Choosing the primary zone for a scheduling group, Choosing the sensor location, Dealing with slopes and berms – Baseline Systems BaseStation 3200 V12 User Manual

BaseStation 3200 Advanced Irrigation Controller Manual

Lastly, the irrigation manager breaks the parking lot and perimeter shrub beds into two scheduling

groups representing sunny and shady exposures.

In this way, the irrigation manager is able to configure 42 individual zones into 5 scheduling groups

that are controlled by 5 soil moisture sensors.

In the example above, the irrigation manager would configure the 5 scheduling groups for the

Upper Limit or Lower Limit watering strategy based on readings from the associated soil moisture

sensors. However, each scheduling group can be watered according to any watering strategy

appropriate for that section of the landscape.

Choosing the Primary Zone for a Scheduling Group

Because the zones in a scheduling group are naturally similar, any zone in a group can make a good

primary zone (the zone where the sensor is located). For large scheduling groups, or scheduling

groups with a higher level of variation in sun or wind exposure, choose a primary zone that:

•

Requires irrigation the most frequently

•

Has an average or greater sun and wind exposure for the scheduling group

IMPORTANT NOTE! The primary zone must be configured in the BaseStation 3200 system at an

address with a lower number than the other zones within the same scheduling group. For example,

if zones 1 – 50 are in one scheduling group, zone 1 would be the primary zone. For retrofits, you

may need to renumber your zones in order to meet this requirement.

Choosing the Sensor Location

You will achieve the best results by locating the biSensor in an area that is average for the zone and

ideally for the entire scheduling group. Avoid the following areas:

•

Drainage areas where irrigation or rainwater pools or is channeled

•

Areas immediately around hardscapes or that receive runoff water from hardscapes or

buildings

As long as the location of the sensor is average for the zone, you should achieve excellent water

efficiency.

Dealing with Slopes and Berms

Steep slopes and berms are possibly the most difficult landscape areas to irrigate efficiently. The

main issue is runoff, but often subsurface drainage issues result in low areas that get soaking wet

and high areas that are bone dry. When a berm is constructed, the central mass is typically

compacted, which can also cause water movement and drainage issues.

Soil moisture sensors are an excellent tool to optimize watering for slopes and berms because the

sensor can detect how much irrigation water is actually infiltrating the upper levels of the slope or

berm.

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