Oversigt over produkter

ReMonis ikke-invasive, fastspændte sensorer overvåger løbende ressourceforbrug og energiforbrug og gemmer data i ReMonis sky med dashboard-visualisering. De er designet i Danmark med henblik på holdbarhed og sikrer langsigtet pålidelighed.

Kraft

ReMonis strømovervågningssensorer giver en enkel og effektiv måde at måle og optimere energiforbruget i forskellige enheder og systemer. Disse IoT-sensorer giver data i realtid, hvilket muliggør datadrevne beslutninger om at reducere energispild og omkostninger. De er nemme at installere og hjælper med at identificere ineffektivitet og optimere strømforbruget, hvilket fører til betydelige energibesparelser.

PowerMoniSpot

Spar ressourcer og penge ved at bruge PowerMoniSpot-sensorer til at måle og overvåge strømforbruget.

PowerMoniSpot er en IoT-sensor, der gør det muligt at overvåge strømforbruget i forskellige elektriske enheder og apparater. Når sensoren er kalibreret, giver den kontinuerlig dataindsamling om det faktiske strømforbrug, hvilket gør det muligt at træffe databaserede beslutninger med lave installationsomkostninger og -tid.

Funktioner

Når PowerMoniSpot er kalibreret, kan den måle det faktiske strømforbrug.
Alarmer kan indstilles til at advare om overforbrug, uregelmæssigheder i forbrugsmønstre eller defekter i enhederne.
Løbende overvågning af de tekniske installationer i bygningerne.
Enkel og hurtig installation: klemmes fast uden på kablerne uden at beskadige dem.
Den drives af et batteri med ca. 15 års levetid.
Overførsel af realtidsdata indsamlet fra udstyr/enheder til ReCalc-platformen, hvor de indsamlede data præsenteres og visualiseres via dashboards.

Brugsscenarier

PowerMoniSpot-løsningen er ideel til præcis logning og visualisering af strømforbrugsdata, herunder driftstider og brugsmønstre. PowerMoniSpot gør det muligt at indsamle og logge strømforbrugsdata som f.eks. enhedsaktivitet (tændt/slukket), brugsmønstre og driftstider.

PowerMoniSpot, der ikke er kalibreret, indsamler brugsmønstre for sådanne elektroniske enheder og hjælper med at identificere uhensigtsmæssig eller overdreven brug. Ved hjælp af dataindsamling og sporing kan der opnås store strømbesparelser.

Yderligere indsigt

PowerMoniSpot - Kalibreringsniveauer

PowerMoniSpot – Kalibreringsniveauer

Niveau 1 – Belastningsprofil (ukalibreret)

Dette er standardniveauet for PowerMoniSpot.

Dette niveau måler og viser belastningsprofilen, det viser de ukalibrerede data og viser ikke strøm (ampere) eller effekt (watt).

Bemærk, at belastningen skal være enfaset (en strømførende og en neutral leder) eller afbalanceret på tværs af faserne, hvis det er et flerfaset system.

Niveau 2 – Manuel kalibrering (ampere, volt-ampere)

Dette niveau fungerer på et hvilket som helst antal faser, så længe belastningerne er afbalancerede på tværs af alle faser, og konverterer ukalibrerede data til strøm [A] (ampere) eller tilsyneladende effekt [VA] (volt-ampere).

For at kalibrere PowerMoniSpot manuelt er det nødvendigt at bruge et amperemeter til at måle ampere eller kende enhedens nøjagtige specifikationer i enten watt eller ampere.

Sådan kalibrerer du PowerMoniSpot: Niveau 1 - belastningsprofil

Sådan kalibrerer du PowerMoniSpot: Niveau 1 – belastningsprofil

1. Klem en PowerMoniSpot på et kabel, der er forbundet med den enhed, du vil overvåge.

Bemærk, at belastningsprofilen er proportional med strømmen i kablet.
Hvis det er et flerfaset kabel, skal belastningen afbalanceres over alle faser.

I denne guide bruger vi enheden “aircondition” som eksempel.

2. Gå til recalc.remoni.com.

3. Vælg “Units” i menuen, og vælg den enhed, du vil overvåge, på listen som vist nedenfor. Sørg for, at sensor-ID’et matcher PowerMoniSpots ID. Klik på pilen ved siden af “View”, og vælg “Edit” i rullemenuen.

4. Vælg “Data” i toppen.

5. Nu er niveau 1-kalibreringsbelastningsprofilen synlig.

Sådan kalibrerer du PowerMoniSpot: Niveau 2 - Manuel kalibrering (ampere, volt-ampere)

Sådan kalibrerer du PowerMoniSpot: Niveau 2 – Manuel kalibrering (ampere, volt-ampere)

PowerMoniSpot kan kalibreres til at vise forbrug i både strøm (Ampere) og tilsyneladende effekt (Volt-Ampere). Belastningen skal være enfaset (en strømførende og en neutral leder) eller afbalanceret på tværs af alle faser, hvis det er et flerfaset system.

1. Sæt en PowerMoniSpot på et kabel, og sørg for, at den er forbundet til den enhed, du vil overvåge. I denne vejledning bruger vi enheden “aircondition” som eksempel.

2. Gå til recalc.remoni.com.

4. Vælg “Data” i toppen.

5. Vælg niveau 2 i rullemenuen.

6. Klik på lommeregneren for at indtaste kalibreringskonstanten – husk at vælge mellem strøm (ampere) og tilsyneladende effekt (volt-ampere) under “Calibrate for…” ved at klikke på pilen.
Følg instruktionerne på ReCalc-platformen.

Bemærk, at sensoren skal kalibreres igen, hvis du flytter den på kablet eller til en ny enhed.

Hvilken slags strømkabler kan måles med PowerMoniSpot?

En PowerMoniSpot med niveau 2-kalibrering kan måle, om kablet er enfaset (en strømførende og en neutral leder) eller afbalanceret på tværs af faserne, hvis det er et flerfaset system.

Hvordan kan jeg spare energi med PowerMoniSpot?

Ved at fjerne et stort standby-forbrug kan du spare både strøm og penge.

Standby-forbruget kan estimeres ved hjælp af strømsensorer på de dele af dine installationer, som du ønsker at overvåge. Hvis strømforbruget forbliver højt hele dagen, er der sandsynligvis plads til forbedringer.

På hvilken måde er PowerMoniSpot forbundet med min tekniske installation?

PowerMoniSpot er en clamp-on IoT-sensor, der måler strømmen. Den er ikke direkte forbundet med ledningerne og er derfor en ikke-invasiv målesensor.

