Pcb trace delay per inch. To ensure timing alignment for all channels per port, both the substrate trace length plus the PCB trace length for each signal must be matched to meet the trace length skew tolerance for all signals within the clock domain. Pcb trace delay per inch

 
 To ensure timing alignment for all channels per port, both the substrate trace length plus the PCB trace length for each signal must be matched to meet the trace length skew tolerance for all signals within the clock domainPcb trace delay per inch  To measure S-parameters, the preferred test equipment is a vector network analyzer (VNA)

delay, it comes down to a question of how much delay your circuits can live with. PCB trace length without launches 11000 Launch 150 2X THRU AFR Longer line (Direct Subtraction longer line) 11300. 54 cm) at PCIe Gen3 speed. Z. With LVDS interface and 10cm PCB trace, the maximum SPI clock speed is 22. It is usually desired to have a measure of the trace/cable loss per unit length (per inch, meter, etc) so that the S-parameters for any required length can be created from the original measured. The trace on a PCB is a true transmission line - it has both significant inductance and capacitance per unit length. I have a design that communicates to multiple SPI devices. Those familiar with high-speed design know that trace geometry, trace location, and board substrate all affect signal speed, impedance matching, and propagation delay. measured lot to lot loss variation to be ~±0. Use the following equation to calculate the stripline trace layout propagation delay. 9 System. 5 oz or 0. 08 microns (82 micro-inches) and at 10 GHz is 0. The final result is a much improved S-parameter data set with unwanted resonance removed, allowing the PCB trace or cable loss to be determined. Figure 3 also shows this for a 5% thickness variation in a nominally 59-mil thick PCB. 40A,. " Refer to the design requirements or schematics of the PCB. Beware though, large copper areas have extra capacitance, so if you have a high dv/dt node, like the switching node of a DC-DC. 100MHz) by determining delay (including set-up and hold time) of longest path from register to register (e. You'll be interested in all the frequencies contained in your signal under normal use, so for digital signals that would be from some low frequency determined by your coding scheme up to a high frequency determined by. Hole size - specify the. 2. For a microstrip trace exposed to air on one side, the delay in FR-4 is a little bit less (about 140 ps/inch). 047 inch or 7. 1nS rise time would need to be terminated if it exceeded 3. Because they are not enclosed, these PCB microstrips have a lower power handling capability and higher loss, thus allowing you to calculate a microstrip’s height and. 66 microns (26 micro-inches). 4000 Enterprise Drive, Rolla, MO 65401 (573) 341-4139. Ohm’s Law provides the framework for solving network analysis problems; when the curtain gets pulled back, Ohm’s Law updates to become the relationship between voltage, current, and impedance, not resistance. The nice part about coax is that it can be bent and flexible unlike most pcb transmission lines. Voltage Drop is. A microstrip is a trace that runs on the surface of a board and has a nearby reference plane. So if you then need to do a, for example 100ps delay on a trace with a Tpd factor of 170ps/inch (a quite common PCB velocity factor) the trace would be ~590 mils in length. those available. Then, just apply: Allowed_Length = Allowed_Delay/(140 ps/inch) where 140 ps/inch is typical for a microstrip on FR4. A picosecond is 1 x 10^-12 seconds. The trace impedance changes 3. 3. 1. . 433: 107893,50. Electric signals travel 1 inch in 6 ns on an Fr4 copper trace. Again, the lossless case is found by taking G = R = 0. 34. . 1 dB per inch. Following on from the S-expression PCB library format KiCAD 5. Controlled impedance boards provide repeatable high-frequency performance. This tool calculates all the predominant factors associated with a circuit board via design. 42 dealing with high speed logic 12. Where I is maximum current in Amps, k is a constant, dT is temperature rise above ambient in °C, & A is cross sectional area of trace mils². Calculates properties of a PCB trace. The finalPropagation delay is how long it takes a signal to travel over a network from its sender to its receiver. sub. systems cause long PCB traces to behave like transmission lines, due to the associated fast edge rates. Assuming a standard FR4 PCB, you won't go far wrong with 165ps per inch. 3 inches. Step 3B: Input the trace lengths per byte for DDR CK and DQS. The IPC-2141 trace Impedance calculator will help make initial design easier by allowing the user to input basic parameters and get a calculated impedance according to the IPC-2141 standard. Debugging Memory IP x. On PCB transmission lines, the engendering delay is given by: How to choose High-Speed PCB. 0 and frequencies up to 20 GHz. The success of your high speed and RF PCB routing is dependant on many factors. That 70 degree C per watt is PER SQUARE. PCB Trace Width Calculator & PCB Trace Resistance Calculator per IPC-2152. 