NXP High-Speed Muxes/Switches Supporting DP / PCIe / SATA / mSATA / SAS / USB / LVDS

NXP High-Speed Muxes/Switches
Supporting DP/PCIe/SATA/mSATA/SAS/USB/LVDS
AC-Coupled High Speed Interfaces Summary
NXP’s high-speed muxes/switches support AC-coupled and non-AC-coupled interfaces in a range of formats, from LVDS to
PCI3 Gen 3. The table lists the mux/switch formats for AC-coupled interfaces.
Our portfolio covers bandwidth from 1.5 to more than 8 GHz and includes standard and custom solutions for existing and
emerging architectures. Each solution builds on the expertise that comes from active support for and participation in key
standard-setting committees.
Brandwidth
(per Lane)
# Diff Pairs
Side Band Signals
DisplayPort 1.1a/eDP
2.7 Gbps
1/2/4 Tx
AUX/DDC, HPD
DisplayPort 1.2/eDP
5.4 Gbps
1/2/4 Tx
FAUX/AUX/DDC, HPD
PCI Express Gen 1
2.5 Gbps
1 Tx / 1 Rx
N/A
PCI Express Gen 2
5.0 Gbps
1 Tx / 1 Rx
N/A
PCI Express Gen 3
8.0 Gbps
1 Tx / 1 Rx
N/A
SATA Gen 1
1.5 Gbps
1 Tx / 1 Rx
N/A
SATA Gen 2
3.0 Gbps
1 Tx / 1 Rx
N/A
SATA Gen 3
6.0 Gbps
1 Tx / 1 Rx
N/A
USB 3.0
5.0 Gbps
1 Tx / 1 Rx
N/A
Interface
Key Parametric Considerations
} Common mode voltage
Depending on application requirements, consider the
} Inter-/intra-pair skew
following characteristics when selecting a mux/switch:
} Rise/fall time
} Insertion loss and bandwidth
} Differential mode return loss
} Number of differential pairs
} Common mode return loss
} Peak-to-peak differential voltage
} Cross-talk
“Eye” diagram showing excellent Signal Integrity
Selection Guide : High-Speed Muxes/Switches
Device Type
Voltage
Features
Support
Package
CBTL04DP211
3.3 V
2.7 Gbps, DP1.1, eDP Panel Switch
DP1.1a
HVQFN-32
CBTL06DP211
3.3 V
2.7 Gbps, 2:1 Switchable GFX Mux/Demux, 4:1 Aux or DDC
DP1.1a
TFBGA-48
CBTL06121A
3.3 V
2.7 Gbps, 6-channel Mux/Demux, ATX
DP1.1a
QFN-56
CBTL06121B
3.3 V
2.7 Gbps, 6-channel Mux/Demux, BTX
DP1.1a
QFN-56
CBTL12131
3.3 V
Panel Switch for All-in-One PCs with Rcvr Equalizer
DP1.2
TFBGA-64w
CBTL03SB212
3.3 V
5.4 Gbps Side Band Switch for AUX, DDC, HPD
DP1.2
QFN-20
CBTL04DP212
3.3 V
5.4 Gbps, DP 1.2 eDP Panel Switch
DP1.2
HVQFN-32
CBTL06DP212
3.3 V
5.4 Gbps, 2:1 Switchable GFX Mux/Demux, 4:1 Aux or DDC
DP1.2
TFBGA-48
CBTL06122A
3.3 V
5.4 Gbps, 6-channel Mux/Demux, ATX
DP1.2
QFN-56
CBTL06122B
3.3 V
5.4 Gbps, 6-channel Mux/Demux, BTX
DP1.2
QFN-56
CBTL06123A*
3.3 V
5.4 Gbps, 6-channel Mux/Demux, ATX
DP1.2
QFN-56
CBTL06123B*
3.3 V
5.4 Gbps, 6-channel Mux/Demux, BTX
DP1.2
QFN-56
CBTU0808
1.8 V
2.5 Gbps, 4-channel Demux/Mux, or 8-channel 1:1 Bypass
PCIe1
TFBGA-48
CBTL02042A
3.3 V
5 Gbps, 2-channel Mux/Demux Flow Through Pinout
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-20
CBTL02042B
3.3 V
5 Gbps, 2-channel Mux/Demux, Wrap Around Pinout
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-20
CBTL02043A
3.3 V
8 Gbps, 2-channel Mux/Demux, Flow Through Pinout
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-20
CBTL02043B
3.3 V
8 Gbps, 2-channel Mux/Demux, Flow Through Pinout
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-20
CBTL04082A
3.3 V
5 Gbps, 4-channel Mux/Demux, Flow Through Pinout
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-42
CBTL04082B
3.3 V
5 Gbps, 4-channel Mux/Demux, Wrap Around Pinout
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-42
CBTL04083A
3.3 V
8 Gbps, 4-channel Mux/Demux, Flow Through Pinout
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-42
CBTL04083B
3.3 V
8 Gbps, 4-channel Mux/Demux, Wrap Around Pinout
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-42
CBTU04082
1.8 V
5 Gbps, 4-channel Mux/Demux
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-42
CBTU04083
1.8 V
8 Gbps, 4-channel Mux/Demux
PCIe2/DP1.1/SAS1/SATA2/mSATA/LVDS/USB 3.0
QFN-42
1.5/1.8 V
14-bit Mux/Bus switch
DDR2/DDR3
TFBGA-48
1.8 V
11-bit DDR2 SDRAM Mux/Bus Switch, with 12 ohm Ron
DDR2
LFBGA-72
CBTW28DD14
CBTU4411
* Sampling
Application Example: Mux Support of Balanced or Unbalanced Propagation Delays
In the CBTL0408x and CBTL0204x families, two pinout
configurations are available for high-speed USB,
PCIe, SAS, DP, SATA, and mSATA applications. When
signal propagation delay varies and trace length is
not important, the flow-through pinout, designated
by an “A” suffix, is recommended. For applications
where balanced propagation delay is required, the
wrap-around or loop-back pinout, designated by a “B”
suffix, should be used.
Application Example: PCIe Slot Configuration Using CBTL04082
Application Example: CBTL02042A Used to Mux Between Main Laptop Motherboard and Docking Station
Application Example: CBTL12131 Used for All-In-One (AIO) Computers with Dual-Video Displays
Application Example: CBTL04082A and CBTL03SB212 Providing Flexible Control in Switchable
Graphics Applications
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Date of release: January 2011
Document order number: 9397 750 17037
Printed in the Netherlands