Special Conditions: Robinson Helicopter Company Model R22 BETA Helicopter; Installation of Helitrak Autopilot System, 13962-13965 [2017-05268]
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Federal Register / Vol. 82, No. 50 / Thursday, March 16, 2017 / Rules and Regulations
limiting aircraft speed to VDF/MDF
(demonstrated flight diving speed).
The controllability and
maneuverability requirements of 14 CFR
25.143 do not specifically relate to flight
characteristics associated with fixed
attitude limits or a high-speed limiter
that might preclude or modify flying
qualities assessment in the overspeed
region.
These special conditions contain the
additional safety standards that the
Administrator considers necessary to
establish a level of safety equivalent to
that established by the existing
airworthiness standards.
Novel or Unusual Design Features
The ERJ 190–300 will incorporate the
following novel or unusual design
feature: An electronic flight control
system that contains fly-by-wire control
laws, including flight envelope
protection functions that impose pitchangle, bank-angle, and high-speed limits
during normal operation.
jstallworth on DSK7TPTVN1PROD with RULES
model already included on the same
type certificate be modified to
incorporate the same novel or unusual
design feature, these special conditions
would also apply to the other model
under § 21.101.
In addition to the applicable
airworthiness regulations and special
conditions, the ERJ 190–300 must
comply with the fuel vent and exhaust
emission requirements of 14 CFR part
34 and the noise-certification
requirements of 14 CFR part 36.
The FAA issues special conditions, as
defined in 14 CFR 11.19, in accordance
with § 11.38, and they become part of
the type certification basis under
§ 21.101.
As discussed above, these special
conditions are applicable to the ERJ
190–300 series airplanes. Should
Embraer S.A. apply at a later date for a
change to the type certificate to include
another model incorporating the same
novel or unusual design feature, these
special conditions would apply to that
model as well.
Discussion
The Embraer S.A. ERJ 190–300 design
has a full-digital flight control system,
referred to as fly-by-wire architecture.
The fly-by-wire architecture provides
closed-loop flight control laws and
multiple protection functions.
The basic characteristics of pitch,
bank, and high-speed limiting functions
are as follows:
1. Pitch Limiting Function:
While in normal mode, the ERJ 190–
300 airplane presents positive and
negative pitch attitude soft limits. After
surpassing the established limits set at
30° and ¥15°, the airplane presents a
natural tendency to return (positive
stability) to within these limits when
pitch control is released.
2. Bank Limiting Function (Spiral
Stability and Roll Limiting):
While in normal mode at speeds up
to VMO/MMO (maximum operating limit
speed), the ERJ 190–300 airplane
presents neutral stability up to 33° bank
angle. Above 33°, positive spiral
stability is introduced; however, there is
no bank angle hard limit. When
overspeed protection is engaged,
positive spiral stability is provided in
the range of ±33° and a bank angle hard
limit (non-overridable) is set at that
bank angle.
3. High-Speed Limiting Function
(Overspeed Protection):
While in normal mode, the overspeed
protection function prevents pilots from
exceeding the airplane maximum design
speeds by providing strong positive
stability at and above VMO/MMO, and
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Applicability
Conclusion
This action affects only a certain
novel or unusual design feature on one
model of airplane. It is not a rule of
general applicability.
The substance of these special
conditions has been subjected to the
notice and comment period in several
prior instances and has been derived
without substantive change from those
previously issued. It is unlikely that
prior public comment would result in a
significant change from the substance
contained herein. Therefore, because a
delay would affect the certification of
the airplane, the FAA has determined
that prior public notice and comment
are unnecessary and impracticable, and
good cause exists for adopting these
special conditions upon publication in
the Federal Register. The FAA is
requesting comments to allow interested
persons to submit views that may not
have been submitted in response to the
prior opportunities for comment
described above.
List of Subjects in 14 CFR Part 25
Aircraft, Aviation safety, Reporting
and recordkeeping requirements.
The authority citation for these
special conditions is as follows:
Authority: 49 U.S.C. 106(g), 40113, 44701,
44702, 44704.
The Special Conditions
Accordingly, pursuant to the
authority delegated to me by the
Administrator, the following special
conditions are issued as part of the type
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certification basis for the Embraer S.A.
Model ERJ 190–300 series airplanes.
Flight Envelope Protection: Pitch, Roll,
and High-Speed Limiting Functions
In addition to § 25.143, the following
requirements apply:
1. Pitch and Roll Limiting Functions.
a. The pitch limiting function must
not impede normal maneuvering for
pitch angles up to the maximum
required for normal maneuvering,
including a normal all-engines operating
takeoff, plus a suitable margin to allow
for satisfactory speed control.
b. The pitch and roll limiting
functions must not restrict or prevent
attaining pitch attitudes necessary for
emergency maneuvering or roll angles
up to 66° with flaps up or 60° with flaps
down. Spiral stability, which is
introduced above 33° roll angle, must
not require excessive pilot strength to
achieve these roll angles. Other
protections, which further limit the roll
capability under certain extreme angle
of attack or attitude or high speed
conditions, are acceptable, as long as
they allow at least 45° of roll capability.
c. A lower limit of roll is acceptable,
beyond the overspeed warning, if it is
possible to recover the aircraft to the
normal flight envelope without undue
difficulty or delay.
