, collection bar 11 and terminal electrodes 12 are wrapped in wherein and form screen; and screen is applied with protection voltage and ceramic insulation, avoid double shield joint 2 and leaky occurs.
Above-described is only preferred embodiments of the present utility model; the technical solution of the utility model is not limited thereto; should be understood that to those skilled in the art; under technology enlightenment provided by the utility model; as the common practise of this area; other equivalent modifications and improvement can also be made, also should be considered as protection range of the present utility model.
Claims (7)
1. the weak ion beam current of vacuum collects amplifying device, comprise high vacuum chamber (5) and electromagnetic shielding box (4), it is characterized in that: described high vacuum chamber (5) is located at the top of electromagnetic shielding box (4), Faraday shield cylinder (1) is provided with in described high vacuum chamber (5), pA signal bias amplifying circuit (3) is provided with in described electromagnetic shielding box (4), described Faraday shield cylinder (1) is connected by double shield joint (2) with pA signal bias amplifying circuit (3), and described high vacuum chamber (5) is provided with seal with the connecting portion of electromagnetic shielding box (4).
2. the weak ion beam current of a kind of vacuum as claimed in claim 1 collects amplifying device; it is characterized in that: described Faraday shield cylinder (1) comprises surge drum (6) and protection cylinder (9); described surge drum (6) is located in protection cylinder (9), and described surge drum (6) is fixedly connected with double shield joint (2) with protection cylinder (9).
3. the weak ion beam of a kind of vacuum as claimed in claim 2 receives adfluxion amplifying device, it is characterized in that: described double shield joint (2) comprises collects bar (11), terminal electrodes (12), collect bar screen (10) and terminal electrodes screen (13), described collection bar (11) is threaded with terminal electrodes (12), described collection bar screen (10) is connected with protection cylinder (9) and terminal electrodes screen (13) respectively, described collection bar (11) is connected with surge drum (6), the end of described collection bar (11) is provided with and supports earthenware (8), described terminal electrodes (12) is connected with pA signal bias amplifying circuit (3).
4. the weak ion beam current of a kind of vacuum as claimed in claim 3 collects amplifying device, it is characterized in that: described seal comprises interior insulating ceramics pipe (14), external insulation earthenware (15) and outer shielding layer (16), described interior insulating ceramics pipe (14) is socketed in terminal electrodes (12), described external insulation earthenware (15) is socketed on terminal electrodes screen (13), and described outer shielding layer (16) is socketed in external insulation earthenware (15) and goes up and be connected with electromagnetic shielding box (4).
5. the weak ion beam current of a kind of vacuum as claimed in claim 4 collects amplifying device, it is characterized in that: described pA signal bias amplifying circuit (3) comprises external shield input (18), inner shield input (19), signal input part (20), operational amplifier (21), reference power source input (24) and amplification output (23), described external shield input (18), inner shield input (19), signal input part (20) is connected with the negative pole of operational amplifier (21), described reference power source input (24) is connected with the positive pole of operational amplifier (21), described operational amplifier (21) is connected with amplification output (23), feedback resistance (22) is provided with between described signal input part (20) and amplification output (23), divider resistance (25) and voltage stabilizing didoe (26) is provided with between described reference power source input (24) and operational amplifier (21).
6. the weak ion beam current of a kind of vacuum as claimed in claim 5 collects amplifying device, it is characterized in that: described outer shielding layer (16) is connected with external shield input (18), described terminal electrodes screen (13) is connected with inner shield input (19), described terminal electrodes (12) is connected with signal input part (20), and described reference power source input (24) is connected with external power source.
7. the weak ion beam current of a kind of vacuum as described in claim as arbitrary in claim 1 to 6 collects amplifying device, it is characterized in that: the end of described collection bar (11) and terminal electrodes (12) is provided with joint sealing-in lid (17).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520129531.0U CN204559521U (en) | 2015-03-06 | 2015-03-06 | The weak ion beam current of a kind of vacuum collects amplifying device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520129531.0U CN204559521U (en) | 2015-03-06 | 2015-03-06 | The weak ion beam current of a kind of vacuum collects amplifying device |
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Publication Number | Publication Date |
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CN204559521U true CN204559521U (en) | 2015-08-12 |
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CN201520129531.0U Withdrawn - After Issue CN204559521U (en) | 2015-03-06 | 2015-03-06 | The weak ion beam current of a kind of vacuum collects amplifying device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104702230A (en) * | 2015-03-06 | 2015-06-10 | 兰州空间技术物理研究所 | Vacuum weak ion beam flux collecting and amplifying device |
-
2015
- 2015-03-06 CN CN201520129531.0U patent/CN204559521U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104702230A (en) * | 2015-03-06 | 2015-06-10 | 兰州空间技术物理研究所 | Vacuum weak ion beam flux collecting and amplifying device |
CN104702230B (en) * | 2015-03-06 | 2018-05-15 | 兰州空间技术物理研究所 | A kind of weak ion beam current of vacuum collects amplifying device |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150812 Effective date of abandoning: 20180515 |