MPC9773AE IDT, Integrated Device Technology Inc, MPC9773AE Datasheet - Page 12
MPC9773AE
Manufacturer Part Number
MPC9773AE
Description
IC PLL CLK GEN 1:12 3.3V 52-LQFP
Manufacturer
IDT, Integrated Device Technology Inc
Type
PLL Clock Generatorr
Datasheet
1.MPC9773AER2.pdf
(19 pages)
Specifications of MPC9773AE
Pll
Yes with Bypass
Input
LVCMOS, LVPECL
Output
LVCMOS
Number Of Circuits
1
Ratio - Input:output
3:12
Differential - Input:output
Yes/No
Frequency - Max
242.5MHz
Divider/multiplier
Yes/No
Voltage - Supply
3.135 V ~ 3.465 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
52-LQFP
Frequency-max
242.5MHz
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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MPC9773AER2
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IDT™ 3.3 V 1:12 LVCMOS PLL Clock Generator
Freescale Timing Solutions Organization has been acquired by Integrated Device Technology, Inc
MPC9773
3.3 V 1:12 LVCMOS PLL Clock Generator
σ) is specified. I/O jitter numbers for other confidence factors
(CF) can be derived from
Table 12. Confidence Factor CF
layout and can be used to fine-tune the effective delay
through each device.
offset and I/O jitter, using
maximum I/O jitter and the specified t
the input reference frequency results in a precise timing
performance analysis.
factor of 99.7% (± 3σ) is assumed, resulting in a worst-case
timing uncertainty from the common input reference clock to
any output of –455 ps to +455 ps relative to CCLK (PLL
feedback = ÷8, reference frequency = 50 MHz, VCO
frequency = 400 MHz, I/O jitter = 13 ps RMS max., static
phase offset t
MPC9773
12
Due to the statistical nature of I/O jitter, an RMS value (1
The feedback trace delay is determined by the board
Due to the frequency dependence of the static phase
In the following example calculation an I/O jitter confidence
± 1σ
± 2σ
± 3σ
± 4σ
± 5σ
± 6σ
160
140
120
100
CF
t
t
80
60
40
20
SK(PP)
SK(PP)
0
200
Maximum I/O Phase Jitter versus Frequency Parameter:
FB =÷4
FB = ÷32
= [–166ps...166ps] + [–250ps...250ps] +
= [–455ps...455ps] + t
(∅)
[(13ps ⋅ –3)...(13ps ⋅ 3)] + t
Figure 9. MPC9773 I/O Jitter
250
= ± 166 ps):
FB = ÷16
PLL Feedback Divider FB
FB = ÷8
Probability of Clock Edge
300
VCO frequency [MHz]
within the Distribution
Figure 9
Table
0.68268948
0.95449988
0.99730007
0.99993663
0.99999943
0.99999999
12.
350
to
PD, LINE(FB)
(∅
Figure 11
)
parameter relative to
PD, LINE(FB)
400
to predict a
450
480
12
Driving Transmission Lines
speed signals in a terminated transmission line environment.
To provide the optimum flexibility to the user, the output
drivers were designed to exhibit the lowest impedance
possible. With an output impedance of less than 20 Ω, the
drivers can drive either parallel or series terminated
transmission lines. For more information on transmission
lines the reader is referred to Freescale Semiconductor
application note AN1091. In most high-performance clock
networks point-to-point distribution of signals is the method of
choice. In a point-to-point scheme, either series terminated or
parallel terminated transmission lines can be used. The
parallel technique terminates the signal at the end of the line
with a 50-Ω resistance to V
The MPC9773 clock driver was designed to drive high
120
100
140
120
100
80
60
40
20
60
40
20
80
0
0
200
200
Maximum I/O Phase Jitter versus Frequency Parameter:
Maximum I/O Phase Jitter versus Frequency Parameter:
FB = ÷12
FB = ÷6
Figure 10. MPC9773 I/O Jitter
Figure 11. MPC9773 I/O Jitter
250
250
FB = ÷24
FB = ÷20
PLL Feedback Divider FB
PLL Feedback Divider FB
FB = ÷10
FB = ÷40
Advanced Clock Drivers Device Data
300
300
VCO frequency [MHz]
VCO frequency [MHz]
CC
÷ 2.
350
350
Freescale Semiconductor
400
400
450
450
NETCOM
480
480
MPC9773
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