14 C.F.R. Appendix B to Part 60
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This appendix establishes the standards for Airplane FTD evaluation and qualification at Level 4, Level 5, Level 6, or Level 7. The Flight Standards Service, is responsible for the development, application, and implementation of the standards contained within this appendix. The procedures and criteria specified in this appendix will be used by the responsible Flight Standards office when conducting airplane FTD evaluations.
Table of Contents
1. Introduction
2. Applicability (§§ 60.1 and 60.2).
3. Definitions (§ 60.3).
4. Qualification Performance Standards (§ 60.4).
5. Quality Management System (§ 60.5).
6. Sponsor Qualification Requirements (§ 60.7).
7. Additional Responsibilities of the Sponsor (§ 60.9).
8. FTD Use (§ 60.11).
9. FTD Objective Data Requirements (§ 60.13).
10. Special Equipment and Personnel Requirements for Qualification of the FTD (§ 60.14).
11. Initial (and Upgrade) Qualification Requirements (§ 60.15).
12. Additional Qualifications for Currently Qualified FTDs (§ 60.16).
13. Previously Qualified FTDs (§ 60.17).
14. Inspection, Continuing Qualification Evaluation, and Maintenance Requirements (§ 60.19).
15. Logging FTD Discrepancies (§ 60.20).
16. Interim Qualification of FTDs for New Airplane Types or Models (§ 60.21).
17. Modifications to FTDs (§ 60.23).
18. Operations with Missing, Malfunctioning, or Inoperative Components (§ 60.25).
19. Automatic Loss of Qualification and Procedures for Restoration of Qualification (§ 60.27).
20. Other Losses of Qualification and Procedures for Restoration of Qualification (§ 60.29).
21. Record Keeping and Reporting (§ 60.31).
22. [Reserved]
23. [Reserved]
24. Levels of FTD.
25. FTD Qualification on the Basis of a Bilateral Aviation Safety Agreement (BASA) (§ 60.37).
Attachment 1 to Appendix B to Part 60—General FTD Requirements.
Attachment 2 to Appendix B to Part 60—Flight Training Device (FTD) Objective Tests.
Attachment 3 to Appendix B to Part 60—Flight Training Device (FTD) Subjective Evaluation.
Attachment 4 to Appendix B to Part 60—Sample Documents.
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1. Introduction
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a. This appendix contains background information as well as regulatory and informative material as described later in this section. To assist the reader in determining what areas are required and what areas are permissive, the text in this appendix is divided into two sections: “QPS Requirements” and “Information.” The QPS Requirements sections contain details regarding compliance with the part 60 rule language. These details are regulatory, but are found only in this appendix. The Information sections contain material that is advisory in nature, and designed to give the user general information about the regulation.
b. [Reserved]
c. The responsible Flight Standards office encourages the use of electronic media for all communication, including any record, report, request, test, or statement required by this appendix. The electronic media used must have adequate security provisions and be acceptable to the responsible Flight Standards office.
d. Related Reading References.
(ARINC) document 610, Guidance for Design and Integration of Aircraft Avionics Equipment in Simulators (as amended).
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2. Applicability (§§ 60.1 and 60.2)
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No additional regulatory or informational material applies to § 60.1, Applicability, or to § 60.2, Applicability of sponsor rules to person who are not sponsors and who are engaged in certain unauthorized activities.
3. Definitions (§ 60.3)
See appendix F of this part for a list of definitions and abbreviations from part 1, part 60, and the QPS appendices of part 60.
4. Qualification Performance Standards (§ 60.4)
No additional regulatory or informational material applies to § 60.4, Qualification Performance Standards.
5. Quality Management System (§ 60.5)
Additional regulatory material and informational material regarding Quality Management Systems for FTDs may be found in appendix E of this part.
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6. Sponsor Qualification Requirements. (§ 60.7).
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a. The intent of the language in § 60.7(b) is to have a specific FTD, identified by the sponsor, used at least once in an FAA-approved flight training program for the airplane simulated during the 12-month period described. The identification of the specific FTD may change from one 12-month period to the next 12-month period as long as that sponsor sponsors and uses at least one FTD at least once during the prescribed period. There is no minimum number of hours or minimum FTD periods required.
b. The following examples describe acceptable operational practices:
(a) A sponsor is sponsoring a single, specific FTD for its own use, in its own facility or elsewhere— this single FTD forms the basis for the sponsorship. The sponsor uses that FTD at least once in each 12-month period in that sponsor's FAA-approved flight training program for the airplane simulated. This 12-month period is established according to the following schedule:
(a) A sponsor sponsors an additional number of FTDs, in its facility or elsewhere. Each additionally sponsored FTD must be—
(c) All of the FTDs in the Chicago and Moscow centers could be dry-leased (i.e., the certificate holder does not have and use FAA-approved flight training programs for the FTDs in the Chicago and Moscow centers) because—
(ii) A statement is obtained from a qualified pilot (having flown the airplane, not the subject FTD or another FTD during the preceding 12-month period) stating that the performance and handling qualities of each FTD in the Chicago and Moscow centers represents the airplane (as described in § 60.7(d)(2)).
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7. Additional Responsibilities of the Sponsor (§ 60.9)
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The phrase “as soon as practicable” in § 60.9(a) means without unnecessarily disrupting or delaying beyond a reasonable time the training, evaluation, or experience being conducted in the FTD.
8. FTD Use (§ 60.11)
No additional regulatory or informational material applies to § 60.11, FTD use.
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9. FTD Objective Data Requirements (§ 60.13)
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a. Flight test data used to validate FTD performance and handling qualities must have been gathered in accordance with a flight test program containing the following:
(b) For each maneuver or procedure—
(4) Appropriate and sufficient data acquisition equipment or system(s), including appropriate data reduction and analysis methods and techniques, acceptable to the FAA's Aircraft Certification Service.
b. The data, regardless of source, must be presented:
(5) Without alteration, adjustments, or bias. Data may be corrected to address known data calibration errors provided that an explanation of the methods used to correct the errors appears in the QTG. The corrected data may be re-scaled, digitized, or otherwise manipulated to fit the desired presentation.
c. After completion of any additional flight test, a flight test report must be submitted in support of the validation data. The report must contain sufficient data and rationale to support qualification of the FTD at the level requested.
d. As required by § 60.13(f), the sponsor must notify the responsible Flight Standards office when it becomes aware that an addition to or a revision of the flight related data or airplane systems related data is available if this data is used to program and operate a qualified FTD. The data referred to in this sub-section are those data that are used to validate the performance, handling qualities, or other characteristics of the aircraft, including data related to any relevant changes occurring after the type certification is issued. The sponsor must—
(2) Within 45 calendar days, notify the responsible Flight Standards office of—
(ii) The reason for not incorporating this data into the FTD.
e. In those cases where the objective test results authorize a “snapshot test” or a “series of snapshot test results” in lieu of a time-history result, the sponsor or other data provider must ensure that a steady state condition exists at the instant of time captured by the “snapshot.” The steady state condition must exist from 4 seconds prior to, through 1 second following, the instant of time captured by the snap shot.
