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I am working on a project which requires precise time(ms) for each data entry I read from a serial port connected to an encoder (US digital S5 Optical Shaft Encoder with a QSB).

I installed the encoder on a small cart where I use it to count the speed of the cart.

Here is what I did so far:

  1. connect to the serial port and write command to QSB to tell the encoder to stream data. commands available here:

    www.usdigital.com/assets/general/QSB%20Commands%20List_1.pdf www.usdigital.com/assets/general/QSB%20Applications%20Examples.pdf

  2. Use readline() to read received data.

  3. put all lines of data into one StringBuilder and output it to a file.

I am able to get data entries in between 1ms when I set the output value threshold and interval rate to as fast as possible. Here is what I got:

----time stamp(h/m/s/ms)-------value

data with correct time stamp: https://www.dropbox.com/s/pvo1dz56my4o99y/Capture1.JPG

However, there are abrupt "jumps", roughly 200ms when data is continuous (I am rolling the cart in a constant speed)

data with incorrect time stamp: https://www.dropbox.com/s/sz3sxwv4qwsb2cn/Capture2.JPG

Here is my code:

private void buttonOpenEncoderPort_Click(object sender, EventArgs e)
        serialPortEncoder.Write("S0E\r\n");//start streaming data
        serialPortEncoder.Write("W0B0\r\n");//set threshold to 0 so the encoder will stream data a the interval I set.
        serialPortEncoder.Write("W0C0000\r\n");//set output interval to 0 so it will stream as fast as possible
        //I am using a background worker to pull data out.

 private void backgroundWorkerEncoder_DoWork(object sender, DoWorkEventArgs e)
        while (serialPortEncoder.IsOpen)
            if (serialPortEncoder.BytesToRead != 0)
                    String s = serialPortEncoder.ReadLine();//read from encoder
                    LazerBucket.Add(getCurrentTimeWithMS(timeEncoder) + "-----" + s + "\r\n");//put one line of data with time stamp in a List<String>
                    richTextBoxEncoderData.BeginInvoke(new MethodInvoker(delegate()
                        richTextBoxEncoderData.Text = s; })); //update UI

                catch (Exception ex) { MessageBox.Show(ex.ToString()); }                   


private String getCurrentTimeWithMS(DateTime d)//to get time
        StringBuilder s = new StringBuilder();
        d = DateTime.Now;
        int hour = d.Hour;
        int minute = d.Minute;
        int second = d.Second;
        int ms = d.Millisecond;
        s.Append("  ----" + hour.ToString() + ":" + minute.ToString() + ":" + second.ToString() + ":" + ms.ToString());
        return s.ToString();

I would appericiate it if someone could find the cause of the time jump. 200ms is too much to be ignored.


As suggested, I tried Stopwatch but still there are 200ms delay. But when I print out time stamps and BytesToRead together, I found that data in the buffer is decreasing as readLine() is being executed. Eventually BytesToRead will drop to single digit and that's where the delay happens. I am looking for better solutions on how to implement threads. And also explanations for the delay. Maybe I am reading to fast so the buffer can't keep up with me?


problem solved. see my answer below. Thanks for replying though. Stopwatch really helps. Now I am trying to work out whether event driven or polling is better.

share|improve this question
What happens when you don't run it as a background task? This could rule out hickups caused by the board – lboshuizen Jan 13 '13 at 23:12
Using a quadrature decoder over a serial port is very, very questionable. It most certainly doesn't get better when you include the Windows thread scheduling latency on top of the thread-pool scheduler algorithm on top of the garbage collector. Your system design is just plain inappropriate. – Hans Passant Jan 14 '13 at 0:12
@lboshuizen Thanks for the reply. If I use data receive event to collect data, the data I get in one second is significantly insufficient. – Timtianyang Jan 14 '13 at 0:52
@HansPassant Can you recommend a new solution with that encoder? – Timtianyang Jan 14 '13 at 0:55
up vote 1 down vote accepted

Are you using C# 4.5? If so, I highly recommend using async/await over BackgroundWorker.

Also, DateTime isn't really accurate for real-time applications. I would recommend DateTime strictly as a start time and then using Stopwatch in System.Diagnostics to get the elapsed time since the start time.

private void backgroundWorkerEncoder_DoWork(object sender, DoWorkEventArgs e)
  var startTime = DateTime.Now;
  var stopwatch = Stopwatch.StartNew();

  while (serialPort.IsOpen && !backgroundWorker.CancellationPending)
    if (serialPort.BytesToRead > 0)
        var line = serialPort.ReadLine();
        var timestamp = (startTime + stopwatch.Elapsed);

        var lineString = string.Format("{0}  ----{1}", 

        // Handle formatted line string here.
      catch (Exception ex)
        // Handle exception here.

As for the 200 ms discrepancy, it could be a variety of things. Perhaps the BackgroundWorker is on a lower priority and doesn't get as much CPU time as you hoped. Could also be something on the I/O side of either SerialPort or the actual serial device itself.

share|improve this answer
Thanks. I tried stopwatch but it still has discrepancy. I will give async/await a try. – Timtianyang Jan 14 '13 at 1:15
I would be willing to bet that something with BackgroundWorker isn't exactly working out for real-time processing. I'll post a second answer using async/await. Are you using VS 2012? – Erik Jan 14 '13 at 2:49
I appreciate that. I am using VS 2010. – Timtianyang Jan 14 '13 at 15:23
When I print timestamp and serialPort.BytesToRead together, I noticed the jump happens everytime as BytesToRead goes down to single digit or zero. That makes me wondering how serialport input buffer works. – Timtianyang Jan 14 '13 at 16:10
You can set SerialPort.ReadBufferSize, I am not sure what the default value is (probably 1KB - 4KB). – Erik Jan 14 '13 at 17:10

After some endless researching on the web, I found the cause of the delay. Device Manager--->Port---->advance----> change latency to 1ms will solve the problem. I am now polling data using a separate thread. It works very well.

share|improve this answer

When you want precise measurements you should not use DateTime.Now, try stopwatch instead. As detailed here and here, DateTime is accurate but not precise to the millisecond. If you need precision and accuracy, save DateTime.Now when you start measuring and get the offset from the stopwatch.

While 200ms seems like a long delay - even for DateTime - the stopwatch might indeed solve your Problem.

share|improve this answer
thanks. Stopwatch is indeed way better than DateTime in my case. But even with stopwatch, there are still some delays, varying from 100ms to 200ms. – Timtianyang Jan 14 '13 at 1:29

To me it seems that the OS is [in your way].

I suggest the following.

  1. Read the data from the port either in a seperate proces (or service) or a separate thread with priority above normal

  2. Store the raw(!) data in a queue with the accurate timestamp for later processing. This "task" should be as light as possible to avoid the GC or scheduler to kick in and stall it for even the smallest amount of time. No string concats or formats for example. Those ops cost time and put stress on memory.

  3. Process that data in a seperate thread or process. If that one get's hold up for a some time there's no real harm done as the timestamps are accurate.

In short; decouple reading from processing.

Imo stock-versions of Windows are too much IO-bound (it loves and hugs the concept of swapping) to be for RT processes. Using a diff OS, on a diff box, for reading and sending it to a Winbox for further processing could perhaps be a option to consider too (last resort?)

share|improve this answer
sounds good to me. Processing data in another thread is a good call but since I'm new to thread, I will touch that dangerous yet beautiful thing later – Timtianyang Jan 14 '13 at 2:57
@Timtianyang dangerous? You are already doing it but using a higher level API. Critical things always bring a challenge, this an excellent opportunity to learn "swimming" :-) – lboshuizen Jan 14 '13 at 3:44

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