For the ~ 3 months that I have owned the 2018 versions of the Samsung Sensors, the multipurpose sensor has consumed the most battery energy compared to the motion and leak sensors. This is in a mainly empty vacation home, All are at about 50 degrees ambient temperature. There is roughly 70 % battery reading for the two multipupose sensors, and 90% + for the 3 leak and 1 motion sensors. One of my multipurpose sensors is sitting in a crawl space, so there is no opening or closing as well as motion, so i can not explain the comparatively increase battery consumption.
I would try a leak sensor if you are insistent on using a samsung sensor and worried about battery life. I would also add that possibly the motion sensing inside a freezer opening and closing may be a source of increased energy consumption of the sensor.
Doing this won’t use up batteries, but it will require a smartapp to log data to Google sheets or other solution, or use a custom DTH to display it in the mobile app. I’ve done something similar with a moisture sensor using a DTH:
Just my 2 cents worth of wisdom on batteries : first, % battery levels are not very accurate for Lithium batteries (too flat a discharge curve), so a 10-20% difference between two batteries/sensors may be highly significant… or not.
Second, battery consumption of Z-wave devices depends on multiple factors, including the type of sensor, the Z-wave or Z-wave+ type of network, its handler (wakeUpInterval), but also the quality (or lack of) of the Z-wave network the sensor is included into (poor quality => more transmission retries => lower battery life).
Third, battery operated sensors start behaving erratically when their battery becomes too low, “too low” being below 40-50%.
Fourth, when the battery level becomes too low, the reported battery level itself shown by the SmartThings App may be completely wrong since… reporting any battery level requires a good enough battery !
A 20-30% displayed level may actually date back to several weeks/months and be completely obsolete, with the actual value MUCH lower.
I recently had to modify my custom handler for the FIBARO FGK-10x after discovering (4 years later !) such a bug. Many other sensors and handlers may suffer from the same low-battery vulnerability.
If that’s an Iris device, that is typical behavior, even at room ambient. The first or second non-100% battery reporting levels (you may see it report 67% relatively soon) are reached quickly then plateau there for months. I too have been using the Iris contact sensor in my freezer (zero degrees F) and recently replaced its battery after almost two years of operation, and it was still working when I did so. As I recall the last 6 months or so it was reporting 33% yet worked fine.
Full disclosure, I have had one or two Iris sensors (usually a motion detector) eat batteries. In one case relocating it solved the problem; the other might have been a dud from the factory.
I’m using the older SmartThings branded multipurpose sensors in both of my freezers. I took the original batteries out and soldered on a 2x AA battery holder. I’m just using Amazon Basics AA’s in the battery holder. Then I used double sided tape to stick the sensor to the battery pack. So far the batteries have held up very well!
I got the battery packs on eBay for just a few bucks.