SM320C6727B Datasheet, PDF(86/111 Page) Texas Instruments – Floating-Point Digital Signal Processor

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SM320C6727B Datasheet, PDF (86/111 Pages) Texas Instruments – Floating-Point Digital Signal Processor

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SM320C6727B

SPRS861 â JANUARY 2014

www.ti.com

Table 4-31. Additional(1) SPI Master Timings, 5-Pin Option(2) (3)

NO.

PARAMETER

18 td(SPC_ENA)M

Polarity = 0, Phase = 0,

from SPIx_CLK falling

Max delay for slave to

deassert SPIx_ENA after

final SPIx_CLK edge to

ensure master does not

begin the next transfer.(4)

Polarity = 0, Phase = 1,

from SPIx_CLK falling

Polarity = 1, Phase = 0,

from SPIx_CLK rising

Polarity = 1, Phase = 1,

from SPIx_CLK rising

Polarity = 0, Phase = 0,

from SPIx_CLK falling

20 td(SPC_SCS)M

Delay from final

SPIx_CLK edge to

master deasserting

SPIx_SCS (5) (6)

Polarity = 0, Phase = 1,

from SPIx_CLK falling

Polarity = 1, Phase = 0,

from SPIx_CLK rising

Polarity = 1, Phase = 1,

from SPIx_CLK rising

Max delay for slave SPI to drive SPIx_ENA valid after

21 td(SCSL_ENAL)M master asserts SPIx_SCS to delay the

master from beginning the next transfer.

Polarity = 0, Phase = 0,

to SPIx_CLK rising

22 td(SCS_SPC)M

Delay from SPIx_SCS

active to first

SPIx_CLK (7) (8) (9)

Polarity = 0, Phase = 1,

to SPIx_CLK rising

Polarity = 1, Phase = 0,

to SPIx_CLK falling

Polarity = 1, Phase = 1,

to SPIx_CLK falling

Polarity = 0, Phase = 0,

to SPIx_CLK rising

23 td(ENA_SPC)M

Delay from assertion of

SPIx_ENA low to first

SPIx_CLK edge.(10)

Polarity = 0, Phase = 1,

to SPIx_CLK rising

Polarity = 1, Phase = 0,

to SPIx_CLK falling

Polarity = 1, Phase = 1,

to SPIx_CLK falling

MIN

0.5tc(SPC)M

2P â 10

0.5tc(SPC)M + 2P â 10

2P â 10

0.5tc(SPC)M + 2P â 10

TYP

MAX UNIT

0.5tc(SPC)M

0.5P ns

3P + 15

0.5tc(SPC)M + 3P + 15

3P + 15

0.5tc(SPC)M + 3P + 15

(1) These parameters are in addition to the general timings for SPI master modes (Table 4-27).

(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 deassertion.

(5) Except for modes when SPIDAT1.CSHOLD is enabled and there is additional data to transmit. In this case, SPIx_SCS will remain

asserted.

(6) This delay can be increased under software control by the register bit field SPIDELAY.T2CDELAY[4:0].

(7) If SPIx_ENA is asserted immediately such that the transmission is not delayed by SPIx_ENA.

(8) In the case where the master SPI is ready with new data before SPIx_SCS assertion.

(9) This delay can be increased under software control by the register bit field SPIDELAY.C2TDELAY[4:0].

(10) If SPIx_ENA was initially deasserted high and SPIx_CLK is delayed.

Table 4-32. Additional(1) SPI Slave Timings, 4-Pin Enable Option(2) (3)

NO.

24 td(SPC_ENAH)S

PARAMETER

Polarity = 0, Phase = 0,

from SPIx_CLK falling

Delay from final

SPIx_CLK edge to

slave deasserting

SPIx_ENA.

Polarity = 0, Phase = 1,

from SPIx_CLK falling

Polarity = 1, Phase = 0,

from SPIx_CLK rising

Polarity = 1, Phase = 1,

from SPIx_CLK rising

MIN

P â 10

â0.5tc(SPC)M + P â 10

P â 10

â0.5tc(SPC)M + P â 10

TYP

MAX UNIT

3P + 15

â0.5tc(SPC)M + 3P + 15

3P + 15

â0.5tc(SPC)M + 3P + 15

(1) These parameters are in addition to the general timings for SPI slave modes (Table 4-28).

(2) P = SYSCLK2 period

(3) Figure shows only Polarity = 0, Phase = 0 as an example. Table gives parameters for all four slave clocking modes.

Peripheral and Electrical Specifications

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