Where to get sensor for nike ipod

Try to position the sensor so it is as untilted as possible—it should be level with the ground front to back and side to side. You will need to recalibrate the sensor for the best accuracy, as it is likely to be slightly tilted in one direction or another. If you switch this same sensor between shoes, you should recalibrate it for each shoe after each switch. If that is your plan, it would be wise to measure off a quarter-mile calibration area near where you usually walk or run and use that route for recalibration as needed.

If an outdoor track is handy, once around the inside lane is meters, which the top choice on the calibration screen. If you don't have a track, measure off a known distance near where you usually start your walking or running workout. You can use a car odometer, a bike odometer, or a surveyor's wheel if you don't have any handy mileposts nearby. Looking to start walking off the weight? Our free guide offers tips, workouts, and a printable schedule to help you get on the right track.

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Related Articles. The 8 Best Gym Shoes for Men of I guess if Apple does nothing about it I will have to downgrade my device to the previous version but that's totally absurd I mean, I as a costumer should not have a reason to do something like that I mean, come on, it's not a 15 year old thing, is it really necessary to just remove the app like that?

The sky is falling!!!!!! Seriously, though. Nike stopped supporting the sensor as phones now have built in accelerometers. The app hasn't been installed on phones since the iPhone 5 or maybe 5S. Apple can't sell what Nike doesn't offer.

If you prefer a foot pod to the phone accelerometer. Polar makes a very good foot pod that works with the Polar Flow app. Another really great app is iSmoothRun. I can't find anything in my settings bout turning anything on!!!

I'm completely lost! I really appreciate your sense of humor, nice sarcasm, I'm laughing like never before. I don't want to discard it or sell it to someone who then won't be able to use it. I want to do what I was thinking of when I bought it: run with it on my shoe.

I'm the client here, the one who provides the money. My choices should always be respected when I paid for them in the first place.

Downloading the Running App is not the solution; It is just another way of saying "throw your sensor away, it's useless". Technology moves on. I doubt there was anything in the agreement of sale that said the sensor would work forever, that Nike would support it forever. In fact, Nike stopped supporting them about 2 years ago, if I recall correctly. Even the Nano doesn't use the sensor anymore.

Take the sensor back to the Apple Store and see if they will take it back. Or, see if you can find an older Nano that still supports the sensor. They can probably be had for cheap. You're right, I'll try both of those things.

I'm still a bit disappointed though, but whatever, there's no much more I can do now. Sep 20, AM. Sep 20, PM. I agree Piezoelectric sensors, on the other hand, use quartz, silicon or manmade crystals that produce electricity when squeezed, moved or bent.

These generator-like crystals are often microscopic. Depending on how the crystals are cut, they usually produce an electrical charge when compressed in a specific direction or along a specific plane.

For these reasons, piezoelectric sensors can be very small and very accurate. When someone is standing still or walking slowly, his feet spend more time touching the earth than in the air.

But when jogging or sprinting, his feet spend less and less time on the ground. The faster he runs, the less time his feet spend in contact with the surface under them. Because of this basic trait of walking and running, a processor can use equations to convert contact time into running speed.

The process is the most accurate when runners calibrate their sensors by running a pre-set distance so get a baseline reading. When the shoes aren't moving, the accelerometer has no footsteps to report -- it stops sending data.

In the absence of the accelerometer's output, the sensor eventually puts itself to sleep. But when a runner puts his shoes on and takes a few steps, the sensor generates electrical pulses, and the sensor resumes operation.

The sensor also has a physical switch which can turn the unit off; the unit stays off until someone presses the switch again. This preserves the battery's life the 1,hour battery can't be replaced when someone isn't running regularly or is running in different shoes. It broadcasts its data at a radio frequency of 2. In addition to transmitting data about a person's running stride, it transmits a unique code that it uses to identify itself.

We'll look at how the receiver uses this information next. Other manufacturers, however, have developed pouches that hold the transmitter and lace to the top of a person's shoe. These manufacturers claim that the transmitter still gives accurate readings when in the pouch. However, the angle at which the sensor rests on top of a person's foot is slightly different from its angle inside a person's shoe. Depending on how the piezoelectric crystals align within the sensor, this could affect the overall accuracy of the system.

Since its storage, software and battery power reside on the iPod Nano, the Sport Kit's receiver is a little simpler than the transmitter.

It plugs into the Nano's dock connection with a multi-pin connector -- these pins carry data and power back and forth between the two devices. The receiver itself has only a few components, including a processor, a receiver, an antenna and several resistors and capacitors. The receiver learns to recognize that particular sensor's identification code.

If several people in one family use the same iPod but different sensors, the receiver can learn to recognize each sensor, and the Nano can store different settings for each user. This system is flexible, and the foot The paper pointed out that the transmitter sends data regardless of whether the receiver is nearby or even plugged into an iPod.