网赌ag全部是一个平台的吗

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Electronic IC Considerations

Electronic Interconnect Design Considerations

Optimizing PCB Interconnects through Trusted Design Principles

Designing a printed circuit board (PCB) that efficiently and effectively achieves target specifications is a challenge that requires close attention to a great number of details.

The challenge escalates exponentially when you are designing a product that utilizes multiple boards that need to connect to each other through electronic interconnects. While you may feel like tearing out your hair as you try to accommodate all the variables in a multi-board assembly, there are some tried and true tips and considerations网赌ag全部是一个平台的吗 that can make the process smoother and less nerve-wracking.

Multiple PCBs Connected via Rigid-Flex PCB Interconnect

Multiple PCBs
Connected via Rigid-Flex PCB Interconnect

Examples of Multi-Board Solutions

网赌ag全部是一个平台的吗 While true that a multi-board solution may not be the optimal approach in terms of functionality, there are reasons why you have to use this approach.

It could be something as simple as accommodating for a strict form factor or the need to easily isolate power or sensitive signals. You may be charged with using an “off-the-shelf” board to talk to specific components or a custom board (such as LCD displays). Other reasons for stacking boards could include designing for future expansion (like the common Arduino shields), having multiple design configurations (maybe a basic version and an advanced version) or just making your design modular in general (a sort of mix-and-match).

A separate board may be deployed to address a particular task in a trace-specific application, such as trace routing for capacitive touch, inductive charging, or custom resistances.

Stacked PCBs

Stacked PCBs

Whatever the reason, keeping in mind some best practices网赌ag全部是一个平台的吗 and focusing on details will help you achieve your product goals with minimal difficulty.

For example, when multiple boards need to talk to each other, the pin count will increase and component density, which can cause signal integrity issues, adds to testing time, creating a more complex product to manufacture. Life-cycle durability of the finished product can also be affected by an increase in boards connected to one another.

There will be some bumps in the road, but if you stick to a good plan and employ sound principals to reduce common pitfalls and risks, the final printed circuit board, PCB interconnect(s) and application will reflect that same level of quality preparation.

Partnering with an experienced PCB manufacturing and assembly provider with engineers that have worked with and modified multiple layouts in preparation for fabrication and assembly of electronic interconnects is crucial for complex projects.

Successfully taking your elaborate PCB designs from layout to PCB assembly is the core value that comes from partnering with San Francisco Circuits for your next project - from flex PCB to bare boards, we are your one-stop shop for intricate, advanced printed circuit technologies.

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Contact us for a PCB quote
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Basic Design Considerations for Robust Interconnectivity

Putting a good PCB plan on "paper" starts with having the right overall product goals, market/customer insight and target specifications. From this starting point, you can begin to design the circuit boards and other components that need to work together.

This typically takes place in your preferred PCB design software. There are many tools available, but you should use one that is strong at combining PCBA designs and using 3D visualization to accommodate PCB stacking网赌ag全部是一个平台的吗, such as Altium Designer or Cadence's PCB layout tools.

Altium Designer  Cadence PCB  Fritzing  DipTrace

When working with the design software, simplify your view to see split planes and return paths between the boards. If the digital signal must cross a split in the power reference plane, use one or two plane decoupling capacitors (100nF) to close the offending signal.

Another rule of thumb is to avoid routing traces in parallel and broadside as they cause greater amounts of PCB crosstalk网赌ag全部是一个平台的吗 than those routed perpendicular. Since traces are wider than they are thick, they pick up more radiation when on top of each other.

网赌ag全部是一个平台的吗 Designing them to be perpendicular reduces overall coupling from one trace to another.

Parallel Routing Traces

Parallel Routing Traces – Poor Design Practice

The example above of a parallel trace design is a poor practice.

However, broadside trace design is sometimes done on purpose and calculated into their PCB design. If you are not experienced with this type of design and it is not accounted for, we strongly recommend designing the traces perpendicular. The below image is of an intentional 网赌ag全部是一个平台的吗broadside design.

