NPIC DATA SYSTEM DATA AND CONTROL SEGMENT ACQUISITION PHASE APPENDIX A6 FACILITY INTERFACE DRAWING (VERSION A)

Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 /o// UNCLASSIFIED NPIC DATA SYSTEM DATA AND CONTROL SEGMENT ACQUISITION PHASE APPENDIX A6 FACILITY INTERFACE DRAWING (VERSION A) 24 February 1982 UNCLASSIFIED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 TAT Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASSI Fl ED NPIC DATA SYSTEM DATA AND CONTROL SEGMENT ACQUISITION PHASE APPENDIX A6 FACILITY INTERFACE DRAWING (VERSION A) 24 February 1982 This data, furnished in connection with Request for Proposal 82-B-015 as amended, shall not be dis- closed outside the Government and shall not be duplicated, used, or disclosed in whole or in part for any purpose other than to evaluate the proposal. If a contract is awarded to this offeror as a result of or in connection with the submission of this data, the Government shall have the right to duplicate, use, or disclose the data to the extent provided in the contract. This restriction does not limit the Government's right to use information contained in the data if it is obtained from another source without restriction. UNCLASS1 Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED D/C SEGMENT FACILITIES ICD UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Contents Section Page 1 INTRODUCTION 1-1 1.1 Scope 1-1 1.2 General Concepts 1-1 q - INSTALLATION, CHECKOUT, TEST AND VERIFICATION 2-1 2.1 General 2-1 2.2 Installation Phase 2-2 2.3 Checkout and Reverification Phase 2-2 2.4 Test Phase 2-4 3 SPACE CONFIGURATION 3-1 3.1 General 3-1 3.2 Under Floor Cable Space Requirements 3-1 3.3 Equipment Floor Loading 3-1 3.4 Door Width and Height Requirements 3-1 3.5 Working Population Density S 3-3 3.6 CE Room and Test Area 3-3 3.7 Integrated Work Station 3-4 4 ELECTRICAL PLAN 4-1 4.1 Primary Power Requirements 4-1 4.2 Power Panels 4-1 4.3 Branch Circuitry 4-2 4.4 Grounding 4-2 4.5 Emergency Power-Off 4-4 4.6 Phase Rotation and Color Code 4-4 4.7 Main Power Panel Locations 4-4 4.8 Convenience Outlets 4-4 5 LIGHTING REQUIREMENTS 5-1 5.1 Work Stations 5-1 5.2 Storage Area 5-1 5.3 Remainder of Computer Floor 5-2 5.4 Emergency Lighting 5-2 6 COOLING REQUIREMENTS 6-1 6.1 Operating Area Environmental Conditions 6-1 6.1.1 Equipment Air Pressure 6-1 6.1.2 Air Cleanliness Requirements 6-1 6.2 System Requirements 6-2 6.2.1 Chilled Water Requirements 6-3 6.3 Temperature and Humidity Recording Instruments 6-3 7 SAFETY PLANS 7-1 7.1 Fire Protection System 7-1 7.2 Hazardous Materials or Conditions 7-1 7.3 Moisture Detection 7-1 7.4 Cleaning Requirements 7-1 UNCLAiSSI Fl ED Approved For Release 2007/09/07 : CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Appendices Installation Planning Schedule and Checklist D/C Segment Technical Equipment Listing D/C Segment Plug/Connector Information iii UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Illustrations Figure Page 2.2-1 BOC and IOC Installation Schedules 2-3 3.1-1 D/C Segment Equipment Configuration Layout 3-2 4.4-1 Transient Grounding Plate 4-3 4.6-1 Power Distribution System 4-5 4.7-1 Power Panel and Branch Circuit Layout 4-6 4.7-2 Typical Power Wiring Diagram 4-7 5.3-1 Sample Lighting Layout and Control Scheme 5-3 5.3-2 Wiring Diagram for a Typical Lighting Zone 5-4 6.2.1-1 Typical Connections for Customer Supplied Chilled 6-4 Water Tables Table Page 3.7-3 IWS Power and Cooling Information 3-5 UNCL1ASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Section 1 INTRODUCTION 1.1 Scope This plan provides a description of the Site Preparation and Equipment Installation Plan for integrating the Data and Control (D/C) Segment of the NPIC Data System (NDS) into NPIC Annex located in STAT Washington, D.C. The principal objective of this task is to define the site preparation requirements and to identify the responsibility for accomplishing the associated tasks. This plan will be revised and/or supplemented during the System Acquisition Phase (SAP) in accordance with the provisions of the Program Implementation Directive (PID), Appendix 10.1, Data Requirement Description (DRD) 742. 1.2 General Concept The D/C Segment ADP Hardware Configuration will be installed in the second floor Technical Equipment Area of the NPIC Annex. Site installation will commence on 1 January 1984 upon completion of construction of the Annex. The transition of the D/C Segment is described in Chapter 8.0 of the NDS SAP Technical Proposal, and the schedule for BOC and IOC installation is provided in Section 2.2 of this document. The following assumptions were made in the preparation of this document: a. All construction in the Technical Equipment Area will be completed prior to the start of D/C Segment installation. This includes all required air conditioning, electrical power 1-1 UNCLASI Fl ED Approved For Release 2007/09/07 : CIA-RDP84T00037R000500030001-3 STAT Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED branch circuit installation to the power panels, all communi- cations lines, lighting plumbing, installation of all walls, ceilings, floor. doors, ramps etc. and the installation of a raised installation planning representative will provide the customer assistance in the selection and placement of plumbing/power receptacles and connectors. b. The D/C Segment installation functions internal to equipment STAT c. areas will be power and grounding cables and supervision done This will include all plumbing, STAT STAT connections to ADP, connecting intermachine of equipment placement. layout drawings for the P/C Segment equipment configuration were prepared within the boundaries of the second floor technical area and without consideration of Collateral Information (C/I) and Exploitation and Reporting (E/R) Segments installation plans or needs. The installation team will provide all necessary tools, equipment, materials and documentation to perform the installation of the ADPE. 1-2 UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Section 2 INSTALLATION, CHECKOUT, TEST AND VERIFICATION 2.1 General Installation, checkout, test and verification efforts include: a. Preparation of facilities for