Total installed cost comparison study of motorized shading systems. line voltage AC system vs. low voltage Sivoia QED system

Similar documents
Sivoia QED 230 V overview. Shading solutions

Sivoia QED. SVQ-10-PNL-230 Power Panel 230 V~ 50/60 Hz, 4 Amps maximum total current. Figure 1: Mounting Diagram and Dimensions.

Sivoia QS. Roller 150 Shades. Sivoia QS roller 150

Shade Drive Upgrade Guide Revision A

Sivoia QS Sivoia QS Wireless Sivoia QED. Lutron shading solutions product guide

Palladiom Shading System

Sivoia QED (quiet electronic drive) architectural shading solutions. roller shade systems Roman shade systems drapery track systems

Sivoia QED roller 20TM. Installation Instructions

1 Match Shade to Window. Sivoia QEDTM Installation Instructions

Sivoia QED specification guide

Sivoia QS roller 64. Lutron Sivoia QS. Roller 64TM shades

1 Match Blind to Window. Sivoia QED Installation Instructions. In-Line Coupled Roller Blind Addendum 1.1

Sivoia QEDTM Installation Instructions

Cost Benefit Analysis of Faster Transmission System Protection Systems

A Cost Benefit Analysis of Faster Transmission System Protection Schemes and Ground Grid Design

Sivoia QED Installation Instructions. Dual Mount Roller Blind

Sivoia QED R Installation Instructions Please Leave for Occupant

SO-SVCN- - GRAFIK Systems Sivoia QEDTM Controller

shading solutions catalog Sivoia QED

ROLLER SHADE SPECIFICATIONS

Sivoia QS Wireless Drapery Lite System

RTA-RX-F-SC and RTA-RX-F-SC-347

ElectroShade Motorized Shade System Table of Contents

Single Manual Roller Shades

Sivoia QED curtain track systems applications

Technical Papers supporting SAP 2009

QS Smart Power Supply Panel (CE)

PowerWave Bus System. For More Information Use your QR Reader THE NEXT GENERATION OF FLEXIBLE POWER DISTRIBUTION

ElectroShade Motorized Shade System Table of Contents

SWFcontract SOLAR SHADE SYSTEMS COMPONENTS AND ACCESSORIES LIST

FACT SHEET Standard: Electrical Safety

ROLLER SHADES. Operating Systems Brochure. Barberton, OH P: / F:

Grid Services From Plug-In Hybrid Electric Vehicles: A Key To Economic Viability?

The Economics of Dimming. Technical white paper Dr. Ian Rowbottom May 26, 2010

Roller Shade Section Effective August 11, 2011

Choosing Household Wiring for Low EMF

Put the Power in Your Hands

Monitoring of Shoring Pile Movement using the ShapeAccel Array Field

21 Keep Residential Stairwells & Hallways Lit During Blackouts

Acomprehensive analysis was necessary to

AUTOMATION GUIDE BATTERY OPERATED MOTORS 110V HARDWIRE MOTORS ALL CONTROLLED BY REMOTE, WALL SWITCH, TIMERS, OR WEATHER SENSORS

Southern California Edison s Preferred Resources Pilot (PRP) Solar Siting Survey. Summary Document

SAN PEDRO BAY PORTS YARD TRACTOR LOAD FACTOR STUDY Addendum

Motorized Roller Shades

Special Research Study:

The Boston South Station HSIPR Expansion Project Cost-Benefit Analysis. High Speed Intercity Passenger Rail Technical Appendix

1 Faculty advisor: Roland Geyer

ENERGY & UTILITIES. Electricity Metering & Sub-Metering Concepts and Applications. BuildingsOne April 30, 2018

end user benefits through flexibility, modular components and design. Our philosophy in turn provides benefits to you.

Going the Distance - Solving Power Reach Issues With Diverse DAS Solutions

Package Thermal Characterization

Schedule Based on the City of Los Angeles, the District should be formed by April 2016 to allow the design and construction to be complete by 2019.