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f. The FTD sponsor is encouraged to maintain a liaison with the manufacturer of the aircraft being simulated (or with the holder of the aircraft type certificate for the aircraft being simulated if the manufacturer is no longer in business), and if appropriate, with the person having supplied the aircraft data package for the FTD in order to facilitate the notification described in this paragraph.
g. It is the intent of the responsible Flight Standards office that for new aircraft entering service, at a point well in advance of preparation of the QTG, the sponsor should submit to the responsible Flight Standards office for approval, a descriptive document (see Appendix A, Table A2C, Sample Validation Data Roadmap for Airplanes) containing the plan for acquiring the validation data, including data sources. This document should clearly identify sources of data for all required tests, a description of the validity of these data for a specific engine type and thrust rating configuration, and the revision levels of all avionics affecting the performance or flying qualities of the aircraft. Additionally, this document should provide other information such as the rationale or explanation for cases where data or data parameters are missing, instances where engineering simulation data are used, or where flight test methods require further explanations. It should also provide a brief narrative describing the cause and effect of any deviation from data requirements. The aircraft manufacturer may provide this document.
h. There is no requirement for any flight test data supplier to submit a flight test plan or program prior to gathering flight test data. However, the responsible Flight Standards office notes that inexperienced data gatherers often provide data that is irrelevant, improperly marked, or lacking adequate justification for selection. Other problems include inadequate information regarding initial conditions or test maneuvers. The responsible Flight Standards office has been forced to refuse these data submissions as validation data for an FTD evaluation. It is for this reason that the responsible Flight Standards office recommends that any data supplier not previously experienced in this area review the data necessary for programming and for validating the performance of the FTD and discuss the flight test plan anticipated for acquiring such data with the responsible Flight Standards office well in advance of commencing the flight tests.
i. The responsible Flight Standards office will consider, on a case-by-case basis, whether to approve supplemental validation data derived from flight data recording systems such as a Quick Access Recorder or Flight Data Recorder.
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10. Special Equipment and Personnel Requirements for Qualification of the FTD (§ 60.14).
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a. In the event that the responsible Flight Standards office determines that special equipment or specifically qualified persons will be required to conduct an evaluation, the responsible Flight Standards office will make every attempt to notify the sponsor at least one (1) week, but in no case less than 72 hours, in advance of the evaluation. Examples of special equipment include flight control measurement devices, accelerometers, or oscilloscopes. Examples of specially qualified personnel include individuals specifically qualified to install or use any special equipment when its use is required.
b. Examples of a special evaluation include an evaluation conducted after: An FTD is moved; at the request of the TPAA; or as a result of comments received from users of the FTD that raise questions about the continued qualification or use of the FTD.
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11. Initial (and Upgrade) Qualification Requirements (§ 60.15).
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a. In order to be qualified at a particular qualification level, the FTD must:
(3) Satisfactorily accomplish the subjective tests listed in Attachment 3 of this appendix.
b. The request described in § 60.15(a) must include all of the following:
(d) A description of the equipment necessary to perform the evaluation for initial qualification and the continuing qualification evaluations.
c. The QTG described in paragraph a(3) of this section, must provide the documented proof of compliance with the FTD objective tests in Attachment 2, Table B2A of this appendix.
d. The QTG is prepared and submitted by the sponsor, or the sponsor?s agent on behalf of the sponsor, to the responsible Flight Standards office for review and approval, and must include, for each objective test:
(5) Other information appropriate to the qualification level of the FTD.
e. The QTG described in paragraphs (a)(3) and (b) of this section, must include the following:
(l) FTD Objective Test Results as obtained by the sponsor. Each test result must reflect the date completed and must be clearly labeled as a product of the device being tested.
f. A convertible FTD is addressed as a separate FTD for each model and series airplane to which it will be converted and for the FAA qualification level sought. The responsible Flight Standards office will conduct an evaluation for each configuration. If a sponsor seeks qualification for two or more models of an airplane type using a convertible FTD, the sponsor must provide a QTG for each airplane model, or a QTG for the first airplane model and a supplement to that QTG for each additional airplane model. The responsible Flight Standards office will conduct evaluations for each airplane model.
g. The form and manner of presentation of objective test results in the QTG must include the following:
(5) Tests involving time histories, data sheets (or transparencies thereof) and FTD test results must be clearly marked with appropriate reference points to ensure an accurate comparison between FTD and airplane with respect to time. Time histories recorded via a line printer are to be clearly identified for cross-plotting on the airplane data. Over-plots may not obscure the reference data.
h. The sponsor may elect to complete the QTG objective and subjective tests at the manufacturer's facility or at the sponsor's training facility (or other sponsor designated location where training will take place). If the tests are conducted at the manufacturer's facility, the sponsor must repeat at least one-third of the tests at the sponsor's training facility in order to substantiate FTD performance. The QTG must be clearly annotated to indicate when and where each test was accomplished. Tests conducted at the manufacturer's facility and at the sponsor's designated training facility must be conducted after the FTD is assembled with systems and sub-systems functional and operating in an interactive manner. The test results must be submitted to the responsible Flight Standards office.
i. The sponsor must maintain a copy of the MQTG at the FTD location.
j. All FTDs for which the initial qualification is conducted after May 30, 2014, must have an electronic MQTG (eMQTG) including all objective data obtained from airplane testing, or another approved source (reformatted or digitized), together with correlating objective test results obtained from the performance of the FTD (reformatted or digitized) as prescribed in this appendix. The eMQTG must also contain the general FTD performance or demonstration results (reformatted or digitized) prescribed in this appendix, and a description of the equipment necessary to perform the initial qualification evaluation and the continuing qualification evaluations. The eMQTG must include the original validation data used to validate FTD performance and handling qualities in either the original digitized format from the data supplier or an electronic scan of the original time-history plots that were provided by the data supplier. A copy of the eMQTG must be provided to the responsible Flight Standards office.
k. All other FTDs (not covered in subparagraph “j”) must have an electronic copy of the MQTG by and after May 30, 2014. An electronic copy of the copy of the MQTG must be provided to the responsible Flight Standards office. This may be provided by an electronic scan presented in a Portable Document File (PDF), or similar format acceptable to the responsible Flight Standards office.
l. During the initial (or upgrade) qualification evaluation conducted by the responsible Flight Standards office, the sponsor must also provide a person knowledgeable about the operation of the aircraft and the operation of the FTD.
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m. Only those FTDs that are sponsored by a certificate holder as defined in Appendix F will be evaluated by the responsible Flight Standards office. However, other FTD evaluations may be conducted on a case-by-case basis as the Administrator deems appropriate, but only in accordance with applicable agreements.
n. The responsible Flight Standards office will conduct an evaluation for each configuration, and each FTD must be evaluated as completely as possible. To ensure a thorough and uniform evaluation, each FTD is subjected to the general FTD requirements in Attachment 1 of this appendix, the objective tests listed in Attachment 2 of this appendix, and the subjective tests listed in Attachment 3 of this appendix. The evaluations described herein will include, but not necessarily be limited to the following:
(8) Certain additional requirements, depending upon the qualification level sought, including equipment or circumstances that may become hazardous to the occupants. The sponsor may be subject to Occupational Safety and Health Administration requirements.
o. The responsible Flight Standards office administers the objective and subjective tests, which includes an examination of functions. The tests include a qualitative assessment of the FTD by a pilot from the responsible Flight Standards office. The evaluation team leader may assign other qualified personnel to assist in accomplishing the functions examination and/or the objective and subjective tests performed during an evaluation when required.