D/C Segment hardware. b. Deployment and physical emplacement of equipment. c. Checkout of electrical and environmental interfaces with the Site Facility Segment. d. Reverification of hardware performance. e. Integrated systems testing intersegment and intrasegment interfaces. The activity accomplishes the final steps of DT&E Testing, CPCI acceptance and integrated Cl/CPCI system acceptance tests. Installation efforts commence with the planning of equipment arrangements sufficiently in advance of delivery to enable government contractual action to modify the facilities. The planning aid (Appendix A) is an example of checklists that will be used by the installation team. These checklists are intended to assure that construction, renovation and installation tasks are realized in required time frames to avoid delay in scheduled transition of operations. Installation, checkout and test activities consist of receiving, inspecting and installing the hardware product and performing component and interface compatibility testing. Verification includes the confirmation that "as-built" and UNCLA??I Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT STAT Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED "as-installed" documentation reflects the actual final configuration. Installation, checkout, test and verification is divided into the three following phases. 2.2 Installation Phase Installation Phase begins at the completion of equipment factory test and provides for the disconnection, disassembly, packing, transport, unpacking, assembly and connection of the equipment in accordance with schedules and layouts for the equipment. Assembly of equipment includes the planned layout of the room, laying of the machine cables and assuring proper air flow for the room. Connection of the equipment is the physical installation of the computer and peripherals. After installation, air flow will be reverified. ill be responsible for providing the packing materials at the factory, removing items at the destination, and providing the transport media. The facility at which the equipment is installed, including raised floors and the necessary power cooling, and voice communications equipment, will be provided by NPIC in accordance with the approved schedules and layouts. In addition, the installation of equipment and the establishment of connectivities to support external interfaces will be accomplished only when all equipment for a particular transition phase has been delivered and is ready for emplacement, and all installation documentation is verified to be on-site and describes STAT the work installation to be accomplished. schedules. These Figure 2.2-1 contains the BOC and IOC schedules are based on the installation of an processor with associated peripherals at BOC STAT and an additional processor with associated peripherals for STAT IOC. Time schedules were based on four Field Engineering Division STAT (FED) Field Engineers (FE) working twelve 2.3 Checkout and Reverification Phase hour shifts. Checkout Phase begins when equipment is ready for DT&E reverification of CI performance. The materials required for checkout, such as tapes and UNCLA?-?I Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED BOC INSTALLATION SCHEDULE FACILITIES CHECK CABLE INSTALLATION AND CONNECTION SYSTEM PLACEMENT ELECTRICAL AND PLUMBING CONNECTION SYSTEM POWER TESTING SYSTEM DIAGNOSTIC TESTING JANUARY 1984 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 A ? A TIME FRAMES BASED ON 4 FIELD ENGINEERS WORKING 12 HOURS PER SHIFT IOC INSTALLATION SCHEDULE CABLE INSTALLATION AND CONNECTION SYSTEM PLACEMENT ELECTRICAL AND PLUMBING CONNECTION SYSTEM POWER TESTING SYSTEM DIAGNOSTIC TESTING MARCH 1985 2 3 4 5 6 7 8 9 10 11 12 13 14 15 TIME FRAMES BASED ON 4 FIELD ENGINEERS WORKING 12 HOURS PER SHIFT Figure 2.2-1. BOC and IOC Installation Schedules 2-3 UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED printer paper, will be supplied by NPIC. Checkout will be accomplished through a series of inspections and reverification tests that are appropriate for the installed equipment. Inspections will assure that all off-the-shelf components and assemblies comply with standards and specifications. Quality assurance standards will be imposed on all levels of fabrication, assembly and test. will thoroughly check out the hardware equipment, utilizing micro- program diagnostics, tape diagnostics, disk diagnostics, on-line diagnostics, console and memory tests. Fault isolation testing will also be accomplished. At the completion of these tests, the effectiveness level of the hardware shall be demonstrated showing the ability of the hardware to be used in the support environment for a specified period of time. For the standard hardware, this demonstration shall be as defined in current General Services Administration Schedule for ADPE. For all other hardware it will be as defined in the test plan. Hardware acceptance testing is concluded upon the satisfactory completion of all inspections and tests. 2.4 Test Phase The third phase begins with verifying that the operating system executes properly on the newly installed equipment. The objective of these tests is to confirm that the system generation (SYSGEN) has been completed properly and that all devices are addressable by the operating system and their inputs are recognized by the system. The BOC host software is then executed on the new equipment in a minor regression test sequence. These tests will verify that all software can be located and paged into the computer for execution. 2-4 UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT STAT STAT Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED The test phase culminates with the testing of the full BOC system configuration including the Channel-to-Channel data transfer capability between the hosts and the Univac 1100/84 (configured with a 1 x 1 CPU-IOU combination available for test and a 3 x 3 configuration for the on-line system. Specific details concerning third phase testing will be available in the appropriate test plans. UNCLA2S5SI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Section 3 SPACE CONFIGURATION 3.1 General The equipment to be installed for the D/C Segment of the NDS program is specified in detail in Appendix B. This information includes the dimensions (height, width, length, weight), electrical power and cooling requirements. Specific plug, connector and receptacle information is contained in Appendix C. The equipment floor layout for the D/C Segment equipment is shown in Figure 3.1-1. 