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TMS320C6727, TMS320C6726, TMS320C6722
Floating-Point Digital Signal Processors
SPRS268E – MAY 2005 – REVISED JANUARY 2007
Table 4-27. Additional
(1)
SPI Master Timings, 4-Pin Enable Option
(2) (3)
NO.
MIN
MAX UNIT
Polarity = 0, Phase = 0,
3P + 15
to SPIx_CLK rising
Polarity = 0, Phase = 1,
0.5t
c(SPC)M
+ 3P + 15
Delay from slave assertion of
to SPIx_CLK rising
17
t
d(ENA_SPC)M
SPIx_ENA active to first
ns
Polarity = 1, Phase = 0,
SPIx_CLK from master.
(4)
3P + 15
to SPIx_CLK falling
Polarity = 1, Phase = 1,
0.5t
c(SPC)M
+ 3P + 15
to SPIx_CLK falling
Polarity = 0, Phase = 0,
0.5t
c(SPC)M
from SPIx_CLK falling
Polarity = 0, Phase = 1,
Max delay for slave to deassert
0
from SPIx_CLK falling
SPIx_ENA after final SPIx_CLK
18
t
d(SPC_ENA)M
ns
edge to ensure master does not
Polarity = 1, Phase = 0,
0.5t
c(SPC)M
begin the next transfer.
(5)
from SPIx_CLK rising
Polarity = 1, Phase = 1,
0
from SPIx_CLK rising
(1)
These parameters are in addition to the general timings for SPI master modes (
Table 4-25
).
(2)
P = SYSCLK2 period
(3)
Figure shows only Polarity = 0, Phase = 0 as an example. Table gives parameters for all four master clocking modes.
(4)
In the case where the master SPI is ready with new data before SPIx_ENA assertion.
(5)
In the case where the master SPI is ready with new data before SPIx_ENA deassertion.
Table 4-28. Additional
(1)
SPI Master Timings, 4-Pin Chip Select Option
(2) (3)
NO.
MIN
MAX UNIT
Polarity = 0, Phase = 0,
2P – 10
to SPIx_CLK rising
Polarity = 0, Phase = 1,
0.5t
c(SPC)M
+ 2P – 10
to SPIx_CLK rising
Delay from SPIx_SCS active to
19
t
d(SCS_SPC)M
ns
first SPIx_CLK
(4) (5)
Polarity = 1, Phase = 0,
2P – 10
to SPIx_CLK falling
Polarity = 1, Phase = 1,
0.5t
c(SPC)M
+ 2P – 10
to SPIx_CLK falling
Polarity = 0, Phase = 0,
0.5t
c(SPC)M
from SPIx_CLK falling
Polarity = 0, Phase = 1,
0
Delay from final SPIx_CLK edge
from SPIx_CLK falling
20
t
d(SPC_SCS)M
to master deasserting
ns
Polarity = 1, Phase = 0,
SPIx_SCS
(6) (7)
0.5t
c(SPC)M
from SPIx_CLK rising
Polarity = 1, Phase = 1,
0
from SPIx_CLK rising
(1)
These parameters are in addition to the general timings for SPI master modes (
Table 4-25
).
(2)
P = SYSCLK2 period
(3)
Figure shows only Polarity = 0, Phase = 0 as an example. Table gives parameters for all four master clocking modes.
(4)
In the case where the master SPI is ready with new data before SPIx_SCS assertion.
(5)
This delay can be increased under software control by the register bit field SPIDELAY.C2TDELAY[4:0].
(6)
Except for modes when SPIDAT1.CSHOLD is enabled and there is additional data to transmit. In this case, SPIx_SCS will remain
asserted.
(7)
This delay can be increased under software control by the register bit field SPIDELAY.T2CDELAY[4:0].
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Peripheral and Electrical Specifications
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