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S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

BiCMOS PECL CLOCK GENERATOR

DEVICE
SPECIFICATION

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

S3076

FEATURES

SiGe BiCMOS technology

Complies with Bellcore and ITU-T specifica-
tions for jitter tolerance, jitter transfer and
jitter generation

On-chip high frequency PLL with internal
loop filter for clock recovery

Supports clock recovery for:
OC-48 (2488.32 Mbps) (with FEC)
Fibre Channel (2125 Mbps) (with FEC)
OC-24 (1244.16 Mbps) (with FEC)
Gigabit Ethernet (1250 Mbps) (with FEC)
Fibre Channel (1062.5 Mbps) (with FEC)
OC-12 (622.08 Mbps) (with FEC)
OC-3 (155.52 Mbps) (with FEC) NRZ data

Selectable reference frequencies
19.44 MHz or 155.52 MHz
(or equivalent Fibre Channel/
Gigabit Ethernet frequencies)

Lock detect--monitors frequency of
incoming data

Low-jitter serial interface

+3.3 V supply

Compact 48 pin TQFP TEP package

Typical power 620 mW

Available in Die form also

GENERAL DESCRIPTION

The function of the S3076 clock recovery unit is to
derive high speed timing signals for SONET/SDH-
based equipment. The S3076 is implemented using
AMCC's proven Phase Locked Loop (PLL) technology.
Figure 1 shows a typical network application.

The S3076 receives an OC-48, OC-24, OC-12, OC-3,
Fibre Channel or Gigabit Ethernet scrambled NRZ sig-
nal with FEC capability up to 8 bytes per 255-byte
block and recovers the clock from the data. The chip
outputs a differential bit clock and retimed data.

The S3076 utilizes an on-chip PLL which consists
of a phase detector, a loop filter, and a Voltage
Controlled Oscillator (VCO). The phase detector
compares the phase relationship between the VCO
output and the serial data input. A loop filter con-
verts the phase detector output into a smooth DC
voltage, and the DC voltage is input to the VCO
whose frequency is varied by this voltage. A block
diagram is shown in Figure 2.

Figure 1. System Block Diagram

Network Interface

Processor

Network Interface

Processor

S3057

OTX

ORX

OTX

ORX

S3076

S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

S3076 FUNCTIONAL DESCRIPTION

The S3076 clock recovery device performs the clock
recovery function for SONET OC-48, Fibre Channel
(2125 Mbps), OC-24, Gigabit Ethernet, Fibre
Channel (1062.5 Mbps), OC-12 or OC-3 serial data
links with FEC capabilty up to 8 bytes per 255-byte
block. The chip extracts the clock from the serial data
inputs and provides retimed clock and data outputs.
A 155.52/19.44 MHz (156.25/19.53 MHz for Gigabit
Ethernet and 132.81/16.60 MHz for Fibre Channel)
reference clock is required for phase locked loop
start up and proper operation under loss of signal
conditions. An integral prescaler and phase locked
loop circuit is used to multiply this reference to the
nominal bit rate. The input data rate is selected by
the RATESEL inputs. (See Table 1.)

Clock Recovery

Clock recovery, as shown in the block diagram in
Figure 2, generates a clock that is at the same fre-
quency as the incoming data bit rate at the serial
data input. The clock is phase aligned by a PLL so
that it samples the data in the center of the data eye
pattern.

The phase relationship between the edge transi-
tions of the data and those of the generated clock
are compared by a phase/frequency discriminator.
Output pulses from the discriminator indicate the
required direction of phase corrections. These
pulses are smoothed by an integral loop filter. The
output of the loop filter controls the frequency of
the Voltage Controlled Oscillator (VCO), which
generates the recovered clock.

0
0
1
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Table 1. Data Rate Select

Table 2. Reference Frequency Select

Frequency stability without incoming data is guaran-
teed by an alternate reference input (REFCLK) that
the PLL locks onto when data is lost. If the frequency
of the incoming signal varies by a value greater than
that stated in Table 7 with respect to REFCLKP/N,
the PLL will be declared out of lock, and the PLL will
lock to the reference clock. The assertion of SDN will
also cause an out of lock condition.

The loop filter transfer function is optimized to enable
the PLL to track the jitter, yet tolerate the minimum
transition density expected in a received SONET
data signal.

The total loop dynamics of the clock recovery PLL
yield a jitter tolerance which exceeds the minimum
tolerance proposed for SONET equipment by the
Bellcore TA-NWT-000253 standard, shown in Figure 3.

Lock Detect

The S3076 contains a lock detect circuit which monitors
the integrity of the serial data inputs. If the received
serial data fails the frequency test, the PLL will be
forced to lock to the local reference clock. This will
maintain the correct frequency of the recovered clock
output under loss of signal or loss of lock conditions. If
the recovered clock frequency deviates from the local
reference clock frequency by more than that stated in
Table 7, the PLL will be declared out of lock. The lock
detect circuit will poll the input data stream in an attempt
to reacquire lock to data. If the recovered clock fre-
quency is determined to be within that stated in
Table 7, the PLL will be declared in lock and the lock
detect output will go active. The assertion of SDN will
also cause an out of lock condition.

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S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Figure 3. Input Jitter Tolerance Specification

Figure 4. Jitter Transfer Specification

1. Bellcore Specifications: GR-253- CORE, Issue 2, December 1995.
2. ITU-T Recommendations: G.958.
3. Not specified in GR-253 or G.958.

