Conrad Electronic FS20 SR Operating Instructions Manual

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Version 12/06

OPERATING INSTRUCTIONS



Wireless rain sensor „FS20 SR“

Item no. 62 30 18

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Introduction

Dear customer,

Thank you for purchasing this product.

This product meets the requirements of both current European and national guidelines.

In order to preserve this condition and ensure the safe operation of the product we kindly ask you to carefully follow these operating instructions!

Please read the operating instructions completely and observe the safety and operation notes before using the product!

Should you have any further questions, please contact our technical advisory service:

Germany: Tel. no.: +49 9604 / 40 88 80

Fax. no.: +49 9604 / 40 88 48

e-mail: tkb@conrad.de

Mon. to Thur. 8.00am to 4.30pm

Fri. 8.00am to 2.00pm



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Table of contents

Page

1. Prescribed use ............................................................................................................. 4

2. Scope of delivery ......................................................................................................... 5

3. Explanation of icons ................................................................................................... 5

4. Safety instructions ...................................................................................................... 6

5. System features ........................................................................................................... 7

a) Functions ................................................................................................................ 7

b) Factory setting ........................................................................................................ 8

6. Installation .................................................................................................................... 9

a) General information ................................................................................................ 9

b) Orientation of the rain sensor ................................................................................ 9

c) Opening the casing .............................................................................................. 10

d) Connections and controls .................................................................................... 10

e) Power supply ........................................................................................................ 11

f) Connecting the relay ............................................................................................ 12

g) Installation ............................................................................................................. 13

7. Initial operation .......................................................................................................... 14

a) Quick installation with factory settings ................................................................ 14

b) Function test ......................................................................................................... 14

8. The FS20 address system ........................................................................................ 15

9. Programming/operation ........................................................................................... 20

a) Integrating the ‘FS20 SR’ into the address system ............................................ 20

b) Setting the house code ........................................................................................ 21

c) Setting the addresses ........................................................................................... 22

d) Manual switching, address transmission ............................................................. 23

e) Activating/deactivating channels ......................................................................... 23

f) Setting the transmit command ............................................................................. 24

g) Setting the on-time ............................................................................................... 25

h) Setting the interval time ........................................................................................ 26

i) Restoring the rain sensor’s factory settings ........................................................ 27

j) Programming the receiver’s timer ........................................................................ 28

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Page

10. Information on the range .......................................................................................... 29

11. Handling ...................................................................................................................... 30

12. Cleaning ...................................................................................................................... 30

13. Disposal ...................................................................................................................... 31

14. Technical specifications .......................................................................................... 31

15. Declaration of conformity (DOC) ............................................................................. 31

1. Prescribed use

The sole purpose of the ‘FS20 SR’ wireless rain sensor is to remotely control the various components of the FS20 wireless control system.

It can remotely control these devices on 2 channels (adjustable settings).

In addition, the timers of the corresponding FS20 receivers can be programmed from the rain sensor.

Due to its form and functionality, it is suitable for use outdoors.

A DC or AC voltage of between 12-15V is required as a power supply (power consumption approx. 200mA).

Any use other than the one described above may damage the product and can also increase the risk of short-circuit, fire, electric shock, etc.

No part of the product may be modified or adapted and the casing must not be opened.

All the safety instructions and installation notes in this manual must be observed without fail.

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2. Scope of delivery

• Wireless rain sensor ‘FS20 SR’

• User manual

3. Explanation of icons

The icon with a lightning flash in a triangle is used to alert you to potential

personal injury hazards such as electric shock.

The icon with an exclamation mark in a triangle points to important instructions

in this user manual that must be observed.



The ‘hand’ symbol provides special information and advice on operating the

device.

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4. Safety instructions

The product’s guarantee becomes invalid, if the product is damaged as a result of the failure to observe these operating instructions! We do not assume any liability for any resulting damages!

Nor do we assume liability for damage to property or personal injury caused by improper use or failure to observe the safety instructions. In such cases the product’s guarantee becomes invalid.

Dear customer, the following safety instructions are intended to protect you as well as the device. Please take time to read through the following points:

• If you are not sure how to assemble, connect and install the device or if you have doubts about its mode of operation, contact a skilled technician.

• For safety and licensing (CE) reasons any unauthorised alterations to and/or modification of the product are not permitted.

• When its casing is properly closed, this product is suitable for use outdoors.

