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Número de pieza | MK2049-45 | |
Descripción | 3.3V Communications Clock PLL | |
Fabricantes | Integrated Circuit Systems | |
Logotipo | ||
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No Preview Available ! MK2049-45
3.3V Communications Clock PLL
Description
The MK2049-45 is a dual Phase-Locked Loop (PLL)
device which can provide frequency synthesis and jitter
attenuation. The first PLL is VCXO based and uses a
pullable crystal to track signal wander and attenuate
input jitter. The second PLL is a translator for frequency
multiplication. Basic configuration is determined by a
Mode/Frequency Selection Table. Loop bandwidth and
damping factor are programmable via external loop
filter component selection.
Buffer Mode accepts a 10 to 50MHz input and will
provide a jitter attenuated output at 0.5 x ICLK, 1 x
ICLK or 2 x ICLK. In this mode the MK2049-45 is ideal
for filtering jitter from high frequency clocks.
In External Mode, ICLK accepts an 8 kHz clock and will
produce output frequencies from a table of common
communciations clock rates, CLK and CLK/2. This
allows for the generation of clocks frequency-locked to
an 8 kHz backplane clock, simplifying clock
synchronization in communications systems.
The MK2049-45 can be dynamically switched between
T1, E1, T3, E3 outputs with the same 24.576 MHz
crystal.
ICS can customize these devices for many other
different frequencies. Contact your ICS representative
for more details.
Features
• Packaged in 20 pin SOIC
• 3.3 V + 5% operation
• Meets the TR62411, ETS300 011, and GR-1244
specification for MTIE, Pull-in/Hold-in Range, Phase
Transients, and Jitter Generation for Stratum 3, 4,
and 4E
• Accepts multiple inputs: 8 kHz backplane clock, or 10
to 50 MHz
• Locks to 8 kHz + 100 ppm (External mode)
• Buffer Mode allows jitter attenuation of 10 - 50 MHz
input and x1 / x0.5 or x1 / x2 outputs
• Exact internal ratios enable zero ppm error
• Output rates include T1, E1, T3, E3, and OC3
submultiples
• Available in Pb (lead) free package
• See also the MK2049-34 and MK2049-36
Block Diagram
RSET
ISET
CP
CS
RS
CAP2
CL
CAP1 X1
CL Optional Crystal Load Caps
External Pullable Crystal
X2
ICLK
Reference
Divider
(used in buffer
mode only)
Phase
Detector
VCXO
PLL
VCXO
Charge
Pump
Feedback
Divider (N)
www.DFaSt3a:0Sh4eet4UL.Docioovikmd-eurpVTaalbulee
Reference
Divider
VCO
Translator
PLL
Feedback
Divider
Output
Divider
Divide
by 2
CLK
CLK/2
8k
MDS 2049-45 G
1
Revision 101904
Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 ● tel (408) 297-1201 ● www.icst.com
1 page MK2049-45
3.3V Communications Clock PLL
Charge Pump Current Table
RSET
(kΩ)
13.02
15
16
18
20
22
24
27
36
47
56
75
100
150
200
Charge Pump Current
(ICP) (µA)
139
125
119
109
100
93
86
68
56
43
35
28
22
15
12
Special considerations must be made in choosing loop
components CS and CP. These recommendations can
be found at
http://www.icst.com/products/telecom/loopfiltercap.htm
Series Termination Resistor
Clock output traces over one inch should use series
termination. To series terminate a 50Ω trace (a
commonly used trace impedance), place a 33Ω resistor
in series with the clock line, as close to the clock output
pin as possible. The nominal impedance of the clock
output is 20Ω. (The optional series termination resistor
is not shown in the External Component Schematic.)
Decoupling Capacitors
As with any high performance mixed-signal IC, the
MK2049-45 must be isolated from system power
supply noise to perform optimally.
Decoupling capacitors of 0.01µF must be connected
between each VDD and the PCB ground plane. To
further guard against interfering system supply noise,
the MK2049-45 should use one common connection to
www.DthaetaSPhCeeBt4pUo.wcoemr plane as shown in the diagram on the
next page. The ferrite bead and bulk capacitor help
reduce lower frequency noise in the supply that can
lead to output clock phase modulation.
Recommended Power Supply Connection
for Optimal Device Performance
Connection to 3.3V
Power Plane
Ferrite
Bead
Bulk Decoupling Capacitor
(such as 1 µF Tantalum)
VDD Pin
VDD Pin
VDD Pin
0.01 µF Decoupling Capacitors
Crystal Load Capacitors
The device crystal connections should include pads for
small capacitors from X1 to ground and from X2 to
ground, shown as CL in the External Component
Schematic. These capacitors are used to adjust the
stray capacitance of the board to match the nominally
required crystal load capacitance. Because load
capacitance can only be increased in this trimming
process, it is important to keep stray capacitance to a
minimum by using very short PCB traces (and no vias)
been the crystal and device.
Please refer to MAN05 for the procedure to determine
capacitor values.
PCB Layout Recommendations
For optimum device performance and lowest output
phase noise, the following guidelines should be
observed. Please also refer to the Recommended PCB
Layout drawing on Page 7.
1) Each 0.01 µF decoupling capacitor should be
mounted on the component side of the board as close
to the VDD pin as possible. No via’s should be used
between decoupling capacitor and VDD pin. The PCB
trace to VDD pin should be kept as short as possible,
as should the PCB trace to the ground via. Distance of
the ferrite bead and bulk decoupling from the device is
less critical.
2) The loop filter components must also be placed
close to the CHGP and VIN pins. CP should be closest
to the device. Coupling of noise from other system
MDS 2049-45 G
5
Revision 101904
Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 ● tel (408) 297-1201 ● www.icst.com
5 Page |
Páginas | Total 9 Páginas | |
PDF Descargar | [ Datasheet MK2049-45.PDF ] |
Número de pieza | Descripción | Fabricantes |
MK2049-45 | 3.3V Communications Clock PLL | Integrated Circuit Systems |
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