FUEL ECONOMY STANDARDS: THERE IS NO TRADEOFF WITH SAFETY, COST, AND FLEET TURNOVER. July 24, 2018 UPDATE. Jack Gillis Executive Director

ABB life cycle services Uninterruptible power supplies

ROLLER SHADE SPECIFICATIONS

BLAST CAPACITY ASSESSMENT AND TESTING A-60 OFFSHORE FIRE DOOR

Serena Remote Controlled Shades

Guidelines for Modernizing Existing Electrical Switchgear in LV and MV Networks

Suggested GSR Evaluation Checklist to Complement other RSE Checklists for Remedy Optimization within the Remedial Operation Phase of a Remedy

T&B Cable Tray. In this section...

CI-TI Contactors - VLT Frequency Converters

NEW-VEHICLE MARKET SHARES OF CARS VERSUS LIGHT TRUCKS IN THE U.S.: RECENT TRENDS AND FUTURE OUTLOOK

OPTIMIZING COMMERCIAL SOLAR

Customer Survey. Motives and Acceptance of Biodiesel among German Consumers

BUILDER S GUIDE TO AUTOMATIC HOME STANDBY GENERATORS

DRIVER SPEED COMPLIANCE WITHIN SCHOOL ZONES AND EFFECTS OF 40 PAINTED SPEED LIMIT ON DRIVER SPEED BEHAVIOURS Tony Radalj Main Roads Western Australia

SOLAR FEASIBILITY STUDY

EVSE Impact on Facility Energy Use and Costs

CASE STUDY. LINK Engineering Company Inc. Resolving Customers Brake Noise Issues

Electric vs. Hydraulic Cylinders A Comparison of Technologies

SECTION ROLLER WINDOW SHADES

European Tyre and Rim Technical Organisation RETREADED TYRES IMPACT OF CASING AND RETREADING PROCESS ON RETREADED TYRES LABELLED PERFORMANCES

ACEA RDE Cold Start. 30 th August 2016

EMC Issues in Electric Drives

Micro3 Grid Tied Residential Package

The potential for local energy storage in distribution network Summary Report

Investigating the Concordance Relationship Between the HSA Cut Scores and the PARCC Cut Scores Using the 2016 PARCC Test Data

EcoSystem Multiple Control Input Ballasts

EcoSystem Multiple Control Input Ballasts

EXHIBIT B Water Meter Review and Testing November 2008

BIOACTIVE SOLUTIONS AC DRAIN STATION

FOCUS ON ITALY: HYBRID VEHICLES FY2015 MARKET OVERVIEW. Analysis completed: January All Rights Reserved JATO Dynamics Ltd 1

SOLAR TRACKER SITE DESIGN: HOW TO MAXIMIZE ENERGY PRODUCTION WHILE MAINTAINING THE LOWEST COST OF OWNERSHIP

1. Easy Angle and Speed Control

Load Side PV Connections

Vehicle Replacement Policy - Toronto Police Service

A REVIEW OF HIGH-SPEED RAIL PLAN IN JAVA ISLAND: A COMPARISON WITH EXISTING MODES OF TRANSPORT

Analysis of Impact of Mass Implementation of DER. Richard Fowler Adam Toth, PE Jeff Mueller, PE

Dankoff LCB Solar Pump & Fan Controller. INSTRUCTIONS For INSTALLATION and OPERATION

A. Provide variable frequency drives to operate variable torque loads as shown on the Drawings and as specified herein.

Unarmored Variable Frequency Drive (VFD) Cable Termination Guide

SOLAR HEATING SYSTEM

PRICE LIST USA. Prices shown at List Price USD Effective April Honeycomb and Roller Shades.

EcoSystemR Multiple Control Input Ballasts

Solar Power for Home...

