AM1808_11 Datasheet, PDF(148/265 Page) Texas Instruments – AM1808 ARM Microprocessor

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AM1808_11 Datasheet, PDF (148/265 Pages) Texas Instruments – AM1808 ARM Microprocessor

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AM1808

SPRS653B â FEBRUARY 2010 â REVISED APRIL 2011

www.ti.com

Table 5-64. Switching Characteristics for McBSP1 [1.0V](1) (2)

(see Figure 5-32)

NO.

PARAMETER

1

td(CKSH-CKRXH)

Delay time, CLKS high to CLKR/X high for internal CLKR/X

generated from CLKS input

2 tc(CKRX)

3 tw(CKRX)

4 td(CKRH-FRV)

Cycle time, CLKR/X

Pulse duration, CLKR/X high or CLKR/X low

Delay time, CLKR high to internal FSR valid

CLKR/X int

CLKR/X int

CLKR int

CLKR ext

9 td(CKXH-FXV) Delay time, CLKX high to internal FSX valid

CLKX int

CLKX ext

12

tdis(CKXH-DXHZ)

Disable time, DX high impedance following last data

bit from CLKX high

CLKX int

CLKX ext

13 td(CKXH-DXV) Delay time, CLKX high to DX valid

CLKX int

CLKX ext

14 td(FXH-DXV)

Delay time, FSX high to DX valid

ONLY applies when in data

delay 0 (XDATDLY = 00b) mode

FSX int

FSX ext

1.0V

MIN

MAX

1.5

2P or 26.6 (3) (4) (5)

C - 2 (6)

-4

2.5

-4

1

-4

-2

-4 + D1(7)

1 + D1(8)

-4 (9)

-2 (9)

23

C + 2(6)

13

23

13

23

13

23

13 + D2(8)

23 + D2(8)

13 (9)

23 (9)

UNIT

ns

ns

ns

ns

ns

ns

ns

ns

(1) CLKRP = CLKXP = FSRP = FSXP = 0. If polarity of any of the signals is inverted, then the timing references of that signal are also

inverted.

(2) Minimum delay times also represent minimum output hold times.

(3) Minimum CLKR/X cycle times must be met, even when CLKR/X is generated by an internal clock source. Minimum CLKR/X cycle times

are based on internal logic speed; the maximum usable speed may be lower due to EDMA limitations and AC timing requirements.

(4) P = AYNC3 period in ns. For example, when the ASYNC clock domain is running at 100 MHz, use 10 ns.

(5) Use whichever value is greater.

(6) C = H or L

S = sample rate generator input clock = P if CLKSM = 1 (P = ASYNC period)

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

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

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

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

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

CLKGDV should be set appropriately to ensure the McBSP bit rate does not exceed the maximum limit (see (4) above).

(7) Extra delay from CLKX high to DX valid applies only to the first data bit of a device, if and only if DXENA = 1 in SPCR.

if DXENA = 0, then D1 = D2 = 0

if DXENA = 1, then D1 = 6P, D2 = 12P

(8) Extra delay from CLKX high to DX valid applies only to the first data bit of a device, if and only if DXENA = 1 in SPCR.

if DXENA = 0, then D1 = D2 = 0

if DXENA = 1, then D1 = 6P, D2 = 12P

(9) Extra delay from FSX high to DX valid applies only to the first data bit of a device, if and only if DXENA = 1 in SPCR.

if DXENA = 0, then D1 = D2 = 0

if DXENA = 1, then D1 = 6P, D2 = 12P

148 Peripheral Information and Electrical Specifications

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