Operating instructions

Draper Inc., Motorized Flexshade Handbook

Table of Contents

1. Introduction To Motorized Shades .........................................................................................................................................................................................2

2. How to Measure, Recommendations and Tips ......................................................................................................................................................................3

Radio Motor Transmitters .................................................................................................................................................................................................................5

A. Handheld 1 and 4 channel remotes ................................................................................................................................................................................6

B. Handheld 20 Channel .....................................................................................................................................................................................................7

C. Wall Switches 1 and 4 Channel .................................................................................................................................................................................. 8-9

D. Motor Programming Instructions ..................................................................................................................................................................................10

E. Chronis Timer and Lite ........................................................................................................................................................................................... 11-14

F. Dry Contact Interface ....................................................................................................................................................................................................15

G. Universal RTS Interface .......................................................................................................................................................................................... 16-17

H. RS 232 Interface ...........................................................................................................................................................................................................18

5. Radio Motor Accessories .....................................................................................................................................................................................................20

C. Din Rail, 3, 6, 12 motor, Transformers .................................................................................................................................................................... 23-28

D. 10 Motor Power Panel ..................................................................................................................................................................................................29

6. Toggle (SP/DT) and DP/DT, Keyed, and Multi-Station Switch ........................................................................................................................................ 31-33

7. Motor Pigtails and Quick Disconnects ..................................................................................................................................................................................34

8. Isolating Relay Review and Wiring ................................................................................................................................................................................. 35-36

9. GC4 Overview and Wiring .............................................................................................................................................................................................. 37-38

10. SC1 Overview and Wiring .............................................................................................................................................................................................. 39-40

11. SGC4 Overview and Wiring ........................................................................................................................................................................................... 41-42

12. SPGC4 Overview and Wiring ......................................................................................................................................................................................... 43-44

13. IntelliFlex Inputs Overview ...................................................................................................................................................................................................45

A. Input Device Sample Confi g .........................................................................................................................................................................................46

B. IR and RF Remote Control ..................................................................................................................................................................................... 47-50

C. IntelliFlex Wall Switch Submittal and Instructions ................................................................................................................................................... 51-54

D. RS 232 Interface ...........................................................................................................................................................................................................55

G. Dry Contact Convertor .........................................................................................................................................................................................................68

14. IntelliFlex Overview and Planning Sheet ........................................................................................................................................................................ 69-70

15. IntelliFlex Quick Reference Guide .................................................................................................................................................................................. 71-72

16. Intelligent Motor Overview ....................................................................................................................................................................................................73

A. Limits and ILT Switch ....................................................................................................................................................................................................74

B. ILT 4 Jack Interface .......................................................................................................................................................................................................75

C. ...................................................................................................................................................................................................................76

D. Draper Digital Network Programming ..................................................................................................................................................................... 77-80

17. Explode View of Motorized Flexshade Components ............................................................................................................................................................81

18. Motor Quick Reference Sheet ..............................................................................................................................................................................................82

19. 506S2RH and 510S2RH- Standard and Heavy Duty Motors ......................................................................................................................................... 83-84

20. 504S2RH-ST and 506G- Quiet Standard and Heavy Duty Motors ................................................................................................................................ 85-86

21. 506S2ILTRH and 504S2ILTRH-ST- Intelligent and Quiet Intelligent Motor .................................................................................................................... 87-88

22. 506S2RH-RTS and 510S2RH-RTS- Standard and Heavy Duty Radio Motors .............................................................................................................. 89-90

23. 504S2RHST-RTS- Quiet Radio Motor ..................................................................................................................................................................................91

24. 506S2PA and 510 S2PA- Standard and Heavy Duty Motors for Flexshade 2 ................................................................................................................ 92-93

25. 506S2ILT- Intelligent Motor for Flexshade 2 .........................................................................................................................................................................94

26. 506S2-RTS and 510S2-RTS- Standard and Heavy Duty Radio Motors for Flexshade 2 .............................................................................................. 95-96

27. 506S1RH and 510S1RH- Standard and Heavy Duty Motors, 220V, export ................................................................................................................... 97-98

28. 503S1RH-ST- Quiet Standard Motor, 220V, export ..............................................................................................................................................................99

29. 506S1PA and 510S1PA- Standard and Heavy Duty Motors for Flexshade 2, 220V, export ....................................................................................... 100-101

30. 660R2- Colossal Shade Motor ...........................................................................................................................................................................................102

31. ST-30, Low Voltage Radio Motor ........................................................................................................................................................................................103

32. BA-RTS, Battery Radio Motor ............................................................................................................................................................................................104

33. Minimum motorized Shade Widths ............................................................................................................................................................................. 105-106

34. Motor Flexshade, Flexshade 2, and Colossal Installation Instructions ....................................................................................................................... 107-112

35. Scenario: Working Shades from a 12V trigger such as a projector ....................................................................................................................................113

36. Scenario: Working Shades from a Hospital Bed, Motion Sensor, lighting System with Dry contact ..................................................................................114

37. Scenario: Working Shades with Multi-Station High Voltage Switches ................................................................................................................................115

38. Scenario: Working Shades from a Home Automation System (Crestron, AMX, etc.) via Dry Contact..............................................................................116

39. Scenario: Working Shades from a Home Automation System (Crestron, AMX, etc.) via RS 232 ......................................................................................117

40. SolarFlex- Sun Tracking Automation .......................................................................................................................................................................... 118-119

41. Draper, Inc. Contact Information ........................................................................................................................................................................................120

For Order Forms Visit www.draperinc.com

(765) 987-7999

Introduction to Motorized Shades

Motorized shades can be a big profi table opportunity or a big pain depending on how you go about it. Being educated on the product before handling or installing it will greatly increases your chances at having a successful, profi table install. This is why we at Draper, Inc. have created this motorized document. We hope this gives you more help on understanding and installing your motorized shade jobs.

Motorized shades offer your customer many benefi ts. These bullets points are important to remember when selling motorized shades.

• Motorized FlexShades are available in any size from 2´ through 14´ wide. Larger sizes are available with FlexShade 2 or Colossal

FlexShade.

• Installation choices range from simple mounting brackets, to endcaps and fascia, to complete extruded pockets with bottom closure

panels.

• Motorized FlexShades retract completely when not in use for an unobstructed view.

• Choose a glare control fabric—mesh or translucent—or a free-hanging room darkening fabric.

• Depending on size, battens may be used for a smooth, fl at surface.

• Compact, tubular gearmotors located within each roller provide smooth, reliable operation.

• Up to fi ve Motorized FlexShades can be coupled to reduce the number of motors.

• A simple wall switch is included with each motorized unit. Or choose the most versatile motor control system: IntelliFlex® offers total

fl exibility in how you group, sub-group or individually control your shades.

Draper’s extensive offering of motorized shades and controls can be diffi cult to understand so please contact us with any questions or concerns that this document cannot answer or raises.

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Page 2 of 120

How to Measure for Draper Shades

FlexShades are custom fabricated for each opening, and must be measured accurately.

Determine the area to be covered, and decide where brackets or endcaps will be attached.

Be careful to allow for any irregularity which will interfere with the proper operation of the unit (i.e. handles, irregular trim, locks or opening not square and plumb).

Inside Mount

1. Measure from six positions at each

window—top, center, and bottom for

the width; left, center, and right for the height.

2. Measure the width of the opening,

providing Draper with the EXACT win-

dow opening width at the window’s nar-

rowest point. DO NOT MAKE ANY

DEDUCTIONS for bracketing or

mounting—Draper will make the neces-

3. Measure the height of the opening,

providing Draper with the EXACT win-

dow opening height at the window’s

shortest point. Again, DO NOT MAKE

ANY DEDUCTIONS—Draper will take

the appropriate deductions.

4. Note for Inside Mount Lightbloc

Shade—Draper will take the appropri-

ate deductions from your EXACT

OPENING dimensions in both width

Outside Mount

1. Measure the width of the window,

specifying the EXACT width and height

you want the product to be. Draper

will make your product to the exact

size you specify. NOTE – adding

overlap to a shade increases privacy

while decreasing light leaks.

2. Note for the Outside Mount Lightbloc

Shade – Draper will fabricate the unit to your

EXACT OVERALL dimensions, taking no deductions. Make sure to account for the side and sill channels.

Cloth Measurement: Exact width of cloth.

Depending on product, overall width may be wider than fabric.

Pocket: If mounting shade brackets or headbox in a pocket above window opening, give the exact overall height (top of pocket to sill) and the exact width of pocket. Draper will make necessary deductions.

Seams: As standard, shades that are both wider and taller than the maximum available fabric width in any given style will be seamed horizontally (“transversed” or “railroaded”) at

Draper’s discretion with the seam placed as high as possible (from the bottom of the shade up) unless otherwise specifi ed.

Stays: Draper may, at our sole discretion, add stays to the shade in pockets or at seam locations to improve surface fl atness and reliable operation. Stays are made of spring steel and measure ¼” wide and are inserted in pockets in the fabric measuring approximately 11/8” wide. Shades over 10’ wide OR over 14’ in height will have stays placed at intervals of no more than 96” (Colossal shades taller than the widest fabric width have stays at intervals of no more than 63”).

Note for LightBloc and Skylight Systems:

IM LightBloc—Draper will deduct 1/8” from your exact opening dimensions in both width and length. Be sure several measurements

Inside Measure

are taken to discover any irregularities in the opening.

Outside Measure

IM Skylight—Draper will deduct 3/4” from your exact opening dimensions in both width and length. Draper provides angles to be installed around the opening and the shade rests on the angles. Be sure several measurements are taken to discover any irregularities in the opening.

OM LightBloc and Skylight—Draper will fabricate the unit to your exact dimensions, taking no deductions.

Note which units, if any, abut at mullions.

Installation Tips

Motor Testing

It is recommended to test and set all motor limits prior to electrician wiring motor. Draper sells a test cord, C116.014, for this. Testing and setting limits on all motor types before the electrician wires the motor is helpful in fi nding problems before the motor has to be disconnected from electricity. Motor can lose their limits in shipping even if they are set at Draper, Inc.

Shimming

This is an installation practice used in the fi eld to correct fabric tracking. Shade fabrics are not smooth surfaces so as they roll on themselves, then they will want to walk left or right. Correcting this tracking can be done through shimming. You increase the diameter of one side of the shade by adding tape which will draw the fabric towards the applied tape. To shim, you will run the fabric down to where it is attached to the roller. You will then apply an 1” square piece of duct tape to the roller with half on the roller and half on the shade cloth to the outside edge of the cloth. You may apply up to three pieces in an overlapping fashion on top of each other to help more severe tracking issues. The larger the piece of duct tape and the more toward the outside of the roller the tape is attached, then the more the fabric will move to that side.

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Terms

In trying to understand motorized shades, it is important to know certain terminology. These terms used by Draper, electricians, and others when discussing motorized cover how power brought to the shades, wire size used, control types used, and more.

High Voltage or Line Voltage—These terms refer to 110 or greater voltage. In the US and Canadian markets, most high voltage shades jobs are supplying 110 to 120 VAC to the motors. This type of voltage will most likely be in conduit.

Low Voltage—For Draper shades, this is referring to 24 VDC. Low voltage power comes from a transformer receiving high voltage.

Transformer—For Draper shades, this is an item that changes high voltage to low voltage.

Conduit—This is the metal piping that is used to protect wires in the ceiling or walls.

Gauge—This refers to the diameter of the wires. For Draper high voltage shades, the gauge of wire going from the motor to the controls is typically US 18 gauge. Lower numbers are large diameters.

Pigtail or Motor Lead—This refers to the wires coming off of the motor. The standard length for these is 6’, but they can be ordered up to 24’.

Amps or amperage—This is a measurement of power on an electrical circuit. You may be asked the amp draw of a motor so the electrician does not put too many motors on an electrical circuit.

Home run—This refers to a straight line of wires being supplied from a singular motor to a singular controller or singular port on a controller.

Parallel Wiring—This refers to 2 or more motors being wired together to a controller or a port on a controller.

Dry Contact—These are the closures on a controller. There are three ports that make up the closure; up, common, and down. The common port is sending out power. When the common port connects with either the up or down port then the shade will react in that direction. This type of closure allows for low voltage systems to operate shades.

RS 232, RS 485, RS 422—These are computer languages that can be used to operate shades.

Data Cable and CAT 5—These are the low voltage wire used to carry power to low voltage shades or communication signals between low voltage devices.

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Page 4 of 120

Radio Motor Transmitters

There are several types of radio motor transmitters, and here is a listing of them and when you need them. A radio motor can learn up to twelve different transmitters.

send an up, stop, down, and intermediate stop command.

groups of shades in individually or 4 groups individually and as a group. It is able to send an up, stop, down, and intermediate stop command per channel.

send an up, stop, down, and intermediate stop command.

groups of shades in individually or 4 groups individually and as a group. It is able to send an up, stop, down, and intermediate stop command per channel.

vacations, and other user functions that one may enjoy. A single or four channel remote is required to fi rst set the motor limits before using this transmitter.

channel remote is required to fi rst set the motor limits before using this transmitter.

which suctions to the glass. The sensor will read light outside the window and operate the shades per the light levels. A single or four channel remote is required to fi rst set the motor limits before using this transmitter. contact inputs. This device is used for interfacing radio motors with low voltage control systems. A single or four channel remote is required to fi rst set the motor limits before using this transmitter.

and RS 485 that it receives. A single or four channel remote is required to fi rst set the motor limits before using this transmitter.

A single or four channel remote is required to fi rst set the motor limits before using this transmitter. It is compatible with X-10. www.draperinc.com

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Page 5 of 120

Telis Transmitters

Telis hand-held radio transmitters are compatible with RTS Motors and external RTS receivers such as Centralis or HRC-RF.

Each Telis transmitter can operate any number of motors or receivers. Each motor or receiver will memorize up to 12 transmitters.

The four channel transmitter can be used for group and individual control of window treatments.

MECHANICAL SPECIFICATIONS

Overall Dimensions: L: 5¼ in. W: 15/8 in. D: 11/16 in.

Operating Temperature: 41 F to 104 F

Typical Range (Optimal Conditions): 65 ft.

ELECTRICAL SPECIFICATIONS

Power: 3V Lithium battery, Cr2430

Frequency: 433.42 Mhz

GENERAL OPERATING INSTRUCTIONS

NOTE: Please Consult RTS Motor or Receiver Instructions for Specifi c Product Details.

1. Place the RTS Motor or Receiver in Programming Mode as described in the Operating Instructions.

2. Press the programming button on the back of the Telis transmitter to program it in the memory of the RTS Motor or Receiver.

3. Pressing the UP button will raise the window covering, while pressing the DOWN button will lower it. To stop the window covering, simply press the STOP button.

4. Pressing the Channel Selector button on the four channel transmitter will switch between channels 1 through four and the group (or fi fth) channel. The corresponding LEDs will light to indicate the channel selected.

Channel selector button on Multi-

Channel

Transmitter www.draperinc.com

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Page 6 of 120

20-Channel Transmitter

This is a 20-channel, Composio, handheld transmitter for Radio Motors. It has an interactive screen for setting functions. It also has a dock for placing the transmitter on the wall. The Composio gives one greater control over large groupings of Radio Motors than other transmitters.

The Composio cannot be used to program limits like the 1 and 4 channel transmitters.

Programming instruction for the transmitter come packaged with it. It is a fairly large with several options for a user to select.

6 7 /

8

" H x 2 3 /

16

" W x 1" Thick

Remote Size

Dock Size-screws to wall

3" H x 1 3 /

16

" W

Range

65' under ideal conditions, repeaters can be added.

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Page 7 of 120

DECORA RTS SWITCH

Operating Instructions

The Decora RTS Switch (single or four channel) is a wireless radio transmitter compatible with all the RTS MOTORS, and externally mounted RTS receivers.

- Commands are transmitted by radio waves at 433.42 MHz.

- Power: 3V lithium battery, CR 2430 type

- Operating temperature: +5 C/41 F to +40 C/104 F

- Range: Up to 65 Ft.

- Fits into standard Decora Wall Plates

This is a low voltage device which does not need to be mounted inside an electrical box. It can be mounted adjacent to an existing Decora style light switch or, as a stand alone device using the specifi c low voltage bracket (included).

LIVING RM

SHADES

BLINDS

AWNING

ALL

STOP

GROUPING DECORA RTS WALL SWITCHES

1. Set all the receivers/motors you wish to control into PROGRAMMING MODE.

2. Press the programming button (1 sec. max.) on the side of the Decora RTS switch.

3. All the receivers/motors within the transmitted range of the Decora RTS will confi rm the addition of the NEW Decora RTS.

REMOVING A DECORA RTS FROM THE RECEIVER’S MEMORY

1. Please refer to section B, “Adding multiple Decora RTS wall switches”. The procedure is exactly the same for removing the Decora RTS wall switch. If the Decora RTS was previously recorded it will be deleted. If it was not in memory it will be added to the memory of the

receiver/motor.

*NOTE:

It is possible to activate an external receiver with another Decora Transmitter without having access to the programming button on the PCB of the receiver. Treat the external receiver as you would a motor and press and hold the programming button of the Decora RTS (for 3 sec.) then briefl y press the programming button of the Decora RTS switch you wish to add/remove.

FRONT VIEW

LIVING RM

SHADES

BLINDS

AWNING

ALL

STOP

SIDE VIEW

Select the

Channel

Programming

Button

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Page 8 of 120

DECORA RTS SWITCH

Mounting Instructions

The special low-voltage bracket is specifi cally designed to mount the Decora RTS wall switch next to an existing Decora light switch with an electrical box already behind the drywall. This bracket differs from other off the shelf low-voltage brackets because it is offset to one side. This allows a double gang Decora style cover plate to fi t over both switches without installing a double gang electrical box behind the drywall. It is also possible to mount this bracket as a stand alone low voltage device.

INSTALLATION PROCEDURE

mended to remove the single gang and replace it with a double gang retrofi t box.

1. Orient the brackets fl at side against the wall keeping the thin side closest and centered with the existing electrical switch box.

1 5 /

8

"

2. Align the inside edge of the thin side on the bracket with the outside edge of the switch box. Then trace the inside shape (as shown by the dashed line in the diagram) of the bracket. (sheetrock not shown for clarity)

Existing Electrical Box

3. Cut traced opening into drywall. Be careful not to make the opening larger than necessary, to ensure a tight fi t. Use dimensions in diagram below. Do not exceed these dimensions to ensure a proper fi t of the bracket.

3 7 /

16

"

3 7 /

16

" thin side of bracket

Inside

Edge

1 5 /

8

"

4. Insert bracket (as shown) into hole, keeping the thin side closest to the existing switch box, and laying fl at on drywall.

5. To keep the bracket in place, bend tabs

90 around drywall, as tightly as possible.

6. Mount low voltage switch into bracket, with its edge fl ush against electrical switch box.

7. Finish the installation by mounting a standard double gang Decora switch cover plate, over both switches

1 5 /

1 6

"

A l l o w A n t e n n a t o b e e x t e n d e d f r e e l y i n s i d e w a l l drywall

BATTERY LIFE

The RTS Switches are powered by a 3V battery (type 2430) which provides about 3 years operation assuming 4 operations per day.

When the battery becomes discharged, the control LED no longer lights up when a command is sent, and the command is not carried out.

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HOW TO REPLACE THE BATTERY

1. Remove the screws on the back cover of the RTS Switch.

2. Slide the battery out of its holder by pushing it with a screwdriver.

3. Insert the new battery, maintaining its correct polarity.

NOTE: Do not throw the battery in the trash, but dispose of it properly.

Page 9 of 120

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Radio Remote Control Motor Programming Instructions

When you receive a radio remote control motor from Draper, Inc., the motor has no programming on it so it must be learned and programmed to work on the transmitter that you have at the job. Here are the initial programming instructions.

➀ Connect power to 1 motor. Select the transmitter/channel to which you plan to learn the motor. Press and hold the UP and DOWN buttons at the same time until the motor jogs, then release.

➁ Check the motor run direction by press either the UP or DOWN buttons. This is important because if you do step 3 without doing this step, then you will need to reset the motor. If you need to reverse the motor direction, then press the STOP button (middle button which might be labeled MY) for 5 seconds until the motor jogs. Check the direction again to make sure that it works.

➂ Move the motor to its upper limit position. Press the STOP and DOWN buttons at the same time until the motor starts to move down, then release. You will stop the motor at its lower limit. You can use the UP and DOWN buttons to adjust the motor to the correct lower limit position if need be.

➃ Once the motor is at its lower limit position, then press the UP and STOP buttons at the same time until the motor starts to move up, then release. The motor should move to the upper limit position in step 3 and stop.

➄ Once the motor has stopped at its upper limit position, then press and hold the STOP button for 5 seconds until the motor jogs.

➅ Now, you must put the motor into USER mode. Find the programming button which is a small button on the back or side of the transmitter and press it until the motor jogs. Once you have done this, then the motor will operate in normal fashion.

➆ Disconnect power to this motor and move to the next in your installation and start with step 1. Reconnect motor to power when all motors

Reset Motor Instructions

If the motor is not working or responding correctly and you want to reprogram it from the beginning and clear all previous programming, then follow these steps.

➀ Disconnect the motor from power for 2-5 seconds, reconnect to power for 10-13 seconds, disconnect from power for 2-5 seconds, and reconnect to power. The motor should move down a little after you reconnect to power the last time.

➁ You will then need to fi nd the programming button which is a small button on the back or side of the transmitter. You will need to depress the button for 10-15 seconds. The motor should jog up and down once then pause and jog a second time during this time period. Once the motor has completed its second jog, then you can start at step 1 of initial programming as the motor is clear.

Setting an Intermediate Stop

This is done once the shade is in USER mode from the initial programming at top.

➀ Move the motor to the mid-point location that you want the stop located.

➁ Press and hold the STOP button until the motor jogs.

➂ Now, if you hit the STOP button when the motor is standing still, it will move to that intermediate location.

➃ If you want to delete the stop, then go to the intermediate stop and press and hold the STOP button until the motor jogs.

Add/Delete a Channel/Transmitter

To add a channel/transmitter, you just need to follow a couple of steps.

➀ Select the channel/transmitter that is currently operating the motor, then press the programming button until the motor jogs.

➁ Select the new channel/transmitter that you want to add to the motor, then press the programming button until the motor jogs.

➂ The motor should now work on both the old and new channel/transmitter.

To delete a channel/transmitter, you just need to follow a couple of steps.

➀ Select the channel/transmitter that is currently operating the motor and you want to keep, then press and hold the programming button until the motor jogs.

➁ Select the channel/transmitter that you want to remove, then press and hold the programming button until the motor jogs.

➂ The motor should now only work on the channel/transmitter on step 1.

Adjust Limits in User Mode

If your initial limits have changed or you want to fi ne tune a motor, you do not need to reset the motor and re-program it. You can just change the limits with these steps.

➀ Move the motor to the limit (upper or lower) that you want to change.

➁ Press and hold the UP and DOWN buttons until the motor jogs.

➂ Move the motor to its new limit location.

➃ Press and hold the STOP button until the shade jogs.

These instructions are different for low voltage and Intelligent motors with radio technology.


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Inteo Chronis RTS Timer

Quick Reference Guide

Programming the Chronis: Programming the Chronis depends on the item it will be controlling. For instance: Centralis, Eolis, Altus. Follow the specifi c programming instructions for each item it will be controlling. The programming button of the Chronis is located under the switch cover, right above the display. “Prog” will appear on the display as you press it.

On/Off: Turn the Chronis Off by pressing the “+”. You can still use it manually but all automatic functions will be turned off. Press the “.” to turn

To Set or Reset the Time: Quickly press “Set” while the time is displayed. It will begin to fl ash. Use the “.” or “+” to change the time (military time). Quickly press “Set” when done to confl rm it.

To Set or Reset the Day, Month or Year: Quickly press “Calendar” and then “Set” and the day will begin to fl ash. Use “-” or “+” to change the day. When done, press the “Up” button and the month will begin to fl ash. Use the “.” or “+” to change it. When done, press the “Up” button and the year will begin to fl ash. Use “.” or “+” to change it. Quickly press “Set” when done to confl rm it.

Timer Settings: This setting allows you to open and close the application at different times each day (7 day timer). Press and hold “Set” until a second (smaller) time is displayed below the normal time.

Up Times: Quickly press “Set” and the time begins to fl ash. Press the “Up” button and the current (smaller) up time fl ashes along with the up arrow and day (1 = Monday). Press “Calendar” to select the day. Use the “-” or “+” button to change the up time. Setup each day individually or for weekly programming. To turn it “Off”, set it between 23:59 and 0:00. Quickly press “Set” when done to confi rm it.

Down Times: Quickly press “Set” and the time begins to fl ash. Press the “Down” button and the current (smaller) down time fl ashes along with the down arrow and day. Use the “-” or “+” button to change the down time. Press “Calendar” to select the day. Setup each day individually or for weekly programming. Set it between 23:59 and 0:00 to turn it “Off”. Quickly press “Set” when done to confi rm it.

Vacation Security Setting (SEC): This setting takes the normal “Timer Settings” and randomly changes them plus or minus 15 minutes each day to give the appearance that your house is occupied. Press and hold “Set” until “SEC” appears on the display.

Cosmic 1 Setting (COS1): This setting opens and closes at sunrise and sunset. Press and hold “Set” until (COS1) appears on the display. You can enter differential and cutoff times to customize this setting.

Differential Times: Allows you to change the Up (sunrise) time or Down (sunset) time by plus or minus lhr 59mins. Quickly press “Set” and the time begins to fl ash. Press the “Up” button to choose the up differential or the “Down” to choose the down differential. Use the “-”

Cutoff Times: Modifi es the differential times and limits the earliest it will go up at sunrise or latest it goes down at sunset. Quickly press

“Set” and the time begins to fl ash. Press the “Up” button twice for the up cutoff time or the “Down” button twice for the down cutoff time.

Cosmic 2 Setting (COS2): This setting opens at the individual “Timer Settings” and closes at the “Cosmic 1” settings (this includes the differential and cutoff times of COMS1). Press and hold “Set” until (COS2) appears on the display.

Important: Please read the complete instructions prior to using this quick reference guide.

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Page 11 of 120

Inteo Light Sensor

Installation Guide

Together with the Chronis Uno L, Chronis IB L, Chronis RTS L, Chronis Comfort RTS, Chronis Comfort IB and

Chronis Comfort UNO, the brightness sensor can be used to operate your roller shutters and venetian blinds in relation to the amount of light. These control units have an integrated automatic solar control unit (L = light control) that automatically creates shadow if the sunshine is too strong.

In addition, the Chronis Uno L, Chronis IB L, Chronis Comfort IB and Chronis Comfort UNO offer an automatic dusk control unit that operates your roller shutters and venetian blinds in conjunction with the switching time when dusk sets in.

1 Installation

Insert the plug of the brightness transmitter into the socket on the front of the Chronis L (or Chronis Comfort) control unit.

Stick the suction cap of the brightness sensor to the inside of the window pane at the desired shade position of the roller shutter.

2 Programming

2.1 Automatic solar control unit with a Chronis L

Switching the automatic solar control unit on / off.

DO The automatic solar control is activated when the UP switching time is reached and de-activated when the DOWN switching time is reached. This means the following in normal use: the automatic solar control unit is switched on during the day and off at night.

When it is on, a is shown in the display. You can switch the automatic solar control unit on or off manually during the day.

To switch the automatic solar control unit off:

DO

➀ Press once the time fl ashes.

➁ Press until the bar display for the “Sun” reference value is displayed.

➂ Press

+

several times until

➃ Press to store the changes.

is displayed.