Applications. Compressor-Features The Vilter Advantages. LNG Boil Off Gas Gathering BIO - Gas Digester CO 2 Nitrogen Hydrogen Refrigerant

PEIRCE SMITH CONVERTER HOOD IMPROVEMENTS AT BHP COPPER

Sivoia QS roller 64TM fascia and top/back cover. Installation Instructions

DEMA SQUIRT DRAIN UNIT

Why Is My PV Module Rating Larger Than My Inverter Rating?

Transcription:

Total installed cost comparison study of motorized shading systems line voltage AC system vs. low voltage Sivoia QED system Technical white paper December 008

Introduction Execution details Motorized shading system: electrical circuits, processors, motors and/or drives that work together as a system to control window shades Line voltage AC shading system: analog motorized shading system that uses 0V AC electrical motors to operate window shades. Motors are powered and controlled by devices called group controllers. The grouping and operation of the shades is determined by hard-wired connections between the motors and specific inputs/outputs on the group controllers. Line voltage cable is required to connect the motors to the group controllers and to power the system. Low voltage Sivoia QED system: digital motorized shading system that uses V AC electronic drive units (EDU) to precisely control window shades. EDUs receive power from either low-voltage power panels or individual power supplies. The grouping and operation of the EDUs in the system is programmable and does not require rewiring for changes in system configuration. Low voltage cable is used for communication and powering of the shades. Line voltage cable is only required to provide power to the power panels or power supplies. In this study, the word cost refers to what the end user pays for any particular item. The total installed cost of a motorized shading system includes component, wiring, and labor costs. Each type of system may be sold by different contractor types (see Table ). Due to radically different designs, the shading system must be specified and designed before any wiring and labor quotes can be obtained. Consequently, decision makers often compare and select systems based only on components costs, without considering wiring and labor costs until after the motorized shading system has been chosen. Goods and services sold by contractor type Contractor type Window treatment contractor Electrical contractor Line voltage AC shading system Shading components Installation labor Line voltage cable Wiring labor Low voltage Sivoia QED shading system Shading components Installation labor Low voltage cable Wiring labor Line voltage cable Low voltage cable Wiring labor Table Comparison of goods and services that each provider offers for line voltage AC and low voltage Sivoia QED shading systems Wiring and labor are critical factors to consider in cost comparisons for two reasons. First, they represent a significant portion of the total installed cost. And second, these costs vary significantly between motorized shading system types due to radically different designs. Decision making based strictly on component costs can mislead project managers to select a more expensive total solution. The intent of this study is to compare the total installed costs of line voltage AC and low voltage Sivoia QED shading systems. This comparison method will allow decision makers to maximize total cost savings and to better assess the value created by the intangible features of these systems. All window treatment contractors in this study sell both line voltage AC and low voltage Sivoia QED shading systems. Coupling: method of controlling two or more shades together using only one operator. When shades are coupled, the user can no longer control individual shades independently. 5 Operators: electric motor (line voltage AC) or electronic drive unit (low voltage Sivoia QED) used to operate shades. A MAX For the open office area, shades were coupled in groups of ( operator per every shades). In the conference rooms and the executive office, shades were coupled in groups of ( operator per every shades). This set-up represents the maximum coupling possible based on the project s constraints. B COUPLE All shades were coupled in groups of ( operator per every shades). C INDIE Each individual shade utilizes its own respective operators ( operator per shade). The operators for this case were selected to best fit the parameters of each window. This study compared a total installed cost of line voltage AC against low voltage Sivoia QED shading systems. Data gathering A commercial office floor plan was selected (see pages -5) Line voltage AC and low voltage Sivoia QED shading systems were designed to meet site and client requirements (see pages -5) Fabric, lineals, mounting hardware, and control requirements were kept consistent between systems when possible Component, wiring, and labor quotes were obtained from both window treatment and electrical contractors in different regions of the United States Assumptions Cost savings were preferable and therefore, whenever a quote was offered by two or more contractors, the lowest was selected All window treatment contractors applied an equal markup above net cost for both line voltage AC and low voltage Sivoia QED components Scenarios To account for the cost savings vs. control flexibility tradeoff, three different implementation scenarios were analyzed (see Table ). At the expense of control flexibility, coupling shades reduces the cost of the system by using fewer operators 5 and less wiring. Description of scenarios Less Control Flexibility/ Cost More Scenario Maximized coupling (MAX) A Coupled pairs (COUPLE) B Independent shades (INDIE) C Coupling Method As much as possible Total # of Operators Operator Type Tube Diameter 5 AC 0v LT.5 in Sivoia QED.5 in roller 00CW or roller 00TM Each pair AC 0v LT.5 in Sivoia QED roller 00.5 in N/A 6 AC 0v LT.5 in Sivoia QED roller 6TM Table Implementation scenarios representing the typical tradeoff between total installed cost savings and control flexibility.65 in Lutron Lutron

