Synchronous Equipment Timing Source for
Synchronous Ethernet
HIGHLIGHTS
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82P33714
SHORT FORM DATA SHEET
DPLL1 complies with ITU-T G.8262 for Synchronous Ethernet Equip-
ment Clock (EEC), and G.813 for Synchronous Equipment Clock
(SEC); and Telcordia GR-253-CORE/ GR-1244-CORE for Stratum 3
and SONET Minimum Clock (SMC)
DPLL1 generates clocks with PDH, TDM, GSM, CPRI/OBSAI, 10/
100/1000 Ethernet and GNSS frequencies; these clocks are directly
available on OUT1 and OUT8
DPLL2 generates N x 8 kHz clocks up to 100 MHz that are output on
OUT9 and OUT10
APLL1 and APLL2 are connected to DPLL1
APLL1 and APLL2 generate 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 to OUT6 output clocks with frequencies
between 1 PPS and 650 MHz
Single ended outputs OUT1, OUT2, OUT7 and OUT8 output clocks
with frequencies between 1 PPS and 125 MHz
Single ended outputs OUT9 and OUT10 output clocks N*8 kHz multi-
ples up to 100 MHz
DPLL1 supports 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 is programmable 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
APLL1) to OUT8 is individually programmable in steps of ~200 ps
with a total range of +/-180°
1149.1 JTAG Boundary Scan
72-pin QFN green package
Access routers, edge routers, core routers
Carrier Ethernet switches
Multiservice access platforms
PON OLT
LTE eNodeB
ITU-T G.8264 Synchronous Equipment Timing Source (SETS)
ITU-T G.8262 Synchronous Ethernet Equipment Clock (EEC)
ITU-T G.813 Synchronous Equipment Clock (SEC)
Telcordia GR-253-CORE/GR1244-CORE Stratum 3 Clock (S3) and
SONET Minimum Clock (SMC)
Synchronous Equipment Timing Source (SETS) for Synchronous
Ethernet (SyncE) per ITU-T G.8264
DPLL1 generates ITU-T G.8262 compliant SyncE clocks, Telcordia
GR-1244-CORE/GR-253-CORE, and ITU-T G.813 compliant
SONET/SDH clocks
DPLL2 performs rate conversions for synchronization interfaces or
for other general purpose timing applications
DPLL1 can be configured as a Digitally Controlled Oscillators (DCOs)
for PTP clock synthesis
DCO frequency resolution is [(77760 / 1638400) * 2^-48] or
~1.686305041e-10 ppm
APLL1 and APLL2 generate 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
DPLLs, APLL1 and APLL2 can be configured from an external
EEPROM after reset
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 inputs (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 can be configured with bandwidths between 0.09 mHz and
567 Hz
DPLL1 locks to input references with frequencies between 1 PPS and
650 MHz
DPLL2 locks to input references with frequencies between 8 kHz and
650 MHz
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FEATURES
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APPLICATIONS
82P33714 REVISION 1 10/20/14
1
©2014 Integrated Device Technology, Inc.
82P33714 SHORT FORM DATA SHEET
DESCRIPTION
The 82P33714 Synchronous Equipment Timing Source (SETS) for Synchronous Ethernet (SyncE) provides tools to manage timing references,
clock generation and timing paths for SyncE based clocks, per ITU-T G.8264 and ITU-T G.8262. 82P33714 meets the requirements of ITU-T G.8262
for synchronous Ethernet Equipment Clocks (EECs) and ITU-T G.813 for Synchronous Equipment Clocks (SEC). The device outputs low-jitter clocks
that can directly synchronize Ethernet interfaces; as well as SONET/SDH and PDH interfaces.
The 82P33714 accepts four differential reference inputs and two single ended reference inputs that can operate at common GNSS, Ethernet,
SONET/SDH and PDH frequencies that range from 1 Pulse Per Second (PPS) to 650 MHz. The references are continually monitored for loss of sig-
nal and for frequency offset per user programmed thresholds. All of the references are available to both Digital PLLs (DPLLs). The active reference for
each DPLL is determined by forced selection or by automatic selection based on user programmed priorities and locking allowances and based on
the reference monitors and LOS inputs.
The 82P33714 can accept a clock reference and an associated phase locked sync signal as a pair. DPLL1 can lock to the clock reference and
align the frame sync and multi-frame sync outputs with the paired sync input. The device allows any of the differential or single ended reference inputs
to be configured as sync inputs that can be associated with any of the other differential or single ended reference inputs. The input sync signals can
have a frequency of 1 PPS, 2 kHz, 4 kHz or 8 kHz. This feature enables DPLL1 to phase align its frame sync and multi-frame sync outputs with a sync
input without the need use a low bandwidth setting to lock directly to the sync input.
The DPLLs support three primary operating modes: Free-Run, Locked and Holdover. In Free-Run mode the DPLLs synthesize clocks based on
the system clock alone. In Locked mode the DPLLs filter reference clock jitter with the selected bandwidth. In Locked mode, the long-term output fre-
quency accuracy is the same as the long term frequency accuracy of the selected input reference. In Holdover mode, the DPLL uses frequency data
acquired while in Locked mode to generate accurate frequencies when input references are not available.
