Issue link: http://www.e-digitaleditions.com/i/495073
F o r p r o d u c t i n f o r m a t i o n v i s i t w w w . h e l l e r m a n n . t y t o n . c o m o r c a l l 8 0 0 . 5 3 7 . 1 5 1 2 29 H E L L E R M A N N T Y T O N RapidNet MTP VHD direct termination with 2 mated pairs, a total of 1dB connector loss MTP to MTP trunk design required with 4 mated pairs, a total of 2dB connector loss Insertion loss comparison Worst case 0.5dB insertion loss per mated pair MTP to MTP trunk connections versus RapidNet MTP direct termination MTP, LC or SC user interface MTP, LC or SC user interface RapidNet MTP VHD direct termination with 2 mated pairs, a total of 1dB connector loss MTP to MTP trunk design required with 4 mated pairs, a total of 2dB connector loss Insertion loss comparison Worst case 0.5dB insertion loss per mated pair MTP to MTP trunk connections versus RapidNet MTP direct termination MTP, LC or SC user interface MTP, LC or SC user interface Insertion Loss Comparison The HellermannTyton Direct Connect solution provides reduced system insertion loss in the channel compared with the traditional plug-and-play style cassettes. Utilizing pre-terminated cassettes, the loss budget required to connect the cassettes is eliminated, providing much lower losses and an organized connection point. This solution offers the opportunity to either extend the link length or include additional connections elsewhere to maximize the link routing. In applications where it is not feasible or desirable to install pre-terminated cassettes, a Semi-Direct Connect solution can be utilized to improve performance by incorporating a HellermannTyton pigtailed cassette on one side, which provides a smaller, MTP breakout, that can connect to either fiber adapter panels or to traditional cassette solutions. Overall, the Direct Connect Solution will save additional time and money, improve link loss and provide peace of mind to the network integrity. 10G - 40G - 100G VHD is Migration Ready FIGURE 2 Indicates the 40GbE system is the same installed backbone OM3 or OM4 fiber. The IT technician only needs to switch the MTP to LC patch cable with the MTP to MTP trunk at both ends of the cassettes. Note: One end of the MTP to MTP fiber cable connection must be reversed in order to achieve the proper transmit and receive signal from the electronics. FIGURE 1 Indicates a typical 10GbE solution. FIGURE 3 Indicates the 100GbE system with the same installed backbone OM3 or OM4 fiber. The IT technician only needs to install two of the MTP to MTP trunks at both ends of the cassettes. Note: The two MTP trunks on one end of this sytem must be reversed in order to achieve the proper transmit and receive signal from the electronics. 10GbE MTP 12 fiber to MTP straight through LC to LC patch cord pair flipped MTP to LC cassette RapidNet MTP VHD backbone 72 fiber straight through LC to MTP fanout straight through TX RX TX RX 40GbE MTP to MTP reversed RapidNet MTP VHD backbone 72 fiber straight through MTP to MTP straight through 100GbE MTP to MTP reversed RapidNet MTP VHD backbone 72 fiber straight through MTP to MTP straight through TX RX RX TX RX RX RX RX TX TX TX TX TX TX TX TX RX RX RX RX RX RX RX RX TX TX TX TX TX TX TX TX RX RX RX RX RapidNet MTP VHD direct termination with 2 mated pairs, a total of 1dB connector loss MTP to MTP trunk design required with 4 mated pairs, a total of 2dB connector loss Insertion loss comparison Worst case 0.5dB insertion loss per mated pair MTP to MTP trunk connections versus RapidNet MTP direct termination MTP, LC or SC user interface MTP, LC or SC user interface Worst case 0.5dB insertion loss per mated pair