2. High-Speed Limiting Functions.
Operation of the high-speed limiter
during all routine and descent
procedure flight must not impede
normal attainment of speeds up to
overspeed warning.
Michael Kaszycki,
Assistant Manager, Transport Airplane
Directorate, Aircraft Certification Service.
[FR Doc. 2017–05200 Filed 3–15–17; 8:45 am]
BILLING CODE 4910–13–P
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Part 27
[Docket No. FAA–2017–0167; Special
Conditions No. 27–032–SC]
Special Conditions: Robinson
Helicopter Company Model R22 BETA
Helicopter; Installation of Helitrak
Autopilot System
Federal Aviation
Administration (FAA), DOT.
ACTION: Final special conditions; request
for comments.
AGENCY:
These special conditions are
issued for the Robinson Helicopter
Company (Robinson) Model R22 BETA
helicopter. This helicopter as modified
SUMMARY:
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jstallworth on DSK7TPTVN1PROD with RULES
Federal Register / Vol. 82, No. 50 / Thursday, March 16, 2017 / Rules and Regulations
by Helitrak, Incorporated (Helitrak) will
have a novel or unusual design feature
associated with an autopilot (AP)
system. The applicable airworthiness
regulations do not contain adequate or
appropriate safety standards for this
design feature. These special conditions
contain the additional safety standards
the Administrator considers necessary
to establish a level of safety equivalent
to that ensured by the existing
airworthiness standards.
DATES: The effective date of these
special conditions is March 16, 2017.
We must receive your comments by May
15, 2017.
ADDRESSES: Send comments identified
by docket number [FAA–2017–0167]
using any of the following methods:
• Federal eRegulations Portal: Go to
https://www.regulations.gov and follow
the online instructions for sending your
comments electronically.
• Mail: Send comments to Docket
Operations, M–30, U.S. Department of
Transportation (DOT), 1200 New Jersey
Avenue SE., Room W12–140, West
Building Ground Floor, Washington, DC
20590–0001.
• Hand Delivery of Courier: Deliver
comments to the Docket Operations, in
Room W12–140 of the West Building
Ground Floor at 1200 New Jersey
Avenue SE., Washington, DC, between 9
a.m., and 5 p.m., Monday through
Friday, except federal holidays.
• Fax: Fax comments to Docket
Operations at 202–493–2251.
Privacy: The FAA will post all
comments it receives, without change,
to https://regulations.gov, including any
personal information the commenter
provides. Using the search function of
the docket Web site, anyone can find
and read the electronic form of all
comments received into any FAA
docket, including the name of the
individual sending the comment (or
signing the comment for an association,
business, labor union, etc.). DOT’s
complete Privacy Act Statement can be
found in the Federal Register published
on April 11, 2000 (65 FR 19477–19478),
as well as at https://DocketsInfo.dot.gov.
Docket: You can read the background
documents or comments received at
https://www.regulations.gov. Follow the
online instructions for accessing the
docket or go to the Docket Operations in
Room W12–140 of the West Building
Ground Floor at 1200 New Jersey
Avenue SE., Washington, DC, between 9
a.m., and 5 p.m., Monday through
Friday, except Federal holidays.
FOR FURTHER INFORMATION CONTACT:
Mark Wiley, Aviation Safety Engineer,
FAA, Rotorcraft Directorate, Regulations
and Policy Group (ASW–111), 10101
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14:18 Mar 15, 2017
Jkt 241001
Hillwood Parkway, Fort Worth, TX
76177; telephone (817) 222–5134; or
email to Mark.Wiley@faa.gov.
SUPPLEMENTARY INFORMATION:
Reason for No Prior Notice and
Comment Before Adoption
The FAA considers prior notice to be
unnecessary as we have provided
previous opportunities to comment on
substantially identical proposed special
conditions, and we are satisfied that
new comments are unlikely. Therefore,
the FAA has determined that prior
public notice and comment are
unnecessary and finds that good cause
exists for adopting these special
conditions effective upon issuance. The
FAA is requesting comments to allow
interested persons to submit views that
may not have been submitted in
response to the prior opportunities for
comment.
Comments Invited
While we did not precede this with a
notice of proposed special conditions,
we invite interested people to take part
in this action by sending written
comments, data, or views. The most
helpful comments reference a specific
portion of the special conditions,
explain the reason for any
recommended change, and include
supporting data.
We will consider all comments we
receive by the closing date for
comments. We will consider comments
filed late if it is possible to do so
without incurring expense or delay. We
may change these special conditions
based on the comments we receive.
Background
On January 27, 2012, Helitrak applied
for a supplemental type certificate (STC)
to install an AP system on the Robinson
Model R22 BETA helicopter. The
Robinson Model R22 BETA helicopter,
currently approved under Type
Certificate No. H10WE, is a 14 CFR part
27 normal category, single reciprocating
engine, conventional helicopter
designed for civil operation. This
helicopter model is capable of carrying
one passenger with one pilot, and has a
maximum gross weight of up to 1,370
pounds. The major design features
include a two-blade teetering main
rotor, an anti-torque tail rotor system, a
skid landing gear, and a visual flight
rule basic avionics configuration.
