Source: https://www.scribd.com/document/3192246/Airbus-A320
Timestamp: 2018-08-18 01:31:38
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Airbus A320 | Aeronautics | Aviation
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TAR 3/21B/18
EXECUTIVE SUMMARY 1. INTRODUCTION 2. FOREIGN TYPE CERTIFICATE DETAILS 3. TYPE ACCEPTANCE CERTIFICATE 4. TYPE DATA 5. ADDITIONAL NEW ZEALAND REQUIREMENTS ATTACHMENTS
1 1 1 2 3 8 10
Rev.0 : 1 September 2003
TAR 3/21B/18 – Airbus A320
New Zealand Type Acceptance has been granted to the Airbus Industries A320 Series based on validation of DGAC Type Certificate Number 180. There are no special requirements for import. Applicability is currently limited to the Model A320-232, which is now eligible for the issue of an Airworthiness Certificate in the Standard Category in accordance with CAR §21.177, subject to any outstanding New Zealand operational requirements being met. (See Section 5 of this report for a review of compliance of the basic type design with the operating Rules.) Additional A320 models will become type accepted after supply of the applicable Technical Manuals, in accordance with the provisions of CAR §21.43(b).
This report details the basis on which Type Acceptance Certificate No.3/21B/18 was granted in the Standard Category in accordance with NZCAR Part 21 Subpart B. Specifically the report aims to: (a) Specify the foreign type certificate and associated airworthiness design standard used for type acceptance of the model(s) in New Zealand; and (b) Identify any special conditions for import applicable to any model(s) covered by the Type Acceptance Certificate; and (c) Identify any additional requirements which must be complied with prior to the issue of a NZ Airworthiness Certificate or for any subsequent operations.
Type Certificate: Certificat de Navigabilite de Type Numéro 180 Issued by: Manufacturer: Model(s): Engine: MCTOW Direction Generale de l’Aviation Civile
IAE V2527-A5 (Mod 23008) [26,500 lb. thrust]
73,500 kg. 71,500 kg. 73,500 kg. 75,500 kg. 77,000 kg. (Basic) (Variant 013 [Mod 31132]) (Variants 008 [Mod 23900], 014 [Mod 31385]) (Variants 003, 009 [Mod 22269], 011 [Mod 30307]) (Variants 007, 010 [Mod 23264], 012 [Mod 30479])
Note: Air NZ A320-232 version ANZ01 is Weight Variant WV012 Noise Category: ICAO Annex 16 Vol.I Part II Chapter 3 (See Noise Type Certificate N180.)
The original certification basis of the Airbus A320 Series is JAR 25 Change 11 (except paragraph 25.207 which remains at Change 10) as elected by the Manufacturer, plus A320 Special Conditions (raised to cover novel or unusual features not addressed by the JAR), Experience Related Conditions (raised to record an agreed text for the A320 Joint Certification Basis when evolution of JAR was in progress under the NPA procedure) and Harmonization Conditions (to record, for the purpose of the A320 Joint Certification Basis, a common understanding with respect to National variant. This should not be confused with the FAA/JAA harmonised regulations). Five Equivalent Safety Findings were granted. These have all been reviewed and accepted by the CAA. This is an acceptable certification basis in accordance with NZCAR Part 21B Para §21.41 and Advisory Circular 21-1A, as JAR 25 is equivalent to FAR 25, which is the basic standard for Transport Category Airplanes called up under Part 21 Appendix C. There are no non-compliances and no additional special conditions have been prescribed by the Director under §21.23. The certification basis of the A320 has been subsequently updated. For weight variants 007 and subsequent and for all new models from and including A320-232, the JAR 25 paragraphs defined above are modified following the elect-to-comply to OP 91/1 (NPA 25C205) by Airbus (DGAC letter 60667/SFACT/N.AT). (See TCDS for affected JAR paragraphs.) This also resulted in deletion of three Special Conditions and Interpretive Materials. In addition, for all models of A320-200 series, the JAR 25 paragraphs were modified following the elect-to-comply with the new discrete gust requirements of JAR 25 Change 14 as amended by NPA 25C-282, by application of the major change titled "Flight Controls - deletion of LAF features from A320", modifications 26334/26335. For the A320-233 and all A320-200 with OCTOPUS AFM (computerised performance data – see CRI F2013), the JAR 25 certification basis is further modified following the Elect-to-comply with SC-F11 and SC-S79. This results in the deletion of five JAR 25 Change 11 paragraphs and three harmonisation special conditions, plus seven JAR 25 paragraphs are upgraded to Change 13 and amended by two other special conditions. The certification basis of the IAE V2500 Series engine is FAR 33, effective February 1, 1965, as amended by 33-1 through 33-14 inclusive. This is the basic standard for aircraft engines called up under Part 21 Appendix C. The engine meets the smoke and hydrocarbon emission requirements of FAR 34 and the carbon monoxide and nitrogen oxide requirements of International Civil Aviation Organization Standards. The V2500A5/D5 engine meets the fuel venting emissions requirements of FAR 34.
