Application Scenario
(1)A typical building power system is a comprehensive system consisted of 3-phase & 1-phase power system. And 3-phase & 1-phase system are obviously consisted of the 3-phase & 1-phase circuits. And all the loads in this building are powered by all these circuits. Thus, the aim of Building Online Energy Monitoring for all the monitoring loads in a certain building was to first confirm and all the 3-phase & 1-phase circuits’ monitoroing point and deploy compatible energy meter and paired CTs if requested on them for energy monitoring. And then select compatbile IoT gateway or Wireless energy meter for data uploading to a Online IoT Energy Monitoring System. (2)The key of whether select the combination for IoT Gateway + Energy Meter or Wireless Energy Meter, was whether the energy meter could be of centralized installation or separate installation. This will decide which plan will be more economic and convinient to deploy.
Basic Solution Selection Logic
Three key factor will influence our solution on dicisiong of hardware module selection. •Type of monitoring circuit. [Either 1-phase or 3-phase monitoring circuit] •Centralized monitoring or separate monitoring [Energy meter will be of centralized or separate installation] •Network Comms. which more stable and convenient to acquire. [4G or WiFi] And judging by these 3 factor, there will be 9 basic solution branches in total for guiding us to use the compatible solutions for the different situation of Building Online Energy Monitoring: ① 3-phase, Centralized, 4G based Solution [3-phase Energy Meter plus 4G Gateway Plan] ② 3-phase, Centralized, WiFi based Solution [3-phase Energy Meter plus WiFi Gateway Plan] ③ 3-phase, Separate,4G based Solution [3-phase 4G Wireless Energy Meter Plan] ④ 3-phase, Separate, WiFi based Solution [3-phase WiFi Wireless Energy Meter Plan] ⑤ 1-phase, Centralized, 4G based Solution [1-phase Energy Meter plus 4G Gateway Plan] ⑥ 1-phase, Centralized, WiFi based Solution [1-phase Energy Meter plus WiFi Gateway Plan] ⑦ 1-phase, Separate,4G based Solution [1-phase 4G Wireless Energy Meter Plan] ⑧ 1-phase, Separate, WiFi based Solution [1-phase WiFi Wireless Energy Meter Plan]
Scenario Preset [① 3-phase, Centralized, 4G based Solution]
•There are 10 Areas with 3-phase Power System needed to be monitored •Each area has 20 circuits 3-phase needed to be monitored, circuits’ rated voltage is 3x400Vac L-L and 3x230Vac L-N, circuit’s rated current is 100A AC. •For the place that we gonna install energy meter and 4G gateway, it was covered by stable 4G signal. •All 3-phase energy meter will be of partial centralized installation in each area, which make it possbile for 1 AWT100-4GHW 4G IoT gateway to support 20 (max 25, recommend 20) ADL400/C 3-phase Energy Meters using RS485 wired communication in a close range within 300m.Devices Deployment Plan [① 3-phase, Centralized, 4G based Solution]
Area #1 – Power Circuit [3-phase] #1-1 ~ #1-20: 1.1* AWT100-4GHW IoT 4G Gateway [Support energy meter in Area #1 for 4G Data Upstream] 2.1* AWT100-POW Power Supply Module [For 85~265Vac/Vdc power supply of AWT100-4GHW] 3.20* ADL400/C 3-phase DIN-rail Energy Meter [For monitoring Power Circuit #1-1 ~ #1-20] 4.60* AKH-0.66/K K-φ24 150/5 Split-core Current Transformer [Paired with ADL400/C for current input] . . Area #10 – Power Circuit [3-phase] #10-1 ~ #10-20: 5.1* AWT100-4GHW IoT 4G Gateway [Support energy meter in Area #10 for 4G Data Upstream] 6.1* AWT100-POW Power Supply Module [For 85~265Vac/Vdc power supply of AWT100-4GHW] 7.20* ADL400/C 3-phase DIN-rail Energy Meter [For monitoring Power Circuit #10-1 ~ #10-20] 8.60* AKH-0.66/K K-φ24 150/5 Split-core Current Transformer [Paired with ADL400/C for current input]
Hardware Devices Overview – [① 3-phase, Centralized, 4G based Solution]
