TEB SOP: Difference between revisions

Latest revision as of 00:01, 27 March 2026

New York ARTCC

Standard Operating Procedure — Teterboro Airport

Rev. 7 — Revised: 2026-03-27

Area at a glance

ICAO Code	Airport Name	Airspace
KTEB	Teterboro	D

Purpose: This document prescribes the procedures to be utilized for providing air traffic control services at the Teterboro Air Traffic Control Tower (ATCT). The procedures described herein are supplemental to the New York ARTCC Standard Operating Procedures and FAA Order JO 7110.65.

Distribution: This order is distributed to all New York ARTCC personnel.

Procedural Deviations: Exceptional or unusual requirements may dictate procedural deviations or supplementary procedures to this order. A situation may arise that is not adequately covered herein; in such an event use good judgment to adequately resolve the problem.

Departure Sequencing

Teterboro is a satellite of Newark Airport. However, Teterboro is still a minor airport, and thus may be staffed by any New York ARTCC member. TRACON service to Teterboro is provided by EWR sector of New York TRACON (N90).

Operational Positions

Position	Callsign	Radio Name	Frequency	Identifier
Clearance Delivery	TEB_DEL	Teterboro Clearance Delivery	128.050
Ground Control	TEB_GND	Teterboro Ground	121.900
Local Control	TEB_TWR	Teterboro Tower	119.500	4J
ATIS	KTEB_ATIS		132.025

Position	Callsign	Radio Name	Frequency	Identifier
Clearance Delivery	EWR_DEL	Newark Clearance Delivery	118.850
Ground Control	EWR_GND	Newark Ground	121.000
Local Control	EWR_TWR	Newark Tower	118.300	4Z
Class Bravo Airspace (CBA)	EWR_B_TWR	Newark Tower	127.850	4B
ATIS	KEWR_ATIS		134.825

Position	Callsign	Radio Name	Frequency	Identifier
Clearance Delivery	MMU_DEL	Morristown Clearance Delivery	128.600
Ground Control	MMU_GND	Morristown Ground	134.200
Local Control	MMU_TWR	Morristown Tower	118.100	45
ATIS	KMMU_ATIS		124.250

Position	Callsign	Radio Name	Frequency	Identifier
Clearance Delivery	CDW_DEL	Caldwell Clearance Delivery	121.100
Ground Control	CDW_GND	Caldwell Ground	121.900
Local Control	CDW_TWR	Caldwell Tower	119.800	41
ATIS	KCDW_ATIS		135.500

Sector	Callsign	Frequency	Identifier	Combined Sector
LaGuardia Departure	LGA_DEP	120.400	1L	Primary Departure
HAARP	LGA_V_APP	120.800	1V	Primary Approach (LGA_APP when combined)
Final Vector	LGA_F_APP	134.900	1F	1V
NYACK	LGA_Y_DEP	120.550	1Y	1X (1L if NOBBI is not covered)
EMPYR	LGA_D_APP	127.300	1D	1V
NOBBI	LGA_X_APP	126.400	1X	1V

Sector	Callsign	Frequency	Identifier	Combined Sector
Final Vector	JFK_A_APP	132.400	2A	2K
CAMRN	JFK_G_APP	128.125	2G	2K
Kennedy Departure	JFK_DEP	135.900	2J	Primary Departure
ROBER	JFK_K_APP	125.700	2K	Primary Approach (JFK_APP when combined)
Kennedy Satellite	JFK_M_APP	118.400	2M	2K

Sector	Callsign	Frequency	Identifier	Combined Sector
Calverton	ISP_N_APP	120.050	3N	Primary TRACON (ISP_APP if combined)
Islip	ISP_H_APP	134.550	3H	3N
SEALL	ISP_R_APP	133.100	3R	3N
VIKKY	ISP_O_APP	128.625	3O	3N
LOVES	ISP_Z_APP	124.075	3Z	3N
BEADS Low	ISP_I_APP	118.950	3I	3N
BEADS High	ISP_B_APP	125.975	3B	3N

