slide1 n.
Download
Skip this Video
Loading SlideShow in 5 Seconds..
A GENERIC OFFICE WITHOUT THE WISENET SYSTEM PowerPoint Presentation
Download Presentation
A GENERIC OFFICE WITHOUT THE WISENET SYSTEM

Loading in 2 Seconds...

play fullscreen
1 / 36

A GENERIC OFFICE WITHOUT THE WISENET SYSTEM - PowerPoint PPT Presentation


  • 84 Views
  • Uploaded on

A GENERIC OFFICE WITHOUT THE WISENET SYSTEM. A GENERIC OFFICE WITH THE WISENET SYSTEM. WHAT THE WISENET SYSTEM CONSISTS OF. Gateway / Server / Wireless Network Manager.

loader
I am the owner, or an agent authorized to act on behalf of the owner, of the copyrighted work described.
capcha
Download Presentation

PowerPoint Slideshow about 'A GENERIC OFFICE WITHOUT THE WISENET SYSTEM' - lieu


Download Now An Image/Link below is provided (as is) to download presentation

Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author.While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server.


- - - - - - - - - - - - - - - - - - - - - - - - - - E N D - - - - - - - - - - - - - - - - - - - - - - - - - -
Presentation Transcript
slide4

WHAT THE WISENET SYSTEM CONSISTS OF

Gateway / Server / Wireless Network Manager

The Gateway or PAN Coordinator automatically discovers and manages the Router Repeaters and Sensors that are designated to be part of the Network. The Gateway only communicates directly with the Router Repeaters.

Router Repeater / Mesh Node

The Router Repeaters communicate with the Sensors and receive the actual counts of activity at each individual Workstation or Position. They in turn forward that data to the Gateway. Each Router Repeater can support a maximum of 32 Sensors, 20 is optimal.

Sensor / Activity Counter / Star Node

The Sensors are installed at each work position to be measured and forward their activity counts to the Router Repeaters which in turn forward that data to the Gateway where it is stored for daily transmission over the Internet to the Abintra Wisenet client application. The data can be shared with other applications using the site IT Infrastructure.

slide5

WISENET IS A FULLY AUTONOMOUS, SELF HEALING DISCREET WIRELESS MESH NETWORK

  • Installation takes place during unoccupied periods
  • Sensors are mounted under work surfaces
  • Router Repeater Mesh Nodes connect to power outlets
  • Gateways connect to Customer IT Network
slide6

REPORTS VIA WEB PORTAL

Abintra Client App

Site Firewall

  • Data from Sensors is pushed to Router Repeaters
  • Data from Router Repeaters is pushed to Gateway
  • Data from Gateway is pushed to Abintra Client Application
slide7

TECHNICAL POINTS

Q Can the Abintra Wisenet Wireless Network interfere with other wireless infrastructure in our facility ?

A No, the transceiver power levels are too low to affect 2.4 GHz Wi-Fi Traffic and we use continuous dynamic Frequency Hopping techniques to avoid transmitting on saturated channels.

Q Are there any health risks associated with the wireless network devices?

A No, again the power levels are significantly less than those associated with Wi-Fi or even individual cell phones.

Q What are the sensors active elements?

A The active element in the sensor is a Passive Infrared Motion Sensor that senses the human body heat wave form signature, no cameras, no microphones, and no RFID tags.

Q What type of Wireless Network is Wisenet?

A It is 802.15.4, similar to 802.11 it operates in the same 2.4 GHz RF spectrum but at highly restricted transmission intervals and power levels.

Q How is the Network secured?

A All Mesh communication traffic is in compliance with the NIST AES-197 encryption standards.

slide8

WHAT WISENET SEES

TIME: 09:50

Workstations

Conference Room

Touchdown

Count

24

12

12

Occupied

18

12

0

Utilization

75.0%

100.0%

0.0%

Unoccupied

Occupied

slide9

HOW DATA CAN BE USED TO EVALUATE OR AUGMENT OTHER FACILITY FUNCTIONS

TIME: 10:00

Workstations

Conference Room

Touchdown

Count

24

12

12

Occupied

16

2

3

Utilization

66.6%

16.6%

25.0%

  • The Meeting Room with 12 Seats was booked through the In House Event Management System for a party of 9, yet only 2 people actually used the room for most of the booked time.
slide10

FOLLOWING THE SURVEY CHANGES TO THE SPACE CAN BE MADE WITH PRECISION

TIME: 10:10

Workstations

Conference Room

Touchdown

Count

24

12

12

Occupied

14

0

0

Utilization

58.3%

0.0%

0.0%

slide11

10 MINUTE RESOLUTION PROVIDES HIGHLY ACCURATE USE RATE

TIME: 10:20

Workstations

Conference Room

Touchdown

Count

24

12

12

Occupied

19

0

1

Utilization

79.2%

0.0%

8.3%

slide12

OTHER FACTORS SUCH AS VACATION AND FIELD DUTIES CAN BE FACTORED

TIME: 10:30

Workstations

Conference Room

Touchdown

Count

24

12

12

Occupied

19

1

1

Utilization

79.2%

8.3%

8.3%

slide13

STATISTICALLY THIS CONFERENCE ROOM CAN BE CONVERTED FOR OTHER USE

TIME: 10:40

Workstations

Conference Room

Touchdown

Count

24

12

12

Occupied

20

1

1

Utilization

83.3%

8.3%

8.3%

slide14

Now that you have Utilization / Occupancy Data what else can be done with it?

