#HYTRONIK #HEC7030 #SensorDIM #LED #Driver #InstructionManual #OfficeLighting #CommercialLighting #ClassroomLighting #MeetingRoomLighting #OccupancySensor #LEDdriver #24hourDaylightMonitoring #Easyontheeye #DIPswitch #5YearWarranty #TechnicalData #InputCharacteristics #MainsVoltage #InputCurrent #InputPower #DriverData #OffloadVoltage #PowerFactor #Efficiency #OutputCurrent #SafetyandEMC #EMCstandard #SafetyStandard #DielectricStrength #AbnormalProtection #Certification #Environment #OperationTemperature #CaseTemperature #IPrating #ConversionTable #MainBody #SensorAntenna #SAM5 #SAM5IP65 #SAM9 #Sem-autoMode #ManualOverride #Settings #RemoteControl #PermanentON/OFF #SensorMode #ResetFunction #Dimming #TestMode #PowerOutputPower #AmbientDaylightThreshold #LuxDisable #SceneMode #DetectionRange #HoldTime #StandbyPeriod #StandbyDimmingLevel #DaylightSensor #DetectionPattern #DIPSwitchSettings #DetectionRange #HoldTime #DaylightThreshold #StandbyPeriod #StandbyDimmingLevel
HYTRONIK HEC7030 SensorDIM Integrated HF Sensor and LED Driver Instruction Manual
Introduction:
The HYTRONIK HEC7030 SensorDIM Integrated HF Sensor and LED Driver Instruction Manual serves as a comprehensive guide for users looking to seamlessly integrate and utilize the HYTRONIK HEC7030 sensor and LED driver. With detailed instructions and clear explanations, this manual ensures that users can easily understand and maximize the functionality of this advanced technology.
Compatibility and Functionality:
The HEC7030 SensorDIM Integrated HF Sensor and LED Driver is designed to deliver superior performance in various lighting applications. Its intelligent sensor technology enables it to accurately detect motion and ambient light levels, allowing for efficient control of LED lighting fixtures. Offering exceptional compatibility, this integrated solution is suitable for both new installations and retrofit projects.
Installation Process:
The manual outlines a step-by-step installation process, starting from the initial preparation to the final configuration steps. Clear and concise instructions, augmented with labeled diagrams, make the installation process uncomplicated and hassle-free. Users can effortlessly connect the HF sensor and LED driver to their existing lighting systems without the need for extensive technical knowledge.
Settings and Configuration:
This comprehensive manual provides in-depth guidance on configuring and adjusting specific settings for optimal performance. Users can customize various parameters, such as sensitivity and time delay, to meet their specific lighting requirements. With this flexibility, the HEC7030 SensorDIM Integrated HF Sensor and LED Driver can cater to a wide range of lighting environments, including offices, parking lots, and warehouses.
Troubleshooting and Maintenance:
Should users encounter any issues while using the sensor and LED driver, this manual offers a troubleshooting section that presents common problems and their respective solutions. Furthermore, it provides valuable tips for regular maintenance, ensuring that the system operates at its highest efficiency throughout its lifespan.
Conclusion:
The HYTRONIK HEC7030 SensorDIM Integrated HF Sensor and LED Driver Instruction Manual is an essential resource for any user seeking to harness the full potential of this cutting-edge lighting technology. Easy-to-follow instructions, comprehensive settings guidance, troubleshooting support, and maintenance tips make this manual an indispensable tool for optimizing the performance of the HEC7030 SensorDIM Integrated HF Sensor and LED Driver.
HYTRONIK HEC7030 SensorDIM Integrated HF Sensor and LED Driver Instruction Manual
Applications
Occupancy sensor and constant current LED driver, 2-in-1. Suitable for building into the fixture for:
- Office / Commercial Lighting
- Classroom
- Meeting Room
Use for retrofit and new luminaire designs/installations
Features
24 hour daylight monitoring dawn/dusk sensor
Special photocell to measure and differentiate natural light from LED light from behind the fixture cover One-touch daylight learning via remote control
Tri-level dimming control based upon occupancy (also known as corridor function)
Easy-on-the-eye operation which makes the light turning on/off less uncomfortable
DIP switch offers multiple current selections for different luminaire requirements
5-Year Warranty
Technical Data
Input Characteristics
Model No. | HEC7030 |
Mains voltage | 220~240VAC 50/60Hz |
Input current | 0.17 – 0.16A |
Input power | 35W |
Warming-up | 20s |
Driver Data
Off load voltage | 75V |
Power factor | >0.9 |
Efficiency | 85% (Max.) |
Output current | 350/500/550/700/750/900mA |
Safety and EMC
EMC standard (EMC) | EN55015, EN61547, EN61000-3-2/-3-3 |
Safety standard (LVD) | EN61347-1, EN61347-2-13 |
Dielectric strength | Input→output: 3750VAC / 5mA /1min |
Abnormal protection | Output short-circuit protection |
Ceritification | CE, RED, RCM, EMEC, UKCA |
Environment
Operation temperature | Ta: -20OC ~ +50OC |
Case temperature (Max.) | Tc: +85OC |
IP rating | IP20 |
Conversion table for max. quantities of drivers on other types of Miniature Circuit Breaker
MCB Type | Rating | Relative number of drivers |
B | 16A | 100% (see table above) |
B | 10A | 63% |
B | 13A | 81% |
B | 20A | 125% |
B | 25A | 156% |
MCB Type | Rating | Relative number of drivers |
C | 10A | 104% |
C | 13A | 135% |
C | 16A | 170% |
C | 20A | 208% |
C | 25A | 260% |
Main Body
With the detached sensor antenna SAM5, it requires very little space on the LED panel. Only the antenna is installed on the PCB surface, while the main body can be hidden behind the panel. Completely shadow free.