3.2 Under Floor Cable Space Requirements The computer raised floor in the D/C Segment equipment area is to be 18 inches above the subfloor. This will provide sufficient space for cables, water lines and the cooling plenum. 3.3 Equipment Floor Loading The specification contained in the NPIC Addition Document STAT building requirements will adequately sustain the floor loading imposed by equipment in approved configuration. STAT 3.4 Door Width and Height Requirements machines are normally shipped in packages 70" high, 60" long and 29" wide with dimensions interchangable if the unit can be upended. These dimensions are in keeping with the proposed freight elevator sizing described in the NPIC addition requirements document and door sizes should be similarly designed. A ramp should be installed from the freight elevator up to the false flooring to allow for adequate movement of equipment and materials. UNCLA??I Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT STAT Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASSIFIED Figure 3.1-1 D/C Segment Equipment Configuration Layout THIS FIGURE IS INSERTED IN POCKET AT END OF DOCUMENT 3-2 UNCLA?IFI ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED 3.5 Working Population Density Personnel requirements will vary greatly depending on the workload at the time. On a per shift basis, an average of five people will operate the D/C Segment. This includes three computer operators who will monitor the three CPU consoles and mount/dismount tapes. The D/C Segment supervisor will monitor the D/C Segment Command and Control console, and the NDS System Command and Control supervisor will monitor the NDS System console. A Data Base Administrator console will be manned at least one shift per day. Office space in the computer facility will be required for both the computer operators and segment supervisors. Office space will also be required for the transition and integration team consisting of approximately twenty people. Transition and integration office requirements for BOC will be met by using the existing offices, (i.e., CE room, supervisors and operators offices), since the space will not be utilized until the system is operational. During IOC and FOC, the transition and integration team will need dedicated temporary office space to support installation and testing activities. 3.6 CE Room and Test Area The customer engineers test area for the D/C Segment installation should contain 400 square feet (20' x 20') of space and be air conditioned to the same specifications as the machine room. The Field Engineering STAT Branch Manager will provide, on a scaled layout the Field Engineering equipment which will be installed in the CE room to assist the customer in locating lights, receptacles and so forth. The test area should contain at least two 115V, single phase, 15A receptacles (convenience outlets) and other receptacles adequate to repair any device that can be serviced in the CE room should be provided. The 115V receptacles (convenience outlets) should not be provided power from the computer power panel. UNCLA??I Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED 3.7 Integrated Work Station (IWS) The IWS will consist of a family of work stations based on a common architecture. Three basic versions of this architecture will be implemented as described in the following paragraphs. a. Basic IWS. This work station will provide full interactive alphanumeric capabilities and limited local processing in support of administrative staff and analysts' supervisors. b. Enhanced IWS. This work station will include the features of the Basic IWS and, in addition, provide for increased local processing through the inclusion of a small capacity hard disk drive for local storage of software and data. c. Full Capacity IWS. This work station will incorporate the features of the Enhanced IWS and will include the added capability to display imagery. The power requirements and cooling requirements for each are listed in Table 3.7-3. will interface with the Exploitation and Reporting (E/R) segment contracSI-AT ? during SAP to determine work station layouts, facility impacts, and requirements. The dimensions of the IWS are significantly larger than the existing DD 5600. The Basic IWS and Enhanced IWS dimensions are 3' x 5'. The dimensions of the Full Capability IWS are 3' x 6'. UNCLA?IFI ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Table 3.7-3 IWS Power and Cooling Information LOCATION FOC NUMBER TERMINAL TYPES RATE KVA TOTAL KVA 10 ENHANCED IWS 0.96 9.60 100 FULL CAPABILITY IWS 3.20 320.00 130 ENHANCED !WS 0.96 124.80 373 FULL CAPABILITY IWS 3.20 1193.60 178 BASIC IWS .57 101.46 ELSEWHERE 37 BASIC IWS .57 21.09 TBD 27 FULL CAPABILITY IWS 3.20 86.40 145 BASIC IWS .57 82.65 TOTAL 1000 1939.60 KVA LOCATION TOTAL KVA TOTAL BTU REQUIRED A/C (TONS) 330 1,124,858 94 1589 5,422,631 452 ELSEWHERE 21 71,975 6 3-5 UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Section 4 ELECTRICAL PLAN 4.1 Primary Power Requirements The system power requirements are listed in Appendix B for the individual units to be installed. Quantities are shown for each unit along with the power requirements The total number of upgrade units are then identified and an expanded system power requirement determined. It should be noted that some units are powered from another unit and do not require branch circuits. The description and type of connector provided with the ADPE unit power cord is identified by an alphabetic code in Appendix C. 4.2 Power Panels For maximum system reliability, the computer power panel should connect to feeders that serve no other loads. Transient-producing devices, such as accounting machines, card punch machines, typewriters, desk calculators and the like, must be connected to separate panels from those servicing the ADPE to eliminate a potential source of noise interference to the computer system. The Government is responsible for providing power panel(s) adequate to meet the system power requirements as specified in this document. The power panels should be located in an unobstructed, well-lighted area within the technical equipment areas. Preferred locations for the power panels and the proposed breaker layout will be shown in the Electrical Branch Circuit Diagram. 