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Details, datasheet, quote on part number:ZT5088
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| Part: | ZT5088 |
| Category: | Communication => Others => Broadband & Access |
| Description: | Networking & Communications - Compute Boards & Platforms - CompactPCI* Platforms - Intel Netstructure ZT 5088 |
| Company: | Intel Corporation |
| Datasheet: | Download ZT5088 datasheet File size : 81 kB |
| Request For quote: | Find where to buy ZT5088
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Datasheet text preview:
Product Brief
Intel NetStructure ZT 5088
® TM
12U General Purpose Packet Switched Platform
Product Overview
The Intel® NetStructureTM ZT 5088 12U General Purpose Packet Switched Platform is an extremely flexible, high-availability platform, configurable for both compute-intensive and I/O-intensive applications. It is one of several telecom building blocks from Intel, built on the PICMG* 2.16 specification, providing OEM equipment designers with carrier-grade, standards-based solutions. This high-capacity CompactPCI* platform features innovative power and cooling. In addition to its high-availability features, the ZT 5088 platform is highly modular, scalable, and extremely serviceable. It is designed to interoperate with the entire Intel NetStructure family of packet switched
TM ®
High Availability
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Five-nines availability Redundant, hot-swappable modules for fault recovery - Two PICMG 2.16 10/100/1000 fabric slots - Two IPMI-based chassis management modules - N+1 cooling architecture - N+N load-sharing 250W AC or DC power supplies
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Redundant power input (front- or rear panel cabling)
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Dual-power domain midplane isolates catastrophic power failures
Highly Flexible
Multiple midplane configuration options
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Intel in Communications
backplane products, and with third-party boards meeting the PICMG 2.16 specifications. The ZT 5088 platform supports five-nines (99.999%) availability with built-in redundancy for active system components including Ethernet switches, chassis management modules, power supplies and fan trays. Redundant chassis management modules enable customers to manage multiple SBCs and conduct chassis diagnostics remotely for enhanced system reliability. The ZT 5088 platform routes Ethernet signals across the backplane without the use of cables, saving time in set-up, maintenance and repair, and minimizing the thermal challenges of traditional cabling methods.
All node slots support 32/64-bit, 33/66MHz single board computers and peripherals
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Four PCI bus segments 21 rear-panel I/O slots (18 node slots, two fabric slots, and two 3U CMM slots)
Highly Manageable
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IPMI-based, PICMG 2.9-compliant redundant chassis management modules
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Unique star topology for increased reliability and security
Highly Serviceable
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All Field-Replaceable Units (FRUs) serviceable from the front (except rear-panel transition boards)
Highly Scalable
Product Highlights
High Capacity
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Processors, I/O boards, power, and cooling
12U, 19-inch rack-mount enclosure 21 slots (18 node slots, two fabric slots, and two 3U chassis management slots)
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Up to 50W per node slot and 80W per fabric slot power and cooling
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Designed for NEBS Level 3 and ETSI installations
Product Brief
Intel® NetStructureTM Z T 5088
Flexible Midplane Configurations
The midplane is flexible and can accommodate multiple configurations. It supports up to 18 independent servers communicating over the PICMG 2.16-compliant Ethernet midplane (slots 3-20), or four dedicated system masters supporting four independent PCI bus segments (see Figure 1).
The ZT 5088 can also be configured to support two extended bus segments. PCI segments one and two are bridged together using Intel's ZT 5524A System Master Processor Board and ZT 4901A I/O Mezzanine Expansion Card, mated together and installed in slots 7 and 8. By bridging segments one and two together, one system master can control seven peripheral slots at 66MHz bus speed. The same bridging can be performed on PCI segments three and four with the ZT 5524/ZT 4901 pair installed in slots 16 and 17.
18 PICMG* 2.16-compliant Slots 21 RPIO available 2 Redundant Chassis Management Modules
All slots support IEEE 1101.11-style, 80mm-deep
Fan Tray 1 Fan Tray 2 Fan Tray 3
transition cards in the rear-panel I/O section, directly behind the midplane. Each node and fabric slot may be independently configured for 3.3V or 5V VI/O operation
S1
System Master System Master
S2
S3
System Master System Master
S4
Chassis Management Module
The ZT 5088 includes two redundant Intel® NetStructureTM ZT 7102 chassis management modules (CMMs) that operate in active/standby mode. The ZT
2 Redundant Ethernet Fabric Slots Dual Power Input PSU 2 PSU 3 PSU 4 PSU 5 PSU 6 PSU 7 PSU 8 PSU 1
7102 is the central management component for all Intel® NetStructureTM PICMG 2.16-compliant platforms. It uses standards-based interfaces, allowing management of third-party IPMI-based products within a NetStructure platform. It communicates with components in the ZT 5088 platform via point-to-point IPMB busses in a unique star topology to achieve comprehensive, highly available management.