网赌ag全部是一个平台的吗 Broadside Routing Traces

Following a PCB Design Workflow

Further development of your PCB design should follow a workflow that starts with a final schematic and follows these steps:

  • Develop the parts list
  • Create a layout of the PCB in the design software for the placement of each component
  • Define the routing of the components
  • Determine how you are going to test to verify performance to specification
  • Establish the manufacturing plan and procedures
GPIO Expansion

Example of an expansion header for connection to another PCB
Image Credit: )

Board Stacking Considerations

网赌ag全部是一个平台的吗 A common approach to connecting multiple boards is the stacking of boards on top of each other with connectors separating the boards. When designing for boards to be stacked, the substrate needs to be planned carefully to reduce impedance discontinuities, signal coupling and excessive electromagnet emissions.

All signal layers should be adjacent and closely coupled to an uninterrupted reference plane.

网赌ag全部是一个平台的吗 Closely coupled planes reduce AC impedance at the top end and dramatically reduce electromagnetic radiation. Radiation is further reduced by routing high-speed signals between the planes.

Stacked PCBs

Stacked Circuit Boards– Male/Female Connectors for the Interconnect are Highlighted in the Red Boxes

Think Ahead to PCB Testing

Throughout the design workflow, be sure to consider how to integrate testing into your overall product production plan. Boards that are connected will need additional and more sophisticated testing to ensure signal strength and other operational specifications are met. It's much easier to incorporate this as the design proceeds than to go back when you are finished.

Flying Probe Test on Assembled Circuit Board

网赌ag全部是一个平台的吗 Flying Probe Test

What are the parameters that need to be addressed in testing?

Generally speaking, any high speed signals or traces sensitive to noise should be tested. Some examples are serial interfaces (SPI, I2C, UART, etc.), analog signals such as pre-amplified sensor measurements, audio signals, and high power traces that could have voltage drop, depending on how much current is flowing and if there's enough copper on the traces and connector pins.

ATG Flying Probe Test for Bare Boards

ATG Flying Probe Test for Bare Boards

Keep Manufacturing & Servicing in Mind

Taking the manufacturing process into consideration during the design phase will be important for the future repeatable construction of the final product as well as how to possibly service the product in the event of a failure.

Designing for manufacturing网赌ag全部是一个平台的吗 typically means incorporating test points into the overall design. Test points are commonly placed at the edge of the board to allow for probes to be easily connected to the circuit for assessing voltage.

网赌ag全部是一个平台的吗 Depending on your design, you may want a simple bare board test or more complex functional test while the board is energized. The board house could have the capability of having flying probes and programming it with the location of your test point pads.

Microcraft Flying Probe Test for Bare PCBs

网赌ag全部是一个平台的吗 Microcraft Flying Probe Test for Bare PCBs

Designing for future serviceability is an important factor to consider as you may need to troubleshoot or repair a product after it has been used and perhaps broken or otherwise become non-functional.

It will be important to design a mechanism for probing the entire assembly while the boards are connected, such as using a flex cable between multiple boards. With the cable harness replacing a straight pin-type, rigid connection, you can flip the boards over and have much easier access to probe while energized.

Designing for Effective High-Speed Interconnectivity

网赌ag全部是一个平台的吗 High speed design interconnectivity, such as clock signals and triggers for communication interfaces, requires specific considerations to ensure system performance, particularly in low-power environments. Steps need to be taken to minimize cross talk and excess noise generation, among other factors.

Impedance matching is also important as it maximizes power transfer and minimizes signal reflection at high speeds. At high speeds, a signal from a low-impedance source being transferred to a high-impedance source will flip its phase 180 degrees back and forth without proper termination of each end.

Here's a tip: For high speed SPI communication you will want to consider adding in-line resistors or buffers before connecting to an external board. The resistance you use is directly related to your PCB trace impedance. Using too little will consume a lot of current. Using too much resistance will have little to no effect on improving your signal transfer.

In Line Resistors Before an Off-Board Connection

网赌ag全部是一个平台的吗 In-Line Resistors Before an Off-Board Connection

网赌ag全部是一个平台的吗 For high speed signals, it helps to have a ground in-between every other pin on the connector (for example, pin 1 = power, pin 3 = trigger 1, pin 5 = trigger 2, pin 7 = trigger 3 and pins 2, 4, 6, and 8 are all ground). This helps with reducing inductive coupling and cross talk.

That's some of the tried and true tips and considerations when designing for effective interconnectivity of PCBs. At the outset, keep in mind the overall product goal and market. Starting with good design software, work through a workflow that takes key design, test, manufacturing and servicing into consideration before your first board is spun.