PowerMoniMain

CT-baseret effektsensor til montering i koblingsbokse, som giver mulighed for præcis måling af strøm, spænding og effekt.

PowerMoniMain kombinerer sensorteknologi, datalogning og trådløs kommunikation i én løsning. Kontinuerlig sporing af data giver en omkostningseffektiv og effektiv måde at træffe databaserede beslutninger på, reducere strømforbruget og foretage undermålinger.

Funktioner

Kan bruges som hoved- eller undermåler til måling på kabler med en, to og tre faser.
Kombinerer sensorer, datalogger og trådløs forbindelse i én pakke.
Energiovervågning 24/7.
Giver detaljeret indsigt i strømforbruget i forskellige områder.
Høj præcision med op til 15 kanaler.
Leverer 5 flerfasede eller 15 enfasede måleenheder.
Kontinuerlig overvågning og dybdegående analyse mulig på ReCalc cloud-platformen.
Kan bruges som en midlertidig strømmåler, der hjælper med at screene og identificere uregelmæssigheder.

Brugsscenarier

PowerMoniMain er ideel til præcis logning og visualisering af strømforbrugsdata, herunder driftstider og brugsmønstre.

Eksempler

Kompressor:
PowerMoniMain identificerer brugsmønstre for at reducere lækager i trykluftsystemer, hvilket potentielt kan reducere strømforbruget betydeligt.
Støvsugere og hydrauliske pumper:
Forståelse og optimering af driftstider og brugsmønstre ved hjælp af PowerMoniMain kan resultere i store besparelser i strømforbruget.
Vandpumper, kølesystemer og ventilation:
Ved at måle driftstider og brugsmønstre kan ineffektiv drift identificeres og løses, hvilket fører til store besparelser i strømforbruget.
Belysning:
med præcise forbrugsdata og indsigt i brugsmønstre kan der identificeres muligheder for energibesparelser.
Ladestationer til elektriske køretøjer eller lastbiler:
PowerMoniMain muliggør undermåling og hjælper med at bestemme den tilgængelige eller nødvendige strømkapacitet til installation af ladestationer.
Elektriske motorer og maskiner:
PowerMoniMain kan hjælpe med at indsamle data, der er nødvendige for at optimere driftstider og brugsmønstre, hvilket fører til potentielle strømbesparelser og forbedret drift.

Yderligere indsigt

PowerMoniMain - som en selvstændig sensor

PowerMoniMain – som en selvstændig sensor

PowerMoniMain giver ampere, watt, volt og effektvinkel, når den er installeret.

En PowerMoniMain-sensor har 15 kanaler. Hver kanal kan overvåge én fase.

Det betyder, at de 15 kanaler kan fordeles, så de passer til brugerens behov, f.eks. kan en PowerMoniMain måle fem trefasede systemer eller 15 enfasede systemer eller en blanding af begge dele.

Kort sagt betyder det, at du har op til 15 energimålere i denne sorte boks, der kun måler 178x178x75 mm. Kanalerne kan måle forbruget på ethvert udstyr eller apparat, der overvåges af PowerMoniMain-sensoren.

CT-klemmerne, der måler strømmen (ampere), tilsluttes PowerMoniMain ved hjælp af klemmerne til venstre. Ledninger, der overvåger spændingen, tilsluttes klemmerne til højre.

PowerMoniMain er trådløst forbundet med ReMoni Gateway og sender data til den skybaserede ReCalc.

Se databladet for yderligere tekniske oplysninger om PowerMoniMain og CT-klemmer.

Sådan opsætter du en PowerMoniMain i ReCalc

Tryk på ikonet Ny enhed “+” i menuen til venstre.
Skriv et navn efter eget valg til PowerMoniMain, så den er nem at identificere senere.
Vælg den enhedstype, der beskriver installationen. Sørg for, at den valgte type understøtter PowerMoniMain-sensoren.
Indtast det sensor-id, der findes på PowerMoniMain-sensoren, eller vælg det fra rullemenuen, hvis PowerMoniMain allerede er genkendt.
Vælg det kanalnummer, der skal bruges til overvågning.
Gentag ovenstående trin for hver kanal, der bruges på PowerMoniMain.
Tryk på Create for at afslutte opsætningen.

Tip: Det er muligt at tilføje en beskrivelse, tags, et billede og en placering i fanen “valgfri” for at dele relevante oplysninger om denne installation med andre brugere.

Temperatur

ReMonis trådløse temperatursensorer giver nem overvågning af varmesystemer, optimerer energiforbruget og opdager ineffektivitet i realtid. De installeres ikke-invasivt, og TempMoniDC opgraderer analoge sensorer til trådløs kommunikation, hvilket giver værdifuld temperaturindsigt på tværs af applikationer.

TempMoniSpot

TempMoniSpot er en clamp-on-sensor, der er designet til temperaturovervågning.

TempMoniSpot er en trådløs sensor, som måler temperaturen og kan bruges til overvågning og alarmindstilling i fx varmesystemer. Den kan hjælpe med at identificere, om afkølingen er for lav, hvilket fører til transmissionstab og ressourcespild.

Funktioner

Overvåg temperaturen og få yderligere indsigt i systemernes drift og ydeevne.
Trådløs sensor med 3 målepunkter: 2 faste følere til montering på ydersiden af varmerørene og 1 intern føler.
Nem og ikke-invasiv installation, da sensoren er fastspændt på ydersiden af røret uden at beskadige installationen.
Gør det muligt at indstille alarmer, så det bliver nemmere at overvåge.
Drives af et batteri med 15 års levetid.
Den giver overblik over aktuelle temperaturdata og temperaturmønstre over tid.

Brugsscenarier

TempMoniSpot er en ideel løsning til at overvåge og spore temperaturændringer i systemer, rør, rum osv. for at optimere ydeevnen, forbedre systemforståelsen og reducere spild.

Temperaturmålinger: Måling af fremløbs- og returtemperaturer på fjernvarmeanlæg, naturgaskedler og varmepumper. Også måling af temperatur på varmt brugsvand og kølevæske.
Overvågning: Overvågning af temperaturen i kølesystemer/kølere samt køle- og fryserum giver et klart billede af, om den ønskede temperatur opretholdes, eller om der er effektivitet i at nå den korrekte temperatur.
Ventilationssystemer: Måling på både indsugnings- og udblæsningssiden, temperaturmåling på varmeflader og rumtemperatur.
Sølækage og vandspild: Med temperaturmålinger på koldtvandsrør og andre vandledninger kan man opdage lækager, sprængninger og vandspild. Det hjælper med at forhindre større skader og dyrt forbrug.

