DC Characteristics and Timing Specifications
Table 5–54. PLL Specifications Note (1) (Part 2 of 2)
Symbol
Parameter
Min
300
10
Typ
—
Max
1,000
—
Unit
MHz
ns
fVCO (3)
PLL internal VCO operating range
Minimum pulse width on aresetsignal.
tARESET
—
Notes to Table 5–54:
(1) These numbers are preliminary and pending silicon characterization.
(2) The tJITTER specification for the PLL[4..1]_OUTpins are dependent on the I/O pins in its VCCIObank, how many
of them are switching outputs, how much they toggle, and whether or not they use programmable current strength.
(3) If the VCO post-scale counter = 2, a 300- to 500-MHz internal VCO frequency is available.
(4) This parameter is limited in the Quartus II software by the I/O maximum frequency. The maximum I/O frequency
is different for each I/O standard.
(5) Cyclone II PLLs can track a spread-spectrum input clock that has an input jitter within 200 ps.
(6) For extended temperature devices, the maximum lock time is 500 us.
Duty cycle distortion (DCD) describes how much the falling edge of a
clock is off from its ideal position. The ideal position is when both the
clock high time (CLKH) and the clock low time (CLKL) equal half of the
clock period (T), as shown in Figure 5–8. DCD is the deviation of the
non-ideal falling edge from the ideal falling edge, such as D1 for the
falling edge A and D2 for the falling edge B (Figure 5–8). The maximum
DCD for a clock is the larger value of D1 and D2.
Duty Cycle
Distortion
Figure 5–8. Duty Cycle Distortion
Ideal Falling Edge
CLKH = T/2
CLKL = T/2
D1
D2
Falling Edge A
Falling Edge B
Clock Period (T)
DCD expressed in absolution derivation, for example, D1 or D2 in
Figure 5–8, is clock-period independent. DCD can also be expressed as a
percentage, and the percentage number is clock-period dependent. DCD
as a percentage is defined as:
Altera Corporation
February 2008
5–67
Cyclone II Device Handbook, Volume 1