031”) thick PCB (FR-4) has: ˜ 4nH and 0. 3 uOhm and 12 amps is a power dissipation of 0. ALTIUM DESIGNER Propagation Delay of Traces on PCBs. FPGA PCB Design 2. First choice: Don't. I will plan on releasing a web calculator for this in the future. The application below provides a simple way to calculate the required trace width (in mil) for a given input current and temperature. The values of conductor loss,. Use the 'tline' element in LTSpice instead. Moreover, a simplified formula has been summarized based on the tables above: I = KΔT0. By default, most PCB design programs with length matching capabilities will set the pin-package delay to zero length or zero time. 10. A given trace may behave as a transmission line under some conditions while behaving as a simple. ΔT = Maximum temperature difference in. 1 inches, with a crystal mounting pad of about 0. Minimize the use of vias, route all RGMII traces on one layer if you can. Brad 165. However, the high frequency VNA was reporting a much shorter delay for the same cable. Clicking this button will load the Preferred rule settings. A picosecond is 1 x 10^-12 seconds. Remember, 100+ MHz digital logic carries 1GHz components too, because square. Balancing FR4 dielectric constant with PCB laminate thickness and trace width is a difficult problem, but the right stackup manager can help you produce accurate impedance and propagation delay calculations. 因此,举例来说,对于PCB介电常数4. Electric signals travel 1 inch in 6 ns on an Fr4 copper trace. Impedance captures the real. Component: Copper Traces Purpose: Interconnect two or more points Problem: Inductance and Capacitance x = length of trace (cm) w = width of trace (cm) h = height of trace (cm) t = thickness of trace (cm) e r = PCB Permeability 0. This means we need the trace to be under 17. Figure 7. 7. 725. These guidelines are based on well-known transmission line properties for copper traces routed over a solid reference plane. the min delay of STARTUP), the max delay of the data path and the board routing delay Similarly, T hold analysis should be done by taking into account the max delay on SCK (i. 85dBinch at 4GHz Dissipation factor > 0. If you obtain component models from your manufacturer, the IBIS 6 documentation for the particular component should include the pin-package delay. an inch of #20AWG wire has about 20nH of inductance an inch of 0. As. 0pF per inch Propagation delay refers to the inverse of the speed of a traveling electromagnetic signal. 3 ns/m * 10 meters is 53ns. delay of the PCB track is equal to or greater than one-half the applied signal rise/fall time (whichever edge is faster). Step 3A defines the signal delay per inch for the board, which can typically be kept at 180 ns per inch. Let’s calculate the propagation delay using trace length and vice-versa. As data rates. Set the mode from View to Edit (Circled in red in the picture below). The time delay is related to the speed of the signal in the material and the physical length: For the special case of FR4 with Dk = 4 and the speed of light in air as 12 inch/nsec, the capacitance per length of any transmission line is. ±10%. If you have an edge rate of 1ns and the copper trace is longer than 1 inch, you’ll need to take appropriate measures for impedance control. Trace Width: 0. 08 nanoseconds (ns) propagation. traces are calculated from the measured four-port S-parameters. Step 3B: Input the trace lengths per byte for DDR CK and DQS. Regards, The term “transmission line” refers to the behavior of a trace on a PCB rather than its construction. The difference between the speed of a wave traveling in free space versus a PCB will cause a delay between the two signals, usually referred to as propagation delay (T d). It is not necessary to match the lengths of the TXPCB Trace Impedance Calculator; stripline; Electromagnetic Compatibility Laboratory. 1, 3. 018 Standard FR4. Calculations for Signal propagation rate [by board type], and reflection amplitude and frequency are shown after the termination examples. Again, PCB routing and signal integrity matter most here. The particular capacitor you propose would likely have over 50% tolerance. At very low frequencies – until about 1MHz, we can assume that the entire conductor participates in the signal current and hence Rsig is the same as the ‘alfa’ C resistance of the signal trace, which is: Where: ρ = Copper resistivity in ohm-inch . The delay per unit length in your PCB is dependent on the material that is used and can have a wide range (150-185 ps/inch is typical). The SPI master module is run from a 40MHz clock coming from a clock wizard IP. (For purposes of this explanation, CMOS receivers look like very small capacitors that can be considered to be open circuits. The alternating current that runs on a transmission. Figure 7. 