(d) Demonstrating compliance with the requirements of this part.
p. The tolerances for the test parameters listed in Attachment 2 of this appendix reflect the range of tolerances acceptable to the responsible Flight Standards office for FTD validation and are not to be confused with design tolerances specified for FTD manufacture. In making decisions regarding tests and test results, the responsible Flight Standards office relies on the use of operational and engineering judgment in the application of data (including consideration of the way in which the flight test was flown and way the data was gathered and applied), data presentations, and the applicable tolerances for each test.
q. In addition to the scheduled continuing qualification evaluation, each FTD is subject to evaluations conducted by the responsible Flight Standards office at any time without prior notification to the sponsor. Such evaluations would be accomplished in a normal manner (i.e., requiring exclusive use of the FTD for the conduct of objective and subjective tests and an examination of functions) if the FTD is not being used for flight crewmember training, testing, or checking. However, if the FTD were being used, the evaluation would be conducted in a non-exclusive manner. This non-exclusive evaluation will be conducted by the FTD evaluator accompanying the check airman, instructor, Aircrew Program Designee (APD), or FAA inspector aboard the FTD along with the student(s) and observing the operation of the FTD during the training, testing, or checking activities.
r. Problems with objective test results are handled as follows:
(2) If it is determined that the results of an objective test do not support the qualification level requested but do support a lower level, the responsible Flight Standards office may qualify the FTD at a lower level. For example, if a Level 6 evaluation is requested, but the FTD fails to meet the spiral stability test tolerances, it could be qualified at Level 5.
s. After an FTD is successfully evaluated, the responsible Flight Standards office issues an SOQ to the sponsor, the responsible Flight Standards office recommends the FTD to the TPAA, who will approve the FTD for use in a flight training program. The SOQ will be issued at the satisfactory conclusion of the initial or continuing qualification evaluation and will list the tasks for which the FTD is qualified, referencing the tasks described in Table B1B in Attachment 1 of this appendix. However, it is the sponsor's responsibility to obtain TPAA approval prior to using the FTD in an FAA-approved flight training program.
t. Under normal circumstances, the responsible Flight Standards office establishes a date for the initial or upgrade evaluation within ten (10) working days after determining that a complete QTG is acceptable. Unusual circumstances may warrant establishing an evaluation date before this determination is made. A sponsor may schedule an evaluation date as early as 6 months in advance. However, there may be a delay of 45 days or more in rescheduling and completing the evaluation if the sponsor is unable to meet the scheduled date. See Attachment 4, Figure B4A, Sample Request for Initial, Upgrade, or Reinstatement Evaluation, of this appendix.
u. The numbering system used for objective test results in the QTG should closely follow the numbering system set out in Attachment 2, FTD Objective Tests, Table B2A, of this appendix.
v. Contact the responsible Flight Standards office for additional information regarding the preferred qualifications of pilots used to meet the requirements of § 60.15(d).
w. Examples of the exclusions for which the FTD might not have been subjectively tested by the sponsor or the responsible Flight Standards office and for which qualification might not be sought or granted, as described in § 60.15(g)(6), include engine out maneuvers or circling approaches.
12. Additional Qualifications for Currently Qualified FTDs (§ 60.16).
No additional regulatory or informational material applies to § 60.16, Additional Qualifications for a Currently Qualified FTD.
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13. Previously Qualified FTDs (§ 60.17).
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a. In instances where a sponsor plans to remove an FTD from active status for a period of less than two years, the following procedures apply:
(5) The sponsor must notify the responsible Flight Standards office of any changes to the original scheduled time out of service;
b. FTDs qualified prior to May 31, 2016, and replacement FTD systems, are not required to meet the general FTD requirements, the objective test requirements, and the subjective test requirements of Attachments 1, 2, and 3 of this appendix as long as the FTD continues to meet the test requirements contained in the MQTG developed under the original qualification basis.
c. [Reserved]
d. FTDs qualified prior to May 31, 2016, may be updated. If an evaluation is deemed appropriate or necessary by the responsible Flight Standards office after such an update, the evaluation will not require an evaluation to standards beyond those against which the FTD was originally qualified.
e. Other certificate holders or persons desiring to use an FTD may contract with FTD sponsors to use FTDs previously qualified at a particular level for an airplane type and approved for use within an FAA-approved flight training program. Such FTDs are not required to undergo an additional qualification process, except as described in § 60.16.
f. Each FTD user must obtain approval from the appropriate TPAA to use any FTD in an FAA-approved flight training program.
g. The intent of the requirement listed in § 60.17(b), for each FTD to have an SOQ within 6 years, is to have the availability of that statement (including the configuration list and the limitations to authorizations) to provide a complete picture of the FTD inventory regulated by the FAA. The issuance of the statement will not require any additional evaluation or require any adjustment to the evaluation basis for the FTD.
h. Downgrading of an FTD is a permanent change in qualification level and will necessitate the issuance of a revised SOQ to reflect the revised qualification level, as appropriate. If a temporary restriction is placed on an FTD because of a missing, malfunctioning, or inoperative component or on-going repairs, the restriction is not a permanent change in qualification level. Instead, the restriction is temporary and is removed when the reason for the restriction has been resolved.
i. The responsible Flight Standards office will determine the evaluation criteria for an FTD that has been removed from active status for a prolonged period. The criteria will be based on the number of continuing qualification evaluations and quarterly inspections missed during the period of inactivity. For example, if the FTD were out of service for a 1 year period, it would be necessary to complete the entire QTG, since all of the quarterly evaluations would have been missed. The responsible Flight Standards office will also consider how the FTD was stored, whether parts were removed from the FTD and whether the FTD was disassembled.
j. The FTD will normally be requalified using the FAA-approved MQTG and the criteria that was in effect prior to its removal from qualification. However, inactive periods of 2 years or more will require re-qualification under the standards in effect and current at the time of requalification.
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14. Inspection, Continuing Qualification, Evaluation, and Maintenance Requirements (§ 60.19).
Begin QPS Requirement
a. The sponsor must conduct a minimum of four evenly spaced inspections throughout the year. The objective test sequence and content of each inspection in this sequence must be developed by the sponsor and must be acceptable to the responsible Flight Standards office.
b. The description of the functional preflight check must be contained in the sponsor's QMS.
c. Record “functional preflight” in the FTD discrepancy log book or other acceptable location, including any item found to be missing, malfunctioning, or inoperative.
d. During the continuing qualification evaluation conducted by the responsible Flight Standards office, the sponsor must also provide a person knowledgeable about the operation of the aircraft and the operation of the FTD.
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e. The sponsor's test sequence and the content of each quarterly inspection required in § 60.19(a)(1) should include a balance and a mix from the objective test requirement areas listed as follows:
(6) Other FTD systems.
f. If the evaluator plans to accomplish specific tests during a normal continuing qualification evaluation that requires the use of special equipment or technicians, the sponsor will be notified as far in advance of the evaluation as practical; but not less than 72 hours. Examples of such tests include latencies, control sweeps, or motion or visual system tests.
g. The continuing qualification evaluations described in § 60.19(b) will normally require 4 hours of FTD time. However, flexibility is necessary to address abnormal situations or situations involving aircraft with additional levels of complexity (e.g., computer controlled aircraft). The sponsor should anticipate that some tests may require additional time. The continuing qualification evaluations will consist of the following:
(4) An examination of the functions of the FTD may include the motion system, visual system, sound system as applicable, instructor operating station, and the normal functions and simulated malfunctions of the airplane systems. This examination is normally accomplished simultaneously with the subjective evaluation requirements.
h. The requirement established in § 60.19(b)(4) regarding the frequency of responsible Flight Standards office-conducted continuing qualification evaluations for each FTD is typically 12 months. However, the establishment and satisfactory implementation of an approved QMS for a sponsor will provide a basis for adjusting the frequency of evaluations to exceed 12-month intervals.