• This product is not a toy and should be kept out of the reach of children.

• Do not leave packaging material lying around. This may become a dangerous plaything in the hands of children.

• Handle the product with care; knocks, blows or even a fall from a low height can damage it.

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5. System features

The 2-channel wireless rain sensor ‘FS20 SR’ is a component of the FS20 wireless control system. It can control up to 2 radio receivers in this system with separately adjustable criteria. The high range of up to 100 m (free-field) allows the device to be used to transmit over long distances.

The system uses the 868 MHz band.

a) Functions

The rain sensor ‘FS20 SR’ has the following functions:

• Registers start of rain and transmits relevant switching commands as long as the rain lasts.

• Additional relay switching output (low-voltage switching relay with 1 x normally closed contact & 1 x normally open contact, max. 5A at max. 30V~ or 42V=)

• Integrated sensor heating for fast drying of the sensor surface and suppression of false positives due to, for instance, fog or other kinds of condensation.

• Wall or floor installation using universal installation bracket

• Integration in the code and addressing system of the FS20 wireless control system facilitates a clear boundary from adjacently running systems as well as, for instance, the control of several specific receivers

• Two switching channels with separately adjustable criteria

- Each channel may be activated/deactivated separately

- On-time adjustable between 0.25 seconds and 4.25 hours

- Selectable receiver switching pattern (transmit command)

- Transmission intervals of subsequent signals of the rain sensor

adjustable

- Receiver timer programming (1 second to 4.5 hours)

including slow-on/slow-off function for dimming

- Manual switching of the receiver using the control buttons on the ‘FS20 SR’

(for testing, for instance)

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b) Factory setting

The rain sensor ‘FS20 SR’ is immediately ready for use from the factory on channel 1 with the following settings:

• On-time of the receiver after rain starts:

1 minute, after which the load is switched off (transmit command)

• If more rain is registered during this minute, a new power-on command is transmitted every

24 seconds, thereby restarting the 1-minute on-time (interval time/transmission inter- val)

• Channel 2 is inactive (OFF)



The terms printed here in bold are the adjustment criteria for each channel, whose programming is described separately in the following user manual.

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FS20 SR

6. Installation

a) General information

• The device must be installed at a location where precipitation can fall directly onto the sensor surface (free path to the sky), for instance on a wall with no roof overhang or on a freestanding support.

• The rain sensor must be installed in such a way that it does not collect dirt (for instance by being too close to the ground). In order to be able to clean its surface easily, the sensor should be installed somewhere where it is accessible. At the same time, the rain sensor/ cable must be out of the reach of children and animals.

• Make sure that the rain sensor is not installed directly on or near large metal objects as this will reduce its wireless range.

b) Orientation of the rain sensor

The rain sensor is supplied with an installation bracket that allows for installation on horizontal as well as vertical surfaces.

The inscription ‘FS20 SR’ must always be on the underside and the cable bushing must always point to the right. See figure 1.

top

Sensor surface Sensor surface

Figure 1

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c) Opening the casing

Use a suitable screwdriver to loosen the four screws in the corners of the top side of the rain sensor.

Then carefully remove the cover of the casing.



The cables between the sensor and the circuit board are permanently wired.

d) Connections and controls

Figure 2

1 Holes for fastening onto the installation bracket.

2 Transmitter module

3 Keypad

4 LED

5 Plug jumpers

6 Relay contacts

7 Connection for operating voltage

TA1 TA2

TA3 TA4

JP2 JP1

ON OFF

1 2 3

12-15V ~/=

KL2

KL1

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e) Power supply

The rain sensor ‘FS20 SR’ requires a DC or AC voltage of 12-15V. The power consumption is approx. 200mA.

Ideally, use a transformer for the power supply that is suitable for outdoor use.

A conventional bell transformer or a power supply unit can even be used, however, these may only be connected and operated in dry indoor areas.

A waterproof cable with a maximum diameter of 5mm (for instance, two-core telephone cable) must be laid between the transformer/power supply and the rain sensor. Fix the cable with, for instance, cable clips or use suitable installation conduit.



If a power supply unit is used, the low-voltage plug must be removed and the

lead should be connected to the rain sensor.

Lay the cable in such way that it is impossible for water to run back to the power

supply or other components!

There is danger of a fatal electric shock!

Loosen the locking nut of the cable bushing and feed the cable through the locking nut/cable bushing.