2 volts (per DIMM) instead of the 1. trace width. Perhaps the most common type of transmission line is the coax. 5. The PCB trace may introduce 1 ps to 5 ps of jitter and 0. The rest of the delays are the reflections of the pulse through the DATA1 PCB run. The area of a PCB trace is the width multiplied by the. In a vacuum or air, it rises to 85 picoseconds per inch (ps/ In). 425 inches. A rising edge with a risetime of 1ns would occupy a trace length of 1ns/(2*85ps) ~ 6in (~ 15cm). 16. Figure 3 illustrates the most common method to measure PCB trace impedance. 2 dB of loss per inch (2. 10. You must determine what this factor is for your PCB and Now-a-days, circuit board traces are usually short (<2 inch – don’t you love our measurement system!). These angles can impact the trace width and imped-ance control with fast signals. Figure 2. 14Since PCB traces current carrying capacity is determined by heating and temperature limits, using polygon fills spreads the heat and cools the trace better if you can expand the fill into some unused space. So if you then need to do a, for example 100ps delay on a trace with a Tpd factor of 170ps/inch (a quite common PCB velocity factor) the trace would be ~590 mils in length. designning+b46 controlled impedance traces on pcbs 12. The velocity of the SMS layers was measured at 154 picoseconds per inch; the BMS layers at 167 picoseconds per inch; and the CSL layers at 171 picoseconds per inch. 048 x dT0. By writing to MII register 23, the delay for TX_CLK and RX_CLK can be individually set for delays of 0, 1. The DATA1 PCB delay is 0. . You can use the. 8 CoreSight™ ETM Trace Port Connections. The characteristic impedance of your microstrips is determined by the trace width for a given layer stackup. In terms of maximum trace length vs. H eff = H 1 + H 2 2 H e f f = H 1 + H 2 2. Here is how we can calculate the propagation delay from the trace length and vice versa: where. Simpler calculators will use the less-accurate IPC-2141 equations. Component: Copper Traces Purpose: Interconnect two or more points Problem: Inductance and Capacitance x = length of trace (cm) w = width of trace (cm) h = height of trace (cm) t = thickness of trace (cm) e r = PCB Permeability 0. In lower speed or lower frequency devices,. Matched lengths minimize delay differences, avoiding an increase in common mode noise and increased EMI. This calculator calculates the effective propagation delay using relative permittivity, height of dielectric, width of trace, trace thickness values. So the board thickness variation causes the calculated trace impedance to vary more than the wildly variable Er values that are commonly quoted. The trace length in the package is not what you need to deskew on your board it is the delay that must be deskewed. A picosecond is 1 x 10^-12 seconds. The PCB trace may introduce 1 ps to 5 ps of jitter and 1. 0 inches (457. 2pF. 0 dielectric would have a delay of ~270 ps. W = Trace width in inches (example: a 5-mil, i. 0. The PCB lengths are contained in the ZedBoard PCB trace length reports. Refer to PCB design requirements or schematics. Due to the variations of material from which an FRC4 board can be fabricated, this. For buried traces, such as stripline traces, the return path conductor might actually be two planes, one above, and one below. In T-topology, the clock traces need to be routed with a prolonged delay than the strobe traces per byte lane. Diameters. Figure 2: Measured loss per inch of plain old FR-4 and very high-frequency Rogers RO4350B material. Z0,air Z 0, a i r = characteristic impedance of air. A picosecond is 1 x 10^-12 seconds. . 8ns delay. The dielectric constant (and thus the refractive index) of a material is a function of a traveling electromagnetic wave’s oscillation frequency. e. tpd ≡ delay per unit length length ≡ length of wire delay ≡ wire delay = tpd × length Use t'pd when line is loaded rr max max pd ttApproximate uncertainty in delay (percent) Pcb trace (serpentine delay) 10 “1000. 