WDM & Optical Transport Datasheet LambdaDriver® - 1+1 redundancy Module (EM800/EM1600-RED) Features Singlemode optical fiber connectivity Less than 25 ms link protection switchover Hot-swappable 1-slot size Applications Point to point protection link DWDM, CWDM networks Any fiber optic link protection EM800-RED Overview Survivability of optical connections has grown into an issue of the greatest importance for WDM networks as well as for any other optical communication technology. The interruption of high-speed optical connection even for a few seconds means a huge waste of data information. Network operators have therefore to face their customer’s requirements, which are very stringent as to outage periods. One of the most popular protection techniques is 1+1 dedicated protection, also known as self-healing. The source node splits the signal into two identical copies transmitting them simultaneously on two separate light paths. The receiver node selects the signal with the best quality. The 1+1 Redundancy module is part of the LambdaDriver® product line. The switchover time is lower than 25 ms, which is much better than the STM requirement of 50 ms. The switching is performed when the monitored link signal is below the pre-defined optical signal threshold. The module is fully manageable by the LambdaDriver management module and can be accessed also by MegaVision® (MRV’s webbased NMS) or any other SNMP manager. The module reports the current status of Primary/Secondary link to the management. The module can be switched over from Secondary to Primary and vice versa by a command from management. There is an option for having Optical Supervisory Channel (OSC) included on the module. In this case, the module includes, besides the protection function, 1310/1550nm splitting/combination. There are two types of modules: - EM800-RED – LD800 slot size - EM1600-RED – LD1600 long slot size ���� ���� ���� ���� ������� ���� ���� ���� �������� ������ �������� ������ ���� ���� ���� ���� ���� ���� ��� ��������� ������ Link protected network operating with unbroken redundant link Link protected network operating with broken redundant link Not sure what solution best fits your needs? Visit www.mrv.com or e-mail us at [email protected] ��� ��������� ������ WDM & Optical Transport Environmental Operating Temperature Storage Temperature Relative Humidity Dimensions (W x H x D) Weight Connector - 5 to 45 o C -10 to 70 o C 85% maximum, non-condensing EM800: W: 26.93 mm (1.06 in); EM1600: 26.93 mm (2.13 in); EM800: 0.42kg (0.93 lb) EM1600: 0.84kg (1.85 lb) H: 130.7 mm (5.145 in); D: 227 mm (8.956 in) 263.4 mm (5.145 in); 227 mm (8.956 in) Mux/DeMux section - MU Trunk – SC Technical Specifications Optical Specifications Parameter Wavelength Range Maximum insersion loss RED TX RX RED/NS TX RX Maximum link switchover time Minimum 1270 Value Typical Maximum 1625 3.5 2 2.5 1 25 Power consumption Units nm dB ms 1 Watt Management Front panel LEDs Power Monitoring Alarm Order Info Command EM800-RED EM800-RED/NS EM1600-RED EM1600-RED/NS Primary/Secondary link status, Primary/Secondary link selection status Input power, Output power Primary/Secondary link switchover Primary/Secondary link switchover Redundant link module for LD800 Redundant link module for LD800 without OSC Redundant link module for LD1600 Redundant link module for LD1600 without OSC ��� ��� ���� ���� �� ������� ���������� ��� ������ ���������� ����� �������� ��� ��� ������� ��� ������ �� ������������ ������ ������ �� �� ������������� �� ���� �� ��� ����������� ��� ����� ����� ���� ����� �������� ��� ����������� �� ����� ������������ ������������ ��� ����� ����� ���� ��� ������ ��� ���������� �� ����� ������������ ������������ ��� ��������������� ��������� ���� ���������� ���������������� �� ����� ������������������� ������� ���� ���� ��������� ���� ���� ������������ ��� ����������� ��������� ����������� ��� ��������������� ������� �� ��� �������� ������ ��� ����� ���� ����������� �������� �� �� �������� �� ��������� �������� ��� �������� �� ������������ ������� �� ��� ����������� ��� �� �������������� �� ������� ��� ��� ������������� ������ ������� ��� �������������� ��� ���� ������������ ��� �������������� ��� ��� ��� �������������� ���� ��� ���������� �� ��� ��������������� ���� ����� ���������� ��� ��� �������� �� ����� ���������� �������� MRV-LD-RED Rev.2 04-08 Copyright ©2008 MRV Communications, Inc. All Rights Reserved.