0.15

1.5

Sinusodal

Input Jitter

Amplitude

(UI p-p)

Frequency

SONET JITTER CHARACTERISTICS

Performance

The S3076 PLL complies with the jitter specifications
proposed for SONET/SDH equipment defined by the
Bellcore Specifications: GR-253-CORE, Issue 2, De-
cember 1995 and ITU-T Recommendations: G.958
document, when used as specified.

Input Jitter Tolerance

Input jitter tolerance is defined as the peak to
peak amplitude of sinusoidal jitter applied on the
input signal that causes an equivalent 1 dB opti-
cal/electrical power penalty. SONET input jitter
tolerance requirements are shown in Figure 3.

Jitter Transfer

The jitter transfer function is defined as the ratio of
jitter on the output OC-N/STS-N signal to the jitter
applied on the input OC-N/STS-N signal versus fre-
quency. Jitter transfer requirements are shown in Fig-
ure 4. The measurement condition is that input
sinusoidal jitter up to the mask level in Figure 4 be
applied.

Jitter Generation

The jitter of the serial clock and serial data outputs
shall not exceed the value specified in Table 7. when
a serial data input with no jitter is presented to the
serial data inputs. (See Table 7.)

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Jitter

Transfer

Frequency

Acceptable

Range

slope = -20 dB/decade

S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

FIBRE CHANNEL
JITTER CHARACTERISTICS

Performance

The S3076 PLL complies with the jitter specifications
proposed for Fibre Channel equipment defined by the
fibre channel methodology for Jitter specification.

Input Jitter Tolerance

Input jitter tolerance is defined as the peak to
peak amplitude of sinusoidal jitter applied on the
input signal that causes an equivalent 1 dB opti-
cal/electrical power penalty. Fibre Channel input
j i t t e r t o l e r a n c e r e q u i r e m e n t s a r e s h o w n i n
Table 3.

Jitter Generation

The jitter of the serial clock and serial data outputs
shall not exceed the value specified in Table 4 when
a serial data input with no jitter is presented to the
serial data inputs.

SYSTEM

STORAGE

DISK DRIVE

SERDES

BACKPLANE
PBC
REPEAETERS
CABLES
CONNECTORS

Componet Receiver Node =

SYSTEM

HOST ADAPTOR

= Component Transmitter Node

Figure 5. Fibre Channel System Node Definition

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Table 3. Input Jitter Tolerance Specification at
node

Table 4. Total Jitter Generation Specification at
node

S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

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Table 5. Pin Assignment and Descriptions

S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Table 5. Pin Assignment and Descriptions (Continued)

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S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Table 5. Pin Assignment and Descriptions (Continued)

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S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Table 7. Performance Specifications

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S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Table 9. Gigabit Ethernet Jitter Specifications

Table 8. Jitter Tolerance Specifications

Note: Output propagation delay time of high speed CML outputs is the time in pico seconds from the cross-over point of the
reference signal to the cross-over point of the output.

SERDATOP/N

SERCLKOP

tSU

50%

Figure 8. Receiver Output Timing Diagram

S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Table 10. Recommended Operating Conditions

Table 11. Absolute Maximum Ratings

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1. Outputs open.

Electrostatic Discharge (ESD) Ratings
The S3076 is rated to the following voltages based on the human body model:
1. All pins are rated 1500 Volts except pin # 24(VCC), 37(AVCC), 38(AGND), 41(AGND), 42(AVCC),

and 43(AGND). Pins 24, 37, 38, 41, 42, and 43 are rated at 100 volts.

Adherence to standards for ESD protection should be taken during the handling of the devices to
ensure that the devices are not damaged. The standards to be used are defined in ANSI standard
ANSI/ESD S20.20-1999, "Protection of Electrical and Electronic Parts, Assemblies and Equipment."
Contact your local FAE or sales representative for applicable ESD application notes.

S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Table 14. LVTTL Input/Output DC Characteristics

Note: All parameters are specified with respect to the source termination and ground with V

TTL

= Max. = 3.465 V.

Table 13. CML Output DC Characteristics

Table 12. CML Input DC Characteristics

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S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Table 15. Single Ended LVPECL Input DC Characteristics

Table 16. Internally Biased Differential LVPECL Input AC Characteristics

Figure 9. Differential Voltage Measurement

Note: V(+) V(-) is the algebraic difference of the input signals.

V(+)

V()

V(+) V(-)

0.0 V

VSWING

VD = 2 X VSWING

S3076

MULTI-RATE SONET/SDH CLOCK RECOVERY UNIT

October 23, 2000 / Revision A

Ordering Information

XXXX

Prefix Device Package

AMCC is a registered trademark of Applied Micro Circuits Corporation.

D53/R82

AMCC reserves the right to make changes to its products or to discontinue any semiconductor product or service without notice, and
advises its customers to obtain the latest version of relevant information to verify, before placing orders, that the information being relied
on is current.

AMCC does not assume any liability arising out of the application or use of any product or circuit described herein, neither does it
convey any license under its patent rights nor the rights of others.

AMCC reserves the right to ship devices of higher grade in place of those of lower grade.

AMCC SEMICONDUCTOR PRODUCTS ARE NOT DESIGNED, INTENDED, AUTHORIZED, OR WARRANTED TO BE SUITABLE FOR
USE IN LIFE-SUPPORT APPLICATIONS, DEVICES OR SYSTEMS OR OTHER CRITICAL APPLICATIONS.

Applied Micro Circuits Corporation · 6290 Sequence Dr., San Diego, CA 92121

Phone: (858) 450-9333 · (800)755-2622 · Fax: (858) 450-9885

http://www.amcc.com

R T I F I E

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