Chandrayaan 3 is an ISRO (Indian Space Research Organization) mission with the primary objective of putting a lander and rover in the highlands near the south pole of the Moon in the August 2023 timeframe and demonstrating end-to-end landing and roving capabilities. It will also make a number of scientific measurements on the surface and from orbit. It comprises a lander/rover and a propulsion module. The lander/rover will be similar to the Vikram rover on Chandrayaan 2, with improvements to help ensure a safe landing. It will be carried to lunar orbit by the propulsion module which will remain in orbit around the Moon and act as a communications relay satellite.
Spacecraft and Subsystems
The propulsion module is a box-like structure (modified I-3K structure) with one large solar panel mounted on one side and a large cylinder on top (the Intermodule Adapter Cone) that acts as a mounting structure for the lander. The main thruster nozzle is on the bottom. It has a mass of 2145.01 kg, of which 1696.39 kg is propellant for the MMH + MON3 bi-propellant propulsion system. It can generate 738 W power. Communications is via S-Band and attitude sensors include a star sensor, Sun sensor, and Inertail Reference unit and Accelerometer Package (IRAP).
The
(named after Indian space program pioneer Vikram Sarabhai) lander is also generally box-shaped (200 x 200 x 116.6 cm), with four landing legs and four landing thrusters. It has a mass of 1749.86 kg, including 26 kg for the rover, and can generate 738 W using side-mounted solar panels. The lander has a number of sensors to ensure a safe touchdown, including an accelerometer, altimeters (Ka-band and laser), Doppler velocimeter, star sensors, inclinometer, touchdown sensor, and a suite of cameras for hazard avoidance and positional knowledge. Reaction wheels are used for attitude control, and propulsion is provided by a MMH and MON3 bipropellant system with four 800 N throttleable engines and eight 58 N throttleable engines. An X-band antenna is used for communications. The lander carries the rover in a compartment with a ramp for deployment onto the surface.
The Pragyan (Sanskrit for “wisdom”) rover has a rectangular chassis, 91.7 x 75.0 x 39.7 cm in size, mounted on a six-wheel rocker-bogie wheel drive assembly. It has navigation cameras and a solar panel that can generate 50 W. It communicates directly with the lander via Rx/Tx antennas.
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The Vikram lander will carry an instrument called Chandra’s Surface Thermophysical Experiment (ChaSTE) to measure surface thermal properties, the Instrument for Lunar Seismic Activity (ILSA) to measure seismicity around the landing site, the Radio Anatomy of Moon Bound Hypersensitive ionosphere and Atmosphere (RAMBHA) to study the gas and plasma environment, and a passive laser retroreflector array provided by NASA for lunar ranging studies. The Pragyan rover will carry two instruments to study the local surface elemental composition, an Alpha Particle X-ray Spectrometer (APXS) and Laser Induced Breakdown Spectroscope (LIBS). The Propulsion Module / Orbiter will carry one experiment called the Spectropolarimetry of HAbitable Planet Earth (SHAPE) to study Earth from lunar orbit.
Mission Profile
Chandrayaan 3 launched on 14 July 2023 at 9:05:17 UT (2:35 p.m. India standard time), on a GSLV Mark 3 (LVM 3) heavy lift launch vehicle from Satish Dhawan Space Center in Sriharikota, India, into an approximately 170 x 36,500 km elliptic parking orbit. The propulsion module will bring the lander/rover into a 100 km circular polar lunar orbit and separate in August. The lander will then touch down with the rover in the south polar region of the Moon, near 69.37 S, 32.35 E. Touchdown is expected to occur near the end of August. Touchdown velocity is planned to be less than 2 m/s vertical and 0.5 m/s horizontal. The propulsion module / communications relay satellite will remain in lunar orbit to enable communications with Earth. Chandrayaan 2 will also be used as a backup relay. The lander and rover are designed to operate for one lunar daylight period (about 14 Earth days).
Source: NASA