Reset timing, Timing requirements for reset†‡ (see figure 40), Reset timing timing requirements for reset – Motorola TMS320C6711D User Manual

TMS320C6711D

FLOATINGĆPOINT DIGITAL SIGNAL PROCESSOR

SPRS292A − OCTOBER 2005 − REVISED NOVEMBER 2005

84

POST OFFICE BOX 1443

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HOUSTON, TEXAS 77251−1443

RESET TIMING

timing requirements for reset

†‡

(see Figure 40)

NO.

GDPA-167
ZDPA−167

−200
−250

UNIT

MIN

MAX

1

tw(RST)

Pulse duration, RESET

100

ns

13

tsu(HD)

Setup time, HD boot configuration bits valid before RESET high§

2P

ns

14

th(HD)

Hold time, HD boot configuration bits valid after RESET high§

2P

ns

† P = 1/CPU clock frequency in ns. For example, when running parts at 250 MHz, use P = 4 ns.
‡ The PLL is bypassed immediately after the device comes out of reset. The PLL Controller can be programmed to change the PLL mode in

software. For more detailed information on the PLL Controller, see the TMS320C6000 DSP Software-Programmable Phase-Lock Loop (PLL)
Controller Reference Guide (literature number SPRU233).

§ The Boot and device configurations bits are latched asynchronously when RESET is transitioning high. The Boot and device configurations bits

consist of: HD[8, 4:3].

switching characteristics over recommended operating conditions during reset

¶

(see Figure 40)

NO.

PARAMETER

GDPA-167
ZDPA−167

−200
−250

UNIT

MIN

MAX

2

td(RSTH-ZV)

Delay time, external RESET high to internal reset
high and all signal groups valid#||

CLKMODE0 = 1

512 x CLKIN

period

ns

3

td(RSTL-ECKOL)

Delay time, RESET low to ECLKOUT high impedance

0

ns

4

td(RSTH-ECKOV)

Delay time, RESET high to ECLKOUT valid

6P

ns

5

td(RSTL-CKO2IV)

Delay time, RESET low to CLKOUT2 high impedance

0

ns

6

td(RSTH-CKO2V)

Delay time, RESET high to CLKOUT2 valid

6P

ns

7

td(RSTL-CKO3L)

Delay time, RESET low to CLKOUT3 low

0

ns

8

td(RSTH-CKO3V)

Delay time, RESET high to CLKOUT3 valid

6P

ns

9

td(RSTL-EMIFZHZ)

Delay time, RESET low to EMIF Z group high impedance||

0

ns

10

td(RSTL-EMIFLIV)

Delay time, RESET low to EMIF low group (BUSREQ) invalid||

0

ns

11

td(RSTL-Z1HZ)

Delay time, RESET low to Z group 1 high impedance||

0

ns

12

td(RSTL-Z2HZ)

Delay time, RESET low to Z group 2 high impedance||

0

ns

¶ P = 1/CPU clock frequency in ns.

Note that while internal reset is asserted low, the CPU clock (SYSCLK1) period is equal to the input clock (CLKIN) period multiplied by 8. For
example, if the CLKIN period is 20 ns, then the CPU clock (SYSCLK1) period is 20 ns x 8 = 160 ns. Therefore, P = SYSCLK1 = 160 ns while
internal reset is asserted.

# The internal reset is stretched exactly 512 x CLKIN cycles if CLKIN is used (CLKMODE0 = 1). If the input clock (CLKIN) is not stable when RESET

is deasserted, the actual delay time may vary.

|| EMIF Z group consists of:

EA[21:2], ED[31:0], CE[3:0], BE[3:0], ARE/SDCAS/SSADS, AWE/SDWE/SSWE, AOE/SDRAS/SSOE and
HOLDA

EMIF low group consists of: BUSREQ
Z group 1 consists of:

CLKR0, CLKR1, CLKX0, CLKX1, FSR0, FSR1, FSX0, FSX1, DX0, DX1, TOUT0, and TOUT1.

Z group 2 consists of:

All other HPI and GPIO signals