ZTE ZXONE 9700
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Industry-leading crossover capacity
Single rack crossover capacity is industry-leading, with the largest number of slots, supporting upgrade to cluster function, up to 28.8T (72 slots, 400G bandwidth per slot).
Advanced unified cross-platform
Packet OTN architecture and OTN/Packet/TDM unified cross-platform can realize unified access, exchange, and transmission of various services, flexible treatment of rigid pipes, improve bandwidth utilization, greatly alleviate the pressure of IP bandwidth, achieve intelligent dredging of IP traffic, and adapt to the development trend of telecommunication network in the future.
With its advanced design architecture, the ZXONE 9700 provides up to 400G bandwidth per slot and can be directly configured with 400G line cards to provide greater carrying capacity.
Excellent 100G transmission performance
100g system adopts PM-QPSK coding technology of coherent detection, uses industry-leading DSP algorithm, dispersion tolerance ±70000 ps/nm, PMD tolerance 60ps, supports excellent SD-FEC and HD-FEC, B2B OSNR tolerance indicators, supports non-electric relay transmission of more than 5000 km, no dispersion compensation, and PMD compensation, saving investment and convenient operation and maintenance.
High-reliability system architecture
The main control unit, power module unit, and clock unit support redundant 1×1 hot backup.
The advanced cubic protection is adopted in the crossover unit, and its reliability is more than 3 orders of magnitude higher than that of the ordinary 1: 1 protection, which greatly improves the safety of the equipment.
Green energy-saving technology
The AISC chip of 28nm advanced process is adopted to greatly reduce the overall calorific value and energy consumption of PCB.
Advanced mechanical and electrical management mechanism is introduced to support the regional dormancy of circuits and optical modules, which can effectively reduce the energy consumption of idle modules.
The ultra-high precision temperature measurement and intelligent heat dissipation system can adjust the fan speed in real-time according to the temperature measurement value of the system, so as to control the fan energy consumption and minimize the operating temperature of the system.
Flexible service access capability
The client-side supports 100M-100G Any service access: STM-N, FE/GE/10GE/40GE/100GE, OTU1/2/3/4, DVB, ESCON, FC, and other services access.
General service access veneer to meet the needs of mixed transmission of multiple services of operators.
Advanced bandwidth management technology
Graphical bandwidth resource presentation and configuration system makes it easier to open and maintain.
Cooperate with the ASON control plane to intelligently allocate bandwidth resources and provide real-time bandwidth alarm.
Optoelectronic hybrid crossover and intelligent scheduling
The optical layer supports 2-20-dimensional ROADM, and N* M WSS, supports direction-independent, wavelength-independent, content-independent, and automatic end-to-end wavelength configuration.
The electric layer supports ODU0/1/2/2e/3/4/flex multi-particle non-blocking electrical crossover to realize the end-to-end automatic configuration of ODUk.
Support grouping + OTN integrated optoelectronic hybrid WASON control plane to achieve packet, ODUk, wavelength unified intelligent management, and scheduling.
Load WASON, to realize the intelligent control of the optical layer and electric layer, shorten the deployment time of services, provide multiple recovery paths for key services, enhance the survivability of services, and improve the utilization of network resources.
Reliable protection at the carrier level
Based on ZTE’s years of engineering practice and strong R & D strength in the field of optical network protection, it supports a variety of protection methods, such as optical fiber level, wave level, wavelet level, and L2 level.
Optical fiber level: line 1 / 1 protection, optical multiplexing section 1 / 1 protection.
Optical channel level: optical channel 1x 1 protection.
ODUk level: ODUk 1 # 1 protection.
L2 layer: hierarchical linear protection, shared ring protection, LAG link aggregation protection, double return protection