Helitrak proposes to modify this model
helicopter by installing a two-axis
Helitrak AP.
The present § 27.1309(c) regulation
does not adequately address the safety
requirements for systems whose failures
could result in ‘‘catastrophic’’ or
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13963
‘‘hazardous/severe-major’’ failure
conditions, or for complex systems
whose failures could result in ‘‘major’’
failure conditions. When § 27.1309(c)
was promulgated, it was not envisioned
that a normal category rotorcraft would
use systems that are complex or whose
failure could result in ‘‘catastrophic’’ or
‘‘hazardous/severe-major’’ effects on the
rotorcraft. The Helitrak AP controls
rotorcraft flight control surfaces.
Possible failure modes exhibited by this
system could result in a catastrophic
event.
Type Certification Basis
Under 14 CFR 21.101 and 21.115,
Helitrak must show that the Robinson
Model R22 BETA helicopter, as
modified by the installed Helitrak AP,
continues to meet the applicable
provisions of the regulations
incorporated by reference in Type
Certificate No. H10WE or the applicable
regulations in effect on the date of
application for the change.
Additionally, Helitrak must comply
with the following equivalent level of
safety findings, exemptions, and special
conditions prescribed by the
Administrator as part of the certification
basis:
14 CFR part 27 dated February 1, 1965,
including Amendments 27–1
through 27–10
National Environmental Act of 1969
Noise Control Act of 1972
Equivalent Safety Finding: Number
TD10352LA–R/S–1
14 CFR part 27.1401(d), Anticollision
Light System
In addition, Helitrak must show the
Helitrak AP STC-altered Robinson
Model R22 BETA helicopter complies
with the noise certification
requirements of 14 CFR part 36.
Regulatory Basis for Special Conditions
If the Administrator finds the
applicable airworthiness regulations
(that is, 14 CFR part 27) do not contain
adequate or appropriate safety standards
for the Robinson Model R22 BETA
helicopter because of a novel or unusual
design feature, special conditions are
prescribed under § 21.16.
The FAA issues special conditions, as
defined in § 11.19, in accordance with
§ 11.38 and they become part of the type
certification basis under § 21.101.
Special conditions are initially
applicable to the model for which they
are issued. Should Helitrak apply for an
STC to modify any other model
included on the H10WE type certificate
to incorporate the same novel or
unusual design feature, the special
conditions would also apply to the other
model.
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Federal Register / Vol. 82, No. 50 / Thursday, March 16, 2017 / Rules and Regulations
Novel or Unusual Design Features
The Robinson Model R22 BETA will
incorporate the following novel or
unusual design features: A Helitrak AP.
This AP system performs non-required
flight control functions. The Helitrak AP
is a two-axis system with two
operational flight control modes:
Heading and airspeed hold or heading
and altitude hold. Other flight control
functions include unusual attitude
recovery, collective pulldown, and an
autorotation function.
Discussion
The effect on safety is not adequately
covered under § 27.1309 for the
application of new technology and new
application of standard technology.
Specifically, the provisions of
§ 27.1309(c) do not adequately address
the safety requirements for systems
whose failures could result in
catastrophic or hazardous/severe-major
failure conditions and for complex
systems whose failures could result in
major failure conditions.
To comply with these special
conditions, we require that Helitrak
provide the FAA with a systems safety
assessment (SSA) for the final Helitrak
AP installation configuration that will
adequately address the safety objectives
established by a functional hazard
assessment (FHA) and a preliminary
system safety assessment (PSSA),
including the fault tree analysis (FTA).
This will ensure that all failure
conditions and their resulting effects are
adequately addressed for the installed
Helitrak AP. The SSA process, FHA,
PSSA, and FTA are all parts of the
overall safety assessment process
discussed in FAA Advisory Circular 27–
1B, Certification of Normal Category
Rotorcraft, and Society of Automotive
Engineers document Aerospace
Recommended Practice 4761,
Guidelines and Methods for Conducting
the Safety Assessment Process on Civil
Airborne Systems and Equipment.
These special conditions require that
the Helitrak AP installed on a Robinson
Model R22 BETA helicopter meets the
requirements to adequately address the
failure effects identified by the FHA,
and subsequently verified by the SSA,
within the defined design integrity
requirements.
jstallworth on DSK7TPTVN1PROD with RULES
Applicability
These special conditions are
applicable to the Robinson Model R22
BETA helicopter. Should Helitrak apply
at a later date for an STC to modify any
other model included on Type
Certificate No. H10WE to incorporate
the same novel or unusual design
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feature, the special conditions would
apply to that model as well.
Conclusion
This action affects only certain novel
or unusual design features on one model
helicopter. It is not a rule of general
applicability and affects only the
applicant who applied to the FAA for
approval of these features on the
helicopter.
Under standard practice, the effective
date of final special conditions would
be 30 days after the date of publication
in the Federal Register; however, the
substance of these special conditions
has been subjected to the notice and
comment period previously and has
been derived without substantive
change from those previously issued. As
it is unlikely that prior public comment
would result in a significant change
from the substance contained herein,
the FAA considers prior notice to be
unnecessary and finds that good cause
exists to make these special conditions
effective upon issuance.
List of Subjects in 14 CFR Part 27
Aircraft, Aviation safety.
