Document:

EX-10.1.26

 Exhibit 10.1.26 

AMENDMENT NO. 1 TO 
 MASTER SERVICES AGREEMENT 
 NUMBER 21078 

This Amendment (the “Amendment) is made as of the date of the last signature hereto (the “Effective Date”) by and between
Intelsat Corporation (“Intelsat”), a company incorporated under the laws of Delaware, with offices located at 3400 International Drive, Washington, DC 20008 and Gogo LLC (“Customer”), a company incorporated under the laws of
Delaware, with offices located at 1250 N. Arlington Heights Road, Suite 500, Itasca, IL 60143 (each individually referred to as a “Party” and collectively as the “Parties”). 

WHEREAS, Intelsat and Customer executed a Master Services Agreement dated April 25, 2008 (the “Agreement”) for the
provision of Intelsat services; and 
 WHEREAS, the Parties desire to amend the Agreement as set forth herein. 

NOW, THEREFORE, the Parties agree to amend the Terms and Conditions to the Agreement as described below: 

 

	 	1.	Section 3.1, Customer’s Use and Third Party Use. This Section shall be deleted and replaced with the following: 

“Each Service is provided for Customer’s own use or the use of an Affiliate of Customer. In no event shall Customer be permitted
to resell a Service to any other person or entity unless Customer’s provision of services to such person or entity includes substantially more communications facilities than the Service provide by Intelsat. For purposes of this Section,
(a) “Affiliate” shall be deemed to include any entity in which there is at least fifty-one percent (51%) common equity ownership directly or indirectly by or with Customer; and (b) “resell” shall include any means
allowing another person or entity to utilize the Service, in whole or in part, including through sale, resale, license, lease sublease, grant assignment, or any other means of direct or indirect conveyance. Without limiting the foregoing, Customer
shall be responsible to Intelsat for any and all use of the Service or transmissions via the Service by any third party user throughout the chain of use (each a “User” and collectively the “Users”) to the same extent as Customer
would be for its own use or transmissions, and all references in the Agreement to Customer’s responsibilities to Intelsat regarding Customer’s use or transmissions shall be interpreted accordingly.” 

 

	 	2.	Except as modified herein, all provisions of the Agreement shall remain unaffected. 

 

									
	INTELSAT CORPORATION	 		 	GOGO LLC
					
	By:	 	 /s/ Patricia Casey
	 		 	By:	 	 /s/ Saumil Mehta

					
	Name:	 	 Patricia Casey
	 		 	Name:	 	 Saumil Mehta

					
	Title:	 	 Sr. VP & DGC
	 		 	Title:	 	 VP & Asst. General Counsel

					
	Date:	 	 11/14/12
	 		 	Date:	 	 November 8, 2012EX-10.1.27

 Exhibit 10.1.27 

THE USE OF THE FOLLOWING NOTATION IN THIS EXHIBIT INDICATES THAT THE CONFIDENTIAL PORTION HAS BEEN OMITTED PURSUANT TO A REQUEST FOR
CONFIDENTIAL TREATMENT AND THE OMITTED MATERIAL 
 HAS BEEN FILED SEPARATELY WITH THE SECURITIES AND EXCHANGE COMMISSION: [***]

 Intelsat Transponder Service Order 
 Service Order No. 25426 
  

					
	 	 	 Intelsat Information:
	 	 Customer Information:

	Name:	 	Intelsat Corporation	 	Gogo LLC
	Place/Type of Organization:	 	A Delaware corporation	 	
	Address:	 	3400 International Drive, N.W.	 	1250 N. Arlington Heights Road, Suite 500
	City/Country:	 	Washington, DC 20008	 	Itasca, IL 60143
	Attention:	 	Assistant General Counsel, NA Sales	 	Saumil Mehta
	Telephone:	 	(202) 944-7986	 	(630) 647-7207
	Facsimile:	 	(202) 944-7529	 	
	E-mail:	 	Na-contracts@intelsat.com	 	smehta@gogoair.com

  

	 	1.	By signing and returning this Service Order No. 25426 (“Service Order”) to Intelsat, Gogo, LLC(“Customer”) is making an offer to
purchase the service described in this Service Order (“Service”) from Intelsat Corporation (“Intelsat”). When executed by Intelsat, this Service Order shall become binding. 

 

	 	2.	Provision of the Service is subject to Intelsat receiving from Customer any Deposit/Collateral specified below in a form acceptable to Intelsat at least 15 calendar
days prior to the Service Start Date. 

  

	 	3.	This Service Order and the Service are subject to the terms and conditions of the Master Service Agreement (“MSA”) referenced below which is
incorporated herein by reference. In the event of a conflict between this Service Order and the MSA, this Service Order shall control. 

