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0 | A fob device comprising:\n a portable housing below a threshold size needed to accommodate an input/output component for providing access to a functionality of the fob device that would not otherwise be accessible, the portable housing including contents comprising:\n a mobile processor configured to provide input and output interfaces to one or more paired modular extension devices that is customized based on a form factor of the one or more paired modular extension devices. | 1 | 15,884,207 | Utility | 1 | ["710", "063000"] | 13 | 2018-01 | 2018-06 | 50 | A fob device includes a portable housing below a size needed to accommodate an input/output component for providing access to a functionality of the fob device that would not otherwise be accessible. The fob device also includes a mobile processor, a wireless interface, a volatile memory, a rechargeable battery, a charging interface, and storage medium having instructions that when executed causes the fob to receive a pairing request from a modular extension device that can provide access to the full functionality of the fob device that would not otherwise be accessible, pair with the modular extension device, and provide interfaces to the modular extension device that are customized based on a form factor of the modular extension device. | 86 | 1 | 0 | 1 | 0 | ['15062038', '15144528', '15803359', '15108728', '10875054'] | 291.6772 | 165.964182 | 16 | 2 | 4 | 0.892619 | 1 | 0 | 1 | 0 | 260.356562 | open | (15884207, 1) | 0.498778 | 0 | 0.653018 | 0.637594 | 1 | 0.194264 | 0.653018 | 0.202815 | 0.524099 | test | 1.92424 | 710 | false |
1 | A method as in claim 1 , wherein the effective time is later in time than the transaction time. | 6 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.878821 | 0 | 0 | 0 | 0 | 182.551536 | none | (15876618, 6) | 0.466858 | 1 | 0.568514 | 0.558349 | 0 | 0.382773 | 0.568514 | 0.438914 | 0.449933 | test | 1.64516 | 370 | false |
2 | A method as in claim 1 , wherein the effective time is earlier in time than the transaction time. | 5 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.973007 | 0 | 0 | 0 | 0 | 202.116314 | none | (15876618, 5) | 0.454918 | 1 | 0.57143 | 0.559779 | 0 | 0.381483 | 0.57143 | 0.437425 | 0.458876 | test | 1.64516 | 370 | false |
3 | A method as in claim 1 , wherein storing the information change includes storing the effective time associated with the information change. | 4 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.886691 | 0 | 0 | 0 | 0 | 184.186483 | none | (15876618, 4) | 0.465859 | 1 | 0.568758 | 0.558468 | 0 | 0.134587 | 0.568758 | 0.312441 | 0.264447 | test | 1.64516 | 370 | false |
4 | A method as in claim 1 , wherein storing the information change includes storing the transaction time associated with the information change. | 3 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.980129 | 0 | 0 | 0 | 0 | 203.59569 | none | (15876618, 3) | 0.454017 | 1 | 0.57165 | 0.559887 | 0 | 0.202991 | 0.57165 | 0.342311 | 0.31392 | test | 1.64516 | 370 | false |
5 | A method for non-destructive data storage including:\n storing an information change associated with a business object such that tracking of the information change is enabled with respect to one of the following: a transaction time, an effective time, or a transaction time and an effective time; and accessing the stored information change with respect to a time, comprising:\n retrieving the information change from a chain of effective changes associated with an instance of the business object. | 2 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.917264 | 1 | 0 | 1 | 0 | 190.537099 | open | (15876618, 2) | 0.459696 | 1 | 0.540353 | 0.532287 | 0 | 0.149515 | 0.540353 | 0.220503 | 0.199459 | test | 1.64516 | 370 | false |
6 | The method of claim 113 , wherein the isolated, synthetic or recombinant disulfide-rich peptide is administered via intracerebroventricular (i.c.v.) administration, intravenous (i.v.) administration, intraarterial (i.a.), or intranasal (i.n.) administration. | 118 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 1 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.644275 | 0 | 0 | 0 | 0 | 173.758938 | none | (15745432, 118) | 0.514039 | 1 | 0.778096 | 0.751691 | 0 | 0.917598 | 0.778096 | 0.820786 | 0.928629 | test | 1.3871 | 514 | true |
7 | The method of claim 113 , wherein the isolated, synthetic or recombinant disulfide-rich peptide comprises SEQ ID NO: 16. | 117 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 1 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.679238 | 0 | 0 | 0 | 0 | 183.188358 | none | (15745432, 117) | 0.511264 | 1 | 0.778481 | 0.751759 | 0 | 0.94684 | 0.778481 | 0.821393 | 0.948616 | test | 1.3871 | 514 | true |
8 | The method of claim 113 , wherein the disease or condition is neuronal damage following stroke. | 116 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 1 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.638843 | 0 | 0 | 0 | 0 | 172.294102 | none | (15745432, 116) | 0.51447 | 1 | 0.778036 | 0.75168 | 0 | 0.947971 | 0.778036 | 0.82191 | 0.946216 | test | 1.3871 | 514 | true |
9 | The method of claim 113 , wherein the disease or condition is stroke. | 115 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 1 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.56841 | 0 | 0 | 0 | 0 | 153.298429 | none | (15745432, 115) | 0.520056 | 1 | 0.77726 | 0.751539 | 0 | 0.948452 | 0.77726 | 0.820279 | 0.938116 | test | 1.3871 | 514 | true |
10 | The method of claim 113 , wherein the disease or condition is caused by ASIC1a activity or contributed to by ASIC1a activity. | 114 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 1 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.596982 | 0 | 0 | 0 | 0 | 161.004171 | none | (15745432, 114) | 0.51779 | 1 | 0.777575 | 0.751597 | 0 | 0.948281 | 0.777575 | 0.822084 | 0.938003 | test | 1.3871 | 514 | true |
11 | A method as in claim 1 , wherein the effective time is at the same time as the transaction time. | 7 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.987789 | 0 | 0 | 0 | 0 | 205.186833 | none | (15876618, 7) | 0.453049 | 1 | 0.571887 | 0.560003 | 0 | 0.25469 | 0.571887 | 0.386551 | 0.39782 | test | 1.64516 | 370 | false |
12 | A method for prevention or treatment of a disease or condition in a subject, the method comprising: administering a therapeutically effective amount of at least one isolated, synthetic, or recombinant disulfide-rich peptide of claim 99 to the subject. | 113 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 1 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.700259 | 1 | 0 | 1 | 0 | 188.857661 | open | (15745432, 113) | 0.507298 | 1 | 0.75755 | 0.732525 | 0 | 0.810409 | 0.75755 | 0.749041 | 0.779819 | test | 1.3871 | 514 | true |
13 | The pharmaceutical composition of claim 107 , further comprising at least one pharmaceutically acceptable diluent, adjuvant, excipient, buffer, stabiliser, isotonicising agent, preservative, or anti-oxidant. | 111 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 0 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.595219 | 1 | 0 | 1 | 0 | 160.528715 | open | (15745432, 111) | 0.515635 | 0 | 0.756317 | 0.732249 | 0 | 0.826491 | 0.756317 | 0.807207 | 0.817011 | test | 1.3871 | 514 | true |
