Duty Cycle Distortion
Table 5–55. Maximum DCD for Single Data Outputs (SDR) on Row I/O
Pins Notes (1), (2) (Part 2 of 2)
Row I/O Output Standard
C6
C7
C8
Unit
Differential SSTL-2 Class I
Differential SSTL-2 Class II
Differential SSTL-18 Class I
Differential HSTL-18 Class I
Differential HSTL-15 Class I
LVDS
60
65
90
75
90
75
ps
ps
ps
ps
ps
ps
ps
ps
ps
ps
90
165
155
145
60
165
155
205
60
85
145
60
Simple RSDS
60
60
60
Mini LVDS
60
60
60
PCI
195
195
255
255
255
255
PCI-X
Notes to Table 5–55:
(1) The DCD specification is characterized using the maximum drive strength
available for each I/O standard.
(2) Numbers are applicable for commercial, industrial, and automotive devices.
Here is an example for calculating the DCD as a percentage for an SDR
output on a row I/O on a –6 device:
If the SDR output I/O standard is SSTL-2 Class II, the maximum DCD is
65 ps (refer to Table 5–55). If the clock frequency is 167 MHz, the clock
period T is:
T = 1/ f = 1 / 167 MHz = 6 ns = 6000 ps
To calculate the DCD as a percentage:
(T/2 – DCD) / T = (6000 ps/2 – 65 ps) / 6000 ps = 48.91% (for low
boundary)
(T/2 + DCD) / T = (6000 ps/2 + 65 ps) / 6000ps = 51.08% (for high
boundary
Table 5–56. Maximum DCD for SDR Output on Column I/O Notes (1), (2)
(Part 1 of 2)
Column I/O Output Standard
C6
C7
C8
Unit
LVCMOS
LVTTL
195
210
285
305
285
305
ps
ps
5–70
Cyclone II Device Handbook, Volume 1
Altera Corporation
February 2008