Sector	Callsign	Frequency	Identifier	Combined Sector
Newark Departure	EWR_DEP	119.200	4N	Primary Departure
Yardley	EWR_P_APP	128.550	4P	Primary Approach (EWR_APP when combined)
Final Vector 22	EWR_M_APP	125.500	4M	4P
Final Vector 4	EWR_Q_APP	125.500	4Q	4P
North Arrival	EWR_A_APP	120.150	4A	4P
MUGZY	EWR_U_APP	127.600	4U	4P
ZEEBO	EWR_S_APP	123.775	4S	4U
METRO	EWR_H_APP	132.800	4H	4U

Sector	Callsign	Frequency	Identifier	Combined Sector
East	NY_LE_DEP	126.800	5E	5W
West	NY_LW_DEP	120.850	5W	Primary TRACON (NY_L_APP when combined and covering Catskill)
North	NY_LN_DEP	118.175	5T	5W
South	NY_LS_DEP	124.750	5S	5W
Catskill	SWF_APP	132.750	5H	5W

ATCT

Clearance Delivery

Exit Gate	Exit	Scratchpad	Radial(4s)	Radial(22s)
West	SBJ	SBJ
	BIGGY	BIG	SBJ237
	LANNA	LAN	PTW 059	SBJ 274
	PARKE	PAR	BWZ 250	SBJ302
	ZIMMZ	ZIM	RNAV only
	ELIOT	ELI	SAX 252	ETX
	NEWEL	NWL	SAX 264
North	SAX	SAX
	COATE	COA	SAX 311
	NEION	NEI	LGA 322
	HAAYS	HAY	HUO 145
	GAYEL	GAY	DPK 320
	BREZY	BRE	IGN 217
East	GREKI	GRE	CMK 057
	MERIT	MER	LGA 055
	BAYYS	BAY	BDR 054
	BDR	BDR
South	DIXIE	DIX	COL 192
South	WHITE	WHI	COL 204

Notes

While it is recommended that aircraft be rerouted to comply with turbojet and props only departure gates, it is not required.
ZIMMZ is for use by RNAV equipped turbojet aircraft only.
For aircraft using DIXIE or WHITE as their exit, change the route to read as ELVAE COL DIXIE or ELVAE COL WHITE, respectively. The scratchpad entry will still be selected based on the exit, using the table on the right.
NECCK is the RNAV replacement for the COL VOR.
BREZY is only a valid exit if either followed by V39 CMK GREKI/MERIT/BAYYS/BDR or when the destination is within the LaGuardia sector of N90 (i.e. LGA, HPN or DXR).
RNAV equipped aircraft are aircraft with the equipment suffix /Z, /L, /Y, /I ,/V, /S OR /G.

Position	Frequency	Code
EWR_DEP	119.200	4N
EWR_G_APP	127.600	4U
EWR_N_APP	120.150	4A
EWR_APP	128.550	4P
NY_CTR	125.325	N56

Note that this table only serves as a guide. The actual departure frequency has to be determined based on coordination with the other online controllers. Controllers identifying as NY_APP provide service for more than one N90 TRACON and may or may not provide coverage for EWR TRACON airspace. Coordinate with the controller to determine coverage.

