A. Targets Quantities meet DD9, applicable TC -, and CEHNC Design Guide 0-- Oriented to face firing line or firing positions/points B. Roads-Service, Lanes Number of lanes meets DD 9, applicable TC -, and CEHNC Design Guide 0--. Note: Two tank trails per lane for armor ranges Trails and service roads provide adequate access to targets for maintenance C. Line of Sight Targets can be adequately seen from pertinent firing positions to allow 90% of target to be viewed Vegetation does not obscure target positions Left and right limit markers are outside greatest angle of fire from firing positions/points D. Testing Results-provided to the local government construction representative Secondary power cabling tests Data cabling tests including fiber optic and/or copper network (ie. Cate) Target berm compaction tests. Grounding tests results. Control building (ie. ROC) has Ohms or less earth resistance E. Drawings Contract drawings are available on-site Date: Common Items "As-builts" will be made available to government representative after completed construction TES Page of
A. Power Control Tower Minimum 0V is provided via incoming service power. SPD is provided for the DTR and Range Control System (RCS) panelboard. Receptacles (0V, 0A) are provided for RCS and printer along front wall of control room under work table. Two dedicated circuits (0V, 0A) provided near the DTR (two duplex or one quadplex receptacle). B. Data Termination Rack (DTR) DTR is an enclosed "Dx"Wx"H free standing rack with 9" rack frame. " space is available to front and rear and one side. DTR is located a minimum of " from the wall on the remaining side DTR rack is properly grounded to TMGB or a single point ground via a minimum # AWG insulated ground cable. "x" wireway is provided under the floor or along the side wall from the DTR location to the RCS workstation located along the front wall. Data cabling from downrange is only a single type entering DTR (ie. fiber or Cate). Data cabling armor or shield is properly grounded as close as practical to the point of entrance. Data cabling is properly terminated (ie. fiber-sc connectors, Cate-female RJ connectors). Copper cabling from downrange also has data network surge protection with V clipping voltage installed. Data cabling in DTR is neat and orderly and adequately 9 anchored. meter minimum service loop of data cabling is provided in 0 DTR. Data cables are be permanently tagged identifying destination (ie. SIT X or lane X). Fiber cabling has no visible microbending, pinching, or other marking to indicate fiber damage. Patch panels have labeling identifying each cable's destination. Buffer tube fanout kits and furcation units are installed and adequately anchored in DTR. Conduits entering DTR are properly sealed to prevent entry of moisture and rodents. Innerduct in conduits or spare conduits are provided from the DTR to downrange. TES Page of
Control Tower C. Department of Information Management (DOIM) DOIM cabling is not terminated or entering the DTR. RJ jacks for DOIM cabling are properly labeled and identified as "Common User". D. Miscellaneous Back wall of control room is windowless. Work table surface is " deep, the width of the tower and has a minimum of one slot for cable access. HVAC is provided in an appropriate location. Pull wires are provided in all empty conduits. Lightning protection is provided. Red lights are provided on separate switching from other lighting. (Applicable if range is used for night firing). Limit marker switch is provided and labeled properly. Note: Only provide limit marker switch on non-maneuverable ranges. E. Digital Range Towers (-story towers) A wire way system provides connectivity from the DTR to the workstation at the front of each floor. The wireway systems on each floor are interconnected. Minimum of strands of single mode fiber optic cable is installed between the DTR in the ROC-AAR and the DTR in the Control Tower. There are counters at the front of the rooms on each floor. Provide a sleeve for antennas on the floor where the DTR is installed. Verify there are provisions for mounting antennas, either on the tower or on a separate antenna tower. TES Page of
