Motorola TMS320C6711D User Manual

        

SPRS292 − OCTOBER 2005

88

POST OFFICE BOX 1443 

•

 HOUSTON, TEXAS 77251−1443

5

td(HCS-HRDY)

Delay time, HCS to HRDY§

1

12

ns

6

td(HSTBL-HRDYH) Delay time, HSTROBE low to HRDY high¶

3

12

ns

7

td(HSTBL-HDLZ) Delay time, HSTROBE low to HD low impedance for an HPI read

2

ns

8

td(HDV-HRDYL) Delay time, HD valid to HRDY low

2P − 4

ns

9

toh(HSTBH-HDV) Output hold time, HD valid after HSTROBE high

3

12

ns

15

td(HSTBH-HDHZ) Delay time, HSTROBE high to HD high impedance

3

12

ns

16

td(HSTBL-HDV) Delay time, HSTROBE low to HD valid

3

12.5

ns

17

td(HSTBH-HRDYH) Delay time, HSTROBE high to HRDY high#

3

12

ns

† HSTROBE refers to the following logical operation on HCS, HDS1, and HDS2: [NOT(HDS1 XOR HDS2)] OR HCS.
‡ P = 1/CPU clock frequency in ns. For example, when running parts at 250 MHz, use P = 4 ns.
§ HCS enables HRDY, and HRDY is always low when HCS is high. The case where HRDY goes high when HCS falls indicates that HPI is busy

completing a previous HPID write or READ with autoincrement.

¶ This parameter is used during an HPID read. At the beginning of the first half-word transfer on the falling edge of HSTROBE, the HPI sends the

request to the EDMA internal address generation hardware, and HRDY remains high until the EDMA internal address generation hardware loads
the requested data into HPID.

# This parameter is used after the second half-word of an HPID write or autoincrement read. HRDY remains low if the access is not an HPID write

or autoincrement read. Reading or writing to HPIC or HPIA does not affect the HRDY signal.