Intelligent Centralized Controller
I: Description
CH-J105 Smart Lighting Management Centralized Controller is independently developed by our company,which is widely used in the Smart City Street Lighting Projects, Super-highway’s Tunnels and the Industrial Lighting such as big scale factory and warehouse Lighting System,control lighting fixtures through the man-machine interface,data acquisition and lamps Monitoring.
Although the Traditional lighting fixtures have widely used in the street lighting, tunnel and high buildings, but there are still a lots of problem exit there: Lifetime, Light Attenuation, Bad Factory Environments etc. which will lead to damage the lamps,moreover, dead plate controlling method, Lighting Scene, the fault points and failure lamps only be found by when the worker inspection there, it can not provide a reliable working data to the controllers on time. For these reasons, we offer this muti-functions smart lighting Centralized Controller: Electric Energy/Data acquisition, Fault Detect,Data Process, Remote Copying Control,Loop Power Control, Dimming,Auto-Running, Temperature Collecting, Sensor Data Acquisition etc.
The device has multiple interfaces, in addition to reserved Industrial Bus RS-485, RS-232, it is also equipped with Industrial Touch Screen Interactive Interface, Ethernet Communication Interface, GPRS Communication Interface, Lighting Control Interface (Power Line Carrier or LoRa Communication Channel) Communication Interface to the Loop Controller and Communication Interface with Sensors (such as Illuminance Sensors).The communication performance of the main communication interface is as follows: the communication distance of the RS-485 Industrial Bus can reach 2 km without Repeater, and the actual measurement in the tunnel can reach 1km.; A 7-level gateway can be set in the scene, and the maximum distance can reach 7km according to 1km of the gateway of each level, and the capacity of the equipment in the gateway is up to 255 units; LoRa Communication Interface, the communication distance can reach 2km without Repeater, the measured distance can reach 1km, and the communication distance can reach 10km in the case of repeater.PLC communication interface, the communication distance can reach 400m without repeater, and with repeater In this case, the communication distance can be up to 4km.
II. Electrical Parameter
Item
|
Rating Range
|
Maximum Loading Lamp Qty.
|
400 units(extend to1000 units, option for industry lighting)
|
Working Voltage
|
120/240V±20%( Max.<420V)
|
Working Frequency
|
50Hz - 60Hz
|
SwitchingOutput
|
8A(MAX), Over-current Capacity (resistive load)
|
Insulation withstand voltage
|
4KV, (RS485 interface and power supply)
|
Communication Channels
|
PLC, LoRa, or Hybrid of PLC + LoRa
|
Maximum Consumption Power
|
< 3 watts
|
Remote Control
|
Group & Individual ON/OFF/Dimming
|
Latitude & Longitude Switch
|
Yes
|
Lighting Sensors
|
Seamless Fill brightness by Illuminance Sensor + Motion Sensor
|
Scene Lighting Automatically
|
Rainy, Cloudy, Fogs, Snowing Days Auto-adjusting
|
Grid / Lamp Monitoring
|
V/I/W/PW, Active & Reactive Power, Lamp Tempt., Cabinet Door Status, Air quality PM2.5, Snow, Rain, Fogs etc.
|
Power Metering
|
Reporting & Analysis
|
GPRS Warning
|
Lamp Failure,Over Temperature/Voltage, Wires Stolen, GPS location the Stealing-electricity on google map.
|
Statistical Analysis
|
Luminance Ration, Alarm Statistics, Power Saving Ration, Voltage/Current Fluctuate, Environment Monitor
|
Protection
|
Automatic Shut down when Over Tempt. ; Location Stealing & Automatic Calculation of Power Stealing, Wire Stealing Alarm & Location, Decreasing Current Impact & Extend Lifetime.
|
Asset Management
|
Lower Budget can choose our Asset Managing System
|
Video Monitoring
|
CCTV Camera for safer city (option)
|
EV Charging
|
Option
|
Insulation withstand voltage
|
L/N-PE
|
1.5KV
|
L/N-485/DIM
|
3.5KV
|
Surge Protect(L-N L-PE N-PE)
|
±8KV
|
StaticElectricity
|
±8KV
|
Operating Temperature
|
-25℃~+60℃
|
Storage andWorkingHumidity
|
≤85%
|
IP Rating
|
IP54
|
Dimensions
|
155x110*110mm (L/W/H)
|
Certifications
|
CE,ROHS
|
III: Key Features
1. Terminal Description
NO.