4-1 UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASSI Fl ED 4.3 Branch Circuitry The individual branch circuits on the panel shall be protected by suitable circuit breakers properly de-rated according to the manufacturer specifications and applicable codes. Each circuit breaker shall be labeled to identify the branch circuit and ADPE unit it is controlling. The grounding wire for the branch circuit must be insulated and equal in size to the phase conductor. Branch circuits must be terminated under the raised floor within three meters (10 feet) of the machines they supply. Unit power cords are supplied in 4.3 meter (14 foot) lengths, unless otherwise noted in the unit specification data. The length is measured from the symbol (+) on the floor plan. power plugs that can be located under the raised floor will be watertight. The customer provided receptacles and cable should also be watertight. The receptacle can be either an inline or Both the a fixed type, depending on local code requirements. processors require 400 cycle power. The Power Distribution Unit (PDU) will provide 400 cycle power for the processor, but the will require 61.7 KVA of 400 cycle power from an NPIC Motor Generator source. 4.4 Grounding All machines are provided with an equipment ground wire (green or At the branch circuit panel, the green wire be tied into one main grounding conductor. is a dedicated ground, not a neutral, and green with yellow trace). ground from all machines must This equipment grounding wire must be carried back to service ground or suitable building ground. Conduit must not be used as the only grounding means. A typical power panel grounding configuration is depicted in Figure 4.4-1. UNCLALt?IF=1 ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT STAT STAT STAT STAT Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASSIFIED 4-3 UNCLAgl Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Figure 4.4-1. Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED 4.5 Emergency Power-Off The government should include in the electrical design a means to power- off all computer and air conditioning equipment in an emergency. This can be accomplished by providing a main service disconnect control located convenient to the operator and next to the main and emergency exit doors of the computer room. A similar independent EPO switch is required for A/C equipment. 4.6 Phase Rotation and Color Code The three-phase power receptacles for use with the system must be wired for correct phase rotation. Looking at the face of the receptacle, and running counter clockwise from the ground pin, the sequencing will be Phase 1, Phase 2 and Phase 3. Figure 4.6-1, Power Distribution System shows proper phase rotation connections for the user installa- tion. Color code for conductors shall be per the National Electric Code (NEC). 4.7 Main Power Panel Locations Based upon the equipment room configuration the recommended location of the main power panel and ADP power plug locations are shown in Figure 4.7-1. A typical computer room power wiring diagram is shown in Figure 4.7-2. 4.8 Convenience Outlets A suitable number of convenience outlets should be installed in the com- puter room and CE room for use by maintenance personnel, cleaning service, customer engineers, etc. Convenience outlets should be on the lighting or other building circuits, not on the computer power panel or feeder. Under no circumstances are system convenience outlets on be used for any purpose other than normal servicing. machines to SI-AT UNCLA??I Fl ED Approved For Release 2007/09/07 : CIA-RDP84T00037R000500030001-3 2 0 r? cAp- cnLi- rn Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Remotely Operated Service Disconnect Power Source (See Note 1) r11 1 r I 1 1 1 01 I I I 1I I 1 I 02 I I I I I I I !i I I I I I II I, I I I1 03 ill _J Noncurrent-Carrying Grounding Conductor (See Note 2) ? Computer Room Branch iCircuit Panel 1 Receptacles (Face Side) 208/230 V 30 (See Note 2) 1 I ,(See I ,Note 2) _I _ *1?\._ L I 1 Transformer or Suitable -z... Building Grounding Station Plugs 208/230 V 10 Supplementary Ground Notes: 1. Remotely Disengaged By An Emergency Device Located Near the Console Operator and Next to the Main Exit Doors. 2. Ground Wire (Green or Green With Yellow Trace). Figure 4.6-1. Power Distribution System Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 From 30 Unit }From 10 Unit J 1 ssv 1 aN n Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Figure 4.7-1. Power Panel and Branch Circuit Layout THIS FIGURE IS INSERTED IN POCKET AT END OF DOCUMENT 4-6 UNCLASS1 Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Incoming Three-Phase Power from Separately Derived System with Appropriate Overcurrent Protection Neutral Main Ground Stake UNCLASS1 Fl ED Computer Room Power Panel Safety Ground (Bolted to Enclosure) Legend: Phase Wires and Neutral Insulated Green Wire Ground Building Steel 0 Remotely Operated Power Service Disconnect Neutral BUS Circuit Breakers of Appropriate Size 208/240V 3-Phase (5-Wire) Branch 41/ Circuits 208/240V Single- Phase Figure 4.7-2. Typical Power Wiring Diagram 4-7 UNCLAgl Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 120V Single- Phase Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Section 5 LIGHTING REQUIREMENTS The lighting requirements provide for three separate lighting situations. One of these is for the work stations where display consoles are normally being used. The second is for the storage area. The third is for the remaining computer floor area. Individual light switches may be provided where light control switches are not considered practical or cost-effective. The use of group switches for lighting control is presented for considera- tion, not as a requirement for the operational facility. 