The authority citation for these
special conditions is as follows:
Authority: 42 U.S.C. 7572; 49 U.S.C.
106(g), 40113, 44701–44702, 44704.
The Special Conditions
Accordingly, pursuant to the
authority delegated to me by the
Administrator, the following special
conditions are issued as part of the type
certification basis for Robinson
Helicopter Company (Robinson) Model
R22 BETA helicopters as modified by
Helitrak, Incorporated.
In addition to the requirement of
§ 27.1309(c), the Helitrak autopilot (AP)
system installation on Robinson Model
R22 BETA helicopters must be designed
and installed so that the failure
conditions identified in the functional
hazard assessment (FHA) and verified
by the system safety assessment (SSA)
are adequately addressed in accordance
with the following requirements.
Helitrak, Incorporated must provide
the FAA with a SSA for the final
Helitrak AP installation configuration
that will adequately address the safety
objectives established by the FHA and
the preliminary system safety
assessment (PSSA), including the fault
tree analysis (FTA). This will show that
all failure conditions and their resulting
effects are adequately addressed for the
installed Helitrak AP.
Note 1: The SSA process, FHA, PSSA,
and FTA are all parts of the overall
safety assessment (SA) process
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discussed in FAA Advisory Circular
(AC) 27–1B (Certification of Normal
Category Rotorcraft) and Society of
Automotive Engineers (SAE) document
Aerospace Recommended Practice
(ARP) 4761 (Guidelines and Methods for
Conducting the Safety Assessment
Process on civil airborne Systems and
Equipment).
Failure Condition Categories. Failure
conditions are classified, according to
the severity of their effects on the
rotorcraft, into one of the following
categories:
1. No Effect. Failure conditions have
no effect on safety. These failure
conditions would not affect the
operational capability of the rotorcraft
or increase crew workload; however,
could result in an inconvenience to the
occupants, excluding the flight crew.
2. Minor. Failure conditions do not
significantly reduce rotorcraft safety,
and involve crew actions that are well
within their capabilities. Minor failure
conditions would include, for example,
a slight reduction in safety margins or
functional capabilities, a slight increase
in crew workload, such as, routine flight
plan changes, or result in some physical
discomfort to occupants.
3. Major. Failure conditions reduce
the capability of the rotorcraft or the
ability of the crew to cope with adverse
operating conditions to the extent that
there would be, for example, a
significant reduction in safety margins
or functional capabilities, a significant
increase in crew workload or result in
impairing crew efficiency, physical
distress to occupants, including injuries,
or physical discomfort to the flight
crew. The potential for a failure to result
in a condition characterized as major
should be remote with a probability of
occurrence between 1 × 10¥3 to 1 ×
10¥5 failures/flight hour.
4. Hazardous/Severe-Major.
a. Failure conditions reduce the
capability of the rotorcraft or the ability
of the crew to cope with adverse
operating conditions to the extent that
there would be:
(1) A large reduction in safety margins
or functional capabilities;
(2) physical distress or excessive
workload that would impair the flight
crew’s ability to the extent that they
could not be relied on to perform their
tasks accurately or completely; or
(3) possible serious or fatal injury to
a passenger or a cabin crewmember,
excluding the flight crew. The potential
that a failure results in a condition
characterized as hazardous/severe-major
should be extremely remote with a
probability of occurrence between 1 ×
10¥5 to 1 × 10¥7 failures/flight hour.
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Federal Register / Vol. 82, No. 50 / Thursday, March 16, 2017 / Rules and Regulations
b. ‘‘Hazardous/severe-major’’ failure
conditions can include events that are
manageable by the crew by the use of
proper procedures, which, if not
implemented correctly or in a timely
manner, may result in a catastrophic
event.
5. Catastrophic. Failure conditions
result in multiple fatalities to occupants,
fatalities or incapacitation to the flight
crew, or result in loss of the rotorcraft.
The potential that a failure results in a
condition characterized as catastrophic
should be extremely improbable with
probability of occurrence 1 × 10¥9
failures/flight hour or less.
Requirements
Helitrak must comply with the
existing requirements of § 27.1309 for
all applicable design and operational
aspects of the Helitrak AP with the
failure condition categories of ‘‘no
effect’’ and ‘‘minor,’’ and for noncomplex systems whose failure
condition category is classified as
‘‘major.’’ Helitrak must comply with the
requirements of these special conditions
for all applicable design and operational
aspects of the Helitrak AP with the
failure condition categories of
‘‘catastrophic’’ and ‘‘hazardous severe/
major,’’ and for complex systems whose
failure condition category is classified
as ‘‘major.’’ A complex system is a
system whose operations, failure
conditions, or failure effects are difficult
to comprehend without the aid of
analytical methods (for example, FTA,
Failure Modes and Effect Analysis,
FHA).
jstallworth on DSK7TPTVN1PROD with RULES
System Design Integrity Requirements
Each of the failure condition
categories defined in these special
conditions relate to the corresponding
aircraft system integrity requirements.