Strip about 5mm of insulation from the individual wires. Connect both of the cables for the power supply (12-15V~ or 12-15V=) to the two screw terminals of ‘KL2’. Here, the polarity is irrelevant.



Make sure that the cables are not too long and are not installed near the

transmitter module. This could reduce the wireless range.

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f) Connecting the relay

Warning! Caution!

The voltages that are switched by the relay may not exceed 30V~ (AC) or 42V= (DC). The product is not suitable for switching line voltage (230V~/50Hz)!

Never switch higher voltages! Not only do you risk destroying the rain sensor, there is also the danger of a fatal electric shock!

The maximum load capacity of the relay is 5A.

Strip about 5mm of insulation from the cable and tightly screw it into the three ‘KL1’ screw terminals. The assignment of the relay contact can be found in figure 2 on page 10; it can also be found next to the screw terminals on the circuit board.



Make sure that the cables are not too long and are not installed near the transmitter module. This could reduce the wireless range.

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g) Installation



If the rain sensor is to be installed at a location that will be difficult to reach for programming, then make sure that you program it before installation.

The programmed settings and functions will be preserved even if the device is later disconnected from its power supply.

• Place the installation bracket in the desired installation location and, if necessary, mark the position for the bore holes.

Depending on the installation location, suitable holes should be drilled and appropriate dowels should be inserted before the installation bracket is screwed in.

Make sure not to damage any power supply lines, gas or water pipes –

this may cause life-threatening danger!

• Use four screws to mount the bracket at the installation location (see figure 1).

• Afterwards, the rain sensor can be mounted to the installation bracket.

The inscription ‘FS20 SR’ must always be on the underside and the cable bushing must always point to the right.

Screw both stainless steel screws into the mounting holes of the rain sensor’s casing (see figure 1 on page 9). Continue to screw them through the openings of the installation bracket. Place a spring washer onto each screw and then screw on the nuts. Use a pair of pliers or the right size (small) wrench to screw the nuts tight.

• Check that the seal sit correctly in the cover’s grooves.

• Place the cover with the sensor plate onto the rain sensor’s casing and screw it down using the four cover screws.

• Connect the power supply to the line voltage.

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7. Initial operation

a) Quick installation with factory settings

The rain sensor is immediately ready for operation with the factory settings described in section

5. Its transmission signals are encrypted using a house code that is randomly assigned when the power supply is connected and the address group 11 (control of several receivers with one transmitter is possible).

For the initial operation of the transmission path to the receiver, the house code and the addresses must now be transmitted to the receiver.

• Set the respective receiver, according to the instructions in its user manual, to the address programming mode.

• For channel 1 press button ‘2’ (for channel 2: button ‘4’) on the ‘FS20 SR’.

• The LED on the receiver goes out; the switching channel has been programmed.

• Test the switching function by briefly pressing the buttons on the rain sensor ‘FS20 SR’.

Press button ‘2’: Switch on channel 1

Press button ‘1’: Switch off channel 1

Press button ‘4’: Switch on channel 2

Press button ‘3’: Switch off channel 2



The rain sensor ‘FS20 SR’ is now ready for operation with the factory settings. If you do not want to make any further individual settings, you can now install the rain sensor. See section 6. g).

b) Function test

• Add some fluid to the sensor surface. This causes the rain sensor to transmit a power-on command; the relay is triggered at the same time.

• Test the function of the sensor heating – the sensor surface should feel slightly warm.

• After the fluid has evaporated, the relay drops off immediately. The consumer connected to the FS20 receiver is switched off after 1 minute.

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8. The FS20 address system

The radio transmission is secured by an extensive coding system to allow multiple FS20 components (which also includes the ‘FS20 SR’ rain sensor) to be operated in the same area.

The code consists of a ‘house code’ and an ‘address’. The house code serves to differentiate between multiple FS20 systems operating simultaneously. This means that your neighbour can use the same wireless control system and the two systems will not interfere with each other (provided that the house code has been programmed differently).

The house code consists of 8 base-four digits (1, 2, 3, 4) meaning that in total 4

(= 65536) different house codes are possible. This makes it extremely unlikely that your neighbour will use the same house code (assuming that you do not use ‘simple’ house codes).

