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I am transmitting data from my PIC24H microcontroller over 460Kbaud UART to a bluetooth radio module. Under most conditions, this flow works just fine and the bluetooth module uses CTS and RTS lines to manage flow control when its internal data buffers are full. However, there is a bug of some kind in the bluetooth module that resets it when data is continuously sent to it without any breaks, which happens if my data gets backed up in another bottleneck.

It would be nice if the module worked properly, but that's out of my control. So it seems that my only option is to do some data throttling on my end to make sure I don't exceed the data throughput limits (which I know roughly by experimentation).

My question is how to implement data rate throttling?

My current UART implementation is a RAM circular FIFO buffer 1024 bytes long that the main loop writes data to. A peripheral interrupt is triggered by the PIC when the last byte has been sent out by the UART hardware and my ISR reads the next byte from the buffer and sends it to the UART hardware.

Here's an idea of the source code:


//*************** Interrupt Service routine for UART2 Transmission  
void __attribute__ ((interrupt,no_auto_psv)) _U2TXInterrupt(void)
//the UART2 Tx Buffer is empty (!UART_TX_BUF_FULL()), fill it
//Only if data exists in data buffer (!isTxBufEmpty())
while(!isTxBufEmpty()&& !UART_TX_BUF_FULL())    {
    {   //Transmit next byte of data
        U2TXREG = 0xFF & (unsigned int)txbuf[txReadPtr];
        txReadPtr = (txReadPtr + 1) % TX_BUFFER_SIZE;
IFS1bits.U2TXIF = 0;


//return false if buffer overrun
BOOL writeStrUART(WORD length, BYTE* writePtr)
    BOOL overrun = TRUE;
        txbuf[txWritePtr] = *(writePtr);
        //increment writePtr
        txWritePtr = (txWritePtr + 1) % TX_BUFFER_SIZE;
        if(txWritePtr == txReadPtr)
            //write pointer has caught up to read, increment read ptr
            txReadPtr = (txReadPtr + 1) % TX_BUFFER_SIZE;
            //Set overrun flag to FALSE
            overrun = FALSE;


    //Make sure that Data is being transmitted

    return overrun;

void ensureTxCycleStarted()
    WORD oldPtr = 0;
    if(IS_UART_TX_IDLE() && !isTxBufEmpty())
        //write one byte to start UART transmit cycle
        oldPtr = txReadPtr;
        txReadPtr = (txReadPtr + 1) % TX_BUFFER_SIZE;//Preincrement pointer
        //Note: if pointer is incremented after U2TXREG write,
        //      the interrupt will trigger before the increment
        //      and the first piece of data will be retransmitted.
        U2TXREG = 0xFF & (unsigned int)txbuf[oldPtr];

There are two ways that throttling could be implemented as I see it:

  1. Enforce a time delay in between UART byte to be written that puts an upper limit on data throughput.

  2. Keep a running tally of bytes transmitted over a certain time frame and if the maximum number of bytes is exceeded for that timespan create a slightly longer delay before continuing transmission.

Either option would theoretically work, its the implementation I'm wondering about.

share|improve this question
Describe what sort of "breaks" the module requires to work... – Ben Jackson Jul 6 '11 at 21:04
@Ben Jackson it would be nice if I knew. It's a bug not a feature so it's not documented. Basically it resets after about 3 seconds of constant throughput, even though it's flow controlled. I can get away with about 25kbps throughput on average. – CodeFusionMobile Jul 6 '11 at 21:18

4 Answers 4

up vote 2 down vote accepted

Maybe a quota approach is what you want. Using a periodic interrupt of relevant timescale, add a quota of "bytes to be transmitted" to a global variable to a point that you don't go over some level adjusted for the related deluge. Then just check if there is quota before you come to send a byte. On new transmission there will be an initial deluge but later the quota will limit the transmission rate.

~~some periodic interrupt
if(bytes_to_send < MAX_LEVEL){
  bytes_to_send = bytes_to_send + BYTES_PER_PERIOD;
~~in uart_send_byte
  bytes_to_send = bytes_to_send - 1;
  //then send the byte
share|improve this answer
I like this approach. Still sends chunks of data, but allows flow to be managed without delaying each byte – CodeFusionMobile Jul 12 '11 at 14:28

If you have a free timer, or if you can use an existing one, you could do some kind of "debounce" of the bytes sent.