5.1 Work Stations The operators at the work stations all have regular need to use the display consoles. Lighting should be provided over all work stations to reduce glare on the display consoles. Lighting is also needed to reference printed materials such as computer listings and users' manuals. Moderate lighting between 75-85 footcandles at desk height provides optimum illumination for visual tasks at these work stations. It is usually helpful if lighting is reasonably balanced, glare sources are eliminated, and display brightness is kept as low as possible while providing good legibility. 5.2 Storage Area The storage area needs to be accessed only to store and retrieve provisions such as computer paper, spare cartridges, paper for the console copy printers, and ribbons for the printers. The storage room should be provided with overhead lights providing 50-75 footcandles. Individual light switches or a local group switch could be provided at the entrance to the storage area so that the lights can be turned off when the area is not in use. 5-1 UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED 5.3 Remainder of Computer Floor The remainder of the computer floor normally requires very little lighting since there is no planned activity. However, illumination of 540 to 810 lux (50-75 footcandles), measured 760 millimeters (30 inches) above the floor, should be maintained. This lighting is recommended for use by maintenance personnel. A local light switch to leave night emergency lighting on when no maintenance is taking place in each of the bays would conserve energy. A master switch control panel could be located at the main entrance to the computer room. Each switch in the master panel would control a group of two (2) to four (4) local switches. Local light switches could be installed for each bay or every two (2) to four (4) light fixtures in groups of two (2) to four (4) switches using a low voltage control system. Figure 5.3-1 is a sample lighting layout and control scheme and Figure 5.3-2 is a wiring diagram for a typical lighting zone. This is only one of many ways of installing and controlling lights. Local con- tractor codes and preferences will dictate the specific method used. 5.4 Emergency Lighting The technical equipment and lighting systems should be powered from separate substations. Therefore, operations may continue during a power interruption which affects only the lighting circuits, providing adequate emergency lighting is available. The number and positioning of the emergency lights should be designed to ensure adequate illumination on the control input devices to allow the continuation of operations. UNCLA?IF=1 ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 C131Jiv13Nn 1 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 VI I J K L A/H I= El El CI S4 S1 El =I ECI:i d" sS45 El S2 S3 L".? S6 CI E] El S8 I= 0 M = I= CI CI CI CI El CI Bil Di E--( 1 I Legend: 1-1 = Light Fixture Controlled by Switch Si r---i = "Night Light" Left On At All Times n= Master Switch Panel Located At Room Entrance A/H El oti ) El( S10 ON043 MSP = MS1 Controls Lights SI-S3 MS2 Controls Lights S4-S6 II MS3 Controls Lights S7-S8 MS4 Controls Lights S9 MS4 Controls Lights SIO Figure 5.3-1. Sample Lighting Layout and Control Scheme Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 JissvlaNn ? Approved For Release 2007/09/07 : CIA-RDP84T00037R000500030001-3 24VAC MS1 MS1 ? General Electric RFS6 or Similar Si ? General Electric RCS2 or Similar R1 ? General Electric R R7 or Similar Diode? 1N4004 or Similar Si S2 \/ S3 R3 Figure 5.3-2. Wiring Diagram for a Typical Lighting Zone Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 dISSV1ON11 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Section 6 COOLING REQUIREMENTS 6.1 Operating Area Environmental Conditions The peripheral units of the installation are internally cooled with air circulated by blowers. Air intake is generally through the bottom on each unit. The total equipment air cooled heat load 694,942 BTU/HR is shown in Appendix B. To meet the cooling requirements of the ADP system approximately 58 tons of cooling air will be necessary, additional cooling will be required for other equipment, lighting and space losses in order to maintain an ambient environment as specified in Section 6.2, System Requirements. 6.1.1 Equipment Air Pressure The system should use predominantly recirculated air with a set minimum for introduction of fresh air for personnel. This minimum fresh air introduction will enable the machine area to be pressurized so that air leakage is always outward. This will help prevent dust entry from adjacent areas. 6.1.2 Air Cleanliness Requirements A high-efficiency filter rated according to ASHRAE Standard 52-76, should be installed to filter especially dusty air supplied to the computer room. An Electrostatic Plate Filter with minimum of 85% to 90% efficiency is recommended for this purpose. 6-1 UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved ForRelease2007/09/07 : CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED 6.2 System Requirements The air conditioning system should be designed to operate at 75?F (24?C) and 50% relative humidity at altitudes of up to 7000 feet (2,150m). This design point provides for the largest buffer'in terms of available system time, and it is also the condition which has been most suitable for personal comfort. If the A/C system fails or malfunctions, the computer will be able to operate until it reaches its specified limits. This increases the possibility of effecting A/CC repair before the computer must be shut down. The presently stated Annex air conditioning provisions will meet the above stated requirements. The air flow for each unit is specified in Appendix B. Commercial A/C generally provides 400 to 600 CFM per ton (12000 BTU). Any substantial deviations from the recommended design point in either direction, if maintained for long periods, will expose the system to malfunction from these external conditions (i.e. high relative humidity may cause improper feeding of paper, while low humidity may cause static discharge under some conditions). The following data summarizes the important air conditioning design criteria needed for the D/C Segment installation. Temperature Machine Operating 60? to 90?F (16? to 32?C) Relative Humidity 20% to 80% Max. Wet Bulb 78?F (26?C) Machine Design Nonoperating Criteria 50o to 110o 75oF (10? to 43?C) (24?C) 8% to 80% 50% 80?F (27?C) UNCLAg-gl Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED The air entering the machine must be within specified criteria for machine operation before power is turned on. Under no condition of operations may the machine input air and room air exceed 90oF (32oC). This is a maximum operating temperature limit and should not be considered a design condition. 