Yderligere indsigt

FAQ

Temperatursensoren udlæser negativ -55 C

Når en temperatursensor udlæser negative -55 grader, skal dette aflæses som en fejlkode. Det betyder, at temperaturføleren er beskadiget eller frakoblet.

Ovenstående er et eksempel, hvor begge eksterne prober er beskadiget.

Løsning:

TempMoniSpot

Erstattet med en ny sensor. Da huset er limet sammen, er det ikke muligt at udskifte sonderne.

TempMoniDC

Udskift den beskadigede probe. Nye prober kan købes i vores webshop.

NB: Du er velkommen til at sende defekte sensorer tilbage til ReMoni, så de kan blive bortskaffet på en sikker måde.

TempMoniDC

TempMoniDC giver en unik mulighed for at indsamle temperaturdata og opgradere analoge sensorer med trådløs kommunikation til dataindsamling.

TempMoniDC er en løsning, der er ideel til temperaturmåling og giver mulighed for at forbinde med kompatible analoge sensorer for at kommunikere de indsamlede data trådløst til cloud-platformen. Den giver derfor analoge sensorer mulighed for at kommunikere data trådløst.

Funktioner

Kombination af 7 kanaler med 3 temperatur- og 4 analoge signaler (VDC).
Indsamlede data lagres og er tilgængelige i ReCalc cloud-platformen.
Modtager signaler ved -24 til 24 VDC.
De 4 analoge signaler gør det muligt at opgradere kompatible analoge sensorer med trådløs kommunikation.
Hurtig og nem installation.
Ingen skader på nuværende installationer eller analoge sensorer.
Let at udskifte.

Brugsscenarier

TempMoniDC er ideel til overvågning og sporing af temperaturdata samt til at opgradere kompatible analoge sensorer med trådløs kommunikation til grundig dataindsamling.

Data fra analoge sensorer: Flere analoge sensorer og enheder sender et VDC-signal, der kan registreres med TempMoniDC, f.eks. tryksensorer, PLC'er med analogt output, DC-motorstyringer osv.
Temperaturmålinger: Måling af fremløbs- og returtemperaturer på fjernvarmeanlæg, naturgaskedler og varmepumper. Også måling af temperatur på varmt brugsvand og kølevæske.
Overvågning: Overvågning af temperaturen i kølesystemer/kølere samt køle- og fryserum giver et klart billede af, om den ønskede temperatur opretholdes, eller om der er effektivitet i at nå den korrekte temperatur.
Ventilationssystemer: Måling på både indsugnings- og udblæsningssiden, temperaturmåling på varmeflader og rumtemperatur.
Vandspild: Måling på både til- og afgangsside, temperaturmåling på varmeelementer og rumtemperatur.

Yderligere indsigt

Temperatursensoren udlæser negativ -55 C

Når en temperatursensor udlæser negative -55 grader, skal dette aflæses som en fejlkode. Det betyder, at temperaturføleren er beskadiget eller frakoblet.

Ovenstående er et eksempel, hvor begge eksterne prober er beskadiget.

Løsning:

HeatMoniSpot, FlowMoniEnergy, TempMoniSpot eller FlowMoniSpot

Erstattet med en ny sensor. Da huset er limet sammen, er det ikke muligt at udskifte sonderne.

TempMoniDC

Udskift den beskadigede sonde. Kontakt os for at få proberne udskiftet.

NB: Du er velkommen til at sende defekte sensorer tilbage til ReMoni, så de kan blive bortskaffet på en sikker måde.

Gateways

ReMonis gateways muliggør trådløs datakommunikation mellem ReCalc- og ReMoni-sensorer, og nogle modeller understøtter også indeklimaovervågning eller dataindsamling via wM-Bus. Gateways tillader Over-the-Air-opdateringer af sensorer og indstillinger, forbinder op til 500 sensorer hver og distribuerer automatisk signaler, når der bruges flere gateways. Alle gateways forbindes via WiFi eller SIM-kort for pålidelig forbindelse.

Gateway Komfort

Gateway Comfort for communicating data between sensors and ReCalc as well as tracking comfort temperatures.

As all ReMoni’s gateways, Gateway Comfort can be used to communicate data collected from ReMoni’s sensors to ReCalc platform and parameter settings from the platform to the sensors. Additionally, the gateway can track temperature and its changes in the room, presented in ReCalc cloud platform.

Features

Transmits measuring data to ReCalc platform by using WiFi or mobile data.
Tracks temperature levels in the room.
Can receive data from up to 500 sensors.
Sleek and discreet design.
Easy and quick installation.

Use cases

Ideal for collecting data about temperature and its changes.

Further insight

FAQ

How can I be sure that there is connection between the Gateway and ReCalc?

In ReCalc, select Gateway in the sidebar menu and look in the “Connections” column, it should say “Online”.

Bad internet connection?

WiFi

If the Gateway can’t connect due to poor, slow, weak or unstable WiFi the sensor data is stored locally on the Gateway.

When the WiFi connection is re-established, the Gateway starts uploading the stored data to ReCalc.

The Gateway will keep trying to reconnect to a previously used WiFi connection until it is successful. If the Gateway is manually rebooted (by disconnecting the power supply), and the WiFi connection is still offline when it reboots, the Gateway will be configurable to a new WiFi within the next 30 minutes.

Modem

If the Gateway can’t connect due to poor, slow, weak or unstable mobile coverage the sensor data is stored locally on the Gateway.

When the mobile connection is re-established, the Gateway starts uploading the stored data to ReCalc.

The Gateway will keep trying to reconnect to the mobile network. Ensure that the Gateway has good mobile coverage. To test the mobile connection a relocation of the Gateway to an area with good mobile coverage can reveal if the mobile connection actually works or not.

How do I connect the Gateway to a different WiFi?

When you have chosen to connect your Gateway to a specific WiFi network (SSID), it’s not possible to connect to a different network, as long as the current WiFi is visible for the Gateway.

If you wish to connect to a different WiFi network, simply follow these 4 steps:

Turn off the WiFi, that the Gateway is connected to – for example the router or modem with WiFi connection – or go somewhere, where the current WiFi isn’t reachable and therefore not visible to the Gateway.
Make sure that the Gateway is not connected to the internet.
Make sure that the WiFi you wish to connect to is visible to the Gateway.
Restart the Gateway and run the setup as described in the manual.

You can find the manual in the download section.

Data usage on the gateway

We have 3 main areas that use data on the gateway:

1. The gateway itself
2. Sensors
3. Security updates

The data is used for security updates, communication between Gateway and the Cloud (ReCalc), time synchronization and data exchange.