The application for New Zealand type acceptance was from the manufacturer, dated 14 November 2002. The first-of-type example was MSN 2085, registered ZK-OJA. Air New Zealand has ordered an initial fleet of fifteen A320-232 aircraft. The A320 is a narrowbody twin turbofan short to medium range large airliner approved for up to 180 passengers.
Type Acceptance Certificate No. 3/21B/18 was granted on 1 September 2003 to the Airbus A320 based on validation of DGAC Type Certificate No.180, and includes the V2500 Series engine based on validation of FAA Type Certificate E40NE. Specific applicability is limited to the coverage provided by the operating documentation supplied. There are no special requirements for import into New Zealand. The A320 was a completely “clean-sheet” design by Airbus which incorporated a number of very advanced technology features with extensive use of electronics. These included the use of fly-by-wire flight controls, with side-stick controllers and artificial envelope protection; electronic autothrottle; and digital pilot’s instrument displays. This resulted in a very complicated certification basis with multiple special conditions being agreed by the JAA and FAA, to take account of the novel design solutions. The A319 is a shortened version for up to 145 passengers, while the A321 has been stretched for up to 220. There are two basic variants of the A320, the Series 100 and the Series 200. The latter has a wing centre-section fuel tank and higher operating weights. The A320 prototype flew in 1984.
The type data requirements of NZCAR Part 21B Para §21.43 have been satisfied by supply of the following documents: (1) Type certificate: DGAC Type Certificate No.180 – Model A320-232 approved Sept 28, 1993 DGAC Data Sheet No.180 at Issue No.13 dated November 2002 FAA TC No E40NE – V2500-A5 and V2500-D5 Series approved Nov 24, 1992 FAA TCDS Number E40NE at Revision 9 dated June 22, 1999 FAA STC No. SE1091NE – Thrust Reverser/Exhaust System – appvd July 6, 1993 FAA Production Certificate No. 114NE – P & W Middletown, CT/RR Derby, UK Production Limitation Record (PC No. 114NE) – Issued May 14, 1999
A319/320/321 Certification Basis – Ref AI/V-C No: 2750/84 Vol.1 (CD-ROM) (3) Certification compliance listing: Airframe: A320 JCB 1 – Compliance Checklist in Regulation Order – Project D2-07 4 Tentative Compliance Report NZCAR 26 – Reference D03013355 Issue 2 30-7-03 Tentative Compliance Report NZCAR 121 Subpart F – Ref. D03012868 25-7-03 Tentative Compliance Report NZCAR 91.531/535 (Oxygen) – D03013732 5-8-03 A320 Special Conditions: EC-G11 – General Definitions – JAR 1 maximum take-off power and/or thrust, which
includes 5 minutes max. continuous period, was extended to 10 minutes in the case of engine failure.
(DGAC-F) SC-G17 – Operational proving flights – (CRI G1001) Airbus were required to carry out an intensive flying program under airline type conditions to show the aircraft, components and equipment was safe for airline operations. (FAA and DGAC require 300 hours of flight testing by a production standard aircraft.) Another 100 hours is required plus 50 hours airline route proving. (CAA-UK) SC-G17 – Operational flight before certification – The UK CAA required 200 hours of route proving plus some additional specific requirements as detailed in Appendix 1. SC-F1 – Stalling and scheduled operating speeds – Because of the low speed stall protection, which cannot be overridden by the pilot, there is no possibility to demonstrate minimum speeds below Vslg. Strict interpretation of this would result in performance penalties. Therefore a compensating formula was accepted, recognising the value of the stall protection safety system. SC-F3 – Cockpit control - motion and effect of cockpit control – JAR 25.143(c) forces
are not appropriate for a side-stick controller. Suitable loads from simulator studies were agreed.
SC-F4 – Static longitudinal stability – The longitudinal control laws used for the A320
provide neutral stability within the normal flight envelope, which is not in strict literal compliance. The control laws have been written to provide positive static longitudinal stability outside the normal flight envelope, to ensure a tendency to return within that envelope.