To switch the automatic solar control unit back on:


DO ➁ Press until

➂ Press

+

is displayed.

several times until the desired number of bars for the “Sun” reference value has been set.


Setting the automatic solar control unit

The desired brightness value at which the shutter is to move into the shade position can be selected by entering the “Sun” reference value. The factory setting for the automatic solar control unit is a threshold value of 6 bars (30 kLux approximately). Inputting the “Sun” reference value (can be entered at any time except in the “OFF” position) :


➁ Press until the bar display for the “Sun” reference value is displayed.

➂ The “Sun” reference value can be set by pressing

+

several times. 1 bar = roller shutter moves into the shade position if sun is weak

(10 kLux). 12 bars = roller shutter moves into the shade position if sun is strong (more than 50 kLux).


Tip: it is best to enter data when the sun reaches the intensity at which you wish to move the shutter automatically into the shade position in the future. First set the “Sun” reference value to 12 bars, and then press Minus (-) until the sun symbol ( ) is fl ashing. This value then corresponds to the current solar intensity.

www.draperinc.com

(765) 987-7999

Page 12 of 120

2.2 Automatic solar control unit with a Chronis Comfort

Switching the automatic solar control unit on / off.

S

3

1432

( 21 : 27

The automatic solar control is activated when the UP switching time is reached and de-activated when the DOWN switching time is reached. This means the following in normal use: the automatic solar control unit is switched on during the day and off at night.

When it is on, a is shown in the display. You can switch the automatic solar control unit on or off manually during the day.

To switch the automatic solar control unit off:

1

2

2 s.

S

3

14 : 32

C 21:27 IN

CLOC

14 : 32

0.5 s.

SEnS

0n

0.5 s.

b 06

SEnS

b 00

OFF

4

0.5 s.

3

1 Press 2 seconds, then 0,5 seconds 6 times, until the “SEnS” screen.

2 Press once to go to the brightness screen.

3 Press several times until is displayed.

4 Press 0,5 seconds, then 2 seconds to store the changes.

d 00

OFF

0.5 s.

SEnS

0ff

2 s.

S

3

C 21 : 27

To switch the automatic solar control unit back on:

1

2

3 2 s.

0.5 s.

S

14 : 32

C 21:27 IN

CLOC

14 : 32

SEnS

OFF

b 00

OFF

0.5 s.

b 12

SEnS

4

0.5 s.

d 06

SEnS

0.5 s.

SEnS

0ff

2 s.

S

3

14 32

C 21 : 27

3


2 Press once to go to the brightness screen.

3 Press several times to set the brightness reference value.

4 Press 2 times, then 2 seconds to store the changes.

Brightness reference value: “1” = roller shutter moves into the shade position if sun is weak (10 kLux).

“12” = roller shutter moves into the shade position if sun is strong (more than 50 kLux).

Tip: it is best to enter data when the sun reaches the intensity at which you wish to move the shutter automatically into the shade position in the future. First set the “Sun” reference value to 12, and then press Minus (-) until the sun symbol is fl ashing. This value then corresponds to the current solar intensity.

2.3 Automatic dusk control unit with a Chronis L (not with Chronis RTS L)

Switching the automatic dusk control unit on / off

You can switch the automatic dusk control unit on or off manually. The factory setting for the automatic dusk control unit is ON.

To switch the automatic dusk control unit off :

1 Press 2s.

DO

2 Press until the bar display for the “Dusk” reference value is displayed.

3 Press

+

several times until is displayed.

4 Press to store the changes.

To switch the automatic dusk control unit back on :

1 Press once the time fl ashes.

DO

2 Press until is displayed.

3 Press

-

+

several times until the desired number of bars for the “Dusk” reference value has been set.


Setting the automatic dusk control unit

The desired dusk value at which the shutter is to close in conjunction with the switching time can be set by entering the “Dusk” threshold value.

The factory setting for the automatic dusk control unit is pre-set to a mean value of 6 bars (60 Lux approximately).

The “Dusk” reference value can be entered at any time except in the “OFF” position.

DO

1 Press once the time fl ashes.

2 Press until the bar display for the “Dusk” reference value is displayed.

3 The “Dusk” reference value can be set by pressing

+

several times.

1 bar = roller shutter does not close until dusk has set (10 Lux).

DO

12 bars = roller shutter closes as early as the onset of dusk (250 Lux).


Tip: It is best to enter data when the evening dusk reaches the brightness level at which you wish to have the shutter close automatically in the future. To do this, set the “Dusk” reference value to 1 bar, and then press Plus (+) until the moon symbol ( ) is displayed.

This value then corresponds to the current dusk setting.


(765) 987-7999

2.4 Automatic dusk control unit with a Chronis Comfort (not with Chronis Comfort RTS)

Switching the automatic dusk control unit on / off:

You can switch the automatic dusk control unit on or off manually. The factory setting for the automatic dusk control unit is ON.

To switch the automatic dusk control unit off:

S

3

14 : 32

C 21:27 IN

1

2 s.

CLOC

14 : 32

0.5 s.

SEnS

0n

2

0.5 s.

*

b 06

SEnS

*

b 00

OFF

0.5 s.

d 00

OFF

0.5 s.

4

*

SEnS

0ff

3


2 Press twice to go to the darkness screen.

3 Press several times until is displayed.


2 s.

S

3 *

14 32

C 21 : 27

S

To switch the automatic dusk control unit back on:

1

2

2 s.

3

14 : 32

C 21:27 IN

CLOC

14 : 32

0.5 s.

SEnS

0n

0.5 s.

*

b 00

OFF

*

b 06

SEnS

0.5 s.

d 12

SEnS

0.5 s.

4

*

SEnS

0n

2 s.

3

S

* 14 32

C 21 : 27

3


2 Press twice to go to the darkness screen.

3 Press several times to set the darkness reference value.


Darkness reference value :

“1” = roller shutter does not close until dusk has set (10 Lux).

“12” = roller shutter closes as early as the onset of dusk (250 Lux).

Tip: It is best to enter data when the evening dusk reaches the brightness level at which you wish to have the shutter close automatically in the future. To do this, set the “Dusk” reference value to 1, and then press Plus (+) until the moon symbol is displayed.

This value then corresponds to the current dusk setting.

2.5 Operating the automatic dusk control unit

As soon as the “Dusk” reference value does not meet the selected setting, the moon symbol ( ) is displayed. If the reference value remains below this level for more than 5 minutes approximately and the DOWN switching time has arrived already, the control unit gives a DOWN command. If the DOWN switching time has not been exceeded yet, the control unit waits until this time comes and then moves the shutter down.

Example:

DOWN switching time

20:00

20:00

20:00

Actual clock time

19:45

20:15

20:15

Dusk value reached

Not reached yet reached

Note: The dusk function can be impaired with strong sources of light in the surroundings of the light sensor.

Action

The DOWN arrow in the display fl ashes.

Wait until switching time of 20.00 comes

Display in window changes to next UP

switching time, DOWN arrow fl ashes!

Wait for as long as “Dusk” reference

value is not met.

Shutter moves down.

www.draperinc.com

(765) 987-7999

Page 14 of 120

RTS Dry Contact Interface

Operating Instructions

The RTS Dry Contact Interface can be used to communicate between home automation or other third party systems and RTS Motors and Inteo line of controls.

BatteryHolder

RED

BLACK

GREEN

WHITE

NOTE: Please consult RTS Motor Instructions for specifi c product details.

ProgrammingButton

1 Place the RTS Motor in Programming Mode as described in the individual product operating instructions.

2 Press the programming button on the RTS Interface to program it in the memory of the RTS Motor.

3 To activate an UP command, a momentary contact (relay) closure is required between the WHITE and GREEN wires.

4 To activate a DOWN command, a contact closure is required between the BLACK and GREEN wires.

5 To activate a STOP command or Intermediate Position, a contact closure is required between the RED and GREEN wires.

®

Page 15 of 120

DESCRIPTION

Universal RTS Interface II

The addressable Universal RTS Interface II (URTSI II) can be used to communicate between home automation or other third party systems and

RTS Motors and controls. It is capable of individual or group control, and can be operated via infrared remote, RS232 and RS485 serial communication. Once an input is activated, an RTS radio command is sent to the automated window treatment.

Part Number: 1810872

CONNECTION DIAGRAM

Back of Interface control box

IR Sensor Modular Pin-Out

Pin 4 IR Signal

Common

Antenna

IR Sensor Input

RS232 Input

or RS485 Input

Front of Interface control box

Power

+5V DC

N/C

RS485 Input/Output

Power/Transmit LED

Pin 1

RS232/RS485 Pin-Out

Pin 8

Pin 1

Common

RS232 RX

+5V DC

RS232 TX

RS485 B

RS485 A

UP Button

D

E

B A 9

F 0 1 2

3

8 7

STOP Button

DOWN Button

URTSI Address or

RTS Channel

Rotary Switch

Program Button

NOTE: Do Not remove antenna.

If a new antenna is needed, it must be ordered from Somfy to ensure FCC requirements are maintained.

FCC INFORMATION

This device complies with Part 15 of the FCC Results. Operation is subject to the following two conditions:

1. This device may not cause harmful interference, and

2. This device must accept any interference received, including that which may cause undesired operation.

NOTE: This equipment has been tested and found to comply with the limits for CLASS B digital device, pursuant to Part 15 of FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses and can radiate radio frequency energy and , if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

1. Reorient or relocate the receiving antenna

2. Increase the separation between the equipment and receiver

3. Connect the equipment into an outlet on a circuit different from that to which receiver is connected

4. Consult the dealer or experienced radio/TV technician for help.

WARNING

Changes or modifi cations not expressly approved by the manufacturer could void the user’s authority to operate the equipment.

®

Page 16 of 120

OPERATION

1. Connect a 9v DC transformer (included) to the receptacle on the back of the control box. The LED will light green to indicate power.

2. Be careful not to mount or enclose Interface on or in metal, as this may effect radio reception.

3. Set the RTS Receiver or motor into its Programming Mode. Refer to the installation instructions of the relevant RTS receiver

or motor for this procedure.

NOTE: for initial programming provide power only to the motor or control being programmed.

4. Using the rotary switch, select the channel to be programmed. Letters A through F stand for channels 10 through 15, 0 for

16. Briefl y press the programming button (1 sec. max), the window treatment will jog to indicate the channel has been memorized.

5. Repeat the steps above for each channel or product to be memorized, up to 16.

6. To test the control operation, simply press the UP, STOP or DOWN buttons on the front of the control. The window treatment

should move appropriately. The LED will fl ash red to indicate the radio signal has been transmitted.

1. The RTS Interface is compatible with Somfy’s multichannel transmitter. Connect an infrared sensor to the appropriate con-

nector on the back of the Interface.

2. Each individual motor is activated by fi rst aiming the transmitter at the sensor and pressing the desired unit number on the

transmitter and then pressing the UP or DOWN buttons. Press the center button to STOP the window treatment at any time.

1. The Somfy RS232 interface uses the following communications settings: 9600 Baud, 8 Data Bits, 1 Stop Bit, No Parity

2. Set the rotary switch to position 1.

3. The basic format for communication is as follows: URTSI ADDR MOTOR CHAN DIR

The URTSI address is 01.

The motor channel should be 2 digits from 01 to 16.

The directional commands are: U = Up D = Down S = Stop (Must be Capital letters)

Motor 1 UP: 0101U

Motor 5 DOWN: 0105D

Motor 12 STOP: 0112S

1. The Somfy RS485 interface uses the following communications settings: 9600 Baud, 8 Data Bits, 1 Stop Bit, No Parity

2. With RS485, it is possible to connect 16 Universal RTS Interfaces on one network. Each Interface will have its own address.

To select the address, set the rotary switch to the desired number. Letters A through F stand for addresses 10 through 15, 0

3. The basic format for communication is as follows: URTSI ADDR MOTOR CHAN DIR

The URTSI address should be 2 digits from 01 to 16.

The motor channel should be 2 digits from 01 to 16.

The directional commands are: U = Up D = Down S = Stop (Must be Capital letters)

URTSI 1, Motor 1 UP: 0101U

URTSI 3, Motor 12 DOWN: 0312D

URTSI 14, Motor 9 STOP: 1409S

URTSI 10, Motor 15 UP: 1015U


Overall Dimensions: L: 3 in. W: 4 in. D: 1 3/8 in.

Typical Range (Optimal Conditions): 65 ft.


Power: 9V DC, 200mA

Frequency: 433.42 Mhz

Page 17 of 120

RS232 to RTS Interface with X10 Compatibility

Description

The RS232 to RTS Interface is a 16-channel RTS transmitter that enables third party home automation systems to directly control Somfy’s line of RTS motors and controls. The interface also includes

X10 compatibility for direct control of RTS product from an X10 powerline system. The interface plugs into a standard 115 VAC electrical outlet.

Part Number 1810686

Operating Procedures

RTS Channel Programming

➀ Ensure the RTS motor or receiver to be controlled has already been assigned to a channel on a Telis or similar channel as outlined in the specifi c product instructions. All limits, intermediate positions and programmable functions should be set.

➁ Set the RTS receiver or motor into its programming mode as outlined in the specifi c product instructions.

➂ Set the Rotary Address Dial to the channel you want the motor or receiver to respond to. Press the Programming Button on the Interface.

The motor or receiver will respond accordingly.

RS232 Operation

➀ Set RS232 communication settings to: 9600 Baud, 8 Data Bits, 1 Stop Bit, No Parity

➁ Use the ASCII protocol: <!> <2 digit unit code> <Directional Command>

➂ The directional commands must be capital letters and are as follows:

➃ There must be a 500mS delay between successive commands.

➄ Examples: Motor 2 Up: !02U

Motor 5 Down: !05D

Motor 1 Stop: !01S

X10 Operation

➀ Set the Rotary Address Dial to the desired X10 house code.

➁ Send the address then the following commands to activate that motor or receiver:

➂ Examples: Motor 1 Up: 1 Bright

Motor 3 Down: 3 Dim

Motor 5 Stop: 5 Off

®

Page 18 of 120

RTS Repeater

Description

The RTS Repeater can be used in installations to extend the range of the standard Radio Technology signal. It will receive the signal from a

Telis or similar device and retransmit the signal to a RTS compatible motor or receiver.

Part Number 1810686

Mechanical Specifi cations

Overall Dimensions: L: 4 in. W: 2¼ in. H: 1 3 /

8

in.

Frequency: 433.42MHz

Range: 60ft

®

Operating Procedures

Simply plug the receiver into any 120v AC outlet. It should be located at least halfway between the transmitting device (Telis) and receiving device (RTS Motor). The red LED will blink, indicating communication.

Page 19 of 120

Radio Motor Accessories

In the previous section radio motor transmitter information was given. This section talks about the accessory parts that come with Radio Motors. We have broken down the accessories and to which motor that they belong.

Battery motor accessory is:

Battery Wands- Wands are included with new battery motor shades. The battery wand replacements are part no. C105.005. There are now reloadable AA battery wands available and part no. is TBA.

Low Voltage motor accessories are:

Transformers- Transformers are need to supply power to each low voltage motors. The transformers come in different amperages to power different quantities of motors.

C215.009

C215.010

C215.011

C215.012

C215.013

C215.014

C215.015

C215.016

C215.017

Item

24VDC, 1.66A for 1 motor

24VDC, 2.5A for 1 motor

24VDC, 5A for 3 motor

24VDC, 10A for 6 motors






Type

Plug-in outlet

Plug-in outlet

Plug-in outlet

Plug-in outlet

Plug-in outlet

Plug-in outlet

Din Rail Mount

Din Rail Mount

Din Rail Mount

Radio Motor, high voltage, accessories are:

Motor Pigtails- Pigtails are needed at different length to connect the motor to power. These motor leads can have a 3 prong plug attached to connect to an outlet or be bought with a plug already molded. The standard is 6’ with no 3 prong plug.

C107.043

C107.044

C107.045

C107.021

C107.039

C107.040

Item

12’ RTS Motor cable, no plug

24’ RTS Motor cable, no plug

3’ RTS Motor cable, with 3 prong NEMA plug




Standard Motor Accessory to turn the motor into a radio motor is:

Centralis- Part no. is TBA, but this part turns a standard motor into a radio motor.

®

Page 20 of 120

Battery Wands

Battery Wands are the power source for battery motors. Wands do come with every motor purchased. Replacement wands can be purchased if needed. Draper only uses the 12V double battery wand or reloadable wand.

Battery life is highly variable depending on the shades size and number of operations that one runs. Typically, the life is 1 to 3 years. Another thing other than shade size and operation which may reduce battery life is RF interface.

If a battery motor is reading RF interface from an item, then it will stay on and drain battery power much faster. There is no way of knowing if there is interface draining the motor until it happens. Also conditions can change over time depending on whom or what is the source of the RF interface.

Reloadable wands will use 8 AA batteries to obtain the 12V needed to run the shade.

Battery Motors will run at different speeds depending on size of shade and type of battery supplying power.

Mounting battery wands can be done with the clips that are sent with the motors. There are 2 wands to mount when install 12V batteries and just one to mount when installing reloadable wands.

Battery Wand Size —12V Battery—1 Battery size

16" long x 11 /

16

" diameter

Reloadable Wand Size

18" long x 11 /

16

" diameter (screw on cap is ¾" diameter)

®

Page 21 of 120

Plug-In Transformers

These transformers are for supplying 24VDC to our low voltage motors. There are 6 types of transformers, but the numbers and type of these transformers are subject to change at any time without notice.

These transformers are not special to window shade motors and you may source a transformer which meets the power requirements needed on your own. If you want something different than we carry, we recommend that you do this.

Plug-in transformers are called this because they plug into an outlet for power.

They will then feed power directly to a motor or a power panel feeding motors. The dims of the current transformers offered are as listed below.

Single Motor- Wall Plug-in

Dims: 2¼" w x 4" h x 1¼" d

Single Motor- Floor Plug-in, this transformer does not plug right into an outlet, but a cord plugs into it then into the outlet like a laptop transformer.

Dims: 2½" w x 3 7 /

8

" h x 1¼" d

Three Motor- Table top/shelf Plug-in

Dims: 7 1 /

8

" w x 2" h x 8 5 /

8

" d

Six Motor- Table top/shelf Plug-in

Dims: 7 1 /

8

" w x 2¾" h x 8 5 /

8

" d

Nine Motor- Table top/shelf Plug-in

Dims: 7 1 /

8

" w x 2¾" h x 8 5 /

8

" d

Twelve Motor- Table top/shelf Plug-in

Dims: 7 1 /

8

" w x 2¾" h x 8 5 /

8

" d

®

Page 22 of 120

DIN-Rail Transformer—DR-120

Features:

- AC input range selectable by switch

- Protections: Short circuit/Overload/Over voltage/Over temperature

- Cooking by free air convection

- Can be installed on DIN rail TS-35/7.5 or 15

- UL 508 (industrial control equipment) approved

- LED indicator for power on

- 100% full load burn-in test

- Fixed switching frequency at 55KHz

- 3 years warranty

SPECIFICATION

MODEL

OUTPUT

INPUT

PROTECTION

ENVIRONMENT

SAFETY &

EMC (Note 4.)

DC Voltage

Rated Current

Current Range

Rated Power

Ripple & Noise (max.) Note 2.

Voltage Adj. Range

Voltage Tolerance Note 3.

Line Regulation

Load Regulation

Set Up, Rise Time

Hold-Up Time (Ty.)

Voltage Range

Frequency Range

Effi ciency (Typ.)

AC Current (Typ.)

Inrush Current (Typ.)

Leakage Current

Overload

Over Voltage

Over Temperature

Working Temp.

Working Humidity

Storage Temp. Humidity

Temp, Coeffi cient

Vibration

Safety Standards

Withstand Voltage

Isolation Resistance

EMI Conduction & Radiator

Harmonic Current

EMS Immunity

DR-120-24

24V

5A

0 – 5A

120W

60mVp-p

24 – 28V

±1.0%

±0.5%

±1.0%

36ms/230VAC 32ms/115VAC at full load

88 – 123VAC/176-264VAC by switch 248-370VDC

47 – 63 Hz

64%

2.6A/115VAC 1.6A/230VAC

Cold Start 20A/115VAC 40A/230VAC

<3.5mA/240VAC

105 – 150% rated output power

Protection type: Constant current limiting, recovers

Automatically after fault condition is removed

29-33V

Protection type: Shut down o/p voltage, re-power on to recover

90°C±5°C(TSW1)

Protection type: shut down o/p voltage, recovers automatically

After temperature goes down

-10 – 60+C (refer to output load deraling curve

20 – 90% RH non-condensing

-20 - +65C, 10 – 95% RM

±0.03%/C (0-50°C)

10 – 500Hz, 2G 10min./1cycle.60min.each along X, Y, Z axes;

Mounting Compliance to IEC60068-2-6

UL508, UL60950-1, TUV EN60950-1 approved

!/P-O/P.3KVAC I/P-FG.1.5KVAC 0/P-FG.0.5KVAC

I/P-O/:, I/P-FG, O/P-FG:100M Ohms/500VDC

Compliance to EN55011, EN55022, (CISPR22) Class B

Compliance to EN61000-3-2,-3

Compliance to EN61000-4,2,3,4,5,6,8,11, ENV50204, EN55024,

EN61000-6-2 (EN50082-2), heavy industry level, criteria A

136.8Khrs.min. MIL-HDBK-217F (25°C)

65.5 x 125.2 x 100 mm (W x H x D) OTHERS

MTBF

Dimension

Packing 0.78Kg; 20pcs/16.5Kg/1,29CUFT

NOTE:

➀ All parameters NOT specially mentioned are measured at 230VAC input, rated load and 25°C of ambient temperature.

➁ Ripple & noise are measure at 20MHz of bandwidth by using a 10” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.

➂ Tolerance: includes set up tolerance, fi re regulation and load regulation.

➃ The power supply is considered a component which will be installed into a fi nal equipment. The fi nal equipment must be reconfi rmed that it still

meets EMC directives.

®

Page 23 of 120

DIN-RailTransformer—DR-120—Page 2

www.draperinc.com

(765) 987-7999

Page 24 of 120

DIN-RailTransformer—DR-240

Features:

- Universal AC input/full range

- Built in active PFC function

- Protections: Short circuit/Overload/Over voltage/Over temperature

- Cooking by free air convection


- UL 508(industrial control equipment/approved

- LED indicator for power on


- Fixed switching frequency at 100KHz

- 3 years warranty

SPECIFICATION

MODEL

OUTPUT

INPUT

PROTECTION

DC Voltage

Rated Current

Current Range

Rated Power


Voltage Adj. Range


Line Regulation

Load Regulation

Set Up, Rise Time

Hold-Up Time (Ty.)

Voltage Range Note 5.

Frequency Range

Effi ciency (Typ.)

AC Current (Typ.)


Leakage Current

Overload

Over Voltage

DRP-240-24

24V

10A

0 – 10A

240W

80mVp-p

24 – 28V

±1.0%

±0.5%

±1.0%

800ms, 40ms/230VAC 800ms, 40ms/115VAC at full load

24ms/230VAC 24ms/115VAC at full load

65 – 264VAC 120 – 370VDC

47 – 63 Hz

84%

2.8A/115VAC 1.4A/230VAC


<3.5mA/240VAC


Protection type: Constant current limiting, recovers automatically after fault condition is removed

30 – 36V


ENVIRONMENT

Over Temperature

Working Temp.

Working Humidity


Temp, Coeffi cient

Vibration

100°C±5°C(TSW1)detect on heat sink of power transistor

Protection type: shut down o/p voltage, recovers automatically after temperature goes down

-10 – 70+C (refer to output load derating curve)


-20 - +85C, 10 – 95% RH

±0.03%/C (0-50°C)

10 – 500Hz, 2G 10min./.1cycle.60min.each along X, Y, Z axes;

Mounting Compliance to IEC60068-2-6


SAFETY &

EMC (Note 4.)

Safety Standards

Withstand Voltage


EMI Conduction & Radiation

Harmonic Current

EMS Immunity


I/P-O/P, I/P-FG, O/P-FG:100M Ohms/500VDC

Compliance to EN55011 (CISPR11) EN55022 (CISPR22), EN61204-3 Class B


Compliance to EN61000-4,2,3,4,5,6,8,11, ENV6150204, EN55024,


OTHERS

MTBF

Dimension


125.5°125.2°100mm(W”H”D”)

Packing 1.2Kg; 12pcs/16.5Kg/1.29CUFT

NOTE: ➀ All parameters NOT specially mentioned are measured at 230VAC input, rated load and 25°C of ambient temperature.

➁ Ripple & noise are measure at 20MHz of bandwidth by using a 10” twisted pair-wire terminated with a 0.1uf & 47uf parallel capacitor.


➃ The power supply is considered a component which will be installed into a fi nal equipment. The fi nal equipment must be reconfi rmed that it still meets EMC directives.

➄ Derating may be needed under low input voltages. Please check the derating curve for more details.

®

Page 25 of 120

DIN-RailTransformer—DR-240—Page 2

www.draperinc.com

(765) 987-7999

Page 26 of 120

DIN-RailTransformer—DR-480S

Features:

- AC input range selectable by switch

- Built in passive PFC function compliance to EN61000-3-2

- High-effi ciency 89% and low dissipation

- Protections: Short circuit/Over Load/Over voltage/Over temperature

- Cooling by free air convection

- Built-in constant current limiting circuit


- UL 508 (industrial control equipment) approved

- EN61000-6-2(EN50082-2) industrial immunity level


- 3 years warranty

SPECIFICATION

MODEL

OUTPUT

INPUT

PROTECTION

ENVIRONMENT

SAFETY &

EMC (Note 4.)

OTHERS

DC Voltage

Rated Current

Current Range

Rated Power


Voltage Adj. Range


Line Regulation

Load Regulation

Set Up, Rise Time

Hold-Up Time (Ty.)

Voltage Range Note 5.

Frequency Range

Power Factor (Typ.)

Effi ciency (Typ.)

AC Current (Typ.)


Leakage Current

Overload

Over Voltage

Over Temperature

Working Temp.

Working Humidity


Temp, Coeffi cient

Vibration

Safety Standards

Withstand Voltage


EMI Conduction & Radiation

Harmonic Current

EMS Immunity

MTBF

Dimension

Packing

DRP480S-24

24V

20A

0 – 20A

480W

120mVp-p

24 – 28V

±1.0%

±0.5%

±1.0%

1200ms, 40ms/230VAC,115VAC at full load

23ms/230VAC, 115VAC at full load

90 – 132VAC/180 264VAC by switch 254-370FDC

47 – 63 Hz

≥ 0.7/230VAC only

89%

8A/115VAC 3.2A/230VAC


<3.5mA/240VAC


Protection type: Constant current limiting, recovers automatically after fault condition is removed

30 – 36V


100°C±5°C(TSW: detect on heat sink of power switch

Protection type: shut down o/p voltage, recovers automatically after temperature goes down

-20 – +70°C (refer to output load derating curve)


-40 - +85°C, 10 – 95% RH

±0.03%/C (0-50°C)

Component 10 – 500Hz, 2G 10min./.1cycle.60min.each along X, Y, Z axes; Mounting

Compliance to IEC60068-2-6



I/P-O/P, I/P-FG, O/P-FG:100M Ohms/500VDC

Compliance to EN55011, EN55022, (CISPR22) Class B


Compliance to EN61000-4,2,3,4,5,6,8,11, ENV50204, EN61204-3,



227°125.2°100mm(W”H”D”)

2.60Kg; 6pcs/16.6Kg/1.75CUFT

®

NOTE: ➀ All parameters NOT specially mentioned are measured at 230VAC input, rated load and 25°C of ambient temperature.

➁ Ripple & noise are measure at 20MHz of bandwidth by using a 10” twisted pairwire terminated with a 0.1uf & 47uf parallel capacitor.