A typical consumption will be around 20-50 Mb / month.

Average number of sensors	Total Mb/month
10	25
50	120
100	235
300	680
500	1100

Which connection to ReCalc is the best: Modem or WiFi?

It depends on the availability at the location of the gateway.

Any 3G/4G Mobile Data connection or WiFi will do the job since ReMoni sensors do not use much data. Our sensors have no minimum requirement of upload speed either.

How to find your Gateway & Sensor ID

To register a sensor on the ReCalc portal the sensor ID must be used.

See below how to identify the sensor ID of the gateway and the different ReMoni sensors.

Gateway

2020-06-24_13_35_13-2020-05-29_14_04_49-Autodesk_Inventor_Professional_2019_-__Gateway_box_presentat.png

PowerMoniMain

Spot sensors, including PowerMoniSpot & HeatMoniSpot.

Gateway Air

Gateway Air helps with data communication and monitoring indoor climate.

The most important feature of Gateway Air, besides data communication, is its ability to track air quality, focusing on temperature, CO2 levels and relative humidity. Based on these measures Gateway Air can monitor overall indoor climate.

Features

Transmits data to ReCalc platform by using WiFi or mobile data.
Equipped with sensor package that measures the air’s content of CO2 (ppm), humidity (%), and temperature.
Communicates data and parameter settings between ReCalc and ReMoni’s sensors.
Can receive data from up to 500 sensors.
Sleek and discreet design.
Easy and quick installation.

Use cases

Ideal for tracking and ensuring quality of air comfort temperature in the room, by tracking CO2 levels, hmidity and temperature.

Documenting indoor climate: the gateway can help measure and document the indoor climate at selected locations within the building.
Temperature variation in rooms: the gateway provides continuos data collection on selected rooms' temperature and its variations.
Analyze and optimize building operations: With additional data on the indoor climate gathered with the Gateway Air, the impact of changes in control strategies and modifications to systems like HVAC can be observed.

Further insight

FAQ

How can I be sure that there is connection between the Gateway and ReCalc?

In ReCalc, select Gateway in the sidebar menu and look in the “Connections” column, it should say “Online”.

Bad internet connection?

WiFi

If the Gateway can’t connect due to poor, slow, weak or unstable WiFi the sensor data is stored locally on the Gateway.

When the WiFi connection is re-established, the Gateway starts uploading the stored data to ReCalc.

Modem

If the Gateway can’t connect due to poor, slow, weak or unstable mobile coverage the sensor data is stored locally on the Gateway.

When the mobile connection is re-established, the Gateway starts uploading the stored data to ReCalc.

How do I connect the Gateway to a different WiFi?

When you have chosen to connect your Gateway to a specific WiFi network (SSID), it’s not possible to connect to a different network, as long as the current WiFi is visible for the Gateway.

If you wish to connect to a different WiFi network, simply follow these 4 steps:

Turn off the WiFi, that the Gateway is connected to – for example the router or modem with WiFi connection – or go somewhere, where the current WiFi isn’t reachable and therefore not visible to the Gateway.
Make sure that the Gateway is not connected to the internet.
Make sure that the WiFi you wish to connect to is visible to the Gateway.
Restart the Gateway and run the setup as described in the manual.

Data usage on the gateway

Average number of sensors	Total Mb/month
10	25
50	120
100	235
300	680
500	1100

Which connection to ReCalc is the best: Modem or WiFi?

It depends on the availability at the location of the gateway.

Any 3G/4G Mobile Data connection or WiFi will do the job since ReMoni sensors do not use much data. Our sensors have no minimum requirement of upload speed either.

Adding Gateway Air as a unit in ReCalc

The GatewayAir must be connected to the Internet. To connect the GatewayAir follow the GateWay installation guide here.
Log in to ReCalc.
Click on the “+” icon next to the menu item “Units”.
Fill in the information as shown below:
1. Give the new unit a telling name.
2. In the Unit type dropdown, select “Generic Gateway “.
3. Enter the ID number written on the side of the GatewayAir sensor.
4. In the Sensor channel dropdown, select the channel that matches the channel heading:
  - CO2 concentration = CO2 concentration
  - Air Humidity = Relative Humidity
  - Air Temperature = Temperature
5. Here the channel can be given a more recognizable name.
6. Click “Create”

Gateway med wM-Bus

Gateway wM-Bus til indsamling af målerdata via kompatible wM-Bus-målere.

Som alle ReMonis gateways kan Gateway wM-Bus bruges til at kommunikere data indsamlet fra ReMonis sensorer til ReCalc-platformen og parameterindstillinger fra platformen. Derudover gør gatewayen det muligt at aflæse og indsamle eksisterende målerdata fra kompatible wM-Bus-målere, som kan gemmes og præsenteres i ReCalc-platformen - eller bruges andre steder via den åbne API.

Funktioner

Overfører måledata til ReCalc-platformen ved hjælp af WiFi eller mobildata.
Kombinerer ReMonis sensordata med data fra kompatible wM-Bus-målere.
Kan modtage data fra op til 500 sensorer.
Elegant og diskret design.
Nem og hurtig installation.

Brugsscenarier

Ideel til at indsamle og kombinere eksisterende målerdata fra kompatible wM-Bus-målere.

Yderligere indsigt

FAQ

Hvordan kan jeg være sikker på, at der er forbindelse mellem Gateway og ReCalc?

I ReCalc skal du vælge Gateway i sidemenuen og se i kolonnen “Forbindelser”, hvor der skal stå “Online”.

Dårlig internetforbindelse?

WiFi

Hvis gatewayen ikke kan oprette forbindelse på grund af dårligt, langsomt, svagt eller ustabilt WiFi, gemmes sensordataene lokalt på gatewayen.

Når WiFi-forbindelsen er genoprettet, begynder gatewayen at uploade de lagrede data til ReCalc.

Gatewayen vil blive ved med at forsøge at genoprette forbindelsen til en tidligere brugt WiFi-forbindelse, indtil det lykkes. Hvis gatewayen genstartes manuelt (ved at afbryde strømforsyningen), og WiFi-forbindelsen stadig er offline, når den genstartes, vil gatewayen kunne konfigureres til en ny WiFi-forbindelse inden for de næste 30 minutter.

Modem

Hvis gatewayen ikke kan oprette forbindelse på grund af dårlig, langsom, svag eller ustabil mobildækning, gemmes sensordataene lokalt på gatewayen.

Når mobilforbindelsen er genoprettet, begynder gatewayen at uploade de lagrede data til ReCalc.