|
MARKS
|
Functions Description
|
01
|
IA+
|
A Phase Current Sampling Interface +
|
02
|
IA-
|
A Phase Current Sampling Interface -
|
03
|
IB+
|
B Phase Current Sampling Interface+
|
04
|
IB-
|
B Phase Current Sampling Interface-
|
05
|
IC+
|
C Phase Current Sampling Interface+
|
06
|
IC-
|
C Phase Current Sampling Interface-
|
07
|
NC
|
Empty
|
08
|
UN
|
Power supplyNLine
|
09
|
UC
|
CommunicationcouplingC phase
|
10
|
UB
|
Communication couplingB phase
|
11
|
UA
|
Power supply/communication couplingA phase
|
12
|
RA1
|
Power Supply StatusOutput Detect Port --In
|
13
|
RA2
|
Power Supply StatusOutputDetect Port --In
|
14
|
RXD
|
RS232 Receiving Port
|
15
|
TXD
|
RS232 Sending Port
|
16
|
CGND
|
RS232 Common Port
|
17
|
COM
|
PowerPulseCommonPort
|
18
|
W
|
Active energy pulse output
|
19
|
Var
|
Reactive energy pulse output
|
20
|
GND
|
Power Supply StatusInputDetect Port - Common
|
21
|
IN1
|
Power Supply StatusInputDetect Port - 1
|
22
|
IN2
|
Power Supply StatusInputDetect Port - 2
|
23
|
485B2
|
RS485 Communication Port2 B
|
24
|
485A2
|
RS485 Communication Port2 A
|
25
|
485B1
|
RS485 Communication Port1 B
|
26
|
485A1
|
RS485 Communication Port1 A
|
2. Indicator Description
No.
|
Name
|
Functions
|
01
|
Online
|
GPRS Online Indication
|
02
|
Reactive Power
|
ReactiveEnergyPulseOutput
|
03
|
Loop
|
Power Supply Output Status
|
04
|
Manual
|
Manual/Auto-Run Status
|
05
|
Status
|
Device is working- flashing 1/sec
|
06
|
Power
|
Device PowerSupply
|
07
|
Active Power
|
ReactiveEnergyPulseOutput
|
08
|
Warning
|
Failure Indication
|
09
|
GPRS
|
GPRS Network port communication indication
|
10
|
PLC / LoRa
|
Power Line Carrier or LoRa Communication
|
3. Button Operation Instructions
1). Manual /Auto Run
Under Manual Status -The Dimming Button Operation on the panel is Effective, otherwise the operation is invalid.
Press the "Manual/Auto-Run" button to achieve manual / automatic state transition. That is to say, now it is Manual State, press again to enter the Auto-Run state.
When changing from Manual state to Automatic state, the equipment will automatically broadcast and issue Automatic Operation Recovery Command.
2). Controlling Button
No.
|
Button
|
Function
|
01
|
100%
|
Send 100% dimming command to the selected loop
|
02
|
75%
|
Send75% dimming command to the selected loop
|
03
|
50%
|
Send50% dimming command to the selected loop
|
04
|
25%
|
Send25% dimming command to the selected loop
|
05
|
Off
|
SendOff command to the selectedLoop (0% dimming)
|
4. Lighting Controlling Functions
1). Control Priority Level
High priority or Same Level can change the state of low priority or same level, while low priority can not change the state of high priority.
The control mode corresponds to the following priorities.
2). Priority Level 1 - Recovery Auto-Run Operating (Highest Priority Level)
At this time, the state of priority Level 4 is executed regardless of the control state in which it was previously operated(the specific operation is performed according to the setting value at the time of installation).
a) The server or client remotely issues “Recovery Auto-Run” command.
b) Press the "Manual/Auto - Run" Button on the device panel
3). PriorityLevel2-LocalManualControl
Change the illuminance of the lamp through the control button on the device panel; at this time, the control commands of priority 3 and priority 4 will not be executed if the manual command is executed.