  

			
	Type of Service Order	 	x New Service         ̈
Renewal             ̈ Amendment
	Master Service Agreement (“MSA”)	 	 Type of MSA #21078            Date 25 August 2008

Account 123639

	Deposit	 	[***]
	Billing Method	 	Monthly in advance

 Service ID (SVO) No.: 511900 

 

			
	Orbital Location/Satellite	 	166° East    IS-19
	Bandwidth (MHz)	 	[***] MHz
	Up/Downlink Beam	 	ANZKH/ANZKV
	Initial Transponder Allocation	 	[***]
	Preemptibility	 	 ̈
Preemptible            x Non-Preemptible
	Service Start Date (SSD) 	 	 15 May 2013
 (Billing will
commence on the SSD whether the Service commences or not, unless any delay is caused solely and directly by Intelsat.)

	Service End Date (SED)	 	14 Oct 2018

  

					
		 	Intelsat Confidential and Proprietary	 	Page 1 of 30

 Service ID (SVO) No.: 511901 

 

			
	Orbital Location/Satellite	 	166° East    IS-19
	Bandwidth (MHz)	 	[***] MHz
	Up/Downlink Beam	 	NEPKH/NEPKV
	Initial Transponder Allocation	 	[***]
	Preemptibility	 	 ̈
Preemptible            x Non-Preemptible
	Service Start Date (SSD) 	 	 15 May 2013
 (Billing will
commence on the SSD whether the Service commences or not, unless any delay is caused solely and directly by Intelsat.)

	Service End Date (SED)	 	14 Oct 2018

  

					
		 	Intelsat Confidential and Proprietary	 	Page 2 of 30

 Service ID (SVO) No.: 511903 

 

			
	Orbital Location/Satellite	 	166° East    IS-19
	Bandwidth (MHz)	 	[***] MHz
	Up/Downlink Beam	 	NWKPV/NWKPH
	Initial Transponder Allocation	 	[***]
	Preemptibility	 	 ̈
Preemptible            x Non-Preemptible
	Service Start Date (SSD) 	 	 15 May 2013
 (Billing will
commence on the SSD whether the Service commences or not, unless any delay is caused solely and directly by Intelsat.)

	Service End Date (SED)	 	14 Oct 2018

 Service ID (SVO) No.: 511906 

 

			
	Orbital Location/Satellite	 	166° East    IS-19
	Bandwidth (MHz)	 	[***]MHz
	Up/Downlink Beam	 	SWPKH/SWPKV
	Initial Transponder Allocation	 	[***]
	Preemptibility	 	 ̈
Preemptible            x Non-Preemptible
	Service Start Date (SSD) 	 	 15 Feb 2013
 (Billing will
commence on the SSD whether the Service commences or not, unless any delay is caused solely and directly by Intelsat.)

	Service End Date (SED)	 	14 July 2018

 Service ID (SVO) No.: 511907 

 

			
	Orbital Location/Satellite	 	304.5° East    IS-27
	Bandwidth (MHz)	 	[***] MHz
	Up/Downlink Beam	 	NATKH/NATKV
	Initial Transponder Allocation	 	[***]
	Preemptibility	 	 ̈
Preemptible            x Non-Preemptible
	Service Start Date (SSD) 	 	 The later of: (i) the date upon which Intelsat certifies to Customer that the IS-27 satellite has been placed into operation at its
Orbital Location, as defined above, or (ii) 15 May 2013
 (Billing will commence on the SSD whether the Service commences or not,
unless any delay is caused solely and directly by Intelsat.)

	Service End Date (SED)	 	14 Oct 2018

  

					
		 	Intelsat Confidential and Proprietary	 	Page 3 of 30

					
	 Bandwidth & Payment Schedule

 

	 SVO
No.
	  	 Term
	  	 Service Fee (US$)

	  
 511903

511901
	  	 [***]
 [***]

[***]
 [***]

[***]
 [***]
	  	 [***] per SVO per month
 [***] per SVO per month
 [***] per SVO per month

[***] per SVO per month
 [***] per SVO per month
 [***] per SVO per month

			
	511907	  	 [***]
 [***]

[***]
 [***]

[***]
 [***]
	  	 [***] per SVO per month
 [***] per SVO per month
 [***] per SVO per month

[***] per SVO per month
 [***] per SVO per month
 [***] per SVO per month

			
	511900	  	 [***]
 [***]

[***]
 [***]

[***]
 [***]
	  	 [***] per SVO per month
 [***] per SVO per month
 [***] per SVO per month

[***] per SVO per month
 [***] per SVO per month
 [***] per SVO per month

			
	511906	  	 [***]
 [***]

[***]
 [***]

[***]
 [***]
	  	 [***] per SVO per month
 [***] per SVO per month
 [***] per SVO per month

[***] per SVO per month
 [***] per SVO per month
 [***] per SVO per month

  

	 	4.	The following Appendices attached hereto, all of which are incorporated herein by reference, shall collectively comprise this Transponder Service Order:

 Technical Requirements 

 

			
	Appendix A:	 	Reserved/Not Applicable
	Appendix B:	 	Technical Appendix for Transponder Segment Services (attached hereto)
	Appendix C:	 	Operational Requirements for Intelsat Satellites. (attached hereto)

  

					
		 	Intelsat Confidential and Proprietary	 	Page 4 of 30

	 	5.	Each of the parties has duly executed and delivered this Service Order as of the latest date set forth below (the “Execution Date”).