Gatewayen vil blive ved med at forsøge at genoprette forbindelsen til mobilnetværket. Sørg for, at gatewayen har god mobildækning. For at teste mobilforbindelsen kan en flytning af gatewayen til et område med god mobildækning afsløre, om mobilforbindelsen rent faktisk fungerer eller ej.

Hvordan tilslutter jeg gatewayen til et andet WiFi?

Når du har valgt at forbinde din Gateway til et bestemt WiFi-netværk (SSID), er det ikke muligt at forbinde til et andet netværk, så længe det aktuelle WiFi er synligt for Gateway.

Hvis du ønsker at oprette forbindelse til et andet WiFi-netværk, skal du blot følge disse 4 trin:

Sluk for det WiFi, som gatewayen er forbundet til – f.eks. routeren eller modemet med WiFi-forbindelse – eller gå et sted hen, hvor det aktuelle WiFi ikke kan nås og derfor ikke er synligt for gatewayen.
Sørg for, at gatewayen ikke er forbundet til internettet.
Sørg for, at det WiFi, du vil oprette forbindelse til, er synligt for gatewayen.
Genstart gatewayen, og kør opsætningen som beskrevet i manualen.

Du kan finde manualen i download-sektionen.

Dataforbrug på gatewayen

Vi har 3 hovedområder, der bruger data på gatewayen:

1. Selve gatewayen
2. Sensorer
3. Sikkerhedsopdateringer

Dataene bruges til sikkerhedsopdateringer, kommunikation mellem gatewayen og skyen (ReCalc), tidssynkronisering og dataudveksling.

Et typisk forbrug vil være omkring 20-50 Mb / måned.

Gennemsnitligt antal sensorer	Samlet Mb/måned
10	25
50	120
100	235
300	680
500	1100

Hvilken forbindelse til ReCalc er bedst? Modem eller WiFi?

Det afhænger af tilgængeligheden på det sted, hvor gatewayen befinder sig.

Enhver 3G/4G-mobildataforbindelse eller WiFi kan gøre arbejdet, da ReMoni-sensorer ikke bruger meget data. Vores sensorer har heller ikke noget minimumskrav til uploadhastighed.

Sådan finder du dit gateway- og sensor-id

For at registrere en sensor på ReCalc-portalen skal sensor-ID’et bruges.

Se nedenfor, hvordan du identificerer sensor-ID’et for gatewayen og de forskellige ReMoni sensorer.

Gateway

2020-06-24_13_35_13-2020-05-29_14_04_49-Autodesk_Inventor_Professional_2019_-__Gateway_box_presentat.png

PowerMoniMain

Spot-sensorer, herunder PowerMoniSpot og HeatMoniSpot.

Gateway-industrien

Gateway Industry for industrial use with stronger enclosure for data communication.

Gateway Industry is used to communicate data collected from ReMoni’s sensors to ReCalc platform and parameter settings from the platform to the sensors. The gateway is tailored for industrial use with stronger enclosure, ensuring seamless data communication.

Features

Transmits measuring data to ReCalc platform by using WiFi or mobile data.
Stronger enclosure for seamless data communication.
Can receive data from up to 500 sensors.
Design tailored for industrial use.
Easy and quick installation.

Further insight

FAQ

How can I be sure that there is connection between the Gateway and ReCalc?

In ReCalc, select Gateway in the sidebar menu and look in the “Connections” column, it should say “Online”.

Bad internet connection?

WiFi

If the Gateway can’t connect due to poor, slow, weak or unstable WiFi the sensor data is stored locally on the Gateway.

When the WiFi connection is re-established, the Gateway starts uploading the stored data to ReCalc.

Modem

If the Gateway can’t connect due to poor, slow, weak or unstable mobile coverage the sensor data is stored locally on the Gateway.

When the mobile connection is re-established, the Gateway starts uploading the stored data to ReCalc.

How do I connect the Gateway to a different WiFi?

When you have chosen to connect your Gateway to a specific WiFi network (SSID), it’s not possible to connect to a different network, as long as the current WiFi is visible for the Gateway.

If you wish to connect to a different WiFi network, simply follow these 4 steps:

Turn off the WiFi, that the Gateway is connected to – for example the router or modem with WiFi connection – or go somewhere, where the current WiFi isn’t reachable and therefore not visible to the Gateway.
Make sure that the Gateway is not connected to the internet.
Make sure that the WiFi you wish to connect to is visible to the Gateway.
Restart the Gateway and run the setup as described in the manual.

You can find the manual in the download section.

Data usage on the gateway

Average number of sensors	Total Mb/month
10	25
50	120
100	235
300	680
500	1100

Which connection to ReCalc is the best: Modem or WiFi?

It depends on the availability at the location of the gateway.

Any 3G/4G Mobile Data connection or WiFi will do the job since ReMoni sensors do not use much data. Our sensors have no minimum requirement of upload speed either.

How to find your Gateway & Sensor ID

To register a sensor on the ReCalc portal the sensor ID must be used.

See below how to identify the sensor ID of the gateway and the different ReMoni sensors.

Gateway

2020-06-24_13_35_13-2020-05-29_14_04_49-Autodesk_Inventor_Professional_2019_-__Gateway_box_presentat.png

PowerMoniMain

Spot sensors, including PowerMoniSpot & HeatMoniSpot.

Platform

ReMonis ReCalc-platform er et skybaseret værktøj til at analysere og visualisere data fra sensorer. Det har intuitive dashboards, AI-drevne alarmer og nem integration med andre systemer. ReCalc understøtter flere brugere, tilbyder sikker datalagring og giver mulighed for dataeksport i forskellige formater, hvilket hjælper brugerne med at optimere energi- og ressourcestyring.

ReCalc

ReCalc is an online cloud-based platform where the sensors’ data is stored, analyzed and visualized.

Features

Monitoring of data collected via ReMoni’s sensors.
Easy to understand data visualization via dashboards feature.
Alarm and warnings setting also based on artificial intelligence.
Available on desktops, tablets and smartphones.
Allows plural users and accounts.
Easy data exports from sensors, alarms and gateways in Excel format.
Sensors and gateways connection tracking.
Ability to add additional information on sensors, such as pictures, GPS-coordinates, tags and metadata.
End-to-end data encryption, to ensure data security.
Offers open and easy integration to other systems like reporting tools, Energy Management Systems (EMS) and Building Management Systems (BMS)

Data integration and open API

ReMoni works with the data collected via ReMoni’s sensors, but also offers data integration and open API, which makes it possible to integrate with any other resource monitoring systems such Energy Management Systems, Building Management Systems, various meters and sensors. This ensures that anyone can monitor their resources, even without implementing ReMoni’s sensor technology.
In addition, it is possible to integrate data from other sources into ReMoni's solution enabling having all data in one platform.

