presentation - high speed pcb design speed pcb design€¦ · 3d distributed peec full wave...
TRANSCRIPT
![Page 1: Presentation - High Speed PCB Design Speed PCB Design€¦ · 3D Distributed PEEC FULL WAVE HFSS+Full Wave Spice SI_wave . Physical Design Using Full Wave Spice Model from HFSS. 12](https://reader035.vdocuments.net/reader035/viewer/2022070111/60fa30994d048a1ba422c7a0/html5/thumbnails/1.jpg)
High Speed PCB DesignHigh Speed PCB Design
Ride the Wave Workshop
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Post Route Analysis of a High Post Route Analysis of a High Speed PCB DesignSpeed PCB Design
Design/Analysis forPower Delivery System (PDS)
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Post Route Analysis of a High Post Route Analysis of a High Speed PCB DesignSpeed PCB Design
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• In today’s world, the demand for ultra-high-speed PCB design is on the rise
• Engineers are assigned the task of design mixed analog and fast rise-time digital boards, and have all signals arrive at their destination cleanly
• With the advance of highly specialized design and layout software, the design of these boards has become increasingly ‘easy’ (automated)
• These physical design and layout tools can be provided with design constraints and auto-routed easily, resulting in increased productivity of the layout engineer and contributions to signal integrity problems
Designing for the Future
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• The advancement of design and layout software needs to be matched by the accompanying advancement in powerful ANALYSIS tools used to solve timing delays, mismatched line impedances, crosstalk, and dielectric loss on high speed lines
• Just as an auto-layout program cannot layout 100 percent of the nets on a complex, high-speed board, an analysis tool cannot default to 2-dimensional field solvers and behavioral models on 100 percent of the nets on a PCB.
• Many nets on a board may be analyzed accurately using 2-d solvers. However, critical signals will require a full 3-d solver that does not default to an ‘ideal’ case for the current return path. The full 3-d solver will take into account ground planes with holes, cutouts or that are split. Changes in reference planes, cutouts, and coupling to power/ground planes are other situations that require a full 3-d solver
Designing for the Future
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• Show the integration between Allegro and PCB/MCM
• Show mixed 2D and 3D extractions
• Show single net and multiple net simulations
• Show how to investigate signal integrity issues caused by meandering traces used for timing delays
• Show Crosstalk simulations on a victim net in the design
• Show how to setup up differential pair simulations
• Show comparison between full 3D PEEC solutions and mixed 2D/3D subcircuits
Goals for this Presentation
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INTEGRATION
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Automatic Translation
Net Name MAA4
2D Cross-section of every net in board
3D Via parasitics calculated for every
via in board
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3D Via Parasitics
A 3D model is used to calculate all via parasitics.
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Single Net-by-Net Simulations
Risetime of 500 ps.
Near End Far End
Source
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Single Net-by-Net Signal Integrity Violations
• Quickly screen information for every net on the board for violations such as Propagation Delay and Settling times
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Risetime of 200 ps.Near End Far End
Source
Single Net-by-Net Simulations
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Single Net-by-Net SimulationsRisetime of 200 ps. with coupling Source
Near End Far End
Coupled traces
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Crosstalk Simulation – The Setup
B
Victim Net – MAB9
Aggressor Nets – MAA4, MAA5
Aggressor Nets – MAA9, MAB10
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! Create 2D cross-sections of single line and mutual parasitics for all 5 nets
! Apply 3.3V pulse to one terminal of MAA4, MAA5, MAA9 and MAB10, and put 75 ohm terminators on the other terminals
! Terminate net MAB9 with 75 ohm terminators at each end
The above 3 steps are done by the program automatically.
! First run simulation with 0.5 ns rise/fall time, then run again with 0.2 ns rise/fall time
Crosstalk Simulation – The Setup
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Near End
Far End
Risetime of 500 ps.
Crosstalk Simulations
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Near End
Far End
Risetime of 200 ps.
Crosstalk Simulations
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MD32
MD33
Differential Pair
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Differential Signaling with Linear Source
Source Near End
First ViaSecond Via
Risetime of 200 ps.
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Vcc Plane
GND Plane
When to Analyze in 3D?
Top View
Bottom View
• Split/partial Plane
• Via Coupling
• Change in Reference Plane
• Ground Discontinuity
• Correctly Model Return Path
• Power/ground Bounce
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+-
+-
Comparison of Mixed 2D/3D with IBIS Driver/Receiver
Mixed 2D/3D Parasitic Extraction
PEEC Parasitic Extraction
IBIS Driver
IBIS Driver
IBIS Receiver
IBIS Receiver
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IBIS Driver/Receiver with Mixed 2D/3D model
Source
Near End
First ViaSecond Via
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IBIS Driver/Receiver with 3D model
Source
Near End
First ViaSecond Via
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t (seconds)
Vol
ts
IBIS Waveforms
3D Model
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What did we learn?
