Toro Weather Radio 53770 User Manual

Wireless RainSensor™  
Model 53770  
User’s Guide  
Contents  
Page  
Component Overview . . . . . . . . . . . . . . . .2  
Quick Start Installation Instructions . . . . . .3  
Detailed Installation Instructions . . . . . . . .4  
• Mounting the Receiver . . . . . . . . . . . . .4  
• Receiver Control Wire Connection . . .4-5  
• Receiver Power Wire Connection . . . . .6  
• Initial Receiver Testing . . . . . . . . . . . . .7  
• Rainfall Adjustment . . . . . . . . . . . . . . .7  
• Sensor/Transmitter Installation . . . . . .7  
Testing Signal Strength . . . . . . . . . . . .7  
Testing Control System Operation . . . .7  
• Installing the Sensor/Transmitter . . . . .8  
Wireless RainSensor Operation . . . . . . . .9  
• Normal Operation . . . . . . . . . . . . . . . . .9  
• Smart Bypass . . . . . . . . . . . . . . . . . . .9  
• Power Down . . . . . . . . . . . . . . . . . . . .9  
• Receiver Learn Mode . . . . . . . . . . . . . .9  
• Attention Required . . . . . . . . . . . . . . . .9  
Battery Replacement . . . . . . . . . . . . . . .10  
Changing Sensor/Transmitter Code . . . .10  
Troubleshooting . . . . . . . . . . . . . . . . .10-11  
Electromagnetic Compatibility . . . . . . . . .11  
Specifications . . . . . . . . . . . . . . . . . . . . .12  
Warranty . . . . . . . . . . . . . . . . . . . . . . . .12  
Sensor/Transmitter  
Receiver  
Introduction  
The Toro Wireless RainSensor connects to your irrigation system controller/timer to  
suspend automatic watering operation in the event of rain. Designed for ease of  
installation, your sensor-controlled irrigation system will be up and running in minutes.  
Before attempting the installation, please read through these instructions in their  
entirety, and refer the installation instructions for your irrigation system controller/timer  
in regards to connecting a rain sensor or rain switch. The Wireless RainSensor is  
designed to work with either Normally Open or Normally Closed sensor circuits.  
Important: Please note the following information regarding installation and use  
of the Wireless RainSensor components:  
The RainSensor Receiver is designed to operate with 24 V ac power only.  
Connecting the Receiver wiring to 120/240 V ac power may result in severe  
equipment damage.  
Installation methods must comply with all applicable national and local building  
codes. If you are unsure about proper wiring practices, have a qualified contrac-  
tor perform the installation for you.  
The Receiver cover should always be used when the Receiver is installed out-  
doors.  
The Sensor/Transmitter should never be submerged in water or installed inside a  
rain gutter.  
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Quick Start Installation Instructions  
The following instructions are provided for the experienced installer. If you are  
installing a Toro Wireless Rainsensor for the first time, use the Detailed Installation  
Instructions starting on page 4.  
1. Disconnect power to the irrigation system controller.  
2. Always mount the Receiver FIRST, adjacent to the controller with either the provided  
stainless steel screws or double-sided foam tape.  
3. Refer to Figure 3. Attach White and Brown (or Yellow*) control wires to the con-  
trollers Sensor terminals in any order OR, to break the valve common:  
a. Disconnect valve common wire and common pump/master valve wire (if present).  
b. Attach White wire to common wire(s) with a wire connector.  
c. Attach Brown wire to common terminal on controller (Yellow wire is not used in  
this connection).  
Red  
Figure 3  
To 24 V ac  
Red  
To 24 V ac  
White  
To Sensor Terminal or to Break Valve Common  
To Sensor Terminal (Normally Closed)  
or to Break Valve Common  
Brown  
To Sensor Terminal (Normally Open)  
(For Normally Open sensor, see Detailed Instructions)  
Yellow*  
4. Connect the Red wires to the controllers 24 V ac power source terminals.  
5. Straighten the Receiver antenna wire upward and the Sensor/Transmitter antenna  
wire downward.  
