Equipment & installation requirements

If you want to fly in controlled airspace above flight level 245 after 31 December 2018, you will need to have an operational ADS-B OUT system.

NSS also propose that if you want to fly in controlled airspace at any altitude after 31 December 2021, you will also need to be ADS-B OUT equipped.

The ADS-B OUT mandates will only apply to controlled airspace, as it’s required there for aircraft separation.

However, even if you don’t fly in controlled airspace, there are benefits to equipping with ADS-B OUT:

Binoculars

visibility to other aircraft who have ADS-B IN

situational2

visibility to ATC, especially if you get into trouble

resale

improved resale value of your aircraft

Performance standards

The performance requirements for ADS-B OUT systems are set for the data transmitted by the on-board ADS-B OUT system. The standards ensure that the ADS-B OUT data transmitted by aircraft can be used by the ATS.

The performance standards for ADS-B OUT systems are:

TSO-C166

Please note TSO 166 can only be used for existing installations.
Must provide a NUCp of 4 or greater

TSO-C166a and TSO-C166b

NACp figure must be 5 or greater

NACv figure must be 1 or greater

SDA must be 2 or greater

For TSO-C166a, the SIL must be 2 or greater

For TSO-C166b, the SIL must be 3 or greater

  • Any changes in the NACp, NACv, SDA, and SIL must be broadcast within 10 seconds
  • Changes in the NIC must be broadcast within 12 seconds
  • ADS-B OUT transponders must transmit updates at least once a second

Please note: New installations must meet TSO-C166b requirements. However, if you have an existing installation, it can meet TSO-C166 and TSO- C166a requirements.

Low power ADS-B transponders (LPAT) and Traffic Awareness Beacon System (TABS)

Automatic Dependent Surveillance – Broadcast (ADS-B) Trials Outcomes

In early 2017, the New Southern Sky (NSS) programme contracted BECA to conduct a Feasibility Study to determine the suitability of ADS-B Transponder and GNSS position source equipment that were not certified as per the applicable TSOs listed in NTC91.258. As part of this task it was decided that candidate low power ADS-B transponder (LPAT) options and Traffic Awareness Beacon System (TABS) options would also be examined. Primary drivers for this study included the cost and the size and weight of ADS-B equipment. 

This Feasibility Study was completed and BECA provided a report dated 29 June 2017. The report recommended a plan to test various combinations of non-TSO, LPAT and TABS equipment. The initial plan was as follows;

  1. Desktop Specifications Testing
  2. Benchtop Test of candidate combinations
  3. ‘Real-world’ trials of candidate combinations that had been recommended at Stage 2. 

Stage 1 of the proposal was completed towards the end of 2018, and a proposal to bench test 10 combinations of transponders and GNSS position source equipment was provided in February 2019.

Following this proposal, planned changes to AC43-14 were advised. Whilst these changes to the AC do not include non-TSO devices, they included expanding the AC to include not only ‘all-in-one’ ADS-B equipment, but also to allow some TSO component/combination options. This increased the practical options available (potentially decreasing total upgrade costs), and also reaffirmed CAA messaging that non-TSO’d equipment would not be considered.

Furthermore, it was also confirmed technically with Airways that equipment with a power output of below 75 watts would not be acceptable in the New Zealand surveillance system. It was therefore concluded that further investigation into LPAT options would not be a valid use of resources.  

A decision was made in June 2019 to suspend further investigation due to;

  • The high cost of continuing to investigate non-TSO options against the expected benefits;
  • LPAT options being unsuitable for the New Zealand Surveillance System due to the power output being below 70 watts, while the system is designed on a minimum of 75 watts, and;
  • TABS options being unsuitable for the New Zealand surveillance system due to them being certified to TSO-C199 which is not approved in the CAA Notice of Requirements, and specifically designed for awareness purposes as opposed to being for surveillance purposes.

Furthermore, with the grant announcement pending, it was noted that the perception of cost advantage gained through acquiring non-TSO’d equipment, might not remain valid. The recent announcement of the ADS-B grant to assist operators with the cost of equipping ADS-B has significantly reduced any cost driver for this activity. 

In the background, the unanticipated departure of key project personnel in mid-2019 delayed project closure and the sharing of results. Following the very recent recruitment of a new NSS ADS-B project lead we are now able to share information from this activity, and the NSS team will be actively engaging with all in the sector to clarify messaging in the lead up to the proposed mandate of 31 December 2021. 

For further information regarding ADS-B options please contact an avionics workshop (a list of workshops can be found below), or for any technical queries you can contact the Airworthiness team at the CAA at airworthiness@caa.govt.nz.

Existing Mode S transponder

If you have a Mode S transponder, you’ll need to check with your avionics shop to see if it is ADS-B OUT capable. Not all Mode S transponders are ADS-B OUT capable. Some Mode S transponders can be upgraded to enable extended squitter functionality.

If you are upgrading your Mode A/C transponder, we strongly suggest you buy an ES capable Mode S transponder, even if you don’t currently fly in controlled airspace. You can buy a transponder first and add a GNSS position source later. Make sure that the transponder and the GNSS receiver are compatible.

Cheaper ADS-B systems overseas – buyer beware

New technologies are becoming available, particularly in the area of GNSS receivers. Please check the fine print and make sure the transponder you’re considering broadcasts on 1090 MHz, not 978 MHz. The advertising information is not relevant to New Zealand. UAT will not work in New Zealand.

As we consider options for the proposed mandate for ADS-B in all controlled airspace, we are considering whether and how we can provide for 1090 MHz ADS-B OUT systems that are cheaper and/or lighter. Any new technologies will need to meet the performance standards set in the NTC 91.258.