➃ The power supply is considered a component which will be installed into a fi nal equipment.

➄ The fi nal equipment must be reconfi rmed that it still meets EMC directives.

DIN-RailTransformer—DR-480S—Page 2

www.draperinc.com

(765) 987-7999

Page 28 of 120

10 Motor Power Panel

The 10 motor power panel is for powering the Low Voltage Radio Motor. It is not required, but it does make installation easier.

A transformer is still needed, and it will feed power to the panel. You can parallel wire the motors directly into the power feed off the transformer. This, however, makes connecting and disconnecting the motor from power to program it diffi cult and cumbersome. With a power panel you can disconnect or connect each motor individually for programming, this will make installation quicker.

A power panel is also set-up to work with wiring that might have been pulled for a different system.

The diagram below shows the panel and how motors plug into it.

Connect motor to terminals 5 & 6 of motor connector

Connect motor connector to power panel

3

2

1

5

4

7

6

Power

LED’s

2A Fuse

22 Gauge/2 conductor

150 Ft. Maximum

Sonesse 30 Motor Sonesse 30 Motor

12/24V DC

Inpu t

_

Power Supply Input

+ 18 Gauge/2 Conductor

5 Ft. Maximum

®

Page 29 of 120

Centralis Receiver

Inteo Remote Control

The Centralis Receiver is a single motor control designed for residential use. It includes an integrated radio receiver, plus input terminals for an optional low voltage switch. Using the Telis Transmitters, it is possible to operate the controls individually or in groups. Two user-defi ned intermediate positions can be programmed. This control is packaged in a weatherproof enclosure and includes watertight strain-relief fi ttings for wires entering the box.


Overall Dimensions:

L: 6 in. W: 4¼ in. D: 2¼ in.

Typical Range (Optimal Conditions): 65 ft.


INPUT: 120 VAC +/- 10% 50/60 Hz.

OUTPUT: 120 VAC 5A 1/4 HP

Approvals: The Centralis Receiver is UL508 for industrial controls

(UL, cUL). Complies with the National Electrical Code (NEC) and FCC

Standards.

OPERATING INSTRUCTIONS

System Set Up

➀ With power off, wire Centralis as indicated above. Turn all circuit

breakers on (motors should not move).

➁ Set the Centralis Receiver into programming mode by pressing the

programming button on the receiver until the LED lights solid

(about 5 seconds).

➂ Press the programming button on the Telis1 or Telis4 transmitter.

Make sure the desired channel is selected on the Telis4 before

programming. The programming LED on the Centralis will blink

indicating the transmitter has been memorized.

➃ Operate each motor in the DOWN direction using the radio

transmitter.

➄ The motorized window covering should move down or out. If this is

incorrect, turn off the circuit breakers and reverse the red and black

wires of the motor.

Operating Procedures

TRANSMITTER

➀ Pressing the UP button on the Telis transmitter will move the window

covering up or in. The DOWN button will move the treatment down

➁ To stop the motorized product at any time, press the CENTER but-

ton on the transmitter.

➂ To reach one of the intermediate positions, the awning or rolling

shutter must fi rst be at the upper or lower limit, and stopped. Press-

ing the center button on the transmitter will move the window cover-

ing to the desired position.

LOW VOLTAGE SWITCH

➃ If desired, a single pole, single throw switch can be connected to

the low voltage terminals as indicated above. Each press of the

switch will sequence through the directions as follows;

DEPRESS 1 UP DIRECTION

DEPRESS

DEPRESS 3 DOWN DIRECTION

DEPRESS

®

Page 30 of 120

Toggle Switch (SP/DT) and Princess Rocker (DP/DT)

The maintain toggle switch (SP/DT) is the standard switch which is sent with shades. Maintain switches when fl ipped stay in the up or down position for one to walk away while the shade moves. Ivory is the standard color (Part 121101), but one can get it in white (Part 121102).

The momentary toggle switch is an alternate switch which one can have in place of the maintained. They come in ivory (Part 121103) or white (Part 121104). The momentary switch returns to the center/off position when one releases the switch.

The above switch types are rated for 110-230V and 15A. This means that US and export markets can use the switch and the motor draw through the switch can be up to 12A. The switch fi ts in a single gang box and uses a conventional light switch cover plate.

The maintained rocker switch (DP/DT) is an up-charge switch which can run two motors at the same time. It comes in ivory (Part C112.012) and white (Part C112.002). There are two sets of relays on the back of the switch to wire each motor. The motors cannot be parallel wired to the switch.

The momentary rocker switch is an alternate to the maintained rocker. This switch must be held in place to keep from moving to the center/ off position unlike the maintain switch which stays in position. The momentary switch comes in ivory (Part C112.026) and white (Part C112.043).

The above switch types are rated for 110-230V and 15A. This means that US and export markets can use the switch and the motor draw through the switch can be up to 12A. The switch fi ts in a single gang box and uses a princess rocker switch cover plate.

®

Page 31 of 120

USES:

COMPATIBILITY:

CONTACTS:

RATING:

DESCRIPTION:

ILLUSTRATION:

®

KS-3

3-Position Key Switch

Technical Data Sheet

Part Numbers:

121018—Maintained

121022—Momentary

The KS-3 replaces the standard single-station control switch for all products

(screens, shades or projector lifts) where the directional functions (Up and Down) need to be combined with the security of a key switch.

KS-1 Power Supply Key Switch.

The KS-3 is intended as the sole control station, and cannot be used as a multiple station control. It can, however, be used with the KS-1 power supply key switch, although having two key switches is redundant.

It is not intended for use with any other control.

Two cam-operated Single-Pole, Single-Throw contact blocks (On-Off), wired to emulate Single-Pole, Double-Throw, Center Off (On-Off-On). Maintained action.

600 Volts, UL recognized, CSA recognized.

3-position key operator.

Cover plate is stainless steel.

Four 6" wire leads: black, black, red and blue (2 commons, down and up).

2¾" x 4½" cover plate fi ts a single-gang box.

Printed in the U.S.A. Copyright ©2008 Draper, Inc. Form KS-3_TechDataSheet08

Page 32 of 120

USES:

COMPATIBILITY:

CONTACTS:

RATING:

DESCRIPTION:

ILLUSTRATION:

®

MS-3R, MS-4R

Multiple-Station Control

Technical Data Sheet

Part Numbers:

121002—MS-3R and MS-4R

The MS-3R and MS-4R are 3- and 4-wire versions of the same switch, used for controlling one screen from multiple locations, using the motor’s voltage (115V or 220V).

MS-4R is the fi rst control station in a series of stations. It is also the intermediate control (s) in the case of three or more stations. The fourth wire passes electricity to the next switch in the series. This fourth wire is taped off to create the MS-3R.

MS-3R is the last control station in a series of stations. Therefore, it does not need to pass electricity to a next switch. It is used with one or more MS-4R controls.

MS-3R and MS-4R are used with each other as multiple control stations.

They can also be powered on and off with the KS-1 Power Supply Key Switch.

They are not intended for use with any other controls.

Single-Pole, Triple-Throw (On-On-On). Momentary (spring-loaded) action.

16 Amps, 277 Volts, UL recognized, CSA recognized.

Switch is a black, Euro-style (rounded or oval) rocker switch.

Cover plate is aluminum, fi nished silver satin.

Four 6" wire leads: black, red, blue and black (common, down, up, next switch).

MS-3R and MS-4R start out as the same control. The 3 and 4 indicate the number of wires connected to the switch. The fourth wire is taped off to create the MS-3R.

2¾" x 4½" cover plate fi ts a single-gang box.

Printed in the U.S.A. Copyright ©2008 Draper, Inc. Form MS-3and4R_TechDataSheet08

Page 33 of 120

Motor Pigtails and Disconnects

Motor Pigtails are a standard of 6’ with a 18 gauge 3 conductor with a ground on 4 wire motors. It is a 18-2 with 3 wire motors. The pigtails do come in longer lengths up to 24’.

3 wire pigtails also can come with an optional 3 prong plug (see page 20).

All motor pigtails are not plenum rated. They are a PVC jacketed cable with a diameter of 5 /

16

".

Quick disconnect plugs come as a standard on Motorized Flexshades with brackets, fascia, or headbox (excluding small pocket headbox). They are not on Motorized Flexshades in Access Pockets (single, dual or ultimate), and they are not on Lightblocs, Colossals, Flexshade 2s, skylights or Romans.

The male plug is one foot off the motor. The female lead which can be sent early is toward the J-Box. It is available in 5' lengths (Part C116.030) as a standard, but you can also order female leads at 11' (Part C116.031), 17' (Part C116.032), and 23’ (Part C116.033).

The female lead can be replaced with a wall entry plate, C201.001, for plugging the male connector into the wall or J-box face plate.

The picture below is the standard plug set-up. Each plug is 2" long so 4" when together.

The female is 1¼" w at the base and 7 /

8

" wide at the neck. It is 7 /

8

" high.

The male plug is 1¼" w at the base and 1 3 /

8

" wide at the neck. It is 7 /

8

" high.

®

Page 34 of 120

Isolating Relays

The isolating relay (ISO relay) prevents feedback between motors and allows multiple motors to run off a 120V switch. The switches that

Draper supplies are 15A so twelve standard motors are able to run off one switch with isolating relays. To further help you decide if isolating relays are right for you, here are some conditions in which you would use them:

- You want to run multiple shades at one time, together off of one high voltage wall switch.

- You have parallel wired motors that you are trying to fi x.

- You want to remote locate controls in J-boxes by the shades to reduce wiring.

- You want the cheapest, most effective way to control up to twelve motors from one high voltage switch.

Isolating relays are not to be used if the following are your conditions.

- You are planning at any point and time to run the shades from a low voltage system such as AMX, Crestron, Vantage, etc.

- You want to operate a group of shades as two or more groups and together.

- You want to have preset intermediate stop action.

- You want to operate the shades from an IntelliFlex input device such as a sun sensor, IntelliFlex wall switch, IR remote, RF

- You want the controls to come in an electrical enclosure.

- You want to upgrade the system at a later time to work from a computer or other low voltage switching device.

®

Page 35 of 120

Wiring Instructions

™

Isolating Relay by Draper

Please Note

➀ Make sure power is disconnected before installing controls.

➁ This product is designed to be a job site rescue device by allowing multiple motors

to be connected to one motor control or switch and provides group control of

these motors. Each motor must have its own ISO Relay. Make sure the total FLA

of all motors grouped together does not exceed the load carrying capacity of the

switch or motor control being used.

➂ When installing an ISO into an enclosure, maintain a minimum of .2" (5mm)

spacing in all directions using the supplied spacers. An insulator plate should also

be used. Shorts will result in damage to the component.

➃ All metal traces may have AC power on them and must be insulated from the user

and from electrical ground. An INS-ISO (Draper Part# C199.004) insulation

board is provided.

➄ Large black part may have a small voltage on it immediately after unit is active.

➅ To achieve Pollution Degree 2 environment, mount in an enclosure with tight fi tting

seams or one that is gasketed.

➆ The Main Disconnect and Branch Circuit Protection shall be provided by installer.

Protection for shade motor must be provided at the switch or breaker panel.

➇ Maximum surrounding air temperature 70 degrees Celsius.

➈ Use copper conductors rated 75 degrees Celsius or higher only, 18-12AWG.

Please Note: This device has not been evaluated for reliability to the Standard for Tests for Safety-Related Controls Employing Solid-State Devices, UL 991 and therefore is not considered suitable for entrapment protection.

Electrical Specifi cations

Input:

Line Voltage: 115v AC +/- 10%

Output:

115V AC 5 FLA 1 /

6

HP

Dims: 2.07" L x 1.41" W x 0.82" H

(52.6 x 35.8 x 20.8 mm)

1 Isolating Relay fi ts in a standard single gang J-Box.

xt witch

To s and/or ne

Neutr al

Up

Do wn

Part Number C157.012

E225537

20HN

: al

From Motor

White-Neutr wn

(For a wiring diagram of more than one Isolating Relay Daisy chained together, see below)

Inserting wire into spring terminal

➀ Open spring terminal by inserting screwdriver into upper opening.

➁ Insert wire into lower opening.

➂ Remove screwdriver.

Wiring Diagram of more than one Isolating Relay Daisy-Chained

To

110-120V AC

Motor 1

Gr een

To

110-120V AC

Motor 2

C

Neutr al

Ne ut

Neutr ra al l

Do wn

Green

ISO

Double T hrow swit

, ch

Ne ut

Neutr ra al l

Motor Neutral

Black - Up

Red - Down

T

IN

PU

INPUT

Earth

Ground

To

Additional

Motor

Green Wire

ISO

Note:

Motor red and black wires will need to

"flip" if one motor is right hand and the other is left hand.

T

IN

PU

INPUT

To additional

ISOs

Fabric un roll ing from back of roller (standard)

Right hand motor

(Standard)

Black—Up

Red—Down

Interior side

Left hand motor

Black—Down

Red—Up

Fabric unrolling from front of roller (reverse roll)


(Standard)

Red—Up

Black—Down Interior side


Red—Down

Black—Up

Copyright ©2007 Draper Inc. Form ISO_WD07-R4 Printed in U.S.A.

dealer or Draper, Inc., Spiceland, Ind., (765) 987-7999; or fax (765) 987-7142.

IntelliFlex™ GC4

The GC4 (group control 4 motors) prevents feedback between motors and allows multiple motors to run off a 120V switch. The switches that

Draper supplies are 15A so twelve standard motors or three GC4' s are able to run off one switch with GC4' s. To further help you decide if a

GC4 is right for you, here are some conditions in which you would use them:

- You want to run multiple shades at one time, together off of 1 high voltage wall switch.

- You want controls in an electrical enclosure and a UL rating on the assembly.

- You want to "home run" wires to a control location.

- You want the cheapest, most effective way to control up to 12 motors from one high voltage switch.

GC4' s are not to be used if the following are your conditions.

- You are planning at any point and time to run the shades from a low voltage system such as AMX, Crestron, Vantage, etc.

. You want to operate a group of shades as two or more groups and together.

- You want to have preset intermediate stop action.

. You want to operate the shades from an IntelliFlex input device such as a sun sensor, IntelliFlex wall switch, IR remote, RF

- You want the controls to be remotely located near the motors to reduce wiring.

- You want to upgrade the system at a later time to work from a computer or other low voltage switching device.

®

Page 37 of 120


™

GC4 Control by Draper

Please Note


➁ This product allows up to four motors to be connected to one motor control

or switch and provides group control of these motors. Make sure the total

FLA of all motors grouped together does not exceed the load carrying

capacity of the switch or motor control being used.

➂ Up to 3 GC4s (12 motors total) can be banked as long as the switch ratings

are not exceeded and 80% of the circuit breaker rating is not exceeded.

➃ GC4 enclosure is 8" x 8" x 4".

➄ The Main Disconnect and Branch Circuit Protection shall be provided by

installer.

➅ Maximum surrounding air temperature 70 degrees Celsius.

➆ Use copper conductors rated 75 degrees celsius or higher only, 18-12AWG.

Please Note: This device has not been evaluated for reliability to the

Standard for Tests for Safety-Related Controls Employing Solid-State

Devices, UL 991 and therefore not considered suitable for entrapment protection.


Input:


Output:

115VAC Largest Motor 1FLA, 4FLA Total






E258229

To

Motor

To

Motor

Ground

Neutral

Line

Power

110-120v AC

Black

Ground

White

Red (Down)

Black (Up)

White

(Neutral)

Red (Down)

Black (Up)

White

(Neutral)

Note:



Brown

Black

Red Ground appropriately

White (Neutral)

Black (Up)

Red (Down)

Ground

White (Neutral)

Black (Up)

Red (Down)

Red

Whit e (Neutr

(D

Black (Up) own) ck (

Up

)

Connect all

Motor

Grounds

Here

To

Motor

To

Motor

Brown

Motors connect here as in above diagram

Connect all

Motor

Grounds

Here

Red

Black

Ground

Connected to Box

Switch

Additional GC4

(if applicable)

Copyright ©2007 Draper Inc. Form GC4_WD07-R Printed in U.S.A.



(Standard)

Black—Up

Red—Down


Black—Down

Red—Up

Interior side



(Standard)

Red—Up



Red—Down

Black—Up

Page 38 of 120

If you encounter any diffi culties installing/wiring your IntelliFlex control, call your dealer or Draper, Inc., Spiceland, Ind., (765) 987-7999; or fax (765) 987-7142.

IntelliFlex™ SC1

The SCI (smart control 1 motor) gives intelligence to standard motor. This intelligence allows you to group shades and run them from low voltage switching. You may run the SC l' s from a number of IntelliFlex inputs. Here are some conditions in which you would use them:

- You want to control shades individually and as a group.

- You want to have up to four preset intermediate stop locations.

- You want to reduce wiring by remotely locating the controls near motors.

- You want to offer the ability to upgrade the system in the future.

- You want to be able to change shade groups and operations in the future no matter the layout of the rooms.

- You want the most intelligent control for a standard motor.

- You want to interface standard motors with a low voltage control system or computer.

SCl's are not to be used if the following are your conditions.

- You want to use high voltage switching to control the shades.

- You want the controls to come in an electrical enclosure.

- You want the cheapest group control operation.

- You do not want to locate the controls near the shades.

- You do not want to learn how to program a control from an IR remote.

®

Page 39 of 120


™

SC1 Control by Draper

Please Note


➁ SC1 has a rated switching capacity of 6 amps.

➂ SC1 is a line voltage control, designed to operate one motor. Activation

by Low Voltage input commands. If you want to switch two or more

Input:

Data:


+5v AC BUS Commands

Low Voltage: Dry Contact—0v AC

Line Voltage: 115 V AC +/- 10%


motors, ISO relays must be installed in the circuit.

➃ SC1 is electrically “hot” on the back of the circuit board. INS-SC1 (Draper

Part Number C199.004) insulation board is provided.

Output: 115V AC 6 FLA per SC1 1 /

3

HP

Dimensions: 2 1 /

8

" W x 3 1 / 4 " L x 7 / 8 " H.

One SC1 fi ts in a deep single gang J-Box.

Wiring Instructions for Controlling One Shade with One SC1

Data BUS

"Aux" Port

Dry input terminals.

This can be any Single

Pole, Double Throw switch

Data BUS

"Eye" Port

IntelliFle x

DO

NOT

USE

C

Neutr al

Ground

To

110-120V AC

Motor





Note: Motor red and

Motor Neutral

Black - Up

Red - Down

black wires will need to “fl ip” if one motor is right hand and the other is left hand.

Please Note: When connecting data "BUS," never link an "Eye" port to another "Eye" port. You may link your BUS from "Eye" to "Aux" or "Aux" to "Aux."

All BUS command input devices must connect to an "Eye" port in order to power the input device.

Wiring Instructions for Controlling Multiple Shades with One SC1

Please Note: This confi guration will limit SC1 functions.

Note - This wire is optional if the ground terminal is not used

To

110-120V AC

Motor 1

Gr een

To

110-120V AC

Motor 2

C

Data BUS

"Aux" Port

Dry input terminals.

This can be any Single

Pole, Double Throw switch

Data BUS

"Eye" Port

IntelliFle x

SC1

Neutr al

Motor Neutral

Black - Up

Red - Down

Note:



ISO

T

PU

INPUT

Ne ut

Neutral ra l

Do wn

To additional

ISOs

Green

T

PU

INPUT ra l

Ne ut

Neutral

ISO

Earth

Ground

To

Additional

Motor

Green Wire



(Standard)

Black—Up

Red—Down

Interior side


Black—Down

Red—Up



(Standard)

Red—Up

Black—Down


Red—Down

Black—Up

Interior side

Please Note:

All input devices (low voltage LED switches, IR eye, RF receiver) which connect to the Eye jack must be connected using electrically straight 4conductor modular cable (RJ11). This means colors do not cross over: blue leads to blue, orange to orange, etc. (see diagram below)

Electrically Straight Data Cable

All connection wires must conform to the motor manufacturer’s recommendation and prevailing electrical codes. The switch and control system wires should be at least 24 AWG and no larger than 18 AWG.

Using Telephone Cable

If you use standard telephone cable, you must fi rst remove one connector, turn it over and re-attach, to ensure that the cable is electrically straight (see diagram below). Standard phone cable is 26 AWG.

Yellow

Red

Green

Black

Black

Green

Red

Yellow

Yellow

Green

Red

Black

Standard Telephone Cable

(Before, will not work)

Yellow

Green

Red

Black

®

Telephone Cable After

(Electrically Straight-will work)

Yellow

Green

Red

Black

Black

Red

Green

Yellow dealer or Draper, Inc., Spiceland, Ind., (765) 987-7999; or fax (765) 987-7142.

Copyright ©2008 Draper Inc. Form SC1_WD08 Printed in U.S.A.

IntelliFlex™ SGC4

The SGC4 (smart group control 4 motors) gives intelligence to standard motors. This intelligence allows you to group shades and run them from low voltage switching. You may run the SGC4' s from a number of IntelliFlex inputs. Here are some conditions in which you would use them:

- You want to control shades as a group.

- You want the most cost effective group control that works with low voltage switching.

- You want the controls in an electrical enclosure and to be a UL assembly.



SGC4's are not to be used if the following are your conditions.


- You want the controls to be remotely located to reduce wiring.

- You want preset intermediate stops or the ability to regroup shades.

- You want to locate the controls near the shades.


®

Page 41 of 120


™

SGC4 Control by Draper

Please Note


➁ SGC4 is a line voltage control, designed to operate up to 4 motors as a

group, activated by Low Voltage input commands.

➂ SGC4 enclosure is 8" x 8" x 4".

➃ Main Disconnect and Branch Circuit Protection provided by installer.

➄ Maximum surrounding air temperature 50° C.

➅ Use copper conductors rated 75 degrees Celsius or higher only, 18-

12AWG.


Input:

Data: +5v AC BUS Commands



Output:

115v AC Largest Motor 1FLA, 4FLA Total


E258229

Please Note: This device has not been evaluated for reliability to the

Standard for Tests for Safety-Related Controls Employing Solid-State

Devices, UL 991 and therefore not considered suitable for entrapment protection.


If you use standard telephone cable, you must fi rst remove one connector, turn it over and re-attach, to ensure that the cable is electrically straight (see diagram below).

Yellow

Green

Red

Black



Yellow

Green

Red

Black Please Note:


Yellow

Green

Red

Black



Black

Red

Green

Yellow

Yellow

Red

Green

Black


Note: Motor red and black wires will need to “fl ip” if one motor is right hand and the other is left hand.

To

115V

AC

Max of 100 feet of low voltagecable between controls, or control and input with circuit board.

To

Motor

To

Motor

Black

Green

Red

Yellow



(Standard)

Black—Up

Red—Down



(Standard)

Red—Up

Black—Down



Black—Down

Red—Up

Interior side


Red—Down

Black—Up

Red (Down)

Black (Up)

Ground

Ground

White

(Neutral)

Red (Down)

Black (Up)

White

(Neutral)

Aux Port: Out to next IntelliFlex motor control Aux or Eye port

Neutr

DO NO al

T USE C)

Programmable Dry

Contact Inputs:

This can be any

Single Pole, Double

Throw switch

Do w

Co m n

Up

IntelliFle x

Eye Port: In from previous

Aux port or input device

White (Neutral)

Black (Up)

Red (Down)

White (Neutral)

Whit e (Neutr

Bla

Red

(D ow ck ( n) eutr

Up al)

)

Black (Up)

Ground

Red (Down)

Connect all

Grounds

Here

To Switch, splitter or other input device

To Eye Port

Interior side


(Standard)

To

Motor

To

Motor





Copyright ©2007 Draper Inc. Form SGC4_WD07-R2 Printed in U.S.A.


IntelliFlex™ SPGC4

The SPGC4 (smart programmable group control 4 motors) gives intelligence to standard motors. This intelligence allows you to group shades and run them from low voltage switching. You may run the SPGC4' s from a number of IntelliFlex inputs. Here are some conditions in which you would use them:

- You want to control shades individually and as a group.

- You want to have up to four preset intermediate stop locations.

- You want the controls in an electrical enclosure and to be a UL assembly.


- You want to be able to change shade groups and operations in the future no matter the layout of the rooms.

- You want the most intelligent control for a standard motor.


SPGC4's are not to be used if the following are your conditions.


- You want the controls to be remotely located to reduce wiring.

- You want the cheapest group control operation.

- You want to locate the controls near the shades.


®

Page 43 of 120


™

SPGC4 Control by Draper

Please Note


➁ SPGC4 is a line voltage control, designed to individually operate 4

motors, activated by Low Voltage input commands.

➂ SPGC4 enclosure is 8" x 8" x 4".

➃ The Main Disconnect and Branch Circuit Protection shall be provided by

installer.

➄ Maximum surrounding air temperature 50° C.

➅ Use copper conductors rated 75 degrees Celsius or higher only, 18-

12AWG.

Please Note: This device has not been evaluated for reliability to the

Standard for Tests for Safety-Related Controls Employing Solid-State

Devices, UL 991 and therefore not considered suitable for entrapment protection.


Input:

Data: +5v AC BUS Commands



Output:

115VAC Largest Motor 1FLA, 4FLA Total

Aux

Port


To

Motor

Neutral

Red (Dir)

Black (Dir)

E258229

Max of 100 feet of cable between controls, or control and input with circuit board.

To Switch, splitter or other input device

Dry

Contacts

To

Eye

Port

Aux

Port

IntelliFle x

Eye

Port IntelliFle x

Neutral

AC (115V AC) x

IntelliFle

To

Motor

Neutral

Red (Dir)

Black (Dir)

Please Note:

Connect all

Ground wires to

Eye

Port

Aux

Port ground block provided.

x

Dry

Contacts





o r

To

Mot

Black (Dir)

Red (Dir)

Neutral

IntelliFle

Eye

Port

Aux

Port

Dry

Contacts

Data cable from Aux Port to Eye port of next SPGC4

Please Note: Connect Ground wires as noted on enclosure

To

Mot o r

Black (Dir)

Neutral

Please Note:




If you use standard telephone cable, you must fi rst remove one connector, turn it over and re-attach, to ensure that the cable is electrically straight (see diagram below). Standard phone cable is 26 AWG.

Yellow

Green

Red

Black



Yellow

Green

Red

Black



Yellow

Red

Green

Black

Black

Green

Red

Yellow

Yellow

Green

Red

Black

Black

Red

Green

Yellow


Copyright ©2007 Draper Inc. Form SPGC4_WD07-R2 Printed in U.S.A.




(Standard)


(Standard)

Black—Up

Red—Down Interior side

Red—Up


Left hand motor Left hand motor

Black—Down Red—Down

Red—Up Black—Up

Page 44 of 120

If you encounter any diffi culties installing/wiring your IntelliFlex control, call your dealer or

Draper, Inc., Spiceland, Ind., (765) 987-7999; or fax (765) 987-7142.

IntelliFlex™ Inputs

We have many different low voltage input devices for controlling shades through

IntelliFlex. Here is a listing and brief description of each input available to you.

- IR control- This is an IR eye plugged in an SC1, SGC4, or SPGC4 to receive IR remote commands.

- RF control- This is an RF receiver plugged in an SC1, SGC4, or SPGC4 to receive RF remote commands. Long range antennas are available.

- IntelliFlex wall switch- This switch comes as a BUS version which plugs directly into a SC1, SGC4, or SPGC4 or an RF version which talks to an

RF receiver. These versions of the switch are programmable to send out whatever commands are desired. Dry contacts version which are not programmable are also available for some types.

- RS 232 interface- This is an RS 232 bridge to run shades from RS 232 commands. These commands can give full function to the controls.

