ZL30131GGG2

ZL30131
OC-192/STM-64 SONET/SDH/10GbE
Network Interface Synchronizer
Short Form Data Sheet
July 2009
Features
•
Ordering Information
Synchronizes to standard telecom or Ethernet
backplane clocks and provides jitter filtered output
clocks for SONET/SDH, PDH and Ethernet network
interface cards
•
Supports the requirements of ITU-T G.8262 for
synchronous Ethernet Equipment slave Clocks
(EEC option 1 and 2)
•
Two independent DPLLs provides timing for the
transmit path (backplane to line rate) and the
receive path (recovered line rate to backplane)
ZL30131GGG
100 Pin CABGA
Trays
ZL30131GGG2 100 Pin CABGA*
Trays
*Pb Free Tin/Silver/Copper
-40oC to +85oC
multiple of 8 kHz up to 100 MHz (e.g., T1/E1,
DS3/E3)
•
Synchronizes to telecom reference clocks (2 kHz,
N*8 kHz up to 77.76 MHz, 155.52 MHz) or to
Ethernet reference clocks (25 MHz, 50 MHz,
62.5 MHz, 125 MHz)
Generates several styles of output frame pulses
with selectable pulse width, polarity, and frequency
•
Configurable input to output delay and output to
output phase alignment
•
Selectable loop bandwidth of 14 Hz, 28 Hz, 890 Hz,
or 0.1 Hz
•
Configurable through a serial interface (SPI or I2C)
•
•
Supports automatic hitless reference switching and
short term holdover during loss of reference inputs
DPLLs can be configured to provide synchronous
or asynchronous clock outputs
•
Generates standard SONET/SDH clock rates (e.g.,
19.44 MHz, 38.88 MHz, 77.76 MHz, 155.52 MHz,
622.08 MHz) or Ethernet clock rates (e.g. 25 MHz,
50 MHz, 125 MHz, 156.25 MHz, 312.5 MHz) for
synchronizing Ethernet PHYs
•
•
Applications
Programmable output synthesizers (P0, P1)
generate telecom clock frequencies from any
•
ITU-T G.8262 Line Cards which support 1GbE and
10GbE interfaces
•
SONET line cards up to OC-192
•
SDH line cards up to STM-64
ref_out
osci
ref0
ref1
ref2
ref3
ref4
ref5
ref6
ref7
/N1
/N2
osco
diff0_p/n
Tx
DPLL
diff1_p/n
apll_clk0
apll_clk1
APLL
Input
Ports
sync0
sync1
sync2
p0_clk0
p0_clk1
p0_fp0
p0_fp1
P0
Ref Mon
Tx
ref0
p1_clk0
p1_clk1
P1
Rx
DPLL
ref7
Rx
mode hold
I2C/SPI
lock
JTAG
Figure 1 - Functional Block Diagram
1
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Zarlink, ZL and the Zarlink Semiconductor logo are trademarks of Zarlink Semiconductor Inc.
Copyright 2008-2009, Zarlink Semiconductor Inc. All Rights Reserved.
ZL30131
Short Form Data Sheet
Pin Description
Pin #
Name
I/O
Type
Description
Input Reference
C1
B2
A3
C3
B3
B4
C4
A4
ref0
ref1
ref2
ref3
ref4
ref5
ref6
ref7
Iu
Input References 7:0 (LVCMOS, Schmitt Trigger). These input references are
available to both the Tx DPLL and the Rx DPLL for synchronizing output clocks.
All eight input references can lock to any multiple of 8 kHz up to 77.76 MHz
including 25 MHz and 50 MHz. Input ref0 and ref1 have additional configurable
pre-dividers allowing input frequencies of 62.5 MHz, 125 MHz, and 155.52 MHz.
These pins are internally pulled up to Vdd.
B1
A1
A2
sync0
sync1
sync2
Iu
Frame Pulse Synchronization References 2:0 (LVCMOS, Schmitt Trigger).
These are optional frame pulse synchronization inputs associated with input
references 0, 1 and 2. These inputs accept frame pulses in a clock format (50%
duty cycle) or a basic frame pulse format with minimum pulse width of 5 ns.
These pins are internally pulled up to Vdd.
Output Clocks and Frame Pulses
A9
B10
diff0_p
diff0_n
O
Differential Output Clock 0 (LVPECL). When in SONET/SDH mode, this output
can be configured to provide any one of the available SONET/SDH clocks
(6.48 MHz, 19.44 MHz, 38.88 MHz, 51.84 MHz, 77.76 MHz, 155.52 MHz,
311.04 MHz, 622.08 MHz). When in Ethernet mode, this output can be
configured to provide any of the Ethernet clocks (25 MHz, 50 MHz, 62.5 MHz,
125 MHz, 156.25 MHz, 312.5 MHz). See “Output Clocks and Frame Pulses”
section on page 22 more detail on clock frequency settings.