6.2.1 Chilled Water Requirements The three (3) CPUs, two 3081s and one 3033, require chilled water to provide about 181,400 BTU/HR of cooling capacity. The chilled water is provided to the 3087 and 3037 Chilled Water Distribution Units (CDU) which then supply it to the CPUs. The proposed source of chilled water in the building will sufficiently meet this need. The chilled water line shall have taps at the required locations to supply the CDU's. Figure 6.2.1-1 shows the typical connections for customer supplied chilled water. 6.3 Temperature and Humidity Recording Instruments Ambient and underfloor temperature and humidity recording instruments should be installed in the D/C Segment area to provide a continuous record of temperature and humidity conditions in the machine area. If the air conditioning requirements are not met, a record is available to determine the extent and duration of the undesirable condition to indicate whether a drying out period is required. This may, in some cases, save machine downtime. 6-3 UNCLASSIFIED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT STAT STAT STAT Approved For Release 2007/09/07 : CIA-RDP84T00037R000500030001-3 Floor Cutout under CDU 5-Foot (152-cm) Long Hose Assembly** Hansen B6-K31 or Parker Hannifin 8H6-61 Plugm Hansen B6-H31 or Parker Hannifin BH6-60 Socket*** Return Supply Shut-Off Valves (2)1. Water Mains (2)1. Drain Valvet * Customer Should Install Two Supply and Two Return Connections to His Water Mains, and He Should Supply Applicable Flow Rate. CDUs Delivered With Three Supply and Three Return Hoses Can Use Two of Each, Provided That the Applicable Flow Rate is Supplied. ** Supplied: Six On 3067s With Serial Number Below 60140. Four On 3027s, 3037s, and 3067s With Serial Number 60140 and Higher. Two on 3087. Customer Supplied: Three of Each When Six Hoses Are Used. Two of Each When Four Hoses Are Used. Plug and Socket Types Are Interchangeable. t Customer Supplied. 6" (Typical) (152.4 mm) Figure 6.2.1-1. Typical Connections for Customer Supplied Chilled Water Annrnved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 ISSV1ON11 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Section 7 SAFETY PLANS 7.1 Fire Protection System It is recommended that in place of the planned pre-action water sprinkler system, a "Halon" or similar type system be installed to protect the contents of the planned computer room against fire. A pre-action or similar system can be used in non-technical equipment areas. A Life Safety Code compliance review must be conducted by a government facility emergency officer or a local fire authority. Government procedures should be established which would ensure the safety and health of employees and the security of materials during unusual circumstances. Provisions should also include information on occupational safety and health precautions and emergency medical aid available. 7.2 Hazardous Materials or Conditions There are no hazardous materials or conditions associated with the technical area equipment. 7.3 Moisture Detection A moisture/water detection system is required to detect underfloor moisture/water in the technical equipment areas. This system should provide a zoned audio-visual indication of underfloor moisture. 7.4 Cleaning Requirements If carpet floor coverings are used, they should be one of the variety marketed by carpet manufacturers as antistatic. Maintenance of all antistatic floor coverings (carpet, tile, etc.) should be in agreement with the individual supplier's recommendations. 7-1 UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Note: Vacuuming equipment used in the machine area should have a non- conductive hose and nozzle assembly. This safety precaution minimizes any possibility of static discharge or electrical shock. All internal equipment cleaning and maintenance will be handled by customer engineers under contract to perform said functions. UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Appendix A INSTALLATION PLANNING SCHEDULE AND CHECKLIST A-1 UNCLASS1 Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 This planning aid lists installation tasks and responsibilities in order of occurrence. If new site construction or major renovation is required, a considerably longer lead time and planning cycle will probably be required. Because data processing equipment requirements differ, use the following suggested schedule and list of tasks as a guide. Time Frame and Task or Consideration Eight Months Before Delivery 1. Verify quipment to be installed 2. Verify delivery and installation schedule for common-carrier telecommunication equipment. 3. Determine prospective location. Prepare a list of components, storage cabinets, work tables, chairs, desks, and other furnishings to be used. In planning space requirements, have you considered: a. Future expansion? b. Floor loading? c. Fire protection? d. Safety of personnel and records? e. Security? f. Acoustics? g. Vibration? h. Potential for electromagnetic interference? i. Possibility of atmospheric contamination? Adequate access route for movement of equipment from receiving area to computer room (ramps, doors, corridors, elevators, etc.)? k. Rigging required? 