Datasheet

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4−3

4.4 TAS3100 Timing Characteristics

4.4.1 Master Clock Signals Over Recommended Operating Conditions (Unless Otherwise

Noted)

PARAMETER TEST CONDITIONS MIN TYP MAX UNITS

(XTALI)

Frequency, XTALI (1/t

c(1)

) 2.8 20 MHz

(MCLKI)

Frequency, MCLKI (1/t

c(2)

) 2.8 25 MHz

w(MCLKI)

Pulse duration, MCLKI high See Note 6 H

MCLKI

− 25 H

MCLKI

+ 25 ns

MCLKI jitter ±5 ns

(MCLKO)

Frequency, MCLKO (1/t

c(3)

) 2.8 25 MHz

r(MCLKO)

Rise time, MCLKO C

= 30 pF 9.5 ns

f(MCLKO)

Fall time, MCLKO C

= 30 pF 9.5 ns

w(MCLKO)

Pulse duration, MCLKO high See Note 9 H

MCLKO

MCLKI jitter

XTALI master clock source 80 ps

MCLKI jitter

MTALI master clock source See Note 10

d(MI−MO)

Delay time, MCLKI

rising edge to

MCKLO = MCLKI See Note 7 17 ns

d(MI−MO)

rising edge to

MCLKO rising edge

MCLKO < MCLKI See Note 7 and Note 8 17 ns

NOTES: 6. H

MCLKI

= 1 / 2MCLKI

7. Only applies when MCLKI is selected as master source clock.

8. Also applies to MCLKO falling edge when MCLKO = MCLKI/2 or MCLKI/4

9. H

MCLKO

= 1 / 2MCLKO. MCLKO has the same duty cycle as MCLKI when MCLKO = MCLKI. When MCLKO = 0.5 MCLKI or 0.25

MCLKI, the duty cycle of MCLKO is typically 50%.

10. When MCLKO is derived from MCLKI, MCLKO jitter = MCLKI jitter

XTALI

MCLKO

MCLKI

w(MCLKI)

f(MCLKO)

c(1)

c(2)

c(3)

w(MCLKO)

r(MCLKO)

d(MI-MO)

Figure 4−1. Master Clock Signals Timing Waveforms