Data Sheet
AD9517-2
Rev. E | Page 43 of 80
Duty Cycle and Duty-Cycle Correction (0, 1)
The duty cycle of the clock signal at the output of a channel is a
result of some or all of the following conditions:
What are the M and N values for the channel?
Is the DCC enabled?
Is the VCO divider used?
What is the CLK input duty cycle? (The internal VCO has
a 50% duty cycle.)
The DCC function is enabled by default for each channel divider.
However, the DCC function can be disabled individually for
each channel divider by setting the DCCOFF bit for that channel.
Certain M and N values for a channel divider result in a non-50%
duty cycle. A non-50% duty cycle can also result with an even
division, if M ≠ N. The duty-cycle correction function
automatically corrects non-50% duty cycles at the channel
divider output to 50% duty cycle. Duty-cycle correction
requires the following channel divider conditions:
An even division must be set as M = N.
An odd division must be set as M = N + 1.
When not bypassed or corrected by the DCC function, the duty
cycle of each channel divider output is the numerical value of
(N + 1)/(N + M + 2), expressed as a percentage (%).
The duty cycle at the output of the channel divider for various
Table 35. Duty Cycle with VCO Divider; Input Duty Cycle Is 50%
VCO
Divider
DX
Output Duty Cycle
N + M + 2
DCCOFF = 1
DCCOFF = 0
Even
1 (divider
bypassed)
50%
Odd = 3
1 (divider
bypassed)
33.3%
50%
Odd = 5
1 (divider
bypassed)
40%
50%
Even, Odd
Even
(N + 1)/
(N + M + 2)
50%; requires M = N
Even, Odd
Odd
(N + 1)/
(N + M + 2)
50%; requires M = N + 1
Table 36. Duty Cycle with VCO Divider; Input Duty Cycle Is X%
VCO
Divider
DX
Output Duty Cycle
N + M + 2
DCCOFF = 1
DCCOFF = 0
Even
1 (divider
bypassed)
50%
Odd = 3
1 (divider
bypassed)
33.3%
(1 + X%)/3
Odd = 5
1 (divider
bypassed)
40%
(2 + X%)/5
Even
(N + 1)/
(N + M + 2)
50%,
requires M = N
Odd
(N + 1)/
(N + M + 2)
50%,
requires M = N + 1
Odd = 3
Even
(N + 1)/
(N + M + 2)
50%,
requires M = N
Odd = 3
Odd
(N + 1)/
(N + M + 2)
(3N + 4 + X%)/(6N + 9),
requires M = N + 1
Odd = 5
Even
(N + 1)/
(N + M + 2)
50%,
requires M = N
Odd = 5
Odd
(N + 1)/
(N + M + 2)
(5N + 7 + X%)/(10N +
15), requires M = N + 1
Table 37. Channel Divider Output Duty Cycle When the
VCO Divider Is Not Used
Input
Clock
Duty
Cycle
DX
Output Duty Cycle
N + M + 2
DCCOFF = 1
DCCOFF = 0
Any
1
1 (divider
bypassed)
Same as input
duty cycle
Any
Even
(N + 1)/
(M + N + 2)
50%, requires M = N
50%
Odd
(N + 1)/
(M + N + 2)
50%, requires
M = N + 1
X%
Odd
(N + 1)/
(M + N + 2)
(N + 1 + X%)/(2 × N + 3),
requires M = N + 1
The internal VCO has a duty cycle of 50%. Therefore, when the
VCO is connected directly to the output, the duty cycle is 50%.
If the CLK input is routed directly to the output, the duty cycle of
the output is the same as the CLK input.