6. While holding the Sensor/Transmitter at close range to the Receiver, press and  
hold the Test Spindle to test the wiring. The Power, Signal and Sensor Status indi-  
cators should be ON.  
7. Adjust the Rainfall Adjustment Cap to the desired rainfall activation amount.  
8. Mount the Sensor/Transmitter in an unobstructed location away from sprinklers.  
See Figures 4 and 5.  
Important: Reconfirm proper operation of the Wireless RainSensor at the  
final mounting location.  
Figure 4  
Press and hold  
down to test  
Figure 5  
Do not over-tighten  
thumbscrew  
Extend Antenna  
straight down  
Extended Antenna  
straight down  
Stainless  
Steel  
Screws  
Rain gutter (cross section view)  
3
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Detailed Installation Instructions  
There are two main components of the Wireless RainSensor: the Receiver and  
the Sensor/Transmitter. The Receiver is installed adjacent to the irrigation system  
controller. The Sensor/Transmitter is installed outdoors where it is exposed to  
unobstructed rainfall.  
Mounting the Receiver  
1. Mount the Receiver FIRST, adjacent to the controller with either the provided stain-  
less steel screws or double-sided foam tape. The connection wire cable is 20"  
long, so before attaching the Receiver, make sure the wires will easily reach the  
controllers connection terminals.  
Wiring the Receiver  
There are two parts involved in wiring the Receiver:  
Part 1: Attach the Receiver control wires.  
Part 2: Attach the low-voltage power wires to supply 24 V ac to the Receiver.  
Part 1 - Control Wire Connection  
The Receiver control wires are used to interrupt the common wire of the valves or they  
can be connected directly to the sensor input terminals of the controller (if provided).  
1. Disconnect power to the controller.  
2. Follow applicable wiring procedure A or B or C.  
Note: The following diagrams are representations only and do not depict actual con-  
troller layouts. Refer to the installation instructions provided with your controller for  
specific wire connection information.  
Controllers with sensor inputs , with or without pump start /master valve:  
A
Irrigation System Controller  
PUMP/  
MV  
SENSOR  
24 VAC  
3
4
1
2
COM  
To Valves  
Brown  
*
White  
Common Wire From Valves  
Yellow*  
Note: Use the Yellow wire in place of the Brown wire if the controller requires a  
*
Normally Open sensor. For example, the Toro ECxTM and GreenKeeper® controllers.  
Locate the controller sensor terminals (generally marked SENSOR, SENor S)  
and directly connect the White and Brown* wires to these terminals in any order.  
There may be a jumper wire or tab connecting the terminals that must be removed  
and/or a sensor control or bypass switch that must be activated.  
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4
Controllers with no sensor inputs and no pump start or master valve:  
B
Irrigation System Controller  
PUMP/  
MV  
24 VAC  
3
4
1
2
COM  
To Valves  
Brown  
White  
Common Wire From Valves  
Wire Connector  
Yellow- Not Used  
Remove the valve common wire from the valve common terminal (generally marked  
C, COM, or VC). Join this wire to the White wire using a wire connector. Attach  
the Brown wire to the valve common terminal.  
Note: The yellow wire is not used in this application.  
Controllers with pump start or master valve and no sensor inputs:  
C
Irrigation System Controller  
PUMP/  
MV  
24 VAC  
3
4
1
2
COM  
To Valves  
Brown  
Pump Start  
Relay/Master  
Valve  
Yellow - Not Used  
White  
Wire Connector  
Common Wire From Valves  
Remove all common control wires from the valve common terminal(s) of the controller  
(generally marked C, COM, or VC). Join these wires to the White wire using a wire  
connector. (Be sure to include the common wire from the pump start relay or master  
valve in this connection). Attach the Brown wire to the valve common terminal.  
Note: The yellow wire is not used in this application.  
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5
Part 2 - Power Wire Connection  
Note: The Receiver requires 24 V ac to operate. It should only be connected to an  
irrigation controller that uses a 24 V ac UL listed Class 2 transformer to supply power.  