Demo

The primary ReCalc features can be tested by using the demo login:

Further insight

ReCalc - FAQ

Account access, different roles and pre-defined permissions

ReCalc consist of accounts that contain sensors and their data. These accounts are accessible by users who are granted access. There are three levels of user access to an account, Administrator, User and ReadOnly.

A ReCalc user can have access to one or multiple accounts at any time and have different levels of access to each account. An account must always have an Administrator. When a new account is created the creator is by default the Administrator of the account.

Data chain of ReMoni equipment

There are 4 different stages in the data chain:

Sensors & Actuators
Wireless backbone (Gateway)
Cloud
User Interface.

Sensors & Actuators
The sensors are collecting measurements and data and providing it to the Gateway.
The Gateway then stores the provided data locally, where it afterwards provides the data to our cloud when connected to the internet.

As shown with arrows on the picture above, the data can also go the opposite way.
When data is going in the opposite direction, it can be caused by changing the interval on your sensor in the Management GUI (Graphical User Interface), or if we push a firmware update out to our customers’ devices.

Wireless Backbone – Gateway
The Gateway retrieves data from the sensors and uploads it to the cloud.
Whenever the cloud tells the Gateway that all data is uploaded and OK, the Gateway deletes the data from its storage, so there is more space for new data.
If the Gateway is offline, the Gateway will store the retrieved data locally. So whenever the Gateway comes online, the Gateway will start uploading the stored data to the cloud. The stored data on the Gateway is uploaded to the cloud by the oldest data first, using the first in first out principle.

Cloud
Our Cloud-AI processes the data that is received from the Gateway.
The Cloud-AI translates the data with high-level mathematics, since the data that the sensors collect and provides, is incomprehensible untranslated packages of data.

Our API allows easy data-integration to the data collected and alarms in the cloud.

User Interface
ReCalc is retrieving data from the cloud.
We can keep an eye on our sensors and their data on the ReCalc platform.

How can others receive alarms (my colleague, for example)?

Then you go to the settings icon and then after clicking the icon “create alarm group” you select

the user that would like to receive an alarm and press “save”.

How do i create additional users in ReCalc?

Click on “Account settings” and then “User access” in the User profile

How to find your Gateway & Sensor ID

To register a sensor on the ReCalc portal the sensor ID must be used.

See below how to identify the sensor ID of the gateway and the different ReMoni sensors.

Gateway

PowerMoniMain

Spot sensors, including PowerMoniSpot & TempMoniSpot.

Where and how do I log into ReCalc?

Go to: https://recalc.remoni.com

If you already have an account, enter your email and password.

To create an account click on: “Create new user & account”.

Which browsers does ReCalc support?

For the features in ReCalc to work properly, you must use a supported web browser.

ReCalc supports the following browsers:

Chrome
Firefox
Safari
Microsoft Edge

Data

Export data from ReCalc

This guide covers how to export data from ReCalc.
File format: CSV. A maximum of 40,000 rows can be downloaded at a time.

Log in to ReCalc.
In the menu on the left, under Data analysis, click Export data.
First, choose what to export. Read more about the different data types at the bottom of the page.
Then choose which period you want data from.
Select which Units to export.
Click the Export button at the bottom.
After a while, a CSV file named exportData.csv will be downloaded.
Open the file in a program that supports CSV files (Excel, Google Sheets, etc.)

Data Types:
Raw: This is the raw data from the sensor.
5 Minutes: Here all Raw data are added together within 5 minutes.
Hour: Raw data within an hour is added together.
Day: Raw data within a day is added together.
Solved Alarms: This is a list of the alarms that have been resolved.
Gateways: A list of the Gateways registered in the account.
Sensors: List of the sensors registered in the account.

Get data into Excel

NOTE: This guide is made in Excel version 2101 for Windows and may not work on older versions. How to find the version number: Link.

This guide covers how to get data into Excel from the ReMoni API, using a URL string created on the ReMoni API page. See the guide to how it will be made: Link.

Open Excel
Select the Data tab and then click From Web.
Insert the URL string from the ReMoni API and click OK.
Select “basic” and use your email and password from ReCalc.
Now the Power Query Editor opens. On the Transform tab, click “To Table”.
Click OK for this dialog box.
Then click on the small icon of two arrows in the right corner of the column. Click OK for the next window that appears.
Select the Transform tab and click on Detect data type.
If it does not convert the Timestamp column to Date/Time itself, this is necessary to do yourself.
First click on the column with Timestamp and then select the Transform tab and click on Reverse Rows.
Select the Home tab and click Close & Load.
In order to make a graph of Timestamp and Value, you have to convert the top timestamp to a Time. Click on the top Timestamp then select the Home tab and then click on the dropdown where it says Custom. Select Time.
Select the entire Timestamp and Value column at the same time. On the Insert tab, Select curves.
To update data, click on the small update icon on the right side.

Retrieve data from the API

This guide covers how to get a URL string out of ReMonis API. With the URL string, you can retrieve data from the API, e.g. in Excel or just by inserting it into a browser’s address bar.

Find the Unit from which to retrieve data.

Login to ReCalc.
Under Installations, click Units.
Find the unit from which to retrieve data. The “ID” column contains the Unit ID to be used later in this guide.
To find the type of unit created, click the View button of the unit in which you want to retrieve data.
Here is the Unit type.

API step by step.

Open the page api.remoni.com.
Click Authorize in the upper right corner.
Login with the same login information as on ReCalc.
Locate and click Get /Data.

In the unfolded tab, find the following fields:
Timestamp: The starting point from which data is to be retrieved. Year-month-day.
UnitId: The ID of the unit from which data is to be retrieved. Unique 4 digit number from ReCalc.
AggregateType: The type of aggregate to retrieve data in. Raw, Minutes5, Hour, Day.
DataType: The type of data to be retrieved.
UnitTypeInputId: Consists of two numbers put together, e.g. 3001. The first 2 digits are the unit type ID, e.g. is 30 a Generic PowerMoniMain. The last two digits are the channel number 01, 02, 03, etc.In order to retrieve data, UnitId, DataType and UnitTypeInputId must match. In the table below you can see the connection between the three parameters. First, find which UnitType is created in ReCalc, then select which type of data to retrieve and then which channel to retrieve from.

