|At a Glance|
|Product||thinkeco modlet Home Starter Kit [RES-STR-11]|
|Summary||Cloud-based home power management system|
|Pros||• Inexpensive to start
• Very nice smartphone interface
• Provides measurement and programmable control
|Cons||• Not a full standalone solution, requires Mac or Windows machine for setup and management
• Multi-outlet system can get pricey
• Return on investment could take a very long time
"A floor lamp left on overnight can use 1kWh of energy. That's as much energy as 500,000 hops for a bunny." That statement was the first thing that jumped out at me as I removed the thinkeco modlet from its box. Not that I've ever considered hops from a bunny as being wasteful, but 500,000 of them was a lot.
"modlet" stands for "modern electric outlet" and that's basically what it is, a cloud-connected outlet with surge-protection that lets you monitor power consumption and schedule on/off-time for devices plugged into it. I was excited to get the modlet out and put it to use. Having used a Kill A Watt for a lot of power measurement around the house, the modlet had the potential to be more plugged in, so to speak, and to help reduce energy costs.
Figure 1: thinkeco modlet starter kit
Setup of the modlet was fairly simple, however it did require software installation on a Windows or MacOS system to support a Zigbee USB dongle that communicates with the modlet. The local software is used for initial modlet setup and provides the link between the modlet(s) and thinkeco's cloud. After setup, all modlet management is done via the mymodlet.com site, or associated Android/iOS apps.
Part of the challenge in reviewing the modlet was deciding what devices took a lot of power and were good candidates for testing modlet's power-saving features. Some obvious candidates were our Bang and Olufsen stereo, network printer, air compressor and a few other things. The modlet is rated for 15 A and 120 V and having never measured usage of our air compressor's power draw, I decided to cross that off the list.
The thinkeco site suggests using the modlet on a cable box, DVD player, stereo or game console, printer, office electronics, small kitchen appliances or window air conditioners. My decision was made when I opened the user guide and saw a coffee maker as the example. Since the toaster was right beside it, that went along for the ride. Whether or not that was the best choice I'll explain later, but it does seem to be the type of device the modlet is aimed at.
Figure 2: mymodlet.com home page
The mymodlet.com home page is where it all comes together with the modlet. When you first set up the modlet, it establishes a two-week baseline in which power consumption is tracked to aid in scheduling later. This baseline can be changed and tailored to whatever you want.
During the baseline period you can see power consumption of each outlet on the modlet with a one-minute resolution. You can also see the total usage of your devices over the period that the modlet has been installed. Within the Savings settings you can set the price of your electricity per kWh if you know it; this helps your summary be a little more accurate.
Default $ per kWh is set at $0.20. I had last checked my electric rate to be about $0.143 per kWh with Xcel at Tier II billing (more than 500kWh use per month), so I used that figure.
As noted earlier, the modlet isn't a standalone solution that connects directly to your wireless network. Instead, it has a USB receiver that is plugged into a MacOS or Windows computer that connects to the modlet(s) via Zigbee, linking it out to mymodlet.com in the cloud.
This was disappointing because it would be better if the modlet worked more like the Nest thermostat, which doesn't require a host computer and connects directly to your home network via Wi-Fi. On the other hand, Zigbee is commonly used for home control devices and opens the door to future modlet applications, such as theoretical integration with the ecobee thermostat and other devices.
The thinkeco site mentions as long as the modlet is a room away from the USB receiver it will work. Additional modlets can communicate directly with each other, further extending range with a mesh network. My testing found range to be very good with just the single dongle and modlet. The USB receiver was in the low power server in the network closet downstairs and was able to still access the modlet one floor up and several rooms over.
With this Zigbee communication going on, it would be easy to get concerned about power consumption of the modlet itself. To monitor the monitor, I plugged the modlet in to my Kill A Watt and confirmed that on its own, the modlet uses less than 1 W. It also has enough built-in memory to store data for up to two weeks and can run the power saving schedules (once communicated) without the USB dongle. This is good news because you don't need to run the computer the whole time for the modlet to work. Additionally, up to 100 (!) modlets can be managed with a single USB receiver, so it starts to make more sense as you add more devices.
Once in use, especially during the two-week baseline, the modlet really is a set-it-and-forget-it sort of thing. Unlike the Kill A Watt where you can see power consumption directly on its LCD display, you need to go to the web to see modlet's power information.
But simply watching power usage isn't the modlet's thing, it's the power scheduling that you do once the baseline period is up. I was a little alarmed to find out the coffee maker uses nearly 1200 W for the 5-6 minutes it brews. As I told my wife, that's the equivalent to running about 54 laptops. But it turns out the coffee maker really doesn't use much power overall and was a bad example to try, since when done brewing, even the hot plate has very little power draw. The reporting function within the mymodlet.com site reports I've used $0.39 combined since plugging the toaster and coffee maker into it about two weeks ago, based on my $0.143 per kWh rate.