SC-F6 – Static directional and lateral stability – (CRI F1001) Because of the A320 roll axis design feature in which aileron force commands roll rate, the stabilised portion of constant heading sideslips may result in zero aileron force. However this was accepted because the requirement is for non-negative yaw and roll stability and JAR 25.177(c) allows some discretion in the proportionality between aileron force (or movement) and sideslip. SC-F7 – Flight envelope protection – It was agreed that the JAR 25.399 paragraph on dual control systems is not appropriate to the A320 flight control system with dual side-stick controllers. SC-F8 – Normal load factor limiting – Because of the high speed protection function
limiting increases by decreasing pilot nose-down control authority and providing a progressive noseup command, VD was determined by a specified upset manoeuvre, plus atmospheric variations.
SC-F9 – Dual control system – Reserved for possible issues. HC-F103 – Accelerate Stop Distance, Take-Off Distance and Take-Off Run on a Wet Runway – Wet runway performance will be established in accordance with the rules
specified in the appendix. Subject to satisfactory demonstration of reliability and controllability credit may be taken for the use of reverse thrust in an accelerate-stop on a wet runway.
HC-F114 – Approach and Target Threshold Speeds – Airbus was required to accept the
UK National Variant which introduces additional conditions to the steady gliding approach speed.
SC-A.2.1.1 – Certification Criteria of Aircraft Designed with Systems Interacting with Structural Performance – (CRI A1001) There is a need to provide warnings of the
existence of failure conditions which can affect the structural capability of the aircraft, and for which the associated reduction in airworthiness can be reduced by suitable operational limitations.
SC-A.2.2.2 – Design manoeuvre requirement – The existing requirements need a special
interpretation in cases when relevant flight control laws (due to fly-by-wire) are implemented.
SC-A.2.2.3 – Design dive speed – The introduction of High Speed Protection raised the problem of application of the manoeuvre in JAR 25.335(b)(1) in order to determine VD.
EC-A.3.6.1 – High Lift Devices – The existing JAR 25.345 requirement needed clarifying, especially for the phases of flight definitions of en-route, procedure flight, approach etc. (CAA-UK) SC-A.4.3 – Tuned Gust Loads – The existing British NV special condition
needed some interpretation (tuning law) to be used for vertical gust calculations.
HC-A.4.4 – Manoeuvre Loads – High lift devices deployed – UK CAA required a checked manoeuvre to be considered in conjunction with high lift devices deployed. However it was subsequently accepted it was not a limiting case for the A320. HC-A.4.5 – Braked roll conditions – (CRI A7) This is equivalent to JAR 25.493(d) at Change 13 for dynamic braking. For Project J1W002 (A319 Weight Variant 002 [Mod. 27112]) and all further A320 family variants Airbus elected to comply with Change 14 plus amendment 25/96/1. HC-A.4.6 - Speed control device - Clarification of UK CAA NV for JAR 25.373 was needed. SC-S11 – Limit pilot forces and torques – JAR 25.397(c) is based on a stick and not a wristapplied side-stick. Simulator investigation established an acceptable level of limit pilot forces.
HC-S23 – Standby gyroscopic horizon – The French National Variant was used for JAR
25.1303(b)(4), which is consistent with the FAR and requires a third attitude instrument usable through 360° of pitch and roll. (Gyro precession is not prohibited but should not occur at a pitch attitude closer to the horizontal than 70° and should be completed within an attitude change of 15°.)
HC-S24 – VMO/MMO Warning (setting) – The French NV (and FAR) limit VMO/MMO warning to +6.0 kt and +0.01 was adopted, inclusive of equipment and adjustment tolerances. EC-S30 – Autoflight system – Criteria was needed to cover the highly integrated Flight
Management System and the delayed flap approach function.
SC-S33 – Autothrust system – Certification criteria was required to be established for
autothrottle synchronisation. See also CRI F2001, which added it must be shown by test or analysis that adequate cues are provided to the crew to monitor thrust changes during autothrottle operation.
SC-S52 – Operation without normal electrical power – The JAR was amended to take into account all possible electrical power sources when those dependent on the engines are lost. EC-S54 – Circuit protective devices – Only fuses which are essential for the safety of flight
are replaceable, based on the probability that all CBs or fuses will be blown is low.