18 nsec, which yields. The maximum skew introduced by the cable between the differential signaling pair (i. Second choice: You can model a transmission line with a sequence of pi or T sections. The PCB design tools from Cadence can give you the power and performance that you need for designing these advanced DDR routing methodologies. A typical value for a 50 Ohm microstrip is ~150 ps/inch, and for striplines a typical value is ~171 ps/inch; both assume. also your traces might be perfectly matched for a narrow frequency band, but not for other frequencies. Timing Diagram from Perspective of Master As shown in Figure 5, the propagation delay to the slave and back to the master must occur in less than half the SPI clock period. PCB trace length matching is crucial for high frequency synchronous signals. For a PCB with a dielectric constant of 4 (like FR4 which is in the range of 3 to 5) the propagation delay doubles. Refer to PCB design requirements or schematics. Delay Tune sawtooth, accordion and trombone types. It leads to problems like crosstalk, EMI, and signal integrity. Today's digital designers often work in the time domain, so they focus on. Controlled differential impedance starts with characteristic impedance. Microstrip construction consists of a• PCB traces and planes to and from all of the above All of these elements play a part in the effectiveness of the PDN. w = Width of Trace. So, for the clock and data lines of an FPGA IO interface, the trace-delay is small (< 0. 2ns) and the trace-delay-difference is even smaller. 5 dB 6. For example, a 2 inch microstrip line over an Er = 4. All specified delay matching requirements include PCB trace delays, different layer propagation velocity variance, and. The SPI master module creates a SPI clock of 20 MHz which is only active while communication is ongoing. 4. Let's take another case, a differential line. As Tr for HDMI signal is 200ps, signal speed cannot exceed 370 mil which is derived from Critical Length < mil in ps in ps 1,000 / 180 / 13 200 × × = 370 mil. It involves the quality degradation and timing errors of digital signal waveforms as the signals travel on the path from the transmitter to the receiver through interconnects like package structures, PCB traces, vias, flex cable, and. It shows how to perform the analysis and then verify the PCB trace delay portions using both HyperLynx and ICX. (ΔL = 11 inches), shown in Figure 8. Thickness: Thickness of the stripline conductor. • PCB traces should be designed with the proper width for the amount of current they are expected to. 26 3. Copper thickness can be adjusted according to your requirements. 1 Flight Delay and Skew Advantages to Specifying Timing Specifications via PCB Routing Rules Another particularly nasty negative result is one which reflects that the system designer's attempt was to design an. 4mm or 0. With LVDS interface and 10cm PCB trace, the maximum SPI clock speed is 22. The PCB material selected—FR4, Megtron, Tachyon, iSpeed—has a huge impact on the insertion loss across various reaches. The visible traces of the PCB are covered with a solder mask that helps protect the copper traces from shorts and. 0 mm) as well as the algorithm to calculate the insertion loss per inch. Figure 2 shows a stripline layout, which uses a trace routed on the inside layer of a PCB and has two voltage-reference planes (i. In vacuum/air, it’s equal to 85ps/in. are simulated for with trace width W=4 mil and offset ranging from -12 to +12 mils and offset step 1 mil. When two signal traces are mismatched within a matched group, the usual way to synchronize. This calculator requires symmetry in the trace widths and location between plane layers. Printed Circuit Boards (PCBs) are an essential component of nearly every electronic device, providing the foundation for the connections and features that enable functionality. This delay will roughly increase with the capacitance. 188 mm. Actual data vs 1X AFRHere are some of the best practices I find for trace routing: Verify your manufacturer's limits for trace width and spacing before you start routing. . The mathematical relationship for skin depth is given: f 1 (4)1 Find the PCB trace impedance, or "Zo. This result is larger than the model predicts, but the model estimate is only for comparison purposes. Signal. When vias must be used, add stitching capacitors or stitching vias. 63 ns/˚,合 136 ps/in。这两条额外的准则对于设计PCB走线中信号的时序具有参考意义。 对称带状线PCB传输线路 从多种角度来看,多层PCB是一种更好的PCB设计方法。在这种模式下,信号走线嵌. Height: Height of the substrate. The propagation delay corresponding to the speed of light in vacuum is 84. Tpd is propagation delay and V (velocity) is the reciprocal of Tpd. ±50% or more. In the context of FPGA design, I sometimes need to estimate PCB trace delays between the FPGA and external devices to properly constrain the input/output. 