A10
B9
diff1_p
diff1_n
O
Differential Output Clock 1 (LVPECL). When in SONET/SDH mode, this output
can be configured to provide any one of the available SONET/SDH clocks
(6.48 MHz, 19.44 MHz, 38.88 MHz, 51.84 MHz, 77.76 MHz, 155.52 MHz,
311.04 MHz, 622.08 MHz). When in Ethernet mode, this output can be
configured to provide any of the Ethernet clocks (25 MHz, 50 MHz, 62.5 MHz,
125 MHz, 156.25 MHz, 312.5 MHz). See “Output Clocks and Frame Pulses”
section on page 22 more detail on clock frequency settings.
D10
apll_clk0
O
APLL Output Clock 0 (LVCMOS). This output can be configured to provide any
one of the SONET/SDH clock outputs up to 77.76 MHz or any of the Ethernet
clock rates up to 125 MHz. The default frequency for this output is 77.76 MHz.
G10
apll_clk1
O
APLL Output Clock 1 (LVCMOS). This output can be configured to provide any
one of the SONET/SDH clock outputs up to 77.76 MHz or any of the Ethernet
clock rates up to 125 MHz. The default frequency for this output is 19.44 MHz.
K9
p0_clk0
O
Programmable Synthesizer 0 - Output Clock 0 (LVCMOS). This output can be
configured to provide any frequency with a multiple of 8 kHz up to 100 MHz in
addition to 2 kHz. The default frequency for this output is 2.048 MHz.
K7
p0_clk1
O
Programmable Synthesizer 0 - Output Clock 1 (LVCMOS). This is a
programmable clock output configurable as a multiple or division of the p0_clk0
frequency within the range of 2 kHz to 100 MHz. The default frequency for this
output is 8.192 MHz.
K8
p0_fp0
O
Programmable Synthesizer 0 - Output Frame Pulse 0 (LVCMOS). This output
can be configured to provide virtually any style of output frame pulse associated
with the p0 clocks. The default frequency for this frame pulse output is 8 kHz.
5
Zarlink Semiconductor Inc.
ZL30131
Short Form Data Sheet
Pin #
Name
I/O
Type
J7
p0_fp1
O
Programmable Synthesizer 0 - Output Frame Pulse 1 (LVCMOS). This output
can be configured to provide virtually any style of output frame pulse associated
with the p0 clocks. The default frequency for this frame pulse output is 8 kHz
J10
p1_clk0
O
Programmable Synthesizer 1 - Output Clock 0 (LVCMOS). This output can be
configured to provide any frequency with a multiple of 8 kHz up to 100 MHz in
addition to 2 kHz. The default frequency for this output is 1.544 MHz (DS1).
K10
p1_clk1
O
Programmable Synthesizer1 - Output Clock 1 (LVCMOS). This is a
programmable clock output configurable as a multiple or division of the p1_clk0
frequency within the range of 2 kHz to 100 MHz. The default frequency for this
output is 3.088 MHz (2x DS1).
E1
ref_out
O
Rx DPLL Selected Output Reference (LVCMOS). This is a buffered copy of the
output of the reference selector for the Rx DPLL. Switching between input
reference clocks at this output is not hitless.
H5
rst_b
I
Reset (LVCMOS, Schmitt Trigger). A logic low at this input resets the device. To
ensure proper operation, the device must be reset after power-up. Reset should
be asserted for a minimum of 300 ns.
J5
hs_en
Iu
Tx DPLL Hitless Switching Enable (LVCMOS, Schmitt Trigger). A logic high
at this input enables hitless reference switching. A logic low disables hitless
reference switching and re-aligns the Tx DPLL’s output phase to the phase of the
selected reference input. This feature can also be controlled through software
registers. This pin is internally pulled up to Vdd.
C2
D2
mode_0
mode_1
Iu
Tx DPLL Mode Select 1:0 (LVCMOS, Schmitt Trigger). During reset, the levels
on these pins determine the default mode of operation for the Tx DPLL
(Automatic, Normal, Holdover or Freerun). After reset, the mode of operation can
be controlled directly with these pins, or by accessing the tx_dpll_modesel
register (0x1F) through the serial interface. This pin is internally pulled up to Vdd.
K1
diff0_en
Iu
Differential Output 0 Enable (LVCMOS, Schmitt Trigger). When set high, the
differential LVPECL output 0 driver is enabled. When set low, the differential
driver is tristated reducing power consumption. This pin is internally pulled up to
Vdd.