14 | The pharmaceutical composition of claim 109 , wherein the parenteral administration is selected from the group consisting of intracerebroventricular (i.c.v.) administration, intravenous (i.v.) administration, intraarterial (i.a.), and intranasal (i.n.) administration. | 110 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 0 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.667719 | 1 | 1 | 0 | 0 | 180.081698 | closed | (15745432, 110) | 0.509329 | 0 | 0.802322 | 0.773023 | 0 | 0.94344 | 0.802322 | 0.819159 | 0.876906 | test | 1.3871 | 514 | true |
15 | The pharmaceutical composition of claim 107 , wherein the composition is formulated for parenteral administration. | 109 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 0 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.614564 | 0 | 0 | 0 | 0 | 165.746128 | none | (15745432, 109) | 0.516396 | 0 | 0.777769 | 0.751632 | 0 | 0.872844 | 0.777769 | 0.810133 | 0.780182 | test | 1.3871 | 514 | true |
16 | The pharmaceutical composition of claim 107 , wherein the isolated, synthetic, or recombinant disulfide-rich peptide comprises SEQ ID NO: 16. | 108 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.678374 | 0 | 0 | 0 | 0 | 182.95538 | none | (15745432, 108) | 0.511333 | 0 | 0.778472 | 0.751758 | 0 | 0.884543 | 0.778472 | 0.820455 | 0.865724 | test | 1.3871 | 514 | true |
17 | A pharmaceutical composition comprising a therapeutically effective amount of at least one isolated, synthetic, or recombinant disulfide-rich peptide of claim 99 . | 107 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 0 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.623064 | 1 | 0 | 1 | 0 | 168.038612 | open | (15745432, 107) | 0.513426 | 0 | 0.756645 | 0.732323 | 0 | 0.601267 | 0.756645 | 0.722602 | 0.660038 | test | 1.3871 | 514 | true |
18 | The isolated, synthetic, or recombinant disulfide-rich peptide of claim 103 having a sequence consisting of SEQ ID NO: 14. | 106 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.655195 | 1 | 1 | 0 | 0 | 176.704187 | closed | (15745432, 106) | 0.510323 | 0 | 0.802195 | 0.773008 | 0 | 0.945634 | 0.802195 | 0.815083 | 0.890923 | test | 1.3871 | 514 | true |
19 | The isolated, synthetic, or recombinant disulfide-rich peptide of claim 103 , having a sequence comprising SEQ ID NO: 16. | 105 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.703235 | 1 | 0 | 1 | 0 | 189.66044 | open | (15745432, 105) | 0.507062 | 0 | 0.757585 | 0.732533 | 0 | 0.945818 | 0.757585 | 0.819355 | 0.900999 | test | 1.3871 | 514 | true |
20 | The isolated, synthetic, or recombinant disulfide-rich peptide of claim 103 , wherein the peptide has neuroprotective activity. | 104 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.726382 | 0 | 0 | 0 | 0 | 195.903162 | none | (15745432, 104) | 0.507522 | 0 | 0.778999 | 0.751852 | 0 | 0.920077 | 0.778999 | 0.817616 | 0.896499 | test | 1.3871 | 514 | true |
21 | The isolated, synthetic, or recombinant disulfide-rich peptide of claim 99 , wherein the peptide comprises, consists of, or consists essentially of an amino acid sequence selected from the group consisting of:\n (a) the amino acid sequences set forth in any one of SEQ ID NO: 2, 4, 6, 8, 10, 12, 14 or 16; (b) amino acid sequences that share at least 65% (or at least 66% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with any one of SEQ ID NO: 2, 4, 6, 8, 10, 12, 14 or 16; (c) amino acid sequences encoded by the nucleotide sequences set forth in any one of SEQ ID NO: 1, 3, 5, 7, 9, 11 or 13; (d) amino acid sequences encoded by nucleotide sequences that share at least 65% (or at least 66% to at least 99% and all integer percentages in between) sequence similarity or sequence identity with any one of SEQ ID NO: 1, 3, 5, 7, 9, 11 or 13; and (e) amino acid sequences that are encoded by nucleotide sequence that hybridize under at least medium or high stringency conditions to any one of SEQ ID NO: 1, 3, 5, 7, 9, 11 or 13. | 103 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.617231 | 1 | 1 | 0 | 0 | 166.465236 | closed | (15745432, 103) | 0.513336 | 0 | 0.801811 | 0.772963 | 0 | 0.749539 | 0.801811 | 0.797031 | 0.686942 | test | 1.3871 | 514 | true |
22 | The isolated, synthetic, or recombinant disulfide-rich peptide of claim 101 , wherein the two ICK motifs are joined head-to-tail, such that the peptide comprises two concatenated ICK motifs. | 102 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 0 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.593861 | 0 | 0 | 0 | 0 | 160.162489 | none | (15745432, 102) | 0.518038 | 0 | 0.777541 | 0.75159 | 0 | 0.877044 | 0.777541 | 0.821039 | 0.84642 | test | 1.3871 | 514 | true |
23 | The pharmaceutical composition of claim 111 , further comprising at least one delivery enhancer to assist with transport of the peptide across the blood brain barrier (BBB), wherein the at least one delivery enhancer is selected from the group consisting of lipids, polymers, liposomes, emulsions, and nanoparticles. | 112 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 1 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.613676 | 1 | 1 | 1 | 0 | 165.506704 | open | (15745432, 112) | 0.51417 | 1 | 0.756534 | 0.732298 | 0 | 0.947709 | 0.756534 | 0.817606 | 0.923807 | test | 1.3871 | 514 | true |
24 | A method as in claim 1 , wherein the information change comprises a change in human resource information. | 8 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.840115 | 0 | 0 | 0 | 0 | 174.511483 | none | (15876618, 8) | 0.471777 | 1 | 0.567315 | 0.557761 | 0 | 0.296384 | 0.567315 | 0.345885 | 0.382694 | test | 1.64516 | 370 | false |
25 | A method as in claim 1 , wherein the information change comprises a change in financial information. | 9 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.918435 | 0 | 0 | 0 | 0 | 190.780366 | none | (15876618, 9) | 0.461831 | 1 | 0.569741 | 0.55895 | 0 | 0.266527 | 0.569741 | 0.310704 | 0.395477 | test | 1.64516 | 370 | false |
26 | A method as in claim 1 , wherein the information change comprises a change in corporate information. | 10 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.840661 | 0 | 0 | 0 | 0 | 174.624797 | none | (15876618, 10) | 0.471708 | 1 | 0.567332 | 0.557769 | 0 | 0.319132 | 0.567332 | 0.459815 | 0.501234 | test | 1.64516 | 370 | false |
27 | The method of claim 1 , wherein the step of generating a PDN comprises:\n transmitting a PDN connection request message to a Mobility Management Entity (MME); and receiving a PDN connection accept message from the MME, wherein the PDN connection accept message includes an indication indicating that a NNI does not exist between the V-PLMN and the H-PLMN. | 2 | 15,747,853 | Utility | 2 | ["455", "404100"] | 0 | 2018-01 | 2018-07 | 32 | An embodiment of the present description provides, in a situation in which, when a user equipment (UE) is roaming in a visited network, i.e. V-PLMN, the roaming is processed by means of a home routed (HR) mode and is successfully registered to H-PLMN IMS and a service is received, a method for performing authentication/registration of a UE, which is to receive an emergency service, if IMS-NNI does not exist between H-PLMN and V-PLMN. | 86 | 0 | 1 | 0 | 0 | ['15768723', '15752990', '15755725', '15244120', '15300083'] | 361.28918 | 350.332598 | 18 | 0 | 2 | 0.699552 | 0 | 0 | 0 | 0 | 252.740568 | none | (15747853, 2) | 0.530296 | 0 | 0.770153 | 0.746168 | 0 | 0.820539 | 0.770153 | 0.651564 | 0.553523 | test | 1.62264 | 455 | false |