The second part of the code is the so-called ‘address’. Every address is a four-digit number made up of the following 16 numbers: 11, 12, 13, 14, 21, 22, 23, 24, 31, 32, 33, 34, 41, 42, 43, 44

Example: Address 11 22

This means that there are a total of 256 different addresses (16x16 = 256). The addresses are divided into four address types (available number is in brackets):

• Single addresses (225)

• Function group addresses (15)

• Local master addresses (15)

• Global master address (1)

Each address consists of two parts. Part 1 is the ‘address group’, part 2 is the ‘subaddress’.

Example: Address 11 22 = address group ‘11’, subaddress ‘22’



The number ‘44’ has a special meaning. Please see the table on the next page.

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Address group Subaddress

Single address 44 44

Function group address 44 44

Local master address 44 44

Global master address 44 44

44 = This value must be set to ‘44’.

44 = This value must not be set to ‘44’.

Possible values are:

11, 12, 13, 14, 21, 22, 23, 24, 31, 32, 33, 34, 41, 42, 43

Every receiver can be assigned

one address from each of the four address types (single

address, function group address, local master address, global master address).

This means that each receiver can respond to up to four different addresses, but only ever to one address per address type.



If you need a receiver to respond to more than one transmitter, you can program the transmitters to the same address or, if different transmitter address types have been set, you can program the receiver consecutively to these different addresses.

The individual address types have the following function:

• Single addresses

Each receiver should be set to a single address so that it can be controlled separately.

• Function group addresses

Several receivers are defined as a functional unit by being assigned to a function group address. If, for example, all the lamps in a house are assigned to a function group, then all the lamps in the entire house can be switched on or off by pressing one button.

• Local master addresses

Several receivers are spatially defined as one unit and controlled via the local master address. If, for example, all the receivers in a room are each allocated to a local master address, then all you need to do is press one button when leaving the room to switch off all the consumer loads in the room.

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• Global master address

Several receivers are assigned to the global master address and are jointly controlled via this address. All the consumer loads can easily be switched off simply by pressing one single button when leaving a house, for example.

The figure below illustrates a possible configuration of different FS20 components in a house:

1111 1144 4411 4444

1122 1144 4444

1131 1144 4444

1211

1212 4411 4444

1311 4411 4444

1411 4411 4444

1412 4444

Global

master address

4444

Local

master address,

e.g. 1144

House code, e.g.

1234 1234

Function group 44xx,

e.g. 4411 ceiling lamps

Figure 3: Example of an address assignment

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A different address group has been assigned to each room:

• Room A: 11

• Room B: 12 An awning is also allocated to room B.

• Room C: 13

• Room D: 14

When you require a large, extended system, it is advisable to select addresses systematically so that you have an overview of the addresses that have already been assigned and so that you can jointly control the programmed receivers simply and logically in groups.



If you plan to use a number of different FS20 components, draw a diagram of the rooms and make a note of the location of the devices to be controlled and their addresses in the diagram.

In the example, each room has been assigned its own address group (room A: 11, room B: 12, room C: 13, room D: 14). The awning is also allocated to room B with address group 12.



15 address groups are possible:

11, 12, 13, 14, 21, 22, 23, 24, 31, 32, 33, 34, 41, 42, 43

This value must not be set to ‘44’.

In order to be able to separately control each receiver, you need to program each one to a single address. In addition to the address group that is already selected (room A: 11, room B: 12, room C: 13, room D: 14), a subaddress is also needed.



The following 15 subaddresses are possible for each address group:

11, 12, 13, 14, 21, 22, 23, 24, 31, 32, 33, 34, 41, 42, 43

This value must not be set to ‘44’.

In the example the awning is programmed to the single address 1211, which is comprised of the address group 12 and the subaddress 11.

All the receivers in room A have also been programmed to a local master address (1144 in the example).



For the local master address 44 must always be used as the subaddress. The address group can be set to 11, 12, 13, 14, 21, 22, 23, 24, 31, 32, 33, 34, 41, 42, or 43.

Example: 1144, address group 11, subaddress 44

All the lamps in the house can be controlled via the global master address 4444.

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The awning was deliberately not programmed to this address and can therefore only be addressed via its single address (1211). It must be operated separately in this example.

The ceiling lamps in all the rooms are also combined in a function group (4411 in the example, address group 44, subaddress 11) and can therefore be jointly controlled.



For a function group 44 must always be used as the address group. The

subaddress can be set to 11, 12, 13, 14, 21, 22, 23, 24, 31, 32, 33, 34, 41, 42, or 43.

