![This resistor is supposed to be connected to ground. On the back of the PCB, does the lead need to be connected to the metal pad? : r/diyelectronics This resistor is supposed to be connected to ground. On the back of the PCB, does the lead need to be connected to the metal pad? : r/diyelectronics](https://preview.redd.it/this-resistor-is-supposed-to-be-connected-to-ground-on-the-v0-czgo943yrnq91.jpg?auto=webp&s=fa8918917c5d59703531c6f685975f653d108092)
This resistor is supposed to be connected to ground. On the back of the PCB, does the lead need to be connected to the metal pad? : r/diyelectronics
![pcb - Using oblong / rounded surface mounted pads for chip resistors, capacitors and inductors - Electrical Engineering Stack Exchange pcb - Using oblong / rounded surface mounted pads for chip resistors, capacitors and inductors - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/DGAsA.png)
pcb - Using oblong / rounded surface mounted pads for chip resistors, capacitors and inductors - Electrical Engineering Stack Exchange
![Custom Circuit Solutions – SMD to DIP Breakout PCB Module, 16-Pin, SOIC to DIP Adapter Header with Integrated SMT Resistor and/or Capacitor Pads – 6 Pieces: Amazon.com: Industrial & Scientific Custom Circuit Solutions – SMD to DIP Breakout PCB Module, 16-Pin, SOIC to DIP Adapter Header with Integrated SMT Resistor and/or Capacitor Pads – 6 Pieces: Amazon.com: Industrial & Scientific](https://m.media-amazon.com/images/I/81JRVxhaNqL.jpg)
Custom Circuit Solutions – SMD to DIP Breakout PCB Module, 16-Pin, SOIC to DIP Adapter Header with Integrated SMT Resistor and/or Capacitor Pads – 6 Pieces: Amazon.com: Industrial & Scientific
Choosing the right sense resistor layout - Power management - Technical articles - TI E2E support forums
Choosing the right sense resistor layout - Power management - Technical articles - TI E2E support forums
![Optimize High-Current Sensing Accuracy by Improving Pad Layout of Low-Value Shunt Resistors | Analog Devices Optimize High-Current Sensing Accuracy by Improving Pad Layout of Low-Value Shunt Resistors | Analog Devices](https://www.analog.com/-/media/images/analog-dialogue/en/volume-46/number-2/articles/optimize-high-current-sensing-accuracy/optimize-high-current-sensing-accuracy_fig_04.jpg?la=en&imgver=1)
Optimize High-Current Sensing Accuracy by Improving Pad Layout of Low-Value Shunt Resistors | Analog Devices
![Optimize High-Current Sensing Accuracy by Improving Pad Layout of Low-Value Shunt Resistors | Analog Devices Optimize High-Current Sensing Accuracy by Improving Pad Layout of Low-Value Shunt Resistors | Analog Devices](https://www.analog.com/-/media/images/analog-dialogue/en/volume-46/number-2/articles/optimize-high-current-sensing-accuracy/optimize-high-current-sensing-accuracy_fig_01.jpg?la=en&imgver=1)
Optimize High-Current Sensing Accuracy by Improving Pad Layout of Low-Value Shunt Resistors | Analog Devices
![Macro close up of SMT / surface mount electronic resistors (black) & capacitors on pcb, plus blue rings of traditional through-hole soldering Stock Photo - Alamy Macro close up of SMT / surface mount electronic resistors (black) & capacitors on pcb, plus blue rings of traditional through-hole soldering Stock Photo - Alamy](https://c8.alamy.com/comp/2GE3C8R/macro-close-up-of-smt-surface-mount-electronic-resistors-black-capacitors-on-pcb-plus-blue-rings-of-traditional-through-hole-soldering-2GE3C8R.jpg)