Project Floor Plan rd Level N W E S Mailboxes Printer Copier Room 0 KEYPAD Executive Office 0 KEYPAD W Printer WC Copier W Room 0 KEYPAD MASTER KEYPAD W W W W Area shading and control specifications Color key Area name Office Room - 0 Room - 0 Executive Office - 0 Shading requirements Sheer shades Dual (sheer + blackout) Dual (sheer + blackout) Dual (sheer + blackout) Shade groups North+West South Sheers Blackouts Both Sheers Blackouts Both Sheers Blackouts Both Number of keypads Total number of shades Fabric specifications Shading System Sheers (%*) Blackouts (0%*) Line voltage AC Solar Fabric 6000 Series Blackout Fabric 00 Series Low voltage Sivoia QED Basketweave XL Flocke Blackout *ness factor (percent of light coming through fabric) Window types and dimensions Window type Number of panels per window Shade dimensions (bracket to bracket) W 76 in. h x 60 in. w 76 in. h x 56 in. w W 76 in. h x in. w General specifications Hembar Appearance: Exposed Lineals: Fascia with top/back cover where possible, pocket otherwise Metal Finish: Anodized aluminum Fabric Drop: Regular (fabric closest to window) 0 0 8 8 7 0 5 0 5 0 5 0 5 0 8 8 8 8 6 6 W W Lutron Lutron 5