15. Logging FTD Discrepancies (§ 60.20)
No additional regulatory or informational material applies to § 60.20. Logging FTD Discrepancies.
16. Interim Qualification of FTDs for New Airplane Types or Models (§ 60.21)
No additional regulatory or informational material applies to § 60.21, Interim Qualification of FTDs for New Airplane Types or Models.
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17. Modifications to FTDs (§ 60.23)
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a. The notification described in § 60.23(c)(2) must include a complete description of the planned modification, with a description of the operational and engineering effect the proposed modification will have on the operation of the FTD and the results that are expected with the modification incorporated.
b. Prior to using the modified FTD:
(2) The sponsor must provide the responsible Flight Standards office with a statement signed by the MR that the factors listed in § 60.15(b) are addressed by the appropriate personnel as described in that section.
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c. FSTD Directives are considered modification of an FTD. See Attachment 4 of this appendix for a sample index of effective FSTD Directives.
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18. Operation with Missing, Malfunctioning, or Inoperative Components (§ 60.25)
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a. The sponsor's responsibility with respect to § 60.25(a) is satisfied when the sponsor fairly and accurately advises the user of the current status of an FTD, including any missing, malfunctioning, or inoperative (MMI) component(s).
b. It is the responsibility of the instructor, check airman, or representative of the administrator conducting training, testing, or checking to exercise reasonable and prudent judgment to determine if any MMI component is necessary for the satisfactory completion of a specific maneuver, procedure, or task.
c. If the 29th or 30th day of the 30-day period described in 60.25(b) is on a Saturday, a Sunday, or a holiday, the FAA will extend the deadline until the next business day.
d. In accordance with the authorization described in § 60.25(b), the sponsor may develop a discrepancy prioritizing system to accomplish repairs based on the level of impact on the capability of the FTD. Repairs having a larger impact on the FTD's ability to provide the required training, evaluation, or flight experience will have a higher priority for repair or replacement.
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19. Automatic Loss of Qualification and Procedures for Restoration of Qualification (§ 60.27)
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If the sponsor provides a plan for how the FTD will be maintained during its out-of-service period (e.g., periodic exercise of mechanical, hydraulic, and electrical systems; routine replacement of hydraulic fluid; control of the environmental factors in which the FTD is to be maintained) there is a greater likelihood that the responsible Flight Standards office will be able to determine the amount of testing that required for requalification.
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20. Other Losses of Qualification and Procedures for Restoration of Qualification (§ 60.29)
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If the sponsor provides a plan for how the FTD will be maintained during its out-of-service period (e.g., periodic exercise of mechanical, hydraulic, and electrical systems; routine replacement of hydraulic fluid; control of the environmental factors in which the FTD is to be maintained) there is a greater likelihood that the responsible Flight Standards office will be able to determine the amount of testing that required for requalification.
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21. Recordkeeping and Reporting (§ 60.31)
Begin QPS Requirements
a. FTD modifications can include hardware or software changes. For FTD modifications involving software programming changes, the record required by § 60.31(a)(2) must consist of the name of the aircraft system software, aerodynamic model, or engine model change, the date of the change, a summary of the change, and the reason for the change.
b. If a coded form for record keeping is used, it must provide for the preservation and retrieval of information with appropriate security or controls to prevent the inappropriate alteration of such records after the fact.
End QPS Requirements
22. [Reserved]
23. [Reserved]
24. Levels of FTD.
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a. The following is a general description of each level of FTD. Detailed standards and tests for the various levels of FTDs are fully defined in Attachments 1 through 3 of this appendix.
(3) Level 6. A device that has an enclosed airplane-specific flight deck; airplane-specific aerodynamic programming; all applicable airplane systems operating; control loading that is representative of the simulated airplane throughout its ground and flight envelope; and significant sound representation. All displays may be flat/LCD panel representations or actual representations of displays in the aircraft, but all controls, switches, and knobs must physically replicate the aircraft in control operation.
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(4) Level 7. A Level 7 device is one that has an enclosed airplane-specific flight deck and aerodynamic program with all applicable airplane systems operating and control loading that is representative of the simulated airplane throughout its ground and flight envelope and significant sound representation. All displays may be flat/LCD panel representations or actual representations of displays in the aircraft, but all controls, switches, and knobs must physically replicate the aircraft in control operation. It also has a visual system that provides an out-of-the-flight deck view, providing cross-flight deck viewing (for both pilots simultaneously) of a field-of-view of at least 180° horizontally and 40° vertically.
25. FTD Qualification on the Basis of a Bilateral Aviation Safety Agreement (BASA) (§ 60.37)
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No additional regulatory or informational material applies to § 60.37, FTD Qualification on the Basis of a Bilateral Aviation Safety Agreement (BASA).
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Attachment 1 to Appendix B to Part 60—General FTD REQUIREMENTS
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1. Requirements
a. Certain requirements included in this appendix must be supported with an SOC as defined in Appendix F, which may include objective and subjective tests. The requirements for SOCs are indicated in the “General FTD Requirements” column in Table B1A of this appendix.
b. Table B1A describes the requirements for the indicated level of FTD. Many devices include operational systems or functions that exceed the requirements outlined in this section. In any event, all systems will be tested and evaluated in accordance with this appendix to ensure proper operation.
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2. Discussion
a. This attachment describes the general requirements for qualifying Level 4 through Level 6 FTDs. The sponsor should also consult the objectives tests in Attachment 2 of this appendix and the examination of functions and subjective tests listed in Attachment 3 of this appendix to determine the complete requirements for a specific level FTD.
b. The material contained in this attachment is divided into the following categories:
(7) Sound System.
c. Table B1A provides the standards for the General FTD Requirements.
d. Table B1B provides the tasks that the sponsor will examine to determine whether the FTD satisfactorily meets the requirements for flight crew training, testing, and experience, and provides the tasks for which the simulator may be qualified.
e. Table B1C provides the functions that an instructor/check airman must be able to control in the simulator.
f. It is not required that all of the tasks that appear on the List of Qualified Tasks (part of the SOQ) be accomplished during the initial or continuing qualification evaluation.
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| QPS Requirements | Information | ||||
|---|---|---|---|---|---|
| Entry No. | Subjective RequirementsIn order to be qualified at the FTD qualification level indicated, the FTD must be able to perform at least the tasks associated with that level of qualification. | FTD level | Notes | ||
| 4 | 5 | 6 | |||
| 1. Instructor Operating Station (IOS). | |||||
| 1.a. | Power switch(es) | X | X | X | |
| 1.b. | Airplane conditions | A | X | X | e.g., GW, CG, Fuel loading, Systems, Ground Crew. |
| 1.c. | Airports/Runways | X | X | X | e.g., Selection and Presets; Surface and Lighting controls if equipped with a visual system. |
| 1.d. | Environmental controls | X | X | X | e.g., Temp, Wind. |
| 1.e. | Airplane system malfunctions (Insertion/deletion) | A | X | X | |
| 1.f. | Locks, Freezes, and Repositioning | X | X | X | |
| 1.g. | Sound Controls. (On/off/adjustment) | X | X | X | |
| 1.h. | Motion/Control Loading System, as appropriate. On/off/emergency stop | A | A | A | |
| 2. Observer Seats/Stations. | |||||
| 2.a. | Position/Adjustment/Positive restraint system | X | X | X | |
| Note 1: An “A” in the table indicates that the system, task, or procedure, although not required to be present, may be examined if the appropriate system is in the FTD and is working properly. |
Attachment 2 to Appendix B to Part 60—Flight Training Device (FTD) Objective Tests
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1. Discussion
a. For the purposes of this attachment, the flight conditions specified in the Flight Conditions Column of Table B2A, are defined as follows:
(8) Landing—gear down with flaps/slats in any certified landing position.
