-
- News
- Books
Featured Books
- design007 Magazine
Latest Issues
Current IssueOpportunities and Challenges
In this issue, our expert contributors discuss the many opportunities and challenges in the PCB design community, and what can be done to grow the numbers of PCB designers—and design instructors.
Embedded Design Techniques
Our expert contributors provide the knowledge this month that designers need to be aware of to make intelligent, educated decisions about embedded design. Many design and manufacturing hurdles can trip up designers who are new to this technology.
Manufacturing Know-how
For this issue, we asked our expert contributors to share their thoughts on the absolute “must-know” aspects of fab, assembly and test that all designers should understand. In the end, we’re all in this together.
- Articles
- Columns
Search Console
- Links
- Events
||| MENU - design007 Magazine
AltiumLive Frankfurt 2019: Rick Hartley Keynote
November 25, 2019 | Pete Starkey, I-Connect007Estimated reading time: 8 minutes
Introduced by Lawrence Romine, Altium’s VP of corporate marketing, as a “low impedance presenter with a passion for his topic,” Rick Hartley delivered the opening keynote at the AltiumLive 2019 European PCB Design Summit in Frankfurt, Germany. His inspirational, relaxed style—founded on the wisdom of 50 years of experience in printed circuit design and his expertise in resolving noise, electromagnetic interference, and signal integrity issues—encouraged the packed audience to listen, observe, and understand.
“Now the learning begins!” Hartley recalled his first couple of years after graduation when he was able to get by on what he had learned in college, although it became increasingly apparent that there were things he didn’t understand. He had been accumulating knowledge ever since, through books, and by associating himself with brilliant people. Hartley’s reading was selective, however. For example, he believed there was little value in reading IC application notes; although they described the schematic function of the component, they were often written without an appreciation of the influence of board layout. An opinion Hartley had shared for many years with Lee Ritchey was, “Circuit application notes produced by IC manufacturers should be assumed wrong until proven to be right.”
Hartley had recognised that many designers and engineers didn’t fully understand the features of differential pairs used to create balanced transmission systems for carrying high-speed signals across PCBs, eliminating problems associated with ground returns. He made it clear that the rules for differential pairs were not the same in a PCB as they were in a cable or twisted pair of wires. In his keynote, entitled “What Your Differential Pairs Wish You Knew,” Hartley set out to discuss the advantages of differential pairs, which format gave the best impedance control, what was the right spacing between lines of a pair, what was important in differential pair routing, and how much skew was really acceptable.
“A couple of things to understand: The frequency of a circuit is not driven by the clock, but by IC output rise time. It’s all about the rate of change of energy with respect to time and has nothing to do with clock frequency,” Hartley declared. He continued, “Design to the rise time, which, by the way, you probably won’t find in the datasheet.” Hartley made special mention of a feature of Altium’s new tool that enabled the tweaking of line length based on timing: “It’s all about timing, not about length.”
Hartley displayed a table he had put together many years ago that indicated how long a transmission line could be, based on rise time, before it was necessary to pay attention to it. And there were differences in inner-layer and outer-layer lines because energy travelled faster on outer layers—another source of problems in matching line length. And with modern devices having rise times between 0.3 and 0.7 nanoseconds, any traces longer than 10–25 mm needed careful attention.
“Where does the energy travel in a circuit?” Hartley asked. Then, he answered his own question: “It’s in the electric and magnetic fields, not in the current and voltage.” Hartley added, “Where do the fields travel in a transmission line? In the plastic of the PCB, or in the plastic between the wires of a twisted pair, and the air around it. Because all the energy is in the fields, and if they move position, they’re going to couple energy into other things. That’s why we have electromagnetic interference. Forget voltage and current and start thinking about the fields.”
Hartley illustrated a transmission line—a pair of conductors that moved energy from A to B—and reiterated that the energy moved in the dielectric space; the voltage was across the copper features, and the current was in the copper features. The fields travelled in the dielectric space between the line and what he had shown as a ground plane. Energy did not come from the power plane; it came from the dielectric space between the power plane and ground, which was a reason for putting power and ground as close as possible to each and avoiding routing signals in between them.
In its most basic form, a differential pair was two single-ended signals, containing equal amplitude and usually opposite polarity fields. It was not “special” in any other respect than that it ignored ground offsets. And the receiver was simply a crossing detector, a differential-input amplifier. Most of the coupling from each of the lines was to the plane below, not to the other line. The amount of coupling between them was a function of how far apart they were, but it was not necessary to have them really close together. In fact, it was irrelevant; the main reason for routing them together was so that they would be about the same length so that they would cross in the linear region of the rising and falling edges.
Each line had its own impedance relative to ground, and the fields that coupled between them defined Z-coupling. As an example, two lines that were 65 ohms each, and close enough together to have 15 ohms coupling between them, would constitute a 100-ohm differential pair. If the lines were 55 ohms, and further apart so that there was only 5 ohms of coupling, they would still constitute a 100-ohm differential pair. If they were moved so far apart that they had no coupling, they would still constitute a 100-ohm differential pair because they would be two single-ended signals within the PCB operating independently of each other. And whether or not they lined up mattered only when going through a non-grounded connector, and at the receiver.Page 1 of 2
Suggested Items
Trouble in Your Tank: Supporting IC Substrates and Advanced Packaging, Part 5
03/19/2024 | Michael Carano -- Column: Trouble in Your TankDirect metallization systems based on conductive graphite or carbon dispersion are quickly gaining acceptance worldwide. Indeed, the environmental and productivity gains one can achieve with these processes are outstanding. In today’s highly competitive and litigious environment, direct metallization reduces costs associated with compliance, waste treatment, and legal issues related to chemical exposure. What makes these processes leaders in the direct metallization space?
AT&S Shines with Purest Copper on World Recycling Day
03/18/2024 | AT&SThe Styrian microelectronics specialist AT&S is taking World Recycling Day as an opportunity to review the progress that has been made in recent months at its sites around the world in terms of the efficient use of resources:
Matrix to Exhibit at IPC APEX EXPO 2024 in Anaheim, CA
03/05/2024 | MatrixMatrix will be exhibiting at IPC APEX EXPO 2024, to be held on April 9-12, 2024, at the Anaheim Convention Center, Anaheim, CA.
The Chemical Connection: Getting to Know Your Vendor
02/16/2024 | Don Ball -- Column: The Chemical ConnectionAfter working for a capital equipment supplier for almost 50 years, I’ve found that the most important part of getting to know your vendor is good communication among all parties. While contact between fabricators of a constantly changing product line and the designers of those products may occur daily or weekly, conversations between you and your equipment supplier may be years apart. That lengthy gap often means that previous contacts may have been promoted, retired, or moved on to other opportunities. You may have also migrated to a new supplier with whom you have little or no history. In either case, you will be interacting with someone you are unfamiliar with (as they are with you). Therefore, it is essential for both sides to communicate clearly so expectations will align.
EIPC Winter Conference 2024, Day 2: A Closer Look at Global Trends
02/14/2024 | Pete Starkey, I-Connect007The opening session of the second day’s conference proceedings focused on global PCB trends and was introduced and moderated by Dr. Michele Stampanoni, vice president of strategic sales and business development at Cicor Group in Switzerland. He opened the session with Dr. Hayao Nakahara’s knowledgeable and enlightening video presentation on the IC substrates industry.