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Integrated Device Technology - Synchronization Management Unit

Numéro de référence 82P33813
Description Synchronization Management Unit
Fabricant Integrated Device Technology 
Logo Integrated Device Technology 





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Synchronization Management Unit for
IEEE 1588 and synchronous Ethernet
82P33813
Short Form Datasheet
This is a short form datasheet and is intended to provide an overview only. Additional details are available from IDT. Contact information may be found on
the last page.
HIGHLIGHTS
• Synchronization Management Unit (SMU) provides tools to manage
physical layer and packet based synchronous clocks for IEEE 1588 /
PTP Telecom Profile applications
• Supports independent IEEE 1588 and Synchronous Ethernet
(SyncE) timing paths
• Combo mode provides SyncE physical layer frequency support for
IEEE 1588 Telecom Boundary Clock (T-BC) and Telecom Time Slave
Clocks (T-TSC) per G.8273.2
• Digital PLL 1 (DPLL1) and DPLL 2 can be configured as Digitally
Controlled Oscillators (DCOs) for PTP clock synthesis
• DCO frequency resolution is [(77760 / 1638400) * 2^-48] or
~1.686305041e-10 ppm
• DPLL1 and DPLL2 generate G.8262 compliant SyncE clocks
• Two independent Time of Day (ToD) counters/time accumulators, one
associated with each of DPLL1 and DPLL2, can be used to track dif-
ferences between the two time domains and to time-stamp external
events
• DPLL3 performs rate conversions to frequency synchronization inter-
faces or for other general purpose timing applications
• APLL generates clocks with jitter < 1 ps RMS (12 kHz to 20 MHz) for:
1000BASE-T and 1000BASE-X
• Fractional-N input dividers support a wide range of reference fre-
quencies
• Locks to 1 Pulse Per Second (PPS) references
• It can be configured from an external EEPROM after reset
FEATURES
• Differential reference inputs (IN1 to IN4) accept clock frequencies
between 1 PPS and 650 MHz
• Single ended inputs (IN5 to IN6) accept reference clock frequencies
between 1 PPS and 162.5 MHz
• Loss of Signal (LOS) pins (LOS0 to LOS3) can be assigned to any
clock reference input
• Reference monitors qualify/disqualify references depending on activ-
ity, frequency and LOS pins
• Automatic reference selection state machines select the active refer-
ence for each DPLL based on the reference monitors, priority tables,
revertive and non-revertive settings and other programmable settings
• Fractional-N input dividers enable the DPLLs to lock to a wide range
of reference clock frequencies including: 10/100/1000 Ethernet, 10G
Ethernet, OTN, SONET/SDH, PDH, TDM, GSM, CPRI and GNSS
frequencies
• Any reference input (IN1 to IN6) can be designated as external sync
pulse inputs (1 PPS, 2 kHz, 4 kHz or 8 kHz) associated with a select-
able reference clock input
• FRSYNC_8K_1PPS and MFRSYNC_2K_1PPS output sync pulses
that are aligned with the selected external input sync pulse input and
frequency locked to the associated reference clock input
• DPLL1 and DPLL2 can be configured with bandwidths between 0.09
mHz and 567 Hz
• DPLL1 and DPLL2 lock to input references with frequencies between
1 PPS and 650 MHz
• DPLL3 locks to input references with frequencies between 8 kHz and
650 MHz
• DPLL1 and DPLL2 comply with ITU-T G.8262 for Synchronous
Ethernet Equipment Clock (EEC), and G.813 for Synchronous Equip-
ment Clock (SEC); and Telcordia GR-253-CORE for Stratum 3 and
SONET Minimum Clock (SMC)
• DPLL1 and DPLL2 generate clocks with PDH, TDM, GSM, CPRI/
OBSAI, 10/100/1000 Ethernet and GNSS frequencies; these clocks
are directly available on OUT1 and OUT5
• DPLL3 generates N x 8 kHz clocks up to 100 MHz that are output on
OUT6 and OUT7
• DPLL1 and DPLL2 can be configured as DCOs to synthesize IEEE
1588 clocks
• APLL can be connected to DPLL1 or DPLL2
• APLL generates 10/100/1000 Ethernet, 10G Ethernet, or SONET/
SDH frequencies
• Any of eight common TCXO/OCXO frequencies can be used for the
System Clock: 10 MHz, 12.8 MHz, 13 MHz, 19.44 MHz, 20 MHz,
24.576 MHz, 25 MHz or 30.72 MHz
• The I2C slave, SPI or the UART interface can be used by a host pro-
cessor to access the control and status registers
• The I2C master interface can automatically load a device configura-
tion from an external EEPROM after reset
• Differential outputs OUT3 and OUT4 output clocks with frequencies
between 1 PPS and 650 MHz
• Single ended outputs OUT1, OUT2 and OUT5 output clocks with fre-
quencies between 1 PPS and 125 MHz
• DPLL1 and DPLL2 support independent programmable delays for
each of IN1 to IN6; the delay for each input is programmable in steps
of 0.61 ns with a range of ~±78 ns
• The input to output phase delay of DPLL1 and DPLL2 is programma-
ble in steps of 0.0745 ps with a total range of ±20 μs
• The clock phase of each of the output dividers for OUT1 (from APLL)
to OUT4 is individually programmable in steps of ~200 ps with a total
range of +/-180°
• 1149.1 JTAG Boundary Scan
• 72-pin QFN green package
APPLICATIONS
• Access routers, edge routers, core routers
• Carrier Ethernet switches
• Multiservice access platforms
• Optical network terminal (ONT)
• Distribution point Unit (DPU)
• PON OLT
• LTE eNodeB
• IEEE 1588 / PTP Telecom Profile clock synthesizer
• ITU-T G.8273.2 Telecom Time Slave Clock (T-TSC)
• ITU-T G.8264 Synchronous Equipment Timing Source (SETS)
• ITU-T G.8263 Packet-based Equipment Clock (PEC)
• ITU-T G.8262 Synchronous Ethernet Equipment Clock (EEC)
• ITU-T G.813 Synchronous Equipment Clock (SEC)
• Telcordia GR-253-CORE Stratum 3 Clock (S3) and SONET Minimum
Clock (SMC)
©2016 Integrated Device Technology, Inc.
1
March 16, 2016

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