28 | A method of performing an emergency service, the method performed by a user equipment (UE) being roamed to a Visited Public Land Mobile Network (V-PLMN) and comprising:\n when an emergency service is requested, generating a Packet Data Network (PDN) for the emergency service, wherein an indication indicating that a Network to Network Interface (NNI) does not exist between the V-PLMN and a Home PLMN (H-PLMN) is received during the step of generating the PDN; and transmitting a REGISTER message for performing an IP Multimedia Subsystem (IMS) registration for the emergency service, wherein the REGISTER message includes an indication indicating that a NNI does not exist between the V-PLMN and the H-PLMN, and a request type indicating that the requested service type corresponds to an emergency service. | 1 | 15,747,853 | Utility | 2 | ["455", "404100"] | 0 | 2018-01 | 2018-07 | 32 | An embodiment of the present description provides, in a situation in which, when a user equipment (UE) is roaming in a visited network, i.e. V-PLMN, the roaming is processed by means of a home routed (HR) mode and is successfully registered to H-PLMN IMS and a service is received, a method for performing authentication/registration of a UE, which is to receive an emergency service, if IMS-NNI does not exist between H-PLMN and V-PLMN. | 86 | 0 | 1 | 0 | 0 | ['15768723', '15752990', '15755725', '15244120', '15300083'] | 361.28918 | 350.332598 | 18 | 0 | 2 | 0.72476 | 1 | 0 | 1 | 0 | 261.847772 | open | (15747853, 1) | 0.527798 | 0 | 0.748302 | 0.726251 | 0 | 0.586229 | 0.748302 | 0.355809 | 0.39097 | test | 1.62264 | 455 | false |
29 | A method of assembling an opto-electronic assembly, said method comprising:\n positioning an optical connector on a socket formed of a base section having a connector opening and a plurality of walls extending from the base section that are angled with respect to the base section, and wherein the plurality of walls include air ducts to enable air to flow through the socket; positioning the socket on a system board having an electrical connector such that the electrical connector extends through the connector opening; and positioning a mezzanine board on the socket, wherein the mezzanine board has a top surface and a bottom surface, wherein a processor chip is attached to the top surface and an optical transceiver and a mating electrical connector are attached to the bottom surface, and wherein positioning of the mezzanine board on the socket causes the electrical connector on the system board to mate with the mating electrical connector on the mezzanine board and causes the optical connector to mate with the optical transceiver on the mezzanine board. | 15 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.783849 | 1 | 0 | 1 | 0 | 100.604379 | open | (15747756, 15) | 0.44884 | 1 | 0.815173 | 0.77854 | 1 | 0.57677 | 0.815173 | 0.439999 | 0.673376 | test | 2.25424 | 361 | false |
30 | The opto-electronic assembly according to claim 12 , further comprising:\n an interposer having castellated walls that are in mating relationship with some of the air ducts in the plurality of walls of the socket, wherein the interposer is positioned between the socket and the first board. | 14 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.761856 | 1 | 0 | 1 | 0 | 97.78176 | open | (15747756, 14) | 0.452962 | 1 | 0.814488 | 0.778336 | 1 | 0.810063 | 0.814488 | 0.45226 | 0.711811 | test | 2.25424 | 361 | false |
31 | The opto-electronic assembly according to claim 12 , wherein the first board includes a mating electrical connector attached to the bottom surface, wherein the electrical connector on the second board is connected to the mating electrical connector. | 13 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.681885 | 0 | 0 | 0 | 0 | 87.517705 | none | (15747756, 13) | 0.470288 | 1 | 0.829462 | 0.793545 | 1 | 0.621472 | 0.829462 | 0.419967 | 0.452775 | test | 2.25424 | 361 | false |
32 | An opto-electronic assembly comprising:\n a first board having top surface and a bottom surface, wherein a processor chip is attached to the top surface and an optical transceiver is attached to the bottom surface: a second board having an electrical connector; a socket positioned between the first board and the second board, wherein the socket includes:\n a base section having a connector opening through which the electrical connector extends; \n a plurality of walls extending from the base section, wherein each of the plurality of walls is angled with respect to the base section and wherein the plurality of walls include air ducts to enable air to flow through the socket; and \n an optical connector positioned in the socket, wherein the optical connector is connected to the optical transceiver. | 12 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.750107 | 1 | 0 | 1 | 0 | 96.273734 | open | (15747756, 12) | 0.455166 | 1 | 0.814122 | 0.778226 | 1 | 0.570634 | 0.814122 | 0.277026 | 0.492326 | test | 2.25424 | 361 | false |
33 | The socket according to claim 1 , further comprising:\n an interposer having castellated walls that are to mate with some of the air ducts in the plurality of walls of the socket, wherein the interposer is to be positioned between the socket and the first board. | 11 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 1 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.784509 | 1 | 0 | 1 | 0 | 100.689157 | open | (15747756, 11) | 0.448717 | 1 | 0.815194 | 0.778546 | 1 | 0.665977 | 0.815194 | 0.434264 | 0.633294 | test | 2.25424 | 361 | false |
34 | The socket according to claim 1 , further comprising:\n an electrical connector extending from the base section through an opening to receive the connectors, wherein each of the electrical connectors has a hollow core and a perforated wall to enable air to flow through the perforated wall and through the hollow core. | 10 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 1 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.732033 | 1 | 0 | 1 | 0 | 93.953991 | open | (15747756, 10) | 0.458561 | 1 | 0.813557 | 0.778057 | 1 | 0.511648 | 0.813557 | 0.437963 | 0.457167 | test | 2.25424 | 361 | false |
35 | The socket according to claim 1 , further comprising:\n a perimeter divider extending in an angled manner from the base section outside of the plurality of walls, said perimeter divider having a plenum through which air is to flow. | 9 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 1 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.651144 | 1 | 0 | 1 | 0 | 83.572141 | open | (15747756, 9) | 0.473796 | 1 | 0.811012 | 0.77729 | 1 | 0.622977 | 0.811012 | 0.514635 | 0.605649 | test | 2.25424 | 361 | false |
36 | The socket according to claim 6 , wherein an application specific integrated circuit (ASIC) is positioned on a top side of the first board, wherein the column is positioned to contact a bottom side of the first board directly underneath the ASIC, and wherein the column has a hollow core surrounded by a perforated wall to enable air to flow through the perforated wall and through the hollow core. | 8 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 1 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.669277 | 0 | 0 | 0 | 0 | 85.899465 | none | (15747756, 8) | 0.472666 | 1 | 0.829094 | 0.793451 | 1 | 0.876557 | 0.829094 | 0.591857 | 0.751061 | test | 2.25424 | 361 | false |
37 | The socket according to claim 6 , further comprising:\n a thermal rod positioned in the column to conduct heat from the first board; and a thermally insulating material positioned around the column to reduce heat flow from the column into an interior of the socket. | 7 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.648324 | 1 | 0 | 1 | 0 | 83.210255 | open | (15747756, 7) | 0.474328 | 1 | 0.810922 | 0.777263 | 1 | 0.772308 | 0.810922 | 0.637489 | 0.826059 | test | 2.25424 | 361 | false |