Model SAM5
Super-compact sensor antenna, with optional cable entry (side entry and back entry)
Model SAM5/IP65
Super-compact sensor antenna
Model SAM9
Basic compact sensor antenna, can not work with remote control.
2 in 1 and cost effective! This is a smart integration of microwave motion sensor and multiple current selection LED driver, which givespre-selected constant current to drive the LEDs to work based upon movement detection.
Note: We recommend the mounting distance between sensor to sensor should be more than 2m to prevent sensors from false-triggering.
Sensor Functions and Features
24h Daylight Monitoring Function
Now with Photocell Advance technology, natural daylight will override the occupancy sensor. Automatic on/off, based upon natural daylight conditions, our innovative and patented software enables our antenna with built-in daylight sensor to provide a “smart photocell” or dawn/dusk function from behing the luminaire cover, preventing the need to drill for an external photocell. This function is activated when the stand-by period is set to “+∞ ”.
- The light switches on at 100% when there is movement detected.
- The light dims to stand-by level after the hold-time.
- The light remains in dimming level at night.
- The light turns off completely when natural light reaches above daylight threshold.
- The light automatically turns on at 10% when natural light is insufficient (no motion).
Settings on this demonstration:
Hold-time: 10min
Daylight threshold: 50lux
Stand-by dimming level: 10%
Stand-by period: +∞
Primary/secondary Group Control
By connecting the “EXT” terminals in parallel (maximum 10pcs, see wiring diagram), no matter which sensor detects motion, all HEC7030 in the group will turn on the lights when surrounding natural light is below daylight threshold. The detection area is greatly enlarged in this way. Other settings such as hold-time, stand-by period, stand-by dimming level and daylight threshold on each individual unit stay the same.
Note: if the surrounding natural light of the sensor which detects movement is sufficient, all lights in the group will not be triggered on.
Semi-auto Mode (Absence Detection)
In many other cases, people do not want to have a sensor to switch on the light automatically, for example, when people is just passing by, there is no need to have the light on.
The solution is to apply ‘Semi-auto mode (absence detection)’: by pressing the “M/A” button on the remote control and manual initiation on the push-switch, the motion sensor remains active, turns on and dims the light automatically, and eventually switches it off in absence. This is a good combination of sensor automation and maunal override control, to have the maximum energy saving, and at the same time, to keep efficient and comfortable lighting.
- Light does not switch on when presence detected.
- Short push to activate the sensor and switch on the light. The light turns on full, and the sensor stays in sensor mode.
Manual Override
This sensor reserves the access of manual override function for end-user to switch on/off, or adjust the brightness by push-switch, which makes the product more user-friendly and offers more options to fit some extra-ordinary demands:
- Short Push (<1s): on/off function;
On → Off: the light turns off immediately and cannot be triggered ON by motion until the expiration of pre-set hold-time. After this period, the sensor goes back to normal sensor mode.
Off → On: the light turns on and goes to sensor mode, no matter if ambient Lux level exceeds the daylight threshold or not. - Long Push (>1s): adjust the hold-time brightness level.
Note:
- if end-user do not want this manual override function, just leave the “push” terminal unconnected to any wire.
- if the detection area is set at “Sensor OFF”, HEC7030 becomes a regular dimmable LED driver which can be dimmed (1% ~ 100%) by push-switch.
- end-user can choose either function or function for application. Default function is manual override
Settings (Remote Control HRC-05)
Permanent ON/OFF function
Press the “ON/OFF” button, the light goes to permanent on or permanent off mode, and the sensor is disabled. Press “Auto Mode”, “RESET” or “Scene mode” buttons to quit this mode. The mode will change to AUTO Mode after power failure.
Sensor mode
Press “Auto Mode” button, the sensor starts to function and all settings remain the same as the latest status before the light is switched on/off.
Reset function
Press “RESET” button, all settings go back to default settings.