The system design integrity
requirements for the Helitrak AP, as
they relate to the allowed probability of
occurrence for each failure condition
category and the proposed software
design assurance level, are as follows:
Systems with failures that may result
in a ‘‘major’’ effect must be shown to be
remote and develop software to the
Radio Technical Commission for
Aeronautics (RTCA) Document DO–
178B, Software Considerations in
Airborne Systems and Equipment
Certification, Level C software design
assurance level and must develop
complex hardware to the Radio
Technical Commission for Aeronautics
(RTCA) Document DO–254, Design
Assurance Guidance for Airborne
Electronic Hardware, Level C hardware
design assurance level.
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Systems with failures that may result
in ‘‘hazardous/severe-major’’ effects
must be shown to be extremely remote
must develop software to the RTCA
Document DO–178B, Software
Considerations in Airborne Systems and
Equipment Certification, Level B
software design assurance level and
must develop complex hardware to the
Radio Technical Commission for
Aeronautics (RTCA) Document DO–254,
Design Assurance Guidance for
Airborne Electronic Hardware, Level B
hardware design assurance level.
Systems with failures that may result
in ‘‘catastrophic’’ effects must be shown
to be extremely improbable, and
develop software to the RTCA
Document DO–178B, Software
Considerations in Airborne Systems and
Equipment Certification, Level A design
assurance level and must develop
complex hardware to the Radio
Technical Commission for Aeronautics
(RTCA) Document DO–254, Design
Assurance Guidance for Airborne
Electronic Hardware, Level A hardware
design assurance level.
System Design Environmental
Requirements
The AP system equipment must be
qualified to the appropriate
environmental level per RTCA
Document DO–160F, Environmental
Conditions and Test Procedures for
Airborne Equipment, for all relevant
aspects. This is to show that the AP
system performs its intended function
under any foreseeable operating
condition, including the expected
environment in which the AP is
intended to operate. Some of the main
considerations for environmental
concerns are installation locations and
the resulting exposure to environmental
conditions for the AP system
equipment, including considerations for
other equipment that may be affected
environmentally by the AP equipment
installation. The level of environmental
qualification must be related to the
severity of the considered failure
conditions and effects on the rotorcraft.
Test & Analysis Requirements
Compliance with the requirements of
these special conditions may be shown
by a variety of methods, which typically
consist of analysis, flight tests, ground
tests, and simulation, at a minimum.
Compliance methodology is related to
the associated failure condition
category. If the AP is a complex system,
compliance with the requirements for
failure conditions classified as ‘‘major’’
may be shown by analysis, in
combination with appropriate testing, to
validate the analysis. Compliance with
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13965
the requirements for failure conditions
classified as ‘‘hazardous/severe-major’’
may be shown by flight-testing in
combination with analysis and
simulation, and the appropriate testing
to validate the analysis. Flight tests may
be limited for ‘‘hazardous/severe-major’’
failure conditions and effects due to
safety considerations. Compliance with
the requirements for failure conditions
classified as ‘‘catastrophic’’ may be
shown by analysis and appropriate
testing in combination with simulation
to validate the analysis. Very limited
flight tests in combination with
simulation are used as a part of a
showing of compliance for
‘‘catastrophic’’ failure conditions. Flight
tests are performed only in
circumstances that use operational
variations, or extrapolations from other
flight performance aspects to address
flight safety.
These special conditions require that
the Helitrak AP system installed on a
Robinson Model R22 BETA helicopter,
Type Certificate No. H10WE, meet these
requirements to adequately address the
failure effects identified by the FHA,
and subsequently verified by the SSA,
within the defined design system
integrity requirements.
Issued in Fort Worth, Texas, on March 10,
2017.
Lance Gant,
Manager Rotorcraft Standard Staff, Aircraft
Certification Service.
[FR Doc. 2017–05268 Filed 3–15–17; 8:45 am]
BILLING CODE 4910–13–P
DEPARTMENT OF HOMELAND
SECURITY
Coast Guard
33 CFR Part 165
[Docket Number USCG–2016–0032]
RIN 1625–AA11
Regulated Navigation Areas; Escorted
Submarines Sector Jacksonville
Captain of the Port Zone
Coast Guard, DHS.
Final rule.
AGENCY:
ACTION:
The Coast Guard is
establishing regulated navigation areas
(RNA) covering the St. Marys Entrance
Channel, portions of the Cumberland
Sound, and the Atlantic Ocean that will
be in effect whenever any Navy
submarine (foreign or domestic) is
escorted by the Coast Guard and
operating within the jurisdictional
waters of the Sector Jacksonville
Captain of the Port Zone. These RNAs
SUMMARY:
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]]>Agencies
[Federal Register Volume 82, Number 50 (Thursday, March 16, 2017)]
[Rules and Regulations]
[Pages 13962-13965]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2017-05268]
-----------------------------------------------------------------------
DEPARTMENT OF TRANSPORTATION
Federal Aviation Administration
14 CFR Part 27
[Docket No. FAA-2017-0167; Special Conditions No. 27-032-SC]
Special Conditions: Robinson Helicopter Company Model R22 BETA
Helicopter; Installation of Helitrak Autopilot System
AGENCY: Federal Aviation Administration (FAA), DOT.
ACTION: Final special conditions; request for comments.