Airway	Join
V3	BIGGY V3
V6	SBJ V6
V16	ELVAE COL DIXIE V16
V30	LANNA V30
V188	BAYYS SEALL V188
V252	HAAYS HUO V252
J6	PARKE J6
J48	LANNA J48
J60	NEWEL J60
J64	NEWEL J60 DANNR RAV J64
J95	GAYEL J95
J132	NEION J223 CORDS J132
J223	NEION J223
Q22	BAYYS Q22
Q42	ZIMMZ Q42
Q75	North: GREKI Q75 South: BIGGY Q75
Q409	ELVAE COL WHITE Q409
Q436	COATE Q436
Q480	North:GREKI BAF Q480 South:ZIMMZ Q42 SPOTZ Q480
Q812	GAYEL Q812
Q818	GAYEL Q818
Y481	ELVAE COL DIXIE Y481
Y482	ELVAE COL DIXIE Y482

Filed Exit	Amendment
ARD	BIGGY
BAYYS	BREZY V39 CMK BAYYS
BDR	BREZY V39 CMK BDR
BOS	MERIT HFD PUT BOS
CFB	GAYEL J95 CFB
CYN	ELVAE COL WHITE T224 CYN
DIXIE	ELVAE COL DIXIE
EMI	LANNA J48 EMI
ENE	BREZY V39 CMK GREKI JUDDS MRTIN ENE
ETX	LANNA V30 ETX
GREKI	BREZY V39 CMK GREKI
HFD	BREZY V39 CMK MERIT HFD
HNK	GAYEL Q812 HNK
HUO	HAAYS HUO
JUDDS	BREZY V39 CMK GREKI JUDDS
KINGG	ELVAE COL DIXIE Y481 KINGG
LRP	PARKE J6 LRP
MARTN	BREZY V39 CMK GREKI JUDDS MARTN
MERIT	BREZY V39 CMK MERIT
MXE	BIGGY Q75 MXE
OWENZ	ELVAE COL DIXIE Y481 OWENZ
PSB	NEWEL J60 PSB
PTW	LANNA J48 PTW
PUT	BREZY V39 CMK MERIT HFD PUT
RAV	NEWEL J60 DANNR RAV
SQUAD	ELVAE COL DIXIE Y482 SQUAD
WHITE	ELVAE COL WHITE

Routing to certain airports in ZNY, ZDC and ZBW ARTCCs is pre-coordinated through letters of agreement (LOA). These routes have been added to the Preferred Route Database(PRD). Therefore, PRD must be referenced for all departures.

Initial Altitude

Runway(s)	Altitude
1, 6, 19	2000'
24	1500'

If an aircraft will not be using a departure procedure, then issue initial altitudes as per the table on the right.
If LGA is using ILS 13, then initial altitude must be 1,700'.

East Gate Departures

All aircraft filing for GREKI, MERIT, BAYYS, CMK, or BDR should be re-routed via BREZY V39 CMK direct to the exit point then as filed.

TEB#

This is the default departure procedure to be used by aircraft departing Teterboro (pronounced Teterboro (Version #), such as Teterboro Four). It should always be assigned, unless the pilot indicates not possessing charts, in which case no departure procedure should be assigned and the pilot should be cleared to their destination via radar vectors to a proper TEB exit.

This departure procedure has a published altitude restrictions for runway 24. Use the the following as a guide:

For aircraft departing Runway 24 when LGA is NOT landing ILS 13: Climb via SID
For all other runway configurations: Maintain 2000

RUUDY#

This is an RNAV Departure valid only for Runway 24.

Because this departure procedure has published altitude restrictions, the phrase "climb via SID" must be included in the IFR clearance, as explained in FAA Order JO 7110.65 para 4-5-7.

Teterboro is located inside Class Delta Airspace but it is in close proximity to New York Class Bravo Airspace.

All VFR traffic must establish two-way radio communications.

See the VFR Operations document for detailed explanation of applicable VFR procedures.

Ground

Departure Sequencing

Exit Gate	Exits
North	COATE, NEION, HAAYS, GAYEL, SAX
East	GREKI, MERIT, BAYYS, BDR
West	NEWEL, ELIOT, ZIMMZ, PARKE, LANNA, BIGGY, SBJ
South	WHITE, DIXIE

Aircraft should be sequenced to depart in the following order:
1. By alternating gate group.
2. If not the above, then by alternating exit.
3. If not the above, then by aircraft type largest to smallest.
Coordinate with Local Control at the beginning of a shift if departures will “monitor” or “contact.” Also ensure to coordinate how Local Control would like departure sequence forwarded.
Before switching departing aircraft to Local Control frequency, ensure the aircraft is aware of his or her number for takeoff. This is important for engine start and warm up times.

