An image provided by the German Aerospace Center DLR on Saturday shows a two-photo combination of the asteroid Steins, taken around the time of Rosetta's closest approach to Steins during a flyby of the European Space Agency deep space probe Rosetta on Friday. Rosetta's camera stopped shortly before the closest pass, ESA officials said Saturday during a news conference in Darmstadt, Germany.

An image provided by the German Aerospace Center DLR on Saturday shows a two-photo combination of the asteroid Steins, taken around the time of Rosetta's closest approach to Steins during a flyby of the European Space Agency deep space probe Rosetta on Friday. Rosetta's camera stopped shortly before the closest pass, ESA officials said Saturday during a news conference in Darmstadt, Germany.

Darunta, Afghanistan ? The European deep space probe Rosetta successfully completed a flyby of an asteroid millions of miles from earth, but its high resolution camera stopped shortly before the closest pass, space officials said Saturday.

Rosetta caught up with the Steins asteroid, also known as Asteroid 2867, Friday in the asteroid belt between the orbits of Mars and Jupiter. The probe came within 500 miles of the asteroid – which turned out to be slightly larger than scientists expected.

Officials at the European Space Agency were not sure exactly what caused the camera to balk.

“The software switched off automatically,” Gerhard Schwehm, the ESA mission manager and head of solar systems science operations told The Associated Press. “The camera has some software limits and we’ll analyze why this happened later.”

Another wide angle camera was able to take pictures and send them to the space center, Schwehm said.

At a news conference, Uwe Keller, the principal camera investigator, said despite the camera turning off about nine minutes before its closest approach, it switched back on again later and was now working well. Keller said he did not expect the camera setback to affect the rest of the mission.

Craters of different ages were found on the surface of the gray-colored asteroid, showing a “rich collisional history,” Keller said.

The probe recorded more than 23 craters, with the biggest being about 1.2 miles wide. According to measurements by the probe, the diamond-shaped asteroid turned out to be 3.1 miles in diameter, slightly larger than an earlier estimate of 3 miles.

The Rosetta craft was launched in March 2004 from French Guyana, and is now about 250 million miles from Earth.

Schwehm said the historic mission could give astronomers crucial clues to help them understand the creation of the solar system.

“Dead rocks can say a lot,” he said.

Rita Schulz, a Rosetta project scientist, said data from asteroids and comets was particularly valuable because they are made of galactic matter that helped create the planets in our solar system.

“Asteroids are a sort of memory, or the DNA, of the solar system,” Schulz said.

Up until now, astronomers analyzing asteroids have had to work with limited data from brief flybys, such as when ESA’s Giotto probe swept by Halley’s Comet in 1986, photographing long canyons, broad craters and 3,000-foot hills.

As planned, the Rosetta lost its signal to Earth for about an hour-and-a-half Friday night as engineers turned it away from the sun and the craft zoomed through space too fast for its antennae to transmit any signal.

The craft resumed transmission Friday, signaling that the exercise was successful – news cheered by ESA engineers and technicians.

Yet there was another setback Friday night as data was sent to antenna stations far from Europe.

A NASA laboratory in Goldstone, Calif., was having problems cooling one of its antennas in the summer heat and had to switch the ESA project to another antenna, delaying the analysis of some data by several hours.

Rosetta data was also transmitted to an antenna in New Norcia, western Australia.

Data from its working camera was being processed Saturday at the Max Planck Institute in Lindau, southern Germany, while further infrared data collected by the probe was being analyzed at the Instituto Nacionale di Astrofisica in Rome.

The Steins asteroid was Rosetta’s first scientific target as it enters the asteroid belt en route to its destination, the comet 67/P Churyumov-Gerasimenko. Rosetta is scheduled to reach the comet in 2014.