Why Specifying the Right Components is Critical

网赌ag全部是一个平台的吗 There are a number of avenues for you to take when researching the various components you will need to assemble your circuit board as defined by your design. Of course, the internet has a wealth of information but can be overwhelming when trying to fight through marketing jargon.

Meeting with manufacturer representatives can be a good way to learn what’s new but, again, you are up against a sales person who, in the end, is trying to get you to buy a product. However, a manufacturer that is willing to share expertise and provide you with insight into industry standards, past experiences and samples can be a great resource.

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Before you start researching components, be sure that you refer back to the original market research, product plan and operational requirements网赌ag全部是一个平台的吗 to help guide your selection criteria.  Step away from the minutia of the circuit layout and go back to your overall product goal to determine the attributes and place in the market you are aiming for.

If you are aiming for a user-friendly product, you may want to pay more attention to the user controls/interface components. A high target price product will dictate a far different mix of components than a product aimed at the lower end of the market. Both of these divergent goals create different challenges to come within the target per unit price.

The per-unit target price for the finished product will dictate your overall parts budget. You’ll need to determine where to spend your available budget; there are some areas you won’t want to compromise on price (such as high speed, high reliability, and more sensitive devices) and others where you can save money (such as low-complexity and lower-quality mass produced consumer-based products.)

Here are some of the common components used to connect boards and how you should approach them for the best results:

Pins & Power Ratings

ZH series connector

Copper Pins: ZH series connector (with mating plug) with power rating of 1A per pin
Note: For high current applications, this would be a poor choice for a connector.


网赌ag全部是一个平台的吗 The amount of power that a thin copper pin can handle is surprisingly little and can quickly become an issue if you are driving high power in a compact design. This is particularly the case in any instance that involves motors, solenoids or bright LEDs and may require multiple pins to achieve the required power rating on a connection.

In general, you want to stay 30% below what is expected at peak.
 

High-Powered Compact Motorized Injector Device

High-Powered Compact Design: Motorized Injector Medical Device with 2 Brushless DC Motor


Also note that voltage tends to drop over long, thin traces or thin pins that have a lot of resistance.  Use too little copper in a high current trace, the resistance increases and creates a voltage drop across it. This can also affect a battery’s voltage output.

To combat this, use polygon pours for higher power traces. If board space is at a premium, add more copper per layer.
 

PCB with Multiple Polygon Pours

PCB with Multiple Polygon Pours: The rectangular pour on the left was used for noise isolation
and the others were used for high current traces


Determining the Right Connectors

Transferring high-speed data between boards that have a modular design with several smart boards connecting USB, Ethernet and similar sources, you will have to account for application-specific connectors so you don’t mix signals.

For low speed transfers and less sensitive analog signals, use a combined connection to achieve desired results.
 

Finished Receiver Mounted on PCBA

Combined Connections - Finished Receiver Mounted on PCBA


To further isolate and prevent coupling, double the amount of connector pins and place a ground in between each sensitive analog/digital signal.

Manufacturing and Testing for High Yield Output

First, a high yield output requires a manufacturing environment that is clean, precise and repeatable.

Ask your PCB manufacturer for examples of similar projects or any data that they can provide that proves adherence to quality controls. Depending on your application, you will need to test to specifications to meet the requirements of ISO, CE, IPC, IEC and others. These should be outlined in the market or product specification plans.

Boards should be assembled so that connections are straight and flat. Mechanical connections need to be secure and accurate to reduce stress on the components. Any board-to-board connectors that are even slightly mis-aligned can cause failures over time. Spend time making and testing prototypes to ensure the manufacturing process is performing to stated tolerances and can be repeated before starting your output.
 

PCB Interconnect - Side A

PCB Interconnect - Side A


Using Test Points

There are two kinds of test points: a functional test point for when the board is energized and operating and a “flying probe test” where the board is populated but not energized to check analog components and shorts or open circuits. The functional test, while important in finding faults, is a more expensive route as it will require a detailed plan with operational requirements and established testing thresholds.

Test points are needed for large, complex and sensitive applications. To make this testing process easier, keep the functional testing front of mind in the design process. The design should accommodate test points in easy-to-probe places, such as near the edge of the board so they are more readily accessible. Another approach is to create a “test jib” with a cable assembly that interconnects two boards while exposing the test points. Boards can also be tested separately to ensure they meet individual specifications.
 

PCB Interconnect - Side B

PCB Interconnect - Side B


Your Board is Assembled – Now What?

