Nitrogen polar (N-Polar) GaN high-electron-mobility transistors (HEMT) targeting high-voltage switching applications were fabricated on epi-layers grown by metal-organic chemical vapor deposition on sapphire substrates. Devices demonstrated a combination of high breakdown voltage and low dynamic ON-resistance. Breakdown voltages of over 2000 V were observed on transistors with ${L}_{G}=\text {1}\,\,\mu \text{m}$ , ${L}_{{\text {GS}}}=1\,\,\mu \text{m}$ , and ${L}_{{\text {GD}}}=28\,\,\mu \text{m}$ . These devices had a drain current density of ~ 575 mA/mm at ${V}_{{\text {GS}}}=1$ V, and the specific ON-resistance (active-area) was $ {4}~\text {m}\Omega \cdot \text {cm}^{2}~(10~\Omega \cdot \text {mm}$ ). Dynamic ON-resistance ( ${R}_{ \mathrm{\scriptscriptstyle ON}}$ ) was characterized $\text {5}~\mu \text{s}$ after the device was turned ON, with up to 575-V OFF-state stress. At ${V}_{{\text {DS}}, {Q}} = \text {575}$ V, the dynamic ${R}_{ \mathrm{\scriptscriptstyle ON}}$ was ~1.4 times the static ${R}_{ \mathrm{\scriptscriptstyle ON}}$ (40% increase). These transistors showed an ultra-low dynamic ${R}_{ \mathrm{\scriptscriptstyle ON}}$ of ~5% when measured at 450-V stress. As one of the first demonstrations of N-Polar GaN HEMTs for power switching applications, the devices discussed in this letter achieve excellent ${V}_{ \mathrm{\scriptscriptstyle BR}}$ and dynamic ${R}_{ \mathrm{\scriptscriptstyle ON}}$ performance comparable to (and in most cases better than) the state-of-the-art Ga-Polar GaN HEMTs reported in the literature.