UnitType	DataType	UnitTypeInputId
		*Channel 1*	*Channel 2*	*Channel 3*	*Channel 4*
Generic PowerMoniMain	Power	3001	3002	3003
Generic PowerMoniMain	Current	3001	3002	3003

Generic PowerMoniSpot	Uncalibrated-current	2801
Generic PowerMoniSpot	Apparent-power*²	2801

Generic TempMoniSpot	Temperature	4301	4302	4303

Generic TempMoniDC	Temperature	5201	5202	5203
Generic TempMoniDC	Analog-voltage	5204	5205	5206	5207

GatewayAir	Temperature	5801
	Humidity	5801
	CO2 concentration		5802

* 1 The summed value for all three channels.
* 2 To be able to retrieve apparent power, a PowerMoniSpot must be calibrated to level2.

In the field, Timestamp write le(2030-01-01). le stands for less than or equal to. This means that all data from before the date will be retrieved. See the example below:
In UnitId write the 4 digit number we found in ReCalc. Write it like this eq(0002). eq stands for equal / straight and this means that it only retrieves data from this number. See the example below:
In AggregateType, type eq(Hour). It can be Raw, Minutes5, Hour or Day. See the example below:
DataType is written as eq(power). See the example below:
UnitTypeInputId is written as eq(3001). See example below:
Then click Try it out!
If everything is entered correctly, the Response Body field should look like this:
If there is an error in the entry, the Response Body field looks like this:
If everything is entered correctly, the URL in the Request URL field can be copied and used, for example, in Excel.

Examples:
Below are a few examples of a URL string that retrieves data from three demo Units.

1. Temperature:
Here we retrieve the data that is later than 2017-01-01, from Unit 1258 (Generic HeatMoniSpot), it retrieves hourly data, the data type is temperature, it is on the unit channel 3101 and it retrieves the latest 10000 rows.

https://api.remoni.com/v1/Data?Timestamp=gt(2017-01-01)&UnitId=eq(1258)&AggregateType=eq(Hour)&DataType=eq(temperature)&UnitTypeInputId=eq(3101)&top=10000

2. Uncalibrated-current:
Here we retrieve the data that is later than 2017-01-01, from Unit 2343 (Generic PowerMoniSpot), it retrieves hourly data, the data type is uncalibrated-current, it is on unit channel 2801 and it retrieves the latest 10000 rows.

https://api.remoni.com/v1/Data?Timestamp=gt(2017-01-01)&UnitId=eq(2343)&AggregateType=eq(Hour)&DataType=eq(uncalibrated-current)&UnitTypeInputId=eq(2801)&top=10000

3. Power:
Here we retrieve the data that is data that is before 2040-01-01 from Unit 6415 (Generic PowerMoniMain), it retrieves hourly data, the data type is Power, data is on unit channel null (a summation of the 3 channels) and it retrieves the latest 20 rows.

https://api.remoni.com/v1/Data?orderbydesc=Timestamp&Timestamp=lt(2040-01-01)&UnitId=eq(6415)&AggregateType=eq(Hour)&DataType=eq(Power)&UnitTypeInputId=eq(null)&top=20

Connect a Kamstrup sensor to ReCalc

In order to read data from the Kamstrup sensor, an encryption key must first be generated. This is done through Kamstrup’s website.

Go to the Kamstrup login page https://apps.kamstrup.com
If you do not have an account, make one.
Click on: Krypteringsnøgler.
In “Administrer enheder” choose “+ Registrer enhed”.
Fill out the form.
Click on the sensor id in the list and chose “Download fil”.
Chose XML from the dropdown list “Filtype” and click on “Download fil”.
Open the XML file in Excel or a similar program.
Inside the XML file, the encryption key can be found under “EncKeys”, shown here marked in red:
<EncKeys>
<DEK>XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX</DEK>
</EncKeys>
Save the encryption key for later use.

Register the Kamstrup sensor inside ReCalc.

Log in to ReCalc
Make sure the GateWay wM-Bus is registered before you register the sensors. See the installation guide above.
Click on “External Sensors” in the left menu panel.
Press the button “Register new External Sensor”.
Fill out the form as shown below:
1. Choose a name for the sensor.
2. In the dropdown, select “Gateway”.
3. In the dropdown, select “Kamstrup”.
4. Then select which sensor want to connect to.
5. Enter the Kamstrup device ID (the first part of the serial number before “/”).
6. Type the encryption keys we retrieved in the first section.
Wait for the sensor to be created, you may reload the page a couple of times. This usually takes 1 minute.
To see data from the sensor, it must be created as a Unit. To do that, click on the + sign in the “Units” section.
Fill out the form as shown below:
1. Give the new unit a telling name.
2. In the Unit type dropdown, select “Generic Unit”.
3. Under Generic UnitTypeInput 1. Click on the circle next to “External sensor”.
4. In the drop-down “External sensor”, select the sensor that has just been created*.
5. In the drop-down “External sensor channel”, select the available channel.
6. Click “Create”
  *It can take a few moments before you’re able to choose sensors.
You can now go to “View data” i the menu and choose the new unit you created.
Click on “Live” to see live data.

Adding Gateway Air as a unit in ReCalc

The GatewayAir must be connected to the Internet. To connect the GatewayAir follow the GateWay installation guide here.
Log in to ReCalc.
Click on the “+” icon next to the menu item “Units”.
Fill in the information as shown below:
1. Give the new unit a telling name.
2. In the Unit type dropdown, select “Generic Gateway “.
3. Enter the ID number written on the side of the GatewayAir sensor.
4. In the Sensor channel dropdown, select the channel that matches the channel heading:
  - Sht30 = Humidity and Temperature
  - SensairSunlight = CO2 concentration
5. Here the channel can be given a more recognizable name.
6. Click “Create”

How do i read the data from the sensor at a given time?

In the ReCalc menu, tap the icon “View Data”, then chose which sensor to view data from.

It is possible to select multiple units at a time.

Click on the different legends at the top to select which data is being displayed

At the bottom of the graph it is possible to change the date/time accompanied by a slider to zoom in/out on specific periods:

PowerMoniSpot can be calibrated to measure ampere, volt or apparent power.

TempMoniSpot is calibrated to measure temperature from the factory and no calibration is needed.

Sensors and Units

How do i change the unit type?

It is unfortunately not possible to change the unit type. If you have chosen the wrong unit type, follow these steps:

Is the sensor and Gateway connected?

Start by logging into ReCalc.

In order to make sure there is a connection between the sensor and the Gateway, click on “Sensors” in the menu and look at “Signal status” to the right. Under “Latest communication” the latest time of communication between the sensor and the Gateway is displayed.