4). Priority Level 2-RemoteOperationControl
Remotely issue the controlCommands through the Server or the Client; at this time, the Lighting that executes theManual Command, the Priority Level 3 and Priority Level 4 control status will not be executed.
5). PriorityLevel3- IlluminationControl
Controls the Brightness values of all Fixtures according to preset rules by the received illuminance value.
6). PriorityLevel4 -Latitude&LongitudeControl
By setting the Latitude and Longitude values, the Sunrise and Sunset times are calculated, Disconnect the Loop at the sunrise time, Closed the Loop at the sunset time . The On-Off time can be fine-tuned by the Sunrise and Sunset offset time, and the range of fine-tuned for 30 minutes.
7). Priority Level 4 -ScheduleControl
Control the Brightness Value of the Fixture through the set 6-Segment Schedule.
5. DataCollection
Remote or Local Acquisition of Loop Controllers and Lamps Operating Status and Parameters.
6. ElectricalParameterAcquisition (Optional)
1).Collection ofElectricityConsumption
The device has a Built-in Three-Phase Energy Collection Module, which can collect the Energy Measurement Value of the Internal Module and Report it.
The Device can Collect the Energy Measurement Value of the Loop Controller and the Energy Meter and Report it.
2). ElectricalParameterAcquisition
The Built-in Three-Phase Energy Collection Module can collect the Voltage, Current, Active Power and Power Factor of the internal Module and Report it.
The Device can collect the Voltage, Current, Active Power and Power Factor of the Loop Controller, the Energy Meter and the Intelligent Lighting management Terminal, and Report it.
7. Fault Reporting
The Fault of the Device itself Occurs(AC Contactor Fault, Clock Fault, Communication Fault, etc.), and the Fault Information is automatically reported to the Server.
Collect the Information:such as Loop Controllers Fault and Light Controllers Fault, etc. (AC Contactor Faults, Clock Faults, Communication Faults, Lamp Faults, Temperature Faults, etc.)
8. DataCommunicationChannels
1) . PLC - Power Line Communication
Power Line Communication (PLC) is a communication technology that enables sending data over existing power cables. This means that, with just power cables running to an electronic device (for example) one can both power it up and at the same time control/retrieve data from it in a half-duplex manner.
2). LoRa Communication
Through LoRa Wireless Communication Channel, the Data Exchange and Control Command Reception between the Device and the Man-Machine Interface Device are realized. The Technical advantages are as follows:
a) Adopting the latest International IoT(Internet of Things) LoRaCommunication Technology, combined with AES128 Communication Encryption Technology and Self-Organizing Network Technology, the Communication Distance, Reliability and Security are greatly improved.
b) The Point-to-Point Communication Distance can reach 3,000m, and the measured average in the Power Plant is 1,000m.
c) In the case of Repeater, measured 13,000m can be normal communication.
3). RS-485 Communication
Through RS-485 Communication Channel, the Data Exchange and Control Command reception between the Device and the Man-Machine Interface Device are realized. The Technical Advantages are as follows:
a). The device capacity in the gateway is 255.
b). Strong Anti-Interference, Differential Mode Communication, and Software Fault Tolerance, no need to use Dedicated RS-485 Communication Line, reduce engineering cost under the premise of Ensuring Reliability
9. Extended Function (Optional)
1). Linkage
The Device can be linked with Equipment such as Cameras and Conveyer Belt; For example, when the Camera is activated, the Brightness of the Corresponding Lighting Area is Raised lighting the whole area, to Restore the Original Illumination when theCamera Stop Shooting; Another example, when the Conveyor Belt start transmission, its corresponding lighting area is adjusted the brightness, illuminates the area, and restores the minimum safe illuminance when Stop Transmission.
2). Dimming Loop Extension
The Control Loop can be concatenated to realize the application of Multiple Requirements.
IV: INSTALLING DIMENSIONS
1. The equipment can be mounted on standard rails, but also can be fixed by sampling screws.
2. Dimensions:155mm*110mm*101mm ± 0.5mm
V: WIRING DIAGRAM