Caution: Do not connect the Receiver directly to 120/240 V ac power as  
this may result in irreversible damage. If you are in doubt, contact a quali-  
fied installer or electrician.  
1. Disconnect power to the controller.  
2. Follow applicable wiring procedure A or B.  
Controllers with 24 V ac connection terminals.  
A
Irrigation System Controller  
PUMP/  
MV  
SENSOR  
24 VAC  
1
2
3
4
COM  
Red  
Red  
Terminals for 24 V ac power are present on the majority of controllers. Typical mark-  
ings are 24 VAC, 24 and 24, 0 and 24and Hot Post and 24.Verify correct volt-  
age, then simply attach the two Red power wires to these terminals leaving existing  
connections in place.  
Controllers with no 24 V ac connection terminals.  
B
24 V ac UL listed Class 2 Transformer  
Irrigation System Controller  
PUMP/  
1
2
3
4
MV  
COM  
Red  
Red  
On controllers with no 24 V ac terminals, connect the two Red power wires to the  
transformers secondary 24 V ac power wires where they attach to the controllers  
circuit board.  
Note: This procedure will require a solder or wire-splice connection. If you are unsure  
how to do this correctly, contact a qualified contractor or electrician for assistance.  
6
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Initial Receiver Testing  
Reconnect power to the controller and verify the Receivers Power Indicator is illumi-  
nated. Hold the Sensor/Transmitter at close range to the Receiver, then lightly press  
and hold the Test Spindle. The Sensor Status Indicator should illuminate and remain  
on until the Test Spindle is released. The Signal Indicator should also illuminate during  
the test to verify good signal strength. If either indicator does not illuminate, recheck  
your wiring. Verify that both antennas are fully extended and straight.  
Rainfall Adjustment (Figure 6)  
Figure 6  
Prior to installing the Sensor/Transmitter,  
check the current setting on the Rainfall  
Adjustment Cap. The RainSensor can be  
adjusted to detect average rainfall amounts  
of 1/8", 1/4", 1/2", 3/4" or 1" before sus-  
pending watering.  
1/8"  
1/2"  
1"  
1/4"  
3/4"  
To adjust, turn the cap from the current set-  
ting and engage the stationary pins with the  
desired slot position. Be sure to align the  
slot and pin properly as this adjustment  
does not require excessive force.  
Note: Avoid using the 1/8" setting in high-humidity conditions.  
Sensor/Transmitter Installation  
Select an installation site for the Sensor/Transmitter as close to the Receiver as possi-  
ble to avoid interference of the wireless signal. The Sensor/Transmitter must be  
installed where it has unobstructed exposure to rainfall and the sunlight conditions are  
similar to those of the landscape being watered. Make sure the RainSensor will not be  
in contact with spray from the sprinklers or runoff from the roof.  
Testing Signal Strength at the Installation Site  
Before installing the Sensor/Transmitter, test the signal strength again from the select-  
ed installation site. The Receivers Signal Indicator verifies the strength of the last  
valid received signal. To clear the Signal Indicator from the previous test, simply press  
the Smart Bypass button once, then once again to exit the bypass mode.  
Test the Sensor/Transmitter as described in Initial Receiver Testingabove. A steady  
Signal light indicates a good signal. A flashing indicator light indicates a fair signal. If  
the indicator does not illuminate, the Sensor/Transmitter is not providing a valid signal  
for operation. Refer to Solving Reception Problemson page 10 before continuing.  
Testing Control System Operation  
To test the Wireless RainSensor operation with the irrigation system controller, acti-  
vate a watering zone which is visible from the Sensor/Transmitter location.  
Note: The manual activation cycle of some controllers bypasses the sensor inputs. If  
the Receiver is connected to the controllers sensor inputs, you will need to run an  
automatic/timed watering program for these types of controllers.  
With the sprinklers on, manually activate the Sensor/Transmitter by pressing and hold-  
ing the Test Spindle. The sprinklers should shut off within a short time. If they do not  
shut off, recheck the Receiver wiring connections at the controller. If the controller has  
a sensor control or bypass switch, make sure the switch is set to the position that will  
enable the sensor circuit to be active.  
