Texas Instruments TMS320C6712D Computer Hardware User Manual

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TMS320C6712D

FLOATINGĆPOINT DIGITAL SIGNAL PROCESSOR

SPRS293 − OCTOBER 2005

POST OFFICE BOX 1443 • HOUSTON, TEXAS 77251−1443

MULTICHANNEL BUFFERED SERIAL PORT TIMING (CONTINUED)

Bit 0 Bit(n-1) (n-2) (n-3) (n-4)

CLKX

FSX

Figure 45. McBSP Timing as SPI Master or Slave: CLKSTP = 10b, CLKXP = 1

timing requirements for McBSP as SPI master or slave: CLKSTP = 11b, CLKXP = 1

†‡

(see Figure 46)

−150

NO.

MASTER SLAVE

UNIT

NO.

MIN MAX MIN MAX

UNIT

4 t

su(DRV-CKXH)

Setup time, DR valid before CLKX high 12 2 − 6P ns

5 t

h(CKXH-DRV)

Hold time, DR valid after CLKX high 4 5 + 12P ns

†

P = 1/CPU clock frequency in ns. For example, when running parts at 150 MHz, use P = 6.7 ns.

‡

For all SPI slave modes, CLKG is programmed as 1/2 of the CPU clock by setting CLKSM = CLKGDV = 1.

switching characteristics over recommended operating conditions for McBSP as SPI master or

slave: CLKSTP = 11b, CLKXP = 1

†‡

(see Figure 46)

−150

NO. PARAMETER

MASTER

SLAVE

UNIT

NO.

PARAMETER

MIN MAX MIN MAX

UNIT

1 t

h(CKXH-FXL)

Hold time, FSX low

after CLKX high

H − 2 H + 3 ns

2 t

d(FXL-CKXL)

Delay time, FSX low to CLKX low

T − 2 T + 3 ns

3 t

d(CKXH-DXV)

Delay time, CLKX high to DX valid −3 4 6P + 2 10P + 17 ns

6 t

dis(CKXH-DXHZ)

Disable time, DX high impedance following last data bit from

CLKX high

−2 4 6P + 3 10P + 17 ns

7 t

d(FXL-DXV)

Delay time, FSX low to DX valid L − 2 L + 6.5 4P + 2 8P + 17 ns

†

P = 1/CPU clock frequency in ns. For example, when running parts at 150 MHz, use P = 6.7 ns.

‡

For all SPI slave modes, CLKG is programmed as 1/2 of the CPU clock by setting CLKSM = CLKGDV = 1.

S = Sample rate generator input clock = 2P if CLKSM = 1 (P = 1/CPU clock frequency)

= Sample rate generator input clock = P_clks if CLKSM = 0 (P_clks = CLKS period)

T = CLKX period = (1 + CLKGDV) * S

H = CLKX high pulse width = (CLKGDV/2 + 1) * S if CLKGDV is even

= (CLKGDV + 1)/2 * S if CLKGDV is odd or zero

L = CLKX low pulse width = (CLKGDV/2) * S if CLKGDV is even

= (CLKGDV + 1)/2 * S if CLKGDV is odd or zero

FSRP = FSXP = 1. As a SPI master, FSX is inverted to provide active-low slave-enable output. As a slave, the active-low signal input on FSX

and FSR is inverted before being used internally.

CLKXM = FSXM = 1, CLKRM = FSRM = 0 for master McBSP

CLKXM = CLKRM = FSXM = FSRM = 0 for slave McBSP

FSX should be low before the rising edge of clock to enable slave devices and then begin a SPI transfer at the rising edge of the master clock

(CLKX).

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Texas Instruments TMS320C6712D Computer Hardware User Manual