Example: 4411, address group 44, subaddress 11

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9. Programming/operation

a) Integrating the ‘FS20 SR’ into the address system



Please note:

In the delivery state the components of the FS20 wireless control system do not respond to remote control commands. They must first be addressed by the transmitter according to the instructions provided in the respective switching device’s user manual.

Only then is it possible to control the device with the transmitter.

All the settings including the addresses, coding and timer programming can be programmed using the four buttons and the two plug jumpers on the circuit board inside the ‘FS20 SR’ rain sensor.



Once the rain sensor has been programmed it functions fully independently and does not require any further operation whatsoever.

The ‘FS20 SR’ rain sensor is part of the FS20 wireless control system. For that reason it is of course possible to integrate it into the that code and addressing system, in case you wish to operate various devices of the FS20 wireless control system parallel.

During the initial operation of the ‘FS20 SR’ rain sensor, a random house code and the standard address assignment for the channels are automatically configured.



It is only necessary to change these automatically generated settings, if you wish to operate more than one device from the FS20 wireless control system. You can change or adjust the house code and addressing whenever you want.

The house code, an address group and a subaddress are used for coding the transmitters and their individual buttons. You can also use special address group assignments to program the ‘FS20 SR’ as a local or global master.



For more information on this, see section 8.

Only the digits 1 to 4 are used for entering the eight-digit house code, the two-digit address group and the two-digit subaddress. These are assigned to the four buttons (see figure 2).

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b) Setting the house code

A randomly selected house code is set when the operating voltage is first connected. If required, this house code can be changed as follows:

• Keep the buttons ‘

’ and ‘p’ on the rain sensor pressed for 5 seconds until the LED slowly begins to blink (about once every second).

• Now use the ‘

’, ‘o’, ‘p’ and ‘q’ buttons

to enter your system’s eight-digit house code.

This must be identical for all the remote control transmitters in the FS20 wireless control system (as a precaution, make a note of this code and keep it safe).

Example: 23141342

1 = Button ‘

’

2 = Button ‘

’

3 = Button ‘

’

4 = Button ‘

’

• The programming mode ends automatically once you have entered the eighth digit. The LED goes out.

Press for five seconds

LED blinks

Enter 8-digit house code

LED goes out



The house code is valid for both channels of the ‘FS20 SR’ rain sensor.

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c) Setting the addresses

The address of a channel (for instance, ‘1431’) consists off a two-digit address group (for instance, ‘14’) and a two-digit subaddress (for instance, ‘31’).

The following address combinations (address group/subaddress) are factory set for the two channels of the rain sensor:

Channel 1:Buttons ‘

’ and ‘o’, address 11 11

Channel 2:Buttons ‘

’ and ‘q’, address 11 12

If several transmitters are to be operated at the same time and control different receivers, then different addresses need to be set on the transmitters.

To set an address (address group/subaddress), proceed as follows:

• Keep the button combination of the desired channel pressed for approx. 5 seconds until the LED starts to blink.

Channel 1: Buttons ‘

’ and ‘o’

Channel 2: Buttons ‘

’ and ‘q’

• Now enter a two-digit address group and a two-digit subaddress using the ‘

’, ‘o’, ‘p’

and ‘q’ buttons.

Example: 1431 Address group 14

Subaddress 31

• The programming mode ends automatically once you have entered the fourth digit. The LED goes out.

Channel 1

Channel 2

Press for 5 seconds

LED blinks

Enter 4-digit address

LED goes out



When selecting addresses make sure that you read the information provided in section 8, starting on page 15, as both the address group 44 and the subaddress 44 have a special meaning.

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c) Manual switching, address transmission

To test the radio connection or transmit the transmitter addresses to the receiver, you can manually switch the rain sensor. For this purpose four small buttons are located inside on the circuit board.

• Briefly pressing the respective button switches channel 1 or 2 on or off.

Button ‘n’: Channel 1 off

Button ‘

’: Channel 1 on

Button ‘

’ Channel 2 off

Button ‘

’ Channel 2 on

• The LED lights up briefly with every press of a button as feedback.

Channel 1: 1: Off, 2: On

Channel 2: 3: Off, 4: On

LED lights up briefly with every press of a button

e) Activating/deactivating channels

Two plug jumpers are located on the ‘FS20 SR’ rain sensor’s circuit board. They can be used to activate or deactivate each of the channels ( if you only wish to use channel 1, for instance.)