HC-S61 – Design Landing Brakes Kinetic Energy – JAR does provide for alternative means of retardation other than wheel brakes, but this option is deleted by the French NV. HC-S62 – Rejected Take-Off Brakes Kinetic Energy – French NV deletion of retardation
other than wheel brakes provides a higher margin of safety than residual temperature before taxiing.
HC-S72 – Flight recorder – UK NV requires a validity check of data. It was agreed to accept
an aural or visual means of pre-flight checking that a recording has been properly done.
SC-S74 – Abnormal attitudes – (CRI F2009) The electronic flight control system fitted to the
A320 introduces changes to typical aircraft handling, pilot techniques, and man-machine interface, and a list of issues was developed in an Appendix. These were subsequently covered in other papers.
SC-S75 – Lightning protection indirect effects – (CRI S4) Special assessment of the
effects of lightning on digital signals for essential systems was required, including partial tests on equipment, global tests on one aircraft, and extrapolation of the results to the “limit case”.
SC-S76 – Effect of external radiations up on aircraft systems – (CRI SE2001) Each
essential system must be designed and installed to ensure the aircraft operation is unaffected by exposure to external radiations. Threat frequency bands and average and peak levels were defined.
SC-S77 – Integrity of control signal – (CRI SM2006) A new criteria was required to ensure
the integrity of electrical digital control signal transmission to the flight control surfaces.
SC-P01 – Full Authority Engine Control System (FADEC) – A guide was produced to cover certification of engines with electronic computers and the integration of such engines on the airframe. This included consideration of significant failures from common problems. Equivalent Safety Findings Made: CRI SM2005 – ESF JAR 25.783(e) – Inspection of the cargo door locking mechanism is by
the position of the handle and vent positions rather than directly, on the basis it can only be operated when the door is fully closed and the vent door can only be closed when all the locks are secured.
CRI SM2007 – ESF JAR 25.783(f) – No means to prevent pressurisation is incorporated in the A320 bulk door on the basis that when it is open there is sufficient gap between the door and the aircraft structure (at the bottom and sides) to prevent overpressure, and when it is nearly closed it will be forced closed by cabin pressure so there is also no unsafe pressurisation level. CRI E 2105 – ESF JAR 25.813(c) – Because of the positioning of the sill height to meet the step down requirements of JAR 25.80(a)(3) and preclude the need for an external supplementary step the outboard seat cushion encroaches on the exit outline. This was accepted on the basis the exit is larger than the minimum, the encroachment will not interfere with the effective opening of the hatch and the cushion can be compressed to the exit outline level. (It is restricted to 18.8” height.) CRI E2107 – ESF JAR 25.807 – Maximum permitted seating capacity of A320 based on exit
types would be 179 passengers. This was extended to 180 on the basis that the front and rear doors are oversize Type I for which tests have shown a capacity of 55 pax is appropriate.
CRI P1002 – ESF Jar 25.933(a) – For the A320 the thrust reverser restow is automatically
activated by the FADEC upon detection of an unlocked or deployed condition, and the in-flight restow function is deleted. This was accepted on the basis that inadvertent in-flight deployment is extremely improbable plus deletion improves protection against it, safety assessments do not depend on the in-flight restow function and failure on the ground will be covered or alerted to the crew.
Other CRI of Interest: CRI F-9 AFM Supplement for Operation on Narrow Runways – Some special conditions were applied to publish data covering operations down to 30m width runways. These include lower permitted deviation in calculation of VMCG; reduced maximum crosswind component; and tighter MEL requirements for systems which can affect lateral control. (Mod. 30397 fitted.) CRI SE8 GPS Primary Navigation Means (LITTON) – Sets out the criteria for airworthiness approval of the GPS sensor and Litton “AIME” (Autonomous Integrity Monitoring Extrapolation) concept integrated in the AIDRS as a sole-means navigation system.
CRI SE9 GPS Primary Navigation Means (HONEYWELL) – Sets out the criteria for
approval of a multi-sensor navigation system, including GPS Sensor Unit, for use in oceanic/remote, en-route, terminal and approach phases of flight, excluding precision approaches and localiser/LDA.
CRI SE10 RVSM Airworthiness Approval – JAA Information Leaflet No. 23/1 dated July, 1996, used as the requirement for RVSM certification for the A319/A320/A321. CRI SE11 EGPWS Airworthiness Approval – Establishes the certification objectives and
acceptable means of compliance in the absence of existing JAA policy or guidance material.