A. Miscellaneous After Action Review (AAR) Adequate space is available for target installer work stations. Power receptacles are provided on dedicated 0 amp circuits for work stations. Minimum of strands of single mode fiber optic cable is installed between the DTR in the ROC and a wall mounted patch panel located in the AAR. Lightning protection is provided (UL label is provided?) All empty conduits shall have a pull string Exterior lighting is provided on separate switching located near points of egress Exterior or interior white and red lights have separate switching. Emergency lighting and exits signs are provided IAW codes. Red lighting is provided near white fixtures in observation rooms, control rooms, and on exterior walls. B. Development Room, Theatre, and Control Room TES No counters are provided in development area(s). Receptacles for work stations are fed on dedicated 0-amp circuits. There should be one duplex receptacle per workstation. All metal conduits and cable trays shall be bonded together and grounded. A 0A duplex receptacle is provided near each overhead projector location in the theater area(s). A continuous " minimum ladder type wireway extends from fiber optic cable patch panel to the OPA installed racks and equipment enclosures (DTRs). A /" conduit is provided from a junction box at each overhead projector location in the theater area to the control rooms. A /" conduit is provided from a junction box " above finished floor near each projection screen in the theater area to the cable tray. HVAC is provided in the development, theater, and control rooms. Receptacles (0V, 0A) are provided for each AAR editing workstation. Two dedicated circuits (0V, 0A) to two duplex or a 9 quadplex receptacle are provided to each DTR. (DTRs are provided by OPA after MCA project complete.) AAR Page of
After Action Review (AAR) C. Patch Panel Fiber optic cable from ROC is terminated in a wall mounted port patch panel. SC connector panels in the patch panel are individually and permanently labeled showing cable destinations. Buffer tube fan-out kits installed and furcation units anchored in patch panel connector housing. Optical fiber cables meet CEHNC 0-- specifications. 9 Minimum bend radius of optical cable has not been exceeded (0 times the diameter of the cable under no load conditions). There is also no micro bending of optical cable (pinched). Optical fiber cables are free of splices between termination points. Fiber optic cables are permanently tagged showing cable destinations. Vertical and horizontal cable management is clean, neat, and orderly. Each optical fiber cable armor jacket is bonded to ground. A minimum of meter of optical fiber cable left coiled 0 above patch panel connector housings. All data cables at every termination point are labeled with a permanent label. A clear demarcation exists between DOIM cable and training cables. Communication conduits are stubbed up underneath patch panel and grounded IAW CEHNC 0--. Innerduct installed where optical fiber cable enters the building in rigid conduit. TES AAR Page of
A. Miscellaneous Emplacement size: Front wall height is ". Front wall length is ". Floor width is ". A minimum of 9" of clearance is provided to the rear of the emplacement allowing space for the target in the down position. Adequate space is available in emplacement for target mechanism. Berm fill is level with the top of the protective timber at the front of the emplacement and free of holes. Emplacements are sloped to the rear for drainage. All emplacements and enclosures are clean of dirt and debris. All power and data enclosures are mounted no higher than inches from top of wall. Target power outlet is () NEMA L-0R and () NEMA L- 0R with wet location covers. GFCI maintenance receptacle (0A, 0V) is provided with 9 an in-use weatherproof cover. All boxes and enclosures have weatherproof covers 0 installed A -foot free length coil of # AWG bare copper ground cable is provided above ground from the grounding rod for future bonding to target mechanism. Emplacement is permanently labeled (ie. SIT X) and power center panel schedule agrees with label. All data and power conduits are routed to the rear or side of emplacement. B. Loadcenter (LC) 0/0V is provided via feeder circuit. Size of LC is maximum "Hx"Wx"D. LC has SPD installed properly A pole 0A circuit breaker is provided for the target power outlet. LC is properly grounded via a minimum # AWG bare copper ground cable to SIT ground rod. Location of LC is adequate to allow lid to be opened. Date: Stationary Infantry Target (SIT) Panel schedule is provided which indicates circuit designations and where feeder circuit originates (ie. SIT X and panelboard PB-X) TES Page of