-----------------------------------------------------------------------
SUMMARY: These special conditions are issued for the Robinson
Helicopter Company (Robinson) Model R22 BETA helicopter. This
helicopter as modified
[[Page 13963]]
by Helitrak, Incorporated (Helitrak) will have a novel or unusual
design feature associated with an autopilot (AP) system. The applicable
airworthiness regulations do not contain adequate or appropriate safety
standards for this design feature. These special conditions contain the
additional safety standards the Administrator considers necessary to
establish a level of safety equivalent to that ensured by the existing
airworthiness standards.
DATES: The effective date of these special conditions is March 16,
2017. We must receive your comments by May 15, 2017.
ADDRESSES: Send comments identified by docket number [FAA-2017-0167]
using any of the following methods:
Federal eRegulations Portal: Go to https://www.regulations.gov and follow the online instructions for sending your
comments electronically.
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FOR FURTHER INFORMATION CONTACT: Mark Wiley, Aviation Safety Engineer,
FAA, Rotorcraft Directorate, Regulations and Policy Group (ASW-111),
10101 Hillwood Parkway, Fort Worth, TX 76177; telephone (817) 222-5134;
or email to Mark.Wiley@faa.gov.
SUPPLEMENTARY INFORMATION:
Reason for No Prior Notice and Comment Before Adoption
The FAA considers prior notice to be unnecessary as we have
provided previous opportunities to comment on substantially identical
proposed special conditions, and we are satisfied that new comments are
unlikely. Therefore, the FAA has determined that prior public notice
and comment are unnecessary and finds that good cause exists for
adopting these special conditions effective upon issuance. The FAA is
requesting comments to allow interested persons to submit views that
may not have been submitted in response to the prior opportunities for
comment.
Comments Invited
While we did not precede this with a notice of proposed special
conditions, we invite interested people to take part in this action by
sending written comments, data, or views. The most helpful comments
reference a specific portion of the special conditions, explain the
reason for any recommended change, and include supporting data.
We will consider all comments we receive by the closing date for
comments. We will consider comments filed late if it is possible to do
so without incurring expense or delay. We may change these special
conditions based on the comments we receive.
Background
On January 27, 2012, Helitrak applied for a supplemental type
certificate (STC) to install an AP system on the Robinson Model R22
BETA helicopter. The Robinson Model R22 BETA helicopter, currently
approved under Type Certificate No. H10WE, is a 14 CFR part 27 normal
category, single reciprocating engine, conventional helicopter designed
for civil operation. This helicopter model is capable of carrying one
passenger with one pilot, and has a maximum gross weight of up to 1,370
pounds. The major design features include a two-blade teetering main
rotor, an anti-torque tail rotor system, a skid landing gear, and a
visual flight rule basic avionics configuration. Helitrak proposes to
modify this model helicopter by installing a two-axis Helitrak AP.
The present Sec. 27.1309(c) regulation does not adequately address
the safety requirements for systems whose failures could result in
``catastrophic'' or ``hazardous/severe-major'' failure conditions, or
for complex systems whose failures could result in ``major'' failure
conditions. When Sec. 27.1309(c) was promulgated, it was not
envisioned that a normal category rotorcraft would use systems that are
complex or whose failure could result in ``catastrophic'' or
``hazardous/severe-major'' effects on the rotorcraft. The Helitrak AP
controls rotorcraft flight control surfaces. Possible failure modes
exhibited by this system could result in a catastrophic event.
Type Certification Basis
Under 14 CFR 21.101 and 21.115, Helitrak must show that the
Robinson Model R22 BETA helicopter, as modified by the installed
Helitrak AP, continues to meet the applicable provisions of the
regulations incorporated by reference in Type Certificate No. H10WE or
the applicable regulations in effect on the date of application for the
change. Additionally, Helitrak must comply with the following
equivalent level of safety findings, exemptions, and special conditions
prescribed by the Administrator as part of the certification basis:
14 CFR part 27 dated February 1, 1965, including Amendments 27-1
through 27-10
National Environmental Act of 1969
Noise Control Act of 1972
Equivalent Safety Finding: Number TD10352LA-R/S-1
14 CFR part 27.1401(d), Anticollision Light System
In addition, Helitrak must show the Helitrak AP STC-altered
Robinson Model R22 BETA helicopter complies with the noise
certification requirements of 14 CFR part 36.
Regulatory Basis for Special Conditions
If the Administrator finds the applicable airworthiness regulations
(that is, 14 CFR part 27) do not contain adequate or appropriate safety
standards for the Robinson Model R22 BETA helicopter because of a novel
or unusual design feature, special conditions are prescribed under
Sec. 21.16.
The FAA issues special conditions, as defined in Sec. 11.19, in
accordance with Sec. 11.38 and they become part of the type
certification basis under Sec. 21.101.
Special conditions are initially applicable to the model for which
they are issued. Should Helitrak apply for an STC to modify any other
model included on the H10WE type certificate to incorporate the same
novel or unusual design feature, the special conditions would also
apply to the other model.
[[Page 13964]]
Novel or Unusual Design Features
The Robinson Model R22 BETA will incorporate the following novel or
unusual design features: A Helitrak AP. This AP system performs non-
required flight control functions. The Helitrak AP is a two-axis system
with two operational flight control modes: Heading and airspeed hold or
heading and altitude hold. Other flight control functions include
unusual attitude recovery, collective pulldown, and an autorotation
function.
