CYS25G0101DX
SONET OC-48 Transceiver
data recovery operations in a single chip, optimized for full
SONET compliance.
Features
• SONET OC-48 operation
• Bellcore and ITU jitter compliance
• 2.488-GBaud serial signaling rate
Transmit Path
New data is accepted at the 16-bit parallel transmit interface
at a rate of 155.52 MHz. This data is passed to a small
integrated FIFO to allow flexible transfer of data between the
SONET processor and the transmit serializer. As each 16-bit
word is read from the transmit FIFO, it is serialized and sent
out the high-speed differential line driver at a rate of 2.488
Gbits/second.
• Multiple selectable loopback/loop-through modes
• Single 155.52-MHz reference clock
• Transmit FIFO for flexible data interface clocking
• 16-bit parallel-to-serial conversion in transmit path
• Serial-to-16-bit parallel conversion in receive path
• Synchronous parallel interface
Receive Path
— LVPECL-compliant
As serial data is received at the differential line receiver, it is
passed to a clock and data recovery (CDR) PLL, which
extracts a precision low-jitter clock from the transitions in the
data stream. This bit-rate clock is then used to sample the data
stream and receive the data. Every 16-bit-times, a new word
is presented at the receive parallel interface along with a clock.
— HSTL-compliant
• Internal transmit and receive phase-locked loops
(PLLs)
• Differential CML serial input
— 50-mV input sensitivity
Parallel Interface
— 100Ω Internal termination and DC-restoration
• Differential CML serial output
The parallel I/O interface supports high-speed bus communi-
cations using HSTL signaling levels to minimize both power
consumption and board landscape. The HSTL outputs are
capable of driving unterminated transmission lines of less than
70 mm, and terminated 50Ω transmission lines of more than
twice that length.
— Source matched for 50Ω transmission lines (100Ω
differential transmission lines)
• Direct interface to standard fiber-optic modules
• Less than 1.0W typical power
The CYS25G0101DX Transceiver’s parallel HSTL I/O can
also be configured to operate at LVPECL signaling levels. This
can all be done externally by changing VDDQ, VREF, and
creating a simple circuit at the termination of the transceiver’s
parallel output interface.
• 120-pin 14 mm × 14 mm TQFP
• Standby power-saving mode for inactive loops
• 0.25µ BiCMOS technology
Functional Description
Clocking
The CYS25G0101DX SONET OC-48 Transceiver is a
communications building block for high-speed SONET data
communications. It provides complete parallel-to-serial and
serial-to-parallel conversion, clock generation, and clock and
The source clock for the transmit data path is selectable from
either the recovered clock or an external BITS (Building
Integrated Timing Source) reference clock. The low jitter of the
CYS25G0101DX
TXD[15:0]
16
SONET Data
Processor
TXCLKI
Transmit Data
Interface
FIFO_RST
FIFO_ERR
TXCLKO
155.52 MHz
BITS Time
Reference
2
REFCLK±
16
Host Bus
Interface
RXD[15:0]
RXCLK
Receive Data
Interface
IN+
IN–
SD
OUT–
OUT+
RD+
RD–
SD
TD–
TD+
Serial Data
Serial Data
LOOPTIME
DIAGLOOP
LOOPA
Data & Clock
Direction
Control
Optical
XCVR
Optical
Fiber Links
LINELOOP
RESET
PWRDN
LOCKREF
LFI
Status and
System
Control
Figure 1. CYS25G0101DX System Connections
Cypress Semiconductor Corporation
•
3901 North First Street
•
San Jose
•
CA 95134
•
408-943-2600
Document #: 38-02009 Rev. *J
Revised December 30, 2002