b. The format for numbering the objective tests in Appendix A, Attachment 2, Table A2A, and the objective tests in Appendix B, Attachment 2, Table B2A, is identical. However, each test required for FFSs is not necessarily required for FTDs. Also, each test required for FTDs is not necessarily required for FFSs. Therefore, when a test number (or series of numbers) is not required, the term “Reserved” is used in the table at that location. Following this numbering format provides a degree of commonality between the two tables and substantially reduces the potential for confusion when referring to objective test numbers for either FFSs or FTDs.
c. The reader is encouraged to review the Airplane Flight Simulator Evaluation Handbook, Volumes I and II, published by the Royal Aeronautical Society, London, UK, and FAA AC 25-7, as amended, Flight Test Guide for Certification of Transport Category Airplanes, and AC 23-8, as amended, Flight Test Guide for Certification of Part 23 Airplanes, for references and examples regarding flight testing requirements and techniques.
d. If relevant winds are present in the objective data, the wind vector should be clearly noted as part of the data presentation, expressed in conventional terminology, and related to the runway being used for the test.
e. A Level 4 FTD does not require objective tests and therefore, Level 4 is not addressed in the following table.
End Information
Begin QPS Requirements
2. Test Requirements
a. The ground and flight tests required for qualification are listed in Table B2A Objective Tests. Computer generated FTD test results must be provided for each test except where an alternate test is specifically authorized by the responsible Flight Standards office. If a flight condition or operating condition is required for the test but does not apply to the airplane being simulated or to the qualification level sought, it may be disregarded (e.g., an engine out missed approach for a single-engine airplane; a maneuver using reverse thrust for an airplane without reverse thrust capability). Each test result is compared against the validation data described in § 60.13, and in Appendix B. The results must be produced on an appropriate recording device acceptable to the responsible Flight Standards office and must include FTD number, date, time, conditions, tolerances, and appropriate dependent variables portrayed in comparison to the validation data. Time histories are required unless otherwise indicated in Table B2A. All results must be labeled using the tolerances and units given.
b. Table B2A in this attachment sets out the test results required, including the parameters, tolerances, and flight conditions for FTD validation. Tolerances are provided for the listed tests because mathematical modeling and acquisition and development of reference data are often inexact. All tolerances listed in the following tables are applied to FTD performance. When two tolerance values are given for a parameter, the less restrictive may be used unless otherwise indicated. In those cases where a tolerance is expressed only as a percentage, the tolerance percentage applies to the maximum value of that parameter within its normal operating range as measured from the neutral or zero position unless otherwise indicated.
c. Certain tests included in this attachment must be supported with a SOC. In Table B2A, requirements for SOCs are indicated in the “Test Details” column.
d. When operational or engineering judgment is used in making assessments for flight test data applications for FTD validity, such judgment may not be limited to a single parameter. For example, data that exhibit rapid variations of the measured parameters may require interpolations or a “best fit” data section. All relevant parameters related to a given maneuver or flight condition must be provided to allow overall interpretation. When it is difficult or impossible to match FTD to airplane data throughout a time history, differences must be justified by providing a comparison of other related variables for the condition being assessed.
e. It is not acceptable to program the FTD so that the mathematical modeling is correct only at the validation test points. Unless otherwise noted, FTD tests must represent airplane performance and handling qualities at operating weights and centers of gravity (CG) typical of normal operation. FTD tests at extreme weight or CG conditions may be acceptable where required for concurrent aircraft certification testing. Tests of handling qualities must include validation of augmentation devices.
f. When comparing the parameters listed to those of the airplane, sufficient data must also be provided to verify the correct flight condition and airplane configuration changes. For example, to show that control force is within the parameters for a static stability test, data to show the correct airspeed, power, thrust or torque, airplane configuration, altitude, and other appropriate datum identification parameters must also be given. If comparing short period dynamics, normal acceleration may be used to establish a match to the airplane, but airspeed, altitude, control input, airplane configuration, and other appropriate data must also be given. If comparing landing gear change dynamics, pitch, airspeed, and altitude may be used to establish a match to the airplane, but landing gear position must also be provided. All airspeed values must be properly annotated (e.g., indicated versus calibrated). In addition, the same variables must be used for comparison (e.g., compare inches to inches rather than inches to centimeters).
g. The QTG provided by the sponsor must clearly describe how the FTD will be set up and operated for each test. Each FTD subsystem may be tested independently, but overall integrated testing of the FTD must be accomplished to assure that the total FTD system meets the prescribed standards. A manual test procedure with explicit and detailed steps for completing each test must also be provided.
h. For previously qualified FTDs, the tests and tolerances of this attachment may be used in subsequent continuing qualification evaluations for any given test if the sponsor has submitted a proposed MQTG revision to the responsible Flight Standards office and has received responsible Flight Standards office approval.
i. FTDs are evaluated and qualified with an engine model simulating the airplane data supplier's flight test engine. For qualification of alternative engine models (either variations of the flight test engines or other manufacturer's engines) additional tests with the alternative engine models may be required. This attachment contains guidelines for alternative engines.
j. Testing Computer Controlled Aircraft (CCA) simulators, or other highly augmented airplane simulators, flight test data is required for the Normal (N) and/or Non-normal (NN) control states, as indicated in this attachment. Where test results are independent of control state, Normal or Non-normal control data may be used. All tests in Table B2A require test results in the Normal control state unless specifically noted otherwise in the Test Details section following the CCA designation. The responsible Flight Standards office will determine what tests are appropriate for airplane simulation data. When making this determination, the responsible Flight Standards office may require other levels of control state degradation for specific airplane tests. Where Non-normal control states are required, test data must be provided for one or more Non-normal control states, and must include the least augmented state. Where applicable, flight test data must record Normal and Non-normal states for:
(2) Flight control surface positions unless test results are not affected by, or are independent of, surface positions.
k. Tests of handling qualities must include validation of augmentation devices. FTDs for highly augmented airplanes will be validated both in the unaugmented configuration (or failure state with the maximum permitted degradation in handling qualities) and the augmented configuration. Where various levels of handling qualities result from failure states, validation of the effect of the failure is necessary. Requirements for testing will be mutually agreed to between the sponsor and the responsible Flight Standards office on a case-by-case basis.
l. Some tests will not be required for airplanes using airplane hardware in the FTD flight deck (e.g., “side stick controller”). These exceptions are noted in Section 2 “Handling Qualities” in Table B2A of this attachment. However, in these cases, the sponsor must provide a statement that the airplane hardware meets the appropriate manufacturer's specifications and the sponsor must have supporting information to that fact available for responsible Flight Standards office review.
m. For objective test purposes, see Appendix F of this part for the definitions of “Near maximum,” “Light,” and “Medium” gross weight.
End QPS Requirements
Begin Information
n. In those cases where the objective test results authorize a “snapshot test” or a “series of snapshot test results” in lieu of a time-history result, the sponsor or other data provider must ensure that a steady state condition exists at the instant of time captured by the “snapshot.” The steady state condition must exist from 4 seconds prior to, through 1 second following, the instant of time captured by the snap shot.
o. Refer to AC 120-27, “Aircraft Weight and Balance” and FAA-H-8083-1, “Aircraft Weight and Balance Handbook” for more information.
