Home » OrCAD blog » Know How Your Circuit Works!- Using Sensitivity Analysis In PSpice (Part 1 of 4)
Grab A Coffee And Let Optimizer In PSpice Do The Work For You! (Part 2 of 4)
Anyone who designs complex circuits and claims they don’t use the Optimizer in their circuit design is most...
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Flat Schematics vs. Hierarchical Design
Every PCB design starts with a circuit diagram (also known as a schematic)—a graphical representation of all the components and their connections within an electrical circuit.
Cross Probing, Intertool Communication, and PCB Design
Part of your PCB design process can be described as bouncing back and forth between the schematic, which visually depicts the components and their connections as symbols in a circuit...
Power Supply in Schematic Capture and Circuit Simulation
From robots to electric vehicles to data centers and IoT devices—the one thing every circuit has in common is the need for a power supply. Different circuits will have...
From Logic to Hardware: How Do I Convert PCB Layout?
It is important that your circuit ideas are understood by PCB layout. If you’re wondering how do I convert PCB layout look no further than these guidelines.
PCB Design that Requires MCAD/ECAD Collaboration
Without good MCAD/ECAD collaboration, your carefully created circuitry could bog down in physical design. You need tools that are designed to work together.
PCB Routing Angles Enable Circuit Board Connectivity Easily
That first complex layout can be intimidating with all the nets going everywhere. Here’s some explanations of PCB routing angles that can help you get through.
A Closer Look at Schematic Diagram Symbols to Go Back to the Basics
It all starts with the basics of schematic diagram symbols. Before you can create a schematic full of circuitry, you need the best schematic parts to work with.
Modeling FR4 Dielectric Constant vs. Frequency
High speed and high frequency signal integrity depends on modeling FR4 dielectric constant vs. frequency.
Comparing PCB Design-to-Cost and Design-to-Value
Is it better to design-to-cost or design-to-value? Read this to understand the difference between these PCB design strategies and how to determine which is best.
RF PCB Routing Guidelines to Suppress Noise
Signal integrity is a big concern in RF boards. Suppress noise, clock skew, and manage impedance properly with RF PCB routing guidelines.
PLL or Phase Locked Loops in Wireless Communication Technologies
Here’s how phase locked loops act as a critical control system in your wireless PCB.
PCB Design for Wireless Sensor Networks
Wireless sensor networks are becoming more common in many areas. Here are some points to consider in wireless sensor network design.
Identifying Electronic Components, Circuit Symbols, and Functions in Your Schematic
Sometimes a quick review of the basics can be helpful. Here’s some tips on identifying electronic components, circuit symbols, and functions in your schematic.
How to Become a Design Engineer for the Creation of Printed Circuit Boards
Designing a printed circuit board is a rewarding profession. Here is some information that will help as you question how to become a design engineer.
How to Avoid PCB Assembly and Subassembly Redesign
No one likes doing the same task over when it could have been done better the first time. By implementing DFM and DFA, you can avoid the wasted time, additional cost, and frustration of PCB assembly a
How to Reduce Crosstalk in Your PCB Layout
Crosstalk can cause a lot of problems in the performance of a circuit board. Here are some guidelines on how to reduce crosstalk in your PCB layout designs.
Overcoming the Product Design Challenges in Internet of Things (IoT)
Developing smart systems presents unique product design challenges in the Internet of Things (IoT). Read this blog to learn what common challenges are and how to overcome them.
Power Integrity and Signal Integrity: Power Supply Noise in Your PCB
Power integrity and signal integrity are intimately related. Some simple PCB design strategies can protect your signals from noise.
PCB Design for Sustainable Manufacturing
We are rapidly approaching a time when the standard for manufacturing will be sustainability. Choosing components and advocating for smarter material selection are only two of the ways to accomplish.