OMAP-L138_10 Datasheet, PDF(217/268 Page) Texas Instruments – Low-Power Applications Processor

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OMAP-L138_10 Datasheet, PDF (217/268 Pages) Texas Instruments – Low-Power Applications Processor

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OMAP-L138 Low-Power Applications Processor

SPRS586A â JUNE 2009 â REVISED AUGUST 2009

Table 6-106. Switching Characteristics Over Recommended Operating Conditions for Host-Port Interface

[1.2V, 1.1V](1)(2)(3)

1.2V

1.1V

NO.

PARAMETER

UNIT

MIN MAX MIN MAX

For HPI Write, HRDY can go high (not

ready) for these HPI Write conditions;

otherwise, HRDY stays low (ready):

Case 1: Back-to-back HPIA writes (can

be either first or second half-word)

Case 2: HPIA write following a

PREFETCH command (can be either

first or second half-word)

Case 3: HPID write when FIFO is full or

flushing (can be either first or second

half-word)

Case 4: HPIA write and Write FIFO not

empty

For HPI Read, HRDY can go high (not

ready) for these HPI Read conditions:

5

td(HSTBL-HRDYV)

Delay time, HSTROBE low to Case 1: HPID read (with

HRDY valid

auto-increment) and data not in Read

15

FIFO (can only happen to first half-word

of HPID access)

Case 2: First half-word access of HPID

Read without auto-increment

For HPI Read, HRDY stays low (ready)

for these HPI Read conditions:

Case 1: HPID read with auto-increment

and data is already in Read FIFO

(applies to either half-word of HPID

access)

Case 2: HPID read without

auto-increment and data is already in

Read FIFO (always applies to second

half-word of HPID access)

Case 3: HPIC or HPIA read (applies to

either half-word access)

17 ns

5a td(HASL-HRDYV)

Delay time, HAS low to HRDY valid

15

17

6

ten(HSTBL-HDLZ)

Enable time, HD driven from HSTROBE low

1.5

1.5

ns

7

td(HRDYL-HDV)

Delay time, HRDY low to HD valid

0

0

ns

8

toh(HSTBH-HDV)

Output hold time, HD valid after HSTROBE high

1.5

1.5

ns

14 tdis(HSTBH-HDHZ) Disable time, HD high-impedance from HSTROBE high

15

17 ns

For HPI Read. Applies to conditions

where data is already residing in

HPID/FIFO:

15 td(HSTBL-HDV)

Delay time, HSTROBE low to

HD valid

Case 1: HPIC or HPIA read

Case 2: First half-word of HPID read

with auto-increment and data is already

15

in Read FIFO

Case 3: Second half-word of HPID read

with or without auto-increment

17 ns

For HPI Write, HRDY can go high (not

ready) for these HPI Write conditions;

otherwise, HRDY stays low (ready):

Case 1: HPID write when Write FIFO is

18 td(HSTBH-HRDYV)

Delay time, HSTROBE high to full (can happen to either half-word)

HRDY valid

Case 2: HPIA write (can happen to

15

either half-word)

Case 3: HPID write without

auto-increment (only happens to

second half-word)

17 ns

(1) M=SYSCLK2 period in ns.

(2) HSTROBE refers to the following logical operation on HCS, HDS1, and HDS2: [NOT(HDS1 XOR HDS2)] OR HCS.

(3) By design, whenever HCS is driven inactive (high), HPI will drive HRDY active (low).

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Peripheral Information and Electrical Specifications 217

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