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National Semiconductor Electronic Components Datasheet

SCAN921226H Datasheet

High Temperature 20-80 MHz 10 Bit Bus LVDS SerDes

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October 2004
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SCAN921025H and SCAN921226H
High Temperature 20-80 MHz 10 Bit Bus LVDS SerDes
with IEEE 1149.1 (JTAG) and at-speed BIST
General Description
The SCAN921025H transforms a 10-bit wide parallel
LVCMOS/LVTTL data bus into a single high speed Bus
LVDS serial data stream with embedded clock. The
SCAN921226H receives the Bus LVDS serial data stream
and transforms it back into a 10-bit wide parallel data bus
and recovers parallel clock.
Both devices are compliant with IEEE 1149.1 Standard for
Boundary Scan Test. IEEE 1149.1 features provide the de-
sign or test engineer access via a standard Test Access Port
(TAP) to the backplane or cable interconnects and the ability
to verify differential signal integrity. The pair of devices also
features an at-speed BIST mode which allows the intercon-
nects between the Serializer and Deserializer to be verified
at-speed.
The SCAN921025H transmits data over backplanes or
cable. The single differential pair data path makes PCB
design easier. In addition, the reduced cable, PCB trace
count, and connector size tremendously reduce cost. Since
one output transmits clock and data bits serially, it eliminates
clock-to-data and data-to-data skew. The powerdown pin
saves power by reducing supply current when not using
either device. Upon power up of the Serializer, you can
choose to activate synchronization mode or allow the Dese-
rializer to use the synchronization-to-random-data feature.
By using the synchronization mode, the Deserializer will
establish lock to a signal within specified lock times. In
addition, the embedded clock guarantees a transition on the
bus every 12-bit cycle. This eliminates transmission errors
due to charged cable conditions. Furthermore, you may put
the SCAN921025H output pins into TRI-STATE to achieve a
high impedance state. The PLL can lock to frequencies
between 20 MHz and 80 MHz.
Features
n High Temperature Operation to 125˚C
n IEEE 1149.1 (JTAG) Compliant and At-Speed BIST test
mode.
n Clock recovery from PLL lock to random data patterns.
n Guaranteed transition every data transfer cycle
n Chipset (Tx + Rx) power consumption < 600 mW (typ)
@ 80 MHz
n Single differential pair eliminates multi-channel skew
n 800 Mbps serial Bus LVDS data rate (at 80 MHz clock)
n 10-bit parallel interface for 1 byte data plus 2 control bits
n Synchronization mode and LOCK indicator
n Programmable edge trigger on clock
n High impedance on receiver inputs when power is off
n Bus LVDS serial output rated for 27load
n Small 49-lead BGA package
Block Diagrams
© 2004 National Semiconductor Corporation DS201207
20120701
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National Semiconductor Electronic Components Datasheet

SCAN921226H Datasheet

High Temperature 20-80 MHz 10 Bit Bus LVDS SerDes

No Preview Available !

Block Diagrams (Continued)
Application
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Functional Description
The SCAN921025H and SCAN921226H are a 10-bit Serial-
izer and Deserializer chipset designed to transmit data over
differential backplanes at clock speeds from 20 to 80 MHz.
The chipset is also capable of driving data over Unshielded
Twisted Pair (UTP) cable.
The chipset has three active states of operation: Initializa-
tion, Data Transfer, and Resynchronization; and two passive
states: Powerdown and TRI-STATE. In addition to the active
and passive states, there are also test modes for JTAG
access and at-speed BIST.
The following sections describe each operation and passive
state and the test modes.
Initialization
Initialization of both devices must occur before data trans-
mission begins. Initialization refers to synchronization of the
Serializer and Deserializer PLL’s to local clocks, which may
be the same or separate. Afterwards, synchronization of the
Deserializer to Serializer occurs.
Step 1: When you apply VCC to both Serializer and/or Dese-
rializer, the respective outputs enter TRI-STATE, and on-chip
power-on circuitry disables internal circuitry. When VCC
reaches VCCOK (2.5V) the PLL in each device begins lock-
ing to a local clock. For the Serializer, the local clock is the
transmit clock (TCLK) provided by the source ASIC or other
device. For the Deserializer, you must apply a local clock to
the REFCLK pin.
The Serializer outputs remain in TRI-STATE while the PLL
locks to the TCLK. After locking to TCLK, the Serializer is
now ready to send data or SYNC patterns, depending on the
levels of the SYNC1 and SYNC2 inputs or a data stream.
The SYNC pattern sent by the Serializer consists of six ones
and six zeros switching at the input clock rate.
Note that the Deserializer LOCK output will remain high
while its PLL locks to the incoming data or to SYNC patterns
on the input.
Step 2: The Deserializer PLL must synchronize to the Seri-
alizer to complete initialization. The Deserializer will lock to
20120702
non-repetitive data patterns. However, the transmission of
SYNC patterns enables the Deserializer to lock to the Seri-
alizer signal within a specified time. See Figure 16.
The user’s application determines control of the SYNC1 and
SYNC 2 pins. One recommendation is a direct feedback loop
from the LOCK pin. Under all circumstances, the Serializer
stops sending SYNC patterns after both SYNC inputs return
low.
When the Deserializer detects edge transitions at the Bus
LVDS input, it will attempt to lock to the embedded clock
information. When the Deserializer locks to the Bus LVDS
clock, the LOCK output will go low. When LOCK is low, the
Deserializer outputs represent incoming Bus LVDS data.
Data Transfer
After initialization, the Serializer will accept data from inputs
DIN0–DIN9. The Serializer uses the TCLK input to latch
incoming Data. The TCLK_R/F pin selects which edge the
Serializer uses to strobe incoming data. TCLK_R/F high
selects the rising edge for clocking data and low selects the
falling edge. If either of the SYNC inputs is high for 5*TCLK
cycles, the data at DIN0-DIN9 is ignored regardless of clock
edge.
After determining which clock edge to use, a start and stop
bit, appended internally, frame the data bits in the register.
The start bit is always high and the stop bit is always low.
The start and stop bits function as the embedded clock bits
in the serial stream.
The Serializer transmits serialized data and clock bits (10+2
bits) from the serial data output (DO±) at 12 times the TCLK
frequency. For example, if TCLK is 80 MHz, the serial rate is
80 x 12 = 960 Mega-bits-per-second. Since only 10 bits are
from input data, the serial “payload” rate is 10 times the
TCLK frequency. For instance, if TCLK = 80 MHz, the pay-
load data rate is 80 x 10 = 800 Mbps. The data source
provides TCLK and must be in the range of 20 MHz to 80
MHz nominal.
The Serializer outputs (DO±) can drive a point-to-point con-
nection or in limited multi-point or multi-drop backplanes.
The outputs transmit data when the enable pin (DEN) is
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Part Number SCAN921226H
Description High Temperature 20-80 MHz 10 Bit Bus LVDS SerDes
Maker National Semiconductor
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