Federal Aviation Administration Twentieth Edition
1.6.2 VMINI (minimum speed . IFR).
NOTE.
VMINI . Instrument flight mimum speed, utilized in complying with minimum limit speed requirements for instrument flight
NOTE.
The manufacturer may also recommend a minimum IFR airspeed during instrument approach.
1.6.3 VNEI (never exceed speed . IFR).
NOTE.
VNEI . Instrument flight never exceed speed, utilized instead of VNE for compliance with maximum limit speed requirements for instrument flight VNE . Never exceed speed
1.6.4 Maximum approach angle.
1.6.5 Weight and center of gravity limits.
1.6.6 Aircraft configuration limitations (such as aircraft door positions and external loads).
1.6.7 Aircraft system limitations (generators, invert-ers, etc.).
1.6.8 System testing requirements (many avionics and AFCS/AP/FD systems incorporate a self.test feature).
1.6.9 Pilot action requirements (such as the pilot must have his/her hands and feet on the controls during certain operations, such as during instrument approach below certain altitudes).
1.7 It is very important that pilots be familiar with the IFR requirements for their particular helicopter. Within the same make, model and series of helicopter, variations in the installed avionics may change the required equipment or the level of augmentation for a particular operation.
1.8 During flight operations, pilots must be aware of the mode of operation of the augmentation systems, and the control logic and functions employed. For example, during an ILS approach using a particular system in the three.cue mode (lateral, vertical and collective cues), the flight director collective cue responds to glideslope deviation, while the horizontal bar of the “cross.pointer” responds to airspeed deviations. The same system, while flying an ILS in the two.cue mode, provides for the horizontal bar to respond to glideslope deviations. This concern is particularly significant when operating using two pilots. Pilots should have an established set of procedures and responsibilities for the control of flight director/autopilot modes for the various phases of flight. Not only does a full understanding of the system modes provide for a higher degree of accuracy in control of the helicopter, it is the basis for crew identification of a faulty system.
1.9 Relief from the prohibition to takeoff with any inoperative instruments or equipment may be provided through a Minimum Equipment List (see 14 CFR Section 91.213 and 14 CFR Section 135.179, Inoperative Instruments and Equipment). In many cases, a helicopter configured for single pilot IFR may depart IFR with certain equipment inoperative, provided a crew of two pilots is used. Pilots are cautioned to ensure the pilot.in.command and second.in.command meet the requirements of 14 CFR Section 61.58, Pilot.in.Command Profi-ciency Check: Operation of Aircraft Requiring More Than One Pilot Flight Crewmember, and 14 CFR Section 61.55, Second.in.Command Qualifications, or 14 CFR Part 135, Operating Requirements: Commuter and On.Demand Operations, Subpart E, Flight Crewmember Requirements, and Subpart G, Crewmember Testing Requirements, as appropri-ate.
1.10
Experience has shown that modern AFCS/AP/ FD equipment installed in IFR helicopters can, in some cases, be very complex. This complexity requires the pilot(s) to obtain and maintain a high level of knowledge of system operation, limitations, failure indications and reversionary modes. In some cases, this may only be reliably accomplished through formal training.
2.
Helicopter Instrument Approaches
2.1 Helicopters are capable of flying any published 14 CFR Part 97, Standard Instrument Approach Procedures (SIAPs), for which they are properly equipped, subject to the following limitations and conditions:
2.1.1 Helicopters flying conventional (non.Copter) SIAPs may reduce the visibility minima to not less than one half the published Category A landing visibility minima, or 1/4 statute mile visibili-ty/1200 RVR, whichever is greater unless the procedure is annotated with “Visibility Reduction by Helicopters NA.” This annotation means that there are penetrations of the final approach obstacle identification surface (OIS) and that the 14 CFR Section 97.3 visibility reduction rule does not apply and you must take precaution to avoid any obstacles in the visual segment. No reduction in MDA/DA is permitted. The helicopter may initiate the final approach segment at speeds up to the upper limit of the highest approach category authorized by the procedure, but must be slowed to no more than 90 KIAS at the missed approach point (MAP) in order to apply the visibility reduction. Pilots are cautioned that such a decelerating approach may make early identification of wind shear on the approach path difficult or impossible. If required, use the Inoperative Components and Visual Aids Table provided in the front cover of the U.S. Terminal Procedures Volume to derive the Category A minima before applying the 14 CFR Section 97.3(d.1) rule.
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