NANOVIP® QUADRA™ networks
Portable MRH™ analyzers of power quality
NANOVIP® MRH™ represents a brand new technology for modern high-end analyzers.
MRH™ technology makes it possible to perform realtime energy and power quality measurement on spread and complex networks; thanks to its wireless capability it does not require any wiring and boosts up easiness of installation and usage.
A powerfull and reliable wireless capability makes it possible to make realtime and concurrent measures on wide networks as it can can guarantee connection with a maximum point to point distance of 600m outdoor and 60m indoor. The mesh strategy of the network makes it possible to reach huge network extensions, because each device repeats signals through the network.
Strong, easy and flexible
- Self setting wireless network connection
- Auto recognition of available devices
- Auto configuration of network composition
- Max indoor point to point distance: 60m
- Max outdoor point to point distance: 600m
- Mesh connection strategy: each device repeats signals to drammatically extend network coverage
- Can measure heterogeneous energies and power: solar, elevtrical loads, generators, storage systsems, multiple grid connections, eolic, UPS, inverters etc
- Realtime analysis of overall power quality parameters of spread complex network
- Network structure can be compsed according to your needs
- From 1 up to 1+5 measuring points
Fields of use
NANOVIP® MRH™ is the Elcontrol measurement technology for high-end professional energy analyzers, designed to support the most demanding measurements needs. NANOVIP® QUADRA™ energies and powers measurement system include it as standard to perform:
NANOVIP® QUADRA™ can connect via wireless up to 5+1 devices to retrieve local measurements and automatically calculate network overall parameters as well store them as campaign data
NANOVIP® QUADRA™ allows user to check remote data locally and overall network data in relatime on display as well as locally measured parameters
Each remote device can be settled with different roles within the network (Load, Generator, Solar etc.) to allow master QUADRA to assemble all heterogeneous measurements in global network parameters
NANOVIP® MRH™ technology help professionals:
- measure at the same time many different points of a newtork
- measurements can be heterogenous; solar, load, generator, storage
- remote measurement data can be handled directly from the network master device
- all data are immediately assembled in realtime to give running global parameters
- simple and complex solar systems performance check
- performe immediate analysis of ibrid nergy networks
- catch events at the time in several points of a network
- check and evaluate the returns of UPS, AC / DC measurements
- turn easy, complex measurements
Safety is a key and indispensable point for Elcontrol.
MRHTM technology makes a further step in electrical safety as it allows professionals to follow measurement with safely closed electrical panel doors, still leaving them the chance to operate on analyzer.
In critical conditions, master can be used as a remote measurement monitor device that permits professional to remotely check what each device in the network is measuring without accessing powered on electrical panels.
NanoVIP® MRHTM technology makes very simple and quick to set up and measure in realtime a network where heterogeneous devices (loads, generators, ups, solar systems etc.) are working together.
It is sufficient to declare each measuring device role to quickly launch a realtime measurement or an overall campaign. NanoVIP® MRHTM technology, due to its auto-recognition and self-configuration capabilities, does automatically all the necessary network settings.
MRH™ technology makes complex and spread measurements easy thanks to its high flexibility that permits to measure the most complex systems, still providing global network parameters in realtime. Even in most difficult systems MRH devices are still auto-configuring the network.
It is sufficient setting the devices and assigning them a role in the net; master device will do all the necessary configurations and measurements will be ready to start.
MRHTM technology of NanoVIP® QUADRATM system boosts professionals efficiency due to its relatime and multipoint measuring capability.
It cannot erase the analyzer deployment time (captors and ct clamps fixing) but it dramatically squeeze analyzing times.
Let’s consider a simple need of a professional that plans to make a measurements on three different points of a network; let’s assume one our campaign each and five minutes time each for setting captors and CTs.
With a standard analyzer: 5+60+5 minutes per each point. 3 hours and 30 minutes
With a NanoVIP® QUADRATM system: 5+5 minutes per each point and just 60 minutes of campaign. 1 hour and 30 minutes.