CRI 2004 Discrete Gust Requirements – The Load Alleviation Function was introduced to the A320 type design to alleviate the discrete gust loads. Then for the later A320 derivatives the harmonised gust requirements from NPA 25-205C have been used. Engine: Summary of Compliance Report for the Certification of the IAE V2533-A5 Series Engine – Report IAE-0198 dated August 21, 1996 Summary of Compliance Report for Certification of the International Aero Engines V2500-A5 Thrust Reverser System – Report IAE-0182 Issue 01 – June 18, 1993 (4) Flight manual: DGAC-Approved Flight Manual Airbus Model: A320-232 (ANZ) CAA Accepted as AIR 2836
(5) Illustrated Parts Catalogue: A320 IPC with Additional Cross Reference Tables (ACRT) – Air NZ (CD-ROM) (6) Maintenance manual and service data for aircraft, and engine: A320 Aircraft Maintenance Manual (AMM) – Air NZ (CD-ROM) A318/A319/A320/A321 Maintenance Review Board Report/Maintenance Program A318/A319/A320/A321 Maintenance Planning Document (MPD) Airbus has also provided the CAA with access to Airbus OnLine Services. This contains a full range of Airbus Engineering Technical Documentation; General Information and Events; and Spare Parts and Repair Data. IAE V2500 A1/A5 IETM CD-ROM – Contains the following: Engine Manual CMM Electrical harnesses and Cables Time Limits Manual CMM Miscellaneous Mechanical CMM Tubes, Hoses & Ducts Engine Illustrated Parts Catalogs CMM Fuel Nozzles Standard Practices/Processes Manual Service Bulletins and Index Overhaul Processes and Consumables Index (7) Agreement from manufacturer to supply updates of data in (4), (5) and (6): CAA 2171 from Airbus Chief Airworthiness Engineer dated 25 August 2003 CAA 2171 from Director Customer Services IAE dated 10 June 2002
(8) Additional Information: A320-200 Standard Specification – Ref: D 000 02000 Iss.5 Rev.1 dated 30.04.01 Airbus Industrie Certification Doc Number 00D000A0005/C21 Issue 02 – 18.11.93 – A320-232 Type Design Definition (Modifications not included in Mod. 21999) Airbus Training 07/01/03 – Aircraft Fleet Particulars – Air NZ Ltd Version ANZ01 A318/A319/A320/A321 Quick Reference Handbook (QRH) – Air New Zealand A318/A319/A320/A321 FCOM (AirNZ) – Vol.1 – Systems Description A318/A319/A320/A321 FCOM (AirNZ) – Vol.2 – Flight Preparation A318/A319/A320/A321 FCOM (AirNZ) – Vol.3 – Flight Operation A318/A319/A320/A321 FCOM (AirNZ) – Vol.4 – FMGS Pilot’s Guide A318/A319/A320/A321 Master Minimum Equipment List – Air NZ
PARA: B.1 B.2 REQUIREMENT: Marking of Doors and Emergency Exits Crew Protection Requirements - CAM 8 Appdx. B # .35 MEANS OF COMPLIANCE: JAR §25.0811 – See also D03013355 for external markings Not Applicable – Agricultural Aircraft only
PARA: C.1 C.2.1 C.2.2 C.2.3 C.3.1 REQUIREMENT: Doors and Exits Additional Emergency Exits - per FAR 23.807(b) @ 10.5.93 Emergency Exit Evacuation Equipment – Descent means Emergency Exit Interior Marking - Size/self-illuminating Landing Gear Aural Warning - Automatic Flap Linking MEANS OF COMPLIANCE: JAR Part 25 §25.0809(b) and (d) Meets JAR Part 25 Certification requirements (The A320 is also certificated to FAR Part 25 with minimal differences) JAR Part 25 §25.0809(f) JAR Part 25 §25.0811(e) and JAR Part 25 §25.0812(b) JAR Part 25 §25.0729(e)
