AirScape App for iPhone and iPad now Available.

UPDATE: The controls referenced below are currently only available as an upgrade on Sierra units. For more information please call us at 866.448.4187.

Our app for iPhone® and iPad® is now available from the App Store. We released our app for Android devices about a year ago, and are incredibly excited to offer the same great functionality to our customers with Apple® devices.

With this FREE app, homeowners with AirScape whole house fans can:iOS_Blog_iPhone

  • Scan their network to find all AirScape whole house fans connected to it;
  • Assign custom names to each fan on the network for easy identification;
  • Control a connected fan through the app’s interface, which is identical to that on our wall switches and wireless remotes; and,
  • View a fan’s status, indoor and attic temperatures, as well as any SafeSpeed™ notifications if this accessory has been installed.

To operate a fan using this app, both your fan and iPhone or iPad need to be connected to the same local area network (“LAN”)—your fan using a CAT-5 cable between its control box and your router, and your iPhone or iPad using Wi-Fi. For safety purposes this app cannot operate fans over the internet or your cellular network. If, for example, you’ve got access to the internet using your local coffee shop’s network or your phone’s 3G/4G service, our app will not be able to connect to your home’s fan.

Fans that are not connected to a network cannot be controlled using this app. Also, this app is compatible with only AirScape whole house fans with 2nd generation controls (sold 2013 to present).

Apple_AppStore_Badge

Ethernet over Power

If you’ve been reading this blog, or have recently purchase an AirScape WHF, you’re no doubt aware that all of our whole house fans come complete with a webserver. You can access and control the WHF by any browser connected to your LAN.

 The missing link is that you have to connect the AirScape WHF to your LAN via an ethernet cable. Most of the time that’s the best and easiest solution. However, if you can’t get from your router to the attic, here is an inexpensive and reliable solution:

Ethernet over Power adapters use your house wiring to transmit ethernet.  You simply buy a pair, plug each one into a wall outlet, then plug ethernet cables into the device.

Typical Ethernet over Power
Typical Ethernet over Power Devices

Bookmark your WHF controller

UPDATE: The controls referenced below are currently only available as an upgrade on Sierra units. For more information please call us at 866.448.4187.

There are a couple of ways of quickly accessing your whole house fan controller through a web browser.

A bit of technical background:

Your AirScape WHF gets an IP address (something like 192.168.xxx.xxx) from your router through a process called DHCP.  This IP address stays the same for long periods, but  may change because of power failures, unit resets, etc. For convenience we don’t want to have to look for that IP address or URL whenever we want to change fan speeds or set the timer.

Method 1: Fix the IP address or set an IP address reservation

  • Follow the instructions to reserve or fix an IP address as described in https://blog.airscapefans.com/archives/ip-address-reservation
  • Put the IP address into your browser URL window
  • Save that page as a Bookmark

Method 2: Use the AirScape server to find your IP address

  • You need to be signed up for the AirScape Data Monitoring. (Call us to set this up)
  • Make a bookmark on your browser with the address as follows: http://airscapefans.com/control/local-link.php?mac=:last-6-characters-of-your-MAC . You can find the ‘last-6-characters-of-your-MAC” on the sticker of your WHF control panel. This one (pictured below) has a MAC address of 60:CB:FB:00:00:17.
  • The bookmark for this example would be: http://airscapefans.com/control/local-link.php?mac=000017
  • This will only work when you are connected to your LAN (local area network). So if your smart phone is not connected to your home LAN, it won’t work.

dhcp-3

Whole House Fan Monitoring

monitoring-line-drawing

What ? The  data monitoring package “DMP” is a new feature available for AirScape whole house fans. This package of extra sensors and software allows whole house fan owners to view room, outside, and attic temperatures. Users can view the temperatures through their browser enabled devices (smart phones, computers, tablets …). Historical data will be saved on AirScape servers and will only be available by secure login.

Why is this cool ? You will be able to check temperatures in your house, attic, and outside remotely. By looking at the graphs of temperatures, you’ll be able to decide on the best ways to save utility costs. Upcoming software will be able to total your annual energy savings.

When? Available in the next 2 weeks on select models.

Cost ?  The additional cost for the 3 temperature sensors (accurate to 1 deg F) and additional embedded software will be $49. Monitoring and web access: FREE

Privacy ? Your data  will only be available to you, secured by encrypted passwords. Aggregated data that does not reveal the user’s identity may be used for research purposes.

