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ST72104G Datasheet(PDF) 66 Page - STMicroelectronics |
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ST72104G Datasheet(HTML) 66 Page - STMicroelectronics |
66 / 140 page ST72104G, ST72215G, ST72216G, ST72254G 66/140 SERIAL PERIPHERAL INTERFACE (Cont’d) 12.3.4.4 Write Collision Error A write collision occurs when the software tries to write to the DR register while a data transfer is tak- ing place with an external device. When this hap- pens, the transfer continues uninterrupted; and the software write will be unsuccessful. Write collisions can occur both in master and slave mode. Note: a "read collision" will never occur since the received data byte is placed in a buffer in which access is always synchronous with the MCU oper- ation. In Slave mode When the CPHA bit is set: The slave device will receive a clock (SCK) edge prior to the latch of the first data transfer. This first clock edge will freeze the data in the slave device DR register and output the MSBit on to the exter- nal MISO pin of the slave device. The SS pin low state enables the slave device but the output of the MSBit onto the MISO pin does not take place until the first data transfer clock edge. When the CPHA bit is reset: Data is latched on the occurrence of the first clock transition. The slave device does not have any way of knowing when that transition will occur; therefore, the slave device collision occurs when software attempts to write the DR register after its SS pin has been pulled low. For this reason, the SS pin must be high, between each data byte transfer, to allow the CPU to write in the DR register without generating a write colli- sion. In Master mode Collision in the master device is defined as a write of the DR register while the internal serial clock (SCK) is in the process of transfer. The SS pin signal must be always high on the master device. WCOL bit The WCOL bit in the SR register is set if a write collision occurs. No SPI interrupt is generated when the WCOL bit is set (the WCOL bit is a status flag only). Clearing the WCOL bit is done through a software sequence (see Figure 41). Figure 41. Clearing the WCOL bit (Write Collision Flag) Software Sequence Clearing sequence after SPIF = 1 (end of a data byte transfer) 1st Step Read SR Read DR Write DR 2nd Step SPIF =0 WCOL=0 SPIF =0 WCOL=0 if no transfer has started WCOL=1 if a transfer has started Clearing sequence before SPIF = 1 (during a data byte transfer) 1st Step 2nd Step WCOL=0 before the 2nd step Read SR Read DR Note: Writing in DR register in- stead of reading in it do not reset WCOL bit Read SR OR THEN THEN THEN |
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