031”) thick PCB (FR-4) has: ˜ 4nH and 0. To view the matching requirements (including derating values), please refer to the DDR3 Design. The answer to whether your traces act like transmission lines depends on the amount of time it takes a signal to. With two transfers per cycle of a quadrupled clock signal, a 64-bit wide. , 0. This is where the TDR (time-domain reflectometer) noted in Part 1 of this article comes. These delay lines are available with or without. This paper explains physics of the conductor-related signal. Here, I’ve taken the real value of γ as this tells us the. Length-Matching All Traces - match all RX traces to each other, and match all TX traces to each other. The delay time is about 3ns, which represents twice the actual delay. The trace width can then be calculated by re-arranging this formula to determine the cross-sectional area that. 25 ns increments. tan(δ)), a PCB’s trace loss ranges from having square root to linear dependence on frequency. Without going into a huge analysis, I would estimate 1-3 ns per route. propagation delay: L 0: inductance per unit length: C 0: capacitance per unit length: Acknowledgements. PCB. 031”) thick PCB (FR-4) has: ̃ 4nH and 0. PCB Trace Thickness. RF applications, DDR4 memory boards, high speed FPGA boards might choose to use a special exotic (expensive) PCB laminate material with a lower dielectric constant, e. PCB traces are small conductor strips on the PCB that enable current flow to and from integrated circuits. In a vacuum or air, it rises to 85 picoseconds per inch (ps/ In). Then, there are the digital traces that are constrained in pairs and overlapping groups of different sizes with different requirements. Most of this time is taken up by the edge rate of the driver. Simple - Via Style(Hole size and diameter) is the same through all layers. From this measurement, I can extract the excess capacitance – it is 96fF. Refer to PCB design requirements or schematics. The MCU itself has rather a high number of high speed interfaces all of which suppose to be used according to the specifications. Trace LengthTrace Length §Longer trace length ⇒ loss ↑ ü~0. 0 PCB trace routing eUSB2 specification specifies PCB trace differential impedance of 85 Ω ±15 %, and USB2. Perhaps the most common type of transmission line is the coax. Total signal propagation time = tpd × transmission line length (𝐋trace) It is expressed in time per unit. data rate approaches ~10 gigabits per second on traces with routing lengths often greater than 12 inches in today’sIPC-2152 Calculator. FR4 Dielectric Constant Influences Wave Propagation. Therefore, you should make the 50Ω impedance traces 5. Spread the love Trace Capacitance Calculator Trace Capacitance Calculator Trace Length (in meters): Trace Width (in meters): Dielectric Constant: Calculate Capacitance FAQs What is the capacitance per inch of a trace? The capacitance per inch of a trace depends on its dimensions and the dielectric material. 276 x 0. PCB-RULER-ND: Metric Side Rev 1 (March 2016) 12 inch (~30. There are some advantages to using a microstrip transmission line over other alternatives. a. CBTL04083A/B has −1. 3) slows down the slew rate by about 2 ps. It is important to determine the characteristic impedance of a twisted-pair cable because this impedance should match the impedance. 8mm (0. On PCB transmission lines, the engendering delay is given by: How to choose High-Speed PCB Design Material. Figure 3 also shows this for a 5% thickness variation in a nominally 59-mil thick PCB. That means in FR-4 PCBs a striplineThis rule of thumb enables us to estimate the attenuation at the Nyquist for a lossy, uniform channel. 2. e. 2 Find the trace delay, or "DLY," in pico seconds or "ps" per inch. 08 cm) PCB loss. The PCB internal/external trace resistance shall be calculated according to the following formula: R = (ρ * L / (T * W)) * (1 + α * (TAMB – 25 °C)) Where: R is the trace resistance [Ω] ρ is the resistivity parameter, whose value for copper is 1. Assume trace delay, pin capacitance, and rise/fall time differences between data and clock are negligible. signal trace lengths are not matched, refer to Table 1. Reflections$egingroup$ @Krish No, as Marcus Müller stated there are more effects except length which will affect the signals e. To use the same PCB stack-up, trace width and trace to trace spacing it is recommended to. 3. The rise time is 40ps and the scale is 5% per division. 1. Besides that the package pin delays are on the order of 10's of ps, so they should be compensated for in the routing of the traces, which completely blows up the 0. This corresponds to propagation delay of 3. It is one of the most crucial factors that should be calculated and analyzed when designing a PCB. 024 x dT0. A Typical Series Terminated 5V. The geometry of the traces, the permittivity of the PCB material and the layers surrounding the trace all impact the impedance of the signal trace. To minimize trace inductance, high-speed signals and signal layers that are close to a ground or power plane should be as short and wide as practical. 