4. Make a scaled layout of the room and equipment (1.2.2). a. Service clearances and service access observed? b. Operator convenience and storage of forms and other supplies considered? No Scheduled Actual Action Completion Completion Required Date Date APPENDIX A Installation Planning Schedule and Checklist (1 of 5) A-2 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Time Frame and Task or Consideration c. Cable length limitations observed? d. Place orders for any no No Scheduled Actual Action Completion Completion Required Date Date upplied cables. STAT e. Channel priorities of devices considered? f. Layout of units (including furniture, etc.) made by using scaled templates? 5. Determine floor loading. 6. Use of raised floors. a. Adequate height for all equipment cables, plumbing, etc.? b. Raised floor surfaces free of exposed metal? c. Panel covering meets antistatic and resistance requirements? d. Extra pedestals required? e. Conductive path provided from metal raised floor (if used) to ground? 7. Determine if furniture antistatic characteristics meet resistance requirements. 8. Consider acoustic treatment of room. 9. Determine lighting requirements: a. General lighting adequate? b. Emergency lighting provided? 10. Determine air conditioning requirements: a. Size the air conditioning load by summing requirements for all heat loads (including personnel). b. Present facilities adequate? c. Humidity control required? d. Temperature and humidity recording devices provided? e. Air conditioning controlled by computer room power-off disconnect? 11. Determine power requirements: a. Voltage limits meet equipment specifications? b. Total load computed by using power profile information provided F-7 APPENDIX A Installation Planning Schedule and Checklist (2 of 5) A-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT STAT Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Time Frame and Task or Consideration c. Arrangements made for any additional services required? d. Computer power panels connected to feeders that serve no other loads? e. Computer power panels easily accessible, preferably in computer room? f. Circuit breakers labeled to identify which branch circuits they control? g. Computer power panel grounded to service entrance ground or suitable building ground? h. Branch circuit grounding wire insulated? i. Each branch circuit receptacle checked for proper phase rotation? J. Required room emergency power-off controls located at operator area as well as at main computer-room exit doors? k. Room emergency power-off provided for any equipment located remote from the main computer room? I. Lightning protection requirements considered? m. General purpose convenience outlets installed? n. Standby (backup) power system planned? Type? 12. If previous equipment must be retained and operated while new units are being installed: a. Additional power required? b. Temporary power circuits required? C. Additional temporary air conditioning required? d. Temporary layout planned for the transition period? e. External cables available? 13. Determine safety requirements: a. Computer in a fire-resistant area or room? b. Computer area isolated from hazardous pro- cesses and materials? c. Fire protection equipment available? d. Emergency plan for personnel and records evacuation established? No Scheduled Actual Action Completion Completion Required Date Date APPENDIX A Installation Planning Schedule and Checklist (3 of 5) A-4 Anuroved For Release 2007/09/07 : CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Time Frame and Task or Consideration 14. Is space planned for storage of data recording media within specifications? 15. Verify all contractor and vendor related activity schedules to ensure that facilities are ready when equipment is delivered. Six Months Before Delivery: Verify the following schedule: 1. Installation of power. 2. Installation of air conditioning. 3. Delivery of equipment. 4. Installation of equipment. Four Months Before Delivery: 1. Review the Eight-Month checklist. 2. Review equipment to be installed and finalize layout plan. 3. Submit the layout plan to so tha upplied cables can be ordered. 4. Verify plans for installing cables through permanent walls or floors. 5. Confirm all contractor and vendor schedules to ensure that schedules are compatible with equip- ment delivery. 6. Confirm that all telephone or PTT line installation schedules for Remote Support Facility and tele- communication equipment are compatible with equipment delivery schedules. Two Weeks Before Delivery: 1. Review the Four-Month checklist. 2. Verify completion of all contractor and vendor activity. 3. supplied cables should arrive. 4. Accept delivery of est equipment and furniture. No Scheduled Actual Action Completion Completion Required Date Date APPENDIX A Installation Planning Schedule and Checklist (4 of 5) A-5 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 STAT STAT STAT Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Time Frame and Task or Consideration One Week Before Delivery: 1. Review the Two-Week checklist. 2. Air conditioning system operational? 3. Arrangements made for balancing air conditioning system to computer room load immediately after equipment installation? 4. Power facilities installed? 5. Branch circuits tested for proper phase rotation? 6. Physical facilities (plastering, painting, decorating, lighting, ramps, floors, etc.) completed? 7. Communication facilities (voice and data lines, modems, couplers, etc.) installed and tested? 8. Remote Support Facility line and telephone handset installed and tested? 9. Cable holes cut in floor panels as shown on final layout? 10. Arrangements made for moving equipment from receiving area to final location? No Scheduled Actual Action Completion Completion Required Date Date APPENDIX A Installation Planning Schedule and Checklist (5 of 5) A-6 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Appendix B D/C SEGMENT TECHNICAL EQUIPMENT LISTING B-1 UNCLASSIFIED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Approved For Release 2007/09/07 :-CIA-RDP84T00037R000500030001-3 ? Appendix B. D/C Segment Technical Equipment Listing Model Description Qty Weight Per Unit Dimensions (inches) Elec Pwr Req'ts Cooling Req'ts Conn Type See APPX C-1 System Notes F S H 60 Hz KVA Unit Total 400 Hz KVA Unit Total BTU/Hr Water BTU/Hr Air CFM Unit Unit Total Unit Total 3033 U24 CPU 1 10,200 .. 