Model 1: AWT1000-4GHW IoT 4G Smart Gateway (1)Upstream Comms.: 4G LTE [MQTT, MODBUS Protocol] (2)Downstream Comms.: RS485 [MODBUS-RTU Protocol] (3)Support: Up to 25 Downstream Devices via RS485. (4)Auxiliary Power Supply: 85~265Vac [via AWT100-POW] (5)Certificate&Standard: CE; CE-RED; IEC (6)More Introduciton:Acrel IoT Smart 4G Gateway AWT100-4GHW Model 2: AWT100-POW Power Supply Module (7)Input: 85~265Vac (8)Output: 12Vdc (9)Application: Paired with AWT100-4GHW for 85~265Vac Power Supply Input [via PIN L & PIN N] (10)Certificate&Standard: CEModel 3: ADL400 3-phase AC DIN-rail Energy Meter (11)Monitoring: Up 1 circuits 3-phase [AC Metering] (12)Rated Voltage: 3×380~456Vac L-L & 220~264Vac L-N (13)Rated Current: 3×1(6)A AC (via paired CT) (14)Wired Comms: RS485 Interface, MODBUS-RTU Protocol (15)Certificate&Standard: CE; CE-MID; EAC (16)More Introduction: Acrel ADL400 Three Phase Din Rail Energy MeterHardware Devices Overview – [① 3-phase, Centralized, 4G based Solution]
Model 1: AKH-0.66/K K-Φ24 150/5 Split-core Current Transformer •Current Ratio: 150A/5A •Primary Current: 150A •Secondary Current: 5A •Accuracy: Class 0.5 or 1.0 •Certificate&Standard: CEMore Introduction:Acrel Split Core Current Transformer AKH-0.66/K-φ24Overall Model Selection&Quoation – [① 3-phase, Centralized, 4G based Solution]
(1) This Quotation doesn’t include freight charge. To gain a complete quotation, please refer the actual quantity that you want to request for the actual order, once we receiving it. We will issue a Official Proforma Invoice with Acrel Stamps on it for later procedure.
Communication Structure&Logic – [② 3-phase, Centralized, WIFi based Solution]
•WiFi Communication could be served as one of the final data upstream methods by sending the data to cloud server deployed in Internet so that Acrel IoT System could be interact with these data collected by bottom metering devices like Energy Meter •AWT100-WiFiHW gateway support upstream of WiFi communication with MQTT and MODBUS- protocol and downstream of RS485 communication based on MODBUS-RTU protocol. ADL400/C support upstream communication of RS485 communication based on MODBUS-RTU protocol. •Based on the communication described in item (2), Acrel AWT100-WiFiHW gateway could receive the data from ADL400/C energy meter using RS485 communication while sending the data further to cloud server using WiFi upstream communication. Thus accomplish a complete communication from bottom metering devices to top system software.
Hardware Devices Overview – [② 3-phase, Centralized, WIFi based Solution]
Model 2: AKH-0.66/K K-Φ24 150/5 Split-core Current TransformerOverall Model Selection&Quoation – [② 3-phase, Centralized, WIFi based Solution]
(1) This Quotation doesn’t include freight charge. To gain a complete quotation, please refer the actual quantity that you want to request for the actual order, once we receiving it. We will issue a Official Proforma Invoice with Acrel Stamps on it for later procedure.
Scenario Preset – [③ 3-phase, Separate,4G based Solution]
•There are 10 Areas which are far from each other or are hard for RS485 Comms. wiring. •Each Area has 1 circuit 3-phase that needed to be monitored. •Each circuit are with rated voltage of 400Vac L-L&230Vac L-N, and with rated current of 150A AC. •Circuits’ current are carried by cable, of which the size was suitatble for φ24mm aperture. (diameter) •For the places that we gonna install the wireless energy meter, it’s covered by stable 4G signal for 4G communications. All the 4G energy meters will be of separate installation and directly send data to IoT system.Devices Deployment Plan – [③ 3-phase, Separate,4G based Solution]
Area #1 – Power Circuit [3-phsae] #1: 1* ADW300-4GHW/C 4G 3-phase Energy Meter [For monitoring Power Circuit #1 and 4G Upstream]3* AKH-0.66/K K-φ24 150/5 Split-core Current Transformer [For current input of ADW300-4GHW/C] . . Area #10 – Power Circuit [3-phsae] #10: 1* ADW300-4GHW/C 4G 3-phase Energy Meter [For monitoring Power Circuit #10 and 4G Upstream]3* AKH-0.66/K K-φ24 150/5 Split-core Current Transformer [For current input of ADW300-4GHW/C]
Communication Structure&Logic – [③ 3-phase, Separate,4G based Solution]
Overall Model Selection&Quoation – [③ 3-phase, Separate,4G based Solution]
Scenario Preset – [④ 3-phase, Separate, WiFi based Solution]