Stationary Infantry Target (SIT) C. Master Target Data Panel (MTDP) and Target Data Panel (TDP) Size of MTDP is "x"x" - TDP is minimum "x"x" Type of MTDP/TDP enclosure is galvanized steel NEMA. NEMA rating is maintained after installation (ie. screws do not penetrate the enclosure). The gasket is one piece and seamless in the enclosure cover. Cable seal fittings are properly installed on cables entering MTDP/TDP from underground. Location of MTDP/TDP is adequate to allow lid to be opened. A back plate is installed that covers the entire back of the MTDP/TDP. A 0"x0" space is available for target installer equipment in MTDP. "x" space required in TDP. Data cabling is installed neatly and orderly and properly anchored or fastened in the MTDP/TDP. 9 Fiber cabling is armored and properly grounded. 0 Fiber is terminated with SC connectors. Fiber is permanently tagged and labeled (ie. To SIT X or From SIT X). Fiber SC connectors are terminated on a patch panel with number of ports to support total number of fiber strands terminated. Fiber patch panel is mounted to the back plate. Minimum meter service loop of fiber cabling is provided and properly secured inside MTDP. Fiber cabling has no visible microbending, pinching, or other marking to indicate fiber damage. Fiber terminations allow adequate space for target installer to jumper to target installer equipment. Buffer tube fanout kit and furcation unit for the fiber cabling is anchored or securely fastened. A standard duplex receptacle (0A, 0V) is mounted to the back plate and properly grounded. 9 The duplex receptacle is not GFCI protected. 0 Cate or better cabling is shielded and properly grounded. Each end of Cate shall be terminated on a data network surge protector with a V-0V clamping voltage. Each surge protector shall not be larger than "x". Cate cable is terminated on a 0-block style modular outlet. RJ- connertor patch cable connects modular outlet to surge protector. MTDP/TDP is grounded to the target ground rod via # AWG bare copper ground cable. TES Page of
Stationary Infantry Target (SIT) D. SIT Clusters Data cables from non-mtdp emplacements are home run to MTDP emplacements. Data cables from MTDP emplacements shall serve no more than non-mtdp emplacements. Loadcenters feed a maximum target mechanisms. SIT Cluster emplacements meet all other applicable criteria to SIT emplacements. E. Widened SIT Emplacements Emplacement size: Front wall height is ". Front wall length is 0". Floor width is ". Target power outlet is () NEMA L-0R and () NEMA L- 0R with wet location covers. Target power outlets are located to serve two separate target mechanisms. Outlets should be configured such that () L-0R and () L-0R outlets serve their respective mechanism. -foot free length coils of # AWG bare copper ground cable is provided above ground from the grounding rod for future bonding to each target mechanism. TES Page of
A. Miscellaneous Emplacement size. Front wall is ". Front length is 09" (9') for meter MIT and 9" (') for 0 meter MIT. Floor width is ". A minimum of " of clearance is provided to the rear of the emplacement allowing space for the target in the down position. Adequate space is available in emplacement for target mechanism. Berm fill is level with the top of the protective timber at the front of the emplacement and free of holes. Emplacements are sloped to the rear for drainage. All emplacements and enclosures are clean of dirt and debris. All power and data enclosures are mounted no higher than inches from top of wall. Target power outlet is () NEMA L-0R and () NEMA L- 0R with wet location covers. GFCI maintenance receptacle (0A, 0V) is provided with 9 an in-use weatherproof cover. All boxes and enclosures have weatherproof covers 0 installed A 0-foot free length coil of # AWG bare copper ground cable is provided above ground from the grounding rod for future bonding to target mechanism. Emplacement is permanently labeled (ie. MIT X) and power center panel schedule agrees with label. All power and data enclosures are located at the end of the MIT nearest the direction of fire. All enclosures do not exceed 9" from end of MIT All data and power conduits are routed to the rear or side of emplacement. B. Loadcenter (LC) 0/0V is provided via feeder circuit LC is minimum "-" from emplacement floor LC has SPD installed properly A pole 0A circuit breaker is provided for the target power outlet LC is properly grounded via a minimum # AWG bare copper ground cable to MIT ground rod Location of LC is adequate to allow lid to be opened. Date: Moving Infantry Target (MIT) Panel schedule is provided which indicates circuit designations and where feeder circuit originates (ie. MIT X and panelboard PB-X) TES Page 9 of
