Rocket Lab is an American aerospace manufacturer with a wholly owned New Zealand subsidiary. The company develops lightweight, cost-effective commercial rocket launch services. The Electron Program was founded on the premise that small payloads such as CubeSats require dedicated small launch vehicles and flexibility not currently offered by traditional rocket systems. Its rocket, the Electron, is a light-weight rocket and is now operating commercially. Electron currently launches from only Mahia Peninsula in New Zealand however they are currently looking into developing a facility in the US.
Electron is a two-stage orbital expendable launch vehicle (with an optional third stage) developed by the American aerospace company Rocket Lab. Electron is a small-lift launch vehicle designed to launch small satellites and cubesats to sun-synchronous orbit and low earth orbit. The Electron is the first orbital class rocket to use electric-pump-fed engines, powered by the 9 Rutherford engines on the first stage.
The Rutherford is a small (25cm Dia. 35kg) liquid propellant rocket engine designed by aerospace company Rocket Lab. Ten Rutherford engines are used on Rocket Labs Electron rocket, nine for the first stage, and one vacuum-optimized version for the second stage. Its fueled by refined kerosene (RP-1) mixed with liquid oxygen(LOX).
The Rutherford Vacuum-optimized is a small liquid propellant rocket engine with a longer nozzle then the sea-level version, designed by aerospace company Rocket Lab. Ten Rutherford (sea-level engines are used on Rocket Labs Electron rocket, nine for the first stage, and one vacuum-optimized version for the second stage. Its fueled by refined kerosene (RP-1) mixed with liquid oxygen(LOX).
QPS-SAR-5 is a synthetic-aperture radar (SAR) satellite that will join a constellation after QPS-SAR-6 already in orbit. iQPS’s satellites are small, high-performance SAR satellites that use a lightweight, large, stowable antenna to collect high resolution images of Earth, even through clouds and adverse weather conditions.