Summary of Results A total installed cost comparison was executed for each of the three scenarios mentioned in Table of this report. The results of the total installed cost comparisons are shown in Figure A. Detailed costs for components, labor, and wiring can be found on Table. In both the coupled pairs (COUPLE) and independent shades (INDIE) scenarios, the low voltage Sivoia QED shading system s total installed cost was lower by % and 5% respectively. On the maximized coupling (MAX) scenario, despite the fact that component costs were % higher, the total installed cost was only % higher for the low voltage Sivoia QED shading system. On average across all three cases, wiring and labor costs were lower by 57% and % respectively for the low voltage Sivoia QED shading system (see Table ). This is the direct result of two factors related to the use of low voltage wiring: 6.5% ($0.65) lower cost per foot of the cable 5% ($0.58) lower labor cost per foot to install Total Cost These cost differentials are very important, due to the significant portion of the total cost that wiring and labor represented as it is shown in figure B. System costs $00K $90K $80K $70K $60K $50K $0K $0K $0K $0K Sivoia QED % Higher Sivoia QED % Lower Sivoia QED 5% Lower More Control Flexibility Less Summarized total installed cost Maximized Coupling (MAX) Scenario Aspect Cost Cost Differential ($) Cost Differential (%) Aspect (Sivoia QED-AC)/ AC Sivoia QED (Sivoia QED- AC) AC*00% Labor $7,06.55 $,7.79 $(,887.75) -9% Wiring $,5.65 $,9.5 $(,6.9) -58% Components $,7.58 $,99.59 $ 9,58.00 % Total $5,078.78 $7,086.8 $,008.06 % Coupled Pairs (COUPLE) Scenario Aspect Cost Cost Differential ($) Cost Differential (%) Aspect (Sivoia QED-AC)/ AC Sivoia QED (Sivoia QED- AC) AC*00% Labor $,00.9 $6,9.78 $(7,800.) -% Wiring $6,60.7 $,8.6 $(,785.7) -57% Components $7,99.5 $7.56. $9,6.67 % Total $58,66.0 $56,50.55 $(,.6) -% Independent Shades (INDIE) Scenario Aspect Cost Cost Differential ($) Cost Differential (%) Aspect (Sivoia QED-AC)/ AC Sivoia QED (Sivoia QED- AC) AC*00% Labor $7,65.6 $,9.86 $(,7.75) -% Wiring $,68.6 $5,7.88 $(7,0.7) -57% Components $,090.57 $0,6.8 $(,88.7) -9% Total $9,8.80 $70,6.59 $(,77.) -5% Table - Comparison between component cost differentials and total installed cost differentials $0 6 Lutron AC Sivoia QED Maximized Coupling (MAX) Labor Wiring Components AC Sivoia QED AC Sivoia QED Coupled Pairs (COUPLE) Figure A Comparison of cost aspects for the line voltage AC and low voltage Sivoia QED shading systems Independent Shades (INDIE) Average total cost distribution 9.6% Labor.6% Wiring B-) AC 8.8% Components Figure B Average cost distribution of all three scenarios 6.% Components 0% Labor 5.6% Wiring B-) Sivoia QED Lutron 7

Line Voltage AC Coupled Pairs (COUPLE) Scenario N W E S 8-9 0- W 7 GC GC GC GC GC GC W 5-6 0 9 W W W W / Line Voltage MC Cable Conductor Low Voltage Cable / Line Voltage MC Cable Coupling Table - AC Project Costs Qty Total Price (USD) Labor Window Treatment Administrative Charges - $,950.00 Contractor Cable Labor - $00.00 Shades Installation and - $,58.00 Programming Electricical Contractor Line voltage wiring and circuit - $0,7.9 installation Total Labor $,00.9 Wiring s & Electrical 0 A s 6 $57.5 Materials Miscellaneous Materials - $,099.59 Cable (Qty. in feet) #/ MC Cable (Shades Wiring) 00 $,878.69 #/ MC Cable ( Wiring) 00 $0. Low Voltage Conductor 00 $9.60 Cable Total Wiring $6,60.7 Components Shades, Brackets and Office Sheer Shade Pairs 7 $8,6.5 Lineals Rooms & Executive 6 $6,950.9 Office Dual Shade Pairs s Group A, B, A+B s $69.8 Power and Control s 6 $,07.55 Total Components $7,99.5 Total Installed Cost $58,66.0. Metal clad (MC): MC cables are equivalent to using conduit and regular line voltage cable Summary In many cases, line voltage AC shading system components are less expensive than low voltage Sivoia QED shading system components. Despite this, there are other significant cost adders that must be accounted for. These include the dedicated circuit breakers required for group controllers, wiring materials, and labor. In the coupled pairs (COUPLE) scenario, wiring and labor represent 5% of the total cost. The line voltage AC shading system wiring diagram for the COUPLE scenario shown above describes how the system is connected and the type of wiring required. One circuit breaker was required for each of the 6 group controllers. For this project, the quoted cost for / MC cable utilized to wire the shades was $.69/foot. Furthermore, line voltage wiring can only be installed by a certified electrician. The electrician s labor quote for wiring the shades in this specific project was.69 labor-$/foot. 8 Lutron Lutron 9