• How PCB/MCM is tightly integrated with Allegro
• How automatically mixed 2D and 3D extractions are performed
• How single net and multiple net simulations are performed
• How Crosstalk simulations on a victim net can be seen
• How differential signaling can be performed
• How the 3D PEEC model compared with the mixed 2D/3D simulations using an IBIS model
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Design/Analysis for
Power Delivery System (PDS)
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High-Speed
Digital Device
Power
Delivery System
I
V
IVZ =
The Impedance see into PDS at the device should keep low from DC to several harmonics of clock frequency!
f
|Z|
Mag. of Z
targetZ
The Impedance of PDS
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Target Impedance Calculation
3.3v""""1.8vConverter
3.3vVRM
4A
2A
2A 1.8v small plane
3.3v plane
( ) ( )Current
RippleAllowedVoltageSupplyPowerZ Target
×=
( ) ( ) Ω=×= mA
vZ 452
%58.1v)Target(1.8
( ) ( ) Ω=×= mA
vZ 5.822
%53.3v)Target(3.3
Hardware Example
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PDS Components
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Linear model for VRM.
Voltage Regulator Module (VRM)
R0: the value of the resistor between the VRM sense point and the actual load and is usually only a few mOhms
L_out: the output inductance of the VRM
R_flat: the ESR of the capacitor associated with the VRM
Ideal voltage source has the value of the power supply voltage
L_slew is chosen so that current will be ramped up in the linear model in about the same time that it is ramped up in a real VRM.
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Linear model for VRM.
Voltage Regulator Module (VRM)
! V = L*di/dt! For a VRM to ramp this 20 A
transient current either up or down in 15 us
R0 = 1mohmL_out = 4nHR_flat = 30mohmL_slew = 67.5nH
nHAVdtdiVslewL 5.6720
sec15 1.8 0.05 _ =⋅⋅== µ
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Simulation for VRM
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Simulation for VRM (cont’d)
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Bulk Capacitor• I = C*dv/dt
• Suppose there is a 20 A current transient, the VRM responds in 15us, and the PDS must remain within 5% of a 1.8V power supply
uFVAdtdVIC 333305.0 8.1
sec15 20 =⋅⋅== µ
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Simulation for VRM + Bulk Cap
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Simulation for VRM + Bulk Cap (cont’d)
ESR of the Bulk Cap = 1ESR of the Bulk Cap = 0.1ESR of the Bulk Cap = 0.01ESR of the Bulk Cap = 0.001
ESR of the Bulk Cap = 1ESR of the Bulk Cap = 0.1ESR of the Bulk Cap = 0.01ESR of the Bulk Cap = 0.001
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Simulation Impedance using Serenade Tune Mode
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High Frequency Ceramic Capacitor
• NPO capacitors have the lowest ESR and best temperature and voltage properties, but are only available up to a few nF.
• X7R capacitors have reasonable voltage and temperature coefficients and are available from several nF to several uF.
• X5R is similar to X7R, but with reduced reliabilityand are being extended to 100uF.
• Y5V dielectric is used to achieve high capacitance values, but has very poor voltage and temperature characteristics.