DPLL1 also supports DCO mode. In DCO mode the DPLL control loop is opened and the DCO can be controlled by an IEEE 1588 clock recovery
servo running on an external processor to synthesize IEEE 1588 clocks.
The 82P33714 requires a system clock for its reference monitors and other digital circuitry. The frequency accuracy of the system clock deter-
mines the frequency accuracy of the DPLLs in Free-Run mode. The frequency stability of the system clock determines the frequency stability of the
DPLLs in Free-Run mode and in Holdover mode; and it affects the wander generation of the DPLLs in Locked mode.
When used with a suitable system clock, DPLL1 meets the frequency accuracy, pull-in, hold-in, pullout, noise generation, noise tolerance, tran-
sient response, and holdover performance requirements of the following applications: ITU-T G.8262/G.813 EEC/SEC options 1 and 2, Telcordia GR-
1244 Stratum 3 (S3), Telcordia GR-253-CORE S3 and SONET Minimum Clock (SMC).
DPLL1 can be configured with a range of selectable filtering bandwidths from 0.09 mHz to 567 Hz. The 17 mHz bandwidth can be used to lock the
DPLL directly to a 1 PPS reference. The 92 mHz bandwidth can be used for G.8262/G.813 Option 2, or Telcordia GR-253-CORE S3, or SMC applica-
tions. The bandwidths in the range 1.1 Hz to 8.9 Hz can be used for G.8262/G.813 Option 1 applications. The bandwidth of 1.1 Hz or 2.2 Hz can be
used for Telcordia GR-1244-CORE S3 applications. Bandwidths above 10 Hz can be used in jitter attenuation and rate conversion applications.
DPLL2 is a wideband (BW > 25Hz) frequency translator that can be used, for example, to convert a recovered line clock to a 1.544 MHz or 2.048
MHz synchronization interface clock.
For SETS applications per ITU-T G.8264, DPLL1 is configured as an EEC/SEC to output clocks for the T0 reference point and DPLL2 is used to
output clocks for the T4 reference point.
Clocks generated by DPLL1 can be passed through APLL1 or APLL2 which are LC based jitter attenuating Analog PLLs (APLLs). The output
clocks generated by APLL1 and APLL2 are suitable for serial GbE and lower rate interfaces.
All 82P33714 control and status registers are accessed through an I2C slave, SPI or UART interface. For configuring the DPLLs, APLL1 and
APLL2, the I2C master interface can automatically load a configuration from an external EEPROM after reset.
SYNCHRONOUS EQUIPMENT TIMING SOURCE FOR
SYNCHRONOUS ETHERNET
2
REVISION 1 10/20/14
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82P33714 SHORT FORM DATA SHEET
FUNCTIONAL BLOCK DIAGRAM
System Clock
LOS0 / XO_FREQ0
LOS1 / XO_FREQ1
LOS2 / XO_FREQ2
LOS3
SYS PLL
OutDiv
OutDiv
APLL1
OutDiv
OutDiv
OUT1
OUT2
OUT3 (P/N)
OUT4 (P/N)
IN1(P/N)
IN2(P/N)
IN3(P/N)
IN4(P/N)
IN5
IN6
Reference
monitors
Reference
selection
Frac-N input
dividers
DPLL2
(T4)
ex_sync module
I2C Master
I2C Slave,
SPI, UART
Control and
Status
Registers
DPLL1
(T0)
APLL2
OutDiv
OutDiv
OutDiv
OutDiv
OutDiv
OutDiv
OUT5 (P/N)
OUT6 (P/N)
OUT7
OUT8
OUT9
OUT10
FRSYNC_8K_1PPS
MFRSYNC_2K_1PPS
JTAG
Figure 1. Functional Block Diagram
REVISION 1 10/20/14
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SYNCHRONOUS EQUIPMENT TIMING SOURCE FOR
SYNCHRONOUS ETHERNET
82P33714 SHORT FORM DATA SHEET
1
PIN ASSIGNMENT
SONET/SDH/LOS3
OUT9
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
DPLL1_LOCK
54
53
52
51
50
OUT5_NEG
OUT6_POS
OUT6_NEG
OUT5_POS
INT_REQ
VDDDO
VDDDO
VDDAO
VDDAO
OUT10
MS/SL
VDDD
OUT7
OUT8
IC
VC2
VDDA
VDDA
VDDA
VDDA
OSCi
XO_FREQ0/LOS0
XO_FREQ1/LOS1
XO_FREQ2/LOS2
VDDA
VDDA
VDDA
VC1
TMS
TRSTB
TCK
TDI
TDO
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
DPLL2_LOCK
VDDD_1_8
RSTB
SDO/I2C_SDA/UART_TX
SCLK/I2C_SCL
CS/I2C_AD0
CLKE/I2C_AD1
SDI/I2C_AD2/UART_RX
MPU_MODE1/I2CM_SCL
MPU_MODE0/I2CM_SDA
MFRSYNC_2K_1PPS
FRSYNC_8K_1PPS
VDDD_1_8
IN6
VDDD
IN4_NEG
IN4_POS
IN5
8XXXXXX
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48
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46
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44
43
42
41
40
39
38
37
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82P33714
OUT4_NEG
IN1_NEG
IN2_NEG
OUT3_NEG
OUT4_POS
OUT3_POS
Figure 2. Pin Assignment (Top View)
SYNCHRONOUS EQUIPMENT TIMING SOURCE FOR
SYNCHRONOUS ETHERNET
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IN3_NEG
VSSAO
VSSAO
VDDDO
VDDDO
VDDAO
VDDAO
IN1_POS
IN2_POS
IN3_POS
OUT2
OUT1
REVISION 1 10/20/14
82P33714 SHORT FORM DATA SHEET
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PIN DESCRIPTION
Pin No.