38 | The socket according to claim 1 , further comprising:\n a column extending from the base section, wherein the column is to contact a section of the first board. | 6 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.65206 | 1 | 0 | 1 | 0 | 83.689799 | open | (15747756, 6) | 0.473623 | 1 | 0.811041 | 0.777299 | 1 | 0.549094 | 0.811041 | 0.431451 | 0.550483 | test | 2.25424 | 361 | false |
39 | The socket according to claim 1 , further comprising:\n a cable management element positioned within an air duct. | 5 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.665252 | 1 | 0 | 1 | 0 | 85.382887 | open | (15747756, 5) | 0.471134 | 1 | 0.811457 | 0.777425 | 1 | 0.367238 | 0.811457 | 0.459989 | 0.463021 | test | 2.25424 | 361 | false |
40 | The socket according to claim 1 , further comprising:\n an optical connector alignment element extending from the base section, wherein an optical connector of an optical transceiver is to mate with the optical connector alignment element. | 4 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.786641 | 1 | 0 | 1 | 0 | 100.962746 | open | (15747756, 4) | 0.448318 | 1 | 0.81526 | 0.778566 | 1 | 0.420867 | 0.81526 | 0.510013 | 0.534511 | test | 2.25424 | 361 | false |
41 | The socket according to claim 1 , further comprising:\n a filler to be removably inserted into an air duct of the air ducts, said filler including a gap through which a cable is to be provided; and an airflow diverting element positioned on the base section to divert airflow through the socket. | 3 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.656347 | 1 | 0 | 1 | 0 | 84.239946 | open | (15747756, 3) | 0.472814 | 1 | 0.811176 | 0.77734 | 1 | 0.572171 | 0.811176 | 0.4661 | 0.555097 | test | 2.25424 | 361 | false |
42 | The socket according to claim 1 , further comprising:\n a plurality of fillers to be selectively inserted into the air ducts to control airflow properties through the socket. | 2 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 0 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.658628 | 1 | 0 | 1 | 0 | 84.532721 | open | (15747756, 2) | 0.472384 | 1 | 0.811248 | 0.777362 | 1 | 0.507877 | 0.811248 | 0.414762 | 0.633712 | test | 2.25424 | 361 | false |
43 | A socket to support a first board in a spaced relation to a second board, said socket comprising:\n a base section having openings to receive connectors that are to electrically connect the first board to the second board; a plurality of walls extending from the base section, wherein each of the plurality of walls is angled with respect to the base section and wherein the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket; and socket alignment elements extending from the base section, wherein the socket alignment elements are to be inserted into mating holes in the second board. | 1 | 15,747,756 | Utility | 1 | ["361", "688000"] | 0 | 2018-01 | 2018-08 | 23 | According to an example, a socket to support a first board in a spaced relation to a second board may include a base section having openings to receive connectors that are to electrically connect the first board to the second board. The socket may also include a plurality of walls extending from the base section, in which each of the plurality of wails is angled with respect to the base section and in which the plurality of walls include air ducts to enable air to flow through the socket when the first board is positioned on the socket. The socket may further include socket alignment elements extending from the base section, in which the alignment elements are to be inserted into mating holes in the second board. | 86 | 1 | 1 | 1 | 1 | ['11261508', '14576735', '11803964', '12821001', '15543193'] | 128.3467 | 123.048153 | 29 | 6 | 3 | 0.838601 | 1 | 0 | 1 | 0 | 107.631685 | open | (15747756, 1) | 0.438611 | 1 | 0.816869 | 0.779043 | 1 | 0.28348 | 0.816869 | 0.168282 | 0.290294 | test | 2.25424 | 361 | false |
44 | A system for non-destructive data storage including:\n a processor; and a memory coupled to the processor, wherein the memory is configured to provide the processor with instructions which when executed cause the processor to:\n store an information change associated with a business object such that tracking of the information change is enabled with respect to one of the following: a transaction time, an effective time, or a transaction time and an effective time; and \n access the stored information change with respect to a time, comprising to:\n retrieve the information change from a chain of effective changes associated with an instance of the business object. | 16 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.843187 | 1 | 0 | 1 | 0 | 175.14954 | open | (15876618, 16) | 0.469097 | 1 | 0.538028 | 0.531135 | 0 | 0.132644 | 0.538028 | 0.252915 | 0.194989 | test | 1.64516 | 370 | false |
45 | A computer program product for non-destructive data storage, the computer program product being embodied in a computer readable medium and comprising computer instructions for:\n storing an information change associated with a business object such that tracking of the information change is enabled with respect to one of the following: a transaction time, an effective time, or a transaction time and an effective time; and accessing the stored information change with respect to a time, comprising:\n retrieving the information change from a chain of effective changes associated with an instance of the business object. | 15 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 0 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.903585 | 1 | 0 | 1 | 0 | 187.695609 | open | (15876618, 15) | 0.46143 | 0 | 0.539924 | 0.532074 | 0 | 0.108448 | 0.539924 | 0.221013 | 0.178139 | test | 1.64516 | 370 | false |
46 | A method as in claim 1 , wherein the tracked information includes information enabling determination of a state of information associated with the business object at a particular time. | 14 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.707145 | 0 | 0 | 0 | 0 | 146.890594 | none | (15876618, 14) | 0.48871 | 1 | 0.563188 | 0.55574 | 0 | 0.412687 | 0.563188 | 0.368288 | 0.34382 | test | 1.64516 | 370 | false |
47 | A method as in claim 1 , further comprising including the stored information change in a report. | 13 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.909232 | 1 | 0 | 1 | 0 | 188.868747 | open | (15876618, 13) | 0.460714 | 1 | 0.540101 | 0.532162 | 0 | 0.309795 | 0.540101 | 0.379587 | 0.380319 | test | 1.64516 | 370 | false |
48 | A method as in claim 1 , wherein the business object includes information related to a business requirement. | 12 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.847936 | 0 | 0 | 0 | 0 | 176.136166 | none | (15876618, 12) | 0.470783 | 1 | 0.567557 | 0.55788 | 0 | 0.375517 | 0.567557 | 0.359113 | 0.264504 | test | 1.64516 | 370 | false |
49 | A method as in claim 1 , wherein the information change comprises a change in product or service information. | 11 | 15,876,618 | Utility | 4 | ["370", "381000"] | 0 | 2018-01 | 2018-08 | 36 | Non-destructive data storage is disclosed. An information change is stored that is associated with a business object such that tracking of the information change is enabled with respect to one a transaction time and/or an effective time. The stored information change is accessed with respect to a time. | 86 | 1 | 1 | 0 | 1 | ['11429645', '13253017', '14286707', '14858023', '12151961'] | 207.72331 | 189.32972 | 14 | 0 | 1 | 0.76434 | 0 | 0 | 0 | 0 | 158.771194 | none | (15876618, 11) | 0.481421 | 1 | 0.564964 | 0.55661 | 0 | 0.262711 | 0.564964 | 0.322134 | 0.376292 | test | 1.64516 | 370 | false |