Imagine you have this global var, byte_interval and you have a timer overflowing (and triggering the ISR) every microsecond. Then it could look something like this:

timer_usec_isr() {
    // other stuff
    if (byte_interval)

And then in the "putchar" function, you could have something like:

uart_send_byte(unsigned char b) {
    if (!byte_interval) { // this could be a while too, 
                          // depends on how you want to structure the code
        //code to send the byte
        byte_interval = AMOUNT_OF_USECS;


I'm sorry to not look much into your code so I could be more specific. This is just an idea, I don't know if it fits for you.

share|improve this answer
I don't want to put a delay between each byte, since that would require frequent restarting of the tx cycle. Is there a way I could adapt this to detect when x number of (too many) bytes have been transmitted in the last y usecs and trigger a timer delay? That would fit into my code structure a bit better. – CodeFusionMobile Jul 8 '11 at 16:56
Can you get the UART to set txdone even in the absence of a real character? If you can, then it should be sending stop bits if it's not transmitting real data. Then you could just dismiss 2 or 3 txints every 1024 (say) chars and pick up again after those 2 or 3 character times elapse. If you could work it, that's what I would try first. – Pete Wilson Jul 11 '11 at 14:18
@Pete Wilson I can't set txdone without initiating a transmission cycle which would push out blank data. I'd have to do a timer delay or something to trigger the interrupt. – CodeFusionMobile Jul 14 '11 at 15:38
@CodeFusionMobile -- OK, then when you come into your driver with a transmit request (at mainstream level, right?) I would count chars xmitted and, if over 1024, start a short timeout, like 1 or 2 millisec, which will give you a bunch of char times at the bit rate you're seeing. When the timeout fires: (1) if at interrupt level, start the UART just as if you were coming in from txdone; (2) if at mainstream level, reissue transmit after clearing the chars-sent counter. Is that reasonable to you? Let me know. I love this UART/USART stuff: it's like home to me :-) – Pete Wilson Jul 14 '11 at 16:22

First, there's two types of serial flow control in common use.

You say CTS is on, but you might want to see if XON/XOFF can be enabled in some way.

Another approach if you can configure it is simply to use a lower baud rate. This obviously depends on what you can configure on the other end of the link, but it's usually the easiest way of fixing problems when devices aren't able to cope with higher speed transfers.

share|improve this answer
Hardware flow control is enabled and it is driven by the bluetooth module. I did try implementing a lower baud rate setting, but that caused way too many other problems (although it did fix this specific issue perfectly). +1 for good answer with data given though. – CodeFusionMobile Jul 11 '11 at 16:20
As a side note, the other problems arose from the fact that I have two data speeds that are runtime configured, and to switch baud rates I have to configure the BT module and then reset it, a 2 second process in all, plus having to reconnect afterwards. So lowering the baud rate just doesn't work from an application specific standpoint. – CodeFusionMobile Jul 11 '11 at 16:23

Timer approach which adds delay to Tx at specific time:

  • Configure a free running timer at an appropriate periodic rate.
  • In the timer ISR, toggle a bit in a global state variable (delayBit)
  • In the UART ISR, if delayBit is high and delayPostedBit is low, then exit the TX ISR without clearing the TX interrupt flag and set a bit in a global state variable (delayPostedBit). If delayBit is low, then clear delayPostedBit. The result is to cause a delay equal to one ISR schedule latency, since the ISR will be entered again. This is not a busy-wait delay so won't affect the timing of the rest of the system.
  • Adjust the period of the timer to add latency at appropriate intervals.
share|improve this answer
Exiting the TX ISR without clearing the interrupt flag results in the ISR locking the CPU with constant recalls, thus blocking the main loop, which is not acceptable for my application. – CodeFusionMobile Jul 15 '11 at 17:20
It should exit the ISR on the 2nd iteration through the ISR. That's the intention (add delay equal to 1 ISR latency), which would give the finest grained timing allowed. I assumed the desired delay is in microseconds, not milliseconds. – Jonathan Cline IEEE Jul 16 '11 at 0:21

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