  • Dynamic feed forward information to Lighting Control Systems
  • Dynamic feed forward information to Building Automation Systems
  • Dynamic feed forward information to Security Administration
  • Daily Reports to Facility Services
slide15

THESE NEXT SLIDES DEPICT HOW A DYNAMIC MEASUREMENT OF OCCUPANCY CAN BE

APPLIED TO THE CONTROL OF NEXT GENERATION LIGHTING PRODUCTS THAT ARE AVAILABLE TODAY. CONTROL ENGINE BY EXP , LED LUMINAIRES BY TREND LIGHTING AND DYNAMIC OCCUPANCY MEASUREMENT BY ABINTRA WISENET.

points
Points
  • System diagram – type 1 – 1 fixture / driver
  • System diagram – type 2 – N fixtures / driver
  • Recommend Luminaire specifications
  • Recommend Driver specifications
  • Appendix: Other Luminaire & Driver selections
type 1 1 luminaire driver description
type 1 – 1 luminaire/ driverdescription
  • All luminaires are Class 2 LED light fixtures
  • Each LED driver is paired with only one luminaire
  • LED drivers are located remotely
  • The LED driver model is dimmable
  • 1 wireless dimmer module dims single or multiple LED drivers depending on resolution desired
type 1 1 luminaire d river
type 1 – 1 Luminaire / Driver

1-10V or PWM or On/Off switch

1-10V or PWM or On/Off switch

1-10V or PWM or On/Off switch

Wireless Dimmer

Wireless Dimmer

Wireless Dimmer

+

-

+

-

+

-

LED driver

LED driver

LED driver

LED driver

LED driver

LED driver

LED driver

LED driver

LED driver

Line Voltage

Line Voltage

Line Voltage

Zone 2

Zone 3

Zone 1

- +

- +

- +

- +

- +

- +

- +

- +

- +

luminaire

luminaire

luminaire

luminaire

luminaire

luminaire

luminaire

luminaire

luminaire

DC

DC

DC

DC

DC

DC

DC

DC

DC

type 2 n luminaires driver description
type 2 – N luminaires/ driverdescription
  • All luminaires are Class 2 LED light fixtures
  • Each LED driver is paired with single or multiple luminaires
  • LED drivers are located remotely
  • The LED driver model is dimmable
  • 1 wireless dimmer module dims single or multipleLED drivers depending on resolution desired
type 2 n luminaires driver
type 2 – N luminaires/ driver