Low Voltage Sivoia QED Coupled Pairs (COUPLE) Scenario N W E S 8-9 0-0-PNL 0 -PNL W 7 0 -PNL W 5-6 7 Conductor Low Voltage Cable Conductor Low Voltage Cable / Line Voltage MC Cable Coupling 0 9 W W W W Table 5 - Sivoia QED project costs Labor Window Treatment Contractor Qty Total Price (USD) Administrative Charges - $,55.00 Low voltage shade and keypad wiring - $,000.00 Shades Installation and Programming - $0,0.00 Electricical Contractor Line voltage wiring and circuit installation - $5.78 Total Labor $6,9.78 Wiring s & Electrical 0 A s $5.8 Materials Miscellaneous Materials - $98. Cable (Qty. in feet) #/ MC Cable ( Wiring) 00 $00.5 Low Voltage 7 Conductor Cable (shades 00 $,00.00 wiring) Low Voltage Conductor Cable 00 $9.60 Total Wiring $,8.6 Components Shades, Brackets and Office Sheer Shade Pairs 7 $,0.6 Lineals Rooms & Executive Office 6 $0,09.67 Dual Shade Pairs s Group A, B, A+B s $957.00 Power and Control 0-PNL Power Panels $,7.8 Total Components $7,56. Total Installed Cost $56,50.55 Summary The cost comparison of system components does not take into account the radically different wiring and labor requirements of a low voltage Sivoia QED shading system. By design, the Sivoia QED system can power up to power panels through circuit breaker, controlling a maximum of 0 shades per breaker. Furthermore, it utilizes low voltage cable to connect the shades. In the coupled pairs (COUPLE) scenario, wiring and labor represent only % of the total installed cost of the low voltage Sivoia QED shading system. The low voltage Sivoia QED shading system wiring diagram for the COUPLE scenario shown above describes how the system is connected, as well as the type of wiring required. The system design allows up to 0 shades to be powered and controlled through each 0-PNL power panel. This project requires only circuit breakers and 00 feet of line voltage / MC cable. For this project, the quoted cost for 7 conductor low voltage cable utilized to wire the shades was $.0/foot. Furthermore, low voltage wiring can be installed by either a certified electrician or a window treatment contractor. The window treatment contractor s labor quote for wiring the shades in this specific project was. labor-$/foot. 0 Lutron Lutron

Conclusion Based on the results of this study, it can be concluded that the relative component cost difference is a misleading indicator of the relative total installed cost difference between the two systems (see Table 6). To assume that the component cost differential is representative of the total system is, in fact, significantly overestimating the premium or underestimating the savings that low voltage Sivoia QED shading systems can help achieve. Summary of relationship between component and total installed cost differentials Scenario Maximized coupling (MAX) Coupled pairs (COUPLE) Independent shades (INDIE) Relative component cost of low voltage Sivoia QED over line voltage AC Table 6 Relative cost comparison Relative total installed cost of low voltage Sivoia QED over line voltage AC % Premium % Premium % Premium % Savings 9% Savings 5% Savings In conclusion, making cost-motivated decisions based on component cost comparisons alone may be misleading and could drive a decision maker to pick a more expensive total system. Therefore, in order to make a well informed decision, it is critical to always compare shading systems on the basis of total installed cost, including components, as well as wiring and labor. Going beyond the costs Above and beyond the potential total cost savings that can be achieved by utilizing low voltage Sivoia QED shading systems, there are clearly differentiated intangible benefits tied to low voltage Sivoia QED shading systems that provide significant value to the customer. Aesthetics Minimal, symmetrical light gaps Elegant control options Wide array of fabrics Integration with Lutron light control systems for total light control Control Ultra-quiet electronic drive Intelligent hembar alignmenttm Built-in infrared capability Flexibility and performance Limits and presets never lost Sustainable design and LEED contribution Superior system warranty and support Installation Simple reconfiguration without rewiring or addition of group controllers Local programming from a keypad or handheld control Lutron Lutron