Moving Infantry Target (MIT) C. Master Target Data Panel (MTDP) and Target Data Panel (TDP) Size of MTDP is "x"x" - TDP is minimum "x"x" Type of MTDP/TDP enclosure is galvanized steel NEMA. NEMA rating is maintained after installation (ie. screws do not penetrate the enclosure). The gasket is one piece and seamless in the enclosure cover. Cable seal fittings are properly installed on cables entering MTDP/TDP from underground. Location of MTDP/TDP is adequate to allow lid to be opened. A back plate is installed that covers the entire back of the MTDP/TDP A 0"x0" space is available for target installer equipment in MTDP. "x" space required in TDP. Data cabling is installed neatly and orderly and properly anchored or fastened in the MTDP/TDP 9 Fiber cabling is armored and properly grounded. 0 Fiber is terminated with SC connectors Fiber is permanently tagged and labeled (ie. To MIT X or From SIT X) Fiber SC connectors are terminated on a patch panel with number of ports to support total number of fiber strands terminated. Fiber patch panel is mounted to the back plate Minimum meter service loop of fiber cabling is provided and properly secured inside MTDP Fiber cabling has no visible microbending, pinching, or other marking to indicate fiber damage. Fiber terminations allow for adequate space for target installer to jumper to target installer equipment Buffer tube fanout kit and furcation unit for the fiber cabling is anchored or securely fastened. A standard duplex receptacle (0A, 0V) is mounted to the back plate and properly grounded. 9 The duplex receptacle is not GFCI protected. 0 Cate or better cabling is shielded and properly grounded. Each end of Cate shall be terminated on a data network surge protector with a V clipping voltage. Each surge protector shall not be larger than "x". Multiple surge protectors may need to be mounted to an angle bracket to minimize space used in MTDP/TDP Cate cable is terminated on a 0-block style modular outlet. RJ- connertor patch cable connects modular outlet to surge protector. Ground the MTDP/TDP to the target ground rod via # AWG bare copper ground cable. TES Page 0 of
A. Miscellaneous Emplacement size: Front wall height is " (" aerial). Front wall length is " (" flank). Adequate space is available in emplacement for target mechanism. Berm fill is sloped " above wall level and tapers to level with protective timber at the front of the emplacement and free of holes. Emplacements are sloped to the rear for drainage. All emplacements and enclosures are clean of dirt and debris. All power and data enclosures are mounted no higher than inches from top of wall. Target power outlet is () NEMA L-0R and () NEMA L- 0R with wet location covers. GFCI maintenance receptacle (0A, 0V) is provided with an in-use weatherproof cover. All boxes and enclosures have weatherproof covers 9 installed A 0-foot free length coil of # AWG bare copper ground 0 cable is provided above ground from the grounding rod for future bonding to target mechanism. Emplacement is permanently labeled (ie. SAT X) and power center panel schedule agrees with label. All data and power conduits are routed to the rear or side of emplacement. B. Loadcenter (LC) 0/0V is provided via feeder circuit LC is minimum "-" from emplacement floor LC has TVSS installed properly A pole 0A circuit breaker is provided for the target power outlet LC is properly grounded via a minimum # AWG bare copper ground cable exothermic welded to SIT ground rod Location of LC is adequate to allow lid to be opened. Date: Stationary Armor Target (SAT) Panel schedule is provided which indicates circuit designations and where feeder circuit originates (ie. SAT X and panelboard PB-X) TES Page of