1-10V or PWM or On/Off switch

1-10V or PWM or On/Off switch

1-10V or PWM or On/Off switch

Wireless Dimmer

Wireless Dimmer

Wireless Dimmer

+

-

+

-

+

-

LED driver

LED driver

LED driver

Line Voltage

Line Voltage

Line Voltage

- +

- +

- +

- +

- +

- +

Zone 3

Zone 2

Zone 1

DC

DC

DC

DC

DC

DC

luminaire

luminaire

luminaire

luminaire

luminaire

luminaire

luminaire

luminaire

luminaire

- +

- +

- +

DC

DC

DC

led luminaire 2x2
LED luminaire 2x2
  • PN: GLT Ceiling Lighting 6060 UL
  • 46W, 36VDC(estimated. Depending on the driver chosen)
  • 3000 LM output
  • Beam Angle 110°-120°
  • Net Weight/Gross Weight: 12.5 lbs. (N.W)
  • UL certified
led luminaire 2x4
LED luminaire 2x4
  • PN: JZPL1206-B1-36V
  • 83W, 36VDC (estimated. Depending on the driver chosen)
  • 6000 LM output
  • Beam Angle 110°-120°
  • Dimensions: 1598L*598W*44.6H(mm)/ 47.2L * 23.6W * 1.77H inch
  • Net Weight/Gross Weight: 25.5 lbs. (N.W)
  • UL
led driver 1 luminaire driver hlg 60h 36 b
LED driver - 1 luminaire/ driver HLG – 60H- 36B
  • 60W
  • 95% high efficiency
  • 110~277VAC input
  • 3 in 1 dimming function (1~10VDC, PWM signal  or resistance)
  • Withstand 4kV surge, suitable for LED street lighting
  • UL / CUL / TUV / PSE / CE certified
  • 5 years warranty 
led driver 1 luminaire driver hvg 100 36b
LED driver - 1 luminaire/ driver HVG – 100- 36B
  • 100W
  • 95% high efficiency
  • 180~480VAC input
  • 3 in 1 dimming function (1~10VDC, PWM signal  or resistance)
  • Withstand 4kV surge, suitable for LED street lighting
  • UL / CUL / TUV / PSE / CE certified 
  • 5 years warranty 
led driver n luminaire driver hlg 320h 36b
LED driver - N luminaire/ driver HLG – 320H- 36B
  • 320W
  • 95% high efficiency
  • 110~277VAC input
  • 3 in 1 dimming function (1~10VDC, PWM signal  or resistance)
  • Withstand 4kV surge, suitable for LED street lighting
  • UL / CUL / TUV / PSE / CE certified 
  • 5 years warranty
dimmable led driver list
Dimmable LED driver list
  • HLG Series - B type: IP67, 3 in 1 dimming function (1~10VDC, PWM signal or resistance)
    • HLG-40H-XXB
    • HLG-60H-XXB
    • HLG-80H-XXB
    • HLG-100H-XXB
    • HLG-120H-XXB
    • HLG-150H-XXB
    • HLG-185H-XXB
    • HLG-240H-XXB
    • HLG-320H-XXB
    • XX means Voltages=12,15,20,24,30,36,42,48,54
  • HVG(C) Series - B type: IP67, 3 in 1 dimming function (1~10VDC, PWM signal or resistance)
    • HVG-100-XXB
    • HVG-150-XXB
    • XX means Voltages=12,15,20,24,30,36,42,48,54
  • HLP Series
    • HLP-40H-XX
    • HLP-60H-XX
    • HLP-80H-XX
    • XX means Voltages=12,15,20,24,30,36,42,48,54
  • HLN Series - B type: 3 in 1 dimming function (1~10VDC, PWM, resistance)
    • HLN-40H-XXB
    • HLN-60H-XXB
    • HLN-80H-XXB
    • XX means Voltages=12,15,20,24,30,36,42,48,54
  • LPF Series - D type: 3 in 1 dimming function (1~10VDC, PWM, resistance)
    • LPF-16D-XX
    • LPF-25D-XX
    • LPF-40D-XX
    • LPF-60D-XX
    • LPF-90D-XX
    • XX means Voltages=12,15,20,24,30,36,42,48,54
  • ELN Series
    • ELN-30-XXD
    • ELN-30-XXP
    • ELN-60-XXD
    • ELN-60-XXP
    • XX means Voltages=12,15,20,24,27,48
  • If dimming not required, switching power supplies can be used.
slide28

EXP Niagara Control Engine

Occupancy / Utilization Data feed forward to the local control engine from the Abintra Sensing Network.

Control Actions, On/Off, Dimming, Ambient Adjustment, Master Scheduling feed from the control engine to individual groups of LED’s.

slide29

In the example shown below in an existing facility the furniture infrastructure may not always be ideally in alignment with the existing Lighting Fixture locations. The Fixtures highlighted in red would be the Master LED Luminaire with the PWM Driver and the associated slave LED’s would be connected by low voltage Class II cabling.

slide30

IN THIS SCENARIO ONLY 29% OF THE AREA LIGHTING NEED BE AT 100%

71% OF THE LIGHTING NEED ONLY OUTPUT AT 20%

LIGHTING ENERGY SAVINGS OF 50% DYNAMICALLY CONTROLLED

  • Savings from LED vs. T8 Fluorescent 42%
  • Savings of 50% on LED Luminaires via Occupancy Control
  • Savings 8% on avoided HVAC Lighting Load Cooling
slide31

THESE NEXT SLIDES DEPICT HOW DYNAMIC MEASUREMENT OF OCCUPANCY CAN BE

APPLIED TO AUGMENT YOUR EXISTING BUILDING AUTOMATION SYSTEM PROCESSES, NOT BY DIRECTLY CONTROLLING RELATED HVAC SYSTEMS BUT BY PROVIDING HIGHER RESOLUTION OCCUPANCY DATA TO THOSE SYSTEMS THAT SERVE THE OCCUPIED AREAS.

slide32

WHAT THE BUILDING AUTOMATION SYSTEM SEES

4 Deg F Above Set Point

2 Deg F Above Set Point

At Set Point

Typical Area Covered by a BAS Sensor Controlling a VAV Box serving 4,000 Square Feet

Single Point of Measurement

2 Deg F Below Set Point

4 Deg F Below Set Point

slide33

WHAT WISENET SEES

4 Deg F Above Set Point

Because each Wisenet Sensor can be populated with a Temperature Sensor a detailed heat map of each area down to position level can be dynamically acquired.

2 Deg F Above Set Point

At Set Point

Typical Area Covered by a BAS Sensor Controlling a VAV Box serving 4,000 Square Feet

Single Point of Measurement

2 Deg F Below Set Point

4 Deg F Below Set Point

slide34

WHAT THE FACILITY MAINTENANCE DEPARTMENT CAN NOW SEE

The air distribution ductwork downstream from the VAV Box typically has manual balancing dampers which are initially set by the contractor of record.

Over the course of time with internal equipment changes and floor layout alterations the air balance may not be adequate for the space.

Typical Area Covered by a BAS Sensor Controlling a VAV Box serving 4,000 Square Feet

Single Point of Measurement

Wisenet can prove to be a valuable tool to assist the Facility Maintenance personnel in solving these comfort, and ultimately productivity issues.

slide35

WHAT THE ACCOUNTING DEPARTMENT CAN NOW SEE

Section 9. from Use Case Example of 65,000 Square Foot building.