Hi Linn, thanks for sharing. Think about it for a moment, if Rachio receives a 83k" reading from a PWS, wouldn’t it be logical and reasonable to code the software to flag such and anomoly, toss that number out, and alert you? Or, perhaps allow you to choose what happens via push notification (e.g., check the nearest viable site that has three reasonable readings or fall back to the nearest approved site, or do nothing). That value would equal mass flooding from the Nile River. LOL.

Your scenario is a perfect case scenario. Away from home, relying on your Rachio and PWS to report accurately. Of the two, Rachio is the brain and it should not require daily monitoring like your new grandchild (which is pretty much what I’ve had to do with my device).

Had you not caught that, Rachio would not have watered for the duration of your stay. If in a hot area of the country that could equal severe stress or damage on your foliage.

But yes, I am definitely making progress.

Or at least place an order with Lowe’s for material for the arc you should be building.

This just sounds dismissive to me. Thanks for the help.

So where would I begin to set this up then? Using Flex Daily, it consistently underwaters my spray zones and overwaters my drip (when first set up, on a system with 4GPH emitters for 2 trees, it defaulted to a FIVE HOUR runtime).

Not dismissive at all. Just pointing out that you don’t need to use the Flex Daily schedule - that you can use other options that don’t require as much time or energy to set up.

Brien, considering that there is no place to input pipe diameter, number of spray heads, sprinkler pattern(triangle vs box), it should probably come with a catch-up kit and instructions on how to place them and set it up the device based on that test.

Would also be very useful to have a drop down menu with the top 10 spray head devices (e.g., Rainbird 5000) to choose from and default values built in.

This would make it easier for it “to just work.”

The “tuning” required to get a Flex Daily schedule dialed in involve mainly the Zone Advanced settings. The first link below describes the different advanced settings and how they work. The second link below is a user describing what he did to dial in the settings for his yard.

What are Advanced Zone Settings?

LAST UPDATE:JAN 14 2021 1:04PM • EST. READ TIME:EST. READ TIME: 6 MIN

Summary

Advanced Zone Settings are primarily used for Rachio’s “Flex” Scheduling. If you’re using Flex (Monthly / Daily) scheduling, the Rachio controller calculates your watering similar to that of balancing a checkbook. The plant’s soil water storage reservoir is like that of a bank vault.

However, this reservoir can only hold a limited amount of water that is useful for the crop. If you overwater the soil reservoir, it will result in water loss due to deep percolation and/or runoff losses. The turf/crop evapotranspiration (ET), or water loss & use, is the crop’s daily water withdrawal. Irrigation and effective precipitation (aka rain) are deposits to this “bank account”.

How can I edit my Advanced Zone Settings?

When you select a zone within the “Irrigation” tab, you’ll see the Zone Details page. To edit your Advanced Zone Settings, select “Edit” and then scroll down to select “Advanced.” Here, there are thousands of unique configurations possible based upon the characteristics of your lawn. After creating or updating a zone, default values will be assigned accordingly based upon the zone attributes. We recommend that only experienced Water Managers adjust these settings; however, the “RESET TO DEFAULT” button at the bottom of the page will reset the Advanced Zone Settings to those based upon the zone attributes of each zone.

Note

Remember to save your edits! To do so, tap on the “Done” button at the bottom of the Advanced Zones Settings page.

Advanced Zone Settings Inputs

The area is the size of the chosen zone.

Available Water (AW) or A va ilable Water Capacity (AWC) is the range of available water that can be stored in soil and be available for growing crops. The AW of soil is related to texture and structure, the spongier the soil the more water it can hold. Typical AW holding capacities represent the amount of water that can be held in an inch of soil; in short, how much water can be available for plants with the depth of the root zone is known.

Root Depth (RZ) is the soil depth from which a plant extracts most of its water needs. The RZ is equal to effective rooting depth and is expressed in inches within the Rachio software. To determine the depth of the RZ, a soil sample containing the roots must be taken. It is recommended to use a soil probe to minimize disturbance of the soil and to obtain a good quality sample. Once the core is removed from the probe, look for the small roots to determine the number of inches from the top of the core to the deepest root near the bottom of the core. This sampling process should be done in several locations throughout the test area to determine an average depth.

Allowed Depletion (AD) is the maximum amount of Plant Available Water (PAW) allowed to be removed (expressed as a percentage) from the soil before an irrigation refill occurs. PAW is the total amount of water held in the plant root zone based on Soil Type and Plant Root Depth. Increased surface evaporation (loss) of water and usually higher rates of transpiration are associated with frequent irrigation events; It is best to irrigate only when the root zone has reached the AD threshold.

• For most landscape purposes, 50% AD represents a reasonable overall value for the typical soils and plants used in landscapes. 50% AD is the Water Manger’s choice to irrigate when the soil moisture level is half depleted.
• For sensitive, shallow-rooted plants (where little reserve water is available), or very heavy compacted soils, a smaller depletion should be considered (i.e. 30-50%)
• For stress-tolerant plants, such as desert plants, deep root zones, or lighter soils, a larger depletion can be used (i.e. 50-70%)

AD represents a management decision to use the water that is most readily available to the plant. While plants can still extract water from the less available water reserves, the plant will begin to show signs of stress or wilt.

