AD9514BCPZ Analog Devices Inc, AD9514BCPZ Datasheet - Page 22
AD9514BCPZ
Manufacturer Part Number
AD9514BCPZ
Description
IC CLOCK DIST 3OUT PLL 32LFCSP
Manufacturer
Analog Devices Inc
Type
Fanout Buffer (Distribution), Dividerr
Datasheet
1.AD9514BCPZ-REEL7.pdf
(28 pages)
Specifications of AD9514BCPZ
Number Of Circuits
1
Ratio - Input:output
1:3
Differential - Input:output
Yes/Yes
Input
Differential
Output
CMOS, LVDS, LVPECL
Frequency - Max
1.6GHz
Voltage - Supply
3.135 V ~ 3.465 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
32-LFCSP
Frequency-max
1.6GHz
No. Of Multipliers / Dividers
3
No. Of Amplifiers
4
Supply Voltage Range
3.135V To 3.465V
Slew Rate
1V/ns
Operating Temperature Range
-40°C To +85°C
Digital Ic Case Style
LFCSP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
AD9514/PCBZ - BOARD EVAL CLOCK 3CH AD9514
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
AD9514BCPZ
Manufacturer:
ADI
Quantity:
526
AD9514
DIVIDER PHASE OFFSET
The phase of OUT1 or OUT2 can be selected, depending on the
divide ratio and output configuration chosen. This allows, for
example, the relative phase of OUT0 and OUT1 to be set.
After a SYNC operation (see the Synchronization section), the
phase offset word of each divider determines the number of
input clock (CLK) cycles to wait before initiating a clock output
edge. By giving each divider a different phase offset, output-to-
output delays can be set in increments of the fast clock period, t
Figure 29 shows four cases, each with the divider set to divide = 4.
By incrementing the phase offset from 0 to 3, the output is
offset from the initial edge by a multiple of t
DIVIDER OUTPUT
For example:
For Divide = 4:
The outputs can also be described as:
Setting the phase offset to Phase = 4 results in the same relative
phase as Phase = 0° or 360°.
Figure 29. Phase Offset—Divider Set for Divide = 4, Phase Set from 0 to 2
CLOCK INPUT
CLK = 491.52 MHz
t
Phase Offset 0 = 0 ns
Phase Offset 1 = 2.0345 ns
Phase Offset 2 = 4.069 ns
Phase Offset 3 = 6.104 ns
Phase Offset 0 = 0°
Phase Offset 1 = 90°
Phase Offset 2 = 180°
Phase Offset 3 = 270°
CLK
PHASE = 0
PHASE = 1
PHASE = 2
PHASE = 3
= 1/491.52 = 2.0345 ns
DIV = 4
CLK
0
3 × t
1
CLK
t
2
CLK
3
t
2 × t
4
CLK
CLK
5
6
7
8
9
CLK
10
.
11 12
13
14
CLK
Rev. 0 | Page 22 of 28
1
5
.
The resolution of the phase offset is set by the fast clock period
(t
divide ratio, up to a phase offset of 15.
Phase offsets can be related to degrees by calculating the phase
step for a particular divide ratio:
Using some of the same examples:
DELAY BLOCK
OUT2 includes an analog delay element that gives variable time
delays (ΔT) in the clock signal passing through that output.
The amount of delay that can be used is determined by the
output frequency. The amount of delay is limited to less than
one-half cycle of the clock period. For example, for a 10 MHz
clock, the delay can extend to the full 10 ns maximum.
However, for a 100 MHz clock, the maximum delay is less than
5 ns (or half of the period).
The AD9514 allows for the selection of three full-scale delays,
1.5 ns, 5 ns, and 10 ns, set by delay full scale (see Table 10). Each
of these full-scale delays can be scaled by 16 fine adjustment
values, which are set by the delay word (see Table 12).
The delay block adds some jitter to the output. This means that
the delay function should be used primarily for clocking digital
chips, such as FPGA, ASIC, DUC, and DDC, rather than for
supplying a sample clock for data converters. The jitter is higher
for longer full scales because the delay block uses a ramp and
trip points to create the variable delay. A longer ramp means
more noise has a chance of being introduced.
CLOCK INPUT
CLK
Phase Step = 360°/Divide Ratio
Divide = 4
Phase Step = 360°/4 = 90°
Unique Phase Offsets in Degrees Are Phase = 0°, 90°,
Divide = 9
Phase Step = 360°/9 = 40°
Unique Phase Offsets in Degrees Are Phase = 0°, 40°, 80°,
) at CLK. The maximum unique phase offset is less than the
180°, 270°
120°, 160°, 200°, 240°, 280°, 320°
∅SELECT
÷N
Figure 30. Analog Delay Block
FULL SCALE : 1.5ns, 5ns, 10ns
FINE DELAY ADJUST
(16 STEPS)
ΔT
OUT2 ONLY
CMOS
LVDS
OUTPUT
DRIVER
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