Technical Description has the meaning given to it in Recital (1).
Technical Description means [***] 175 [***], as supplemented and amended from time to time.
Technical Description has the meaning given to it in Recital (4).
Examples of Technical Description in a sentence
An integral part of this Contract is Annex 1 (Technical Description of the Offered Performance) and Annex 2 (Technical specifications) In case of any discrepancy between the provisions of this Contract and the provisions of Annex 1 (Technical Description of the Offered Performance) the provisions of this Contract shall prevail.
Under this Contract the Seller shall hand over to the Buyer a AdvaPIX TPX3 with 300um Si sensor, which shall meet requirements listed in Annex 1 (Technical Description of the Offered Performance) to this Contract (“Object of Purchase”) and shall transfer to the Buyer ownership right to the Object of Purchase, and the Buyer shall take over the Object of Purchase and shall pay the Seller the Purchase Price (as defined below), all under the terms and conditions stipulated in this Contract.
More Definitions of Technical Description
Technical Description means the description of the technology contained in Schedule A of this Licence;
Technical Description. The documentation that PayEx supplies in order to facilitate programming interface and the Customer's communications with PayEx and, where appropriate, Redeemers.
Technical Description has the meaning given to it in Recital (A). “Total Assets” means the total consolidated assets of the Group, as shown in the Borrower’s latest consolidated financial statements, as at the end of any Relevant Period. "Tranche" means each disbursement under Facility A, Facility B, or Facility C and made or to be made under this Contract. In the event that no Disbursement Acceptance has been received, Tranche shall mean a Tranche as offered under Article 2.2.2 (Disbursement Offer). "Upfront Payments" means an initial payment received by a Group Company from a third party as part of an intended ongoing arrangement in connection with a Research and Development Project, where such payment shall cover costs of the Research and Development Project already incurred and/or forecast to be incurred in the future by the relevant Group Company. “Valuation Event” means, for the purposes of Article 4.2(b)(ii)(1) (Variable Remuneration): (a) the most recent issuance of shares subscribed by any third party(ies) for an amount of at least EUR 1,000,000 (one million euro); or (b) the most recent sale of existing shares to any third party(ies) for an amount of at least EUR 1,000,000 (one million euro); or (c) in case of event likely to have a material impact on the price per share of the investee since the events described in (a) and (b) above, a valuation prepared by an independent expert. "Variable Remuneration" has the meaning given to it in Article 4.2 (Variable Remuneration). "Variable Remuneration Payment Date" means 30 June of each year to fall after the publication of the Borrower's audited consolidated financial statements for the preceding financial year, up to (and including) the first of those dates to fall after the publication of the Borrower's audited consolidated financial statements for the year ended 31 December 2037. "Voluntary Non EIB Prepayment" means a voluntary prepayment by any Group Company (for the avoidance of doubt, prepayment shall include a repurchase, redemption or cancellation where applicable) of a part or the whole of any Non-EIB Financing where: (a) such prepayment is not made within a revolving credit facility (save for the cancellation of the revolving credit facility); or (b) such prepayment is not made out of the proceeds of a loan or other indebtedness having a term at least equal to the unexpired term of the Non-EIB Financing prepaid.
Technical Description means the description detailing the technical specifications, standards, the quality of materials and equipment to be used to construct the building as well as their mode of use and the general conditions for their implementation, of which a copy is attached as Appendix 2.
Technical Description means the description of project scope, system design and, route de- scription and other description of the TAP Transportation System included in the document “Technical Description of The Gas Transportation System” (TAP-TEC-RP-0015);
Technical Description. The high order correctors prototypes (one quadrupole, one sextupole, one octupole, one decapole, and one dodecapole) design, manufacturing and test at LASA-INFN fall within the scopes of the C.A. CERN-INFN KE2291/TE/HL-LHC. At the moment of writing the sextupole has been successfully built and tested. The five magnets will be completed and tested by the end of 2017. The scope of the present agreement is the construction and test of nine types of correctors Skew quadrupole Normal and skew sextupole Normal and skew octupole Normal and skew decapole Normal and skew dodecapole The magnet specifications are given in Table I. The aperture is 150 mm, maximum lengths are about 180 mm with the exception of the normal dodecapole (about 514 mm) and the skew quadrupole (about 891 mm). The magnet mechanical lengths reported in Table I and Table II will be confirmed on the basis of the final prototype designs. Sextupole, octupole, and decapole will have the same gradient in the normal and skew case. Operational temperature is 1.9 K, and the maximum expected radiation dose during the HL-LHC lifetime is 35 MGy at ultimate integrated luminosity (4000 fb-1). CERN will endorse the compliance of the materials and components used with the maximum radiation dose. Field harmonics have to be below 100 units (1%) at the reference radius of 50 mm. These magnets will require a large margin on the loadline (>50%). INFN LASA will test the magnets at 2.2 K during the production, qualifying them for the installation in HL-LHC. The magnets will have to reach 108% of the nominal current. This value must be reached with no training after the first thermal cycle. A detailed acceptance scheme, containing possible exceptions to the above general criterion, will be worked out later, based on the results of the previous C.A. KE2291/TE/HL-LHC. Table I. Functional requirements MCSXF MCOXF MCDXF MCTXF Order 3 4 5 6 Orientation Normal Normal Normal Normal Number of apertures mm 150 150 150 150 Units, including spares 6 6 6 6 Integral magnetic field T·m 0.063 0.046 0.025 0.086 Mechanical length end-to-end plate (mm) ≤184 ≤160 ≤172 ≤514 Nominal Current (A) ≤105 ≤105 ≤105 ≤105 Load-line margin (%) >50% >50% >50% >50% Multipoles at Rref= 50 mm (units) <100 <100 <100 <100 Radiation resistance (MGy) >35 >35 >35 >35 MCQSXF MCSSXF MCOSXF MCDSXF MCTSXF Orientation Skew Skew Skew Skew Skew Number of apertures mm 150 150 150 150 150 Integral magnetic field T m 1.00 0.063 0.046 0.025 0.017 Mechanical length en...