网赌ag全部是一个平台的吗 Now that you have an assembled product, it’s time to put those test points in use to determine if the completed product is functioning to specifications.

Flying probe tests are common in post-assembly checks网赌ag全部是一个平台的吗 to make sure the right components were used and connections were made. This typically just calls for a test point report with schematic coordinates and bill of materials.

A functional test网赌ag全部是一个平台的吗 will measure voltage rails, rise/fall time on trigger lines, analog gains/sensitivities and much more. This will often require a specific testing fixture that utilizes interconnects or test points.

A common methodology is to test continuity网赌ag全部是一个平台的吗 between the boards. This is a good place to start since most problems occur here. Next, test all main power and voltage rails. Finally, test the signal integrity with an oscilloscope and tolerances for the main components versus the planned specifications.

What to Look for During Testing

Soldering should be automated for high density board applications to ensure connections are made optimally and completely. Flux residue from the soldering process can play a significant role in the performance of your board in terms of resistance. Board to board connections that have several through-hole pins need good flux cleaning since voltage can drop if there isn’t enough copper between connections with a high current path.

Using a solder wave pallet for stability in the soldering process can help ensure solid connections are made during assembly.
 

Flux Residue

Flux Residue


Shorts can occur on very high density connectors during the assembly process and need to be tested for during the quality control phase. Good board manufacturers will employ an X-ray machine to verify ball grid array packages.

Noise and inductive coupling网赌ag全部是一个平台的吗 issues are hard to trace during the functional test and remediate once a product is in production. As a preventative measure, start with a detailed test plan to lower the risk of these issues.

Fixing Common Interconnection Problems

网赌ag全部是一个平台的吗 As an example, think of a board being used for a high-power heating application with a connection that extended to a heater and thermistor for feedback. The heater is Pulse Width Modulated at 100Hz with a varying duty cycles to control the average current through the heating element with power in the 10s of watts. What do you think the affect was on the connection? By examining the signal with an oscilloscope, you can locate power spikes on the thermistor.

Typically, the most common issue that can occur in a PCB interconnection is unintentional radiation and coupling of noise.

There are a few ways to find these issues. First, however, use shielding on connectors when dealing with sensitive and powerful signals. To determine if the signal integrity on an interconnection is bad, use an oscilloscope to find any noise or spikes caused by radiation. A near-field RF probe is the best tool to perform frequency sweeps to determine if a frequency tone is emitting from the connectors. This issue can also affect sensitive electronics nearby.

Near Field RF Probe

Near Field RF Probe


For example, a board being used for a high-power heating application with a connector that extended to a heater and thermistor was experiencing noise at the connection. By probing with an oscilloscope, you can find where the power spike is emanating from.

Oscilloscope Waveforms

Oscilloscope Waveforms


5 Considerations to Keep you on Target

Undoubtedly there is a lot to know and plan for when creating a PCB board that needs to connect to another board. But if you keep a few key suggestions in mind, the process can be less stressful and help see you through the process.

  1. Start on paper with your market, product and design goals before using the right PCB design software
    Knowing who your target market is, what price they are willing to pay and what the competition is offering will serve as your home base for making product design decisions. Once you have this information, select a strong PCB design software program that will help you create the right schematics and support documentation. View Part One of this article for software suggestions.
  2. Design with testing and manufacturing in mind. Before finalizing your design, review what you have created under the guise of how the product will be put together by your manufacturer. Will the tolerances be tight enough? Are there ample testing points and protocols established to ensure you can determine if the boards are working to specification? This is where a good consulting engineering partner can help you think through the production and testing of your design.
  3. Design considerations for high speed applications
  4. Specify the right components: while your target unit price will dictate how much you can spend per board, this is a time to refer back to your target market to ensure you are selecting components that meet your customer’s expectations. There are ways to control costs, but knowing the right places to save is key.
  5. Employ test protocols to ensure high output manufacturing. By incorporating testing points and protocols early in the design phase, you will inherently have the ability to perform the right tests during manufacturing. This will help find issues that may crop up during manufacturing and put you on the right path to remediating anything that goes wrong.

For your next PCB fabrication & assembly project, make sure to talk to the engineers at San Francisco Circuits to make your product concept a reality.

Get your PCBs Built-Fast.

Contact us for a PCB quote
or call us at 1-800-SFC-5143