Stationary Armor Target (SAT) C. Master Target Data Panel (MTDP) and Target Data Panel (TDP) Size of MTDP is "x"x" - TDP is minimum "x"x" Type of MTDP/TDP enclosure is galvanized steel NEMA. NEMA rating is maintained after installation (ie. screws do not penetrate the enclosure). The gasket is one piece and seamless in the enclosure cover. Cable seal fittings are properly installed on cables entering MTDP/TDP from underground. Location of MTDP/TDP is adequate to allow lid to be opened. A back plate is installed that covers the entire back of the MTDP/TDP A 0"x0" space is available for target installer equipment in MTDP. "x" space required in TDP. Data cabling is installed neatly and orderly and properly anchored or fastened in the MTDP/TDP 9 Fiber cabling is armored and properly grounded. 0 Fiber is terminated with SC connectors Fiber is permanently tagged and labeled (ie. To MIT X or From SIT X) Fiber SC connectors are terminated on a patch panel with number of ports to support total number of fiber strands terminated. Fiber patch panel is mounted to the back plate Minimum meter service loop of fiber cabling is provided and properly secured inside MTDP Fiber cabling has no visible microbending, pinching, or other marking to indicate fiber damage. Fiber terminations allow for adequate space for target installer to jumper to target installer equipment Buffer tube fanout kit and furcation unit for the fiber cabling is anchored or securely fastened. A standard duplex receptacle (0A, 0V) is mounted to the back plate and properly grounded. 9 The duplex receptacle is not GFCI protected. 0 Cate or better cabling is shielded and properly grounded. Each end of Cate shall be terminated on a data network surge protector with a V clipping voltage. Each surge protector shall not be larger than "x". Multiple surge protectors may need to be mounted to an angle bracket to minimize space used in MTDP/TDP Cate cable is terminated on a 0-block style modular outlet. RJ- connertor patch cable connects modular outlet to surge protector. Ground the MTDP/TDP to the target ground rod via # AWG bare copper ground cable. TES Page of
A. Miscellaneous Emplacement size: Front wall height is 0" (" aerial). Adequate space is available in emplacement for target mechanism. Berm fill is sloped " above wall level and tapers to level with protective timber at the front of the emplacement and free of holes. Emplacements are sloped to the rear for drainage. All emplacements and enclosures are clean of dirt and debris. All power and data enclosures are mounted no higher than inches from top of wall. Target power outlet is () NEMA L-0R and () NEMA L- 0R with wet location covers. GFCI maintenance receptacle (0A, 0V) is provided with an in-use weatherproof cover. All boxes and enclosures have weatherproof covers 9 installed A -foot free length coil of #/0 AWG bare copper ground 0 cable is provided above ground from the grounding rod for future bonding to target mechanism. Emplacement is permanently labeled (ie. MAT X) and power center panel schedule agrees with label. All data and power conduits are routed to the rear or side of emplacement. Track bed/service road width is a minimum of. meters ('). MAT track bed/service road grade does not exceed. degrees (0 percent). The first 0 meters ( feet) of MAT roadbed (at its power source end) and the last 0 meters ( feet) of track has a grade of 0 degrees ± percent. The minimum turning radius of curved track is. meter (00 feet). B. Loadcenter (LC) 0/0V is provided via feeder circuit LC is minimum "-" from emplacement floor LC has TVSS installed properly A pole 0A circuit breaker is provided for the target power outlet LC is properly grounded via a minimum # AWG bare copper ground cable exothermic welded to MIT ground rod Location of LC is adequate to allow lid to be opened. Date: Moving Armor Target (MAT) Panel schedule is provided which indicates circuit designations and where feeder circuit originates (ie. MAT X and panelboard PB-X) TES Page of