50 | The isolated, synthetic, or recombinant disulfide-rich peptide of claim 99 , wherein the peptide comprises twelve cysteine residues covalently joined in pairs to form six disulfide bonds, such that the peptide comprises two ICK motifs. | 101 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 0 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.607764 | 0 | 0 | 0 | 0 | 163.912077 | none | (15745432, 101) | 0.516935 | 0 | 0.777694 | 0.751618 | 0 | 0.837635 | 0.777694 | 0.823528 | 0.735627 | test | 1.3871 | 514 | true |
51 | The method of claim 1 , wherein the REGISTER message includes a Contact header field, wherein an address indicating an emergency is configured. | 3 | 15,747,853 | Utility | 2 | ["455", "404100"] | 0 | 2018-01 | 2018-07 | 32 | An embodiment of the present description provides, in a situation in which, when a user equipment (UE) is roaming in a visited network, i.e. V-PLMN, the roaming is processed by means of a home routed (HR) mode and is successfully registered to H-PLMN IMS and a service is received, a method for performing authentication/registration of a UE, which is to receive an emergency service, if IMS-NNI does not exist between H-PLMN and V-PLMN. | 86 | 0 | 1 | 0 | 0 | ['15768723', '15752990', '15755725', '15244120', '15300083'] | 361.28918 | 350.332598 | 18 | 0 | 2 | 0.515146 | 0 | 0 | 0 | 0 | 186.116768 | none | (15747853, 3) | 0.531812 | 0 | 0.771085 | 0.747158 | 0 | 0.598365 | 0.771085 | 0.547188 | 0.475896 | test | 1.62264 | 455 | false |
52 | The isolated, synthetic, or recombinant disulfide-rich peptide of claim 99 , wherein the peptide has neuroprotective activity. | 100 | 15,745,432 | Utility | 2 | ["514", "017700"] | 0 | 2018-01 | 2018-07 | 78 | The invention relates to disulfide-rich peptides derived from spider venom and their use, particularly as neuroprotective agents. The invention also relates to nucleic acid molecules encoding the peptides as well as constructs and host cells comprising those nucleic acid molecules. | 86 | 0 | 1 | 1 | 0 | ['16312020', '12670099', '14116862', '09852378', '13812457'] | 269.69702 | 248.540574 | 37 | 9 | 36 | 0.663212 | 0 | 0 | 0 | 0 | 178.866172 | none | (15745432, 100) | 0.512536 | 0 | 0.778305 | 0.751728 | 0 | 0.848734 | 0.778305 | 0.817525 | 0.758747 | test | 1.3871 | 514 | true |
53 | 18 ] The charged particle beam device according to claim 16 ,\n wherein the magnetic field type deflector and the electrostatic type deflector are disposed in a leakage magnetic field of the objective lens. | 18 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.739543 | 0 | 0 | 0 | 0 | 225.548303 | none | (15747847, 18) | 0.51192 | 1 | 0.761437 | 0.736485 | 1 | 0.731915 | 0.761437 | 0.661592 | 0.616782 | test | 2.26984 | 250 | true |
54 | The semiconductor device of claim 28 , wherein a distance between a bottom of the shielding region and a bottom of the polycrystalline silicon layer is between 5% and 20% of a thickness of the drift region. | 29 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.642156 | 0 | 0 | 0 | 0 | 120.683417 | none | (15880716, 29) | 0.494936 | 1 | 0.919237 | 0.876807 | 1 | 0.743128 | 0.919237 | 0.789364 | 0.702539 | test | 1.88 | 257 | true |
55 | The semiconductor device of claim 20 , further comprising a shielding region formed in the semiconductor body, the shielding region having a conductivity type opposite to a conductivity type of the drift region. | 28 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.782656 | 1 | 0 | 1 | 0 | 147.088206 | open | (15880716, 28) | 0.472584 | 1 | 0.911629 | 0.867725 | 1 | 0.482138 | 0.911629 | 0.586682 | 0.480792 | test | 1.88 | 257 | true |
56 | The semiconductor device of claim 20 , wherein a thickness of the polycrystalline silicon layer ranges from 0.5 \u03bcm to 3 \u03bcm. | 27 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.714265 | 0 | 0 | 0 | 0 | 134.235145 | none | (15880716, 27) | 0.484634 | 1 | 0.920017 | 0.876478 | 1 | 0.655894 | 0.920017 | 0.761861 | 0.718989 | test | 1.88 | 257 | true |
57 | The semiconductor device of claim 20 , wherein a thickness of the polycrystalline silicon layer is in the range of 10 nm to 600 nm. | 26 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.776196 | 0 | 0 | 0 | 0 | 145.87428 | none | (15880716, 26) | 0.475796 | 1 | 0.920681 | 0.876192 | 1 | 0.712873 | 0.920681 | 0.78902 | 0.699702 | test | 1.88 | 257 | true |
58 | The semiconductor device of claim 20 , wherein a carrier mobility \u03bc in the body region is approximately 50 cm 2 /(Vs)-700 cm 2 /(Vs). | 25 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.669607 | 0 | 0 | 0 | 0 | 125.842432 | none | (15880716, 25) | 0.491013 | 1 | 0.919535 | 0.876683 | 1 | 0.813989 | 0.919535 | 0.742595 | 0.757068 | test | 1.88 | 257 | true |
59 | The semiconductor device of claim 20 , wherein the polycrystalline silicon layer further comprises a conduction region disposed between the body region and the drift region, wherein the drift region is in direct contact with the conduction region. | 24 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 1 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.82204 | 0 | 0 | 0 | 0 | 154.489931 | none | (15880716, 24) | 0.469264 | 1 | 0.921169 | 0.875978 | 1 | 0.493945 | 0.921169 | 0.694013 | 0.469696 | test | 1.88 | 257 | true |
60 | The semiconductor device of claim 20 , wherein the gate trench extends into the semiconductor body. | 23 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.76561 | 0 | 0 | 0 | 0 | 143.884642 | none | (15880716, 23) | 0.477306 | 1 | 0.920568 | 0.876241 | 1 | 0.361179 | 0.920568 | 0.594581 | 0.352962 | test | 1.88 | 257 | true |
61 | The semiconductor device of claim 21 , wherein the channel region extends to a surface of the semiconductor body. | 22 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.738683 | 0 | 0 | 0 | 0 | 138.824258 | none | (15880716, 22) | 0.481148 | 1 | 0.920279 | 0.876366 | 1 | 0.36747 | 0.920279 | 0.62347 | 0.335003 | test | 1.88 | 257 | true |
62 | The semiconductor device of claim 20 , wherein the body region comprises a channel region adjacent a vertical surface of the gate trench. | 21 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.841815 | 0 | 0 | 0 | 0 | 158.206268 | none | (15880716, 21) | 0.466449 | 1 | 0.921379 | 0.875886 | 1 | 0.355869 | 0.921379 | 0.594428 | 0.325057 | test | 1.88 | 257 | true |
63 | A semiconductor device, comprising:\n a semiconductor body made of SiC; and a field effect transistor, comprising:\n a drift region in the semiconductor body; \n a polycrystalline silicon layer directly on the semiconductor body, the polycrystalline silicon layer having an average particle size in a range of 10 nm to 50 \u03bcm, the polycrystalline silicon layer comprising a source region and a body region in contact with the source region; and \n a gate trench adjacent the body region and extending from a surface of the polycrystalline silicon layer into the polycrystalline silicon layer, wherein a gate structure is formed within the gate trench. | 20 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.744761 | 1 | 0 | 1 | 0 | 139.966414 | open | (15880716, 20) | 0.477987 | 1 | 0.911182 | 0.867862 | 1 | 0.617715 | 0.911182 | 0.57211 | 0.481028 | test | 1.88 | 257 | true |
