When might flexible connectors have the edge over rigid (and vice versa)?
There’s not always a clear demarcation between applications, products or industries better suited to rigid interconnect systems and those better suited to flexible. Applications for both technologies have a wide overlap, and both enable a shift from a single PCB in a 2D aspect to a multi-PCB solution with infinite possible topologies and product shapes.
When choosing between fixed and flexible, however, there are tendencies — reasons why one or the other may be the better option in certain circumstances. The right choice will always be specific to the product/solution you’re aiming to develop together with the production method, the mounting position of PCBs relative to each other, operating environments and electrical parameters (which is why a conversation with us should always be your first step). In general, however, here are some reasons why you might tend towards one or the other.
Rigid connectors
Rigid allows for interesting topologies and stacking options. It also allows for great customisation on plating depending on the requirement. Rigid may be ideal:
• When PCBs are to be stacked, or mounted parallel or perpendicular
• When PCBs are to be pluggable/unpluggable
• For vertical and horizontal, male and female
• For a modular design approach (i.e.motherboard with multiple option daughter boards)
• Where you have lots of connection points in a condensed space
• When using SMD or through-hole components
• In low voltage and low current applications
Flexible connectors
Flexible allows greater distances and any angle between PCBs is possible rather than the conventional 90-degree increments. Flexible also allows multiple PCBs to be connected in a single panel. FFC (Flat Flexible Cable) is a cost-effective alternative to simple FPCs (Flexible Printed Circuits). Flexible may be ideal:
• To manufacture PCBs in-panel, snapped out and folded into position
• When PCBs are to be fixed or pluggable
• To position PCBs at angles from zero – 360 degrees
• Where distances between PCBs are significant
• In high vibration applications (where flexible cables act as a vibration damper)
• When using SMD, through hole or pin-in-paste components
• For low voltage, low current to high voltage (large pitch), to high current (up to 12 amps) per connection point.
Explore our full range of rigid & flexible connectors here www.hitaltech.com.