7
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Installation Procedure  
The Sensor/Transmitter should be mounted vertically with the antenna wire extending  
straight down. Avoid installations where the antenna wire would contact any metal  
object.  
Figure 7  
Thumbscrew  
Antenna wire  
extended  
straight down  
Rain gutter  
(cross section view)  
A rain gutter is an ideal location for the Sensor/Transmitter. Simply position the bracket  
with the thumbscrew under the gutter lip and tighten to secure (do not over-tighten).  
See Figure 7.  
Figure 8  
Antenna wire extended  
straight down  
Stainless  
Steel  
Screws  
The Sensor/Transmitter can also be mounted on any suitable solid structure such as  
the side of the roof, a shed or fence using the two supplied stainless steel screws.  
See Figure 8.  
Once securely fastened, adjust the Sensor/Transmitter on the mounting bracket as  
needed to align the Sensor/Transmitter housing vertically.  
8
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RainSensor Operation  
Normal Operation  
When the RainSensor activates due to sufficient rainfall, the Sensor Status Indicator  
will remain illuminated on the Receiver and the sprinkler system will remain inactive  
until the moisture-absorbent discs inside the Sensor/Transmitter have dried out. The  
rate at which the discs dry out will vary dependent on ambient conditions such as  
temperature, sun exposure, humidity and windthe same conditions your soil experi-  
ences. This allows the Wireless RainSensor to reset when watering is needed again,  
enabling the sprinkler system to resume normal operation.  
Smart Bypass  
Your Wireless RainSensor can be temporarily deactivated by using the built-in Smart  
Bypass button. Simply press this button once to bypass current RainSensor control.  
The Sensor Status light will blink until the next time the Sensor/Transmitter dries out  
and automatically resets. Pressing the Smart Bypass button again resumes the  
RainSensor control. Pressing the Smart Bypass button while the RainSensor control is  
not active (dry) will cause the Receiver to ignore the next Sensor/Transmitter signal.  
Power Down  
To turn the Receiver OFF entirely, press and hold the Smart Bypass button until the  
Sensor Status Indicator begins blinking rapidly (57 seconds). Release the Smart  
Bypass button and confirm the Power Indicator goes out and flashes periodically.  
Simply press the Smart Bypass button once to turn the Receiver back on.  
Receiver Learn Mode  
If it becomes necessary to set the Receivers address code to that of a new  
Sensor/Transmitter, press and hold the Smart Bypass button until the Status and  
Signal indicators blink in unison (10+ seconds). Activate the corresponding  
Sensor/Transmitter at close range (by pressing down on the Test Spindle) to change  
the existing Receiver code to that of the new Sensor/Transmitter. The indicators will  
stop blinking upon learning the new code. Pressing the Smart Bypass button again  
will exit the learn mode if no valid code is received.  
Attention Required  
When the Power Indicator blinks, it indicates that either of the following conditions  
exists:  
The Sensor/Transmitters battery is getting low and should be replaced when con-  
venient. The Wireless RainSensor will function properly for some time after this indi-  
cator is present. Refer to Sensor/Transmitter Battery Replacementon page 10.  
If the batteries are good, a problem with communication is indicated. Relocating the  
Sensor/Transmitter may be necessary to provide a better signal. Refer to Solving  
Reception Problemson page 10.  
9
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Sensor/Transmitter Battery Replacement  
1. Remove the bottom housing cover of the  
Figure 9  
Sensor/Transmitter by gently pressing in and  
down on the lower opposing tabs using a small  
flat-blade screwdriver, then carefully slide the  
circuit board out. See Figure 9.  
2. Remove the battery cover and batteries.  
Replace using two 3V CR2032 (or equivalent)  
batteries. Install with positive (+) side of the  
batteries facing up.  
Note: Properly dispose of used batteries per  
the battery manufacturers recommendations.  
