8.3.9.5.5 High-Speed Client Mode
High-speed mode is enabled when the FLEX_TWI_CR.HSEN bit is written to one. Furthermore, the analog pad filter must be enabled, the FLEX_TWI_FILTR.PADFEN bit must be written to one and the FLEX_TWI_FILTR.FILT bit must be cleared. TWI High-speed mode operation is similar to TWI operation with the following exceptions:
- A host code is received first at normal speed before entering High-speed mode period.
- When TWI High-speed mode is active, clock stretching is only allowed after acknowledge (ACK), not-acknowledge (NACK), START (S) or repeated START (Sr) (asa consequence, OVF may happen).
TWI High-speed mode allows transfers of up to 3.4 Mbit/s.
The TWI client in High-speed mode requires that the peripheral clock runs at a minimum of 14 MHz if client clock stretching is enabled (SCLWSDIS bit at ‘0’). If client clock stretching is disabled (SCLWSDIS bit at ‘1’), the peripheral clock must run at a minimum of 11 MHz (assuming the system has no latency).
- When client clock stretching is disabled, FLEX_TWI_RHR must always be read before receiving the next data (write access frame generated by the host). It is strongly recommended to use either the polling method on the FLEX_TWI_SR.RXRDY flag, or the DMA. If the receive is managed by an interrupt, the TWI interrupt priority must be set to the right level and its latency minimized to avoid receive overrun.
- When client clock stretching is disabled, FLEX_TWI_THR must be filled with the first data to send before the beginning of the frame (read access frame generated by the host). It is strongly recommended to use either the polling method on the FLEX_TWI_SR.TXRDY flag, or the DMA. If the transmit is managed by an interrupt, the TWI interrupt priority must be set to the right level and its latency minimized to avoid transmit underrun.