Potentially acceptable ADS-B equipment lists

Aircraft Owners should discuss their ADS-B equipment selections with their avionic installer.

CAA Notice of Requirements NTC 91.258 makes mention of the FAA’s “approved combination list”. The equipment listed below are on the FAA’s list and are considered to be capable of meeting the requirements of CAA NTC 91.258. However, the presence of a transponder and position source on the list below does not indicate CAA endorsement of that equipment.

The combination of transponder, position source, and the installed software version, will influence the system’s ability to demonstrate compliance with NTC 91.258. Only once the applicant has provided evidence to CAA that their ADS-B installation is compliant with the requirements of NTC 91.258 and that it has been installed in accordance with acceptable technical data will an ADS-B grant claim be considered.

All-in-one ADS-B solutions

You can now buy ADS-B systems that include the transponder and GNSS receiver in a single unit. These are ‘all-in-one-box’ ADS-B systems. However, installing an all-in-one system still involves a modification. They can be cheaper than buying and installing the separate components, and you will have the assurance that the transponder and GNSS receiver are compatible. Some all-in-one systems include ADS-B IN and a touchscreen display.

The GNSS receiver on the all-in-one solutions cannot be used for navigation when operating under Instrument Flight Rules (IFR).

You can discuss all-in-one ADS-B solutions with your avionics supplier.

Make Model
Appareo Stratus ESG
Garmin GNX-375
Garmin GTX-335/335R
Garmin GTX-345/345R
L-3 NGT-9000

Make

Model

ACSS

NXT-700

ACSS

NXT-800

ACSS

XS-950

ACSS

T3CAS

ACSS

NXT-600

Appareo

Stratus ESG

Appareo

Stratus ES

Avidyne

AXP-340

Avidyne

AXP-322

BendixKing

KT-74

BendixKing

MST 70B

Dynon

SV-XPNDR-261

Dynon

SV-XPNDR-262

FreeFlight

FDL-1090-TX

Garmin

GTX-345/345R

Garmin

GTX-23ES

Garmin

GTX-330ES

Garmin

GTX-33ES

Garmin

GTX-35R

Garmin

GTX-330D

Garmin

33H-ES

Garmin

GTX-335/335R

Garmin

GTX-3000

Garmin

GTX-45R

Garmin

GNX-375

Honeywell

TRA-100B

Honeywell

AESU

Honeywell

ISP-80A.1

Honeywell

MRC

Honeywell

XS-858B

Honeywell

XS-852

Honeywell

RCZ-8XXM

Honeywell

KXP 2290A

Honeywell

RCX-8XXM

L-3

NGT-9000

Rockwell Collins

TDR-94/94D-501

Rockwell Collins

TDR-94/94D-550/551

Rockwell Collins

TPR-901-205

Rockwell Collins

ISS-2100

Rockwell Collins

TSS-4100

TQ

KTX2-S

TQ

KTX2-F

Trig-Avionics

TT-22

Trig-Avionics

TT-31

Trig-Avionics

TT-21

Make

 

Model

Accord Technology

 

NexNav Mini

ACSS

 

NXG-900

Aspen

 

NexNav Max

Aspen

 

NexNav Mini

Avidyne

 

Entegra Release 9

Avidyne

 

IFD 410

Avidyne

 

IFD 440

Avidyne

 

IFD 510

Avidyne

 

IFD 540

Avidyne

 

IFD 545

Avidyne

 

IFD 550

BendixKing

 

KSN 765

BendixKing

 

KSN 770

BendixKing

 

KGX 150R

CMC Electronics

 

CMA-3024

CMC Electronics

 

CMA-4024

CMC Electronics

 

CMA-5024

FreeFlight

 

WAAS 1201C

FreeFlight

 

WAAS 1201

FreeFlight

 

WAAS 1203C

Garmin

 

GIA 63H

Garmin

 

GIA 63W

Garmin

 

GIA 64

Garmin

 

GNC 420AW

Garmin

 

GNC 420W

Garmin

 

GNS 400W

Garmin

 

GNS 430AW

Garmin

 

GNS 430W

Garmin

 

GNS 480

Garmin

 

GNS 500W

Garmin

 

GNS 530AW

Garmin

 

GNS 530TAWS

Garmin

 

GNS 530W

Garmin

 

GNX 375

Garmin

 

GPS 175

Garmin

 

GPS 400W

Garmin

 

GPS 500W

Garmin

 

GTN 625

Garmin

 

GTN 635

Garmin

 

GTN 650

Garmin

 

GTN 725

Garmin

 

GTN 750

Garmin

 

GTX 3X5(R) Internal GPS

Honeywell

 

KGS 200

L3

 

NGT-9000 Internal GPS

Rockwell Collins

 

GPS-4000S

Thales

 

Topstar 200

TRIG

 

TN70

Universal

 

UNS-1Espw

Universal

 

UNS-1Ew

Universal

 

UNS-1Fw

Universal

 

UNS-1Lw

Avionic Workshops 

If you’re an avionics specialist but your details are not listed here, please contact us and we’ll add you. 

If you have questions about ADS-B equipment, installation or certification, email them to airworthiness@caa.govt.nz

Email questions about the ADS-B rule or policy to adsb@caa.govt.nz

Installation Process

The process for installing ADS-B on your type certified aircraft is described here.

Please talk to your Part 149 organisation about the process for installing ADS-B on a microlight, glider or amateur built aircraft.

Owners of light sport aircraft should talk to their OEM regarding getting ADS-B Equipped.