3. Reassemble the unit in reverse order.  
Changing the Sensor/Transmitter Code  
The transmission code of Wireless RainSensor  
system is identified by stickers located on the  
Sensor/Transmitter and Receiver. Although, in  
most cases, even if two identical units are  
installed, unwanted activations would only occur if  
the two Sensor/Transmitters were set for different  
rainfall amounts. However, the code may be man-  
ually changed as follows:  
Battery  
Cover  
CR2032  
Batteries  
1. Remove the bottom cover of the  
Transmitter  
Code Wire  
Loops  
Sensor/Transmitter by gently pressing in and  
down on the the lower opposing tabs using a  
small flat-blade screwdriver, then carefully slide  
the circuit board out. See Figure 9.  
2. Identify the code wire loops (small black wire  
and white wire loops) and cut one or both loops using end-cutting pliers.  
3. Reassemble the Sensor/Transmitter and follow the procedures provided in  
Receiver Learn Modeon page 9.  
Troubleshooting  
Signal Indicator (Installation ValidationTM)  
The Signal Indicator provides instant signal strength feedback for the installer. The  
indicator always shows the strength of the last signal received. In order to clear this  
signal, simply press the Smart Bypass button once; pressing the button again will exit  
the bypass mode.  
Solving Reception Problems  
The Wireless RainSensor operates under Part 15 of the FCC rules. This means that it  
has to comply with certain standards and is only allowed to transmit up to a certain power  
level. In rating transmitters of any form, typically a line-of-site value is used in order to  
show the relative effectiveness of a transmitter and allow a transmitter and receiver to be  
compared to one another using a fair method. The Wireless RainSensor operates up to  
300' line-of-site. This means that in an open field, with no obstructions, the  
Sensor/Transmitter and Receiver pair will successfully communicate up to 300' apart.  
However, in almost all installations, there are obstacles between the Sensor/Transmitter  
and Receiver such as walls, floors, etc.  
10  
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The obstacles will all affect the transmitted signal and typically reduce the radiated  
power that will be read by the Receiver. Different objects such as walls and floors  
affect the transmitted signal differently depending on the material composition, geom-  
etry and thickness. Typically, most residential and light commercial construction mate-  
rials do not reduce the effective transmitted signal enough to pose problems under  
normal installation conditions. However, there are some installations with very thick,  
dense walls, or that involve large amounts of radio frequency interference (electrical  
switching rooms etc.) where the effective range of the Wireless RainSensor may be  
greatly reduced.  
Some helpful tips on mounting the Sensor/Transmitter and Receiver for the best  
Radio Frequency (RF) performance:  
Always try to keep the antennas straight and fully extended (straight up on the  
Receiver and straight down on the Sensor/Transmitter).  
Try to maintain a parallel orientation of one antenna to the other. Avoid installing  
either unit where the antennas are in close proximity to large metal objects.  
Attempt to mount the units as close together as possible to reduce the potential for  
interference or signal reduction. If the signal strength is not good in one location, try  
another location - even as little as a few feet of movement can change from a weak  
spot to a strong spot. Interior locations where cell phones or cordless phones have  
trouble with reception may indicate areas with poor RF signal transmission.  
If possible avoid an installation where the Sensor/Transmitter is located exactly  
above the Receiver. Move the Sensor/Transmitter slightly offset to one side. When  
the RF signal is passing through walls, keep in mind that it has less thickness to  
penetrate when it passes straight through the wall. In other words, passing diagonally  
through a wall increases its effective thickness. Because every installation is differ-  
ent, the ONLY guaranteed method to verify an installation is to physically TRY IT!  
Electromagnetic Compatibility  
Domestic: This device complies with FCC rules Part 15. Operation is subject to the following two  
conditions: (1) This device may not cause harmful interference and (2) this device must accept any  
interference that may be received, including interference that may cause undesirable operation.  
This equipment generates and uses radio frequency energy and if not installed and used properly,  
that is, in strict accordance with the manufacturer's instructions, may cause interference to radio and  
television reception. It has been type tested and found to comply with the limits for a FCC Class B  
computing device in accordance with the specifications in Subpart J of Part 15 of FCC Rules, which  
are designed to provide reasonable protection against such interference in a residential installation.  