- Sun sensors- This is an interior sensor that will read light intensity and run a group of shades up and down accordingly. It does not track the sun’ s

movement.

- Timer- This item will run a group of shades up and down at given times of

- Dry Contact Converter- This item takes dry contact commands and turns them into bus commands for the SC1’s to respond.

- SolarFlex- This is a sun tracking software which is programmed to drive a specifi c building’s shades per the needs of the end user based on the sun’s

position.

- Dry Contacts- The SC1, SGC4, and SPGC4 are built with dry contacts already on them so one can connect dry contacts to one of the controls to drive it. The dry contacts on the controller itself will not communicate on the

- Two-way communication on the bus line can be accomplished with certain input set-ups and cabling. Ask Draper for more details.

OPEN CL

LO

SE

OSE

OPEN C

ALL

10

11

12

ST

OP

IR control

OPEN CL

OSE

OSE

OPEN CL

ALL

10

11

12

ST OP

RF control

IntelliFlex wall switch

T echnolog

R2D7 v2 y made simple

SYS 7

SYS 1

MAIN

SYS 6

SYS 2

SYS 5

SYS 3

SYS 4

RS-232

RS 232 interface

Switch EYE BUS RS232

Wind

Input

Disable

Switch

Light

Sensor

Red = Program Mode

Green = Visible Light

(Test Mode Only)

PSSW

Sun sensor

CAL CLK PGM AUTORAND MAN

OFF

AM

PM

12:00 d

MO TU WE TH FR SA SU ON

MODE

DAY/

DST

NEXT/

ON/

OFF

RESET

HOUR+

YEAR-

M+

ZONE-

YEAR-

Timer

Dry Contact

Converter

Dry Contacts

®

Page 45 of 120

(+75mA) t e" Por t e" Por

(+75mA) ux" o "A ux" e to A ux" T t is not in use)* rom "A

F

(can also be "Ey e por if Ey

T o "Ey

T o "Ey e"

Port

T o "Ey

(+75mA) ux" ux" ux" t

F rom "A

To "A

(can also be"Ey e to A if "Ey e" por not in use)*

(+75mA) t e" Por T o "Ey

Page 46 of 120

Installation Instructions

™

IR Remote Control by Draper

Caution:

➀ The IR Receiver Eye must connect to an "Eye" Jack on an SC1 or

Splitter. If it connects to a Splitter, then the Main Jack of the Splitter

must connect to the "Eye" Jack of an SC1.

➁ Main Jack on splitters connects to Eye Jack on SC1.

➂ Any Aux Jack can be connected to any Aux or Eye Jack.

➃ Never connect any two Eye Jacks together.

➄ For IR commands to work, or for remote programming, there must be

at least one Eye connected to one of the Eye Jacks.

Installing the IR Eye

The IR Eye must connect to an Eye Jack on an SC1 (see Fig. 1) or

Splitter. If the eye connects to a Splitter, then the Main Jack of the Splitter must connect to the Eye Jack of an SC1. The IR Eye is line-of-sight: It must be visible to “see” the infrared signal from the transmitter.

Eye Jack for connecting control devices to SC1 inputs will work but the IR will not.

If a splitter is not available, the wiring can be done manually. Assuming the yellow wire is on the right of the plug with the cable toward you and the

“fl ipper” away from you (this is how all SC1s are wired), then:

➀ The black wire is common or “ground” (not AC or earth ground) which is the same as the common pin on the 3 wide screw terminal for manual switch. Connect all black wires together.

➁ The yellow wire (sometimes white) is the demodulated IR signal. This line is normally about 5 volts (pulled high by a resistor on the SC1). Connect all these wires together.

➂ The red wire is 5 Volt power. Do not connect 5 volt lines of multiple receivers together. Connect the red wire from any one receiver to the red wire from the eye or the accessory unit.

➃ All green wires are unused and should be cut off and isolated from each

other.

➄ Make sure that none of the wires “fl ip”—i.e., yellow is always on the right.

Multiple eyes allow operation from more than 1 room, or to cover the room

Aux Jack for linking SC1s together

IR Eye in plastic box shown. IR Eye with length of modular cable is also available (see page 2), and plugs into the

SC1 or other Bus control in the same fashion.

Figure 1

The combined length of ALL cables in the system (Eye to SC1, plus SC1 to SC1, plus Splitter to SC1, plus Eye to Splitter, plus Splitter to Splitter) can be up to 100 feet per SC1 without problems. The Repeater/Timer Interface with built-in IR fi lter (Part # C072.026) can be used if additional length is needed. Contact Draper for further information.

If the cable length is too long, some units may operate sporadically where the motor pulses on and off. Some units may not operate at all, or may operate intermittently.

Similar symptoms can come from interference in the room. Sunlight is a very strong infrared source. Try to place the sensor out of direct or bright refl ected sunlight. The Repeater/Timer Interface with built-in IR fi lter (Part #

C072.026) can be used to help solve this problem.

Sunlight will also reduce your effective range. Expected line-of-sight range with no interference is at least 50 feet, usually as much as 100 feet.

Electronically ballasted fl uorescent lighting and Halogen lights can cause similar trouble.

None of the wires associated with the IR sensor should be run next to power lines. And all wires should be kept at least 18" away if run parallel to a power line. If they must go near power lines, they should cross at a right angle. They may need to be shielded if running near very noisy power lines.

One eye can be connected to multiple boards by “daisy-chaining” SC1s together, or using a Splitter. Never use a standard telephone splitter for this connection. Larger splitters are available—contact Draper for more information. All connections are made with standard "telephone" type cord, but connectors are "fl ipped" so a standard phone cable will not work. See

"A Note on Wiring" on page 2. The installer will need a 6P4C telephone plug crimping tool, with 6P4C plugs, and silver satin 4 conductor phone wire (all are available from Draper). 6P6C plugs will also work, as will 6 conductor wire with these plugs.

When connected together, all receivers must be powered for any of them to work. Any unit that is not powered will “short out” the IR signal. Manual

Operation from multiple rooms can also be done using standard IR repeater systems, such as X-10 Powermid ® or products from Xantech. Radio repeaters such as a remote extender or Leapfrog ® can also be used.

When using a Xantech IR repeater system, do not attempt to run the signal directly from the connecting block into the SC1. Simply place an emitter near one of the IR Eyes.

Installing IR Eye and SC1 into JBox

Plastic Snap

INS-SC1

Short screws

Eye Jack for connecting control devices to SC1

To Optional

Manual Switch

To

AC Power and Motor

Earth Ground

.062" Nylon Washer

Please Note: Orientation MUST be as shown so the ground terminal connection on the terminal block connects to the aluminum plate via the screw.

1" flat head screws in J-box

Infrared Cover fits in Decora Plate

Please see page 2 for more installation information and IR codes.

Powermid ™ is a registered trademark of X-10.

Leapfrog ® is a registered trademark of Terk Technologies Corporation.

Please Note:

Draper recommends using a PDA or PC to program your IntelliFlex controls. Software is available at www.draperinc.com.

For button press sequences to manually program, see “SC1 Quick Reference Guide” at www.draperinc.com

Copyright ©2004 Draper Inc. Form IntelliFlex-IR_Inst04 Printed in U.S.A.

control, call your dealer or Draper, Inc., Spiceland, Ind., (765) 987-

7999; fax (765) 987-7142; or e-mail [email protected].

IntelliFlex™ IR Remote Control by Draper

Installing IR Eye Only into J-Box

IR Eye Only

Page 2 of 2

Optional Cable Accessories

Splitter

1" flat head screws in J-box

Infrared Cover fits in Decora Plate

IR Codes

IR wavelength is 950 nm. Light is modulated at 38 KHz with 1/3 duty cycle.

An on pulse must be at least 158 µseconds (µs) long (6 cycles) and should not be longer than 448 µs (17 cycles).

From the start of a pulse till the start of the next pulse is 1050 µs for a “0 bit”, and 2000 µs for a “1 bit”.

A Flash is 11 pulses (10 bits), minimum time between fl ashes (interfl ash time) is 11 mseconds (ms). When using the small eye the minimum interfl ash time is 25 ms, 30 ms is recommended. There is NO preamble.

Channel 1 OPEN sequence is 0101000010. The sequence always starts with 01, so for simplicity strip that off, and we get 0100 0010 = hex 42 (see fi gure below).

Please Note: low = off, high =38 KHz signal on.

Flash Interflash Time (30 ms)

0 1 0 1 0 0 0 0 1 0

2000 µs time

1050 µs 2000 µs

The complete table of codes (in hex) is:

OPEN1 42

CLOSE1 22

OPEN2 62

CLOSE2 12

OPEN3 32

CLOSE3 0a

OPEN4 4a

CLOSE4 2a

OPEN5 1a

CLOSE5 06

OPEN6 46

CLOSE6 26

OPEN7 16

CLOSE7 0e

OPEN8 56

CLOSE8 36

OPEN13

CLOSE13

OPEN14

CLOSE14

OPEN15

CLOSE15

OPEN16

CLOSE16

OPEN17

CLOSE17

OPEN18

CLOSE18

OPEN19

CLOSE19

OPEN20

CLOSE20

40

20

60

10

30

08

48

28

18

04

44

24

14

0c

54

34

OPEN9 4e

CLOSE9 2e

OPEN10 5a

CLOSE10 3a

OPEN11 02

CLOSE11 72

OPEN12 6a

CLOSE12 66

OPEN21

CLOSE21

OPEN22

CLOSE22

OPEN23

CLOSE23

OPEN24

CLOSE24

4c

2c

58

38

1c

70

68

64

OPEN ALL (1-12) 76 OPEN ALL (13-24) 74

CLOSE ALL (1-12) 6e CLOSE ALL (13-24) 6c

STOP 52

Modular Jack Adapter

Modular Cable Coupler

A Note on Wiring

The IR Receiver Eye must be plugged in to an open "Eye" jack (see diagram on page 1). All input devices connect using electrically straight 4-conductor modular cable.

Please note: If you use standard telephone cable, you must fi rst remove one connector, turn it over and re-attach, to ensure that the cable is electrically straight (see diagram below).

Please Note:

Draper recommends using a PDA or PC to program your IntelliFlex controls. Software is available at www.draperinc.com.

For button press sequences to manually program, see “SC1 Quick Reference Guide” at www.draperinc.com


(765) 987-7999


™

RF Remote Control by Draper

➀ The Radio Frequency receiver must be connected to an Eye Jack on an SC1 or splitter.

➁ Mount receiver with the antenna pointing up.

➂ Do not mount receiver on or near a metal surface.

➃ Each RF receiver must be “trained” to “hear” each transmitter before

➄ Each receiver can “learn” to “hear” up to fi ve different transmitters.

Installing the Receiver

Connect the receiver to the Eye Jack on an SC1 or splitter (see Fig. 1). If the eye connects to a splitter, then the Main Jack of the Splitter must connect to the Eye Jack of an SC1.

Mount the receiver with the antenna pointing up. For longer range reception, detach the provided antenna and attach the optional Long Range

Antenna—Part # C267.001 (see Fig. 2).

Please Note: For information on installing SC1 or other “BUS” command controls, please see the instruction sheet for the appropriate item.

To next

SC1

"Silver Satin" 4-conductor

Flat Modular Phone Cable must not "flip"

(i.e., black is always on left).

Eye Aux

Tested to Comply

With FCC Standards

FOR HOME OR OFFICE USE

This Class B digital apparatus meets all requirements of the Canadian Interference-

Causing Equipment Regulations.

RR

If no transmitters are known (factory default):

➀ The red LED will turn on as soon as the unit is powered.

➁ The red LED will fl ash every 10 seconds until a transmitter is learned.

➂ Pressing the learn button has no meaning while in this mode (the LED will turn off while the button is pushed).

To clear all known transmitters:

➀ Press and hold the learn button for 5 seconds. The red LED will blink on and remain on, until a new transmitter is learned.

➁ Release the button, the red LED will come on. The unit is ready to learn the 1st transmitter.

Please Note: If you press and release the learn button and the red LED does not come on, the list may be “full” and no more transmitters can be learned.

The unit may also not be powered correctly—to fi x this, clear receiver and start over.

The receiver will not pass commands to the SC1:

➀ While in the learn mode (the red LED is on).

➁ While the button is pressed.

Please Note: The stop command will be sent to the SC1 system if the transmitter’s STOP button is still pressed when the receiver exits from learn mode after learning the transmitter.

Installing the RF Keypad or Wall Switch

If using an RF Wall Mounted Keypad or RF Wall Switch, fi rst test for reception and successful operation of the switch in the desired location. Then, cut hole in appropriate location, attach transmitter module to switch or keypad using modular cable, and attach switch to wall.

Please see Fig. 3 (below), and information provided with the specifi c switch or keypad for more information. Three AAA batteries required.

UP SC1

Figure 1

Figure 2

Training Your RF Receiver

The receiver can “learn” up to 5 different transmitters. It ships from the factory with NO transmitters learned: you must train it in the fi eld to work with your specifi c transmitters. If the receiver is new with no transmitters learned, the LED will automatically come on when plugged into an “Eye” port.

➀ Press and release the “Learn Transmitter” button on the receiver. The red

LED will come on if 5 transmitters have not already been learned. The unit is now ready to learn another radio transmitter.

➁ Press any button on the radio transmitter. The LED on the receiver will go out. This transmitter is added to the list of known transmitters. The receiver returns to normal operation after it has learned a transmitter. If this transmitter is already known to the receiver, the LED will remain lit because the transmitter does not need to be learned again.

If no command is received within 10 seconds:

➀ The red LED will fl ash off, then on, and then go out. No new transmitters learned.

➁ If no transmitters are known, the LED will turn back on immediately.

If the red LED is on and the learn button is pressed and released:

➀ The red LED will turn off with no changes to the learned list.

➁ If no transmitters are known, the LED will turn back on immediately.

Figure 3

RF Handheld Transmitters

OPEN CLOSE

1

OPEN CLOSE

2

ALL

8

3

4

9

10

5

6

7

11

12

STOP

Please see page 2 for information on radio frequencies and codes.

Please Note:

For button press sequences to manually program your control, see “SC1 Quick Reference Guide” at www.draperinc.com

Copyright ©2007 Draper Inc. Form IntelliFlex-RF_Inst07 Printed in U.S.A.


IntelliFlex™ RF Remote Control by Draper

A Note on Interference

This equipment has been tested and found to comply with the limits for a class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.

However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

➀ Reorient or relocate the receiving antenna.

➁ Increase the separation between the equipment and receiver.

➂ Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

➃ Consult the dealer or an experienced radio/TV technician for help.

Operation with non-approved equipment is likely to result in interference to radio and TV reception. The user is cautioned that changes and modifi cations made to the equipment without the approval of manufacturer could void the user’s authority to operate this equipment.

Radio Codes

Radio Frequency is 418 MHz ± 75 KHz, on-off keying.

On

Off

0 Bit 1 Bit

Start

All times in the following description are nominal with a tolerance of ± 5%, however, all times must change proportionally.

A packet of data consists of:

A start sequence, 20 address bits, and 16 data bits. The packet is similar to that used by the Holtek brand of data encoder chips.

The Start sequence consists of:

471 µs on, 471 µs off, 973 µs on, 973µs off, 471 µs on, 471 µs off, 973 µs on, 973 µs off, 471 µs on.

Address & data bits consist of:

A “0 bit” being defi ned as 471 µs off, 973 µs on,

A “1 bit” being defi ned as 973 µs off, 471 µs on.

The start sequence plus the address and data bits make a packet 57 msec long. There must then be a pause of 17 msec before the packet is transmitted again.

The address is encoded in 20 bits (A0 = least signifi cant bit, A8 = most signifi cant bit of 512 possible addresses):

A0 0 A1 0 A2 0 A3 0 A4 A5 A6 A7 A8 1 1 1 1 1 1 1

The button data is encoded in 16 bits (D0 = least signifi cant bit, D7 = most signifi cant bit of 256 possible numbers):

1 D0 1 D1 1 D2 1 D3 1 D4 1 D5 1 D6 1 D7

The button data is converted into a command compatible with the “BUS” connecting receiver controls together.

The complete table of codes (in hex) is:

OPEN1 42

CLOSE1 22

OPEN2 62

CLOSE2 12

OPEN3 32

CLOSE3 0a

OPEN4 4a

CLOSE4 2a

OPEN5 1a

CLOSE5 06

OPEN6 46

CLOSE6 26

OPEN7 16

CLOSE7 0e

OPEN8 56

CLOSE8 36

OPEN9 4e

CLOSE9 2e

OPEN10 5a

CLOSE10 3a

OPEN11 02

CLOSE11 72

OPEN12 6a

CLOSE12 66

OPEN19 14

CLOSE19 0c

OPEN20 54

CLOSE20 34

OPEN21 4c

CLOSE21 2c

OPEN13 40

CLOSE13 20

OPEN14 60

CLOSE14 10

OPEN15 30

CLOSE15 08

OPEN16 48

CLOSE16

OPEN17

28

18

OPEN22 58

CLOSE22 38

OPEN23 1c

CLOSE23 70

OPEN24

CLOSE24

OPEN ALL

CLOSE ALL

68

64

76

6e

CLOSE17 04 OPEN ALL (13-24)* 74

OPEN18 44 CLOSE ALL (13-24)* 6c

CLOSE18 24 STOP 52

* These commands correspond to channel 25 on the R2D7 RS232 Serial

Translater.

Optional Cable Accessories

Splitter

Modular Jack Adapter

Modular Cable Coupler

Page 2 of 2

A Note on Wiring

The RF Receiver must be plugged in to an open "Eye" jack (see diagram on page 1). All input devices connect using electrically straight 4-conductor modular cable.

Please note: If you use standard telephone cable, you must fi rst remove one connector, turn it over and re-attach, to ensure that the cable is electrically straight (see diagram below).


(765) 987-7999

™

Wall Switch

2 button, 1 channel—horizontal switch for 1 shade or group of shades

2 button, 2 channel—sequencing switch for 1 shade or group of shades

3 button, 3 channel—sequencing switch for 1 shade or group of shades by

3 button, 1 stop—vertical switch for 1 shade or group of shades

121105—BUS command

121106—Dry Contact

121107—RF (requires

1 RFTM p/n C072.022, ordered separately)












4 button, 2 channel—horizontal switch for 2 shades or groups of shades

4 button, 4 channel—sequencing switch for 4 shades or groups of shades

















5 button, 5 channel—sequencing switch for 1 shade or groups of shades



6 button, 1 stop, 2 groups—vertical switch for 2 shades or groups of shades
















6 button, 6 channel—vertical switch for 1 shade or group of shades











































Please Note: For wiring and programming instructions, please see page 2.

Please Enter Appropriate Information:

ARCHITECT:

CONTRACTOR:

SUPPLIER:

Page 51 of 120

REVISED:

Copyright © 2007 Draper Inc. Form IntelliFlexWall Switch_Sub07 Printed in U.S.A.

IntelliFlex Wall Switch by Draper

Programming IntelliFlex Switch

Dry Contact: Does not have a Bus connection, and is not programmable. It is somewhat confi gurable, based on how it is connected—it must be connected directly to each device it is controlling.

Bus: Programming requires physical contact with the back of the switch. This allows programming of which button sends which command, and other options.

The switch must be powered by installing it on the SC1 Bus. Plug it into any available “Eye” jack.

RF: Battery operated. Programming the RF switch requires physical contact with the back of the switch, and allows programming of which button sends which command, along with other options. When replacing batteries, test switch to make sure it works. If not, remove batteries, wait a few seconds, then re-insert them. The switch may operate with low batteries, but programming may not work.

Programming Switch “Locally” Using IR Transmitter

Press programming button on back of switch. Red LED on back of switch will come on, indicating it is in program mode. This method uses the eye on the back of the switch, so you must use an IR transmitter for programming, and you must have access to the back of the switch. Bus commands are ignored during this process.

To set button “#” on the switch to send a new “command”:

➀ Press programming mode button on back of switch (red LED appears).

➁ Press and release the switch button you want to program. The LED will change

from red to green.

➂ Press the command on the IR transmitter you want to be assigned at the

button you just selected (pressing “Stop” at this point will assign the stop

command to the selected button).

➃ The LED will go back to red and you are back in program mode; e.g. to

program the top left button to send Close 7: press the top left button, then

press Close 7 on the IR transmitter.

Clear button “#”:

Press programming mode button on back of switch (red LED will appear). Press

OPEN “#” on the IR transmitter, where “#” is the switch button number to clear. The red LED will blink off then back on, and you are back in program mode.

Reset to factory default:

Press programming mode button on back of switch(red LED will appear). Press

CLOSE ALL on IR transmitter. The red LED will blink off then back on, and you are back in program mode. If this is an RF switch, the radio address will not change.

Exit programming mode:

Press STOP on the IR transmitter, and LED will turn off; or, LED will turn off automatically after 10 seconds of no IR commands or buttons pushed.

Please Note

The eye on the back of the switch is only for programming and will not act as a receiving eye.

(Switch

Front/

Button

Map)

Hardwired “Bus” Command Switch

Program

Button

Program

Button

"Eye"

Jack

RF “Bus” Command Switch

"Eye"

Jack

Page 2 of 2

Dry Contact Switch (not programmable)

(Switch Back/

Board Map)

3

5

7

4

6

8

5

COM

6

COM

COM

COM

3

COM

4

7

COM

8

Please Note: This drawing indicates all possible connection and button locations. Your switch may not have the same number of buttons or connections, but their locations will be consistent with these "maps."

Dry Contact switch is not programmable.

(765) 987-7999 www.draperinc.com

Page 52 of 120


™

Wall Switch by Draper

RF “Bus” Wall Switch

Program

Button

"Eye"

Jack

“Bus” Wall Switch

Program

Button

"Eye"

Jack

(Switch Front/

Button Map)

Please Note: This drawing indicates all possible connection and button locations. Your switch may not have the same number of buttons or connections, but their locations will be consistent with these "maps."

Compare your switch with these diagrams, and wire the buttons and connections on your switch accordingly.

Dry Contact switch is not programmable.

Dry Contact switch can be connected to a Bus via a PSI60.

3

5

7

Dry Contact Wall Switch

COM

3

COM

4

(Switch Back/

Board Map)

4

6

8

5

COM

6

COM

COM

7

COM

8

Please Note: For programming instructions, please see page 2.

Copyright ©2007 Draper Inc. Form IntelliFlex-WallSwitch_Inst07 Printed in U.S.A.

dealer or Draper, Inc., Spiceland, Indiana, (765) 987-7999; or fax (765) 987-7142.

IntelliFlex Wall Switch by Draper

Page 2 of 2

Programming IntelliFlex Switch

Dry Contact: Does not have a Bus connection, and is not programmable. It is somewhat confi gurable, based on how it is connected—it must be connected directly to each device it is controlling. Can be connected to a Bus via PSI60.

RF: Battery operated. Programming the RF switch requires physical contact with the back of the switch, and allows programming of which button sends which command, along with other options. When replacing batteries, test switch to make sure it works. If not, remove batteries, wait a few seconds, then re-insert them.

The switch may operate with low batteries, but programming may not work.

Programming Switch “Locally” Using IR Transmitter

Press programming button on back of switch. Red LED on back of switch will come on, indicating it is in program mode. This method uses the eye on the back of the switch, so you must use an IR transmitter for programming, and you must have access to the back of the switch. Bus commands are ignored during this process.

To set button “#” on switch to send a new “command”:

➀ Press programming mode button on back of switch (red LED appears).

➁ Press and release the switch button you want to program. The LED will change

from red to green.

➂ Press the command on the IR transmitter you want to be assigned at the

button you just selected (pressing “Stop” at this point will assign the stop

command to the selected button).

➃ The LED will go back to red and you are back in program mode; e.g. to

program the top left button to send Close 7: press the top left button, then

press Close 7 on the IR transmitter.

Clear button “#”:

Press programming mode button on back of switch (red LED will appear).

Press OPEN “#” on the IR transmitter, where “#” is the switch button number to clear. The red LED will blink off then back on, and you are back in program mode.

Reset to factory default:

Press programming mode button on back of switch(red LED will appear).

Press CLOSE ALL on IR transmitter. The red LED will blink off then back on, and you are back in program mode. If this is an RF switch, the radio address will not change.

Change RF switch’s radio address:

Press programming mode button on back of switch (red LED will appear).

Press Open 13 on the IR transmitter. Red LED will blink off then back on, and the radio address will be changed.

Exit programming mode:

Press STOP on the IR transmitter, and LED will turn off; or, LED will turn off automatically after 10 seconds of no IR commands or buttons pushed.

Please Note

The eye on the back of the switch is only for programming and will not act as a receiving eye.

(765) 987-7999 www.draperinc.com

Page 54 of 120


™

R2D7 RS232 Professional Integration Interface by Draper

To Bus System 7 (or to RF Transmitter)

To Bus System 6

To Bus System 5

To Bus System 4

Please Note

➀ Includes free “GUI” software capable of scheduling timed events and global alignment positioning of shades.

➁ For information on programming and operation, see IntelliFlex

Programmer instructions available at www.draperinc.com.

➂ This input device can be used with SC1, SGC4 or SPGC4.

To RS232 Port:

Yellow = Rx (Receive data from control system)

Green = Tx (Transmit data to control system)

Red = Unused

Black = Gnd (Signal Ground)

Codes and Technical Information

Serial Port to Motor Link

Information

Command

5

Data

Header (Start of command) * (asterisk) for use on RP B US

Subsystem number or

Administration command

0

2

– 7 if BUS, 7 – 99 if Radio

V

3

= report version

R = make port 7 Radio

4

B = make port 7 BUS o = open c = close s = stop p = program q

6

= quit sending

Channel

7

Time to send

10 11

0 0 0

12

– 9 9 9 20 th

of seconds

13

(this value is optional)

Terminator

Pause

; (semicolon) or “ CR” (enter key)

Send a command on an unused channel for the desired pause time.

To Bus System 1

To Bus System 2

To Bus System 3

Number of characters

1

1

1 or 2

1

2

3

1

You may also need ...

Serial Port Adapter

Converts a standard DB9 serial output of a PC into an RJ11 connection providing

RS232 serial commands.

Motor Link to Serial Port

Event R2D7 sends

Powered up “ version, X -on”

Terminator is received

“ LF” if good command

“U” sent if command cannot be understood

“ CR” is sent after command has been relayed to motors

Buffer

14

overflows and all data is purged “O” is sent

Buffer is half full

Buffer is empty

“X -off ” (Ctrl -S)

“X -on” (Ctrl -Q), but only if X -off was previously sent

USB-to-DB9 Serial Port Converter

Serves as a bridge between USB port and standard RS232 Serial Port.

Character

“ ; ”

“ CR ”

“ * ”

“ LF ”

“ X -off ”

“ X -on ”

Special characters

Description

Semicolon, signifies end of comma nd

Carriage return, signifies end of command

Asterisk, Shift 8 on most keyboards

Line feed, ignored (not used)

ASCII Character Number

59 (0x3B)

13 (0x0D)

42 (0x2A)

10 (0x0A)

1. Total message length may be as short as 2 and as long as 10 characters, typically 6.

2. 0 means ALL systems, for super groups ALL does not include the radio channels.

3. Version reports “2.1” then R if administered as Radio, or B if BUS, followed by carriage return (All characters after V in this command are ignored).

4. Radio requires a RF TM be plugged into port 7 jack.

5. Case is important: o is different from O and so on.

6. Stop sending a forever command. Any other command will stop transmission, but an error will be reported.

7. If command is stop or quit, then this value is optional and ignored.

8. 00 = ALL.

9. 60 = “cut strap ALL” (note that version 2.0 used 25 for this channel).

