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Partno Mfg Dc Qty AvailableDescript
TLK2501TIN/a17avai1.6 to 2.5 Gbps Transceiver
TLK2501IRCPTIN/a531avai1.5 to 2.5 Gbps Transceiver
TLK2501IRCPG4TI/BBN/a100avai1.5 to 2.5 Gbps Transceiver 64-HVQFP -40 to 85
TLK2501IRCPRTIN/a955avai1.5 to 2.5 Gbps Transceiver


TLK2501IRCPR ,1.5 to 2.5 Gbps Transceiver   SLLS427D − AUGUST 2000 − REVISED JULY 2003 Hot-Plug Protection  On ..
TLK2541PFPG4 ,1
TLK2701IRCPR ,1.6 to 2.7 GBPS Transceiver
TLK2711JRZQE ,1.6 to 2.7 GBPS Transceiver 80-BGA MICROSTAR JUNIOR 0 to 70
TLK3101IRCP ,2.5 to 3.125 Gbps Transceiver
TLK3118 ,10 Gigabit Ethernet Redundant XAUI Transceiver
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TMP88CS38BNG , CMOS 8-Bit Microcontroller
TMP88FW45FG , 8 Bit Microcontroller
TMP88FW45FG , 8 Bit Microcontroller
TMP88PH40NG , 8 Bit Microcontroller
TMP88PH40NG , 8 Bit Microcontroller


TLK2501-TLK2501IRCP-TLK2501IRCPG4-TLK2501IRCPR
1.6 to 2.5 Gbps Transceiver
2.5-V Power Supply for Low PowerOperation Programmable Voltage Output Swing on
Serial Output
Interfaces to Backplane, Copper Cables, or
Optical Converters
Rated for Industrial Temperature Range Receiver Differential Input Thresholds
200 mV Minimum
Typical Power: 360 mW Loss of Signal (LOS) Detection Ideal for High-Speed Backplane
Interconnect and Point-to-Point Data Link


description

The TLK2501 is a member of the transceiver family of multigigabit transceivers used in ultrahigh-speed
bidirectional point-to-point data transmission systems. The TLK2501 supports an effective serial interface
speed of 1.5 Gbps to 2.5 Gbps, providing up to 2 Gbps of data bandwidth. The TLK2501 is pin-for-pin compatible
with the TLK2500. The TLK2501 is both pin-for-pin compatible with and functionally identical to the TLK1501,
a 0.6 to 1.5 Gbps transceiver, and the TLK3101, a 2.5 to 3.125 Gbps transceiver, providing a wide range of
performance solutions with no required board layout changes.
The primary application of this chip is to provide very high-speed I/O data channels for point-to-point baseband
data transmission over controlled impedance media of approximately 50 Ω. The transmission media can be
printed-circuit board, copper cables, or fiber-optic cable. The maximum rate and distance of data transfer is
dependent upon the attenuation characteristics of the media and the noise coupling to the environment.
This device can also be used to replace parallel data transmission architectures by providing a reduction in the
number of traces, connector terminals, and transmit/receive terminals. Parallel data loaded into the transmitter
is delivered to the receiver over a serial channel, which can be a coaxial copper cable, a controlled impedance
backplane, or an optical link. It is then reconstructed into its original parallel format. It offers significant power
and cost savings over current solutions, as well as scalability for higher data rate in the future.
The TLK2501 performs data conversion parallel-to-serial and serial-to-parallel. The clock extraction functions
as a physical layer interface device. The serial transceiver interface operates at a maximum speed of 2.5 Gbps.
The transmitter latches 16-bit parallel data at a rate based on the supplied reference clock (GTX_CLK). The
16-bit parallel data is internally encoded into 20 bits using an 8-bit/10-bit (8B/10B) encoding format. The
resulting 20-bit word is then transmitted differentially at 20 times the reference clock (GTX_CLK) rate. The
receiver section performs the serial-to-parallel conversion on the input data, synchronizing the resulting 20-bit
wide parallel data to the extracted reference clock (RX_CLK). It then decodes the 20 bit wide data using
8-bit/10-bit decoding format resulting in 16 bits of parallel data at the receive data terminals (RXD0-15). The
outcome is an effective data payload of 1.20 Gbps to 2.0 Gbps (16 bits data x the GTX_CLK frequency).
The TLK2501 is housed in a high performance, thermally enhanced, 64-pin VQFP PowerPAD package. Use
of the PowerPAD package does not require any special considerations except to note that the PowerPAD, which
has an exposed die pad on the bottom of the device, is a metallic thermal and electrical conductor. It is
recommended that the TLK2501 PowerPAD is soldered to the thermal land on the board. All ac performance
specifications in this data sheet are measured with the PowerPAD soldered to the test board.
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
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