Pay attention to the inscription next to the plug jumpers.

TA1 TA2

TA3 TA4

JP2 JP1

ON OFF

1 2 3

12-15V ~/=

KL2

KL1

ON OFF

1 2 3

ON OFF

1 2 3

Channel activated

Channel deactivated

Figure 4

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f) Setting the transmit command

The ‘transmit command’ is the radio command that is sent to the FS20 receiver when the rain sensor is tripped. This can trigger various reactions from the receiver.

• For channel 1 keep button ‘

’ on the rain sensor pressed for 5 seconds (channel 2: button ‘p’)

• The LED starts to blink slowly (about once every second).

• Now enter the desired transmit command (2digit number). See the table below. The factory setting is ‘34’.

• The programming mode ends automatically once you have entered the two digits. The LED goes out.

Channel 1 Channel 2

Press for 5 seconds

LED blinks

Enter transmit command

LED goes out

Digit combina- Transmit command tion to enter

11 On (at former brightness) 12 Off 13 On (12.5% brightness) 14 On (25.0% brightness) 21 On (37.5% brightness) 22 On (50.0% brightness) 23 On (62.5% brightness) 24 On (75.0% brightness) 31 On (87.5% brightness) 32 On (100% brightness) 33 Off for the on-time 34 On (at former brightness) for the on-time, then Off 41 On (at 100% brightness) for the on-time, then Off 42 On (at former brightness) for the on-time, then former status

(command not supported by all receivers)

43 On (at 100% brightness) for the on-time, then former status

(command not supported by all receivers)

44 On (at former brightness)

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e) Setting the on-time

The ‘on-time’ is the length of time for which the controlled FS20 receiver component remains switched on. The time can be adjusted from 0.25 seconds to 255 minutes (4h 15min). A continuous setting is also available.

• For channel 1 keep button ‘

’ on the rain sensor pressed for 5 seconds (channel 2: button ‘q’).

• The LED starts to blink slowly (about once every second).

• Now use the ‘

’, ‘o’, ‘p’ and ‘q’ buttons to enter the desired four-digit on-time. See the table below.

• The programming mode ends automatically once you have entered the fourth digit. The LED goes out.

3 4

Channel 1 Channel 2

Press for 5 seconds

LED blinks

Enter on-time

LED goes out

Example: 4421 = 15 x 4 seconds = 60 seconds

Digit combination Numerical value Multiplier to enter (1st and 2nd digit) (3rd and 4th digit)

11 Continuous 0.25 seconds 12 1 0.5 seconds 13 2 1 second 14 3 2 seconds 21 4 4 seconds 22 5 8 seconds 23 6 16 seconds 24 7 32 seconds 31 8 64 seconds = 1.07 minutes 32 9 128 seconds = 2.13 minutes 33 10 256 seconds = 4.27 minutes 34 11 512 seconds = 8.53 minutes 41 12 1024 seconds = 17.07 minutes 42 13 1024 seconds = 17.07 minutes 43 14 1024 seconds = 17.07 minutes 44 15 1024 seconds = 17.07 minutes

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h) Setting the interval time

The ‘interval time’ is the minimum length of time that must pass after the rain sensor has issued its last transmit command and before it is allowed to transmit another transmit command when it detects rain.

There are four time-settings available for the interval time: 8, 24, 56 and 120 seconds.

• Depending on the desired channel, keep the respective button combination pressed for approx. 5 seconds until the LED starts to blink.

Channel 1:Buttons ‘n’ and ‘q’

Channel 2:Buttons ‘

’ and ‘p’

• Now select the desired interval time by pressing one of the buttons ‘

’, ‘o’, ‘p’ or ‘q’.

See the table below.

• Afterwards, the programming mode ends automatically. The LED goes out.

Channel 1

Channel 2

Press for 5 seconds

LED blinks

Select interval time

LED goes out

Pressed button Selected transmission interval

8 seconds

24 seconds

56 seconds

120 seconds



Please note:

The interval time should always be shorter than the on-time (see page 25), in order to prevent a down time in which the remote-controlled consumer load cannot be switched on.

The factory setting is 24 seconds.

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i) Restoring the rain sensor’s factory settings

If you wish to reset the rain sensor to its factory settings (as it was delivered), proceed as follows:

• Keep the buttons ‘

’ and ‘q’ on the rain

sensor simultaneously pressed for 5 seconds.