10. If no digits, then the command is sent for 2 seconds, except for stop and program which are sent for ¼ second.

11. Time between commands = .5 sec if multiple commands are buffered (Time = .1 sec after a stop).

12. 000 = Forever, use the q command to stop transmission.

13. Max timed pulse = 50 sec. If this is a radio command, the value is rounded up to the nearest 10th second.

14. Buffer is 120 bytes long.

If you encounter any diffi culties installing/wiring your IntelliFlex

Copyright ©2004 Draper Inc. Form IntelliFlex-RS232_Inst04 Printed in U.S.A.

Draper, Inc., Spiceland, Ind., (765) 987-7999; fax (765) 987-7142; or e-mail [email protected].

Installation and Programming Guide

Sun and Wind Sensor V1.l and Sun Sensor Switch V4 by Draper, Inc.

Connect to the Sun and Wind Sensor as shown:

All wires labeled “Common” are connected together and are electrically the same as the Black wire on the Bus; any common wire can be used in place of any other common wire in the drawing.

The Light Sensor may be connected to the spring-loaded connector or to the sensor jack. For best results, use only one of the Light Sensors shown. More than one light sensor can be installed on either or both connections; however, if this is done the sensors' scale is disturbed. Sharing a Light Sensor between two Sun and Wind Sensors is not supported. The actual light sensor is the small round device in the box. This part does not have to be in direct sunlight, but it may be if desired. (If the indoor white box is in direct sunlight it may discolor over time.) The small white box must NOT be mounted outdoors—it is NOT weatherproof. A weatherproof sensor may easily be connected to the spring-loaded connector. If the sensor becomes disconnected, then the control unit will not be able to detect sunlight and will report total darkness all the time. The wire to the light sensor may be up to 500 feet long and wire type and gauge does not matter, but exterior rated wire should be used if the wire is exposed to the elements. When connected to a modular jack, this sensor uses the black and green wires as shown.

The two BUS jacks are electrically connected together in parallel.

5VDC Power (the red wire) is shared between BUS and Sun Sensor Switch (DSK) jacks.

Commands on the Sun Sensor Switch jack are repeated to the BUS jacks, and vice versa.

This unit works well with other accessories on the same SC1 Bus.

SUN AND WIND SENSOR LED:

The LED is bi-colored.

-On power-up, the LED will blink red, green if unit is Bus, green, red if unit is RF (lowercase indicates short LED blink, while UPPERCASE indicates LONG LED blink).

-The GREEN LED will flash briefly whenever the unit is transmitting to the SC1 Bus or via RF.

-The GREEN LED on solid indicates program mode. Note this is opposite the Sun and Wind Sensor.

-The RED LED will flash briefly whenever the unit is unable to transmit to the SC1 Bus due to traffic, indicating that the command is being discarded.

SUN AND WIND SENSOR Accessory Enter Program Mode:

To Enter Program Mode:

-Using a programmable remote: press & hold STOP; while still holding STOP press both OPEN7 and CLOSE7.

-Release all three buttons; within 6 seconds press CLOSE 'N', where “N” represents the accessory number of this device (factory default for N is 1), or CLOSE ALL will put all accessories in program mode. Note that Stop+7+7

Close 1 is supported by the R2D7 command: *1a01.

Copyright 2008 IntelliFlex_SUN AND WIND SENSOR_Programming_Inst08 Printed in USA

Page 56 of 120

SUN AND WIND SENSOR V1.l and SUN SENSOR SWITCH V4 by Draper Page 2 of 9

The Program Mode LED must now be lit solid GREEN, if it is not, repeat the above steps.

The SUN AND WIND SENSOR will automatically exit program mode after 20 seconds if no commands are received.

If programming commands started via an eye on the BUS, then BUS must be used to complete this programming.

The same goes for the Sun Sensor Switch jack. While in programming mode, commands seen on either jack are repeated to the other.

While in programming mode, sun and wind sensors and all switches are ignored.

When program mode exits, the sun sensor is reset to where the level is now, there are no pending events.

SUN AND WIND SENSOR Configuration

This Sheet uses "#" for this unit's accessory number - new units will use a 1 where the # is (ALL also works).

1

The accessory number is reset to 1. Radio address is not changed

Defaults:

Accessory number = 1, Plugged into SC1 (RP) Bus, Standard Wind Timing.

For the most reliable operation, this unit should be hardwired to the SC1 system. If that is not practical, the SUN

AND WIND SENSOR may be connected to an RFTM for wireless operation. Please see "Installing SUN AND

WIND SENSOR using radio (RFTM): Step by Step" for more info.

Putting the SUN AND WIND SENSOR in Demo Wind Timing mode is useful for demonstrating the unit to a potential client without having to wait several minutes to see actions. Demonstrating the Sun Sensor is achieved by setting a fast Sun Delay Time as described under the Sun Sensor section of this document.

Command send time is not selectable. It is 1/4 second for all commands. This means the controlled SC1 action must not be momentary, or they must be sticky, which is what is recommended in the notes.

Page 57 of 120


Sun Actions:

This Sheet uses "#" for this unit's accessory number - new units will use a 1 where the # is (ALL also works).

8

2

7

The LED will turn RED then back to GREEN to indicate you are in a multi-button sequence.

3

6

This means whatever "button" you want to "send" at the selected event, STOP means ignore the event.

4

5

Completing this sequence automatically turns off user selection of sun "level" via Sun Sensor Switch.

See "Sun Thresholds and Levels" for full explanation.

See "Sun Intermediate Stops" for full explanation. Summer and Winter events are both set the same.

See "SUN assuming fixed levels" for full explanation and warning.

Completing this sequence automatically turns on user selection of sun "level" via Sun Sensor Switch.

Page 58 of 120


Defaults:

Sun sensor timing = 10 minutes, low sunrise at 68 with increment of 3, low sunset at 48 with increment of 3. User level selection is allowed and is set to high, Summer and Winter Actions =No Intermediate Positions on Sun (as shown in "Sun Intermediate Stops"), Sun Sensor not disabled via a channel, No channel to switch between

Summer & Winter, Sun Sensor always uses Summer Actions.

Sun Intermediate Stops

No Intermediate Positions on Sun, use default settings (S+7+7 > C# > C10 > 01):

When the "high" LED on the Sun Sensor Switch display blinks, then the sunrise event is pending. When the selected delay time expires, Close ALL will be sent. The sunrise event has then happened and the high LED will stop blinking.

When the "low" LED on the Sun Sensor Switch display blinks, then the sunset event is pending. After the delay time,

Open ALL will be sent. The sunset event has then happened and the low LED will stop blinking.

Other levels of sun will display appropriately with no bus commands.

The user may adjust all levels up or down using the Sun Sensor Switch.

One Intermediate Position on Sun (S+7+7 > C# > C10 > 02):

If it was dark and is getting brighter (motor assumed open), and the "medium" LED on the Sun Sensor Switch display blinks, then the 1" position sunrise event is pending. When the selected delay time expires, Open23 will be sent. This sunrise event is then finished and the LED will stop blinking.

When the "hgh" LED on the Sun Sensor Switch display blinks, then the full sunrise event is pending. After the delay time, Close ALL will be sent. The sunrise event has then finished and the high LED will stop blinking.

As it gets darker, the "medium" LED on the Sun Sensor Switch display will blink. This indicates the 1st position sunset event is pending.

After the delay time, Open23 will be sent and the LED will stop blinking.

When the "low" LED on the Sun Sensor Switch display blinks, then the full sunset event is pending. After the delay time, Open ALL will be sent and the low LED will stop blinking.

Other levels of sun will display appropriately with no bus commands.

The user may adjust all levels up or down using the Sun Sensor Switch.

Two Intermediate Positions on Sun, use default settings (S+7+7 > C# > C10 103):

Page 59 of 120

SUN AND WIND SENSOR V1.l and SUN SENSOR SWITCH V4 by Draper

Three Intermediate Positions on Sun, use default settings (S+7+7 > C# > C10 > 08):

Page 5 of 9

Four Intermediate Positions on Sun, use default settings (S+7+7 > C# > C10 > 09):

Sun Thresholds and Levels

User selection of "level” using Sun Sensor Switch:

If the user presses the appropriate buttons on the Sun Sensor Switch to set the Sun threshold, all thresholds are moved up or down appropriately. All pending sun actions are lost when a level is selected.

Example: Default sunrise setting is 68 with 3 increment, sunset is 48 with 3 increment.

The sunrise LEDs at low setting indicate 68,71,74,77,80, and at high setting 80,83,86,89,92.

The sunset LEDs at low setting indicate 48,5 1,54,57, Mi, and at high setting 60,63,66,69,72.

At low setting with 2 intermediate positions Open23 will be sent at 71, Close23 at 77, Close ALL at 80, Close23 at

57, Open23 at 5 1, and Open ALL at 48.

At medium setting the numbers change to: Open23 @ 77, Close23 @ 83, Close ALL @ 86, Close23 @ 63,Open23

@ 57, and Open ALL @ 54.

Setting Sun Thresholds

To set the sun thresholds you must enter the two-digit low threshold number and then enter the two digit increment.

For example, entering 40 as the low sunset threshold with an increment of 04, sets the low 5 thresholds from low to high to: 40,44,48,52,56, and the high 5 thresholds to 56,60,64,68,72.

This example would be done with the following sequence: S+7+7 > C# > C5 > 04 > 0 10 > 0 10 > 04

The following sequence must be completed to change any thresholds:

1- Press S+7+7 > C#, the GREEN programming LED must light.

2- Press C4, the LED will blink off then GREEN, and you are setting sunrise thresholds (or press C5 for sunset).

3- Press 0 1-10 to select the 10's of percent of the low threshold (01 0 selects O), the LED will blink RED then

GREEN.

4- Press 01-10 to select the 1's of percent of the low threshold, the LED will blink RED then GREEN.

5- Press 0 1-1 0 to select the 10's of percent of the increment, the LED will blink RED then GREEN.

6- Press 0 1-10 to select the 1's of percent of the increment, the LED will blink off and then be GREEN.

If bad numbers are entered, the LED will flash GREEN & RED a few times and then be GREEN and the original thresholds are UNCHANGED and the accessory is still in program mode but must get a close command next.

Errors include:

-Entering a starting threshold where low sunrise would not be more than low sunset.

-Entering an increment of 0.

-Entering a threshold and increment where the high threshold (Low + 8" Increment) would be > 99 percent.

-Entering a threshold and increment where a sunrise would not be more than the associated sunset.

-Programming either sunrise or sunset thresholds automatically sets the threshold to high (default).

If you are not using the Sun Sensor Switch to change between the thresholds, then the high threshold set is the only one used. The programming sequence MUST still be completed.

After installation, be sure to select a Sun Sensor Delay of at least 10 minutes.

Page 60 of 120


SUN assuming fixed levels

The sun sensor is capable of sending independent bus commands as a result of each of the 5 sunrise and sunset events, and the thresholds may be adjusted individually. However, once this capability is enabled, the user selectable

"level" is disabled. The Sun Sensor Switch is simply a display of sun levels in this case.

Setting any sun event to a custom value (S+7+7 > C# > C1 or C2 > Cx . . . ) automatically turns off the users ability to set the level. You can force the ASM to allow user selection using S+7+7 > C# > C10 > 04 > S, however, operation may be strange.

Setting Sun Thresholds individually

S+7+7 > C# > C4 or C5 > Ow > Ox > Oy > Oz may still be used to set multiple thresholds at once; please see that section above. The highest 5 (as though the user selected high level) are the values used in fixed mode.

To set a specific sun threshold you must enter the two-digit threshold after selecting the threshold to set. For example, setting the medium sunrise threshold to 86 would be done with the following sequence: S+7+7 > C# > C4 >

C3 > 08 > 04

The following sequence must be completed to change any threshold:

1. Press 5+7+7 > C#, the GREEN programming LED must tight.

2. Press C4, the LED will blink off then GREEN, and you are setting sunrise thresholds (or press C5 for sunset).

3. Press C 1-5 to select which threshold to set, the LED will blink RED then GREEN.

4. Press 0 1 - I0 to select the 10's of percent for this threshold (0 10 select 01, the LED will blink RED then GREEN.

5. Press 0 1-1 0 to select the 1's of percent for this threshold, the LED will blink off and then be GREEN.

If bad numbers are entered, the LED will flash GREEN & RED a few times and then be GREEN and the original thresholds are UNCHANGED; the accessory is still in program mode but must get a close command next.

Errors include:

-Entering a sunrise threshold smaller than the associated sunset.

-Entering a sunset threshold larger than the associated sunrise.

Programming any individual threshold automatically sets the "level" to high (default).

If you are not using the Sun Sensor Switch to change between the thresholds, then the thresholds as described under

"intermediate positions using default"' are the ones used.

After installation be sure to select a Sun Sensor Delay of at least 10 minutes.

Installing SUN AND WIND SENSOR using radio (RFTM): Step by Step

The SUN AND WIND SENSOR may be connected to an RFTM for wireless operation. However, the batteries on an

RFM will not power the SUN AND WIND SENSOR for very long, so a DCPM must also be used. The "change radio address" may be used if more than one SUN AND WIND SENSOR is connected to a system using radio and they happen to have the same address. Connect everything as shown:

This setup allows the SUN AND WIND SENSOR to convert BUS commands received on the Sun Sensor Switch

(DSK) port to radio commands. You must have a method of getting commands into the Sun Sensor Switch port to program the SUN AND WIND SENSOR. This can be accomplished by temporarily plugging an eye in the Sun

Sensor Switch jack.

Using an IR only handheld transmitter, program the SUN AND WIND SENSOR to radio mode (S+7+7 > C# > C8 >

02).

Press the "learn" button on the RR that you want the SUN AND WIND SENSOR to talk to. Its LED must come on.

Quickly press a button on the IR transmitter aimed at the eye plugged into the SUN AND WIND SENSOR. (This will cause the SUN AND WIND SENSOR to send a radio command that will be learned by the RR.) The LED on the

RR must go out when the button is pressed indicating the RR has learned the radio address of the SUN AND WIND

SENSOR.

Page 61 of 120


Press an open or close command on the IR transmitter and make sure the appropriate action happens on the SC1 system.

Draper Sun Switch (DSK) (optional):

This Sheet uses $ for this Sun Sensor Switch's accessory number - new units will use a 6 where the # is (ALL also works).

14 This means open + close, all others are turned off

15 This means whatever “button" you want to "send" when the button is pushed.

Sun Sensor Switch MUST be plugged into the Sun Sensor Switch (DSK) jack for it to work correctly.

Defaults:

Accessory number = 6.

Open button sends OPEN 1.

Stop button sends STOP (this is All Stop).

Close button sends CLOSE 1.

Sun & Wind Mode (both GREEN and RED LEDs will display on the Programming Switch).

It is possible to make the open & close buttons send commands that do not control this motor simulator, but this would probably be confusing. The open/stop/close LEDs are updated according to the status of the SUN AND WIND

SENSOR ''motor simulator" to which it is connected regardless of any channel number (s).

Note that the default channel for the Sun Sensor Switch is 1 and the default channel for the SUN AND WIND

SENSOR is 22, so the Sun Sensor Switch channels should be changed to 22 for use with SUN AND WIND

SENSOR.

Power-Up

The LEDs go through a sequence where all LEDs are turned on so you may easily determine if any are not working.

After this sequence is completed, the Decorator Switch may take a few seconds before the correct state is displayed.

The sequence begins: All 6 RED LEDs on the Programming unit, then All 6 GREEN LEDs on the Programming unit, then ALL 4 LEDs on the Control unit. Then the bottom 4 LEDs will flash RED for ¼ of a second indicating

WALL SWITCH is version 4. The version of the SUN AND WIND SENSOR must be 1 and the Sun Sensor Switch must be 4 for correct operation.

Configuring the WALL SWITCH & SUN AND WIND SENSOR using the WALL SWITCH:

Press and hold the 2 buttons indicated below for 5 seconds to perform the configuration shown. After completion, the

LEDs next to the buttons held will come on green for 1 second. If 5 RED LEDs come on, then that configuration is not allowed.

Sun & Wind Display:

Medium-high (3d) and medium-low (5th) buttons. The Sun Sensor Switch will display and set both Sun and Wind.

The SUN AND WIND SENSOR does not change any settings.

Sun Only Display:

Medium-high (3d) and low (6 th

) buttons. The Sun Sensor Switch will display and set only Sun. Multi-positions on sun are not affected. This does not stop wind detection; the Sun Sensor Switch will just never report wind levels and the user cannot select a wind threshold.

The SUN AND WIND SENSOR does not change any settings.

Page 62 of 120


NO intermediate positions on Sun:

High (2 nd

from the top) and medium-high (3d from the top) buttons. Sunrise & Sunset events will be set as shown in

"Sun Intermediate Stops'' section above under “No Intermediate Positions." Selected Sun level is set to high.

The SC1s intended to be controlled by the SUN AND WIND SENSOR are NOT affected by this action and must be programmed separately.

ONE intermediate position on Sun:

High (2nd) and medium (4th) buttons. Sunrise & Sunset events will be set as shown in "Sun Intermediate Stops" section above under "One Intermediate Position." Selected Sun level is set to high.


TWO intermediate positions on Sun:

High (2 nd

) and medium-low (5th) buttons. Sunrise & Sunset events will be set as shown in "Sun Intermediate Stops" section above under "Two Intermediate Positions." Selected Sun level is set to high.


THREE intermediate positions on Sun:

High (2nd) and low (6 th

) buttons. Sunrise & Sunset events will be set as shown in "Sun Intermediate Stops" section above under 'Three Intermediate Positions." Selected Sun level is set to high. This button combination may be called

Toggle Reference in the Sun Sensor Switch documentation, but the function is as described here for SUN AND

WIND SENSOR.

The SC1s intended to be controlled by the Sun and Wind Sensor are NOT affected by this action and must be programmed separately.

FOUR intermediate positions on Sun:

Medium-high (3d) and medium (4 th

) buttons. Sunrise & Sunset events will be set as shown in "Sun Intermediate

Stops" section above under "Four Intermediate Positions." Selected Sun level is set to high. This button combination may be called Toggle Motor Leads in the Sun Sensor Switch documentation, but the function is as described here for

SUN AND WIND SENSOR.

The SC1s intended to be controlled by the Sun and Wind Sensor are NOT affected by this action and must be programmed separately.

Sun Sensor in Summer mode:

Medium (4th) and medium-low (5th) buttons. All Sunrise & Sunset events will be Summer actions. This button combination may be called Auto-return in the Sun Sensor Switch documentation, but the function is as described here for SUN AND WIND SENSOR.

Sun Sensor in Summer mode:

Medium (4th) and low (6th) buttons. All Sunrise & sunset events will be Winter actions. This button combination may be called Auto-return in the Sun Sensor Switch documentation, but the function is as described here for SUN

AND WIND SENSOR.

Pressing the button combination to start Calibration will light all 5 LEDs indicating the function is not supported.

Programming the Sun Sensor Switch, Accessory number, BUS & Sun Sensor Switch jacks:

There is no association between the Sun Sensor (Decorator) Switch "accessory number" and simulated SC1 "main channel".

The Sun Sensor Switch simply works with whatever SUN AND WIND SENSOR it is plugged into. The messages going between the Sun Sensor Switch for status display and the SUN AND WIND SENSOR are special and not repeated to the BUS jack.

Page 63 of 120


You cannot program the Sun Sensor Switch using S+7+7 CloseALL unless you are using a splitter etc. The

CloseALL command is interpreted by the SUN AND WIND SENSOR as "'enter program mode" - and it turns on its

GREEN LED and awaits programming commands -and the Sun Sensor Switch goes into program mode, and they do not use the same programming steps.

Sun Sensor Switch Reporting Delay:

Be aware that the LEDs on the Sun Sensor Switch may lag behind an actual change in light level or other event by as much as 6 seconds.

This is particularly significant when demonstrating light reactions.

Debug feature, simulating an event:

The Sun Sensor Switch can be used to simulate an event to verify that everything is programmed as desired.

Press and hold the desired 'level" button on the Programming Switch, then press and hold the STOP (middle) button for 4 seconds to simulate the event associated with that level of wind.

Press and hold the desired button on the Programming Switch, then press and hold the top button for 4 seconds to simulate the event associated with that level at sunrise (Summer/Winter is whatever is currently selected).

Press and hold the desired button on the Programming Switch, then press and hold the bottom button for 4 seconds to simulate the event associated with that level at sunset.

If there is no action associated with that level then nothing will happen.

Be careful to not push multiple buttons on the Programming Switch, as that may cause a configuration change!

Order dependent programming on SUN AND WIND SENSOR:

Forcing user level set must be done only after setting all events C 1 ... or C2 ... .

Resetting accessory to factory default, or selecting default actions on multi-sun, puts full sunrise and sunset events on channel 22 regardless of simulator 'main' channel, so this setting must be made before changing main channel actions.

Page 64 of 120


™

LCD Timer by Draper

➀ The timer acts as a “normally open” (NO) switching device.

➁ The timer may be set to deliver up to seven (7) On/Off setting pairs.

Each setting pair can be set to activate: everyday, once a week, every weekday, or weekends only.

➂ When connecting to SC1 or PSI60, polarity does not matter

➀ The timer acts as a “normally open” (NO) switching device. This delivers a

closed contact in the “On Mode,” and an open contact in the “Off Mode.”

➁ The manual inputs of an SC1 or PSI60—when set into SPST mode—may

be set to react to these types of contact by opening and closing motorized

products to their respective limits.

➂ The timer may be set to deliver up to seven (7) On/Off setting pairs. Each

setting pair can be set to activate: everyday, once a week, every weekday

or weekends only.

➃ The timer can be used as a local switch by pressing the clear “Cover/

Switch, and activating the “Next/On/Off” operation.

➄ The timer is capable of many other powerful and fl exible features (including:

Astronomic Feature, Automatic Daylight Savings Time adjustment, Random

Operation feature, and much more). Please see timer “Installation and

Operating Instructions” (included with the timer).

MO


OFF

AM

PM

12:00 d


+

D

D

Figure 1

Connecting PSI60 to LCD Timer

Connecting to PSI60 or SC1

➀ The BLACK and BLUE wires from the timer should be connected to the

Common and Up (Open) terminals on a PSI60 or SC1.

Please Note: Polarity does not matter.

➁ Be sure to confi gure manual inputs of the PSI60 or SC1 you are using for

Single Pole Single Throw (SPST). Please refer to the documentation for

the PSI60 or SC1 to correctly enable the “SPST Manual Switch” setting.

Please Note: If using a PSI60, be sure to program the PSI60 to send the specific SC1 “Bus” command you wish the timers action to initiate.

➂ See page 2 of these instructions for confi guring the timer to activate at the

EYE

BUS

Optional Eye

Switch B (Wire additional LCD timer to this switch)

PSI60

{

{

Close

Common

Open

Close

Common

Open

To “Eye” jack on SC1 BUS

Program

Mode

LED

Figure 2

Connecting One SC1 to LCD Timer


OFF

AM

PM

12:00 d


MODE

NEXT/

ON/

OFF

DAY/

DST

RESET

HOUR+

YEAR-

M+

ZONE-

YEAR-

Technical Notes

➀ The timer’s blue and black wire gauge is too large to fi t the screw

terminals of a PSI60 or SC1. Use the wire-nuts provided with the timer to

connect a smaller gauge wire (18-28 AWG is acceptable) to make

interfacing with the screw terminals possible.

➁ Two wires have been provided for making the connection noted above.

➂ The red wire on the Timer is used for three-way line voltage switching,

and is not used in IntelliFlex applications.

➃ Upon initial insertion of the battery, the timer may enter a mode where the

internal motor-switch may cycle repeatedly. In this case, press and release

the Reset button once, and the timer should function normally. If this

does not resolve the issue, refer to the “Troubleshooting Guide” on page 2

of these instructions.

➄ The timer has an internal backup battery (not serviceable), which will

hold your timer memory settings for a short period of time (refer to the

timer documentation for details.) This internal backup battery allows you

an opportunity to replace the AAA battery without losing your timer memory

settings.

➅ For additional actions at the same installation, please purchase additional

timers.

Figure 3

Connecting Multiple SC1s to LCD Timer


AM

OFF

PM

12:00 d


MODE

DAY/

DST

NEXT/

ON/

OFF

RESET

HOUR+

YEAR-

M+

ZONE-

YEAR-


AM

OFF

PM

12:00 d


MODE

DAY/

DST

NEXT/

ON/

OFF

RESET

HOUR+

YEAR-

M+

ZONE-

YEAR-

Copyright ©2007 Draper Inc. Form IntelliFlex-LCDTimer_Inst07 Printed in U.S.A.

Figure 4

Page 65 of 120

If you encounter any diffi culties installing/wiring your IntelliFlex LCD Timer, call your dealer or Draper, Inc., Spiceland, Ind., (765) 987-7999; or fax (765) 987-7142.

IntelliFlex™ LCD Timer by Draper Page 2 of 3

Programming/Setting the LCD Timer

Resetting the timer

Press the reset and the “Next/On/Off” buttons at the same time. Release the buttons and wait for “12:00” to start blinking.

Setting the calendar

Press the mode button one time. “Cal” will appear in the top left corner. Year will be fl ashing between the word “year” and “2000.” If the year is not showing

2000 you must repeat the reset procedure. To adjust the year, press the

“m+zone” button (bottom right). If you pass the current year use the (bottom center) button to subtract a year. Press the “Next/On/Off” button one time.

Date will be fl ashing. Press the “day/dst” (bottom left) button to set the current day. Press the “M+zone” (bottom right) to set the current month. Press the

“Next/On/Off” button one time. “DST/Auto” will be fl ashing. Press the “Day/

DST” button (bottom left) to select Daylight Savings Time. If daylight savings is not being used press the button again and select “man.” Press the “Next/On/

Off” button one time. “Zone” will be fl ashing. Press the “M+zone year” button

(bottom right) and select the zone area of your location (South, Central or

North—see Fig. 7). Press the “Next/On/Off” button one time. “SUNUP” will be fl ashing, showing the preset time for this zone. To adjust this time, press the

“Hour/Year” button (bottom center) to adjust the hour and the “M+zone” button

(bottom right ) to adjust the minutes. Press the “Next/On/Off” button one time.

“SUNDN” will be fl ashing, showing the preset time for this zone. To adjust this time, press the “Hour/Year” button (bottom center) to adjust the hour and the “M+zone” to (bottom right) to adjust the minutes. The calendar portion of the timer is now set. Note: you must continue and set both the clock and the programming function.

Setting the clock

Press the “mode” button one time. “Clk” will be displayed in the left corner of the timer. Using the “Hour/Year” button (bottom center) to set the hour of your current time. Using the “M+zone” (bottom right) button set the minutes of your current time.

Programming

Press the mode button one time. “Pgm” will be displayed on the top left corner of the timer. We are setting the “On” time for Program 1. “---:--- 1on” will be displayed on the screen. Press the “Day/DST” (bottom left) button to select the day or series of days the timer is to turn on. You can either select the “Astro” time which will adjust as the days get longer and shorter or a specifi c time. To use the “Astro” time, press the “Day/DST” until “snst” appears on the screen

(all seven days will be shown on the bottom of the timer). To use a specifi c time press the “Day/DST” button and select the day or series of days the timer is to turn on. Use the “Hour/Year” (bottom center) button to select the hour to turn the unit on. Use the “M+zone” (bottom right) button to set the minutes of your on time. Press the “Next/On/Off” button one time. We are now setting the

“Off” time for program 1. Press the “Day/DST” (bottom left) to select the day or series of days of operation. To use the “Astro” time press the button until

“snup” appears on your screen. To select a specifi c time, press the button and select a day or series of days the unit is to turn off. Press the “Hour Year”

(bottom center) button and set the hour of your “Off” time. Press the “M+zone”

(bottom right) button to select the minutes of your “Off” time. For additional programs press the “Next/On/Off” button to the next program and follow above steps.

