N893MK

HISTORY OF FLIGHT

On January 23, 2002, at 1653, Pacific standard time, a Cirrus SR 20, N893MK, collided with power lines near San Jose, California. The private pilot/owner was operating the airplane under the provisions of 14 CFR Part 91. The airplane was destroyed. The pilot, the sole occupant, sustained fatal injuries. The personal cross-country flight departed Napa County Airport (APC), Napa, California, at 1600, en route to Reid-Hillview Airport of Santa Clara County (RHV), San Jose. Day instrument meteorological conditions prevailed, and an instrument flight rules (IFR) flight plan had been filed. The primary wreckage was located at 37 degrees 16 minutes north latitude and 121 degrees 43 minutes west longitude.

During the investigation, the recorded voice channels from the Federal Aviation Administration (FAA) Northern California Terminal Radar Approach Control (NCT), Palo Alto ATCT, and Reid-Hillview ATCT were examined. Recorded radar data from the NCT ARTSIIIA system was also reviewed.

During the initial portions of the flight after takeoff from Napa, ATC issued numerous radar vectors and altitude assignments to the pilot for traffic avoidance purposes. Review of the radar data disclosed that the pilot complied with all instructions. At 1627, when the airplane was approximately abeam Oakland International Airport, the NCT Saratoga sector controller instructed the pilot to proceed to navigational fixes near Palo Alto airport (PAO). The pilot questioned the clearance, and in the subsequent exchanges the controller acknowledged his mistaken belief that the pilot was destined to PAO and that the flight was actually destined to RHV. The controller asked the pilot from which fix he would like to initiate the approach, and the pilot requested vectors to the approach "around OZNUM." OZNUM is the Final Approach Fix (FAF) on the RHV GPS 31R procedure. The controller issued a clearance direct to OZNUM. After this exchange, radar indicated the airplane turned almost 90 degrees to the right, and tracked on a course consistent with proceeding direct to PAO. The controller noticed the course deviation, and queried the pilot. The controller provided no specific headings, but told the pilot to make a right turn to avoid traffic associated with San Jose International Airport, and to proceed to OZNUM, which he said was "on the east side of RHV." The pilot acknowledged and made a right turn of approximately 270 degrees, briefly tracking on an approximately southbound course, which did not appear to be aligned with any relevant navigational fix. After approximately 3 miles on that course, the pilot turned left to a track consistent with proceeding direct to OZNUM. The radar data showed that this ground track resulted in the airplane flying overhead RHV, on approximately the reciprocal of the final approach course, i.e., aligned with RHV, and the fixes OZNUM, then ECYON.

In his interview, the first NCT LICKE sector controller (L1) said he became aware of N893MK when he overheard the Saratoga sector controller correcting the pilot's course to OZNUM. The L1 controller said he believed the pilot required extra attention and intended to provide what assistance he could.

Comparing the voice transcripts to the recorded radar data showed that upon the pilot's initial contact with the LICKE sector, the airplane had passed OZNUM, and begun a slight left turn to the east. At this point the pilot had no further clearance to follow, since the Saratoga controller had cleared him direct to OZNUM with the expectation that L1 would provide vector service. L1's initial instruction was for the pilot to proceed direct to ECYON; the pilot's response was to question the fix. According to L1's statements, he recalled that the airplane was in a position coincident with a downwind leg, and the turn toward ECYON would work out to be the same as a vector to final. Recorded radar data indicates the airplane was flying a course approximately aligned with the Initial Approach Fix (IAF) ZUXOX. Shortly after this exchange, L1 noted the airplane appeared to begin a left turn towards OZNUM, but he instructed the pilot to turn right toward ECYON in order to remain clear of a higher terrain area. At this time, OZNUM was directly behind the airplane, and ECYON at about the four o'clock position. The pilot completed a right turn, briefly flying a course consistent with tracking towards OZNUM, then made a slight left turn and flew a course consistent with the published segment between ZUXOX and ECYON. L1 said he observed the pilot on this course and issued clearance for the approach.