•There are 10 Area which are far from each other or are hard for RS485 wiring. •Each Area has only 1 circuit 3-phase that needed to be monitored online. •Each circuit are with rated voltage of 400Vac L-L&230Vac L-N, and with rated current of 150A AC. •Circuits’ current are carried by cable, of which the size was suitatble for φ24mm aperture. (diameter) •For the places that we gonna install the wireless energy meter, it’s covered by stable WiFi signal for WiFi communications. All the WiFi energy meters will be of separate installation and directly send data to IoT system.Devices Deployment Plan – [④ 3-phase, Separate, WiFi based Solution]
Area #1 – Power Circuit [3-phase] #1:1* ADW300-WF/C WiFi 3-phase Energy Meter [For monitoring Power Circuit #1 & WiFi Data Upstream]3* AKH-0.66/K K-φ24 150/5 Split-core Current Transformer [For current input of ADW300-WF/C] Area #10 – Power Circuit [3-phase] #10:1* ADW300-WF/C WiFi 3-phase Energy Meter [For monitoring Power Circuit #10 & WiFi Data Upstream]3* AKH-0.66/K K-φ24 150/5 Split-core Current Transformer [For current input of ADW300-WF/C]
Communication Structure&Logic – [④ 3-phase, Separate, WiFi based Solution]
Overall Model Selection&Quoation – [④ 3-phase, Separate, WiFi based Solution]
•This Quotation doesn’t include freight charge. To gain a complete quotation, please refer the actual quantity that you want to request for the actual order, once we receiving it. We will issue a Official Proforma Invoice with Acrel Stamps on it for later procedure.
Scenario Preset – [⑤ 1-phase, Centralized, 4G based Solution]
•There are 10 Area with 1-phase Power System needed to be monitored. •Each area has 20 monitoring circuits 1-phase needed to be monitored online. •Rated voltage of monitoring circuit is 230Vac L-N, rated current of monitoring circuit is 80A AC. •All 1-phase energy meter will be of partial centralized installation in each area, which make it possbile for 1 AWT100-4GHW 4G IoT gateway to support 20 ADL200/C 1-phase Energy Meters using RS485 wired communication in a close range. (1 AWT100-4GHW can support max 25 ADL200/ C energy meters if distance allowed (within 400m) and all 25 Energy Meters were of centralized installation along with this 1 AWT100-4GHW)
Communication Structure&Logic – [⑤ 1-phase, Centralized, 4G based Solution]
•4G Communication could be served as one of the final data upstream methods by sending the data to cloud server deployed in Internet so that Acrel IoT System could be interact with these data collected by bottom metering devices like Energy Meter •AWT100-4GHW gateway support upstream of 4G communication with MQTT and MODBUS- protocol and downstream of RS485 communication based on MODBUS-RTU protocol. ADL200/C support upstream communication of RS485 communication based on MODBUS-RTU protocol. •Based on the communication described in item (2), Acrel AWT100-4GHW gateway could receive the data from ADL200/C energy meter using RS485 communication while sending the data further to cloud server using 4G upstream communication. Thus accomplish a complete communication from bottom metering devices to top system software.
Hardware Devices Overview – [⑤ 1-phase, Centralized, 4G based Solution]
Model 1: AWT1000-4GHW IoT 4G Smart GatewayUpstream: 4G LTE [MQTT, MODBUS Protocol]Downstream: RS485 [MODBUS-RTU Protocol]Support:Up to 25 Downstream Devices viaAuxiliaryPower Supply: 85~265Vac [via AWT100-POW]Certificate&Standard:CE; CE-RED; IECMore Introduciton:Acrel IoT Smart 4G Gateway AWT100-4GHW Model 2: AWT100-POW Power Supply Module Input: 85~265Vac Output: 12Vdc Application: Paired with AWT100-4GHW for 85~265Vac Power Supply Input [via PIN L & PIN N] Certificate&Standard: CEOverall Model Selection&Quoation – [⑤ 1-phase, Centralized, 4G based Solution]
•This Quotation doesn’t include freight charge. To gain a complete quotation, please refer the actual quantity that you want to request for the actual order, once we receiving it. We will issue a Official Proforma Invoice with Acrel Stamps on it for later procedure.