Exit Programming

Press the “Mode” button once for “Auto” or twice for “Auto Rand.”

Note: your timer is in the on position. If the program calls for the unit to be off at this time Press the next “On/Off” button to toggle the unit to off.

ON/

OFF

NEXT/ON/OFF

Switches between

ON and OFF settings when programming the time. Confirms program entry and advances timer to next selection.

MODE MODE

Switch from one program mode to another.

DAY/

DST

DAY/DST

Changes days when setting calendar or programming ON and

OFF times.

Press to select automatic or manual daylight savings time.

Calendar

Mode

AM/PM

Indicator


OFF

AM

PM

12:00 d


MODE

DAY/

DST

NEXT/

OFF

RESET

HOUR+

YEAR-

ZONE-

YEAR-

Clock

Mode

Program

Mode

Figure 5

Auto

Mode

Random

Mode

Manual

Mode


AM

PM

12:00 d

OFF


Days of the week

On

Setting

Figure 6

Figure 7

RESET RESET

Press RESET while holding down NEXT/ON/OFF button to clear all previous programming.

ZONE+

YEAR+

M+ ZONE + YEAR+

Advances months in the calendar mode.

Advances minutes in the clock and program modes.

Advances years in the calendar mode.

HOUR+

YEAR-

HOUR+ YEAR-

Subtracts years in the calendar mode.

Advance hours in the clock and program modes.

Off

Setting

Program #

Auto

Daylight Savings

Battery Replacement

The 15 Volt alkaline battery should operate your timer for 1½ years or more under typical conditions. High or low temperature or frequent use of the manual pushbutton will reduce the battery life. Replace the battery when the digital display is dim, the message “lobAt” (meaning low battery) is displayed or if the timer fails to operate. Press any button to clear the “lobAt” message.

The timer has built-in memory protection providing at least 15 seconds to change a weak battery without losing your time-of-day setting. You do not need to turn off the load or the power in order to replace the battery; however, do not attempt to switch the timer on or off while the battery is out or your time setting will be lost and the timer will need to be reset.


(765) 987-7999

IntelliFlex™ LCD Timer by Draper Page 3 of 3 www.draperinc.com

(765) 987-7999

Page 67 of 120


™ PSI60 Bus Command Converter by Draper


➁ Make sure AC Amperage of any wall switches are not exceeded, and

➂ All AC motor controls are UL approved.

Installing the PSI60

➀ Connect the PSI60 to the SC1 network (see Fig. 1).

For use with X-10 controls:

➀ SPDT Mode: Program to factory default, and connect 2 universal modules in momentary mode (one between open and common, the other between close and common.)

➁ Activate the open module to open the shade; activate the close module to close the shade; simply repeat any command to stop the shade.

➂ SPST Mode: Maintained—Using one universal module connect two wires between Open and Common. X-10 to deliver a maintained contact.

Electrically Closed=shade closed. Electrically Open=shade open. The

SC1

AUX

EYE

Motor Neutral

Red - UP

Black - DOWN

110V AC

Motor

Programming the PSI60

To Enter Program Mode—

➀ Using a programming remote - press & hold “Stop.”

➁ While still holding “Stop,” press both “Open 7” and “Close 7,” then release

Optional Eye

To other SC1s

EYE

SC1

PSI60

Program

Mode

LED

Close

Common Right Switch

Open

Close

Common Left Switch

Open

This wire MUST connect to an EYE port

Figure 1

General installation guidelines based on type of switch

SPDT Momentary Switch or Somfy 3-Button Switch:

SC1 control will be programmed to SPDT Momentary by factory default

(SPDT Momentary Switch). Button action is exactly like the keypad. A momentary press of either directional button sends the appropriate command.

The motor action will be maintained, running the shade to its limit. If the command is repeated, this will “stop” the motor at that point in its travel.

SPDT Maintained Switch:

Program SC1 to “Stop on Manual Button Release.” A standard SPST maintained switch will now operate the SC1 control just like normal AC switching. Press “Down,” latching the switch down = the shade runs down.

Action of “Up” is the same. Return switch to center = “Stop.”

SPST Maintained Switch:

Program SC1 for “SPST Switches.” Connect the two wires from the switch to common and open. Electrical closing of switch sends “Close.” Opening of switch sends “Open.” Enabling “Invert” causes closing of the switch to send “Open” and vice versa (useful for winter/summer if using a thermostat).

To “Stop” a motor while it is running: “Quick Toggle” of the switch (running open—fl ip to “Close” then back to “Open”) will stop the motor.

SPST Momentary Push-Button Switch:

Program SC1 for “SPST Switches.” Connect switch between common and close. A Momentary Press of this switch sends a command to run. The direction that the motor runs is in relation to the “last command” that the SC1 received, so it could be “Open” or it could be “Close.” This switch method is a true sequential switching action.

Timed relay closure from automation system:

Program to factory default (SPDT Momentary Switch). Closure of either relay sends the appropriate command. The contact time of this “Momentary” closure should be ½ second.

Mode LED on the PSI60 must now be lit. If it is not repeat the above steps.

In the following table, S = “Stop,” C = “Close,” O = “Open”.

Desired Change

Left Switch Channel to 1

Left Switch Channel to “N” (N = ALL, 1 - 60)

Left Switch Channel to “ALL”

Reset the Left Switch options to factory default

SPST Switches on Left

SPDT Maintained Switch on Left

Invert Left SPST switch

Right Switch Channel to “N” (N = ALL, 1 - 60)

LED:

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

C ALL

C ALL

C ALL on

C ALL

C ALL

C ALL

C ALL

C 2

C 2

C 2

C 2

C 1

C 1

C 1 blink

O 1

O “N”

O ALL

O ALL

O 3

O 2

O 4 blink

S

S

S

S

S

S

S

off

S+7+7 C ALL C 3 O “N” S

Notes:

• The right switch must be SPDT Momentary. Its type cannot be changed via programming. Left switch default is SPDT Momentary switch.

everything is already programmed, because “enter program” commands

• While programming this unit (red LED is on) IR signals are not repeated.

• Note that the Palm Pilot will not program this unit correctly.

• Pushing a second button while another is active will cause the fi rst button

misinterpreted.

simultaneously, note that only one will be handled at a time.

• “ALL on the cut strap T12” cannot be sent by PSI60.

Copyright ©2007 Draper Inc. Form IntelliFlex-PSI60_Inst07 Printed in U.S.A.


To

AC Power and Motor

Earth Ground

®

Controls

Introductory Overview

The IntelliFlex Control System is an intelligent yet simple package of controls and input devices that provides a single source opportunity to install any type of motor controls on a range of products and have them all work together seamlessly in an installation.

The heart of the system is the SC1 (see Fig. 1), a single motor switching relay with a built in microprocessor. Think of the SC1 as being two different switches in one. The relay component acts as a switch to turn the power on and off to the motor, operator or device you wish to control. With the IntelliFlex system, the processor on the

SC1 control acts as the switch to tell the relay when to turn on and off.

Eye Jack for connecting control devices to SC1

From Wall Switch,

IR, RF, or other control device

To Optional

Manual Switch

Figure 1

Aux Jack for linking SC1s together

The SC1 communication system uses the power of each device's microprocessor to receive and interpret commands. There are two ways of sending commands to the system. One is through a set of dry contact closure terminals on each SC1. The second and most powerful method is via a low voltage data communication Bus system.

Each SC1 has two RJ11 4-conductor modular phone plug ports that can be used to link multiple devices together. The microprocessor on each device listens for commands addressed to it. The Bus utilizes a proprietary protocol allowing up to 60 channels of communication to be shared between devices in a single system. Multiple systems can be combined in an installation.

Each microprocessor is programmed with fi rmware, which acts as the operating code for the system. Each device’s fi rmware can be written to through special programming functions, allowing special features and actions to be enabled and modifi ed. (For a complete listing of special functions see our quick reference programming guide.)

The key feature to reprogram for any installation is what is referred to as the Main Address. This is the primary Bus channel to which the

SC1 processor is programmed to respond. While it is not necessary to edit this address, doing so allows each SC1 in a Bus system to be addressed individually. Once an SC1 has a unique main address on the

Bus it can be addressed and programmed remotely, thereby eliminating the need to gain physical access to the SC1 to modify or change its confi guration!

by

Other features include up to six subgroup functions per SC1 and the ability to enable up to four mid-window stopping positions. It can be set to turn a light on or off. The motor output terminals can be reversed via programming, eliminating the need for an electrician to deal with motor polarity, etc.

Inputs:

The SC1 dry contact input terminals are unique in the ability to change, through programming, the way the relays respond to contact closures. These terminals can be used in a standard latch and run mode or can be set to require a maintained contact for momentary motor action. They can also be set to X10 timing mode. This fl exibility allows the system to be integrated with virtually any automation system.

The Bus communication is capable of receiving input commands from a wide variety of different input devices (see our reference sheet, and sample input device confi guration sheets) in any combination and number and at any time, allowing great fl exibility and power in providing a control system ranging from the most simplistic to the most complex, all in a plug and play fashion.

Input devices include, but are not limited to, IP devices to launch commands remotely via a Local Area Network (LAN), RS232 devices for launching commands from a local PC or HA system, sun sensors, wind sensors, timers, thermostat interfaces, interface devices for other building automation and fi re alarm system overrides, radio remote controls, infrared remote controls, wireless wall switches and keypads, hardwired wall switches and keypads, standard toggle switches and key switches. Each input device can be used to launch individual, subgroup or group actions, or any combination thereof. Commands can also locate multiple shades to as many as four intermediate stops.

In addition, Draper has developed a “standard” “custom” switch program that allows the user to choose a wall switch confi gured to provide intuitive labeling and actions in a stocking switch program. The

IntelliFlex Wall Switch is available in over 50 stocking confi gurations.

Each of up to 12 available buttons can be programmed to send any command necessary, creating an extremely fl exible user interface for the system.

Draper provides a number of ways to program the system and all are relatively inexpensive and simple to use. These include programming functions from a number of different keypads and transmitters, but the fastest and simplest methods are done using free programming PC software (requires Draper’s RS232 translator to connect to the system).

For the most current information, check out our Web site, www.

draperinc.com.

Copyright © 2005 Draper Inc. Form IntelliFlex_Overview05 Printed in U.S.A.

Page 69 of 120

®

Controls

Planning Sheet

by

Stop

Enabled

(A or

B)

Assign Group Numbers:

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Main Channel

Assignment*

Shade Location

1st Group

2nd Group

3rd Group

4th Group

5th Group

6th Group

Shade 1 Shade 2 Shade 3 Shade 4

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Main Channel

Assignment*

Shade Location

1st Group

2nd Group

3rd Group

4th Group

5th Group

6th Group

Shade 5 Shade 6 Shade 7 Shade 8

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Stop

Enabled

(A or

B)

Group

Channel

Open

Command

Position

(%)

Close

Command

Position

(%)

Main Channel

Assignment*

Shade Location

1st Group

2nd Group

3rd Group

4th Group

5th Group

6th Group

Shade 9 Shade 10 Shade 11

Please Note: Main Channel Assignment = Shade at 0%/100%

Stop (A/B) = Indicate whether Stop A or Stop B is enabled

(If more grids are required, please copy this page. Be sure to submit all layout grids to Draper, and keep a copy for yourself.)

PROJECT:

ARCHITECT:

Shade 12

CONTRACTOR:

SUPPLIER:

DATE:

Copyright © 2007 Draper Inc. Form IntelliFlex_PlanningSheet07-R Printed in U.S.A.

Page 70 of 120

REVISED:

SC-1 Quick Reference Guide (OS fi rmware version 3) by Draper

This Sheet uses # for the receiver’s main channel number - new units will use a 1 where # is.

Note that # can also be ALL if you want to program several receivers S = Stop C = Close 0 = Open

Reset EVERYTHING to factory default

Reset everything except main channel to factory default

Main Channel to “N”ew channel (N = 1 through 59),

1ST Group Channel to “N”ew channel (N = 1 through 60)

1ST Group Channel OFF

Set 2ND Group Channel (same as above)

Set 3RD Group Channel (same as above)

Set 4TH Group Channel (same as above)



Set “Sequential Action” Channel (same as above)

Set “Specifi c Stop” Channel (same as above)

Reset the following options to factory default

Momentary Motor Action

Reverse Motor Direction

Do NOT Act on ALL buttons from Transmitter

Stop On Transmitter Button Release

Disable the Deadbeat Counter

Enable the Deadbeat Counter, and reset it to 120

Reset the following options to factory default

SPST Manual switch

Stop On SPDT Manual Switch Release

Swap Open and Close on SPDT, Invert SPST

Enable SPST Magnetic Switch as Override

Turn off all “A” intermediate stops (factory default)

Enable “Intermediate Stop A” on the main channel

Enable “Int. Stop A” on 1ST group channel

Enable “Int. Stop A” on 2ND group channel

Enable “Int. Stop A” on 3RD group channel

Enable “Int. Stop A” on 4TH group channel



Enable “Int. Stop A” on the ALL channel

Enable “Int. Stop A” on Manual Switches

LED on

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

O ALL

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O #

O # blink hold 5 sec. until blink

Calibrate the travel times **Required for using Int. Stop A or B**

Reference the bottom (close limit) instead of top (open)

S+7+7

S+7+7

O #

O #

(if both A & B stops are set on a channel, A takes precedence)

“Intermediate Stop A Open Button,” default is 20% closed

Set to 10x+y percent of travel time away from reference end S+7+7 O #

C ALL

C 1

C 2

C 2

C 3

C 4

C 5

C 13

C 14

C 20

C 22

C 6

C 6

C 6

C 6

C 6

C 6

C 6

C 7

C 7

C 7

C 7

C 7

C 10

C 10

C 10

C 10

C 10

C 10

C 10

C 10

C 10

C 10

C 10

C 10

C 11 blink

O “N”

O “N”

O ALL

O “N”

O “N”

O “N”

O “N”

O “N”

O “N”

O “N”

O ALL

O 1

O 2

O 3

O 8

O 11

O 12

O ALL

O 1

O 3

O 5

O 6

O ALL

O 1

O 2

O 3

O 4

O 5

O 6

O 14

O 7

O 8

O 10

O 11

Ox Oy

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

S

**

S

min = 0 0 (at ref.), max = 9 9 (opposite limit) use O10 for 0

“Intermediate Stop A Close Button,” default is 80% closed

Turn off all “B” Intermediate stops (factory default)

Enable “intermediate Stop B” on the main channel

Enable “Int. Stop B” on 1ST group channel

Enable “Int. Stop B” on 2ND group channel

Enable “Int. Stop B” on 3RD group channel

Enable “Int. Stop B” on 4TH group channel



S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

S+7+7

O #

O #

O #

O #

O #

O #

O #

O #

O #

Enable “Int. Stop B” on the ALL channel

Enable “Int. Stop B” on Manual Switches

S+7+7

S+7+7

O #

O #

(if both A & B stops are set on a channel, A takes precedence)

“Intermediate Stop B Open Button,” default is 40% closed S+7+7 O #

“Intermediate Stop B Close Button,” default is 60% closed S+7+7 O #

C 12

C 15

C 15

C 15

C 15

C 15

C 15

C 15

C 15

C 15

C 15

C 16

C 17

Ox Oy

O All

O 1

O 2

O 3

O 4

O 5

O 6

O 14

O 7

O 8

Ox Oy

Ox Oy

S

S

S

S

S

S

S

S

S

S

S

S

S

** There is no Stop button press at the end of the calibration command. Calibration required for Int. Stops to work.**

®

Page 71 of 120

Copyright © 2008 Draper Inc. Form DraperSC1QuickReferenceGuide_08 Printed in U.S.A.

SC-1 Quick Reference Guide by Draper Page 2 of 2

Defaults:

Main Channel = 1, Group Channels 1-6 = off, no sequencing action channel,

Maintained Motor Action, Standard Motor Direction, Act on ALL buttons from Transmitter, Standard action on the group buttons, Standard IR Release Time, Do not Stop On Transmitter Button Release, Deadbeat Counter Disabled, Demo mode Off.

SPDT Manual Switch, Standard Timing, Do not Stop On Switch Release, Standard action (not sticky), Switch inputs as labeled, Magnetic Switch Override

Disabled.

Run Time = 180 sec.

Standard accuracy on Intermediate stops, Intermediate stop reference is at the top, “Auto Tilt” not enabled, Travel Time unknown (i.e., not calibrated).

Intermediate Stop A not enabled on any channel or on the manual switch, Open to Int. Stop A = 20%, Close to Int. Stop A = 80%, no nudge amount.

Intermediate Stop B not enabled on any channel or on the manual switch, Open to Int. Stop B = 40%, Close to Int. Stop B = 60%, no nudge amount.

Minimum load = 0.144A (17 Watts).

Stall load = 6.04 Amps (the maximum rating of the unit at 115V, 695 Watts).

Turn on Delay time = 0 sec (immediate).

Calibration & Intermediate stops:

If you are changing the motor direction (C6 O2) or Using the bottom reference (C10 O11), these options must be selected before doing the calibration

The motor limits must be set before doing the calibration. If the limits are changed, then you must recalibrate.

Calibration is required before intermediate stops will work. If the unit is not calibrated correctly, the intermediate stops will be different when going open than when going closed. The stops will also be off if the material is thick, or if the motor does not move at a constant speed in both directions.

The intermediate stops are calculated based on % of travel time plus nudge offset.

% and nudge can be set before calibration if so desired.

20% = rolling shade barely closed = 20% down from top (assuming top is reference)

If travel time is unknown (not yet calibrated), all intermediate stop commands are ignored.

If you are changing the intermediate stop percent, then you must calibrate the unit after entering the new percent before it becomes active.

If the unit is calibrated and power cycles, and an intermediate stop button is pressed before the unit goes to the reference, then the command will cause the motor to “auto reset,” i.e., go to the reference limit, then back to the intermediate stop.

Standard action:

There is an auto reset every 6TH intermediate stop movement if the motor does not go to either limit. Any user action that stops the motor part way will cause the next intermediate stop command to auto reset.

There is an auto reset if an intermediate stop command is received that will cause the motor to go up, or if the motor has gone up anytime since being at the top.

This Quick Reference guide does not include all SC1 features. If you have a questions on a possible features, please contact Draper, Inc.

24 Channel IR Remote (C072.017) and IR eye required for prgramming. SC1’s are factory set channel 1. SGC4’s are factory set channel 1.

SPGC4 has 4 SC1’s with factory set main channels 1 through 4. Main channel information applies to step 2 of programming (see below).

OPEN CLOSE

1 1 2

5 2 6

OPEN CLOSE

7

3 1

ALL

4

8 8

9 3 10 11 9 12

13

17

4

5

14

18

15 10 16

19 11 20

21 6 22

25 7 26

23 12 24

27

STOP

28

What is S + 7 + 7 ?

Answer: Hold all three buttons at the same time to get “into” program mode.

Special Program Note:

Wait no more than 8 seconds between steps or SC1 exits program mode.

www.draperinc.com

Example:

I need to change the SC1 main channel from current channel to a new channel. From Above:

C1 Stop.

Step 1 Step 2 Step 3 Step 4 Step 5

Step 1-Remote Into Program Mode

S+7+7, see left, remote LED in upper left will blink on release of buttons if step is done properly.

Step 2- SC1 Into Program Mode

O# is open button of current SC1 main channel. SC1 LED will light if step is done correctly.

Step 3- File On SC1 To Change

Hit close of channel listed, SC1 LED will blink.

Step 4- Change File

Hit open of channel listed or wanted, SC1 LED will blink.

Step 5- Stop

Hit red Stop button, except calibration, LED will go off.

Page 72 of 120

(765) 987-7999

Intelligent (ILT) Motor Overview

The Intelligent Motor is designed to offer the sophisticated, diverse control of a window shade. The motor contains a controller inside of it. This means that there are two wires exiting the motor head. One wire is for power. It is a high voltage wire which will supply power to the motor at all times. The other wire is low voltage. This wire will connect to control and operate the motor.

High voltage wire can be hard wired into power or one can attach a 3 prong and plug it into an outlet.

The low voltage wire can connect to multiple items for operation. Some items are:

ILT Wall Switch, 121171- This switch must be used for setting limits. Limits are not factory set and must be done on site with this item. It can also be used to control the motor.

ILT Wall Switch

121171

4-Jack Modular Interface, C156.096- This item has 4 modular jacks for plugging in any combination of inputs such as ILT switches and motors. This device also has a dry contact interface for operating Intelligent Motors with dry contacts. All motors connect to the interface will operate as a group.

4-Jack Modular Interface,

C156.096

RF Receiver, C156.095- This receiver plugs onto the low voltage lead or into a 4-jack interface. You use RF transmitters (page 7) to run the motors.

RF Receiver, C156.095

IR Receiver and Transmitter, single channel, 121169- The eye plugs into a 4-jack interface for IR control.

IR Receiver and Transmitter, single channel—

121169

RS 485 Control Tap – C156.111; and Power Tap – C156.112 -

The RS 485 tap allows one to connect Intelligent Motors together on a network to run shades from an IP interface.

A variety of other controls can control the Intelligent Motor when it is on an RS 485 network. Sun sensors, smart switches are just a couple. If you are planning to work Intelligent

Motors from a RS 485 network please review these documents and contact Draper, Inc.

®

RS 485 Control Tap, C156.111, and

Power Tap, C156.112

Page 73 of 120

ILT Switch and Limit Sets

The ILT switch has a modular connector on the back to plug in the Intelligent Motor, once the motor is connected then limits can be set and the shade can be operated. The ILT switch fi ts into a single gang box with a decora face plate and is fl ush with the plate.

Setting Limits on an Intelligent Motor Shade are as follows:

➀ Connect the ILT switch to motor via the modular cable port. The cable connectors MUST NOT be crimped in reverse as with telephone

➁ Set the slide switch to the lower position. Press and hold the down button to run the shade to the desired lower limit. If the shade moves the opposite direction, release the button and depress the stop button. This will reverse the motor direction. You may then continue running to the lower limit. Once at the lower limit move the slide switch to the middle position.

➂ Set the slide switch to the upper position. Move the shade to the desired upper limit by depressing the up button.

➃ Once at the upper limit move the slide switch to the middle position. When the slide switch is in the middle position, then the shade is in

The shade will move in momentary fashion when the slide switch is up or down for setting limits.

To set an intermediate stop:

➀ Run the shade to the desired intermediate stop.

➁ Press the stop button for at least 3 seconds to record the position.

➂ Now when the shade is stopped, you may press the stop button to run it to the record intermediate stop position.

U p

D o w n

S S T T O O P P

C o m m

DC o n

+

5V

To Motor with

Built-In

Low Voltage

Slide

Switch

Back View

To Motor with

Built-In

Low Voltage

®

Page 74 of 120

ILT Dry Contact Interface

Wiring Diagram

To ILT Motors

U

P +5v

C

O

M

D

W

N

Dry Contact Input

The ILT Dry Contact Interface will operate up to four ILT motors as a group from an external device such as a home automation system.

➀ To activate an UP command, a momentary contact closure is required between the UP and COM terminals.

➁ To activate a DOWN command, a momentary contact closure is required between the DWN and COM terminals.

➂ To activate a STOP command, a momentary contact closure is

required.

2" W. x 2" L. x 1 1 /

8

" H.

Typical Application

TO 120V AC

ILT MOTORS

U

P +5v

C

O

M

D

W

N

®

Page 75 of 120

Draper Digital Network IP Interface

The Draper Digital Network IP Interface is a serial device server used to connect the RS485 SDN BUS consisting of ILT2 motors and control devices to a managed LAN network. The fi rmware of the IP Interface is remotely upgradeable over the Internet. The SDN IP Interface contains an internal Web server with confi guration software that is accessed via any standard Web browser. The IP Interface is compatible with both the PC and the Mac platforms.

Main software features:

An almost unlimited number of personalized GUls can be confi gured and created, remotely deployed and then accessed from a link on the individual users desktop allowing personal solar shading control. The Graphical User Interface actions have associated URL commands for interfacing with 3rd party IP control systems. Remote access to the IP Interface for confi guration and remote diagnostics is available through HTTP port 80, un-proxied. Completely automated shade movements can be programmed via internal time scheduling and solar angle utility.

LAN:

Ethernet: 10/100 Mbps, RJ45

Protection: Built-in 1.5 KV magnetic isolation

Serial Interface:

Interface: RS- 232 (Half duplex RS-485 with adapter)

No. of Ports: 1

Port Type: DB9 (Male)

Transmission Speed: 1.2 -115 Kbps

Signals: Tx, Rx, RTS, CTS, DTR, DSR, DCD, GND

Serial Line Protection: 15 KV ESD for all signals

Serial Communication Parameters:

Parity: None, Even, Odd, Space, Mark

Data Bits: 5,6,7,8

Power Requirements:

Power Input: 9 to 18 VDC

Power Consumption: 300 mA@12V

Mechanical:

Casing: Steel case (1 mm)

Dimensions (w x H x D): 2.87 x 1.00 x 3.75 in

Gross Weight: 0.580 kg

Software Features:

Protocols: ICMP, IP, TCP, UDP, DHCP, BOOTP, Telnet, DNS, SNMP, HTTP, SMTP

Confi guration: Web console, Telnet console

Environment:

Operating Temperature: 0 to 55°C (32 to 131OF), 5 to 95%RH, non-condensing

Storage Temperature: -20 to 85°C (-4 to 185°F), 5 to 95%RH, non-condensing

Regulatory Approvals:

EMC FCC Class A, CE Class A, Safety UL, CUL, TÜV

Warranty:

5 years

®

Page 76 of 120

Draper Digital Network

The Draper Digital Network which is run from the IP interface mentioned on the previous page is programmed through a series of actions.

These actions and items used to program the system are constantly changing so it is required to contact Draper before programming a Digital

Network. Here are the items that you will currently need to program a Draper Digital Network.

2 RS 485 adaptor cable- Draper can direct you where to buy.

3 DB9 to Cat 5 convertor- Draper can direct you where to buy.

4 Cat 5 patch cord at least 3’ long

5 ILT TAP- Buy from Draper

7 GUI for programming- Draper will provide GUI

With these items, you will be able to obtain motor addresses and set group address to operate shades in the desired groups, up to 16 groups per motor.

The fi rst part of installing a Draper Digital Network is to obtain the address of each motor and note the address on a planning sheet or building fl oor plan. To obtain a motor address, you will need to do the following.

1 Power must be on to the shade.

2 You will need the GUI installed on your laptop.

3 You will connect the laptop to the low voltage line on the motor. This is done by connecting the RS 485 adaptor cable to the laptop, the

DB9 adaptor to the RS 485 cable, a Cat 5 cable from the DB9 to the ILT tap, and then you plug the motor into the ILT tap. A 9V battery or transformer will need to be supplying power to the tap to work.

4 You will then bring up the motor GUI and hit the “GET ADDRESS” button to retrieve the motor address.

5 You will then need to mark down the address on a planning sheet or fl oor plan.

The next part of the install is the planning out of groups for operating the shades. You have the motor address, but you need to decide what groups you want the motor to belong to by assigning like group addresses with different motors. If two motors have the same address in any group, then they will run together when that address is told to go up or down. Steps to consider in grouping shades are:

1 Each motor address must be 6 characters long using numbers 0-9 and A-F.

2 You have 16 group addresses per motor.

3 Any two shades with the same address in them, whether it is a group 1 or group 5 or group16 address, will work together.

4 If using smart switches or virtual switches, you will want to program an individual address to each motor to make motor changes easier.

