PCB Stackup Design Considerations for Intel® FPGAs

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ID 683883
Date 6/28/2017
Public
Document Table of Contents
Document Table of Contents x
1. PCB Stackup Design Considerations for Intel® FPGAs
1. PCB Stackup Design Considerations for Intel® FPGAs x
1.1. PCB Stackup Construction 1.2. Material Selection 1.3. Glass Transition Temperature 1.4. PCB Stackup Design 1.5. PCB Panelization 1.6. Conclusion 1.7. Specific Recommendations for Intel® FPGA Devices 1.8. References 1.9. Document Revision History
1.2. Material Selection x
1.2.1. Material Loss Considerations
1.2.1. Material Loss Considerations x
1.2.1.1. Relative Dielectric Constant 1.2.1.2. Loss Tangent 1.2.1.3. Fiberglass Weave Composition 1.2.1.4. Skin Effect
1.4. PCB Stackup Design x
1.4.1. Layer Count 1.4.2. Signal Layers 1.4.3. High Speed Signal Layer Planning 1.4.4. Power and Ground Layers 1.4.5. Power Plane and Capacitor Placement Strategy 1.4.6. Planar Capacitance and Spreading Inductance 1.4.7. Plane Layer Separation 1.4.8. Copper Weight 1.4.9. Hybrid Construction
1.4.5. Power Plane and Capacitor Placement Strategy x
1.4.5.1. General Rules for Capacitor and Power Plane Placement 1.4.5.2. Rules for Transceiver Power Plane Placement 1.4.5.3. Rules for High-Current Power Rails 1.4.5.4. Rules for PLL and Other Power Rails
1.7. Specific Recommendations for Intel® FPGA Devices x
1.7.1. Stratix® 10 Device Recommendations 1.7.2. Stratix® V Device Recommendations 1.7.3. Stratix IV Device Recommendations 1.7.4. Arria® 10 Device Recommendations 1.7.5. Arria® V Device Recommendations 1.7.6. Arria II Device Recommendations 1.7.7. Cyclone® 10 Device Recommendations 1.7.8. Cyclone® V Device Recommendations 1.7.9. Cyclone® IV Device Recommendations 1.7.10. Cyclone III Device Recommendations
1.7.1. Stratix® 10 Device Recommendations x
1.7.1.1. Stratix® 10 Device Family Power Plane Placement Example
1.7.2. Stratix® V Device Recommendations x
1.7.2.1. Stratix® V GX, GT, and GS Family Power Plane Placement Example 1.7.2.2. Stratix® V E Family Power Plane Placement Example 1.7.2.3. Stratix® V Transceiver Channel Breakout Recommendations
1.7.3. Stratix IV Device Recommendations x
1.7.3.1. Stratix IV GX and GT Family Power Plane Placement Example 1.7.3.2. Stratix IV E Family Power Plane Placement Example
1.7.4. Arria® 10 Device Recommendations x
1.7.4.1. Arria® 10 Device Family Power Plane Placement Example
1.7.5. Arria® V Device Recommendations x
1.7.5.1. Arria® V Device Family Power Plane Placement Example
1.7.6. Arria II Device Recommendations x
1.7.6.1. Arria II GX Family Power Plane Placement Example
1.7.7. Cyclone® 10 Device Recommendations x
1.7.7.1. Cyclone® 10 LP Device Family Power Plane Placement Example
1.7.8. Cyclone® V Device Recommendations x
1.7.8.1. Cyclone® V Device Family Power Plane Placement Example
1.7.9. Cyclone® IV Device Recommendations x
1.7.9.1. Cyclone® IV GX Family Power Plane Placement Example 1.7.9.2. Cyclone® IV E Family Power Plane Placement Example
1.7.10. Cyclone III Device Recommendations x
1.7.10.1. Cyclone III Family Power Plane Placement Example
1. PCB Stackup Design Considerations for Intel® FPGAs

1.4.5.2. Rules for Transceiver Power Plane Placement

Follow these rules for placing the transceiver power plane in an Intel® device:
  • The sensitive transceiver power rails are most susceptible to noise and can directly impact channel jitter performance. As a result, the transceiver power rails usually have the highest priority in the power plane stackup placement over other power rails unless either of the following conditions apply:
    • The transceiver rails have internal regulation that helps isolate them from on-board noise. Internally regulated power rails can be placed further away from the FPGA device.
    • The current demand of the transceiver power rail is low enough to yield a high impedance target that is easily decoupled even when their power planes are placed further away from the FPGA device.
  • Place critical transceiver power rails closest to the FPGA device to minimize the BGA via inductance. For example, critical power rails in a Stratix® V transceiver device include the VCCR (transceiver receive path power) and VCCT (transceiver transmit path power) power rails.
Figure 12. Transceiver Power Plane Placement Close to an FPGA Device
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