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HD3SS2522 Datasheet, PDF (15/25 Pages) Texas Instruments – USB Type-C SS MUX
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HD3SS2522
SLLSEM6B – APRIL 2015 – REVISED AUGUST 2015
9 Power Supply Recommendations
The HD3SS2522 does not have any special requirement for power supply as long as it is within the
recommended range. The device also does not have any special reset requirement.
10 Layout
10.1 Layout Guidelines
10.1.1 Critical Routes
The high speed differential signals must be routed with great care to minimize signal quality degradation between
the connector and the source or sink of the high speed signals by following the guidelines provided in this
document. Depending on the configuration schemes, the speed of each differential pair can reach a maximum
speed of 10 Gbps. These signals are to be routed first before other signals with highest priority.
• Each differential pair should be routed together with controlled differential impedance of 85 to 90-Ω and 50-Ω
common mode impedance. Keep away from other high speed signals. The number of vias should be kept to
minimum. Each pair should be separated from adjacent pairs by at least 3 times the signal trace width. Route
all differential pairs on the same group of layers (Outer layers or inner layers) if not on the same layer. No 90
degree turns on any of the differential pairs. If bends are used on high speed differential pairs, the angle of
the bend should be greater than 135 degrees.
• Length matching:
– Keep high speed differential pairs lengths within 5 mil of each other to keep the intra-pair skew minimum.
The inter-pair matching of the differential pairs is not as critical as intra-pair matching. The SSTX and
SSRX pairs do not have to match while they need to be routed as short as possible.
• Keep high speed differential pair traces adjacent to ground plane.
• Do not route differential pairs over any plane split.
• ESD components on the high speed differential lanes should be placed nearest to the connector in a pass
through manner without stubs on the differential path.
• For ease of routing, the P and N connection of the USB3.1 differential pairs to the HD3SS2522 pins can be
swapped.
10.1.2 General Routing/Placement Rules
• Route all high-speed signals first on un-routed PCB. The stub on USB2 D+ and D- pairs should not exceed
3.5 mm.
• Follow 20H rule (H is the distance to ref-plane) for separation of the high speed trace from the edge of the
plane
• Minimize parallelism of high speed clocks and other periodic signal traces to high speed lines
• All differential pairs should be routed on the top or bottom layer (microstrip traces) if possible or on the same
group of layers. Vias should only be used in the breakout region of the device to route from the top to bottom
layer when necessary. Avoid using vias in the main region of the board at all cost. Use a ground reference via
next to signal via. Distance between ground reference via and signal need to be calculated to have similar
impedance as traces.
• All differential signals should not be routed over plane split. Changing signal layers is preferable to crossing
plane splits.
• Use of and proper placement of stitching caps when split plane crossing is unavoidable to account for high-
frequency return current path
• Route differential traces over a continuous plane with no interruptions.
• Do not route differential traces under power connectors or other interface connectors, crystals, oscillators, or
any magnetic source.
• Route traces away from etching areas like pads, vias, and other signal traces. Try to maintain a 20 mil keep-
out distance where possible.
• Decoupling caps should be placed next to each power terminal on the HD3SS2522. Care should be taken to
minimize the stub length of the trace connecting the capacitor to the power pin.
• Avoid sharing vias between multiple decoupling caps.
Copyright © 2015, Texas Instruments Incorporated
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