Figure 1: Component layout for ZT 5088 platform
Redundant Power Subsystems and Dual-Domain Architecture
The ZT 5088 platform supports a redundant, scalable
Fa n Tr ay
power solution, accommodating up to eight 3U CompactPCI power supplies, divided into two separate power subsystems. Each delivers power to one of the two power domains on the midplane. Each power
ay Fa n Tr
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subsystem supports N+N redundant power supplies and receives input power from redundant DC or AC inputs. This is critical in central office locations where two power plants deliver redundant DC input into highavailability devices. These two power subsystems maintain isolation of these inputs (no diode OR'ing) to
PS
1
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2
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4
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7
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ensure that failure of one will not affect the power input of the other. For high availability, and to isolate catastrophic events, the midplane is divided into two separate power domains. Each power domain supports one fabric slot and nine node slots. The redundant CMMs and fan trays draw power from both domains for continued operation, should one domain fail (see Figure 2).
Figure 2: The ZT 5088 platform dual-power domain/redundant power-input architecture
Intel® NetStructureTM Z T 5088
Product Brief
Cooling Architecture
With 250W power supplies, the ZT 5088 platform supports more than 40W per slot or, when scaled to 350W power supplies, powers and cools up to 50W per node slot and 80W per fabric slot. The platform houses three hot-swappable fan trays, serviceable from the front. Each tray includes three blowers, and spans the distance from front to back of the chassis. The front blower cools the front card cage area, and the rear blower cools the power supplies and rear of the card cage. The middle blower cools both areas, providing N+1 redundant cooling for the entire chassis (see Figure 3).
Air Flow Front grill with filter Power plane 160mm node slots 80mm rear slots Midplane Front 3 blowers per fan tray Rear
Power supplies
Figure 3: Cross section/side view of the ZT 5088 platform
Specifications
The most current product specifications and order options are posted on the Web version of this product brief (developer.intel.com/design/network/products/cbp/linecard.htm).
Specifications - The ZT 5088 platform is compliant with the following specifications:
CompactPCI* Core Specification, PICMG* 2.0 R2.1 CompactPCI Hot Swap Specification, PICMG 2.1 R2.0 I CompactPCI System Management Specification, PICMG 2.9 R1.0 I CompactPCI Power Interface Specification, PICMG 2.11 R1.0 I CompactPCI Packet Switching Backplane Specification, PICMG 2.16 R1.0 I IPMI Specification, Version 1.5 I Standard CompactPCI Keying
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Power Input: 100-230 VAC (50-60Hz) or -36 to -60 VDC
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Output Voltage
+5V +3.3V +12V -12V
Output Current
160A 160A 22A 6A
Output: Assumes that 8 power supplies are installed, operating in the 4+4 configuration. The total combined output from 3.3V and 5V not to exceed 160A total.
Physical
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Height: Width: Depth: Weight:
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12U, 21" (533mm) 17.2" (436mm) without rack-mounted flanges. Rack-mount flanges allow mounting in 19-inch racks. 17" (431mm) 97.5 lbs. (44.2kg)
Regulatory Compliance Pending
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Safety
UL/cUL 60950 Safety for Information Technology Equipment E179737 EN/IEC 60950 Safety for Information Technology Equipment CB Report Scheme CB Certificate and Report FCC, CFR 47, Part 15, Class B EN 55022 CISPR 22 GR-1089-CORE Sections 2 and 3 EN 55022 Class B Radiated EN 55022 Power Line Conducted Emissions EN 61000-3-2 Power Line Harmonic Emissions EN 61000-3-3 Power Line Fluctuation and Flicker EN 61000 4-2 Electro-Static Discharge (ESD) EN 61000 4-3 Radiated Susceptibility EN 61000 4-4 Electrical Fast Transient Burst EN 61000 4-5 Power Line Surge EN 61000 4-6 Frequency Magnetic Fields EN 61000 4-11 Voltage Dips, Variations, & Short Interruptions
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Emissions Test Regulations
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