64 | The semiconductor device of claim 28 , wherein the shielding region contacts the polycrystalline silicon layer. | 30 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.665038 | 0 | 0 | 0 | 0 | 124.983793 | none | (15880716, 30) | 0.491666 | 1 | 0.919485 | 0.876703 | 1 | 0.394606 | 0.919485 | 0.735138 | 0.431261 | test | 1.88 | 257 | true |
65 | The battery energy storage system of claim 18 , wherein each of the n string controllers comprises a ground fault detection system coupled to a middle battery pack of the m battery packs. | 20 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.862596 | 0 | 0 | 0 | 0 | 291.620521 | none | (15882713, 20) | 0.519541 | 1 | 0.75399 | 0.730545 | 1 | 0.940989 | 0.75399 | 0.659439 | 0.493132 | test | 1.41026 | 320 | false |
66 | The battery energy storage system of claim 13 , wherein each of the n string controllers are coupled a terminal of a first battery pack and a terminal of a last battery pack of the m battery packs. | 18 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.836278 | 0 | 0 | 0 | 0 | 282.723267 | none | (15882713, 18) | 0.520232 | 1 | 0.754015 | 0.730637 | 1 | 0.854987 | 0.754015 | 0.506826 | 0.363577 | test | 1.41026 | 320 | false |
67 | The battery energy storage system of claim 13 , wherein the array controller is coupled to a system controllers that comprises a communication interface that is configured to couple to a communications network, and is further configured to receive instructions over the communications network and instruct the n string controllers to charge or discharge each of the m battery packs in response to receiving the instructions. | 17 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.844311 | 0 | 0 | 0 | 0 | 285.439082 | none | (15882713, 17) | 0.520021 | 1 | 0.754007 | 0.730609 | 1 | 0.888229 | 0.754007 | 0.676689 | 0.368726 | test | 1.41026 | 320 | false |
68 | The battery energy storage system of claim 13 , wherein, for each of the n battery pack strings, the m battery packs are vertically stacked on server racks. | 16 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.902272 | 0 | 0 | 0 | 0 | 305.033816 | none | (15882713, 16) | 0.5185 | 1 | 0.753952 | 0.730406 | 1 | 0.896663 | 0.753952 | 0.558192 | 0.338761 | test | 1.41026 | 320 | false |
69 | The battery energy storage system of claim 14 , wherein an exterior of the enclosure is configured to support a power converter. | 15 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.95831 | 0 | 0 | 0 | 0 | 323.979052 | none | (15882713, 15) | 0.517028 | 1 | 0.753898 | 0.730211 | 1 | 0.382316 | 0.753898 | 0.507 | 0.177651 | test | 1.41026 | 320 | false |
70 | The battery energy storage system of claim 13 , further comprising an enclosure housing the battery pack array, n string controllers, and the array controller. | 14 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.893694 | 1 | 0 | 1 | 0 | 302.133924 | open | (15882713, 14) | 0.51643 | 1 | 0.731248 | 0.709766 | 1 | 0.48848 | 0.731248 | 0.540943 | 0.19973 | test | 1.41026 | 320 | false |
71 | A battery energy storage system comprising:\n a battery pack array comprising n battery pack strings, wherein each battery pack string comprises m battery packs connected in series; n string controllers, wherein each string control box is coupled to one of the n battery pack strings and configured to control charging and discharging of the m battery packs; and an array controller configured to instruct the n string controllers to charge or discharge each of the m battery packs via control area network (CAN) bus, wherein n is greater than or equal to 2 and m is greater than 2. | 13 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.986772 | 1 | 0 | 1 | 0 | 333.601168 | open | (15882713, 13) | 0.513985 | 1 | 0.731153 | 0.709436 | 1 | 0.562766 | 0.731153 | 0.379376 | 0.387903 | test | 1.41026 | 320 | false |
72 | The battery energy storage system of claim 1 , wherein the string controller comprises a controller that is configured to monitor current of the plurality of battery packs. | 12 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.92612 | 0 | 0 | 0 | 0 | 313.096487 | none | (15882713, 12) | 0.517873 | 1 | 0.753929 | 0.730323 | 1 | 0.578901 | 0.753929 | 0.405202 | 0.256729 | test | 1.41026 | 320 | false |
73 | The battery energy storage system of claim 8 , wherein the string controller comprises a fault detection system that is coupled to a middle battery pack of the string of battery packs. | 11 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.881736 | 0 | 0 | 0 | 0 | 298.091446 | none | (15882713, 11) | 0.519039 | 1 | 0.753971 | 0.730478 | 1 | 0.847063 | 0.753971 | 0.623878 | 0.395516 | test | 1.41026 | 320 | false |
74 | The battery energy storage system of claim 8 , wherein the string controller is coupled to a terminal of a first battery pack and a terminal of a last battery pack of the string of battery packs. | 10 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.87498 | 0 | 0 | 0 | 0 | 295.80742 | none | (15882713, 10) | 0.519216 | 1 | 0.753978 | 0.730502 | 1 | 0.708845 | 0.753978 | 0.52734 | 0.3276 | test | 1.41026 | 320 | false |
75 | The battery energy storage system of claim 1 , wherein the plurality of battery packs are connected in series to form a string of battery packs. | 9 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.941638 | 0 | 0 | 0 | 0 | 318.34261 | none | (15882713, 9) | 0.517466 | 1 | 0.753914 | 0.730269 | 1 | 0.658091 | 0.753914 | 0.34557 | 0.242002 | test | 1.41026 | 320 | false |
76 | The battery energy storage system of claim 18 , wherein each of then string controllers comprise a power interface that is configured to couple to a power control system, and are further configured to charge or discharge the m battery packs via the power control system. | 19 | 15,882,713 | Utility | 1 | ["320", "128000"] | 86 | 2018-01 | 2018-08 | 8 | Embodiments disclosed herein relate to a battery energy storage system (BESS) that can be used to store energy that is produced by conventional sources (e.g., coal, gas, nuclear) as well as renewable sources (e.g., wind, solar), and provide the stored energy on-demand. | 86 | 1 | 1 | 1 | 1 | ['14932688', '15845598', '15389188', '14962491', '14819779'] | 338.0732 | 267.648916 | 142 | 0 | 35 | 0.851846 | 0 | 0 | 0 | 0 | 287.986296 | none | (15882713, 19) | 0.519823 | 1 | 0.754 | 0.730582 | 1 | 0.789415 | 0.754 | 0.667087 | 0.403711 | test | 1.41026 | 320 | false |
77 | The semiconductor device of claim 28 , wherein the shielding region is electrically coupled to an electrical contact provided by a doped body contact region, the doped body contact region electrically coupled to the body region. | 31 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.611881 | 0 | 0 | 0 | 0 | 114.993672 | none | (15880716, 31) | 0.499263 | 1 | 0.918908 | 0.876943 | 1 | 0.388348 | 0.918908 | 0.650995 | 0.381427 | test | 1.88 | 257 | true |
78 | The semiconductor device of claim 24 , wherein the conduction region has an opposite conductivity type as one of the source region and the body region. | 32 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 1 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.654333 | 0 | 0 | 0 | 0 | 122.971829 | none | (15880716, 32) | 0.493196 | 1 | 0.919369 | 0.876752 | 1 | 0.431099 | 0.919369 | 0.613231 | 0.447766 | test | 1.88 | 257 | true |