Moving Armor Target (MAT) C. Master Target Data Panel (MTDP) and Target Data Panel (TDP) Size of MTDP is "x"x" - TDP is minimum "x"x" Type of MTDP/TDP enclosure is galvanized steel NEMA. NEMA rating is maintained after installation (ie. screws do not penetrate the enclosure). The gasket is one piece and seamless in the enclosure cover. Cable seal fittings are properly installed on cables entering MTDP/TDP from underground. Location of MTDP/TDP is adequate to allow lid to be opened. A back plate is installed that covers the entire back of the MTDP/TDP A 0"x0" space is available for target installer equipment in MTDP. "x" space required in TDP. Data cabling is installed neatly and orderly and properly anchored or fastened in the MTDP/TDP 9 Fiber cabling is armored and properly grounded. 0 Fiber is terminated with SC connectors Fiber is permanently tagged and labeled (ie. To MIT X or From SIT X) Fiber SC connectors are terminated on a patch panel with number of ports to support total number of fiber strands terminated. Fiber patch panel is mounted to the back plate Minimum meter service loop of fiber cabling is provided and properly secured inside MTDP Fiber cabling has no visible microbending, pinching, or other marking to indicate fiber damage. Fiber terminations allow for adequate space for target installer to jumper to target installer equipment Buffer tube fanout kit and furcation unit for the fiber cabling is anchored or securely fastened. A standard duplex receptacle (0A, 0V) is mounted to the back plate and properly grounded. 9 The duplex receptacle is not GFCI protected. 0 Cate or better cabling is shielded and properly grounded. Each end of Cate shall be terminated on a data network surge protector with a V clipping voltage. Each surge protector shall not be larger than "x". Multiple surge protectors may need to be mounted to an angle bracket to minimize space used in MTDP/TDP Cate cable is terminated on a 0-block style modular outlet. RJ- connertor patch cable connects modular outlet to surge protector. Ground the MTDP/TDP to the target ground rod via # AWG bare copper ground cable. TES Page of
A. Miscellaneous Façade layout is IAW CEHNC 0--. (see drawing FAC-A-0). Center post and beams across to the two SIT emplacements atop has adequate ballistic protection for outlets and future wiring by others weatherproof power outlets are installed on the center post for the two SITs atop the façade (two NEMA L-0R and two NEMA L-0R) with wet location covers Cate cables terminated with male RJ connectors are installed in a single gang weather proof enclosure with a blank cover and mounted on the center post for the two SITs atop the façade. weatherproof power outlets are installed on the center post for the SIT on the bottom level of the façade (one NEMA L-0R and one NEMA L-0R) with wet location covers Cate cable terminated with a male RJ connector is installed to a single gang weather proof enclosure with a blank cover and mounted on the center post for the SIT on the bottom level of the façade. Grounding cables (#AWG minimum bare copper) are installed to all the metal SIT coffins and terminated to the ground system In each metal SIT coffin a foot length of ground cable (# AWG minimum bare copper) is terminated to the coffin and left coiled for future connection to the target mechanism 9 Each SIT has ballistic protection to keep from being shot 0 All metal parts are grounded properly The façade has double pole circuit breakers, one fore each target outlet. Typically two load centers are provided at the façade. A rubber matting is provided on the front of the façade to prevent the wood from shattering from the impact of grenades IAW CEHNC 0--. B. Loadcenter (LC) 0/0V is provided via feeder circuit. Size of LC is maximum "Hx"Wx"D. LC has SPD installed properly Date: Façade The façade has double pole circuit breakers, one for each target outlet. Typically two load centers are provided at each façade. LC is properly grounded via a minimum # AWG bare copper ground cable to SIT ground rod. Location of LC is adequate to allow lid to be opened. Panel schedule is provided which indicates circuit designations and where feeder circuit originates (ie. SIT X and panelboard PB-X) There are no LCs installed in front of the door. Targets cannot be installed directly in front of a LC. TES UAC Page of