Scenario Preset – [⑥ 1-phase, Centralized, WiFi based Solution]
•There are 10 Area with 1-phase Power System needed to be monitored. •Each area has 20 monitoring circuits 1-phase needed to be monitored online. -Rated voltage of monitoring circuit is 230Vac L-N, rated current of monitoring circuit is 80A AC. -All 1-phase energy meter will be of partial centralized installation in each area, which make it possbile for 1 AWT100-WiFiHW WiFi IoT gateway to support 20 ADL200/C 1-phase Energy Meters using RS485 wired communication in a close range. (1 AWT100-WiFiHW can support max 25 ADL200/C energy meters if distance allowed (within 400m) and all 25 Energy Meters were of centralized installation along with this 1 AWT100-WiFiHW)
Communication Structure&Logic – [⑥ 1-phase, Centralized, WiFi based Solution]
•WiFi Communication could be served as one of the final data upstream methods by sending the data to cloud server deployed in Internet so that Acrel IoT System could be interact with these data collected by bottom metering devices like Energy Meter •AWT100-WiFiHW gateway support upstream of WiFi communication with MQTT and MODBUS- protocol and downstream of RS485 communication based on MODBUS-RTU protocol. ADL200/C support upstream communication of RS485 communication based on MODBUS-RTU protocol. •Based on the communication described in item (2), Acrel AWT100-WiFiHW gateway could receive the data from ADL200/C energy meter using RS485 communication while sending the data further to cloud server using WiFi upstream communication. Thus accomplish a complete communication from bottom metering devices to top system software.
Hardware Devices Overview – [⑥ 1-phase, Centralized, WiFi based Solution]
Model 1: AWT1000-WiFiHW IoT WiFi Smart GatewayUpstream Comms.: WiFi [MQTT, MODBUS Protocol]Downstream Comms.: RS485 [MODBUS-RTU Protocol]Support: Up to 25 Downstream Devices via RS485.Auxiliary Power Supply: 85~265Vac [via AWT100-POW]Certificate&Standard: CE; CE-RED; IEC Model 2: AWT100-POW Power Supply Module Input: 85~265Vac Output: 12Vdc Application: Paired with AWT100-4GHW for 85~265Vac Power Supply Input [via PIN L & PIN N] Certificate&Standard: CE Model 2: ADL200 1-phase AC DIN-rail Energy Meter Monitoring: Up 1 circuits 1-phase [AC Metering] Rated Voltage: 220~264Vac L-N Rated Current: 10(80)A AC (via direct connect) Wired Comms: RS485 Interface, MODBUS-RTU Protocol Certificate&Standard: CE; CE-MID; EAC More Introduction:Acrel Single-phase DIN Rail Energy Meter ADL200Overall Model Selection&Quoation – [⑥ 1-phase, Centralized, WiFi based Solution]
This Quotation doesn’t include freight charge. To gain a complete quotation, please refer the actual quantity that you want to request for the actual order, once we receiving it. We will issue a Official Proforma Invoice with Acrel Stamps on it for later procedure.
Scenario Preset – [⑦ 1-phase, Separate,4G based Solution]
-There are 10 Areas power by 1-phase power system, each area is far from each other so impossible for centralized installation of energy meters. -For each area, we need to monitor 1 circuit 1-phase of it for monitoring the overall area’s load power consumption. -Rated voltage of this main incoming circuit 1-phase is 230Vac L-N, and rated/max current was no more than 100A AC. -For the places that we gonna install the energy meter, they are covered by stable 4G signal. -Eventually, for each area we only need 1 pcs ADW310-D16-4GHW/C 1-phase 4G Energy MeterDevices Deployment Plan – [⑦ 1-phase, Separate,4G based Solution]
Communication Structure&Logic – [⑦ 1-phase, Separate,4G based Solution]
-4G Communication could be served as one of the final data upstream methods by sending the data to cloud server deployed in Internet so that Acrel IoT System could be interact with these data collected by bottom metering devices like Energy Meter -ADW310-D16-4GHW/C Wireless 4G 1-phase Energy Meter has a built-in 4G communication module which allow it to directly send data to local 4G telecom tower through 4G signal based on MQTT and MODBUS-TCP protocol without using a extra 4G IoT Gateway. -Each ADW310-D16-4GHW/C has a 4G card tray for installing the 4G sim card which could be bought from your local 4G service provider. -ADW310-D16-4GHW/C also have a RS485 communication normally used for devices adjustment with Acrel ADW310 adjustment softare.
Devices Deployment Plan – [⑧ 1-phase, Separate, WiFi based
-Area #1- Power Circuit (1-phase) #1: – 1* ADW310-D16-WF/C WiFi 1-phase Energy Meter [For monitoring Power Circuit #1 & WiFi Upstream] . Area #10 – Power Circuit (1-phase) #10: – 1* ADW310-D16-WF/C Wireless WiFi Energy Meter [For monitoring Power Circuit #10 & WiFi Upstream]
Communication Structure&Logic – [⑧ 1-phase, Separate, WiFi based Solution]
Overall Model Selection&Quoation – [⑧ 1-phase, Separate, WiFi based Solution]
