FemtoClock® NG Octal Universal
Frequency Translator
8T49N285
Datasheet
General Description
Features
The 8T49N285 has a fractional-feedback PLL that can be used as a
jitter attenuator or frequency translator. It is equipped with six integer
and two fractional output dividers, allowing the generation of up to 8
different output frequencies, ranging from 8kHz to 1GHz. Three of
these frequencies are completely independent of each other and the
inputs. The other five are related frequencies. The eight outputs may
select among LVPECL, LVDS, HCSL or LVCMOS output levels.
• Supports SDH/SONET and Synchronous Ethernet clocks
including all FEC rate conversions
• <0.3ps RMS typical jitter (including spurs),12kHz to 20MHz
• Operating modes: locked to input signal, holdover and free-run
• Initial holdover accuracy of ±50ppb
• Accepts two LVPECL, LVDS, LVHSTL, HCSL or LVCMOS
input clocks
This functionality makes it ideal to be used in any frequency
translation application, including 1G, 10G, 40G and 100G
Synchronous Ethernet, OTN, and SONET/SDH, including ITU-T
G.709 (2009) FEC rates. The device may also behave as a frequency
synthesizer.
• Accepts frequencies ranging from 8kHz up to 875MHz
• Auto and manual input clock selection with hitless switching
• Clock input monitoring, including support for gapped clocks
• Phase-Slope Limiting and Fully Hitless Switching options to
The 8T49N285 accepts up to two differential or single-ended input
clocks and a crystal input. The PLL can lock to either input clock, but
both input clocks must be related in frequency.
control output phase transients
• Operates from a 10MHz to 40MHz fundamental-mode crystal
• Generates 8 LVPECL/LVDS/HCSL or 16 LVCMOS output clocks
• Output frequencies ranging from 8kHz up to 1.0GHz (diff)
• Output frequencies ranging from 8kHz to 250MHz (LVCMOS)
The device supports hitless reference switching between input
clocks. The device monitors both input clocks for Loss of Signal
(LOS). It generates an alarm when an input clock failure is detected.
Automatic and manual hitless reference switching options are
supported. LOS behavior can be set to support gapped or un-gapped
clocks.
• Four General Purpose I/O pins with optional support for status &
control:
The 8T49N285 supports holdover with an initial accuracy of ±50ppB
from the point where the loss of all applicable input reference(s) has
been detected. It maintains a historical average operating point that
may be returned to in holdover at a limited phase slope.
• Four Output Enable control inputs may be mapped to any of the
eight outputs
• Lock, Holdover & Loss-of-Signal status outputs
• Open-drain Interrupt pin
The device places no constraints on input to output frequency
conversion, supporting all FEC rates, including the new revision of
ITU-T Recommendation G.709 (2009), most with 0ppm conversion
error.
• Nine programmable PLL loop bandwidth settings from 1.4Hz to
360Hz.
• Optional Fast Lock function
The PLL has a register-selectable loop bandwidth from 1.4Hz to
360Hz.
• Programmable output phase delays in steps as small as 16ps
• Register programmable through I2C or via external I2C EEPROM
• Bypass clock paths for system tests
Each output supports individual phase delay settings to allow
output-output alignment.
• Power supply modes
The device supports Output Enable inputs and Lock, Holdover and
LOS status outputs.
The device is programmable through an I2C interface. It also
supports I2C master capability to allow the register configuration to
be read from an external EEPROM.
VCC / VCCA / VCCO
3.3V / 3.3V / 3.3V
3.3V / 3.3V / 2.5V
3.3V / 3.3V / 1.8V (LVCMOS)
2.5V / 2.5V / 3.3V
2.5V / 2.5V / 2.5V
2.5V / 2.5V / 1.8V (LVCMOS)
Applications
• OTN or SONET / SDH equipment Line cards (up to OC-192, and
supporting FEC ratios)
• -40°C to 85°C ambient operating temperature
• Package: 56QFN, lead-free RoHs (6)
• OTN de-mapping (Gapped Clock and DCO mode)
• Gigabit and Terabit IP switches / routers including support of
Synchronous Ethernet
• SyncE (G.8262) applications
• Wireless base station baseband
• Data communications
• 100G Ethernet
©2016 Integrated Device Technology, Inc.
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Revision 5, October 26, 2016