FAA Order 7110.65 specified that Standard Instrument Approach Procedures "shall commence at an Initial Approach Fix or an Intermediate Approach Fix if there is not an Initial Approach Fix. Where adequate radar coverage exists, radar facilities may vector aircraft to the final approach course [by assigning] headings that will permit final approach course interception on a track that does not exceed 30 degrees." The order further states that vectors should be issued if required to intercept the final approach course. ECYON was not an IAF. Review of the radar derived ground track revealed that the intercept angle was about 40 degrees.

While the flight was progressing between ECYON and OZNUM, a controller change occurred at LICKE sector. L1 advised the second controller (L2) that N893MK was on the approach and the only remaining task was to issue frequency change to RHV tower. As the airplane passed just northwest of OZNUM, L2 instructed the pilot to contact the tower on frequency "118.6." This frequency is actually assigned to PAO tower. The pilot queried the controller if that was actually correct. The controller insisted, "Yes sir, it is." The pilot complied and contacted PAO tower. The pilot and the PAO controller discussed that he was on the wrong frequency and the pilot said he would switch to the RHV frequency of 119.8. During this conversation, radar indicated the airplane began a turn to the right, with the first target visibly displaced from the final approach course at 1652:33, approximately over JOPAN waypoint. At 1652:50, the pilot reported to RHV tower "descending from JOPAN two thousand feet five point four miles from missed approach point." Radar data agreed with the pilot's report; however, the course had diverged almost 90 degrees from the final approach course.

Within 2 seconds of the pilot making initial contact with RHV tower, the ARTS Minimum Safe Altitude Warning System (MSAW, see ATC Group factual report in docket material) provided a visual and audible alert at the RHV tower and NCT. In response to the pilot's call, the RHV tower controller cleared the pilot to land then said "low altitude alert, check your altitude immediately." The MSAW system activates whenever the targets projected track will encounter higher terrain, or, when the mode C reported altitude is below the minimum safe altitude for the navigational segment being flown. Based on the radar data, the airplane's projected track was diverging away from the centerline of the approach, and toward higher terrain. At the time of the alert the airplane was at about 1,900 feet, and the minimum altitude for the final segment is 1,440 feet. About 30 seconds later, the tower controller notified the pilot that he appeared off course. The pilot made a brief unintelligible transmission and no further radio or transponder signals were received.

The radar track of the airplane was lost in the area of high-tension power lines, located 6.7 miles south east of RHV at an altitude of 1,600 feet mean sea level (msl). The last radar data with an altitude return was at 16:53:40, and showed the airplane at a mode C reported altitude of 1,700 feet.

PERSONNEL INFORMATION

A review of FAA airman records revealed the pilot held a private pilot certificate with an airplane single engine land and instrument airplane rating. The pilot was issued a third-class medical on June 8, 2001, with the limitations the pilot must wear lenses for distant vision, and possess glasses for near vision.

An examination of the pilot's logbook indicated a total flight time of 460.7 hours, of those 362.4 hours were dual received. The pilot had logged his total IFR time as 150.3 hours of which 10.7 hours were actual IFR. He had 334 hours in this make and model; 84.8 hours were logged in the last 90 days.

The pilot had completed and passed an instrument airplane check ride on January 6, 2003. The designated examiner (DE) was interviewed and related the pilot was very detail orientated, and also very knowledgeable about the Cirrus SR 20.

AIRCRAFT INFORMATION

The airplane was a Cirrus SR 20, serial number 1038. A review of the airplane's logbooks disclosed the annual inspection was completed on February 20, 2002. Total airframe time was listed as 67.8 hours and a Hobbs time of 67.8 hours. The airplane had a total time of 369.3 hours.

The transponder and altimeter/static and altitude reporting systems were inspected on February 20, 2002.

A Teledyne Continental Motors IO-360ES-6B engine, serial number 357190, was installed in the airframe in May 2000. The engine had a total time of 369.3 hours.

An aircraft weight and balance report dated February 18, 2002, revised the airplane's weight and balance data sheet. It listed the new empty weight as 2121.23 pounds; total moment of 296507.35-inch pounds, and listed the empty center of gravity as 139.78 inches aft of the datum.

The Cirrus SR 20 uses conventional flight controls for ailerons, elevator, and rudder. The control surfaces are pilot controlled through either of two single-handed side control sticks mounted on each side of the airplane's cockpit.

The neutral position of the left side stick is at a 45-degree angle to the right. The neutral position of the right side stick is a 45-degree angle to the left. The accident ai...