Façade C. Master Target Data Panel (MTDP) and Target Data Panel (TDP) Size of MTDP is "x"x" - TDP is minimum "x"x" Type of MTDP/TDP enclosure is galvanized steel NEMA. NEMA rating is maintained after installation (ie. screws do not penetrate the enclosure). The gasket is one piece and seamless in the enclosure cover. Cable seal fittings are properly installed on cables entering MTDP/TDP from underground. Location of MTDP/TDP is adequate to allow lid to be opened. A back plate is installed that covers the entire back of the MTDP/TDP. A 0"x0" space is available for target installer equipment in MTDP. "x" space required in TDP. Data cabling is installed neatly and orderly and properly anchored or fastened in the MTDP/TDP. 9 Fiber cabling is armored and properly grounded. 0 Fiber is terminated with SC connectors. Fiber is permanently tagged and labeled (ie. To SIT X or From SIT X). Fiber SC connectors are terminated on a patch panel with number of ports to support total number of fiber strands terminated. Fiber patch panel is mounted to the back plate. Minimum meter service loop of fiber cabling is provided and properly secured inside MTDP. Fiber cabling has no visible microbending, pinching, or other marking to indicate fiber damage. Fiber terminations allow adequate space for target installer to jumper to target installer equipment. Buffer tube fanout kit and furcation unit for the fiber cabling is anchored or securely fastened. A standard duplex receptacle (0A, 0V) is mounted to the back plate and properly grounded. 9 The duplex receptacle is not GFCI protected. 0 Cate or better cabling is shielded and properly grounded. Each end of Cate shall be terminated on a data network surge protector with a V-0V clamping voltage. Each surge protector shall not be larger than "x". Cate cable is terminated on a 0-block style modular outlet. RJ- connertor patch cable connects modular outlet to surge protector. MTDP/TDP is grounded to the target ground rod via # AWG bare copper ground cable. TES UAC Page of
A. Camera Data Enclosure (CDE) Size is minimum 'x'x" (9x0x0) Type of CDE is galvanized steel NEMA. NEMA rating is maintained after installation. A back plate is installed that covers the entire back of the CDE. A standard duplex receptacle (0A, 0V) is mounted to the back plate and properly grounded. Receptacle is mounted in lower left or right corner of CDE. Duplex receptacle inside CDE is not GFCI protected. Fiber cabling is armored and grounded properly. Fiber is terminated with SC connectors Fiber is permanently tagged and labeled (ie. Homerunned to ROC) Fiber SC connectors are terminated on a patch panel, the 9 number of ports is sufficient to accomodate the number of strands terminated in the CDE. Fiber patch panel is mounted to the back plate in the CDE, 0 mounted in an area near the bottom right or left of the CDE opposite the receptacle. Minimum meter service loop of fiber cabling is provided and properly secured inside CDE. Fiber cabling has no visible microbending, pinching, or other marking to indicate fiber failure. Fiber terminations allow adequate space for target installer to jumper to target installer equipment. Adequate space is available in CDE for target installer equipment. Buffer tube fanout kit and furcation unit for the fiber cabling is anchored or securely fastened. Location of CDE allows proper opening of CDE lid and adequate work space for target installer. Separate conduits are provided for power and data into CDE. All conduits entering CDE are properly sealed to prevent entry of moisture and rodents. CDE is properly bonded to ground system for camera tower 9 via minimum # AWG bare copper ground. Fiber cables are free of underground splices from control 0 building to CDE. B. Exterior Camera Power Loadcenter with spare breakers is provided via a 0/0V feeder circuit. Surge Protective Device (SPD) is provided locally and installed properly. Load center is properly grounded. C. Line of Sight (LOS) Date: Exterior Camera The camera tower is located such that it will not be hit by weapon fire. D. Control Tower Mounted Camera A " X " steel mounting plate is provided on section of hand rail. This plate is for camera provided by others Steel mounting plate is secured to prevent movement. Additional bracing of hand rail may be required. TES Page of
A. Date: Limit Markers Miscellaneous Limit marker locations are visible from pertinent firing positions. Lighted or heated for night firing. Red lighting is used on the face of the limit marker or limit marker face is illuminated with white lighting shining upon it. 0V, 0A, duplex GFCI receptacle is provided near the base of the limit marker. Controls are provided. In the ROC for non-maneuverable range and locally at the LM or nearby location for maneuverable. Any ground light, receptacle, and control switch are located or protected to avoid direct fire. TES Page of