EDAS00AASC00AAS00P
Local Convergence Point Enclosure with Splice Capabilities Sealed, 144 F Ribbon
General Specifications
| Product Number | EDAS00AASC00AAS00P |
| Product Type | FTTx Cabinets |
| Cable Type | Interconnect |
| Fiber Category | Single-mode (OS2) |
| Mounting Type | Buried |
| Application | Carrier Networks |
| Installation Methods | Underground |
Standards
| RoHS | Free of hazardous substances according to RoHS 2011/65/EU |
Design
| Number of Distribution Cables | 1 |
| Splice Tray Type | Standard splice tray |
| Splitter Module Quantity | 6 |
| Cabinet Fiber Capacity | 144 |
| Number of Cable Entries | 2 |
| Cable entry type | External and Internal strain-relief bracket |
| Pigtail Length | 4 m (13.12 ft) |
| Adapter Type Master Level | SC APC |
| Adapter Color Front | Green |
| Cable Entry Direction | Bottom-right |
| Connector Configuration | SC |
| Distribution Cable Configuration | 1 preconnectorized distribution cable |
| Distribution Cable Type | Ribbon Pigtails |
| Pigtail Type | Ribbon |
| Splice Tray Capacity Mass Fusion | 4 |
| Number of Fibers in Input Cable | 12 |
Design - Adapter
| Housing Color | Green |
| Housing Material | Plastic |
| Adapter Style | Standard |
| Adapter Type | SC |
Optical Specification - Hardware
| Insertion Loss-S | ≤ 0.40 dB |
Connector Specs
| Housing Color | Green |
| Ferrule Material | Ceramic |
Ordering Information
| Units per Delivery | 1/1 |
Compact
Contained inside a 9 in x 28 in dome
Fiber density
Up to 144 distribution fibers
Splice capabilities
No need for a separate closure, fibers can be spliced inside the same cabinet
Single Fiber
Three trays allow a total of 144 fibers
Ribbon
One tray allows a total of 144 fibers
Splitter/WDM
Six slots for either style modules (dual 1x4 or 1x8 splitters occupy a single slot)
Pass through
Any of the 12 feeder fibers may be passed through to discrete distribution
Sleek design fits inside a PLP Closure
Can go in a vault below ground, pedestal or aerial
Unique COC design
Allows the use of internal splice capability avoiding the need of a separate closure in the network