End Information





























Begin Information
3. For additional information on the following topics, please refer to Appendix A, Attachment 2, and the indicated paragraph within that attachment
• Control Dynamics, paragraph 4.
• Motion System, paragraph 6.
• Sound System, paragraph 7.
• Engineering Simulator Validation Data, paragraph 9.
• Validation Test Tolerances, paragraph 11.
• Validation Data Road Map, paragraph 12.
• Acceptance Guidelines for Alternative Engines Data, paragraph 13.
• Acceptance Guidelines for Alternative Avionics, paragraph 14.
• Transport Delay Testing, paragraph 15.
• Continuing Qualification Evaluation Validation Data Presentation, paragraph 16.
End Information
4. Alternative Objective Data for FTD Level 5
Begin QPS Requirements
a. This paragraph (including the following tables) is relevant only to FTD Level 5. It is provided because this level is required to simulate the performance and handling characteristics of a set of airplanes with similar characteristics, such as normal airspeed/altitude operating envelope and the same number and type of propulsion systems (engines).
b. Tables B2B through B2E reflect FTD performance standards that are acceptable to the FAA. A sponsor must demonstrate that a device performs within these parameters, as applicable. If a device does not meet the established performance parameters for some or for all of the applicable tests listed in Tables B2B through B2E, the sponsor may use FAA accepted flight test data for comparison purposes for those tests.
c. Sponsors using the data from Tables B2B through B2E must comply with the following:
(4) Subjective testing of the device must be performed to determine that the device performs and handles like an airplane within the appropriate set of airplanes.
End QPS Requirements
Begin Information
d. The reader is encouraged to consult the Airplane Flight Simulator Evaluation Handbook, Volumes I and II, published by the Royal Aeronautical Society, London, UK, and AC 25-7, Flight Test Guide for Certification of Transport Category Airplanes, and AC 23-8A, Flight Test Guide for Certification of Part 23 Airplanes, as amended, for references and examples regarding flight testing requirements and techniques.
End Information












End QPS Requirements
Begin QPS Requirements
5. Alternative Data Sources, Procedures, and Instrumentation: Level 6 FTD Only
a. Sponsors are not required to use the alternative data sources, procedures, and instrumentation. However, a sponsor may choose to use one or more of the alternative sources, procedures, and instrumentation described in Table B2F.
End QPS Requirements
Begin Information
b. It has become standard practice for experienced FTD manufacturers to use such techniques as a means of establishing data bases for new FTD configurations while awaiting the availability of actual flight test data; and then comparing this new data with the newly available flight test data. The results of such comparisons have, as reported by some recognized and experienced simulation experts, become increasingly consistent and indicate that these techniques, applied with appropriate experience, are becoming dependably accurate for the development of aerodynamic models for use in Level 6 FTDs.
c. In reviewing this history, the responsible Flight Standards office has concluded that, with proper care, those who are experienced in the development of aerodynamic models for FTD application can successfully use these modeling techniques to acceptably alter the method by which flight test data may be acquired and, when applied to Level 6 FTDs, does not compromise the quality of that simulation.
d. The information in the table that follows (Table of Alternative Data Sources, Procedures, and Information: Level 6 FTD Only) is presented to describe an acceptable alternative to data sources for Level 6 FTD modeling and validation, and an acceptable alternative to the procedures and instrumentation found in the flight test methods traditionally accepted for gathering modeling and validation data.
(2) The responsible Flight Standards office recommends that use of the alternative instrumentation noted in Table B2F be coordinated with the responsible Flight Standards office prior to employment in a flight test or data gathering effort.
e. The responsible Flight Standards office position regarding the use of these alternative data sources, procedures, and instrumentation is based on three primary preconditions and presumptions regarding the objective data and FTD aerodynamic program modeling.
(2) A simulation controls system model should be rigorously defined and fully mature. It should also include accurate gearing and cable stretch characteristics (where applicable) that are determined from actual aircraft measurements. Such a model does not require control surface position measurements in the flight test objective data for Level 6 FTD applications.
f. Table B2F is not applicable to Computer Controlled Aircraft FTDs.
g. Utilization of these alternate data sources, procedures, and instrumentation does not relieve the sponsor from compliance with the balance of the information contained in this document relative to Level 6 FTDs.
h. The term “inertial measurement system” allows the use of a functional global positioning system (GPS).
End Information
| QPS RequirementsThe standards in this table are required if the data gathering methods described in paragraph 9 of Appendix B are not used. | Information | |
|---|---|---|
| Objective test reference number and title | Alternative data sources, procedures, and instrumentation | Notes |
| 1.b.1.Performance.Takeoff.Ground acceleration time. | Data may be acquired through a synchronized video recording of a stop watch and the calibrated airplane airspeed indicator. Hand-record the flight conditions and airplane configuration | This test is required only if RTO is sought. |
| 1.b.7.Performance.Takeoff.Rejected takeoff. | Data may be acquired through a synchronized video recording of a stop watch and the calibrated airplane airspeed indicator. Hand-record the flight conditions and airplane configuration | This test is required only if RTO is sought. |
| 1.c.1.Performance.Climb.Normal climb all engines operating. | Data may be acquired with a synchronized video of calibrated airplane instruments and engine power throughout the climb range | |
| 1.f.1.Performance.Engines.Acceleration | Data may be acquired with a synchronized video recording of engine instruments and throttle position | |
| 1.f.2.Performance.Engines.Deceleration | Data may be acquired with a synchronized video recording of engine instruments and throttle position | |
| 2.a.1.a. Handling qualities. Static control tests. Pitch controller position vs. force and surface position calibration | Surface position data may be acquired from flight data recorder (FDR) sensor or, if no FDR sensor, at selected, significant column positions (encompassing significant column position data points), acceptable to the responsible Flight Standards office, using a control surface protractor on the ground. Force data may be acquired by using a hand held force gauge at the same column position data points. | For airplanes with reversible control systems, surface position data acquisition should be accomplished with winds less than 5 kts. |
| 2.a.2.a. Handling qualities. Static control tests. Wheel position vs. force and surface position calibration. | Surface position data may be acquired from flight data recorder (FDR) sensor or, if no FDR sensor, at selected, significant wheel positions (encompassing significant wheel position data points), acceptable to the responsible Flight Standards office, using a control surface protractor on the ground. Force data may be acquired by using a hand held force gauge at the same wheel position data points. | For airplanes with reversible control systems, surface position data acquisition should be accomplished with winds less than 5 kts. |