Congruent and solid data
A typical limit of campaigns done on different positions of a network consists in the fact that they do not measures events in the same moment; it happens very often that, once you have caught an event, it is almost impossible to get also its source.
Realtime multipoint measurement of NanoVIP® MRHTM technology finally overcomes this limitation giving to professionals a set of measurements (done on different network points) but in the same moment and synchronized; whenever event happens, the source is catched as well.
No need for extra measurement, tests and attempt to recreate same event conditions.
One technology – Thousands of solutions
|Safety||600V CAT III||600V CAT III||600V CAT III||600V CAT III||600V CAT III|
|Display type||LCD dot matrix with backlight||LCD dot matrix with backlight||LCD dot matrix with backlight||LCD dot matrix with backlight||LCD dot matrix with backlight|
|Communication||USB to PC, wireless to/from master device||USB to PC, wireless to/from master device||USB to PC, wireless to/from master device||USB to PC, wireless to/from master device||USB to PC, wireless to/from master device|
|External memory||Micro SD (4GB supplied)||Micro SD (4GB supplied)||Micro SD (4GB supplied)||Micro SD (4GB supplied)||Micro SD (4GB supplied)|
|MRH master operating mode||yes||no||no||no||no|
|MRH client operating mode||no||yes||yes||yes||yes|
|Single point monitoring||yes||yes||no||no||yes|
|Solar panel and strings test CEI 8225||yes||no||yes||no||no|
|Multilines solar system test CEI 8225||yes||no||no||no||no|
|Solar realtime measurements||yes||no||yes||no||no|
|Wind speed interface||no||no||yes||yes||no|
|General transducers interface||no||no||no||yes||no|
|Active, Reactive and Apparent P, E||yes||yes||no||no||yes|
|QUADRA Studio software||included||included||included||included||included|
|Indoor wireless point to point distance||60m||60m||60m||60m||60m|
|Outdoor wireless point to point distance||600m||600m||600m||600m||600m|
|Working temperature range||from -10 to +55 °C||from -10 to +55 °C||from -10 to +55 °C||from -10 to +55 °C||from -10 to +55 °C|
|Umidity||Max 95%||Max 95%||Max 95%||Max 95%||Max 95%|
|External power supply||Wall-plug switching, input 100-240VAC ±10% 47-63Hz, changeable plug; output 7,5VDC – 12W||Wall-plug switching, input 100-240VAC ±10% 47-63Hz, changeable plug; output 7,5VDC – 12W||Wall-plug switching, input 100-240VAC ±10% 47-63Hz, changeable plug; output 7,5VDC – 12W||Wall-plug switching, input 100-240VAC ±10% 47-63Hz, changeable plug; output 7,5VDC – 12W||Wall-plug switching, input 100-240VAC ±10% 47-63Hz, changeable plug; output 7,5VDC – 12W|
|Battery||4 x AA MiMh 2100mAh||4 x AA MiMh 2100mAh||4 x AA MiMh 2100mAh||4 x AA MiMh 2100mAh||4 x AA MiMh 2100mAh|
|Languages||English- Spanish – Italian – German – French||English- Spanish – Italian – German – French||English- Spanish – Italian – German – French||English- Spanish – Italian – German – French||English- Spanish – Italian – German – French|
|CE conformity||93/68/CEE (B.T. electrical materials);|
|89/336/CEE e 2004/108/CE (EMC)|
|2006/95/CE – 72/23/CEE (LVD – Low voltages);|
|2002/95/CE (RoHS – Dangerous materials restrictions);|
|2002/96/CE e 2003/108/CE (WEEE/RAEE – Wasted electrical and electronics materials).|
|Temperature||IEC 60068-2-1 (working)|
|IEC 60068-2-2 (storage)|
|Umidity||IEC 60068-2-30 (umidity)|