However, there is no guarantee that interference will not occur in a particular installation. If this  
equipment does cause 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:  
Reorient the receiving antenna, relocate the remote control receiver with respect to the radio/TV  
antenna or plug the irrigation controller into a different outlet so that the irrigation controller and  
radio/TV are on different branch circuits.  
If necessary, the user should consult the dealer or an experienced radio/television technician for  
additional suggestions. The user may find the following booklet prepared by the Federal  
Communications Commission helpful:  
"How to Identify and Resolve Radio-TV Interference Problems". This booklet is available from the  
U.S. Government Printing Office, Washington, DC 20402. Stock No. 004-000-00345-4.  
FCC ID: OF7WRS1  
IC: 3949104244A  
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Specifications:  
Receiver Mounting Options: Stainless steel screws and/or double-sided foam tape.  
Sensor/Transmitter Mounting Options: Quick-ClipTM rain gutter bracket and roof  
eaves/fascia mounting bracket with stainless steel screws.  
Sensor/Transmitter Range: Up to 300' line-of-site.  
Sensor Type: Industry-standard hygroscopic disc stack with adjustable rainfall sensitivity.  
Transmitter Battery Type: (2) 3V cells - CR2032 (or equivalent).  
Average Battery Life: Five years  
Operating Temperature Range: -20°F to 120°F  
Receiver Power Input: 2228 V ac/V dc, 100mA (from existing controller/timer with  
Class 2, UL-approved transformer).  
Relay Contacts Output: Normally Open (NO) and Normally Closed (NC) 3A at 24 V ac.  
Receiver Controls: Sensor Status Indicator, Signal Indicator, Smart Bypass Switch,  
Power Indicator with low battery/poor communication warning.  
UL Listed  
TheToro Promise Limited One-Year Warranty  
The Toro Company and its affiliate, Toro Warranty Company, pursuant to an agreement  
between them, jointly warrants, to the owner, against defects in material and workmanship for  
a period of one year from the date of purchase.  
Neither The Toro Company nor Toro Warranty Company is liable for failure of products not  
manufactured by them even though such products may be sold or used in conjunction with  
Toro products.  
During such warranty period, we will repair or replace, at our option, any part found to be  
defective.  
Return the defective part to the place of purchase.  
Our liability is limited solely to the replacement or repair of defective parts. There are no other  
express warranties.  
This warranty does not apply where equipment is used, or installation is performed, in any  
manner contrary to Toros specifications and instructions, nor where equipment is altered or  
modified.  
NEITHER THE TORO COMPANY NOR TORO WARRANTY COMPANY IS LIABLE FOR  
INDIRECT, INCIDENTAL OR CONSEQUENTIAL DAMAGES IN CONNECTION WITH THE  
USE OF EQUIPMENT, INCLUDING BUT NOT LIMITED TO: VEGETATION LOSS, THE  
COST OF SUBSTITUTE EQUIPMENT OR SERVICES REQUIRED DURING  
PERIODS OF MALFUNCTION OR RESULTING NON-USE, PROPERTY DAMAGE OR PER-  
SONAL INJURY RESULTING FROM INSTALLERS NEGLIGENCE.  
Some states do not allow the exclusion or limitation of incidental or consequential damages,  
so the above limitation or exclusion may not apply to you.  
ALL IMPLIED WARRANTIES, INCLUDING THOSE OF MERCHANTABILITY AND FITNESS  
FOR USE, ARE LIMITED TO THE DURATION OF THIS EXPRESS WARRANTY.  
Some states do not allow limitations of how long an implied warranty lasts, so the above limita-  
tion may not apply to you.  
This warranty gives you specific legal rights and you may have other rights which vary from  
state to state.  
© 2003 The Toro Company, Consumer Division  
P.O. Box 489, Riverside CA, 92502  
Toro HelpLine - 800-367-8676  
Form No. 102-4297 Rev.A  
12  
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