| 2.a.3.a. Handling qualities. Static control tests. Rudder pedal position vs. force and surface position calibration. | Surface position data may be acquired from flight data recorder (FDR) sensor or, if no FDR sensor, at selected, significant rudder pedal positions (encompassing significant rudder pedal position data points), acceptable to the responsible Flight Standards office, using a control surface protractor on the ground. Force data may be acquired by using a hand held force gauge at the same rudder pedal position data points. | For airplanes with reversible control systems, surface position data acquisition should be accomplished with winds less than 5 kts. |
| 2.a.4.Handling qualities.Static control tests.Nosewheel steering force. | Breakout data may be acquired with a hand held force gauge. The remainder of the force to the stops may be calculated if the force gauge and a protractor are used to measure force after breakout for at least 25% of the total displacement capability | |
| 2.a.5.Handling qualities.Static control tests.Rudder pedal steering calibration. | Data may be acquired through the use of force pads on the rudder pedals and a pedal position measurement device, together with design data for nosewheel position | |
| 2.a.6.Handling qualities.Static control tests.Pitch trim indicator vs. surface position calibration. | Data may be acquired through calculations | |
| 2.a.8.Handling qualities.Static control tests.Alignment of power lever angle vs. selected engine parameter (e.g., EPR, N1, Torque, Manifold pressure). | Data may be acquired through the use of a temporary throttle quadrant scale to document throttle position. Use a synchronized video to record steady state instrument readings or hand-record steady state engine performance readings | |
| 2.a.9.Handling qualities.Static control tests.Brake pedal position vs. force. | Use of design or predicted data is acceptable. Data may be acquired by measuring deflection at “zero” and at “maximum.” | |
| 2.c.1.Handling qualities.Longitudinal control tests.Power change force. | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments, throttle position, and the force/position measurements of flight deck controls | Power change dynamics test is acceptable using the same data acquisition methodology. |
| 2.c.2.Handling qualities.Longitudinal control tests.Flap/slat change force. | Data may be acquired by using an inertial measurement system and a synchronized video of calibrated airplane instruments, flap/slat position, and the force/position measurements of flight deck controls | Flap/slat change dynamics test is acceptable using the same data acquisition methodology. |
| 2.c.4.Handling qualities.Longitudinal control tests.Gear change force. | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments, gear position, and the force/position measurements of flight deck controls | Gear change dynamics test is acceptable using the same data acquisition methodology. |
| 2.c.5.Handling qualities.Longitudinal control tests.Longitudinal trim. | Data may be acquired through use of an inertial measurement system and a synchronized video of flight deck controls position (previously calibrated to show related surface position) and engine instrument readings | |
| 2.c.6.Handling qualities.Longitudinal control tests.Longitudinal maneuvering stability (stick force/g). | Data may be acquired through the use of an inertial measurement system and a synchronized video of the calibrated airplane instruments; a temporary, high resolution bank angle scale affixed to the attitude indicator; and a wheel and column force measurement indication | |
| 2.c.7.Handling qualities.Longitudinal control tests.Longitudinal static stability | Data may be acquired through the use of a synchronized video of the airplane flight instruments and a hand held force gauge | |
| 2.c.8.Handling qualities.Longitudinal control tests.Stall Warning (activation of stall warning device). | Data may be acquired through a synchronized video recording of a stop watch and the calibrated airplane airspeed indicator. Hand-record the flight conditions and airplane configuration | Airspeeds may be cross checked with those in the TIR and AFM. |
| 2.c.9.a.Handling qualities.Longitudinal control tests.Phugoid dynamics. | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments and the force/position measurements of flight deck controls | |
| 2.c.10.Handling qualities.Longitudinal control tests.Short period dynamics. | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments and the force/position measurements of flight deck controls | |
| 2.c.11.Handling qualities.Longitudinal control tests.Gear and flap/slat operating times. | May use design data, production flight test schedule, or maintenance specification, together with an SOC | |
| 2.d.2.Handling qualities.Lateral directional tests.Roll response (rate). | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments and the force/position measurements of flight deck lateral controls | |
| 2.d.3.Handling qualities.Lateral directional tests.(a) Roll overshoot.OR (b) Roll response to flight deck roll controller step input. | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments and the force/position measurements of flight deck lateral controls | |
| 2.d.4.Handling qualities.Lateral directional tests.Spiral stability. | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments; the force/position measurements of flight deck controls; and a stop watch | |
| 2.d.6.a.Handling qualities.Lateral directional tests.Rudder response. | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments; the force/position measurements of rudder pedals | |
| 2.d.7.Handling qualities.Lateral directional tests.Dutch roll, (yaw damper OFF). | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments and the force/position measurements of flight deck controls | |
| 2.d.8.Handling qualities.Lateral directional tests.Steady state sideslip. | Data may be acquired by using an inertial measurement system and a synchronized video of the calibrated airplane instruments and the force/position measurements of flight deck controls |
Attachment 3 to Appendix B to Part 60—Flight Training Device (FTD) Subjective Evaluation
Begin Information
1. Discussion
a. The subjective tests provide a basis for evaluating the capability of the FTD to perform over a typical utilization period. The items listed in the Table of Functions and Subjective Tests are used to determine whether the FTD competently simulates each required maneuver, procedure, or task; and verifying correct operation of the FTD controls, instruments, and systems. The tasks do not limit or exceed the authorizations for use of a given level of FTD as described on the SOQ or as approved by the TPAA. All items in the following paragraphs are subject to examination.
b. All simulated airplane systems functions will be assessed for normal and, where appropriate, alternate operations. Simulated airplane systems are listed separately under “Any Flight Phase” to ensure appropriate attention to systems checks. Operational navigation systems (including inertial navigation systems, global positioning systems, or other long-range systems) and the associated electronic display systems will be evaluated if installed. The pilot will include in his report to the TPAA, the effect of the system operation and any system limitation.
c. At the request of the TPAA, the Pilot may assess the FTD for a special aspect of a sponsor's training program during the functions and subjective portion of an evaluation. Such an assessment may include a portion of a specific operation (e.g., a Line Oriented Flight Training (LOFT) scenario) or special emphasis items in the sponsor's training program. Unless directly related to a requirement for the qualification level, the results of such an evaluation would not affect the qualification of the FTD.