Discussion
The effect on safety is not adequately covered under Sec. 27.1309
for the application of new technology and new application of standard
technology. Specifically, the provisions of Sec. 27.1309(c) do not
adequately address the safety requirements for systems whose failures
could result in catastrophic or hazardous/severe-major failure
conditions and for complex systems whose failures could result in major
failure conditions.
To comply with these special conditions, we require that Helitrak
provide the FAA with a systems safety assessment (SSA) for the final
Helitrak AP installation configuration that will adequately address the
safety objectives established by a functional hazard assessment (FHA)
and a preliminary system safety assessment (PSSA), including the fault
tree analysis (FTA). This will ensure that all failure conditions and
their resulting effects are adequately addressed for the installed
Helitrak AP. The SSA process, FHA, PSSA, and FTA are all parts of the
overall safety assessment process discussed in FAA Advisory Circular
27-1B, Certification of Normal Category Rotorcraft, and Society of
Automotive Engineers document Aerospace Recommended Practice 4761,
Guidelines and Methods for Conducting the Safety Assessment Process on
Civil Airborne Systems and Equipment.
These special conditions require that the Helitrak AP installed on
a Robinson Model R22 BETA helicopter meets the requirements to
adequately address the failure effects identified by the FHA, and
subsequently verified by the SSA, within the defined design integrity
requirements.
Applicability
These special conditions are applicable to the Robinson Model R22
BETA helicopter. Should Helitrak apply at a later date for an STC to
modify any other model included on Type Certificate No. H10WE to
incorporate the same novel or unusual design feature, the special
conditions would apply to that model as well.
Conclusion
This action affects only certain novel or unusual design features
on one model helicopter. It is not a rule of general applicability and
affects only the applicant who applied to the FAA for approval of these
features on the helicopter.
Under standard practice, the effective date of final special
conditions would be 30 days after the date of publication in the
Federal Register; however, the substance of these special conditions
has been subjected to the notice and comment period previously and has
been derived without substantive change from those previously issued.
As it is unlikely that prior public comment would result in a
significant change from the substance contained herein, the FAA
considers prior notice to be unnecessary and finds that good cause
exists to make these special conditions effective upon issuance.
List of Subjects in 14 CFR Part 27
Aircraft, Aviation safety.
The authority citation for these special conditions is as follows:
Authority: 42 U.S.C. 7572; 49 U.S.C. 106(g), 40113, 44701-44702,
44704.
The Special Conditions
Accordingly, pursuant to the authority delegated to me by the
Administrator, the following special conditions are issued as part of
the type certification basis for Robinson Helicopter Company (Robinson)
Model R22 BETA helicopters as modified by Helitrak, Incorporated.
In addition to the requirement of Sec. 27.1309(c), the Helitrak
autopilot (AP) system installation on Robinson Model R22 BETA
helicopters must be designed and installed so that the failure
conditions identified in the functional hazard assessment (FHA) and
verified by the system safety assessment (SSA) are adequately addressed
in accordance with the following requirements.
Helitrak, Incorporated must provide the FAA with a SSA for the
final Helitrak AP installation configuration that will adequately
address the safety objectives established by the FHA and the
preliminary system safety assessment (PSSA), including the fault tree
analysis (FTA). This will show that all failure conditions and their
resulting effects are adequately addressed for the installed Helitrak
AP.
Note 1: The SSA process, FHA, PSSA, and FTA are all parts of the
overall safety assessment (SA) process discussed in FAA Advisory
Circular (AC) 27-1B (Certification of Normal Category Rotorcraft) and
Society of Automotive Engineers (SAE) document Aerospace Recommended
Practice (ARP) 4761 (Guidelines and Methods for Conducting the Safety
Assessment Process on civil airborne Systems and Equipment).
Failure Condition Categories. Failure conditions are classified,
according to the severity of their effects on the rotorcraft, into one
of the following categories:
1. No Effect. Failure conditions have no effect on safety. These
failure conditions would not affect the operational capability of the
rotorcraft or increase crew workload; however, could result in an
inconvenience to the occupants, excluding the flight crew.
2. Minor. Failure conditions do not significantly reduce rotorcraft
safety, and involve crew actions that are well within their
capabilities. Minor failure conditions would include, for example, a
slight reduction in safety margins or functional capabilities, a slight
increase in crew workload, such as, routine flight plan changes, or
result in some physical discomfort to occupants.
3. Major. Failure conditions reduce the capability of the
rotorcraft or the ability of the crew to cope with adverse operating
conditions to the extent that there would be, for example, a
significant reduction in safety margins or functional capabilities, a
significant increase in crew workload or result in impairing crew
efficiency, physical distress to occupants, including injuries, or
physical discomfort to the flight crew. The potential for a failure to
result in a condition characterized as major should be remote with a
probability of occurrence between 1 x 10-\3\ to 1 x
10-\5\ failures/flight hour.
4. Hazardous/Severe-Major.
a. Failure conditions reduce the capability of the rotorcraft or
the ability of the crew to cope with adverse operating conditions to
the extent that there would be:
(1) A large reduction in safety margins or functional capabilities;
(2) physical distress or excessive workload that would impair the
flight crew's ability to the extent that they could not be relied on to
perform their tasks accurately or completely; or
(3) possible serious or fatal injury to a passenger or a cabin
crewmember, excluding the flight crew. The potential that a failure
results in a condition characterized as hazardous/severe-major should
be extremely remote with a probability of occurrence between 1 x
10-\5\ to 1 x 10-\7\ failures/flight hour.