Taxi Routes

As the taxiway system is simple, there are no pre-defined routings.
When the above is not available, hold departures on the ramp until the inbound aircraft is clear of the outbound aircraft. You may use conditional taxi instructions to accomplish this.

Tower

Tower Procedures

Releases

Releases from Teterboro is requested per aircraft unless N90 permits blanket releases.
In order to depart Teterboro under an IFR flight plan, TRACON must issue a release for departure. Departure restrictions such as release times and clearance void times are necessary to separate departures from other traffic in the airspace or to regulate the departure flow. Through land line communications, tower will obtain a release from TRACON for a specific flight after which tower can then issue departure instructions and takeoff clearance

Separation

The standard departure separation technique to be used is anticipated radar separation. Only use timed separation if the pilot requests it.

Radar

Teterboro ATCT is equipped with a Remote ARTS Color Display (RACD) and is not certified for any approach control services. By agreement with N90, this tower will not radar identify departing IFR aircraft and will instruct a departure to contact departure control once the aircraft appears to be clear of any traffic.

Runway Selection

If TEB is staffed but the configuration at EWR is not known, use the following table.

Wind Speed (kts)	Direction (°M)	Depart	Land
0-4	Any		If EWR is on a northeast flow then use Runway 6 otherwise use Runway 24
5+	331-100	1	6
	101-219	19	19
	220-280	24	19
	281-330	24	24

If Newark lands south, then TEB must be in the following configuration regardless of the winds: land runway 19, depart runway 24.

If Newark lands north, then TEB must be in the following configuration regardless of the winds: land runway 6, depart runway 1.

Regardless of the wind speed or direction, when the ceiling is less than 500' or the visibility is less than 1.25 SM and not landing runway 6, then you must switch to runway 6.

This visibility is calculated using category C aircraft which have a final approach speed of between 121 and 140 knots.

Runway	Heading
1	040 then 280 at 2.3 DME
6	040 then 280 at 2.3 DME
19	runway heading then 280 at 900'
24	runway heading then 280 at 1,500'

Runway	Heading	Altitude
1	330	2,000’
6	330	2,000’
19	290	1,500’
24	280	1,500’

Airspace

Class Delta

Teterboro owns 2,500’ and below in the very northern section of the airspace. The tower owns 1,400’ and below in the very eastern section of the airspace west of the GW bridge. The tower owns 1,700’ and below in the rest of the airspace since the floor of the class BRAVO is 1,800’.

All VFR aircraft must be radar identified and issued a discreet squawk code while operating within the tower's airspace.

Departures

All departures whose destination is known to be LGA, EWR, LDJ, MMU or CDW should remain on the ground until an approval has been received from the respective Tower that they are able to accept the aircraft into their airspace.

VFR reporting points

Pilots will often report a geographical location or checkpoint to verify and announce their location and position in relation to the field. Most VFR checkpoints are depicted on sectional aeronautical and terminal area charts.

Teterboro (TEB) VFR Departures

Skyline Route: APREQ (approval request) is necessary from EWR Tower for VFR departures requesting Class Bravo entry into EWR Airspace. EWR may approve the APREQ and thus CBA entry up to 1,500’.
Exclusion Zone (SFRA): Send aircraft entering the exclusion zone direct the George Washington Bridge.

Pattern Work

Direction of traffic patterns at Teterboro is determined based on the table, unless the pilot specifically requests something different or traffic warrants the use of right hand patterns.

Runway	Direction
1	Right
6	Right
19	Left
24	Left

TRACON

TRACON services for Teterboro are provided by EWR sector of N90 TRACON.

Appendix