How to measure low velocity

[Andy A.]

Ken-

The posters lack of a team number, and location in Vietnam leads me to belive he isn't using the gyro on a robot, FIRST or otherwise.

At least I don't think there are any teams out of Vietnam.

Maybe with some more information on the application, we could be of more help, nobtiba?

-Andy A.

[seanwitte]

If you need to measure a small rotational velocity then maybe the ADXRS401 is a more suitable part. Its measurement range is +-75 degrees per second.

[nobtiba]

Quote:

Originally Posted by Andy A.

Ken-

The posters lack of a team number, and location in Vietnam leads me to belive he isn't using the gyro on a robot, FIRST or otherwise.

At least I don't think there are any teams out of Vietnam.

Maybe with some more information on the application, we could be of more help, nobtiba?

-Andy A.

Oh, many universities in VietNam won many prizes in ROBOCON (robot contest of ASIA). I'm in Coleage of Technology (Ha Noi) team. If I can use gyro to measure angular exactly I can use it for stabilization. My duty is using ADXRS150 to do this.
ADXRS300 or the others only different in upper level (75, 150, 300 deg/s) but what about their bellow level?
I think if the sensor can't detect low rate it will lead to my following problems (in fact now):
1. Can't measure angular exactly
2. With the same real angular but measure very different values in different times
3. The same value positive and negative but measure different values (that means if you turn it clockwise then turn to starting point it never be zero)
So I wonder any body used ADXRS and measure angular exactly enough can tell me what to do?

[nobtiba]

In the datasheet of ADXRS, it says that we can setting bandwidth by changing the external capacitors: f(out)=1/(2*pi*R(out)*C(out)). Do you think it can effect gyro's capacity of detecting low rate? If not, what is the function of setting the bandwidth?

[Chris Hibner]

Quote:

Originally Posted by nobtiba

In the datasheet of ADXRS, it says that we can setting bandwidth by changing the external capacitors: f(out)=1/(2*pi*R(out)*C(out)). Do you think it can effect gyro's capacity of detecting low rate? If not, what is the function of setting the bandwidth?

This capacitor should not change the ability of the sensor to detect a low rate.

The purpose of this capacitor is to change the corner frequency of the low-pass filter on the sensor. You want to have a low enough corner frequency to avoid aliasing of your signal when you digitize the signal. Too much filtering and there will be a problem with a phase lag in the signal.

If you're not sure how to select the capacitor, search the internet on "nyquist frequency".

[Al Skierkiewicz]

I believe if you look through the data sheet carefully, you will find that the capacitor and bandwidth is an attempt to quiet down some noisey data. By bandwidth limiting the high frequency energy, you should get a more accurate output.
It seems that I remember someone (a thread perhaps) that discussed rapidly taking samples and averaging over 10 or fifteen ( or more) samples to look for trends. By knowing where you were before you may be able to find out where you are now.

[Joe Ross]

Quote:

Originally Posted by Al Skierkiewicz

It seems that I remember someone (a thread perhaps) that discussed rapidly taking samples and averaging over 10 or fifteen ( or more) samples to look for trends. By knowing where you were before you may be able to find out where you are now.

This is the whitepaper you are thinking of: http://www.chiefdelphi.com/forums/pa...le&paperid=234

[nobtiba]

Thank you very much for your very useful information. In this pdf file it says that: "if your're integrating, you don't need to filter-the effect of improved resolution will be taken care of by the integration". Now I need integrate to change angular rate to angular, so I needn't average the samples?
In Kevin's code (gyro.h, gyro.c) the time lapse between samples decided by programmer with a timer. If this interval (time) shorter, is the angular get more exactly?

[Chris Hibner]

Quote:

Originally Posted by nobtiba

Thank you very much for your very useful information. In this pdf file it says that: "if your're integrating, you don't need to filter-the effect of improved resolution will be taken care of by the integration". Now I need integrate to change angular rate to angular, so I needn't average the samples?
In Kevin's code (gyro.h, gyro.c) the time lapse between samples decided by programmer with a timer. If this interval (time) shorter, is the angular get more exactly?

You won't need to average before the integral because the integral acts like a very large average.

If the sample period (interval between samples) is shorter, the integral will be more exact. However, the sample period must be consistent from one sample to another.

[Al Skierkiewicz]

What I meant was another routine looking to see if there was movement and check to see if it was valid data before the integration process.

[nobtiba]

So I think all I have to do now are the following steps:
1. Programming the ADC in uC to get samples in free running mode
2. Since the ADC is 10 bits but a data frame to transmit to pc is 8 bits, then I have to devide it to a frame of 3 bits and another of 7bits, then send them to pc
3.In pc, my program written in turbo C receive these bytes through COM1, merge them to get 10 bits value (as origin value after ADC).Then change them to voltage and then to corresponding angular rate.(we call rate value)
4.Also in this program (in pc) I use the timer of uC in PC to count the interval between two samples.
5.Calculate: angular=angular +[(rate value i)+(rate value (i+1))]*(time interval), and loop this routine
<in the beginning angular =0>
I'm sorry if some of these steps seem to suit in programming forum, but I think if I say all things in detail, it may help you to see where is my problems.
Especialy, I don't know how to do in step 4

[Dave Garnett]

The first thing you need to do is establish wether the sensor will actually give a valid reading at these low levels - the specs do not give any values for 'hysteresis' which might be an issue.

So, set up an op amp with some gain (eg x 20) and look at the amplified readings - don't worry about the reduced range at this point. This should show you if the sensor actually registers the motion. [Watch out for noise and drift - alternate readings for stationary, clockwise and counterclock] You could do all this with a quality voltage meter instead, of course.

If the sensor actually works at these levels, then you could implement a dual channel readback - in parallel with your normal +- 150 deg channel, add a channel with some gain centered about the null position. In operation this channel will saturate at high turn rates, but you have the readings from the other channel. Of course you will need a strategy to select which reading to use, as well as thinking about compensating for zero offset and drift.

good luck !

[nobtiba]

Some body tell me to change the ADC with higher resolution e.g 12 bits or 14 bits...This may help me to know if having a small change in input voltage from zero point voltage which means having a very slow rotation.
But I wonder if anybody use 10 bit ADC and still measure angular exactly.My purpose is that if the system (with ADXRS on it) rotate, I have to control it to turn back to the starting point exactly.
Is changing ADC is a good idea, because it's expensive to have high resolution ADC and waste time to re write program for another one.

[Chris Hibner]

I don't think you should have a problem with the 10-bit A/D.

How do you define "exactly" to the starting position? What is your measurement tool to determine how close to the starting position you came? What is the resolution of this tool? You will not need to be more precise than you can measure with an independent tool.

[nobtiba]

Let take an imagine experiment: if you have a laser pointer mounted on a rotation board. At starting point, the laser pointer lights a point on the wall (or any target). Mark this point on the wall. Now turn an alpha angle. All I have to do is turn the table back so that the pointer lights exactly in the marked point on the wall.
In fact, robot or airplane also have the same mission when they need to keep straight direction. So how they to do that with this ADXRS150 gyro ?