720 61.70 90,000 128,850 5750 - 1,3 3036 1 Console 1 1,375 29.75 90 29.5 48 49 220 - 1 3037 1 Pwr + Coolant Dist 1 2,825 96.5 32 70 - D 3081 D24 CPU 2 6,090 ''.. 1.00 32.2. 40,200 80,400 9,600 19,200 850 DIG 3082 24 Processor Controller 2 2,720 38.25 72.25 33.25 28 70.5 1.40 3.4. 7,800 15,600 800 - 1 3087 1 Coolant Dist Unit 2 955 44.5 32 70.5 4.40 .2. 5,500 11,000 1,400 2,800 - - 1 3089 1 Pwr Unit 2 2,585 64.5 32 70.5 48.44 17,046 34,092 400 F 3203 5 High Speed Print 4 1,067 87.75 20 46.25 11.20 8,150 32,600 530 D 4 3274 210 Display Control 4 165 30 20 28.94 150 1,013 4,054 70 K/L/A2 2.4 3278 2 Display CRT 30 93 16 21 19 4.65 413 12,389 - H/J 2.4 3287 1 Printer 12 76 23.5 20 10 2.10 502 6,020 70 H/J 2,4 3350 A2 DASD 8 1,000 45 33.5 46.5 18.40 7,201 57,611 400 E 3350 B2 DASD 2 800 42 33.5 46.2 3.80 5,798 11,597 400 -- 1 3380 AA4 DASD 16 1,200 44.5 32 70.5 38.40 6,000 96,000 300 E 3380 84 DASD 10 1,000 40 32 70.5 22.00 5,099 50,980 220 - 1 3420 8 Tape Drive 13 800 30 29.5 67 28.45 6,853 89,082 250 1 3604 6 Control Display 2 26 .10 123 245 - H/J 4 3705 2F Comm Controller 3 1,920 32 36 60 15.00 11,802 35,406 880 D 3803 2 Tape Controller 4 600 30 28 60 7.20 5,642 22,569 360 E/F 2 3814 A3 Switch Mgt Sys 2 840 48.75 32 4725 3.00 4,846 9,692 640 A 3880 3 DASD Control 6 720 44.5 32 70.5 5.10 5,498 16,495 320 B 3880 11 DASD Control 4 950 44.5 32 70.5 6.80 5,498 21,993 320 B 3880 13 DASD Control 2 950 44.5 32 70.5 8.50 5,498 27,491 320 B TOTALS: 400 HZ Power Supplied by the 3089 Power Distribution Unit 3033 Dimensions F S H Frame 01, 03 76.5 31 78 Frame 02,04 72.0 30 78 Frame 05 63.5 32 78 Frame 06,07 34.0 32 78 233.55 KVA 61.70 KVA 3081 024 Dimensions 181,400 694,942 Frame S 38.25 71,5 7335 Frame X 37 62 73.75 Frame F 38.75 30 73.75 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 GENERAL NOTES I) KVA totals are a vector sum, not arithmetic sum 2) Total heat values are derived from total system power, not unit heat sum 3) If the CPU uses a motor generator, KVA and A/C data for attached units is in the CPU data 4) The values shown are for data processing equipment only. Addi- tional power and A/C loads should be added to compensate for non data-processing equipment and room losses 5) An emergency power off button should be installed in all computer rooms as stated in national elec. code, article 645 SYSTEM NOTES 1) Powered from another unit 2) Plug type optional see install manual 3) Values may vary depending on feature 4) See install manual for plug type or pwr cord style 5) Data entry required 6) 3360 select energy included 7) See install manual for site plan and prep guide for branch CRT projector time delay reqmt A ISSV13N11 rn STAT Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 UNCLASS1 Fl ED Appendix C D/C SEGMENT PLUG/CONNECTOR INFORMATION UNCLASSI Fl ED Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 J ISSV13N11 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Appendix C. D/C Segment Plug/Connector Information ? TYPE PROVIDED WITH MACHINE POWER CORD PROVIDED BY CUSTOMER SERVICE RATING INLINE INLINE REF PLUG CAP DESCRIPTION VOLTS AMP PHASE WIRES CONNECTOR RECEPTACLE 60 HZ A RS 3720 Waterproof 208/230 20 1 3 3913 3743 Al RS 3720-U1 Waterproof 115 20 1 3 3913-U1 3743-U1 A2 RS 3720-U2 Waterproof 208/230 15 1 3 3913-U2 3743-U2 A6 RS 3720-U6 Waterproof 208/230 20 1 3 3913-U6 3743-U6 B RS 3730 Waterproof 208/230 15 3 4 3914 3744 C RS 3750 Waterproof 208/230 30 1 3 3933 3753 D RS 3760 Waterproof 208/230 30 3 4 3934 3754 E RS 7328 Waterproof 208/230 60 3 4 7428 7324 F RS JPS1034H Waterproof 208/230 100 3 4 JCS1034H JRSA1034 H/JR H NEMA 5-15P Nonlocking 115 15 1 3 5-15R 5-15R J NEMA LS-15P Locking 115 15 1 3 L5-15R L5-15R K NEMA 6-15P Nonlocking 208/230 15 1 3 6-15R 6-15R L NEMA L6-15P Locking 208/230 15 1 3 L6-15R L6-15R M NEMA 5-20P Nonlocking 115 20 1 3 5-20R 5-20R N NEMA L5-20P Locking 115 20 1 3 L5-20R L5-20R Q NEMA L6-20P Locking 208/230 20 1 3 L6-20R L6-20R R NEMA 5-30P Nonlocking 115 30 1 3 5-30R 5-30R 400 HZ G RS JPS1534LR Waterproof 208/230 150 3 4 JCS1534LK JRSA1534LK/JR - RS ? Russell and Stull NEMA ? National Elect Mfr Assoc. Config. No. Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 d issviaNn rn 0 J ISSV13N11 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 Appendix C. D/C Segment Plug/Connector Information ? TYPE PROVIDED WITH MACHINE POWER CORD PROVIDED BY CUSTOMER SERVICE RATING INLINE INLINE REF PLUG CAP DESCRIPTION VOLTS AMP PHASE WIRES CONNECTOR RECEPTACLE 60 HZ A RS 3720 Waterproof 208/230 20 1 3 3913 3743 Al RS 3720-U1 Waterproof 115 20 1 3 3913-U1 3743-U1 A2 RS 3720-U2 Waterproof 208/230 15 1 3 3913-U2 3743-U2 A6 RS 3720-U6 Waterproof 208/230 20 1 3 3913-U6 3743-U6 B RS 3730 Waterproof 208/230 15 3 4 3914 3744 C RS 3750 Waterproof 208/230 30 1 3 3933 3753 D RS 3760 Waterproof 208/230 30 3 4 3934 3754 E RS 7328 Waterproof 208/230 60 3 4 7428 7324 F RS JPS1034H Waterproof 208/230 100 3 4 JCS1034H JRSA1034 H/JR H NEMA 5-15P Nonlocking 115 15 1 3 5-15R 5-15R J NEMA LS-15P Locking 115 15 1 3 L5-15R L5-15R K NEMA 6-15P Nonlocking 208/230 15 1 3 6-15R 6-15R L NEMA L6-15P Locking 208/230 15 1 3 L6-15R L6-15R M NEMA 5-20P Nonlocking 115 20 1 3 5-20R 5-20R N NEMA L5-20P Locking 115 20 1 3 L5-20R L5-20R Q NEMA L6-20P Locking 208/230 20 1 3 L6-20R L6-20R R NEMA 5-30P Nonlocking 115 30 1 3 5-30R 5-30R 400 HZ G RS JPS1534LR Waterproof 208/230 150 3 4 JCS1534LK JRSA1534LK/JR - RS ? Russell and Stull NEMA ? National Elect Mfr Assoc. Config. No. Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 d issviaNn rn 0 FIGURE 4.7-1 POWER PANEL AND BRANCH CIRCUIT DIAGRAM SCALE: 1/4" = 1' D/C SEGMENT: 8,500 SQ FT REMAINING AREA: 16,500 SQ FT Approved For Release 2007/09/07 : CIA-RDP84T00037R000500030001-3 32782 3278-I 32784 3814-2 3278-2 32;B-3 3278-4 3278-5 3203-I 3390-I POVER PA1EL 3380-I 9 3880-2 4) 3380-2 33E0-2 3380-2 3380- I 3274 Approved For Release 2007/09/07: CIA-RDP84T00037R000500030001-3 NOTE' 0 HARDWIRED FROM REMOTE MOTOR [IERATOR 0 RECEPTACLES WITHIN DOTTED BOUNDRIES ARE SUPPLIED BY POWER WITHIN SAME BOUNDRIES. NPIC - 85 2/16/82