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PAR meter APPs tested

What is the best par meter app for grow lighting?

For iPhone owners the PPFD App is the most accurate PAR meter with the most features including making your own PAR map. The PPFD app also has the most free features.

Android users should use the Photone app or pair the PPFD app with the Uni-T lux meter for reasonable accurate readings and better functionality. 

Can PAR meter apps measure PAR accurately?

An accurate quantum sensor for measuring PAR cost over $350, way out of reach of most home growers. However, there are a number of smartphone apps which allow you measure PAR (Photosynthetically Active Radiation, the wavelengths of light that grow plants), turning your phone into a Par Meter.

I have tested the PPFD App and the Photone App and compared them to an industry standard Quantum PAR meter.

First test was using an iPhone and a typical LED grow light source

iPhone
(version 12)
LED grow light source (3500K +10% 660nm red)
PPFD app Photone app
PAR meter Apogee SQ500 iPhone + diff iPhone + Uni-T iPhone +diff
Average PAR (µmols/m²/sec) 630 611 699 610
Variance Reference -3% 11% -3%

 

The PPFD app and Photone app are accurate PAR meters with iPhones

The Photone App and PPFD App are very accurate when used with an iPhone. This is mainly due to the consistent sensitivity of the iPhone front camera across all iPhone models.

Android Phone
(Samsung galaxy S22)
LED grow light source (3500K +10% 660nm red)
PPFD App Photone App
PAR meter Apogee SQ500 Android + diff Android + Uni-T Android + diff
Average PAR (µmols/m²/sec) 630 422 702 569
Variance Reference -33% 11% -10%

 

On Android phones the Photone app is better than the PPFD app unless paired with the Uni-T Lux meter

The PPFD app was not accurate when used with an android phone & diffuser and no calibration. To calibrate you need a known source and repeatable reading. This is not easy to do and likely to result in inaccuracies.

The PPFD App is reasonable accurate when paired with the UNI-T lux meter on Android phones. This setup does not rely on front camera sensitivity so should be reliable and repeatable across all android phone brands and models.

The features of the PPFD app are far superior and much more functionality on the free version. If you have an iPhone or you can pair it with the UNI-T lux meter I would recommend it over the Photone App. Otherwise the Photone App on iPhone is the most accurate setup.

How to measure PAR with the PPFD app

The PPFD App has been around for a few years on Android and is now also available on IOS. I tested the PPFD App on a Samsung S22 and iPhone 12.

There is an option to use the phone front camera on its own but it is much more accurate to use a paper diffuser over the camera lens. This is very easy to do, just tape a small piece of white printer paper over the front camera when taking the readings.

 

PPFD App with diffuser

 

The PPFD app is free and allows selection of a range of spectrum sources such as various LED spectrum and HPS.

It also provides an excellent PAR map feature where you can create your own PAR map and get a visual image of the PAR spread as well as system efficiency and average PAR readings.

Learn how to make a PAR map here

 

PPFD App screen shots

 

I also tested an iphone and android phone with the PPFD app paired by bluetooth to the Uni-T lux meter. In theory this should provide a more accurate readings as android front camera sensors vary in sensitivity and the Lux meter sensor should be consistent.

 

PPFD App paired with the UNI-T Lux meter by bluetooth

How to measure PAR with the Photone App

I also tested the Photone App for IOS and android which is on the market for a number of years. It has less functionality than the PPFD app and only 1 spectrum source is available for free. 

 

Photone App screen shots

 

How I compared the PPFD and Photone Par meter Apps against an apogee SQ500 Quantum sensor

I too measurements using the most common grow light spectrum on the market today. The LED spectrum is a mid temperature white light at 3500K CT and 660nm red diodes.

I measured with the different App configurations and compared to the readings from an Apogee SQ500 quantum sensor.

I hung the light source over a 3ft x 3ft or 90cm x 90cm test area with reflective walls and took 36 PAR measurements across the test area with each device.

The distance between the light source and the sensor was the same in each test.

I selected the LED light source of '3500K + 10% 660nm red' for the PPFD app.

I selected the 'LED full spectrum' source for the Photone app.

I did not calibrate the sensor for either app. There instructions how to do so on each app.

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5 thoughts on “PAR meter APPs tested

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HighNRGgrows

Photone is now in BETA for Android.

July 19, 2024 at 08:51am
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Enrico

Using the Uni-T with a conversion factor which you evaluated in one of your videos is still the way to go. Very linear behaviour and still beating any of the offsets in this test of PAR apps.

June 19, 2024 at 15:21pm
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Robert Miller

I got one of the uni ts Bluetooth models off ebay I find the reading to be pretty close to the par maps from factory but it’s good to know their is a variance. Cheers

June 19, 2024 at 15:21pm
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Maz

Have you tested the Photone Android app? After reading this i dont know what to trust. Im using a Android phone and it would be nice to know if it showing the right reading.

April 12, 2022 at 14:23pm
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sony

how to interpret the data. I have no clue on how to use the data i have on quantum light meter. i have 3 data taken at 5 days interval

April 12, 2022 at 14:24pm

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