Name
I/O
Type
Global Control Signal
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OSCI
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pull-up
CMOS
OSCI: Crystal Oscillator System Clock
A clock provided by a crystal oscillator is input on this pin. It is the system clock for the
device. The oscillator frequency is selected via pins XO_FREQ0 ~ XO_FREQ2
MS/SL: Master / Slave Selection
This pin, together with the MS_SL_CTRL bit, controls whether the device is configured as the
Master or as the Slave. The signal level on this pin is reflected by the MASTER_SLAVE bit.
SONET/SDH: SONET / SDH Frequency Selection
During reset, this pin determines the default value of the IN_SONET_SDH bit:
High: The default value of the IN_SONET_SDH bit is ‘1’ (SONET);
Low: The default value of the IN_SONET_SDH bit is ‘0’ (SDH).
After reset, the value on this pin takes no effect.
LOS3- This pin is used to disqualify input clocks. See input clocks section for more details.
RSTB: Reset
A low pulse of at least 50 µs on this pin resets the device.
If loading from an EEPROM, the maximum time from RSTB de-assert to have stable clocks
is 100ms. If not loading from EEPROM the maximum time from RSTB de-assert to have sta-
ble clocks is 10 ms.
Description
Table 1: Pin Description
58
MS/SL
CMOS
59
SONET/SDH/
LOS3
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pull-down
CMOS
52
RSTB
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pull-up
CMOS
7
8
9
XO_FREQ0/
LOS0
XO_FREQ1/
LOS1
XO_FREQ2/
LOS2
31
32
33
34
35
36
38
39
37
IN1_POS
IN1_NEG
IN2_POS
IN2_NEG
IN3_POS
IN3_NEG
IN4_POS
IN4_NEG
IN5
41
IN6
XO_FREQ0 ~ XO_FREQ2:
These pins set the oscillator frequency.
XO_FREQ[2:0] Oscillator Frequency (MHz)
000
10.000
001
12.800
010
13.000
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011
19.440
CMOS
pull-down
100
20.000
101
24.576
110
25.000
111
30.720
LOS0 ~ LOS2 -
These pins are used to disqualify input clocks. See input clocks section for
more details. After reset, this pin takes on the operation of LOS0-LOS2
Input Clock and Frame Synchronization Input Signal
IN1_POS / IN1_NEG: Positive / Negative Input Clock 1
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PECL/LVDS A reference clock is input on this pin.This pin can also be used as a sync input, and in this
case a 2 kHz, 4 kHz, 8 kHz, or 1PPS signal can be input on this pin.
IN2_POS / IN2_NEG: Positive / Negative Input Clock 1
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PECL/LVDS A reference clock is input on this pin.This pin can also be used as a sync input, and in this
case a 2 kHz, 4 kHz, 8 kHz, or 1PPS signal can be input on this pin.
IN3_POS / IN3_NEG: Positive / Negative Input Clock 3
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PECL/LVDS A reference clock is input on this pin.This pin can also be used as a sync input, and in this
case a 2 kHz, 4 kHz, 8 kHz, or 1PPS signal can be input on this pin.
IN4_POS / IN4_NEG: Positive / Negative Input Clock 4
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PECL/LVDS A reference clock is input on this pin.This pin can also be used as a sync input, and in this
case a 2 kHz, 4 kHz, 8 kHz, or 1PPS signal can be input on this pin.
IN5: Input Clock 5
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CMOS
A reference clock is input on this pin.This pin can also be used as a sync input, and in this
pull-down
case a 2 kHz, 4 kHz, 8 kHz, or 1PPS signal can be input on this pin.
IN6: Input Clock 6
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CMOS
A reference clock is input on this pin.This pin can also be used as a sync input, and in this
pull-down
case a 2 kHz, 4 kHz, 8 kHz, or 1PPS signal can be input on this pin.
REVISION 1 10/20/14
1
SYNCHRONOUS EQUIPMENT TIMING SOURCE FOR
SYNCHRONOUS ETHERNET
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