79 | The semiconductor device of claim 32 , further comprising a metallic short circuit coupled between the conduction region and the semiconductor body. | 33 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 1 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.580212 | 1 | 0 | 1 | 0 | 109.041952 | open | (15880716, 33) | 0.501492 | 1 | 0.909215 | 0.868443 | 1 | 0.521938 | 0.909215 | 0.758669 | 0.500956 | test | 1.88 | 257 | true |
80 | 17 ] The charged particle beam device according to claim 16 ,\n wherein the control device adjusts a deflection ratio of the magnetic field type deflector and the electrostatic type deflector so as to move the field of view of the charged particle beam under a condition of guiding electrons emitted from the sample in a predetermined direction. | 17 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.778883 | 0 | 0 | 0 | 0 | 237.546148 | none | (15747847, 17) | 0.509876 | 1 | 0.761638 | 0.736462 | 1 | 0.69406 | 0.761638 | 0.644441 | 0.630397 | test | 2.26984 | 250 | true |
81 | 16 ] The charged particle beam device according to claim 12 ,\n wherein the deflector for moving the field of view is configured of a magnetic field type deflector and an electrostatic type deflector. | 16 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.747615 | 0 | 0 | 0 | 0 | 228.010024 | none | (15747847, 16) | 0.511501 | 1 | 0.761478 | 0.73648 | 1 | 0.627046 | 0.761478 | 0.637617 | 0.478071 | test | 2.26984 | 250 | true |
82 | 15 ] The charged particle beam device according to claim 12 , further comprising:\n an accelerating tube that is disposed between the charged particle source and the objective lens to accelerate the charged particle beam; and a power source that applies a voltage to the accelerating tube, wherein the control device controls the focus adjusting lens according to at least one of a fluctuation of a voltage applied to the accelerating tube and a fluctuation of a focal distance of the objective lens. | 15 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 0 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.724617 | 1 | 0 | 1 | 0 | 220.995973 | open | (15747847, 15) | 0.510399 | 0 | 0.739095 | 0.716225 | 1 | 0.595018 | 0.739095 | 0.645376 | 0.732991 | test | 2.26984 | 250 | true |
83 | 14 ] The charged particle beam device according to claim 12 ,\n wherein the control device controls the focus adjusting lens so as to fix the position of the objective lens object point. | 14 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 0 | 1 | 0 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.771394 | 0 | 0 | 0 | 0 | 235.262376 | none | (15747847, 14) | 0.510265 | 0 | 0.7616 | 0.736466 | 1 | 0.535767 | 0.7616 | 0.642615 | 0.554888 | test | 2.26984 | 250 | true |
84 | 13 ] The charged particle beam device according to claim 12 ,\n wherein the focus adjusting lens is disposed between the deflector for moving the field of view and a virtual deflection fulcrum when the field of view is moved in an ideal optical axis direction of the charged particle beam. | 13 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 0 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.782834 | 0 | 0 | 0 | 0 | 238.751359 | none | (15747847, 13) | 0.50967 | 1 | 0.761658 | 0.73646 | 1 | 0.639338 | 0.761658 | 0.63409 | 0.571977 | test | 2.26984 | 250 | true |
85 | 12 ] A charged particle beam device including an objective lens that focuses a charged particle beam emitted from a charged particle source and irradiates a sample with the charged particle beam, and a deflector for moving a field of view, which deflects the charged particle beam, the device comprising:\n a focus adjusting lens that is disposed on a sample side from a position of the objective lens object point; a power source that applies a voltage or a current to the focus adjusting lens; and a control device that controls a voltage or a current applied to the power source according to a deflection condition of the deflector for moving the field of view. | 12 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 0 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.817011 | 1 | 0 | 1 | 0 | 249.174772 | open | (15747847, 12) | 0.505596 | 0 | 0.739597 | 0.716197 | 1 | 0.335095 | 0.739597 | 0.539207 | 0.477142 | test | 2.26984 | 250 | true |
86 | 11 ] The charged particle beam device according to claim 9 ,\n wherein the magnetic field type deflector and the electrostatic type deflector are disposed in a leakage magnetic field of the objective lens. | 11 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.793103 | 0 | 0 | 0 | 0 | 241.88321 | none | (15747847, 11) | 0.509136 | 1 | 0.761711 | 0.736453 | 1 | 0.678264 | 0.761711 | 0.645963 | 0.590314 | test | 2.26984 | 250 | true |
87 | 10 ] The charged particle beam device according to claim 9 ,\n wherein the control device adjusts a deflection ratio of the magnetic field type deflector and the electrostatic type deflector so as to move the field of view of the charged particle beam under a condition of guiding electrons emitted from the sample in a predetermined direction. | 10 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.835002 | 0 | 0 | 0 | 0 | 254.661637 | none | (15747847, 10) | 0.506958 | 1 | 0.761925 | 0.736429 | 1 | 0.683648 | 0.761925 | 0.640626 | 0.604766 | test | 2.26984 | 250 | true |
88 | 9 ] The charged particle beam device according to claim 1 ,\n wherein the deflector for moving the field of view is configured of a magnetic field type deflector and an electrostatic type deflector. | 9 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.925179 | 0 | 0 | 0 | 0 | 282.164054 | none | (15747847, 9) | 0.50227 | 1 | 0.762386 | 0.736375 | 1 | 0.453836 | 0.762386 | 0.562642 | 0.379286 | test | 2.26984 | 250 | true |
89 | 8 ] The charged particle beam device according to claim 7 ,\n wherein the control device controls the focus adjusting lens so as to fix a position of the objective lens object point. | 8 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 0 | 1 | 0 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.804657 | 0 | 0 | 0 | 0 | 245.406914 | none | (15747847, 8) | 0.508536 | 0 | 0.76177 | 0.736447 | 1 | 0.548907 | 0.76177 | 0.650745 | 0.53958 | test | 2.26984 | 250 | true |
90 | 7 ] The charged particle beam device according to claim 1 , further comprising:\n a focus adjusting lens that adjusts a focus of the charged particle beam between the charged particle source and the accelerating tube, wherein the control device controls the focus adjusting lens according to at least one of a fluctuation of a voltage applied to the accelerating tube and a fluctuation of a focal distance of the objective lens. | 7 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 0 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.859516 | 1 | 0 | 1 | 0 | 262.13791 | open | (15747847, 7) | 0.503386 | 0 | 0.739828 | 0.716183 | 1 | 0.531297 | 0.739828 | 0.558635 | 0.627632 | test | 2.26984 | 250 | true |
91 | 6 ] The charged particle beam device according to claim 5 ,\n wherein the control device has a first optical mode in which the field of view is not moved by the deflector for moving the field of view or image shift of a predetermined value or less is performed, and a second optical mode in which the field of view is moved by the deflector for moving the field of view, and when the first optical mode is selected, the same positive voltage is applied to the first electrode and the second electrode. | 6 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 0 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.75835 | 0 | 0 | 0 | 0 | 231.283975 | none | (15747847, 6) | 0.510943 | 1 | 0.761533 | 0.736474 | 1 | 0.682617 | 0.761533 | 0.649856 | 0.529391 | test | 2.26984 | 250 | true |