Appendix D - Air Transport Aircraft - More than 19 Pax
PARA: D.1.1 D.1.2 D.2.1 D.2.2 REQUIREMENT: Exit Types - Shall be per FAR 25.807 @ 29.03.93 Floor Level Exits – Definition Additional Emergency Exits - Must meet requirements Emergency Exit Access - All Required Exits must have: Passageway unobstructed 500m wide between areas and leading to a Type I or II Exit; Crew assist space; Access to Type III or IV Exit is unobstructed Internal doors must be able to be latched open – placarded Except for curtains each passageway between pax. cabins must be unobstructed; No door may be installed. Emergency Exit Operating Handles - Markings/Lighting Emergency Exit Evacuation Equipment – Descent means MEANS OF COMPLIANCE: JAR Part 25 §25.0807 JAR Part 25 §25.0807(a) Not Applicable – No ventral exits fitted
D.2.3 D.2.4 D.2.5 D.2.6
JAR Part 25 §25.0813(a) JAR Part 25 §25.0813(b) JAR Part 25 §25.0813(c) JAR Part 25 §25.0813(d) JAR Part 25 §25.0813(f) JAR Part 25 §25.0813(e) JAR Part 25 §25.0811(e) JAR Part 25 §25.0809(f) – Inflatable slide rafts installed in accordance with Mod. 20233 – See SS Section 25-62.00.00 Emergency Exit Escape Route - Must be slip resistant JAR Part 25 §25.0803(e) Emergency Lightning JAR Part 25 §25.0812(e) (a) Switch Provisions; Uninterrupted Power; Last 10 min. JAR Part 25 §25.0812(g) – Floor proximity escape path (b) Descent Illumination - Automatic and Independent marking system installed in accordance with Mod. 20457 NOTE: See CRI E8 for special conditions applied to photoluminescent EEPMS (Emergency Escape Path Marking System)
D.2.7 D.2.8 D.2.9
D.2.10 D.3
Emergency Interior Lighting - independent supply; min. illumination; incl. floor proximity escape path markings Emergency Exterior Lighting - in effect 30.04.72 or later Emergency Exit Interior Marking - Clear; instructions Location signs above routes, by exits, on bulkheads - Meets provisions in effect 30 April 1972, or later Minimum brightness 250 microlamberts Emergency Exit Exterior Markings - 2” contrasting band; opening instructions in red or bright chrome yellow; Lavatory Fire Protection - Placards; Exterior ashtray; Waste Bin - Sealed door; built-in fire extinguisher; smoke detector system with external warning Materials for Compartment Interiors - T/C after 1.01.58: (b) Manufactured 20/8/88 - 20/8/90 - Meet heat release requirements of FAR 25 at 20.08.86 increased to 100/100 Manufactured after 20/8/90 - Meet heat release rate and smoke tests of FAR Part 25 in effect 26.09.88 (c) Seat cushions (except flightdeck) must be fireblocked Cargo and Baggage Compartments - T/C after 1.01.58: (a) Each C or D compartment greater than 200 cu ft shall have liners of GFRS or meet FAR 25 in effect 29.03.93 (c) Liners shall be separate from the aircraft structure
JAR Part 25 §25.0812(c) JAR Part 25 §25.0811(c) JAR Part 25 §25.0812 JAR Part 25 §25.0811(b) and (d)
