Elementary Mr. Watson: Running the Signal Gauntlet
The Shaughnessy Report: Winning the Signal Integrity Battle
Connect the Dots: How to Avoid Five Common Causes of Board Failure
Ventec Thermal Management Book Excerpt: Chapter 1
September 5, 2022 | Didier Mauve and Robert Art, VentecEstimated reading time: 1 minute
The Printed Circuit Designer's Guide to...Thermal Management with Insulated Metal Substrates, Vol. 2
Chapter 1: High Emissivity
Regarding basic principles of thermal dissipation there are three ways of dissipating energy:
- Conduction
- Convection
- Radiation
The integrated metal substrate (IMS) printed circuit boards rely predominantly on heat conduction all the way through the different layers of the substrates from a hot point (the base of the component) to a cold point (the furthest surface of the metal base) and, usually, thereafter, through a dissipator. Ideally, the thermal engineering of the package, soldered connection(s) to the substrate, dielectric layer, IMS metal base, and dissipator should conduct heat as effectively as possible away from the die and into the ambient. That is, they should have the highest possible thermal conductivity (or low thermal resistance, the one being the inverse of the other). However, various other properties are needed, and the entire system cannot be designed solely around thermal performance. The different elements of the “stackup” (noting that inside the package there is typically some combination of metallic parts such as bondwires and/or leadframe, ceramics or plastics, FR4 or similar substrate in the case of a system-in-package device or high-performance MPU, and adhesives) can be modeled as a series of dissimilar thermal resistances.
Ultimately, thermal energy conducted into the metal base is transferred into the ambient by radiation. The effectiveness of this transfer is influenced by factors such as the emissivity of the surface and the radiating area in contact with the surrounding air. The emissivity is dependent on the material as well as the surface finish (basic physics tells us that a matte black surface radiates heat more effectively than a shiny surface–and also absorbs heat radiated from nearby sources more effectively than a polished surface).
After being transferred into the surrounding air by radiation, the heat dissipates throughout the atmosphere by a process of convection.
To download the 2nd volume of this I-Connect007 eBook, click here.
To download the 1st volume of The Printed Circuit Designer's Guide to...Thermal Management with Insulated Metal Substrates, click here.
Share on:
Testimonial
"Our marketing partnership with I-Connect007 is already delivering. Just a day after our press release went live, we received a direct inquiry about our updated products!"
Rachael Temple - AlltematedSuggested Items
Driving Innovation: Depth Routing Processes—Achieving Unparalleled Precision in Complex PCBs
09/08/2025 | Kurt Palmer -- Column: Driving InnovationIn PCB manufacturing, the demand for increasingly complex and miniaturized designs continually pushes the boundaries of traditional fabrication methods, including depth routing. Success in these applications demands not only on robust machinery but also sophisticated control functions. PCB manufacturers rely on advanced machine features and process methodologies to meet their precise depth routing goals. Here, I’ll explore some crucial functions that empower manufacturers to master complex depth routing challenges.
Polar Instruments Announces Additive Transmission Line Support for Si9000e
08/20/2025 | Polar InstrumentsTransmission lines embedded into the PCB surface are a feature of UHDI constructions. The 2025 fall release of Polar's Si9000e PCB impedance & insertion loss transmission line field solver incorporates eight new single ended, differential and coplanar transmission line structures.
Henniker Plasma Launches Stratus Turnkey Plasma Manufacturing Cell
08/13/2025 | Henniker PlasmaHenniker Plasma, a leading manufacturer of plasma treatment systems, proudly announces the launch of its Stratus Plasma Manufacturing Cell range — a fully integrated, turnkey solution that combines advanced atmospheric plasma surface treatment with robotic automation.
Trouble in Your Tank: Metallizing Flexible Circuit Materials—Mitigating Deposit Stress
08/04/2025 | Michael Carano -- Column: Trouble in Your TankMetallizing materials, such as polyimide used for flexible circuitry and high-reliability multilayer printed wiring boards, provide a significant challenge for process engineers. Conventional electroless copper systems often require pre-treatments with hazardous chemicals or have a small process window to achieve uniform coverage without blistering. It all boils down to enhancing the adhesion of the thin film of electroless copper to these smooth surfaces.
Designers Notebook: Basic PCB Planning Criteria—Establishing Design Constraints
07/22/2025 | Vern Solberg -- Column: Designer's NotebookPrinted circuit board development flows more smoothly when all critical issues are predefined and understood from the start. As a basic planning strategy, the designer must first consider the product performance criteria, then determine the specific industry standards or specifications that the product must meet. Planning also includes a review of all significant issues that may affect the product’s manufacture, performance, reliability, overall quality, and safety.