Want to see more about how it works? Check out the DMP DEMO PAGE

monitoring-package

How to access your Router

Once you’ve ran a CAT5 cable from your 3.5e or 4.4e to your router, you still have some more work to do before you can control your fan through your computer, smartphone or tablet. Since not all of us are Computer Gurus like the AirScape Engineers, (I’m certainly not!), I thought I’d endeavor to figure out what had to be done and break it down into steps for you. Here is a very wordy explanation on how to get access to your router:

 

Step 1 – Find your Router’s IP Address (192.168.__.__)

***Hint – in most home systems, the router’s IP address is usually going to be something basic, like: 192.168.0.1, 192.168.1.1, 192.168.10.10, 192.168.01.01…

How to find the IP Address:

Windows XP (7 is about the same)

  1. Start
  2. Control Panel
  3. Network and Internet Connections
  4. Network Connections
  5. Local Area Connections
  6. On the left of that window, notice the box labeled Details. Expand if it is minimized and in that box will be a bunch of info including an IP address. That IP address is your router.
  7. Yay! You got the IP address! Now be sure to write it down.

iMac

  1. Open your web browser – Firefox, Safari, etc
  2. Click on the “Firefox” or “Safari” icon in the upper left corner
  3. Preferences
  4. Advanced
  5. For Firefox – Choose Network then Settings – IP address should be listed here
  6. For Safari – Choose Proxies – Change Settings, then click on TCP/IP – IP address listed – then change your default browser – Firefox is WAY better than Safari!

Apple – iPhone/iPad

  1.  Open Settings
  2.  Choose your Network and There it is.

 

Step 2. Access your Router

1. Type the IP address into your web browser.
2. You will need to put in the user name and password – This is where it gets hard.

The user name and password would have been assigned when the system was originally set up. It may be still set to the manufacturer’s default, but whoever set up your internet should have provided you with the info if they changed it. If you’re like me, and either got it and lost it or never knew it to begin with, you’re going to need to do some detective work to find it out. The password is not the same as your secure network password.

Before getting too involved, look at your router… Turns out my router had the default user name and password printed on it right next to the model #. You may be able to save yourself a lot of extra work by looking at your router BEFORE you do everything written below – learn from my mistakes 🙂

  • If you have the router setup disk – good for you, you’re way more organized than me. Now is the time to pull it out and use it.
  • If not, you can get your model # off your router and go to the manufacturer’s website and fight your way through support sections until you find the info you want, which is either:

1. The default user name and password. We’re hoping in this case that the default manufacturer’s user name and password were never changed.
Or
2. Directions for how to reset your user name and password back to factory settings. *Warning – If you reset a router, all saved information will be lost.

  • If you find the manufacturer’s defaults but they don’t work, you may be able to contact the company that set up your connection. A large company such as Charter, Comcast, etc. may use standard defaults or note on your account what user name and password they gave your router. This is pretty unlikely, but may be the case if you are renting one of their routers. This is worth a try before resetting your router and possibly losing important information.

Ok, you get the idea…

If the manufacturer’s default doesn’t work and/or you can’t figure out how to reset your system, you could always try calling the manufacturer’s Tech Support and begging for help.They may sigh with exasperation, but they can probably help you.

Please note – However you get access to your routers user name and password, if it is still set to default or if you reset it, be sure to change it after all this is over so your network is secure!

3. Once you are “in” to your router, go ahead and follow the instructions on our blog IP Address Reservation to complete the set up.

Good luck., and give us a call at (866) 448-4187 if you have any questions.

Inside the new controller

We thought that you’d like to see all the cool stuff that makes up our new controller.

Of course, we had to have a microprocessor. A microprocessor controls all the sequencing and logic. It also does a lot of work serving up web pages and communicating with the switches, remote controls, and motor.

Optoisolators provide protection against stray (or man-made) voltages.

The Clock crystal gives us a “tick” every 1/32,000,000 th of a second. That’s the basis  for all timing functions.

A programming port – that’s where the programmer downloads his program for the 50th time after a series of mistakes  🙂

Relays are electrical switches (listen to them click) that control higher power loads (like the door actuators) that would burn out a microprocessor if connected directly.