DS26518GN+ Maxim Integrated Products, DS26518GN+ Datasheet - Page 26
DS26518GN+
Manufacturer Part Number
DS26518GN+
Description
IC TXRX T1/E1/J1 8PORT 256-CSBGA
Manufacturer
Maxim Integrated Products
Type
Transceiverr
Specifications of DS26518GN+
Number Of Drivers/receivers
8/8
Protocol
T1/E1/J1
Voltage - Supply
3.135 V ~ 3.465 V
Mounting Type
Surface Mount
Package / Case
256-CSBGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
AL/RSIGF/FLOS1
REFCLKIO
SPI_SEL/
DIGIOEN
RESETB
JTCLK
NAME
JTRST
MCLK
JTMS
JTDO
WRB/
RWB
INTB
JTDI
BTS
M13
PIN
J12
R7
R9
C3
B7
A7
D8
K4
H4
L5
F5
J4
Impedance
Stateable
Input with
pulldown/
Output,
Output,
internal
Output
Output
Pullup
Pullup
Pullup
Pullup
TYPE
Input/
Input,
Input,
Input,
Input,
Input
Input
Input
Input
Input
High
Tri-
Write Bar/Read-Write Bar. This active-low signal along with CSB qualifies write
access to one of the DS26518 registers. Data at D[7:0] is written into the
addressed register, in Intel bus mode, at the rising edge of WRB while CSB is low
or, in Motorola bus mode, at the rising edge of DSB while RWB and CSB are low.
Interrupt Bar. This active-low output is asserted when an unmasked interrupt
event is detected. INTB will be deasserted (and tri-stated) when all interrupts
have been acknowledged and serviced. Extensive mask bits are provided at the
global level, framer, LIU, and BERT level.
SPI Serial Bus Mode Select/Analog Loss/Receive Signaling Freeze/Framer
LOS
SPI_SEL: 0 = Parallel Bus Mode, 1 = SPI Serial Bus Mode
AL/RSIGF/FLOS1: Analog LOS reflects the loss of signal detected by the LIU
front-end; framer LOS is LOS detection by the corresponding framer. The same
pins can reflect receive-signaling freeze indications. This selection can be made
by settings in Global Transceiver Control Register (GTCR1). AL/RSIGF/FLOS1
are available by setting the GTCR1.528MD bit to 1.
Bus Type Select. Set high to select Motorola bus timing, low to select Intel bus
timing. This pin controls the function of the RDB/DSB and WRB pins. Note: If SPI
mode is selected by the SPI_SEL pin, this pin must be tied low.
Master Clock. This is an independent free-running clock whose input can be a
multiple of 2.048MHz ±50ppm or 1.544MHz ±50ppm. The clock selection is
available by bits MPS0 and MPS1 and FREQSEL. Multiple of 2.048MHz can be
internally adapted to 1.544MHz. Multiple of 1.544MHz can be adapted to
2.048MHz. Note that TCLKn must be 2.048MHz for E1 and 1.544MHz for T1/J1
operation. See
Reset Bar. Active-low reset. This input forces the complete DS26518 reset. This
includes reset of the registers, framers, and LIUs.
Reference Clock Input/Output
Input: A 2.048MHz or 1.544MHz clock input. This clock can be used to generate
the backplane clock. This allows for the users to synchronize the system
backplane with the reference clock. The other options for the backplane clock
reference are LIU-received clocks or MCLK.
Output: This signal can also be used to output a 1.544MHz or 2.048MHz
reference clock. This allows for multiple DS26518s to share the same reference
for generation of the backplane clock. Hence, in a system consisting of multiple
DS26518s, one can be a master and others a slave using the same reference
clock.
Digital Enable. When this pin and JTRST are pulled low, all digital I/O pins are
placed in a high-impedance state. If this pin is high the digital I/O pins operate
normally. This pin must be connected to V
JTAG Reset. JTRST is used to asynchronously reset the test access port
controller. After power-up, JTRST must be toggled from low to high. This action
sets the device into the JTAG DEVICE ID mode. Pulling JTRST low restores
normal device operation. JTRST is pulled high internally via a 10kΩ resistor
operation. If boundary scan is not used, this pin should be held low.
JTAG Mode Select. This pin is sampled on the rising edge of JTCLK and is used
to place the test access port into the various defined IEEE 1149.1 states. This pin
has a 10kΩ pullup resistor.
JTAG Clock. This signal is used to shift data into JTDI on the rising edge and out
of JTDO on the falling edge.
JTAG Data In. Test instructions and data are clocked into this pin on the rising
edge of JTCLK. This pin has a 10kΩ pullup resistor.
JTAG Data Out. Test instructions and data are clocked out of this pin on the
falling edge of JTCLK. If not used, this pin should be left unconnected.
SYSTEM INTERFACE
26 of 312
TEST
Table
10-14.
FUNCTION
DD
for normal operation.
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