End Information
| QPS requirements | |
|---|---|
| Entry No. | Operations tasks |
| Tasks in this table are subject to evaluation if appropriate for the airplane system or systems simulated as indicated in the SOQ Configuration List as defined in Appendix B, Attachment 2 of this part. | |
| 1. Preflight | |
| Accomplish a functions check of all installed switches, indicators, systems, and equipment at all crewmembers' and instructors' stations, and determine that the flight deck (or flight deck area) design and functions replicate the appropriate airplane. | |
| 2. Surface Operations (pre-takeoff) | |
| 2.a. | Engine start: |
| 2.a.1. | Normal start. |
| 2.a.2. | Alternative procedures start. |
| 2.a.3. | Abnormal procedures start/shut down. |
| 2.b. | Pushback/Powerback (powerback requires visual system). |
| 3. Takeoff (requires appropriate visual system as set out in Table B1A, item 6; Appendix B, Attachment 1.) | |
| 3.a. | Instrument takeoff: |
| 3.a.1. | Engine checks (e.g., engine parameter relationships, propeller/mixture controls). |
| 3.a.2. | Acceleration characteristics. |
| 3.a.3. | Nosewheel/rudder steering. |
| 3.a.4. | Landing gear, wing flap, leading edge device operation. |
| 3.b. | Rejected takeoff: |
| 3.b.1. | Deceleration characteristics. |
| 3.b.2. | Brakes/engine reverser/ground spoiler operation. |
| 3.b.3. | Nosewheel/rudder steering. |
| 4. In-Flight Operations | |
| 4.a. | Normal climb. |
| 4.b. | Cruise: |
| 4.b.1. | Demonstration of performance characteristics (speed vs. power). |
| 4.b.2. | Normal turns. |
| 4.b.3. | Demonstration of high altitude handling. |
| 4.b.4. | Demonstration of high airspeed handling/overspeed warning. |
| 4.b.5. | Demonstration of Mach effects on control and trim. |
| 4.b.6. | Steep turns. |
| 4.b.7. | In-Flight engine shutdown (procedures only). |
| 4.b.8. | In-Flight engine restart (procedures only). |
| 4.b.9. | Specific flight characteristics. |
| 4.b.10. | Response to loss of flight control power. |
| 4.b.11. | Response to other flight control system failure modes. |
| 4.b.12. | Operations during icing conditions. |
| 4.b.13. | Effects of airframe/engine icing. |
| 4.c. | Other flight phase: |
| 4.c.1. | Approach to stalls in the following configurations: |
| 4.c.1.a. | Cruise. |
| 4.c.1.b. | Takeoff or approach. |
| 4.c.1.c. | Landing. |
| 4.c.2. | High angle of attack maneuvers in the following configurations: |
| 4.c.2.a. | Cruise. |
| 4.c.2.b. | Takeoff or approach. |
| 4.c.2.c. | Landing. |
| 4.c.3. | Slow flight. |
| 4.c.4. | Holding. |
| 5. Approaches | |
| 5.a. | Non-precision Instrument Approaches: |
| 5.a.1. | With use of autopilot and autothrottle, as applicable. |
| 5.a.2. | Without use of autopilot and autothrottle, as applicable. |
| 5.a.3. | With 10 knot tail wind. |
| 5.a.4. | With 10 knot crosswind. |
| 5.b. | Precision Instrument Approaches: |
| 5.b.1. | With use of autopilot, autothrottle, and autoland, as applicable. |
| 5.b.2. | Without use of autopilot, autothrottle, and autoland, as applicable. |
| 5.b.3. | With 10 knot tail wind. |
| 5.b.4. | With 10 knot crosswind. |
| 6. Missed Approach | |
| 6.a. | Manually controlled. |
| 6.b. | Automatically controlled (if applicable). |
| 7. Any Flight Phase, as appropriate | |
| 7.a. | Normal system operation (installed systems). |
| 7.b. | Abnormal/Emergency system operation (installed systems). |
| 7.c. | Flap operation. |
| 7.d. | Landing gear operation. |
| 7.e. | Engine Shutdown and Parking. |
| 7.e.1. | Systems operation. |
| 7.e.2. | Parking brake operation. |
| 8. Instructor Operating Station (IOS), as appropriate. Functions in this section are subject to evaluation only if appropriate for the airplane and/or installed on the specific FTD involved | |
| 8.a. | Power Switch(es). |
| 8.b. | Airplane conditions. |
| 8.b.1. | Gross weight, center of gravity, and fuel loading and allocation. |
| 8.b.2. | Airplane systems status. |
| 8.b.3. | Ground crew functions (e.g., external power, push back). |
| 8.c. | Airports. |
| 8.c.1. | Selection. |
| 8.c.2. | Runway selection. |
| 8.c.3. | Preset positions (e.g., ramp, over FAF). |
| 8.d. | Environmental controls. |
| 8.d.1. | Temperature. |
| 8.d.2. | Climate conditions (e.g., ice, rain). |
| 8.d.3. | Wind speed and direction. |
| 8.e. | Airplane system malfunctions. |
| 8.e.1. | Insertion/deletion. |
| 8.e.2. | Problem clear. |
| 8.f. | Locks, Freezes, and Repositioning. |
| 8.f.1. | Problem (all) freeze/release. |
| 8.f.2. | Position (geographic) freeze/release. |
| 8.f.3. | Repositioning (locations, freezes, and releases). |
| 8.f.4. | Ground speed control. |
| 8.f.5. | Remote IOS, if installed. |
| 9. Sound Controls. On/off/adjustment | |
| 10. Control Loading System (as applicable) On/off/emergency stop. | |
| 11. Observer Stations. | |
| 11.a. | Position. |
| 11.b. | Adjustments. |
| End QPS Requirements |
| QPS requirements | |
|---|---|
| Entry No. | Operations tasksTasks in this table are subject to evaluation if appropriate for the airplane system or systems simulated as indicated in the SOQ Configuration List as defined in Appendix B, Attachment 2 of this part. |
| 1. Preflight | |
| Accomplish a functions check of all installed switches, indicators, systems, and equipment at all crewmembers' and instructors' stations, and determine that the flight deck (or flight deck area) design and functions replicate the appropriate airplane. | |
| 2. Surface Operations (pre-takeoff) | |
| 2.a. | Engine start (if installed): |
| 2.a.1. | Normal start. |
| 2.a.2. | Alternative procedures start. |
| 2.a.3. | Abnormal/Emergency procedures start/shut down. |
| 3. In-Flight Operations | |
| 3.a. | Normal climb. |
| 3.b. | Cruise: |
| 3.b.1. | Performance characteristics (speed vs. power). |
| 3.b.2. | Normal turns. |
| 3.c. | Normal descent. |
| 4. Approaches | |
| 4.a. | Coupled instrument approach maneuvers (as applicable for the systems installed). |
| 5. Any Flight Phase | |
| 5.a. | Normal system operation (Installed systems). |
| 5.b. | Abnormal/Emergency system operation (Installed systems). |
| 5.c. | Flap operation. |
| 5.d. | Landing gear operation |
| 5.e. | Engine Shutdown and Parking (if installed). |
| 5.e.1. | Systems operation. |
| 5.e.2. | Parking brake operation. |
| 6. Instructor Operating Station (IOS) | |
| 6.a. | Power Switch(es). |
| 6.b. | Preset positions—ground, air. |
| 6.c. | Airplane system malfunctions (Installed systems). |
| 6.c.1. | Insertion/deletion. |
| 6.c.2. | Problem clear. |














Attachment 4 to Appendix B to Part 60—Sample Documents
Begin Information
Table of Contents
Title of Sample
Figure B4A Sample Letter, Request for Initial, Upgrade, or Reinstatement Evaluation
Figure B4B Attachment: FTD Information Form
Figure B4C Sample Letter of Compliance
Figure B4D Sample Qualification Test Guide Cover Page
Figure B4E Sample Statement of Qualification—Certificate
Figure B4F Sample Statement of Qualification—Configuration List
Figure B4G Sample Statement of Qualification—List of Qualified Tasks
Figure B4H [Reserved]
Figure B4I Sample MQTG Index of Effective FTD Directives
Attachment 4 to Appendix B to Part 60—Figure B4A—Sample Letter, Request for Initial, Upgrade, or Reinstatement Evaluation
Information





Attachment 4 to Appendix B to Part 60—Figure B4C—Sample Letter of Compliance
Information

Attachment 4 to Appendix B to Part 60—Figure B4D—Sample Qualification Test Guide Cover Page
Information

Attachment 4 to Appendix B to Part 60— Figure B4E—Sample Statement of Qualification—Certificate
Information





Attachment 4 to Appendix B to Part 60—Figure B4H [Reserved]

[Docket FAA-2002-12461, 73 FR 26490, May 9, 2008, as amended by Docket FAA-2014-0391, Amdt. 60-4, 81 FR 18306, 18307, 18327, and 18376, Mar. 30, 2016; 81 FR 32087, 32110, 32111, and 32165, May 20, 2016; Amdt. 60-6, 83 FR 30275, June 27, 2018; Docket FAA-2022-1355, Amdt. 60-7, 87 FR 75771, Dec. 9, 2022; Amdt. No. 60-9, 90 FR 42525, Sept. 3, 2025]