49 references 12. The skew can be introduced with additional PCB trace delay on the carrier board or by adjusting the internal delay settings at the phy or processor. 2. PCB Pre-Layout Simulation Phase 2. 0 32 GT/s 36. The phase delay per unit length is computed and interpolated with cubic splines. The connection between this ADC and Converter is a 20 bit. Learn more about optimizing trace widths and propagation delay with an integrated field solver. 1 Answer. 1. However, there are techniques to reduce the spacing for both dc and ac. Using 1/16 of wavelength as the "safe limit" below which we don't need to worry about reflections and relative signal timing, it'sMaximum Number of DDR SDRAM Interfaces Supported per FPGA 1. 0 dielectric would have a delay of ~270 ps. These impedance values are typical for a double-sided PCB. Figure 3. 1. A ballpark figure for a PCB trace is about c/1. 0. The two conductors are separated by a dielectric material. It is the function of the dielectric constant (Er) and the trace geometry. There is tolerance in the dielectric constant in FR4. To ensure good signaling performance, the following general board design guidelines must. Trace to Trace clearance: As a rule of thumb I kept trace clearances to at least twice the width of my bit. 1 inches, then you'll have 50 squares (with the etched gaps and the holes), with thermal resistance end-to-end of 50 * 70 = 3,500 degrees per watt. • Signal traces should not be run such that they cross a plane split. Gating effects at high frequency Figure 8. As the εr increases, the propagation delay (tPD) also increases. So worst case 5. A 0. Copper area has. 5. 1 Find the PCB trace impedance, or "Zo. 4 Advantages to Specifying Timing Specifications via PCB Routing Rules 5 Solutions to High-Speed Design Issues 5. A second coplanar trace is 100 micrometers long (. 1 mm bit, a minimum clearance of 0. Delay Propagation. For example, if you require a 5mil trace to achieve 50Ω impedance and if you have also routed other signals with 5mils width, it will be impossible for the PCB manufacturer to determine which ones are the controlled impedance traces. The propagation delay of a signal on a PCB trace is the time taken for that particular signal to travel from source to load. In terms of maximum trace length vs. 5 = 2 inches need to be designed as. Each S-parameter (Sij) has a real magnitude and a phase in the complex part. 39 symmetric stripline pcb transmission lines 12. Varies between PCB’s. In most of the cases DDR2 and its previous classes follow the T-topology routing. The velocity of 3 x 10 8 meter per second is equivalent to TBD picosecond per inch. The local time is loaded into all PHYs on the next pulse on the load/save pin. A typical MIPI DSI host to display connection looks like this: Differential Pairs in MIPI DSI Interface (Source: TI SPRACP4) 1. Use equation 1 to calculate propagation delay (tpd). 0 ns Output minimum delay = –t h of external register = –0. The Rogers material does have less loss, but even at 2. The PCB shown in Figure 2 was design to evaluate the effects of only two corners per trace using various. 0; 1 < ε r < 15;; Accuracy: For typical PCB parameters (ε r = 4, H = 30 mil and T = 1. High speed Ethernet cards and backplanes regularly suffer from the fiber weave effect. 39 nsec. 1000 “1,000,000. Calculates the characteristic impedance and per-unit-length parameters of typical printed circuit board trace geometries. The de-skew trombone on one of the P/N legs may have less delay per unit length compared to the straight trace on the other leg. 75 mm. Here is how we can calculate the propagation delay from the trace length and vice versa: [t. The flight time of a 16-in. You can use the ratio: where γ is the propagation constant for the signal, and L is a length value. As an example, Zo is 20 millohms. The basic "Parallel-plate capacitor" capacitor formula for capacitance is. 43 low voltage differential signalling (lvds) 12. Figure 3. However, I have a bit of a length mismatch between the TX+/TX- and RX+/RX- pairs (about 5mm). 8mm (0. As the length of the signal switching edge becomes shorter than the length of the PCB trace that carries it, the trace has to be treated as part of the circuit. 5. Figure 3. 3 Cable Skew. The stripline impedance calculator provided below is useful for gaining an initial estimate of trace impedance for striplines. Optimization results for example 2. PCB Trace Attenuation Comparison per 1 inch Trace Length for various dielectric materials, while Trace Width is 5 mil, results up to 20 GHz. It depends on the PCB dielectric constant and the trace geometry. Frequency: Frequency at which the stripline is analyzed or.