Group Structure Chart The Group Structure Chart delivered to the Agent pursuant to Part I of Schedule 2 (Conditions Precedent) is true, complete and accurate in all material respects.
Gold Open Access Articles May be shared according to the author-selected end-user license and should contain a CrossMark logo, the end user license, and a DOI link to the formal publication on ScienceDirect. Please refer to Elsevier's posting policy for further information.
Interconnection Facilities Engineering Procurement and Construction Interconnection Facilities, Network Upgrades, and Distribution Upgrades shall be studied, designed, and constructed pursuant to Good Utility Practice. Such studies, design and construction shall be based on the assumed accuracy and completeness of all technical information received by the Participating TO and the CAISO from the Interconnection Customer associated with interconnecting the Large Generating Facility.
Group Structure 17.1 The Company does not have any Subsidiary nor has it at any time a member of or the beneficial owner of any shares, securities or other interest in any company or other person.
Unbundled Copper Loops (UCL) 2.4.1 BellSouth shall make available Unbundled Copper Loops (UCLs). The UCL is a copper twisted pair Loop that is unencumbered by any intervening equipment (e.g., filters, load coils, range extenders, digital loop carrier, or repeaters) and is not intended to support any particular telecommunications service. The UCL will be offered in two types – Designed and Non-Designed.
Certified Copies of Charter Documents Each of the Banks shall have received from the Borrower and each of its Subsidiaries a copy, certified by a duly authorized officer of such Person to be true and complete on the Closing Date, of each of (a) its charter or other incorporation documents as in effect on such date of certification, and (b) its by-laws as in effect on such date.
Agreement Structure This Agreement includes Part 1 - General Terms, Part 2 - Country-unique Terms (if any), the LI, and the XxX and is the complete agreement between Licensee and Lenovo regarding the use of the Program. It replaces any prior oral or written communications between Licensee and Lenovo concerning Licensee’s use of the Program. The terms of Part 2 may replace or modify those of Part 1. To the extent of any conflict, the LI prevails over both Parts.
Master Feeder Structure If permitted by the 1940 Act, the Board of Trustees, by vote of a majority of the Trustees, and without a Shareholder vote, may cause the Trust or any one or more Series to convert to a master feeder structure (a structure in which a feeder fund invests all of its assets in a master fund, rather than making investments in securities directly) and thereby cause existing Series of the Trust to either become feeders in a master fund, or to become master funds in which other funds are feeders.
Access Toll Connecting Trunk Group Architecture 9.2.1 If CSTC chooses to subtend a Verizon access Tandem, CSTC’s NPA/NXX must be assigned by CSTC to subtend the same Verizon access Tandem that a Verizon NPA/NXX serving the same Rate Center Area subtends as identified in the LERG.
9.2.2 CSTC shall establish Access Toll Connecting Trunks pursuant to applicable access Tariffs by which it will provide Switched Exchange Access Services to Interexchange Carriers to enable such Interexchange Carriers to originate and terminate traffic to and from CSTC’s Customers.
9.2.3 The Access Toll Connecting Trunks shall be two-way trunks. Such trunks shall connect the End Office CSTC utilizes to provide Telephone Exchange Service and Switched Exchange Access to its Customers in a given LATA to the access Tandem(s) Verizon utilizes to provide Exchange Access in such LATA.
9.2.4 Access Toll Connecting Trunks shall be used solely for the transmission and routing of Exchange Access to allow CSTC’s Customers to connect to or be connected to the interexchange trunks of any Interexchange Carrier which is connected to a Verizon access Tandem.
Reactive Power and Primary Frequency Response 9.6.1 Power Factor Design Criteria