JAR Part 25 §25.0812(b)(1)(i) JAR Part 25 §25.0811(f) – External livery applied in accordance with Mod. 33473 AD DCA/GEN/7A (FAA AD 74-08-09R2); DCA/GEN/16 JAR Part 25 §25.0791(d) – See SS Section 26-17.00.00 JAR Part 25 §25.0853(d) and (e) – See SS §26-25.00.00 DCA/GEN/15 [FAR 25 §25.853(c) Amdt 59 Eff 26/11/84]; DCA/GEN/21 [FAR §121.312(a) Amdt 121-198 Eff 26/9/88] Airbus advise flammability requirements for Mod. 33063 are JAR 25.0853(a-1) at Change 13 and JAR 25.0853(c) at Ch.12 (see draft Cabin Modification Approval Sheet and email from Airbus Change Approval Manager dated 19.08.03) DCA/GEN/22 [FAR Part 25.§855 Amdt 25-32 Eff May 1, 1972 & Part §121.314 Amdt 121-202 Eff Mar 20, 1989] See CRI E2005 – Cargo compartments are all Class C. All cargo hold panels are constructed of glass fibre satisfying FAR 25 Amdt 60 and UK CAA AN 80. (ANZ01 Compliance achieved by Mod.s 20066-71 + 20879 + 20938 + 24344)
PARA: 91.505 91.507 91.509 Min. VFR REQUIREMENT: Shoulder Harness if Aerobatic; >10 pax; Flight Training Pax Information Signs - Smoking, safety belts fastened JAR §25.1303(b)(1) - §34-13.11.00 (1) ASI (2) Machmeter JAR §25.1303(c)(2) - §34-13.11.00 (3) Altimeter JAR §25.1303(b)(2) - §34-13.10.00 (4) Magnetic Compass JAR §25.1303(a)(3)) - §34-22.00.00 (5) Fuel Contents JAR §25.1305(a)(2) - §28-42.00.00 (6) Engine RPM JAR §25.1305(c)(3) - §77-00.01 (7) Oil Pressure JAR §25.1305(a)(4) - §77-00.02 (1)Turn and Slip See HC-S23 (2) Position Lights JAR §25.1389 - §33-41.00.00 JAR §25.1303(b)(5) (1) Gyroscopic AH JAR §25.1303(b)(6) (2) Gyroscopic DI (3) Gyro Power Supply JAR §25.1331(a) (4) Sensitive Altimeter JAR §25.1303(b)(2) IFR Communication JAR Part 25 §25.1307(d) and (e) and Navigation See Standard Specification (SS) Equipment for further details: MEANS OF COMPLIANCE: JAR Part 25 §25.0785(g) – See SS Section 25-10.11.07 JAR Part 25 §25.0791 Amdt 25-51 Eff Mar 6, 1980 N/A – Turbojet (8) Coolant Temp JAR §25.1305(a)(6) §77-00.02 (9) Oil Temperature (10) Manifold Pressure N/A – Turbojet (11) Cylinder Head Temp. N/A – Turbojet (12) Flap Position JAR §25.0699 - §27-85.00.00 (13) U/c Position JAR §25.0729(e) - §32-60.00.00 (14) Ammeter/Voltmeter JAR §25.1351 (b)(6) §24-04.03.00 (3) Anti-collision Lights JAR §25.1401 - §33-48.00.00 (4) Instrument Lighting JAR §25.1381 - §33-13.00.00 JAR §25.1303(a)(1) §34-13.12.00 (5) OAT (6) Time in hr/min/sec JAR §25.1303(a)(2) §31-21.00.00 (7) ASI/Heated Pitot JAR §25.1323(e) §30-31.01.00 (8) Rate of Climb/Descent JAR §25.1303(b)(3) §34-13.13.00 Dual Collins HF900 installed by Mod.s 25618/9 §23-12.01.00 Aircraft shall have 3x VHF Data Radio System §34-10.00.00 Triplicated Air Data/IRS system iaw ARINC 738 §34-51.00.00 2x DME interrogators fitted iaw ARINC 709 §34-53.00.00 ADF Receiver fitted generally iaw ARINC 712 §34-55.00.00 2x VOR Receiver fitted iaw ARINC 711 Three first aid kits fitted under Cabin Mod. 33063 JAR Part 25 §25.851(a) – 6 fire extinguishers fitted per Mod. 33063 (1 in cockpit, 5 in cabin [3x halon, 2x water]) Fitted as standard – See Standard. Spec. Section 25-61.01.01 2 Megaphones fitted under Cabin Mod. 33063 RESCU 406AF P/N 115268-1 installed by Mod. 32015 JAR Part 25 §25.1441 through §25.1450 EROS quick-donning full-face masks fitted by Mod. 31458/9 Second set of Portable PBE fitted in cockpit by Mod. 33065 9 Scott Aviation portable O2 bottles are installed by Cabin Mod. 33063, on quick release attachments, for use by FA. 115 cu. ft (3256 litre) Scott cylinder fitted by Mod. 31112. Provides >120 min for cockpit crew; designed for following