®

Page 77 of 120

The next part of the install is to program the group addresses. For this you will have to check several different things:

1 Are the low voltage lines from the motors going to an ILT Tap? Are the ILT Taps connected together with Cat 5? Do you have a 12V trans former feeding power to every 40 ILT Taps?

2 You may use a splitter to put up to 3 motors in an ILT Tap, but a motor cannot have more than 30’ of cable between it and an ILT Tap even

with splitter.

3 If the Draper Digital Network is programmed and powered, then you may plug your computer into an ILT Tap on the network and

program.

4 The laptop will plug in as before, but the ILT Tap that it now plugs into will be on the network.

5 You will pull up the GUI that you used to get the motor address.

6 You will type in a motor address that you wish to program and hit the “GET DATA” button.

7 The motor will talk back. If you get an error, then you need to check your set-up as communication is not getting to the motor.

8 You will then change the group addresses to be as you want them and hit “Compute IP Range”, then hit the “Send Data” button. This will program the motor with the addresses that you want.

9 You will then proceed back to step 6 for the next motor address until all motors are programmed.

Lastly, you will program smart switches and the IP interface to the switch confi guration that you want. You program the IP interface and smart switch as follows.

1 A smart switch is programmed with the same set-up as you used to get a motor address. Except, you will plug in a smart switch not a motor, but you will plug a smart switch into the ILT Tap by connecting the Cat 5 to the switch.

2 You will pull up a GUI on your laptop for programming the switch and you will determine what addresses you want the switch to send when buttons are pressed.

3 To program the IP interface, you will need to connect to the server. You will type in the IP address of the interface and access the settings

4 At the settings page, you will set up virtual buttons and what actions you want behind each button.

Programming switches, motor, and IP interface will have more details than this so please use these pages as a reference for the amount of work done to program the system.

www.draperinc.com

(765) 987-7999

Page 78 of 120

RS485-ILT Link

DESCRIPTION

The RS485-ILT Link will enable third party communication to Somfy’s line of intelligent (ILT) motors, and for programming and receiving addresses from intelligent motors.


Overall Dimensions: L: 3 1 /

8

in. W: 2 5 /

8

in. H: ¾ in.

CONNECTION DIAGRAM

Low Voltage

Input Detail

+9V DC

Ground

RS485 B

RS485 A

Down

Up

Ground

Termination

Resistor

A termination resistor of at least 120ohms should be placed only at the extreme ends of the data line, and no more than two resistors should be placed in any system that does not use repeaters.

RS485 Connector

(RJ45) Pin Out

Pin 1 Pin 8

1 - RS485 A

2 - RS485 B

3 - NOT CONNECTED

4 - BUS POWER +9V

5 - BUS POWER +9V

6 - NOT CONNECTED

7 - BUS POWER GND

8 - BUS POWER GND

ORDERING INFORMATION

Description Part

RS485 - ILT Link 1870127

®

Page 79 of 120

Draper Digital Network—Smart Switch

Description: The Smart Switch is a control device which outputs the SDN protocol over RS-485, providing digital control of the Digital Network. The Smart Switch allows the SON to function as a stand alone natural lighting control system and can be fully customized though the SON Smart Switch Confi guration Software.

The Smart Switch is available in 3-button and 6-button versions which can be located anywhere on the Somfy

Digital Network.

Specifi cation:

-Three button Smart Switch -Catalog # 1810827

-Six button Smart Switch -Catalog # 1810828

-Buttons are fully programmable

-Standard Decora style

-Mounts in a single gang box

-8 dry contact inputs for system integration

-Warranty: 5 years

Back of Switch

8 Dry Contact Inputs

Cat5 Network

Connection

Power LED

®

Page 80 of 120

110-120V Standard and Quiet Motorized Flexshade

Motor Mounting Bracket

Small C002.058.49

Large C002.051.49

Motor End Cap

Small C002.571

Large C002.677

Idler Gudgeon Assembly

2” C052.041

3” C052.064

End Cap

Cover

End Cap

Cover

Available in black, white, ivory, bronze or clear anodized finish

Retainer Clip

C014.013

Idler End Cap

Small C002.572

Large C002.676

Idler Mounting Bracket

Right Small C002.062.49

Right Large C002.055.49

Left Small C002.063.49

Left Large C002.056.49

(Shown to right)

Ceiling Small C002.064.49

Ceiling Large C002.064.49

Fascia:

3 7/8”

4 5/8”

Motor Adapter Bracket

Small C010.240 as shown

Large C010.267 not shown

Stud C002.101 brackets only not shown

Quiet C021.016

Stud used with

Quiet motor

Page 81 of 120

ILT DC Altus Motors

Standard

4-Wire Motors

Quiet Motor

Torque (Nm)

RPM

Volts

Amps

Parallel Wire

1.5" Aluminum

2" Aluminum

2" Steel

2 1/8" Steel

3" Steel

3 1/8" Steel

4" Steel

6"

Flexshade MO

Flexshade 2

Lightbloc

Skylight

Colossal

Min Width

Min. Crank Width

Crank overide

"Limit Setting

P=Push Button

T=Turn Screw Page 82 of 120

R=Remote/Switch Set"

Motor Name:

506S2RH

Torque in Nm: 6 RPM: 38

6’

Volts: 120 Amps: .95 Parallel Wire:

No

Roller Diameter Choices: 2” aluminum, 2” steel,

2 1/8” steel, 3” steel, 3 1/8” steel

Product (s) Used In: Motorized Flexshades, Lightblocs,

Skylights

Min. Shade Width: 24” om

With Crank Override 29” om

Part No: C047.054

Optional Lead Lengths: 12’ and 24’ Standard Motor Lead Length:

Lead Type:

18-3 w/ground

Plug Options: Wago w or w/o wall plate

Anderson w or w/o wall plate

Quick Disconnect, 4-wire only

Flexshade, Skylight, Lightbloc Limit Type: Push Button Used in:

Controls that motor can wire into: Isolating Relays, SC1 controllers, GC4 control, SGC4 control,

SPGC4 control, Keyed Wall Switch, SP/DT toggle switch, DP/DT toggle switch, Animeo for questions on other controls ask Draper, Inc.

Installation Procedure:

1. Install brackets, endcaps, or box to mount shade

2. Test motor using a motor test cable and adjust limits.

3. Let electrician connect to wiring

4. If control programming is required, then program and set controls.

5. Test motors through wiring using switching

Special Notes:

This is the standard motor for Draper’s

Flexshade line. If you are pricing a shade, this is the included motor in the pricing.

_____________________________________

_____________________________________

_____________________________________

_____________________________________

_____________________________________

_____________________________________

Page 83 of 120

Standard Motor Lead Length:

Motor Name:

510S2RH


6’

Volts: 120 Amps: 1.3 Parallel Wire:

No



Product (s) Used In: Motor Flexshades, Skylights as needed


With Crank override 30” om

Part No: C047.056

Optional Lead Lengths: 12’ and 24’

Lead Type:

18-3 w/ground



Limit Type: Push Button Used in: Flexshade and Skylight

Hardware Only




1. Install Brackets, endcaps, or box to mount shade




5. Test motors through wiring using switches

Special Notes:

This motor is step up in power from the standard motor. It is included in pricing where needed.

Page 84 of 120

Motor Name:

504S2RH-ST


6’


No


2 1/8” steel

Product (s) Used In: Motorized Flexshades, Lightblocs



Optional Lead Lengths:

Part No: C047.158

12’ and 24’ Standard Motor Lead Length:

Lead Type:

18-3 w/ground

Limit Type: Push Button Used in:



Flexshade and Lightbloc

Hardware Only









Special Notes:

This is the quiet motor for Draper’s

Flexshade line. If you are pricing a shade, this is not included in the shade pricing. It requires an extra charge.

Decibels--42

Page 85 of 120


Motor Name:

506G

Torque in Nm: 6

Motion Control Motor

RPM: 34

6’

Volts: 120V Amps: .9 Parallel Wire:

No

Roller Diameter Choices: 2” aluminum, 2” steel, 2 1/8”

Steel, 3” steel, 3 1/8’ steel

Product (s) Used In: Motorized Flexshades



Part No:

C047.134.001

30’

Lead Type:

18-3 w/ground



Limit Type: Turn Screw Hardware Restrictions: Cannot go into Duals, Access Pocket,

Ult. Access, Lightblocs, Flexshade 2, Skylight and Colossal.




1. Install hardware for shade

2. Mount motor and test limits and operation

3. Let electrician tie into controls

4. Program controls

5. Test operation through controls

Special Notes:

This quiet motor does not have a crank override option, and it does not fit into all hardware._Used for shades either too small or too large for standard quiet motors.

Decibels--42

Page 86 of 120


Motor Name:

506S2ILTRH


6’


Yes




Min. Shade Width: 27 1/4” om

With Crank Override 32 1/4”


Part No: C047.162

12’ and 24’

Lead Type:

18-2 w/ground

Plug Options: 3-prong

Limit Type: Remote Set Used in: Flexshade, Skylight, Lightbloc

Hardware Only

Controls that motor can wire into: This motor does not wire into any controls. It is controlled via controllers that plug into the data cable existing the motor head.



2. Test motor, set limits, and bind to controls


Special Notes:

This motor has built-in intelligence for operation. It has both a data cable and high voltage cable exiting the motor head. The data cable ties into control and the high voltage ties into power.

Page 87 of 120

Motor Name:

504S2ILTRH-ST



Yes


2 1/8” steel


Min. Shade Width: 32” om Part No: C047.164

Standard Motor Lead Length: 6’ Optional Lead Lengths: 12’ and 24’

Lead Type:

18-2 w/ground


Limit Type: Remote Set Used in: Motorized Flexshade






Special Notes:

This motor has built-in intelligence for operation. It has both a data cable and high voltage cable exiting the motor head. The data cable ties into control and the high voltage ties into power.

Page 88 of 120


Motor Name:

506S2RH-RTS


6’


Yes



Product (s) Used In: Motorized Flexshades

Min. Shade Width: 27 1/8” om

With Crank Override 32 1/4”


Part No: C047.143

12’ and 24’

Lead Type:

18-2 w/ground


Limit Type: Remote Set Used in: Flexshade, Lightbloc, Skylight Only

Dual Headboxes Not Recommended

Controls that motor can wire into: This motor does not wire into any controls. It is controlled via RTS

Transmitters, both handheld and wall switch.



2. Test motor, set limits, and channels from transmitter.


Special Notes:

This motor has a built-in radio receiver, and it is an up-charge on regular shade pricing.

Page 89 of 120


Motor Name:

510S2RH-RTS


6’


Yes



Product (s) Used In: Motor Flexshades and Skylights as needed



Part No: C047.157


Lead Type:

18-2 w/ground


Limit Type: Remote Set Used in: Flexshade and Skylight Hardware Only


Controls that motor can wire into: This motor is not wired into any controls. It is operated through RTS transmitters, both hand held and wall switch.



2. Test motor and set limits and channels using remote


Special Notes:


Page 90 of 120


Motor Name:

504S2RHST-RTS



Yes


2 1/8” steel

Product (s) Used In: Motor Flexshades

6’



Part No:

12’ and 24’

Lead Type:

18-2 w/ground


Limit Type: Remote Set Used in: Flexshade and Skylight Hardware Only


Controls that motor can wire into: This motor is not wired into any controls. It is operated through RTS transmitters, both hand held and wall switch.



2. Test motor and set limits and channels using remote


Special Notes:


This motor is also a quiet motor.

Page 91 of 120

Motor Name:

506S2PA

Torque in Nm: 6

Volts: 120 Amps: .95

RPM: 38

Parallel Wire:

No

Roller Diameter Choices: 4”

Product (s) Used In: Flexshade 2



Lead Type:

18-3 w/ground

Limit Type: Turn Screw

6’

Used in:




Flexshade 2 hardware only




1. Mount hardware and shade into hardware

2. Test motor and adjust limits

3. Let electrician tie into electrical

4. Program controls

5. Test shade operation through switching

Special Notes:

This is the standard motor for a Flexshade 2

Page 92 of 120

Motor Name:

510S2PA


Volts: 120 Amps: 1.3

Roller Diameter Choices: 4” steel

Parallel Wire:

No

6’




Part No: C047.058


Lead Type:

18-3 w/ground



Flexshade 2 Hardware only Limit Type: Push Button Used in:









Special Notes:

This motor is step up in power from the standard Flex 2 motor. It is included in pricing where needed.

Page 93 of 120

Motor Name:

506S2ILT




Parallel Wire:

Yes




Lead Type:

18-2 w/ground


Limit Type: Remote Set Used in: Flexshade 2 Hardware only






Special Notes:

This motor has built-in intelligence for operation. It has both a data cable and high voltage cable existing the motor head. The data cable ties into control and the high voltage ties into power.

Not for all FlexShade 2 sizes.

Page 94 of 120

Motor Name:

506S2-RTS




Parallel Wire:

Yes




Lead Type:

18-2 w/ground







2. Test motor, set limits, and channels using transmitter.

3. Let electrician connect to wiring.

Special Notes:

This is a radio motor for the Flexshade 2, and it is an extra charge on top of the shade price.

Page 95 of 120

Motor Name:

510S2-RTS




Parallel Wire:

Yes




Lead Type:

18-2 w/ground







2. Test motor, set limits, and channels using transmitter.


Special Notes:

This is a radio motor for the Flexshade 2, and it is an extra charge on top of the shade price.

Page 96 of 120

Motor Name:

506S1RH


6’


No



Product (s) Used In: Motorized Flexshades, Lightblocs, and Skylights



Part No: C047.055

Optional Lead Lengths: 12’ and 24’ Standard Motor Lead Length:

Lead Type:

18-3 w/ground



Limit Type: Push Button

Hardware Only


SPGC4 control, Keyed Wall Switch, SP/DT toggle switch, DP/DT toggle switch, Animeo for questions on other 230V controls ask Draper, Inc.







Special Notes:

This is the standard motor for Draper’s 230V


Page 97 of 120


Motor Name:

510S1RH


6’


No



Product (s) Used In: Motor Flexshades




Part No: C047.160

12’ and 24’

Lead Type:

18-3 w/ground



Limit Type: Push Button Used in: Flexshade Hardware Only


SPGC4 control, Keyed Wall Switch, SP/DT toggle switch, DP/DT toggle switch, Animeo for questions on 230V other controls ask Draper, Inc.







Special Notes:

This motor is step up in power from the standard export motor. It is included in pricing where needed.

Page 98 of 120

Motor Name:

503S1RH-ST


6’


No


2 1/8” steel





Part No: C047.159


Lead Type:

18-3 w/ground

Limit Type: Push Button Used in:



Flexshade and Lightbloc

Hardware Only


SPGC4 control, Keyed Wall Switch, SP/DT toggle switch, DP/DT toggle switch, Animeo for questions on other 230V controls ask Draper, Inc.






5. Test motors through wiring using switching.

Special Notes:

This is the quiet motor for Draper’s 230V


Page 99 of 120

Motor Name:

506S1PA

Torque in Nm: 6


RPM: 38

Parallel Wire:

No





Lead Type:

18-3 w/ground


6’

Used in:




Flexshade 2 Hardware only


SPGC4 control, Keyed Wall Switch, SP/DT toggle switch, DP/DT toggle switch, Animeo for questions on other 230V controls ask Draper, Inc. Of course, these are 230V versions of these controls.





4. Program controls


Special Notes:

This is the standard motor for a Flexshade 2 in export sales.

Page 100 of 120

Motor Name:

510S1PA

Torque in Nm: 10

Volts: 230 Amps:1.3

RPM: 38

Parallel Wire:

No





Lead Type:

18-3 w/ground


6’

Used in:




Flexshade 2 Hardware only


SPGC4 control, Keyed Wall Switch, SP/DT toggle switch, DP/DT toggle switch, Animeo. For questions on other 230V controls ask Draper, Inc.





4. Program controls


Special Notes:

This is the more powerful motor for a 230V

Flexshade 2. The price list is adjusted for the

Motor.

Page 101 of 120

Motor Name:

660R2

Torque in Nm: 60


RPM: 14

Parallel Wire:

No


Product (s) Used In: Colossal



Lead Type:

18-3 w/ground

Limit Type: Turn Screw n/a

Used in:

Optional Lead Lengths: No Options



Colossal Only


SPGC4 control, Keyed Wall Switch, SP/DT toggle switch, DP/DT toggle switch, Animeo. For questions on other controls ask Draper, Inc.


1. Mount complete unit



4. Program controls


Special Notes:

This is the standard motor for a Colossal.

Page 102 of 120

Motor Name:

ST-30


Volts:

24VDC

Amps: 1.8 Parallel Wire:

Roller Diameter Choices: 1 ½” aluminum

YES

Standard Motor Lead Length: 15’

Product (s) Used In: Low Voltage Shades only

Min. Shade Width:


Part No:

C047.165

N/A

Lead Type: 22-2, awg/conductor Plug Options: Plug-in Transformer or power box

Limit Type:

Remote Set

Used in: Brackets, fascia, or headbox only

Controls that motor can wire into: Works with RTS transmitters only, handheld and wall switch


1. Install hardware

2. Install motorized shade

3. Install transformer

4. Test motor and set limits from transmitter

Special Notes:

This motor can possibly tie into existing low voltage wiring.

Transformer required to power shades.

Page 103 of 120


Lead Type: n/a

Motor Name:

BA-RTS


Volts: 12 V Amps: n/a Parallel Wire: n/a

Roller Diameter Choices: 1 ½” aluminum

Product (s) Used In: Battery Flexshade only n/a

Min. Shade Width:


Part No:

C047.144 n/a

Plug Options: n/a

Limit Type:

Remote Set

Used in: Brackets, fascia, or headbox only

Controls that motor can wire into: Works with RTS transmitters only, handheld and wall switch


1. Install hardware

2. Install motorized shade

3. Install battery pack

4. Test motor and set limits from transmitter

Special Notes:

Dual Battery Pack part no. is C105.005.

Replacement motor price does include a battery pack and is kit part number 122215.

Page 104 of 120

Minimum Shade Sizes

Motorized

24" OM (24 1 /

8

" IM) 506 Motorized shade regular motor in 2" roller (Dual 24 1 /

8

" OM -24¼" 1M)

(If using Somfy 504 Quiet Motor add 7½")

24 1 /

8

" OM (24¼" IM) 506 Motorized shade regular motor in 3" roller (If using Somfy 504 Quiet Motor add 7½")

24¼" OM (24 3 /

8

" IM) 506 Motorized shade regular motor in 3" roller with 1 /

8

" brackets (If using Somfy 504 Quiet Motor add 7½")

27 1 /

8

" OM (27¼" IM) Motorized shade with 506 Altus RTS Round Head or ILT Motor in a 2" or 2 1 /

8

" Roller (If ILT Quiet Motor or

Altus Quiet Motor, add 7½")

27¼" OM (28 3 /

8

" IM) Motorized shade with 506 Altus RTS Round Head or ILT Motor in 3" or 3

Altus Quiet Motor, add 7½")

1 /

8

" Roller (If ILT Quiet Motor or

14" OM (14 1 /

8

" IM) 12 V Battery Motor shade

18" OM (18 1 /

8

" IM) Low Voltage ST30 24 V Quiet Motor

24 7 /

16

" OM (24 9 /

16

" IM) Motorized lightbloc 506 motor (Dual 24 9 /

16

" OM - 24 11 /

16

" IM) (If using Somfy 504 Quiet Motor add 7½")

27¼" OM (27 3 /

8

" IM) Motorized Lightbloc with 506 Altus RTS Round Head or ILT Motor (add 7½" if ILT Quiet Motor or Altus

36" OM (36 1 /

8

" IM) Flexshade 2

36" OM (36 1 /

8

" IM) Colossal

28" OM (28¼" IM) Roman Motorized regular motor

29" OM (29 1 /

8

" IM) 506 Motorized shade with crank override regular motor-old style endcap system

29 1 /

8

" OM (29¼" IM) 506 Motorized shade with crank override regular motor-small snap on endcap system

29 3 /

16

"OM (29 5 /

16

" IM 506 Motorized shade with crank override regular motor -large snap on endcap system

24" OM (24 1 /

8

" IM) MotionCo Quiet Motor in 2" roller (No small pocket hdbx available at this time.)

24 1 /

8

" OM (24¼" IM) MotionCo Quiet Motor in 3" roller

28 5 /

8

" OM (29 3 /

8

" IM) Skylight using 506 Motor or crank operated (Using 1½" Spring roller up to 96" high. 1¾" minimum is 34 3 /

8

" OM

(35 1 /

8

" 1M) (NOTE: The spring roller is the ruler of the minimum size.)

33½" OM (34¼" IM) Skylight using Somfy 504 Quiet Motor (Using 1½" Spring roller up to 96" high. 1¾" minimum is 34 3 /

8

" OM

(35 1 /

8

" 1M) (NOTE: The spring roller is the ruler of the minimum size if using the 1¾" spring roller.)

29 1 /

8

" OM (29 7 /

8

" IM) Skylight using ILT or Altus RH Motor

36 5 /

8

" OM (37 3 /

8

" IM) Skylight using ILT Quiet Motor or Altus Quiet Motor

®

Page 105 of 120

Minimum Shade Sizes—Continued

The following is for coupled shades

27" OM (27 1 /

16

" IM -we take a 1 /

16

" off the left & right panel to equal a total 1 /

8

" IM deduction) for 506 Motorized Coupled unit (If using Somfy 504 Quiet Motor add 7½")

OR

30 1 /

8

" OM (30 1 /

16

" IM -we take a 1 /

16

" off the left & right panel to equal a total 1/8" 1M deduction) for 506 Altus RTS Round Head or ILT Motor (If ILT Quiet Motor or Altus Quiet Motor, add 7½")

9¾" OM (9¾" IM -No IM deductions are made on center panels) for a center sleeve on a coupled unit

6¼" OM (6 5 /

16

" IM -we take a 1 /

16

" off the left & right panel to equal a total 1 /

8

" IM deduction) for idler end of a couple unit www.draperinc.com

(765) 987-7999

Page 106 of 120


Motorized FlexShade by Draper

Caution

➀ Inspect all boxes to make sure you have received the proper shades and

parts. Controls may be shipped separately, or in same carton as shades.

➁ Open cartons lengthwise.

➂ All brackets, fascia, headboxes, pockets, wall clips, and other hardware

must be installed level. Shades must be level and square.

➃ All motors should be tested and limits set using test cord before electrician shade.

➄ Before connecting switches, controls, or electrical, make sure power is off.

Wiring indicated in diagram by dashed lines must be completed by an

electrician.

➅ Do not wire motors in parallel without written permission from Draper.

➆ It is the installer’s responsibility to make sure appropriate fasteners are

used for mounting surface.

➇ Please read the following installation guidelines thoroughly and follow

them carefully. Failure to do so may cause product to fall or otherwise

fail, and invalidates warranty.

Please Note: Custom products/installations may not be refl ected by this document. Call Draper, Inc. if you have questions about your installation.

Mounting Endcaps

➀ Snap end covers into place (see Fig. 3).

➁ Mark wall, jamb or ceiling for placement of mounting endcaps.

➂ Drill small starter hole (if necessary) in mounting surface.

➃ Mount endcaps using appropriate fasteners for surface (see Fig. 4 for

endcap dimensions). If this is a coupled unit, be sure to mount coupled

endcap in the center position. The installer is responsible for selecting

mounting hardware appropriate for site conditions.

Caution: Before mounting shades, verify measurements on the card provided with the shade, and ensure the endcaps are installed at the correct width.

Mounting Brackets

➀ Mark wall, jamb or ceiling for placement of mounting brackets.

Caution: Before mounting shades, verify measurements on the card provided with the shade, and ensure the brackets are installed at the correct width.

➁ Drill small starter hole in mounting surface (if necessary).

➂ Mount brackets using appropriate fasteners for surface (see Fig. 1 for

bracket

hardware appropriate for site conditions.

Brackets

4 1 /

2

"

2 1 /

4

"

2 1 /

4

"

4 1 /

2

"

2 7 /

8

"

3"

Figure 3

Endcaps

5 /

8

"

2 7 /

8

" 3

3 /

4

"

1 7 /

8

"

1 7 /

8

"

3 1 /

4

"

2"

2"

5 /

16

"

2"

Inside/Outside

Idler End

(Left Standard)

Ceiling Inside/Outside Ceiling

Operator End

Coupler

(Bearing Boss toward slotted coupler end)

(Right Standard)

Figure 1

➃ Place operator (motor) end onto its bracket. If a coupled unit, place slotted

end of shade into coupler bracket, then insert idler pin end of next shade

into coupler bracket.

➄ Slide notched pin on idler end into slot on bracket. Slip retainer clip onto

idler end between bracket and roller (see Fig. 2).

* Retainer clip

*Don't forget to install retainer clip!

Shade

Roller

Coupling

(slotted end)

Shade

Roller

Coupling

(idler pin)

Bearing boss oriented toward slotted coupling

Please Note: Install motor so that limit switches are accessible.

Figure 2

®

5 /

8

"

7 /

8

"

3"

Large Endcap

Figure 4

1 1 /

4

"

1 1 /

4

"

2 1 /

2

"

Small Endcap

➄ Place operator (motor) end into its endcap (see Fig. 5).

➅ For coupled units insert idler pin into center (coupled) endcap. Next Insert

slotted end of next shade into the center (coupled) endcap (see Fig. 5).

➆ Slide notched pin into idler endcap and attach retainer clip(see Fig. 5).

* Retainer clip

*Don't forget

Idler End to install re-

(Left Standard) tainer clip!

Three washers not required if fascia or headbox endcaps look like this.

Shade

Roller

Operator End

(Right Standard)

Coupler

Coupling

(slotted)

Shade

Roller

Coupling

(idler pin)

Operator

End

Bearing

Endcaps

Bearing boss oriented toward slotted coupling

Figure 5

Three washers required if fascia or headbox endcaps look like this.

Fascia

➀ Snap end covers onto endcaps.

➁ If Crank override is provided, remove crank

handle assembly from endcap and discard

washers (see Fig. 6)

➂ Follow steps 1 through 6 under "Mounting section.

➃ Place groove along top of fascia over end-

caps, and snap into place (see Fig. 7 on

Retainer

Clips

Operator End

(Small Pocket only)

Figure 6

Copyright © 2008 Draper Inc. Form MotorizedFlexShade_Inst08-R Printed in U.S.A.

ends. Once in place, check for secure fi t. If not secure, secure with

appropriate fastener (not included).

Page 107 of 120

If you encounter any diffi culties installing or servicing your Motorized FlexShade, call your dealer or Draper, Inc., Spiceland, Ind., (765) 987-7999, or fax (765) 987-7142.

Motorized FlexShades by Draper

Page 2 of 2

Small Pocket Endcap Dims

3 1 /

4

"

2"

5 /

16

"

STEP 1

STEP 2

Clicks into place

Figure 7

➄ If crank override is included, re-attach to endcap (see Fig. 8). Make sure fascia

is in place before attaching crank handle, so the screws attach both the handle

and the fascia to the endcap.

Figure 8

Surface (Ceiling/Wall) Headbox or Large Pocket Headbox

➀ Snap endcap covers onto endcaps.

➁ Place endcaps into back/top portion of wall/ceiling headbox or into pocket

extrusion of large pocket headbox. Using pre-drilled holes in endcaps, mark

the headbox for drilling.

Caution: Before mounting shades, verify measurements on the card provided with the shade, and ensure the unit is installed at the correct width.

➂ Drill holes in back or top, depending on whether you will be mounting the

headbox to the wall or ceiling, or in a pocket.

➃ Attach endcaps and wall/ceiling headbox back/top or large pocket headbox

extrusion to wall, ceiling or pocket using mounting hardware appropriate for

hardware appropriate for site conditions.

