8.3.7.3.11 Receiver Timeout
The Receiver Timeout provides support in handling variable-length frames. This feature detects an idle condition on the RXD line. When a timeout is detected, the FLEX_US_CSR.TIMEOUT bit rises and can generate an interrupt, thus indicating to the driver an end of frame.
The timeout delay period (during which the receiver waits for a new character) is programmed in the TO field of the Receiver Timeout register (FLEX_US_RTOR). If the TO field is written to 0, the Receiver Timeout is disabled and no timeout is detected. The FLEX_US_CSR.TIMEOUT bit remains at 0. Otherwise, the receiver loads a 16-bit counter with the value programmed in TO. This counter is decremented at each bit period and reloaded each time a new character is received. If the counter reaches 0, the FLEX_US_CSR.TIMEOUT bit rises. Then, the user can either:
- Stop the counter clock until a new character is received. This is performed by writing a ‘1’ to FLEX_US_CR.STTTO. In this case, the idle state on RXD before a new character is received does not provide a timeout. This prevents having to handle an interrupt before a character is received and enables waiting for the next idle state on RXD after a frame is received.
- Obtain an interrupt while no character is received. This is performed by writing a ‘1’ to FLEX_US_CR.RETTO. In this case, the counter starts counting down immediately from the value TO. This generates a periodic interrupt so that a user timeout can be handled, for example when no key is pressed on a keyboard.
The following figure shows the block diagram of the Receiver Timeout feature.
The following table gives the maximum timeout period for some standard baud rates.
Baud Rate (bit/s) | Bit Time (μs) | Timeout (ms) |
---|---|---|
600 | 1,667 | 109,225 |
1,200 | 833 | 54,613 |
2,400 | 417 | 27,306 |
4,800 | 208 | 13,653 |
9,600 | 104 | 6,827 |
14,400 | 69 | 4,551 |
19,200 | 52 | 3,413 |
28,800 | 35 | 2,276 |
38,400 | 26 | 1,704 |
56,000 | 18 | 1,170 |
57,600 | 17 | 1,138 |
200,000 | 5 | 328 |