D3
diff1_en
Iu
Differential Output 1 Enable (LVCMOS, Schmitt Trigger). When set high, the
differential LVPECL output 1 driver is enabled. When set low, the differential
driver is tristated reducing power consumption.This pin is internally pulled up to
Vdd.
H1
lock
O
Lock Indicator (LVCMOS). This is the lock indicator pin for the Tx DPLL. This
output goes high when the Tx DPLL’s output is frequency and phase locked to
the input reference.
J1
hold
O
Holdover Indicator (LVCMOS). This pin goes high when the Tx DPLL enters the
holdover mode.
Description
Control
Status
6
Zarlink Semiconductor Inc.
ZL30131
Pin #
Name
I/O
Type
Short Form Data Sheet
Description
Serial Interface
E2
sck_scl
I/B
Clock for Serial Interface (LVCMOS). Serial interface clock. When i2c_en = 0,
this pin acts as the sck pin for the serial interface. When i2c_en = 1, this pin acts
as the scl pin (bidirectional) for the I2C interface.
F1
si_sda
I/B
Serial Interface Input (LVCMOS). Serial interface data pin. When i2c_en = 0,
this pin acts as the si pin for the serial interface. When i2c_en = 1, this pin acts as
the sda pin (bidirectional) for the I2C interface.
G1
so
O
Serial Interface Output (LVCMOS). Serial interface data output. When i2c_en =
0, this pin acts as the so pin for the serial interface. When i2c_en = 1, this pin is
unused and should be left unconnected.
E3
cs_b_asel0
Iu
Chip Select for SPI/Address Select 0 for I2C (LVCMOS). When i2c_en = 0, this
pin acts as the chip select pin (active low) for the serial interface. When i2c_en =
1, this pin acts as the asel0 pin for the I2C interface.
F3
asel1
Iu
Address Select 1 for I2C (LVCMOS). When i2c_en = 1, this pin acts as the
asel1 pin for the I2C interface. Internally pulled up to Vdd. Leave open when not
in use.
F2
asel2
Iu
Address Select 2 for I2C (LVCMOS). When i2c_en = 1, this pin acts as the
asel2 pin for the I2C interface. Internally pulled up to Vdd. Leave open when not
in use.
G2
int_b
O
Interrupt Pin (LVCMOS). Indicates a change of device status prompting the
processor to read the enabled interrupt service registers (ISR). This pin is an
open drain, active low and requires an external pulled-up to Vdd.
J2
i2c_en
Iu
I2C Interface Enable (LVCMOS). If set high, the I2C interface is enabled, if set
low, the SPI interface is enabled. Internally pull-up to Vdd.
APLL Loop Filter
A6
apll_filter
A
External Analog PLL Loop Filter terminal.
B6
filter_ref0
A
Analog PLL External Loop Filter Reference.
C6
filter_ref1
A
Analog PLL External Loop Filter Reference.
JTAG and Test
J4
tdo
O
Test Serial Data Out (Output). JTAG serial data is output on this pin on the
falling edge of tck. This pin is held in high impedance state when JTAG scan is
not enabled.
K2
tdi
Iu
Test Serial Data In (Input). JTAG serial test instructions and data are shifted in
on this pin. This pin is internally pulled up to Vdd. If this pin is not used then it
should be left unconnected.
H4
trst_b
Iu
Test Reset (LVCMOS). Asynchronously initializes the JTAG TAP controller by
putting it in the Test-Logic-Reset state. This pin should be pulsed low on powerup to ensure that the device is in the normal functional state. This pin is internally
pulled up to Vdd. If this pin is not used then it should be connected to GND.
K3
tck
I
Test Clock (LVCMOS): Provides the clock to the JTAG test logic. If this pin is not
used then it should be pulled down to GND.
7
Zarlink Semiconductor Inc.
ZL30131
Short Form Data Sheet
Pin #
Name
I/O
Type
J3
tms
Iu
Test Mode Select (LVCMOS). JTAG signal that controls the state transitions of
the TAP controller. This pin is internally pulled up to VDD. If this pin is not used
then it should be left unconnected.
Description
Master Clock
K4
osci
I
Oscillator Master Clock Input (LVCMOS). This input accepts a 20 MHz
reference from a clock oscillator (TCXO, OCXO). The stability and accuracy of
the clock at this input determines the free-run accuracy and the long term
holdover stability of the output clocks.
K5
osco
O
Oscillator Master Clock Output (LVCMOS). This pin must be left unconnected
when the osci pin is connected to a clock oscillator.
Miscellaneous
J6
IC
Internal Connection. Connect to ground.
C5
B5
K6
H10
IC
Internal Connection. Leave unconnected.
H7
G3
E10
F10
D1
NC
No Connection. Leave Unconnected.
Power and Ground
D9
E4
G8
G9
J8
J9
H6
H8
VDD
P
P
P
P
P
P
P
P
Positive Supply Voltage. +3.3VDC nominal.