[[Page 13965]]
b. ``Hazardous/severe-major'' failure conditions can include events
that are manageable by the crew by the use of proper procedures, which,
if not implemented correctly or in a timely manner, may result in a
catastrophic event.
5. Catastrophic. Failure conditions result in multiple fatalities
to occupants, fatalities or incapacitation to the flight crew, or
result in loss of the rotorcraft. The potential that a failure results
in a condition characterized as catastrophic should be extremely
improbable with probability of occurrence 1 x 10-\9\
failures/flight hour or less.
Requirements
Helitrak must comply with the existing requirements of Sec.
27.1309 for all applicable design and operational aspects of the
Helitrak AP with the failure condition categories of ``no effect'' and
``minor,'' and for non-complex systems whose failure condition category
is classified as ``major.'' Helitrak must comply with the requirements
of these special conditions for all applicable design and operational
aspects of the Helitrak AP with the failure condition categories of
``catastrophic'' and ``hazardous severe/major,'' and for complex
systems whose failure condition category is classified as ``major.'' A
complex system is a system whose operations, failure conditions, or
failure effects are difficult to comprehend without the aid of
analytical methods (for example, FTA, Failure Modes and Effect
Analysis, FHA).
System Design Integrity Requirements
Each of the failure condition categories defined in these special
conditions relate to the corresponding aircraft system integrity
requirements. The system design integrity requirements for the Helitrak
AP, as they relate to the allowed probability of occurrence for each
failure condition category and the proposed software design assurance
level, are as follows:
Systems with failures that may result in a ``major'' effect must be
shown to be remote and develop software to the Radio Technical
Commission for Aeronautics (RTCA) Document DO-178B, Software
Considerations in Airborne Systems and Equipment Certification, Level C
software design assurance level and must develop complex hardware to
the Radio Technical Commission for Aeronautics (RTCA) Document DO-254,
Design Assurance Guidance for Airborne Electronic Hardware, Level C
hardware design assurance level.
Systems with failures that may result in ``hazardous/severe-major''
effects must be shown to be extremely remote must develop software to
the RTCA Document DO-178B, Software Considerations in Airborne Systems
and Equipment Certification, Level B software design assurance level
and must develop complex hardware to the Radio Technical Commission for
Aeronautics (RTCA) Document DO-254, Design Assurance Guidance for
Airborne Electronic Hardware, Level B hardware design assurance level.
Systems with failures that may result in ``catastrophic'' effects
must be shown to be extremely improbable, and develop software to the
RTCA Document DO-178B, Software Considerations in Airborne Systems and
Equipment Certification, Level A design assurance level and must
develop complex hardware to the Radio Technical Commission for
Aeronautics (RTCA) Document DO-254, Design Assurance Guidance for
Airborne Electronic Hardware, Level A hardware design assurance level.
System Design Environmental Requirements
The AP system equipment must be qualified to the appropriate
environmental level per RTCA Document DO-160F, Environmental Conditions
and Test Procedures for Airborne Equipment, for all relevant aspects.
This is to show that the AP system performs its intended function under
any foreseeable operating condition, including the expected environment
in which the AP is intended to operate. Some of the main considerations
for environmental concerns are installation locations and the resulting
exposure to environmental conditions for the AP system equipment,
including considerations for other equipment that may be affected
environmentally by the AP equipment installation. The level of
environmental qualification must be related to the severity of the
considered failure conditions and effects on the rotorcraft.
Test & Analysis Requirements
Compliance with the requirements of these special conditions may be
shown by a variety of methods, which typically consist of analysis,
flight tests, ground tests, and simulation, at a minimum. Compliance
methodology is related to the associated failure condition category. If
the AP is a complex system, compliance with the requirements for
failure conditions classified as ``major'' may be shown by analysis, in
combination with appropriate testing, to validate the analysis.
Compliance with the requirements for failure conditions classified as
``hazardous/severe-major'' may be shown by flight-testing in
combination with analysis and simulation, and the appropriate testing
to validate the analysis. Flight tests may be limited for ``hazardous/
severe-major'' failure conditions and effects due to safety
considerations. Compliance with the requirements for failure conditions
classified as ``catastrophic'' may be shown by analysis and appropriate
testing in combination with simulation to validate the analysis. Very
limited flight tests in combination with simulation are used as a part
of a showing of compliance for ``catastrophic'' failure conditions.
Flight tests are performed only in circumstances that use operational
variations, or extrapolations from other flight performance aspects to
address flight safety.
These special conditions require that the Helitrak AP system
installed on a Robinson Model R22 BETA helicopter, Type Certificate No.
H10WE, meet these requirements to adequately address the failure
effects identified by the FHA, and subsequently verified by the SSA,
within the defined design system integrity requirements.
Issued in Fort Worth, Texas, on March 10, 2017.
Lance Gant,
Manager Rotorcraft Standard Staff, Aircraft Certification Service.
[FR Doc. 2017-05268 Filed 3-15-17; 8:45 am]
BILLING CODE 4910-13-P
