Information
The following table shows the TCR2[MSEL] and RCR2[MSEL] field settings for this
device.
Table 3-64. I2S0 master clock settings
TCR2[MSEL], RCR2[MSEL] Master Clock
00 Bus Clock
01 I2S0_MCLK
10 Not supported
11 Not supported
3.9.5.2.5 Clock gating and I
2
S/SAI initialization
The clock to the I
2
S/SAI module can be gated using a bit in the SIM. To minimize power
consumption, these bits are cleared after any reset, which disables the clock to the
corresponding module. The clock enable bit should be set by software at the beginning of
the module initialization routine to enable the module clock before initialization of any of
the I
2
S/SAI registers.
3.9.5.3 I
2
S/SAI operation in low power modes
3.9.5.3.1 Stop and very low power modes
In Stop mode, the SAI transmitter and/or receiver can continue operating provided the
appropriate Stop Enable bit is set (TCSR[STOPE] and/or RCSR[STOPE], respectively),
and provided the transmitter and/or receiver is/are using an externally generated bit clock
or an Audio Master Clock that remains operating in Stop mode. The SAI transmitter and/
or receiver can generate an asynchronous interrupt to wake the CPU from Stop mode.
In VLPS mode, the module behaves as it does in stop mode if VLPS mode is entered
from run mode. However, if VLPS mode is entered from VLPR mode, the FIFO might
underflow or overflow before wakeup from stop mode due to the limits in bus bandwidth.
In VLPW and VLPR modes, the module is limited by the maximum bus clock
frequencies.
When operating from an internally generated bit clock or Audio Master Clock that is
disabled in stop modes:
Communication interfaces
K20 Sub-Family Reference Manual, Rev. 2, Feb 2012
126 Freescale Semiconductor, Inc.