E8
F4
VCORE
P
P
Positive Supply Voltage. +1.8VDC nominal.
A5
A8
C10
AVDD
P
P
P
Positive Analog Supply Voltage. +3.3VDC nominal.
B7
B8
H2
AVCORE
P
P
P
Positive Analog Supply Voltage. +1.8VDC nominal.
8
Zarlink Semiconductor Inc.
ZL30131
I/O
Type
Description
Pin #
Name
D4
D5
D6
D7
E5
E6
E7
F5
F6
F7
G4
G5
G6
G7
E9
F8
F9
H9
VSS
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
Ground. 0 Volts.
A7
C7
C8
C9
D8
H3
AVSS
G
G
G
G
G
G
Analog Ground. 0 Volts.
IId Iu OAPG-
Short Form Data Sheet
Input
Input, Internally pulled down
Input, Internally pulled up
Output
Analog
Power
Ground
9
Zarlink Semiconductor Inc.
ZL30131
1.0
Short Form Data Sheet
Pin Diagram
TOP VIEW
1
1
2
3
4
5
6
7
8
9
10
sync1
sync2
ref2
ref7
AVDD
apll_filter
AVSS
AVDD
diff0_p
diff1_p
sync0
ref1
ref4
ref5
IC
filter_ref0
AVCORE
AVCORE
diff1_n
diff0_n
ref0
mode_0
ref3
ref6
IC
filter_ref1
AVSS
AVSS
AVSS
AVDD
NC
mode_1
diff1_en
VSS
VSS
VSS
VSS
AVSS
VDD
apll_clk0
ref_out
sck/
scl
cs_b/
asel0
VDD
VSS
VSS
VSS
VCORE
VSS
NC
si/
sdh
asel2
asel1
VCORE
VSS
VSS
VSS
VSS
VSS
NC
so
int_b
NC
VSS
VSS
VSS
VSS
VDD
VDD
apll_clk1
lock
AVCORE
AVSS
trst_b
rst_b
VDD
NC
VDD
VSS
IC
hold
i2c_en
tms
tdo
hs_en
IC
p0_fp1
VDD
VDD
p1_clk0
diff0_en
tdi
tck
osci
osco
IC
p0_clk1
p0_fp0
p0_clk0
p1_clk1
A
B
C
D
E
F
G
H
J
K
1
- A1 corner is identified with a dot.
10
Zarlink Semiconductor Inc.
ZL30131
2.0
Short Form Data Sheet
Functional Description
The ZL30131 OC-192/STM-64 PDH/SONET/SDH/10GbE Network Interface Synchronizer is a highly integrated
device that provides timing for both PDH/SONET/SDH and Ethernet network interface cards. A functional block
diagram is shown in Figure 1.
This device is ideally suited for designs that require both a transmit timing path (backplane to PHY) and a receive
timing path (PHY to backplane). Each path is controlled with separate DPLLs (Tx DPLL, Rx DPLL) which are both
independently configurable through the serial interface (SPI or I2C). A typical application of the ZL30131 is shown
in Figure 2. In this application, the ZL30131 translates the 19.44 MHz clock from the telecom rate backplane
(system timing bus), translates the frequency to 622.08 MHz or 156.25 MHz for the PHY Tx clock, and filters the
jitter to ensure compliance with the related standards. A programmable synthesizer (P0) provides synchronous
PDH clocks with multiples of 8 kHz for generating PDH interface clocks. On the receive path, the Rx DPLL and the
P1 synthesizer translate the line recovered clock (8 kHz or 25 MHz) from the PHY to the 19.44 MHz telecom
backplane (line recovered timing) for the central timing cards. The ZL30131 allows easy integration of Ethernet line
rates with today’s telecom backplanes.
BITS A
Central
Timing
Card
BITS B
S P
Central
Timing
Card
P S
XOVER
DPLL
DPLL
ZL30121
ZL30121
P
S
19.44 MHz
19.44 MHz
S
P
Line Recovered Timing
A
P
Telecom
Backplane
S
B
System Timing Bus
A
19.44 MHz
P1
ZL30131
B
A
B
19.44 MHz
ZL30131
Tx
DPLL
Tx
DPLL
Rx
DPLL
Rx
DPLL
P0
8 kHz
P1
APLL
1.544 MHz
APLL
622.08 MHz
156.25 MHz
PHY
P0
1.544 MHz
25 MHz
PHY
OC-192
Line Card
10GbE
Line Card
Figure 2 - Typical Application of the ZL30131
11
Zarlink Semiconductor Inc.
Package Code
c Zarlink Semiconductor 2005 All rights reserved.
ISSUE
ACN
DATE
APPRD.
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