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High Frequency Capacitor
0. 5 nH5 nH5 nH
100 mohm100 mohm100 mohm
1 nF1 nF10 nF
Cap 3Cap 2Cap 1
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0.5nH2nH5nH
100m Ohm
100m Ohm
100m Ohm
10nF10nF10nFCap3Cap2Cap1
High Frequency Capacitor
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Reducing the Parasitic Inductance for HF Cap
1. Reduce the length of via for decoupling capacitors (i.e.reduce the loop inductance)
2. Change the layout of decoupling capacitors3. The thickness of high frequency capacitors4. Parallel the decoupling capacitors with same value
or multiple skew values
(1) (2)
(3)
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Simulation for Impedance of Parallel Capacitors
Both ESR and Inductance improved performance, but part count increased
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Simulation for Impedance of Parallel Capacitors with Skewed Capacitance
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Simulation for VRM+Bulk_cap+HF_cap
Bulk capacitorVRM
HF capacitor
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Simulation for VRM+Bulk_cap+HF_cap (cont’d)
Ω= mZ 45v)Target(1.8
Ω= mZ 5.82v)Target(3.3
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DC
TPA/PCB/MCM (PEEC)
Problem Scaleλλλλ////10101010
SpiceLink (Quasi-Static/TEM)
HFSS (Full-Wave)
λλλλ/4/4/4/4
frequency
Plane Modeling
3D DistributedPEEC
FULL WAVEHFSS+Full Wave Spice
SI_wave
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Physical Design
Using
Full Wave Spice
Model from HFSS
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12 Layers PCB
S1
AGND
S2
S3
AVCC_3.3v
S4
S5
DVCC_3.3v
S6
S7
DGND
S8
(1,1)(1,1)(1,1)(1,1)
(1,5)(1,5)(1,5)(1,5)(7,5)(7,5)(7,5)(7,5)
(4,3)(4,3)(4,3)(4,3)
(7,1)(7,1)(7,1)(7,1)
11*0.1uF2*1nF
21*0.1uF
21*10nF
21*1nF
100uF 2.7uF
0.1uF
10nF
1nF
(5,4)(5,4)(5,4)(5,4) (6,4)(6,4)(6,4)(6,4)
V
V V
VV
V
V V
2ACurrent
Sink
22mACurrent
Sink
33mACurrent
Sink
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Plane Impedance w/ & w/o De-cap
Decoupling capacitors added
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Voltage Transient w/ & w/o De-cap
0.2ns 0.2ns
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Simulation for Extra AGND Plane Inserted
(1,1)(1,1)(1,1)(1,1)
(1,5)(1,5)(1,5)(1,5)(7,5)(7,5)(7,5)(7,5)
(4,3)(4,3)(4,3)(4,3)
(7,1)(7,1)(7,1)(7,1)
11*0.1uF2*1nF
21*0.1uF
21*10nF
21*1nF
100uF 2.7uF
0.1uF
10nF
1nF
(5,4)(5,4)(5,4)(5,4) (6,4)(6,4)(6,4)(6,4)
V
V V
VV
V
V V
2ACurrent
Sink
22mACurrent
Sink
33mACurrent
Sink
S1
AGND
S2
S3
AVCC_3.3v
S4
S5
DVCC_3.3v
S6
S7
DGND
S8
AGND
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Plane Impedance with Extra AGND Plane Inserted
After extra plane inserted
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Voltage w/ & w/o Extra AGND Plane Inserted
After extra plane inserted
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De-cap Enhancement for HF Range
Enhanced de-cap:100nF*2, 50nF*225nF*2, 10nF*22.5nF*2, 1nF*10100pF*2 are inparallel!!
![Page 55: Presentation - High Speed PCB Design Speed PCB Design€¦ · 3D Distributed PEEC FULL WAVE HFSS+Full Wave Spice SI_wave . Physical Design Using Full Wave Spice Model from HFSS. 12](https://reader035.vdocuments.net/reader035/viewer/2022070111/60fa30994d048a1ba422c7a0/html5/thumbnails/55.jpg)
Plane Impedance w/ & w/o Enhanced De-cap
With Enhanced De-cap
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Voltage Transient w/ & w/o Enhanced De-cap
0.2ns 0.2ns
With Enhanced De-cap
![Page 57: Presentation - High Speed PCB Design Speed PCB Design€¦ · 3D Distributed PEEC FULL WAVE HFSS+Full Wave Spice SI_wave . Physical Design Using Full Wave Spice Model from HFSS. 12](https://reader035.vdocuments.net/reader035/viewer/2022070111/60fa30994d048a1ba422c7a0/html5/thumbnails/57.jpg)
Impedance Simulation using PEEC
![Page 58: Presentation - High Speed PCB Design Speed PCB Design€¦ · 3D Distributed PEEC FULL WAVE HFSS+Full Wave Spice SI_wave . Physical Design Using Full Wave Spice Model from HFSS. 12](https://reader035.vdocuments.net/reader035/viewer/2022070111/60fa30994d048a1ba422c7a0/html5/thumbnails/58.jpg)
Summary! Impedance control from DC to GHz:
! Voltage Regulator Module (VRM)! Bulk Capacitor! High Frequency Ceramic Capacitor! PCB Planes
! Tools used for simulation:! Schematic Capture ! Serenade! HFSS! PCB/MCM
![Page 59: Presentation - High Speed PCB Design Speed PCB Design€¦ · 3D Distributed PEEC FULL WAVE HFSS+Full Wave Spice SI_wave . Physical Design Using Full Wave Spice Model from HFSS. 12](https://reader035.vdocuments.net/reader035/viewer/2022070111/60fa30994d048a1ba422c7a0/html5/thumbnails/59.jpg)
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`
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