• The LED starts to blink slowly (about once every second).

• Briefly press any button (‘n’, ‘o’, ‘p’ or ‘q’). Afterwards, the factory settings are restored and all of your individual settings are deleted.

• The programming mode ends automatically. The LED goes out.

Press for 5 seconds

LED blinks

Press any button

LED goes out

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j) Programming the receiver’s timer

If the receiver that is controlled by the ‘FS20 SR’ rain sensor will also be operated by other transmitters (for example, a hand-held remote control from the FS20 wireless control system) using the internal timer, then the receiver’s internal timer should be programmed as follows:

Briefly press its respective button combination (channel 1: buttons ‘

’ and ‘o’, channel 2:

buttons ‘p’ and ‘q’) for fewer than 5 seconds.

This procedure is used to start, as well as to end, the timer setting measurement. The LED on the receiver blinks during the time measurement.



For information on how to program the timer, see the instructions in the receiver’s user manual.

The on-time (see section 9. g) has priority over the internal timer setting of the receiver, if a transmit command (see section 9. f) is set between ‘33’ and ‘43’.



To use the receiver’s internal timer time with the rain sensor, select a transmit command between 11 and 32 (see section 9. f).

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10. Information on the range

Ranges and interference

• The FS20 wireless control system works in the 868MHz range, which is also used by other radio services. Therefore devices that operate on the same or neighbouring frequencies may restrict both its operation and its range.

• The specified range of up to 100m is the so-called free-field range, which means the range within visual contact between the transmitter and receiver. In practice, however, walls, ceilings, etc. between the transmitter and the receiver may affect and reduce the range.

Other causes of reduced ranges:

• All types of high-frequency interference

• Any buildings or vegetation

• Conductive metal parts that are located near the devices or within or near their transmission path, for example, radiators, metallised insulation glass windows, reinforced concrete ceilings, etc.

• Influence on the radiation pattern of antennas due to the distance from the transmitter or receiver to conductive surfaces or objects (also to human bodies or the ground)

• Broadband interference in urban areas that reduces the signal-to-noise ratio; the signal is no longer recognised due to this ‘noise’

• Interference radiation resulting from insufficiently shielded electronic devices, for example, operating computers or similar

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11. Handling

Take note of all the safety instructions in this user manual.

Due to the way it is constructed, the rain sensor can be used outdoors provided that its casing and cable bushing are fully and correctly closed.

The product must be assembled properly and professionally.

Normally the rain sensor is installed only once and remains fixed at the installation location. Depending on the installation location, check occasionally that the product is in perfect condition.

12. Cleaning

Clean the sensor surface on the top side of the rain sensor every 3 to 6 months as, during this time and depending on the installation location, particles of dust or dirt may have collected there. These may prevent switching commands from triggering properly when precipitation occurs.

Use a soft, clean cloth. For more resistant dirt, you can moisten the cloth slightly with lukewarm water.



This will, of course, trigger a switching command.

Do not use solvent-based cleaning agents, as these may damage the sensor. The plastic casing and inscription will also be damaged.

The contacts on the surface of the sensor should sometimes be freed from all traces of oxidation using a very fine polishing paste. A polishing paste used for plastic displays (for instance, cell phones) is perfectly suitable.

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13. Disposal

When the product is no longer usable, dispose of it in accordance with the applicable statutory regulations.

14. Technical specifications

• Range ..................................................... up to 100m (in free-field)

• Radio frequency: ................................... 868.35MHz

• Power supply: ........................................ 12-15V~/=(AC or DC voltage)

• Integrated heating for the sensor surface

14. Declaration of conformity (DOC)

We, Conrad Electronic, Klaus-Conrad-Straße 1, D-92240 Hirschau (Germany), hereby declare that this product complies with the fundamental requirements and other relevant regulations of directive 1999/5/EG.



You can find the declaration of conformity for this product at www.conrad.com.



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CONRAD IM INTERNET http://www.conrad.com

http://www.conrad.com

Imprint

These operating instructions are published by Conrad Electronic SE, Klaus-Conrad-Str. 1, D-92240 Hirschau/Germany.

No reproduction (including translation) is permitted in whole or part e.g. photocopy, microfilming or storage in electronic data processing equipment, without the express written consent of the publisher.

The operating instructions reflect the current technical specifications at time of print.We reserve the right to change the technical or physical specifications.

100% recycling paper.

Bleached without chlorine.