➄ Install shade following steps 2-5 under "Fascia" section.

➅ Attach headbox fascia or large pocket closure (see Fig. 9). Note on surface

style

ends. Once in place, check for secure fi t. If not secure, secure with

appropriate fastener (not included).

Surface Headbox Small Pocket Headbox

STEP 1

STEP 2

Clicks into place

Secure closure panel to endcap with screw

3 3 /

4

"

1 7 /

8

"

1 7 /

8

"

2"

2"

1 1 /

4

"

1 1 /

4

"

2 1 /

2

"

Field Adjustments

Each Draper Solar Control Shade is tested to ensure proper operation. Even with this testing, some fi eld adjustments may be needed for telescoping. If shade is telescoping, place a piece of high quality gaffer tape about 1" wide on the exposed roller (where the fabric will cover it) on the side that you want the fabric drawn toward. For example: if fabric is tracking to the left, place the tape on the right side.

Electrical Connections

Shade operates on 110-120V, 60 Hz. current. Shade is shipped with internal wiring complete and control switch(es) fully boxed, and standardly supplied with a 6' cable lead. Longer lead can be substituted by removing two screws in motor end of roller, removing lead, plugging new lead in, and replacing screws. Wire to connect shade to switch(es) and switch(es) to power supply should be fur nished by installer. Con nec tions should be made in ac cor dance with attached wiring diagram, and wiring should comply with national and local electrical codes. DO NOT wire motors in parallel without written permission from Draper.

All operating switches should be “off” before power is connected.

Cleaning and Maintenance

Idlers on motorized shades may occasionally need lubrication. If lubrication is required, apply a small amount of a lithium based grease direct to the idler pin.

Most of Draper’s standard fabrics may be cleaned at the window by vacuuming with a soft brush attachment. They may also be cleaned by using a sponge or soft cloth and mild solution of warm soapy water. A dishwashing liquid, such as Ivory liquid, is recommended. A clean dry cloth is recommended for the metal fi nish.

Exceptions are Flocké and Roc-Rol fabrics, which must be cleaned with a dry art sponge.

Single Shade Wiring Diagram

For multiple shade or low voltage wiring consult diagrams provided with control.

Internal Shade Wiring

White (Common)

Black

Red

Green (Ground)

Red

Black

Control switch

Single gang box by others

Min. 4" x 2 1 /

8

" x 1

Black

7 /

8

" deep

NOTE: Test shade operation. If shade direction does not correspond with the switch orientation, turn power back

off then switch the red and black wires from the motor to the switch.

Large Pocket Headbox

Dashed wiring by electrician

STEP 1 STEP 2 STEP 3

Figure 9

➆ If crank overrise was included, reattach to endcap (see Fig. 8). Make sure fascia

is in place before attaching crank handle, so that the screws attach both the

handle and the fascia to the endcap.

Small (3¼" Hardware) Pocket Headbox

➀ Follow steps 1 through 5 as described in "Surface (Ceiling/Wall) Headbox or

Large Pocket Headbox" section.

Please note that when you remove the crank handle assembly (if provided) there will be no washers to discard.

➁ If crank override was included, reattach to endcap (see Fig. 8). Make sure the

fascia is in place before attaching crank handle (see Fig. 9), so the screws at-

tach to the handle and the fascia to the endcap.

To 110-120V Line

Limit Switch Adjustments

CAUTION: Be sure all switches are in “off” position before adjusting limit switches.

Always be pre pared to shut off man u al ly when new ad just ment is being tested. Do not allow the shade roller to become exposed by running the shade fabric

too far down. Shade may be se vere ly damaged if allowed to run too far up or down. Each shade’s lim it switch must be set if using group control system.

Push Button Limits

➀ Fully depress both limit switch push buttons, then operate wall switch to

make sure system works properly.

➁ Raise shade to desired “up” stop position.

➂ Set upper limit by depressing and releasing the proper (back) push button.

➃ Lower shade to desired “down” stop position.

➄ Set lower limit by depressing and releasing the proper (front) push button.

Screw-Type Limits

➀ Determine which direction of fabric travel corresponds with arrows on motor.

➁ Operate shade to desired “down” stop position. Set limit by turning the

proper socket toward the “+” to lower the limit, and “-” to raise it.

➂ Operate shade to desired “up” stopping position. Set limit by turning the www.draperinc.com

(765) 987-7999


FlexShade 2 by Draper

Caution

➀ Inspect all boxes to make sure you have received the proper shades and

parts. Controls may be shipped separately, or in same carton as shades.

➁ Open cartons lengthwise.

➂ All brackets, fascia, headboxes, pockets, wall clips and other hardware

must be installed level. Shades must be level and square.

➃ Before connecting switches, controls, or electrical, make sure power is off.

Wiring indicated in diagram by dashed lines must be completed by an

Do not wire motors in parallel.

➄ Installation of this product requires two people.

➅ It is the installer’s responsibility to make sure appropriate fasteners are

used for mounting surface.

➆ Please follow installation guidelines carefully. Failure to do so invalidates

warranty.

➂ Rotate the roller assembly idler pin so that the ¼" hole in the shaft is aligned with the ¼" hole in the idler end bracket (see Fig. 3).

➃ Place idler pin into the idler end bracket.

➄ Insert the cotter pin through the idler end bracket and shaft.

➅ Insert the motor end of the roller assembly into the motor end bracket (see

Cotter Pin

Mounting Brackets and Endcaps

➀ Mark wall, jamb or ceiling for placement of mounting brackets or endcaps.

➁ Drill small starter hole in mounting surface (if necessary).

➂ Mount brackets using appropriate fasteners for surface (see Fig. 1 for

bracket and endcap types). Centers of mounting holes are approximately

13 /

16

" in from outer edge of endcap/bracket.

Please Note: It is the responsibility of the installer to ensure the mounting surface and mounting hardware are of appropriate type and strength.

Mounting Brackets

Figure 3

Caution: The cotter pin must be correctly installed to insure safe operation of the shade. If misalignment of the holes in the idler shaft and bracket prevent the cotter pin from being installed, then the roller assembly must be completely removed and re-installed.

➆ Ensure that the motor retainer ring is properly installed around the grooves in the motor and the motor end bracket.

➇ Install the motor retainer ring screw and tighten.

Please note: Maximum torque for tightening screw is 5 lb-inches.

➈ Use the cable strap with self-adhesive attachment pads to secure the motor cable to the endcap (see Fig. 4). This will prevent possible damage to the cable by the roller during shade operation.

Pin End (Left Standard) Motor End (Right Standard)

Endcaps for Headbox or Fascia

Pin End (Left Standard) Motor End (Right Standard)

Figure 1

Shade Installation

Please Note: Installation of Shade Assembly requires two people.

➀ Remove screw from the motor retainer ring.

➁ Install the motor retainer ring into the groove in the motor end bracket (see

Fig. 2). Do not re-install the screw yet.

Caution: Be sure motor is fully re-seated in the bracket, and re-secured carefully with the motor retaining spring.

Figure 4

➉ Run electrical wiring (see "Electrical Connections," page 2), and set limits

(see "Adjustments," page 2).

Headbox

➀ Remove headbox cover (see Fig. 5).

Figure 2

1

2

Figure 5

➁ Remove shade and roller from headbox/endcaps.

➂ Mount headbox and endcaps in desired location.

➃ Re-install shade roller (see "Shade Installation" section).

➄ Run electrical wiring (see "Electrical Connections," page 2).

➅ Set limits (see "Adjustments," page 2).

➆ Re-install headbox cover.

Copyright © 2007 Draper Inc. FormFlexShade2_Inst07-R2 Printed in U.S.A.

Page 109 of 120

If you encounter any diffi culties installing or servicing your FlexShade 2, call your dealer or Draper, Inc., Spiceland, Ind., (765) 987-7999, or fax (765) 987-7142.

FlexShade 2 Instructions by Draper

Fascia

➀ Mount endcaps and follow steps outlined in "Shade Installation" section to

assemble

➁ Run electrical wiring (see "Electrical Connections").

➂ Set limits (see "Adjustments").

➃ Install fascia (see Fig. 6).

page 2 of 2

Single Shade Wiring Diagram

For multiple shades or low voltage wiring consult diagrams provided with control.


White (Common)

Black (Up)

Red (Down)

Green (Ground)

Brown

Control switch

Red


Min. 4" x 2 1 /

8

" x 1 7

Black

/

8

" deep

Figure 6

Adjustments

Your shade motor will feature either push-button or setscrew limit switches.

Use appropriate steps below for your type of motor. At no time should viewing surface be unrolled enough to expose any part of shade roller.

These instructions are for right-hand motor, fabric from rear of roller.

For left-hand motor, fabric from rear of roller, directions noted below should be reversed.

Push-Button Limit Switches:

➀ Fully depress both limit switch push buttons, then operate

wall switch to make sure system works properly.

➁ Raise shade to desired “up” stop position.

➂ Set upper limit by depressing and releasing the proper

(back) push button (See Fig. 7).

➃ Lower shade to desired “down” stop position.

➄ Set lower limit by depressing and releasing the proper

(front) push button (see Fig. 7).

NOTE: Each shade’s lim its must be set if using group control.

Front

(Yellow)

Back

(White)

Bottom View

Side View

Figure 7

Setscrew/Socket Limit Switches:

Adjusting Back (White) Socket—White socket is located on the motor end of roller (see Fig. 8) and is accessible to a small fl at screw driv er or 5 /

32

" hex key. Turning the socket counterclockwise will allow

+ the roller to run farther up or down (as appropriate). Turning it clockwise will shorten op er a tion, caus ing it to stop sooner. A full revolution of the socket will alter the stopping position of the shade by ap prox i mate ly 1 1 /

4

".

Front

(Yellow)

Back

(White)

+

Bottom View

Screws

Adjusting Front (Yellow) Socket—Yellow socket is located on the motor end of roller (see Fig. 8) and is accessible to a small fl at screwdriver. Turning the socket counterclockwise will allow Side View

Figure 8 the roller to run farther up or down (as appropriate). Turning it clockwise will shorten op er a tion, caus ing it to stop sooner. A full revolution of the socket will alter the stopping position of the shade by ap prox i mate ly 1 1 /

4

".

Please Note: Each shade’s lim its must be set if using group control.


Shade operates on 110-120v, 60 Hz. current. Shade is shipped with internal wiring complete and control switch (es) fully boxed, and standardly supplied with a 6' cable lead. Longer lead can be substituted by removing two screws in motor end of roller, removing lead, plugging new lead in, and replacing screws. Wire to connect shade to switch (es) and switch (es) to power supply should be fur nished by installer. Con nec tions should be made in ac cor dance with attached wiring diagram, and wiring should comply with national and local electrical codes. DO NOT wire motors in parallel.

All operating switches should be “off” before power is connected.

To 110-120V Line

NOTE: Wiring diagram for standard right-hand motor placement with fabric from rear of roller, or left-hand motor place ment with fabric from front of roller.

For left hand motor place ment with fabric from rear of roller or right hand motor place ment with fabric from front of roller, Red is “Up” and Black is “Down.”

Dimensions

Headbox/Fascia with Endcaps

A

Shade Width

Fascia or Headbox Fabric Width = Shade Width - 2"

Brackets Only Fabric Width = Shade Width - 1 7 /

8

"

B

B

Brackets Only

A

C

E


D

Centers of mounting holes in endcaps and brackets are located approximately 13 /

16

" in from the outer edge of the endcap/bracket.

Headbox Fascia Brackets with Endcaps

A

B with Endcaps Only

6 5 /

8

" 6 1 /

2

" 5 7 /

16

"

6 5 /

8

" 6 1 /

2

" 5 7 /

16

"

C N/A

D N/A

N/A 3 1 /

4

"

N/A 3 1 /

4

"

E 1" 1" 15 /

16

"

Please Note: Maximum bundle diameter is 5 1 /

4

" (for

Headbox, Fascia or Brackets)

Cleaning and Maintenance

E

Idlers on motorized shades may occasionally need lubrication. If lubrication is required, apply a small amount of a lithium based grease direct to the idler pin.

Most of Draper’s standard fabrics may be cleaned at the window by vacuuming with a soft brush attachment. They may also be cleaned by using a sponge or soft cloth and mild solution of warm soapy water. A dishwashing liquid, such as Ivory liquid, is recommended. A clean dry cloth is recommended for the metal fi nish. Exceptions are Flocké and Roc-Rol fabrics, which must be cleaned with a dry art sponge.


(765) 987-7999

Installation/Operating Instructions

Colossal FlexShade by Draper

Caution

➀

Read instructions through completely before proceeding.

➁

Follow instructions carefully. Installation con trary to in struc tions invali-

➂

Pick up shade from ends only. Picking headbox up at other points will

➃

Entire bottom of shade headbox should be unobstructed to permit access to bottom panel for making electrical connections or servicing.

➄

Shade should be installed level (using a carpenter’s level).

➅

Operating switch(es) packed separately in shade carton. Do not discard with packing material.

➆

Shade operates on 110-120V, 60 Hz. current.

NOTE: Shade has been thoroughly inspected and tested at factory and found to be operating properly prior to shipment.

Mounting Shade

Regardless of mounting method used, the following points apply:

➀ Shade should be lifted into position only by the end mounting brackets.

Draper provides eyebolts to use in hoisting the shade. Never attempt to lift shade along its length.

➁ Shade should be positively and securely supported so that vibration or even abusive pulling will not weaken in stal la tion.

➂ Installer must insure that fasteners used are of adequate strength and suitable for the mounting surface chosen. Installer must also insure that

wall or ceiling structure are of adequate strength. Supporting hardware (chains, cables, rods, etc.) must be essentially vertical.

➃ Entire bottom of headbox must be readily accessible after in stal la tion is

complete.

➄ Front, back and top of case must be straight—not forced to warp or bow.

Adjust spreader bars to keep large cases from warping.

➅ Do not use headbox to support adjacent sections of ceiling.

➆ If optional ceiling fl ange trim kits are attached, use hardware provided.

➇ If headbox is painted, slots on bottom of case should be shielded to protect viewing surface from paint splatters or overspray.

➈ After the headbox is mounted, and before the shade is operated, you will need to remove the shipping brackets from inside the headbox. First, remove the closure panel (see instructions on page 2). You will fi nd the shipping brackets on the motor-end endcap—one in front of the roller and


Shade operates on 110-120V, 60 Hz. current.

Junction box is located just above the closure panel, at the motor end of shade. To properly remove closure panel, two people should follow the steps on page two of these instructions. The junction box access plate is held closed with pan head screws and may be opened with a Phillips screwdriver.

Removal of access plate exposes red, black and white pigtail leads and green internal ground wire per wiring diagram attached.

Shade is shipped with internal wiring complete and control switch(es) fully boxed. Wire connecting shade to switch(es) and switch(es) to power supply should be furnished by installer. Con nec tions should be made in ac cor dance with attached wiring diagram, and wiring should comply with national and local electrical codes.

All operating switches should be “off” before power is con nect ed.

Operation

When shade is fi rst operated, be cautious! Cycle unit down and up several times to confi rm satisfactory operation.

Adjustments

Shade has been factory set and should not nor mal ly require further ad just ment. However, if you desire to change the “up” and “down” stopping positions, proceed as follows:

CAUTION: Be sure all switches are in “off” position before adjusting limit switches. Always be pre pared to shut shade off man u al ly when new ad just ment is being tested. Shade may be se vere ly damaged if allowed to run too far up or too far down.

ADJUSTING “FULLY UP” POSITION—Put a small screw driver in the groove of the yellow button on the motor and press vertically until hearing a "click".

Raise the shade by pressing the "up" switch on unit. Press the "stop" switch when the shade is at the desired position. Then press the yellow button on motor until you hear a "click", then release.

ADJUSTING “FULLY DOWN” POSITION—Put a small screw driver in the groove of the white button on the motor and press vertically until hearing a

"click". Lower the shade by pressing the "down" switch on unit. Press the

"stop" switch when the shade is at the desired position. Then press the white button on motor until you hear a "click", then release.

AT NO TIME SHOULD SHADE BE UNROLLED ENOUGH TO EXPOSE ANY

PART OF SHADE ROLLER.

Please Note: The above instructions affect only the limits on the motors. For adjustment procedures using Draper’s IntelliFlex Control Systems, please consult the installation information for the appropriate control.

1 / 2 " threaded rod (for suspending shade) by others.

one behind (see Fig. 1). Remove the black hexagonal brackets with a wrench, taking care not to damage the fabric or loosen the wiring (see caution note below). Replace the closure panel.

Caution: Shade is shipped with motor wiring mounted to the headbox. Be careful not to pull the wiring loose from the headbox while removing the 8"

3 / 8 " -16 threaded rod

(use for adjusting deflection in extremely long units) by others.

brackets—if wiring is loose, it could be damaged during shade operation. If wiring does come loose, re-mount as it was.

➉ Do not seal unit in ceiling until electrical connections have been made and shade has been operated successfully.

13 1 /

4

"

Eyebolts for hoisting shade

(do not lift shade by center of case).

Headbox support brackets.

Figure 1 (roller and fabric removed for clarity)

12"

Knockouts for electrical connections

(two per end) with plastic plugs

Caution: Do not remove the roller assembly from the case unless necessary for repairs. If the roller assembly is removed, be sure motor is fully re-seated in the bracket, and re-secure it carefully with the motor retaining spring and screw (see diagram below).

Please note: Maximum torque for tightening screw is 5 lb-inches.

Copyright © 2007 Draper Inc. Form ColossalFlexShade_Inst07-R Printed in U.S.A.

Please see back page for dimensional diagrams of case and optional wall mounting bracket, wiring diagrams and in struc tions on removing and replacing the bottom closure.

Page 111 of 120

If you encounter any diffi culties installing or ser vic ing your Colossal FlexShade, call your dealer or Draper, Inc., Spiceland, Indiana, (765) 987-7999 or fax (765) 987-7142.

Colossal FlexShade by Draper

Optional Wall Mounting Bracket

1"

Dimensions*

8"

*

2"

2 7 /

8

"

12" 1 3 /

8

"

3 1 /

4

"

2 7 /

8

"

3 1 /

4

"

2 7 /

8

"

13 1 /

4

"

2¼"

2¼"

Page 2 of 2

* - Case support brackets will be evenly spaced along the case

1 /

2

" dia.

2" 2"

3 /

8

" dia.

Bottom Closure Removal/Replacement

Removal and replacement of the bottom closure panel requires two people.

Closure should be handled as shown in Step 5 below to prevent bowing of the closure during handling.

Before removing bottom closure, you must fi rst remove brackets at each end of case (see drawing at right).

Screw and washer

1 3 /

4

"

*Please Note: Optional wall brackets add 1¾" per bracket to case length. Wall mounting bracket hole location is 1" from end of case.

Wiring Diagrams


White (Common)

Black

Red

Green (Ground)

Step 1 Red

Black

Control switch


Min. 4" x 2 1

Black

/

8

" x 1 7 /

8

" deep

Step 2

Step 4

Step 3

Step 5


To 110-120V Line

NOTE: Test shade operation. If shade direction does not correspond with the switch orientation, turn power back off and switch the red and black wires from the motor to the switch.


(765) 987-7999

To other CGS Controllers

switched outlet (i.e

Blue— Nor

Red— Nor

Page 113 of 120

Page 114 of 120

Blue- Up

3-Conductor + Ground by Others

Multiple-Station Control (SS-3R) 1p3T

Blue- Up




Blue- Up

Supply

C 115 VA


Page 115 of 120

Page 116 of 120

To RS232 Port: Yellow = Rx (Receive data from control system) Green = Tx (Transmit data to control system) Red = Unused Black = Gnd (Signal Ground)

SC1, SGC4, SPGC4

Page 117 of 120

SolarFlex—Sun Tracking Automation

SolarFlex is a sun tracking automation software which takes your buildings fl oor plan and runs the shades accordingly. Shades will run up and down based on the sun’s intensity, azimuth, and light penetration needs. SolarFlex can work with other switching devices or alarm systems as well.

Benefi ts of SolarFlex are:

1. Maximum light and glare control

3. Daylighting Autonomy is maximized.

4. User records are kept

5. System can be manipulated or reprogrammed easily to account for changing exterior conditions.

6. Remote management of system is possible.

To install this system, one will need to dedicate a control closet to locate a PC with the software loaded on it. A small weather station will also need to exist on the roof. All controls on the job will need to be addressed and those addresses must be recorded for programming the SolarFlex.

The dedicated PC will be provided by Draper, and it will be programmed with the building fl oor plan. Floor plans must be provided to Draper.

The weather station on the roof will let the PC know if it is sunny or not. If it is not sunny then the shades will not deploy. If it is, then the PC using the GPS of the building, time, and date will know the position of the sun and run the shades.

The PC will need to reach out an obtain time in order to operate. If it does not then the time might get off and actions will not be correct.

This system is designed to give the user the most energy effi cient operation of their shades, but people will sometimes not want this type of operation. The system can have wall switches or other devices to override the sun sensors.

The system will recalibrate every few hours to correct any overrides, and the system can be set not to respond to override commands if desired.

The PC with the SolarFlex software must not be a work station PC. The shades can be run from the PC.

Solarfl ex is programming will require a lot of planning and coordination with Draper to ensure the system is correct.

Please contact Draper when planning to use this system so a series of steps for creating the system can be established for a job.

See other side for diagram.

®

Page 118 of 120

SolarFlex—Sun Tracking Automation—page 2

Below is a picture of what the PC will be showing.

www.draperinc.com

(765) 987-7999

Page 119 of 120

Contacting Draper

Telephone (U.S. and Canada)—800-989-0126

Fax—866-637-5611

Faxed/e-mailed purchase orders are processed directly. However, incomplete orders will be placed on hold until questions are answered. Draper will default to standards when applicable—see page 4. To ensure complete and accurate orders are received, please use Draper order forms.

Order forms are available online at www.draperinc.com/go/ShadeOrderForm.htm

Internet

Our Web site, www.draperinc.com, is a convenient, 24-hour source for product information.

Email addresses are available below and in the Contact Us section of our Web site.

Key Contacts

Region

CT, NH, ME, MA, RI, VT, Eastern Canada (NB, NF,

NS, PE, ON, QC)

NJ, NY, PA

DC, DE, KY, MD, VA, WV

Regional Manager

Eric Guffey, LEED® AP, CTS — ext. 300 [email protected]

Todd Garner, CSI — ext. 303 [email protected]

Stuart Milligan, CTS, LEED® AP — ext. 215 [email protected]

Shade Region

CT, NH, ME, MA, RI, VT, Eastern Canada (NB, NF,

NS, PE, ON, PQ)

NY

PA, NJ

DC, DE, MD

KY, VA, WV

Shade Sales

Specialist

Karen Reno — ext. 359 [email protected]

Karen Reno — ext. 359 [email protected]

Teri Boxell — ext. 524 [email protected]

Teri Boxell — ext. 524 [email protected]

Dan Turner — ext. 620 [email protected]

FL, GA, NC, SC

Matt Schultz, CSI, CDT, LEED® AP

770-562-4757 [email protected]

FL GA, NC, SC

Tracy Linville, CTS — ext. 519 [email protected]

IL, IN, MI, OH, KY (Cincinnati area only)

TX

Art Tober, CSI, CDT


Chad Tabor, CTS — ext. 255 [email protected]

MI, OH, KY (Cincinnati area only)

IN, IL

TX

Lana Mathews — ext. 239 [email protected]

Dan Turner — ext. 620 [email protected]

Lana Byrket — ext. 462 [email protected]

IA, MN, MT, NE, ND, SD, WI,

Central Canada (AB, MB, SK)

AZ, CA (Southern), NV (Southern), HI

AL, AR, LA, MS, MO, TN

AK, CA (Northern), NV (Northern), OR, WA, Western Canada (BC)

CO, ID, KS, NM, OK, UT, WY, Kansas City (MO)

Sales/Marketing Management

Chris Broome, CSI, LEED® AP ext.

205

Brian Kunz, LEED® AP, CTS — ext. 214 [email protected]

Kathy Greenway, CSI


Kylee Whistler, CTS — ext. 358 [email protected]

Vicki Long


Jeff Broome—ext. 270 [email protected]

E-mail address [email protected]

IA, MN, MT, NE, ND, SD, WI,

Central Canada (AB, MB, SK)

AZ, CA (Southern), NV (Southern), HI

AL, AR, LA, MS, MO, TN

AK, CA (Northern), NV (Northern), OR, WA,

Western Canada (BC)

Doug Ross — ext. 281 [email protected]




CO, ID, KS, NM, OK, UT, WY

Doug Ross — ext. 281 [email protected]

Kansas City (KS), Kansas City (MO)

Special Assistance

E

MAIL

A

DDRESS

Technical Support


N

AME

E

XT

.

Window Coverings Manager

Jeff Miller, LEED® AP 533 [email protected]

Green Buildings Specialist

Clint Childress, LEED® AP 450 [email protected]

Clint Childress, LEED® AP 450 [email protected]

Ryan Carmony 621 [email protected]

Customer Service

Manager

Beverly Ferguson

Returns

Amy Denney

Traffi c Support

206

293 [email protected]

[email protected]

®

Order Status

Customer Service Support

Carol McLemore 253 [email protected]

Page 120 of 120

Operating instructions | Draper SC1 Programming instructions

Draper Inc., Motorized Flexshade Handbook

Table of Contents

Introduction to Motorized Shades

How to Measure for Draper Shades

Inside Measure

Outside Measure

Installation Tips

Motor Testing

Shimming

Terms

Radio Motor Transmitters

Telis Transmitters

MECHANICAL SPECIFICATIONS

Overall Dimensions: L: 5¼ in. W: 15/8 in. D: 11/16 in.

Operating Temperature: 41 F to 104 F

Typical Range (Optimal Conditions): 65 ft.

ELECTRICAL SPECIFICATIONS

Power: 3V Lithium battery, Cr2430

Frequency: 433.42 Mhz

GENERAL OPERATING INSTRUCTIONS

20-Channel Transmitter

Remote Size

Dock Size-screws to wall

Range

DECORA RTS SWITCH

FRONT VIEW

SIDE VIEW

Select the

Channel

Programming

Button

DECORA RTS SWITCH

Mounting Instructions

INSTALLATION PROCEDURE

BATTERY LIFE

HOW TO REPLACE THE BATTERY

Radio Remote Control Motor Programming Instructions

Inteo Chronis RTS Timer

Quick Reference Guide

Inteo Light Sensor

Installation Guide

1 Installation

2 Programming

2.1 Automatic solar control unit with a Chronis L

2.2 Automatic solar control unit with a Chronis Comfort

2.3 Automatic dusk control unit with a Chronis L (not with Chronis RTS L)

2.4 Automatic dusk control unit with a Chronis Comfort (not with Chronis Comfort RTS)

2.5 Operating the automatic dusk control unit

RTS Dry Contact Interface

Operating Instructions

BatteryHolder

RED

BLACK

GREEN

WHITE

NOTE: Please consult RTS Motor Instructions for specifi c product details.

ProgrammingButton

®

DESCRIPTION

Universal RTS Interface II

The addressable Universal RTS Interface II (URTSI II) can be used to communicate between home automation or other third party systems and

RTS Motors and controls. It is capable of individual or group control, and can be operated via infrared remote, RS232 and RS485 serial communication. Once an input is activated, an RTS radio command is sent to the automated window treatment.

Part Number: 1810872

CONNECTION DIAGRAM

®

OPERATION

RS232 to RTS Interface with X10 Compatibility

Description

Operating Procedures

®

RTS Repeater

Description

Mechanical Specifi cations

®

Operating Procedures

Radio Motor Accessories

Battery motor accessory is:

Low Voltage motor accessories are: