In den meisten Fällen ist es unwahrscheinlich, dass diese Installationen ausreichend Platz für die klassischen Überwachungssysteme bieten. Carlo Gavazzi hat eine Lösung entworfen, die einfach installiert werden kann.
LERN MEHR
Oft handelt es sich um Nachrüstinstallationen. Durch die Überwachung sowohl der regulären Last als auch des Verbrauchs des Server-Racks garantiert die Lösung von Carlo Gavazzi ein geeignetes integriertes System.
LERN MEHR
Dies können entweder bestehende oder neue Anlagen sein=> In beiden Fällen hat Carlo Gavazzi eine praktikable Überwachungslösung entwickelt, unabhängig davon, ob die Installation auf einer PDU (Power Distribution Unit) oder einer TOB (Tap Off Boxes) basiert.
LERN MEHR
As the world becomes increasingly digitized, information and communications, technology is emerging as an important source of electricity demand. Billions devices and machines are already connected, and more will be connected over the coming years, using electricity directly and fuelling growth in demand for data center and transmission network services.
Electricity demand in the world’s data centers in 2019 amounted to 200 TWh, about 1% of the global electricity demand. While IP traffic and workloads are projected to triple in near terms, global data center electricity demand is expected to remain flat up to 2022 based on efficiency trends, see the graph on the right.
The strong growth in demand for data center services is offset by continued improvements to servers, storage devices, network switches and data center infrastructure as well as a shift to much larger shares of highly efficient cloud and hyper-scale data centers supported by the use of artificial intelligence and machine learning that will reduce the energy intensity of data center services even more.
According to a survey made in the USA (the largest data center market) by the Ponemon Institute, the average cost per minute of unplanned data center downtime is 5,900 USD. A significant cost which can be avoided using a proper monitoring solution. The data center industry is using different technical solutions and installation technologies, depending on the number of servers, where the most important goal is always, directly or indirectly, the streamlining of costs and the maximizing of savings. The following list shows you the different individual or combined approaches:
Unsere Zivilisation hat sich dank des analytischen Denkens entwickelt, durch das wir neue und effektive Lösungen finden konnten. Carlo Gavazzi hat eine Reihe von Hardware- und Softwaretools entwickelt, mit denen Sie den Lastverbrauch genau überwachen können. Das Ergebnis? Sicherung der Energieeffizienz und kontinuierliche Kosteneinsparung.
Der sichere Betrieb ist sowohl für das Personal als auch für die Geräte von grundlegender Bedeutung. Die Lösungen von Carlo Gavazzi helfen Ihnen, die elektrische Sicherheit Ihrer Installation zu verbessern und Sie und Ihre Investition zu schützen.
Zeit ist ein zunehmend wertvolles Gut. Carlo Gavazzi ist sich dessen bewusst und aus diesem Grund sind alle angebotenen Lösungen praktisch und einfach zu installieren. Mit den Lösungen, die in den nachstehenden Links aufgeführt sind, können Sie bis zu 94% Ihrer Inbetriebnahmezeit einsparen.
In den meisten Fällen handelt es sich dabei um Installationen mit begrenztem Platz für die Installation eines geeigneten Überwachungssystems. Unsere Lösung umfasst die Quick-Fit-Messgeräte EM271 und EM270 sowie erforderlichenfalls die Stromwandler TCD1x-2X-3X und TCD06BX-BS.
EM270 Quick-fit 3-phase energy analyzer
EM280 Quick-fit 3-phase energy analyzer
TCD 1x- 2x - 3x 3-phase current transformers
TCD06BX - TCD06BS Multiple current transformer block
In den meisten Fällen handelt es sich um Retrofit-Installationen, bei denen ein zuverlässiges Überwachungssystem installiert werden muss, um eine Kombination aus regulären Lasten und Servern zu verwalten. Die erforderliche Flexibilität wird durch unsere Messgeräte EM210 oder EM271 in Kombination mit CTV / ROG- und TCD-xM-Messlösungen gewährleistet.
EM210 3-phase energy analyzer
EM270 Quick-fit 3-phase energy analyzer
CTV - ROG4K Current transformers and Rogowski coil current sensors
TCD 0M-1M-2M-3M Multiple miniature split-core current sensors
TCD 0M-1M-2M-3M-MM Multiple miniature split-core current sensors
Traditional tap-off box solution:
the first configuration, the following addressing and the final commissioning in case of 16 bus-bar trunking systems of 32 tap-off boxes each (total more than 2 hours) is about a total of 34 hours of Professionals work.
ET272 + VMU-C tap-off box solution:
no manual configuration, no ID addressing, a general process improvement. Leading to a total configuration and commissioning time reduction from 34 hours of Professionals work to only 2 hours!
Step | Actor | Site | Action | Benefit |
---|---|---|---|---|
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Panel builder | Production | Quick tap-off box assembly and ID label sticking on the tap-off box. | Quick connections and the split-core current sensors of ET272 (see next page). |
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Installer | Data Center | Affixing the ID labels to the installation document, and tap-off box installation on the bus-bar. | Easy identification of the tap-off box in order to minimizing positioning errors |
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System integrator | Data Center | ID labels installation document barcode reading. | Full automated commissioning thanks the Embedded VMU-C tools. |
Elektroinstallationen in großen Rechenzentren werden nach unterschiedlichen Richtlinien gebaut: Es können entweder Schienenverteiler-Systeme (Busleitungen mit Abzweigdosen) oder Stromverteiler verwendet werden. Carlo Gavazzi hat in beiden Fällen eine Lösung, mit der Einrichtungszeit und -kosten drastisch gesenkt und die Daten mit der erforderlichen Granularität bereitgestellt werden: das Zweigüberwachungssystem WM50 oder der Schnellanpassungs-Analysator ET272 in Kombination mit dem VMU-C EM Web-Server / Gateway.
When the electrical system is different from a busbar trunking or busduct system and feeding numerous loads into a common distribution board, the WM50-96 is the ideal solution for branch circuit monitoring. The solution is based on a one core unit, the WM50 which is usually installed and connected to the mains and some TCD12 units as combined meters installed downstream from the MCBs for single phase or three-phase loads. As the whole installation cost is not only made up of the component costs but also the installation and commissioning costs, this innovative solution allows you to achieve more than 75% installation and commissioning savings compared to a regular solution.
WM15, displaying measured variables in both analogue and digital formats and ET340, a metering unit without display are the ideal metering solution for server rooms in Banks, production facilities and Data Centers. This solution provides the following benefits: configuration and commissioning with the same advanced OptoProg and UCS tools saving time and being more effective; all ET340 units can be daisy chained using an RJ45 cable being more reliable in connections and cutting connection costs; a single ET340 has the same footprint of three single-phase MCBs or a three-phase MCB, this means a modularity of three and therefore the capability to be mounted wherever there is a limited space or there is the need to put them in an array of many MCBs; UWP 3.0 being key part of the whole metering system can manage, using a proper RJ45 cable, up to 100 ET340 units equivalent to 300 server or server racks, a massive number of information.
If the target is to provide a streamlined solution for server rooms in banks and production facilities, than the solution is EM24 + ET340. Streamlining a monitoring solution for banks and facilities means, to be more cost effective in providing solutions capable to perform not only main and submetering but also being able to gather data from utility meters. For EM24, it doesn’t matter if the pulse signals are coming from watt-hour meters, gas meters, water meters or from all of them, because it has all the necessary hardware resources to manage all those signals. So, if EM24 has the task to perform, in the installation, the integration of the utility meters into the UWP 3.0 monitoring platform, it has in addition, also the task to perform the main metering in the distribution board where it is installed. While the ET340 units have the task to measure a full set of electrical variables being needed to complete the analysis of all loads connected downstream the main MCB or MCCB.
If utility meters are M-Bus (EN13757) wired or wireless based, then the SIU-MBC can be used as a dual pulse counter or directly via the SIU-MBM which acts as a gateway. These add-on solutions make this valuable information available for your Automatic Energy Monitoring System. More specifically: if the utility meter has only a pulse output, no available auxiliary power supply and the meter itself is far from you nearest distribution board than the solution is the wireless SIU-MBC, it is self-powered by an internal battery lasting up to 12 years, and is perfectly suited to outdoor applications; if the utility meter is wired or wireless M-Bus-based, than the solution is SIU-MBM.
In many installations, old fashioned meters are still working properly but energy information is still collected manually with both high data collection costs and potential transcription errors. Now, concentrating on multiple meters' pulse outputs and making them available as RS485 Modbus counters is possible, thanks to the modular VMU-MC + VMU-OC solution ranging from 2 to 11 pulse inputs (counters). Pulse to Modbus conversion is the key to automatic data collection benefiting from quality data, data granularity and whole data management.
Unsere Zähler messen zuverlässig alle elektrischen Größen. Dann ist es notwendig, Trends zu analysieren und kritische Situationen mit spezifischen Tools hervorzuheben. Der VMU-C EM ist die richtige Embedded-Lösung, um Informationen an das SCADA-Rechenzentrum zu übermitteln oder Diagramme und Berichte über den Embedded Web-Server zu erstellen
VMU-C EM Web server and data logger
Unsere MRCDs DEA71 und DEB71 sind in Kombination mit dem CTG-Kernbalancetransformator unsere IEC60947-2-konformen Lösungen zur Erkennung von Ableitströmen, um Schutzauslösungen zu vermeiden und die Verfügbarkeit der Stromversorgung zu gewährleisten.
DEA71 Earth leakage protection relays
DEB71 Earth leakage protection relays
CTG Core balance transformers
App zum Einrichten von Analysegeräten (WM20, WM30, WM40, WM50) zum Verwalten der relevanten Konfigurationen & rsquo=> Archiv, um Echtzeitdiagnose über ein Android-Smartphone durchzuführen
PC-Software zum Erstellen, Verwalten und Überprüfen der Konfigurationen aller Messgeräte oder Analysegeräte von Carlo Gavazzi
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