91.511 Night 91.517 IFR
91.523 Emrgcy Eqpmt.
(a) More Than 10 pax - First Aid Kits per Table 7 - Fire Extinguishers per Table 8 (b) More than 20 pax - Axe readily acceptable to crew (c) More than 61 pax - Portable Megaphones per Table 9 ELT - TSO C91a after 1/4/97 (or replacement) Oxygen Indicators - Volume/Pressure/Delivery (1) Flight Crew Member On-Demand Mask; 15 min PBE (2) 1 Set of Portable 15 min PBE (3) Crew Member - Pax Oxygen Mask; Portable PBE 120l (4) Spare Oxygen Masks/PBE (5) Min Quantity Supplement Oxygen (6) Required Supplemental/Therapeutic Oxygen
91.529 91.531 91.535 Press. A/c
flight profile after de-pressurization – 1 min at FL398, 4 min to descend to FL180, 7 min at FL180 and 1 min to descend to FL100. (See D03013732) Cabin Mod. 33063 installs a total of 216 masks in the cabin. TC Maximum Altitude is 39,100 feet (pressure altitude) Mod. 30748 extends this to 39,800 ft. (Standard on ANZ01) Masks deploy automatically when cabin altitude exceeds 14,000 ft. There is a manual override button in the cockpit. SSR Transponder and Altitude Reporting Equipment Dual Gables ATC/TCAS control panel fitted per Mod. 26670 §34-52.00.00 2x Mode S Transponders fitted iaw ARINC 718 Altitude Alerting Device - Turbojet or Turbofan Installed as part of Central Warning System (CWS) – Auto call-outs covered by Mod.33061 – See SS Section 34-13.20.00 Assigned Altitude Indicator Not applicable when altitude alerter fitted ELT Installation Airbus confirms Honeywell ELT RESCU 406AF P/N 1152682-1, capable to send a distress Requirements signal on 121.5, 243 and 406 MHz frequencies and installed by Mod 32015 on ANZ fleet, is compliant with applicable requirements from NZCAR 91 Appendix A.15 (See email 21.08.03) Above FL250 - Quick-Donning Crew On-Demand Mask - Supplemental O2 Masks for all Pax/Crew - Supplemental Mask in Washroom/Toilet Above FL300 - Total Outlets Exceed Pax by 10% - Extra Units Uniformly Distributed - Automatically Presented Above FL140 - Manual Means of Deploying Pax Masks
Civil Aviation Rules Part 121 Subpart F - Instrument and Equipment Requirements
PARA: 121.355 121.357 121.359 121.361 121.363 121.365 121.367 121.369 121.371 (App B.5) 121.373 (App B.6) REQUIREMENT: MEANS OF COMPLIANCE: Additional Instruments (Powerplant and propeller) JAR Part 25 is equivalent to a Part 21 Appendix C standard Additional Eqpt - Windscreen Wiper, Door, Key, JAR §25.1307(f); Air NZ aircraft have a reinforced cockpit Placard door fitted in accordance with Mod. 32088 Night Flight - Landing Light, Light in each pax cabin JAR §25.1385 – See SS Sections 33-25.00.00, 33-42.00.00 IFR Operations Speed, Alt, spare bulbs/fuses JAR §25.1357(f) Flights over water Liferafts Operating Rule – Compliance to be determined by Operator Emergency Equipment Per §91.523 and EROPS kit Operating Rule – Compliance to be determined by Operator Protective Breathing JAR §25.1439 – EROS MF20-534 full-face masks fitted per Mod. 31458/9 meet TSO C99 Equipment 2x Essex MR100 PBE fitted per Mod. 28706 and 33065 meet TSO C116 Pax Address, Intercom Meets FAR § 121.318 and 319. Cabin Intercommunication Data System incorporating crew intercom and pa installed in accordance with Mod. 33069 Cockpit Voice JAR §25.1457 – Honeywell SSCVR P/N 980-6022-001 installed in accordance with Mod. 30308 Recorder meets TSO C123 – §23-71.01.00 Solid State CVR iaw ARINC 757 shall be installed Flight Data Recorder JAR §25.1459 – Honeywell SSFDR P/N 980-4700-042 installed in accordance with Mod. 26701 meets TSO C124 (Upgraded to 88-parameter per Mod.31335 – equivalent to compliance with FAR 121.344(f) effective August 19, 2002) – A mandatory recording system consisting of FDIU, SSDFDR and LA (linear accelerator) shall be installed meeting ARINC 747 NOTE: FAR 121 Appendix M accepted as an alternative spec. to NZCAR 121 Appendix B Table 2 (See DW1057045) Additional Attitude Air NZ aircraft have the single Thales Integrated Standby Instrument System (ISIS) fitted in Indicator accordance with Mod. 27620 Weather Radar Collins P/N 622-5132-623 X-band Weather Radar with Doppler mode (turbulence detection) fitted per Mod.32740 meets TSO C63c - §34-41.00.00 Single X-band weather radar system generally in accordance with ARINC 708 shall be fitted Ground Proximity Allied Signal P/N 965-1676-001 EGPWS fitted per Mod.31374 meets TSO C92c and C151a – Warning System Peaks, Geometric Altitude, and Obstacle functions are activated respectively by Mod.s 31367, 31426 and 31375 - §34-48.00.00 Enhanced GPWS generally iaw ARINC 723 shall be installed
121.375 121.377 (App B.8) 121.379 (App B.9)
The following documents form attachments to this report: Photographs first-of-type example A320-232 MSN 2085 ZK-OJA Three-view drawing Airbus Industries Model A320-200 Series Copy of DGAC Type Certificate/Data Sheet Number 180 Sign off
David Gill Team Leader Airworthiness
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