FemtoClock® NG Jitter Attenuator
and Clock Synthesizer
8V19N491-24
Datasheet
Description
The 8V19N491-24 is a fully integrated FemtoClock NG Jitter
Attenuator and Clock Synthesizer that is designed as a
high-performance clock solution for conditioning and
Features
▪ High-performance clock RF-PLL with support for JESD204B/C
▪ Optimized for low phase noise: -155dBc/Hz (1MHz offset;
245.76MHz clock, and 491.52MHz VCXO)
frequency/phase management of wireless base station radio
equipment boards. The device is optimized to deliver excellent
phase noise performance as required in GSM, WCDMA, LTE, and
LTE-A radio board implementations. The device supports
JESD204B subclass 0 and 1 clocks. A two-stage PLL architecture
supports both jitter attenuation and frequency multiplication. The
first stage PLL is the jitter attenuator and uses an external VCXO
for best possible phase noise characteristics. The second stage
PLL locks on the VCXO-PLL output signal and synthesizes the
target frequency.
▪ Integrated phase noise of 80fs RMS typical (12k–20MHz).
▪ Dual-PLL architecture
▪ First PLL stage with external VCXO for clock jitter attenuation
▪ Second PLL with internal FemtoClock NG PLL: 2457.6MHz
▪ Six output channels with a total of 16 outputs, organized in:
• Four JESD204B channels (device clock and SYSREF
output) with two, four, and five outputs
• One clock channel with two outputs
• One VCXO output
▪ Configurable integer clock frequency dividers
The 8V19N491-24 supports the clock generation of
high-frequency clocks from the selected VCO and low-frequency
synchronization signals (SYSREF). SYSREF signals are internally
synchronized to the clock signals. Delay functions exist for
achieving alignment and controlled phase delay between system
reference and clock signals and to align/delay individual output
signals. The four redundant inputs are monitored for activity.
▪ Supported clock output frequencies include: 2457.6, 1228.8,
614.4, 491.52, 307.2, 245.76, 153.6, and 122.88MHz
▪ Low-power LVPECL/LVDS outputs support configurable signal
amplitude, DC and AC coupling, and LVPECL, LVDS line
terminations techniques
▪ Phase delay circuits
Four selectable clock switching modes are provided to handle
clock input failure scenarios. Auto-lock, individually programmable
output frequency dividers, and phase adjustment capabilities are
added for flexibility. The device is configured through a selectable
3/4-wire SPI interface and reports lock and signal loss status in
internal registers and via an lock detect (LOCK) output. Internal
status bit changes can also be reported via the nINT output.
• Clock phase delay with 256 steps of 407ps and a range of
0 to 103.76 ns
• Individual SYSREF phase delay with 8 steps of 407ps
• Additional individual SYSREF fine phase delay with
25ps steps
• Global SYSREF signal delay with 256 steps of 814ps and a
range of 0 to 207.52 ns
The 8V19N491-24 is ideal for driving converter circuits in wireless
infrastructure, radar/imaging and instrumentation/medical
applications.
▪ Redundant input clock architecture with two inputs including:
• Input activity monitoring
• Manual and automatic, fault-triggered clock selection modes
• Priority controlled clock selection
• Digital holdover and hitless switching
Typical Applications
▪ Wireless infrastructure applications: GSM, WCDMA, LTE,
LTE-A, 5G
• Differential inputs accept LVDS and LVPECL signals
▪ Ideal clock driver for jitter-sensitive ADC and DAC circuits
▪ Low phase noise clock generation
▪ Ethernet line cards
▪ SYSREF generation modes include internal and external
trigger mode for JESD204B
▪ Supply voltage: 3.3V
▪ Radar and imaging
▪ SPI interface, 3/4 wire configurable
▪ SPI and control I/O voltage: 1.8V/3.3V (configurable)
▪ Package: 10 10 mm, 88-VFQFPN
▪ Temperature range: -40°C to +105°C (Case)
▪ Instrumentation and medical
©2020-2023 Renesas Electronics Corporation
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R31DS0050EU0300 November 20, 2023