DS1075
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AC ELECTRICAL CHARACTERISTICS (T
A
= 0°C to 70°C, V
CC
= 5V + 5%)
PARAMETER SYMBOL CONDITION MIN TYP MAX UNITS NOTES
Output Frequency
Tolerance
Df
O
V
CC
= 5V, T
A
=
25°C
-0.5 0 +0.5 %
Combined Freq.
Variation
Df
O
Over temp and
voltage
-1 +1 %
Long Term Stability
Df
O
-0.5 +0.5 %
External clock 50 MHzMaximum Input
Frequency
f
OSCIN
Crystal reference 25 MHz
1
Minimum Output
Frequency
f
OUT
29.3 kHz 2
Power-Up Time t
por
+ t
stab
0.1 1 ms 3, 4
Enable OUT from PDN ↑
t
stab
0.1 1 ms 4
Enable OUT0 from
PDN ↑
t
stab
0.1 1 ms 4, 5
OUT Hi-Z from PDN ↓
t
pdn
1ms
OUT0 Hi-Z from PDN ↓
t
pdn
1ms
Load Capacitance
(IN/OUT, OUT0)
C
L
15 pF 6
Output Duty Cycle
IN/OUT, OUT0
40
40
60
60
%
%
Jitter J 100 pS 7
NOTES:
1. This is the maximum frequency which can be applied to OSCIN, or, the maximum crystal frequency
that can be used.
2. The values of M, N and the frequency of OSCIN (if used) must be chosen so that this spec is met.
3. This is the time from when V
CC
is applied until the output starts oscillating.
4. When the device is initially powered up, or restored from the power-down mode, OE should be
asserted (high). Otherwise the start of the t
stab
interval will be delayed until OE goes high. OE can
subsequently be returned to a low level during the t
stab
interval to force out low after the t
stab
interval.
If the external mode is selected t
stab
will be a function of the OSCIN period, i.e., external clock
frequency. See “Calculated Parameters” to determine the value of t
stab
in this case.
5. Although OE does not normally affect OUT0 operation, if OE is held low during power-up the start of
the t
stab
period will be delayed until OE is asserted. If OE remains low, OUT0 will not start.
6. Operation with higher capacitive loads is possible but may impair output voltage swing and maximum
operation frequency.
7. Parameter given is a typical max.
