DS26519GN+ Maxim Integrated Products, DS26519GN+ Datasheet - Page 9
DS26519GN+
Manufacturer Part Number
DS26519GN+
Description
IC TXRX T1/E1/J1 16PRT 484-HSBGA
Manufacturer
Maxim Integrated Products
Type
Transceiverr
Datasheet
1.DS26519GN.pdf
(310 pages)
Specifications of DS26519GN+
Number Of Drivers/receivers
16/16
Protocol
Ethernet
Voltage - Supply
3.135 V ~ 3.465 V
Mounting Type
Surface Mount
Package / Case
484-BGA Exposed Pad, 484-eBGA, 484-HBGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
DS26519 16-Port T1/E1/J1 Transceiver
1.
DETAILED DESCRIPTION
The DS26519 is an 16-port monolithic device featuring independent transceivers that can be software configured
for T1, E1, or J1 operation. Each transceiver is composed of a line interface unit, framer, HDLC controller, elastic
store, and a TDM backplane interface. The DS26519 is controlled via an 8-bit parallel port or the SPI port. Internal
impedance matching and termination is provided for both transmit and receive paths, reducing external component
count.
The LIU is composed of a transmit interface, receive interface, and a jitter attenuator. The transmit interface is
responsible for generating the necessary waveshapes for driving the network and providing the correct source
impedance depending on the type of media used. T1 waveform generation includes DSX-1 line build-outs as well
as CSU line build-outs of 0dB, -7.5dB, -15dB, and -22.5dB. E1 waveform generation includes G.703 waveshapes
for both 75Ω coax and 120Ω twisted cables. The receive interface provides network termination and recovers clock
and data from the network. The receive sensitivity adjusts automatically to the incoming signal level and can be
programmed for 0dB to -43dB or 0dB to -12dB for E1 applications and 0dB to -12dB or 0dB to -36dB for T1
applications. The jitter attenuator removes phase jitter from the transmitted or received signal. The crystal-less jitter
attenuator requires only a T1 or E1 clock rate, or multiple thereof, for both E1 and T1 applications, and can be
placed in either transmit or receive data paths.
On the transmit side, clock, data, and frame-sync signals are provided to the framer by the backplane interface
section. The framer inserts the appropriate synchronization framing patterns, alarm information, calculates and
inserts the CRC codes, and provides the B8ZS/HDB3 (zero code suppression) and AMI line coding. The receive-
side framer decodes AMI, B8ZS, and HDB3 line coding, synchronizes to the data stream, reports alarm
information, counts framing/coding/CRC errors, and provides clock, data, and frame-sync signals to the backplane
interface section.
Both transmit and receive paths have access to an HDLC controller. The HDLC controller transmits and receives
data via the framer block. The HDLC controller can be assigned to any time slot, a portion of a time slot or to FDL
(T1) or Sa bits (E1). Each controller has 64-byte FIFOs, reducing the amount of processor overhead required to
manage the flow of data.
The backplane interface provides a versatile method of sending and receiving data from the host system. Elastic
stores provide a method for interfacing to asynchronous systems, converting from a T1/E1 network to a 2.048MHz,
4.096MHz, 8.192MHz, 16.384MHz, or N x 64kHz system backplane. The elastic stores also manage slip conditions
(asynchronous interface). An interleave bus option (IBO) is provided to allow up to eight transceivers (single
DS26519) to share a high-speed backplane. The DS26519 also contains an internal clock adapter useful for the
creation of a synchronous, high-frequency backplane timing source.
The microprocessor port provides access for configuration and status of all the DS26519’s features. Diagnostic
capabilities include loopbacks, PRBS pattern generation/detection, and 16-bit loop-up and loop-down code
generation and detection.
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