92 | 5 ] The charged particle beam device according to claim 4 ,\n wherein a positive voltage is applied to the second electrode. | 5 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.69946 | 0 | 0 | 0 | 0 | 213.323699 | none | (15747847, 5) | 0.514003 | 1 | 0.761231 | 0.736509 | 1 | 0.570497 | 0.761231 | 0.535855 | 0.488474 | test | 2.26984 | 250 | true |
93 | 4 ] The charged particle beam device according to claim 1 ,\n wherein the accelerating tube is configured of at least a first electrode disposed on the charged particle source side and a second electrode disposed on the sample side, and the control device controls a voltage applied to the first electrode according to a deflection condition of the deflector for moving the field of view. | 4 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 1 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.824651 | 0 | 0 | 0 | 0 | 251.504664 | none | (15747847, 4) | 0.507497 | 1 | 0.761872 | 0.736435 | 1 | 0.417286 | 0.761872 | 0.471653 | 0.425435 | test | 2.26984 | 250 | true |
94 | 3 ] The charged particle beam device according to claim 1 ,\n wherein the control device has a first optical mode in which the field of view is not moved by the deflector for moving the field of view or image shift of a predetermined value or less is performed, and a second optical mode in which the field of view is moved by the deflector for moving the field of view, and when the second optical mode is selected, a large positive voltage is applied to the accelerating tube compared with when the first optical mode is selected. | 3 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 0 | 1 | 0 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.769734 | 0 | 0 | 0 | 0 | 234.755961 | none | (15747847, 3) | 0.510351 | 0 | 0.761591 | 0.736467 | 1 | 0.537544 | 0.761591 | 0.533871 | 0.448268 | test | 2.26984 | 250 | true |
95 | 2 ] The charged particle beam device according to claim 1 ,\n wherein the accelerating tube is disposed at the same height as a front focal position of the objective lens in an ideal optical axis direction of the charged particle beam. | 2 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 0 | 1 | 0 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.837334 | 0 | 0 | 0 | 0 | 255.372831 | none | (15747847, 2) | 0.506837 | 0 | 0.761937 | 0.736427 | 1 | 0.366031 | 0.761937 | 0.427057 | 0.337181 | test | 2.26984 | 250 | true |
96 | 1 ] A charged particle beam device including an objective lens that focuses a charged particle beam emitted from a charged particle source and irradiates a sample with the charged particle beam, and a deflector for moving a field of view, which deflects the charged particle beam, the device comprising:\n an accelerating tube that is disposed between the deflector for moving the field of view and the objective lens; a power source that applies a voltage to the accelerating tube; and a control device that controls a voltage applied to the power source according to a deflection condition of the deflector for moving the field of view. | 1 | 15,747,847 | Utility | 1 | ["250", "398000"] | 0 | 2018-01 | 2018-08 | 13 | A purpose of the present invention is to provide a charged particle beam device that suppresses an off-axis amount when a field of view moves, said move causing an aberration, and allows large field of view moves to be carried out. In order to achieve the above-mentioned purpose, this charged particle beam device is provided with an objective lens and deflectors for field of view moves, said deflectors deflecting a charged particle beam, and is further provided with an accelerating tube positioned between the objective lens and the deflectors for field of view moves, a power source that applies a voltage to the accelerating tube, and a control device that controls the voltage to be applied to the power source in response to the deflection conditions of the deflectors for field of view moves. | 86 | 1 | 0 | 1 | 1 | ['15007873', '15741038', '14396769', '14760053', '13789434'] | 304.98322 | 288.45272 | 21 | 0 | 1 | 0.854599 | 1 | 0 | 1 | 0 | 260.638227 | open | (15747847, 1) | 0.503642 | 0 | 0.739801 | 0.716185 | 1 | 0.30554 | 0.739801 | 0.36741 | 0.391879 | test | 2.26984 | 250 | true |
97 | A method for producing a semiconductor device, comprising:\n forming a polycrystalline silicon layer on a semiconductor body made of SiC, the polycrystalline silicon layer having an average particle size in the range of 10 nm to 50 \u03bcm; forming a body region and a source region of a field effect transistor within the polycrystalline silicon layer, the body region being in contact with the source region; forming a gate trench adjacent the body region and extending from a surface of the polycrystalline silicon layer into the polycrystalline silicon layer; and forming a gate structure within the gate trench. | 39 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 0 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.710011 | 1 | 0 | 1 | 0 | 133.435763 | open | (15880716, 39) | 0.482946 | 1 | 0.91077 | 0.867987 | 1 | 0.642218 | 0.91077 | 0.647852 | 0.573643 | test | 1.88 | 257 | true |
98 | The semiconductor device of claim 37 , wherein the gate trench extends into the semiconductor body. | 38 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 1 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.686561 | 0 | 0 | 0 | 0 | 129.028623 | none | (15880716, 38) | 0.488591 | 1 | 0.919718 | 0.876605 | 1 | 0.342479 | 0.919718 | 0.661677 | 0.362771 | test | 1.88 | 257 | true |
99 | A semiconductor device, comprising:\n a semiconductor body made of SiC; and a field effect transistor, comprising:\n a drift region in the semiconductor body; \n a polycrystalline silicon layer directly on the semiconductor body, the polycrystalline silicon layer having an average particle size in a range of 10 nm to 50 \u03bcm, the polycrystalline silicon layer comprising a source region, a channel region, and a conduction region, the channel region disposed between the source region and the conduction region, wherein the drift region is in direct contact with the conduction region; and \n a gate trench adjacent the channel region and extending from a surface of the polycrystalline silicon layer into the polycrystalline silicon layer, wherein a gate structure is formed within the gate trench, wherein the channel region is adjacent a vertical surface of the gate trench. | 37 | 15,880,716 | Utility | 1 | ["257", "051000"] | 0 | 2018-01 | 2018-06 | 47 | A semiconductor device may include a semiconductor body of silicon carbide (SiC) and a field effect transistor. The field effect transistor has the semiconductor body that includes a drift region. A polycrystalline silicon layer is formed over or on the semiconductor body, wherein the polycrystalline silicon layer has an average particle size in the range of 10 nm to 5 μm, and includes a source region and a body region. Furthermore, the field effect transistor includes a layer adjacent to the body region gate structure. | 86 | 1 | 1 | 1 | 1 | ['15858406', '11399452', '11952447', '15275184', '15291168'] | 187.93475 | 181.0936 | 36 | 35 | 14 | 0.761695 | 1 | 0 | 1 | 0 | 143.148886 | open | (15880716, 37) | 0.475572 | 1 | 0.911382 | 0.867801 | 1 | 0.633582 | 0.911382 | 0.601924 | 0.483414 | test | 1.88 | 257 | true |