In short, AD is the quantity of water that is easily used by the plants from soil moisture without withdrawing all of the water prior to refilling the soil profile. Additionally, by allowing the soil to dry down, it draws air into the root zone. Roots use this air to breathe & grow; having the appropriate amount of water and air in the soil allows the microorganisms to flourish, enabling the plant (& soil) to be healthy.

Efficiency (DU), also referred to as Application Efficiency or Distribution Uniformity (DU), tells us how efficient the water is being distributed by the sprinklers. The lower the DU, the higher the run time needs to be to deliver enough water to the area with the weakest coverage.

Above: Watch this quick video for tips on determining the distribution rate of your yard.

• DU is a factor used to adjust the run time to account for non-uniform distribution of irrigation water
• DU is be measured by conducting a catch cup or catch can audit

If the E/DU is below 0.40, then time and effort should be spent identifying what needs to be done to assure the system is operating optimally. This may include recommendations for improving maintenance or to seek the services of a certified Water Manager to identify the factors that are causing such poor performance. When the uniformity is low, it is hard to justify the amount of additional water needed to minimize stressed areas and achieve an acceptable appearance. When additional minutes of run time become excessive, runoff potential increases, and it becomes more difficult to do proper maintenance if the sprinkler system is operating beyond its desired or designated water window

• Factors that contribute to water waste (and poor DU):
  • Pressure. In irrigation, there are two kinds of pressure, static and dynamic. Static pressure is the pressure of non-flowing water at the point of connection. Dynamic pressure is the pressure at a sprinkler head when the system is on. Static pressure determines pipe sizing and size of sprinkler zones, whereas dynamic pressure determines head performance. Both pressures are commonly misunderstood and can have a significant impact on the efficiency of a sprinkler system.
  • Different types of sprinklers are designed to operate at different dynamic pressures. Typically, spray head nozzles are designed to perform best at 30 psi, while rotor nozzles are designed to perform best at 45-65 psi. It is important to pay close attention to the nozzle pressure specification because certain dynamic pressures are required to obtain the desired coverage and radius of throw. Under pressurized nozzles typically produce dry rings around the heads, leading to overwatering in an effort to compensate for poor coverage. Over pressurized nozzles produce misting and small water droplets that are lost to wind and evaporation. Over pressurized nozzles also use 20-40% more water than properly pressurized nozzles, resulting in excessive, unnecessary water use.
  • Head spacing. Head spacing refers to the distance between heads, ultimately dictating nozzle size. Typically spray heads are used when spacing is in the 5 – 15-foot range; rotors are used for radii of 20 feet or more. All sprinkler types perform best when head to head coverage is achieved. Obviously, using 12’ nozzles on heads that are spaced 15’ apart is going to result in coverage issues. Again, it is critical to refer to the manufacturer’s specification to determine the correct nozzle size for the desired radius for the pressure available.
  • Nozzle selection. Nozzles for different sprinklers apply water at different rates. Spray nozzles typically apply water at 1.5” – 2.0” / hour; rotor nozzles are usually in the range of .5” - 1” / hour. The rate at which the nozzle applies the water is also a determining factor when scheduling the controller. A nozzle with a lower application rate, theoretically, will have to run longer in order to apply the desired amount of water.
  • Nozzle size can also significantly affect the hydraulics of a sprinkler system. Nozzles are not only rated for a radius of throw, but they are also rated for flow, referred to as gallons per minute (GPM) and or gallons per hour (GPH) for drip or micro-spray nozzles. A common mistake when visually evaluating rotor heads that are under pressurized, and not achieving head to head coverage, is to use a larger size nozzle that is rated for more distance. Under pressurization is more of a GPM issue than an actual pressure issue, i.e., too much water is flowing through the sprinklers than the supply can provide, by increasing the nozzle size the GPM is increased, exacerbating the problem. Decreasing the flow of a zone by using nozzles with lower GPM is the best way to resolve pressure issues if a booster pump is not an option.

I don’t understand why Flex Daily gets such a bad rap “for being complicated”. Or maybe put another way, I don’t understand why Flex Monthly, or even Fixed, don’t get the same bad rap. ALL the same regular settings and Advanced values are used with Flex Monthly and Fixed. Even Fixed calculates a time to water based on the other settings, and watering with Flex Monthly comes up with settings in the same way, except it uses “Average” weather rather than “Actual” weather, and considers whether it’s rained or not rather than actual rain.

There are the same number of settings on both. And if you screw up the Nozzle Inches per Hour, it’s just as problematic with any schedule. OTOH, at least Rachio calculates all the settings based on information you give it, and you don’t need to guess how long to water to at least get close.

@rraisley I think that with the Flex Monthly and Fixed people end up adjusting the duration times so that it matches or is similar to what they did with their old controllers and ignore all the settings. You can’t ignore the settings as easily with a Flex Daily schedule.

I used a Flex monthly for about 2 months before moving to a Flex Daily and for me the key to using the Flex Daily was figuring out the nozzle inches per hour. I found it pretty easy to calculate using my water meter and the area of each zone.

I agree with that, especially with Fixed.

You kinda can, but need to choose a “typical” weather time, which is tougher.

Absolutely agree with that. But if you don’t properly calculate the Nozzle Inches per Hour with Flex Monthly, and use the recommended settings, it can be off just as much.