See the picture below:

Using a Unit as a Sensor

To get data from a sensor, you first need to setup up a Unit and attach the sensor to it. ‘Units’ are the entities you are actually measuring with our sensors. For example, a refrigerator is a Unit, and you can measure its power consumption with our PowerMoniSpot sensor. We have a list of predefined Unit types you can choose from.

However, we also have Generic Unit types if the specific Unit types are not relevant for you or you just want to access your sensor readings. There is a generic Unit type for each of our Sensor types and a catch-all ‘Generic Unit’ type. The following is an example of using a ‘Generic TempMoniSpot’ Unit type:

Where can I see which sensors are available to my Gateway?

Follow these steps:

Go to ReCalc
Choose a Gateway
Select “View”

Under “Active sensors the last 24 hours” the sensors that are available to your Gateway, will be displayed.
If there are no sensors available, the sentence “No sensors were found” will appear.

How do i create a Unit in ReCalc?

Click the plus sign next to ‘Units’ in the menu. Give your unit a suitable name and select the right Unit type for your sensor.

If for example setting up a TempMoniSpot, select ‘Generic TempMoniSpot and type in the sensor number. Afterwards choose the right ‘Sensor channel’.

How do I change data interval of a sensor?

Choose “Sensors” in the menu on the left and the “Change” box will appear for every sensor registered to the account as shown in the picture.

The data intervals available will open in the popup window as shown in the picture.

What are unit and sensor channels?

Unit

A Unit is a representation of something in the real world that you want to monitor the resource consumption for, view data for, and potentially receive alarms for, when something is wrong.
Eg. a refrigerator needs sensors to deliver data for its power consumption, the inside temperature and the outside temperature.

To get data from a sensor, you first need to setup up a Unit and attach the sensor to it.
Eg. you were to create a refrigerator unit, you have to assign sensors to its three datastreams: “Electricity”, “Inside temperature”, and “Outside temperature”. Select, or type in the ID of, a PowerMoniSpot for the “Electricity” datastream, where channel 1 is selected by default. Likewise select, or type in the ID of, a TempMoniSpot for the “Inside temperature”. But in this case, you can use the same TempMoniSpot sensor for “Outside temperature” as well, by selecting different sensor channels for the two datastreams.

The UnitType chosen dictates which datastreams are available.
The highlighted box is an example of a datastream available for the UnitType chosen (Refrigerator).
As a UnitType sometimes require input from different types of Sensors it is possible to select different Sensor ID for every UnitTypeInput available.

Sensor channel

Data from Sensors are saved on the UnitType. When a Sensor is registered to a UnitType a Sensor channel offered by the registered Sensor must be selected. The number of Sensor channels that are available by a Sensor Is determined by the Sensor model.

PowerMoniMain offer 15 Sensor channels. This means the 15 channels can be allocated to fit the user needs, eg. one PowerMoniMain can measure five three-phased systems or 15 single-phase systems or a mix of both.
PowerMoniSpot offer 1 Sensor channel (therefore channel 1 is chosen by default)
TempMoniSpot offer 3 Sensor channels
Sensor channel 1: Internal 1 probe
Sensor channel 2: External 1 probe 1
Sensor channel 3: External 2 probe 2

For each datastream needed on a UnitType, a Sensor ID can be inserted and a Sensor channel selected from the chosen Sensor.

Does the sensor come with a warranty?

All ReMoni hardware has a two-year, limited worldwide warranty. This includes e.g. also the gateway.

What is the expected lifespan of the sensors?

All sensors are designed to last 15 years.

15 years is based on a standard sampling rate of 5 minutes at room temperature of 20°C. Changes in sensor data interval can affect the standard battery lifetime.

Dashboards

ReMoni’s dashboards can help visualize data and enable knowledge-based decisions in resource monitoring and savings.

Features

Data integration and open API

Specific Dashboards

Power Basic

The Power Basic dashboard provides an overview of power consumption, its development and patterns over time. The data can be viewed for individual units or grouped. The dashboard enables to drill-down in the power data to further understand the consumption and compare across different units and different time series.

ESG - Compliance and reporting

The ESG dashboard provides an automated and simple way for visualization of Scope 2 energy consumption data. Consumption can be broken down into smaller parts, providing better overview than just main meter data. It covers both energy consumption and corresponding CO2 emissions.

Temperature Basic

Temperature Basic dashboard gives a comprehensive overview of temperature measures across different units and sensors. It is useful to gain an overview of e.g., different rooms’ temerature, montioring of ventilation systems, or operation in a production facility.

Capacity Analyzer

Capacity Analyzer dashboard displays the ampere load. It gives insight into how much amperes should always be available and paid for and the actual used capacity. The overview can help identify whether too much amperes are being paid for and can be reduced to increase savings.

Power Load Profiles

Power Load Profiles dashboard categorizes consumption into three categories: baseload (always present consumption), intermediate consumption, and peak load. Baseload can help identify the daily load for the monitored device. This is an important tool to understand the energy consumption.

Energy Performance Map

Energy Performance Map provides an overview of power, heating, and water consumption across properties found in your buildings portfolio. It can be used to identify which properties are over-consuming energy and needs to be prioritized in implementing energy-saving measures.

Data integration and open API

ReMoni believes in using data across systems, and therefore offers an open API, which allows you to extract your data via an open API and utiilize the data in other systems, such as your Energy Management System, Building Management Systems or other analytics software. Likewise, we integrate with other data-sources when relevant, such as elecitricty, water and heating data.

Energy Performance Map

Provides an overview of power, heating, and water consumption across properties found in your buildings portfolio. It can be used to identify which properties are over-consuming energy and needs to be prioritized in implementing energy-saving measures.

Learn more about
Energy Data Management

Power Analyzer

Provides an overview of power consumption, its development and patterns over time. The data can be viewed for individual units or grouped. The dashboard enables to drill-down in the power data to further understand the consumption.

ESG

Provides an automated and simple way for visualization of Scope 2 energy consumption data. Consumption can be broken down into smaller parts, providing better overview than just main meter data. It covers both energy consumption and corresponding CO2 emissions.

Learn more about
ESG Solution

Temperature Basic

Gives a comprehensive overview of temperature measures across different units and sensors. It is useful to gain an overview of e.g., different rooms in the building without having to integrate expensive solutions to the BMS.

Capacity Analyzer

Displays the ampere load. It gives insight into how much amperes should always be available and paid for and the actual used capacity. The overview can help identify whether too much amperes are being paid for and can be reduced to increase savings.

Power Load Profiles

Categorizes consumption into three categories: baseload (always present consumption), intermediate consumption, and peak load. Baseload can help identify the daily load for the monitored device.

Learn more about
Energy Data Management

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Energy Data Management