Dim +/-
Long press “Dim +” or “Dim ” to adjust the light brightness during hold-time. “ + ” means dimming up, “ ” means dimming down.
Test mode
This button is for testing purpose only. The sensor goes to test mode (hold-time is 2s) after commissioning, meanwhile the stand-by period and daylight sensor are disabled. * This mode can be ended by pressing “reset”, or any button of “scene mode” and “hold-time”. The sensor settings are changed accordingly
Power output Power
By pressing these two buttons, the output shifts between 80% (at initial 10,000 hours) and 100%, for energy saving purpose
Ambient daylight threshold
Press this button, the latest surrounding lux value overwrites the previous lux value learned, and it is set as the daylight threshold. This feature enables the fixture to function well in any real application circumstances.
Lux disable
Press this button, the built-in daylight sensor stops working, and all motion detected could turn on the lighting fixture, no matter how bright the natural light is.
Manual override / Semi-auto mode (absence detection)
By pressing this button, the sensor goes to manual override or Semi-auto mode (absence detection) function. * The buzzer beeps twice if it’s manual override function, and beeps once if it shifts to Semi-auto mode (absence detection).
Scene mode
There are 4 scene modes fixed program built in the remote control to choose for different applications:
Scene options | Detection range | Hold-time | Stand-by period | Stand-by dimming level | Daylight sensor |
SC1 | 100% | 1min | 10min | 10% | 2Lux |
SC2 | 100% | 5min | 10min | 10% | 2Lux |
SC3 | 100% | 10min | 30min | 10% | 10Lux |
SC4 | 100% | 10min | 10% | 50Lux |
* End-user can adjust the settings by pressing buttons of detection range/hold-time/stand-by period/stand-by dimming level/daylight sensor. The last setting stays in validity
Detection range
Press the buttons of “detection range” to set detection range at 10% /50% /100%.
Hold-time
Press the buttons of “hold-time” to set hold-time at 30s / 1min / 5min / 10min / 30min.
Daylight sensor
Press the buttons of “daylight sensor” to set daylight threshold at 2Lux / 10Lux / 50Lux.
Stand-by dimming level
Press the buttons of “stand-by dimming level” to set the stand-by dimming level at 10% / 20% / 30%.
Detection Pattern
Ceiling mounted detection pattern (m)
Wall mounted detection pattern (m)
DIP Switch Settings
Detection Range
Sensor sensitivity can be adjusted by selecting the combination on the DIP switches to fit precisely for each specific application.
Note: by choosing “Sensor OFF”, it becomes an ordinary driver without occupancy detection.
Hold Time
Select the DIP switch configuration for the light on-time after presence detection. This function is disabled when natural light is sufficient.
Note: this function is disabled when the natural daylight exceeds the daylight threshold setting for more than 5 minutes.
Daylight Threshold
Set the level according to the fixture and environment. The light will not turn on if ambient lux level exceeds the daylight threshold preset. Please note that the ambient lux level refers to internal light reaching the sensor. Disabling the daylight sensor will put the sensor into occupancy detection only mode.
Stand-by period (corridor function)
This is the time period you would like to keep at the low light output level before it is completely switched off in the long absence of people.
Note: “0s” means on/off control;
“+ ”means the stand-by period is infinite and the light is effectively controlled by the daylight sensor, off when natural light is sufficient and automatically on at dimming level when insufficient.
Stand-by dimming level
The setting is used to select the desired dimmed light level used in periods of absence for enhanced comfort and safety.
9 | ||
I | 10% | |
II | 30% |
Wiring Diagram_Push
Wiring Diagram_Push + EXT.
LED Driver Specification
LED Current Selections
The current can be easily configured by choosing the correct combination of the DIP switches (see table on the left).
LED Maximum Load and Voltage
This multiple current LED driver has a wide range of loading capacity:
Maximum load @ different currents:
Maximum voltage @ different currents:
Lifespan VS case temp
Additional Information / Documents
- For full explanation of Hytronik Photocell AdvanceTM technology, please kindly refer to www.hytronik.com/download ->knowledge ->Introduction of Photocell Advance
- Regarding precautions for microwave sensor installation and operation, please kindly refer to www.hytronik.com/download ->knowledge ->Microwave Sensors – Precautions for Product Installation and Operation
- Regarding Hytronik standard guarantee policy, please refer to www.hytronik.com/download ->knowledge ->Hytronik Standard Guarantee Policy
Documents / Resources
HYTRONIK HEC7030 SensorDIM Integrated HF Sensor and LED Driver [pdf] Instruction Manual HEC7030, HEC7030 SensorDIM Integrated HF Sensor and LED Driver, HEC7030 SensorDIM, SensorDIM, SensorDIM Integrated HF Sensor and LED Driver, Integrated HF Sensor and LED Driver, Integrated HF Sensor, LED Driver, HF Sensor, Sensor |
References