0-7 V~ 60 Hz 0 A Max. Input Current 5A, / HP per Channel at 0 V~ 5A, / HP par Canal a 0 V~ 0-7 V~ 60 Hz 0 A Max. Input Current 5A, / HP per Channel at 0 V~ 5A, / HP par Canal a 0 V~ 0-7 V~ 60 Hz 0 A Max. Input Current 5A, / HP per Channel at 0 V~ 5A, / HP par Canal a 0 V~ 0-7 V~ 60 Hz 0 A Max. Input Current 5A, / HP per Channel at 0 V~ 5A, / HP par Canal a 0 V~ 0-7 V~ 60 Hz 0 A Max. Input Current 5A, / HP per Channel at 0 V~ 5A, / HP par Canal a 0 V~ 0-7 V~ 60 Hz 0 A Max. Input Current 5A, / HP per Channel at 0 V~ 5A, / HP par Canal a 0 V~ Line voltage AC wiring diagram Coupled pairs (COUPLE) scenario 0 V AC 0 V AC 0 A 0 A Coupled Pair 5 Coupled Pair 6 Coupled Pair 7 Coupled Pair 8 Coupled Pair 9 Coupled Pair 0 Coupled Pair Coupled Pair WC-M-GC MOTOR GROUP CONTROLLER WC-M-GC MOTOR GROUP CONTROLLER ALL ALL Low Voltage Sivoia QED wiring diagram Coupled pairs (COUPLE) scenario 0 V AC 0 A Coupled Pair Coupled Pair Coupled Pair Coupled Pair Coupled Pair 5 Coupled Pair 6 Coupled Pair 7 Coupled Pair 8 Sivoia QED 0-PNL SVQ QED Office 0 V AC 0 V AC 0 A 0 A Coupled Pair Coupled Pair Coupled Pair 5 Coupled Pair 6 -button Contact Closure ( Room 0) Coupled Pair 7 Coupled Pair 8 Coupled Pair 9 WC-M-GC MOTOR GROUP CONTROLLER WC-M-GC MOTOR GROUP CONTROLLER -button Contact Closure ( Office) 0 V AC 0 A Coupled Pair 9 Coupled Pair 0 Coupled Pair Coupled Pair Coupled Pair Coupled Pair Sivoia QED 0-PNL -button Contact Closure ( Room 0) Sivoia QED 0-PNL 0 A -button Contact Closure (Executive Office 0) 8-9 0- Coupled Pair 0 Coupled Pair Coupled Pair Coupled Pair 0-PNL WC-M-GC MOTOR GROUP CONTROLLER 8-9 0-0 V AC 8-9 0-0-PNL 0 -PNL 0 -PNL Coupled Pair 5 Coupled Pair 6 Coupled Pair 7 Coupled Pair 8 Coupled Pair 9 Coupled Pair 0 Coupled Pair Coupled Pair 0 V AC 0 A Coupled Pair Coupled Pair Coupled Pair Coupled Pair 0-PNL 0 -PNL 0 -PNL 0 -PNL 0 -PNL WC-M-GC MOTOR GROUP CONTROLLER ALL SVQ QED Room 0 SVQ QED Room 0 SVQ QED Executive Office 0 5 0 9 / Line Voltage MC Cable Conductor Low Voltage Cable (Communication link-shielded) 0 9 / Line Voltage MC Cable (Input Power) 7 Conductor Low Voltage Cable (SVQ-CBL-50) Conductor Low Voltage Cable (Communication link-shielded) / Line Voltage MC Cable (Input Power) 0 9 Lutron Lutron 5

Customer Service/Quotes:.800.6.50 Technical Support Center:.800.5.966 For more information about Sivoia QED shading systems, contact your local Lutron representative, or visit us on the web at www.lutron.com/shadingsolutions World Headquarters Lutron Electronics Co., Inc. 700 Suter Road Coopersburg, PA 806-99 USA /008 Lutron Electronics Co. Inc. P/N 67-58