  

									
	INTELSAT CORPORATION	 		 	GOGO, LLC
					
	By:	 	 /s/ Patricia Casey
	 		 	By:	 	 /s/ Anand Chari

					
	Name:	 	Patricia Casey	 		 	Name:	 	Anand Chari
					
	Title:	 	Senior VP and Deputy General Counsel	 		 	Title:	 	CTO
					
	Date:	 	August 21, 2012	 		 	Date:	 	8/17/12

  

					
		 	Intelsat Confidential and Proprietary	 	Page 5 of 30

 

 
 ADDITIONAL TERMS AND CONDITIONS 

FOR TRANSPONDER SERVICES 

1. THE SERVICE 
 Transponder Service is
the supply of satellite capacity managed by Customer. Any renewal or extension of the Service will be the subject of a separate agreement. 

1.1 Non-Preemptible Service: A Service that cannot be interrupted, suspended, or terminated to restore other Services. 

1.2 Preemptible Service: A Service that may be interrupted, suspended, or terminated at any time. Customer must vacate the capacity
immediately upon notification by Intelsat. 
 2. PREEMPTION 
 2.1 Notification of Preemption: Customer will specify in writing, prior to the Service Start Date, a telephone number at which English-speaking personnel may be reached by Intelsat on a 24 x
7 basis. 
 2.2 Failure to Vacate: If Customer continues to use a Service after its Service End Date, Intelsat may terminate the
Service or continue to provide it on a preemptible basis for a price determined by Intelsat until terminated upon notice to Customer. Customer’s payment of this fee does not authorize Customer to continue to use the Service. 

3. SERVICE RESTORATION 
 3.1
Service Restoration: In the event any Service hereunder fails, Intelsat shall attempt to restore Customer’s Service with Service on the Satellite or another Intelsat satellite with substantially similar coverage and performance.
Such capacity will then become the Service. If Intelsat does not restore a failed Service hereunder, this Service Order will terminate without further liability as of the time of failure and any amounts prepaid by Customer for Services following the
effective date of termination shall be returned to Customer. 
 3.2 Service Distribution and/or Wholesale Customer Agreement Customers:
Annex F is deleted in its entirety and replaced with the following: In cases of satellite failure or malfunction, Intelsat will use reasonable efforts to restore affected Services in accordance with the relevant Service Order/Contract.

 4. SERVICE INTERRUPTION CREDITS/OUTAGE CREDITS AND CONFIRMED FAILURE 
 4.1 A “Service Interruption” or “Confirmed Outage” occurs when Service materially fails to comply with the performance parameters in the relevant Technical Appendix, and
such noncompliance is confirmed by Intelsat. A Confirmed Outage will be deemed to commence when Customer notifies Intelsat, and to end when Intelsat notifies Customer or Customer has actual knowledge that Service has been restored. Any period during
which Customer uses the applicable Service will not count towards the duration of the Service Interruption or Confirmed Outage. 
 4.2
“Interruption Credit” or “Outage Credit” is a credit against future charges for the Service. Credits will be given for Service Interruptions or Confirmed Outages of one (1) hour or more, and will be calculated
as a proportion of the monthly service charge, based on the number of hours in the month in which the Service Interruption or Confirmed Outage occurred. 
 4.3 Confirmed Failure: Subject to the provisions set forth in Sections 7.2 and 7.5 of the Master Service Agreement, if the Service fails to meet the performance specifications of the
Technical Appendix for: (a) a cumulative period of 10 hours during any consecutive 30-day period, or (b) any period of time following a catastrophic event under circumstances that make it clearly ascertainable that a failure described in
clause (a) will occur, the Service shall, subject to Intelsat’s confirmation, have suffered a “Confirmed Failure.” All determinations as to Confirmed Failures should be made on an individual transponder segment by transponder
segment basis. In the event of a Confirmed Failure, Intelsat may, subject to availability, employ certain redundant equipment units on the Satellite or provide Service to Customer using another transponder which provides substantially similar
coverage and performance or provide Service on another Intelsat satellite with substantially similar coverage and performance. 
 5.
MISCELLANEOUS 
 5.1 Billing Policy: Intelsat will commence billing on the Service Start Date, whether services commence or
not, unless the delay is solely and directly caused by Intelsat. Intelsat may apply the Deposit/Collateral paid hereunder to cover any outstanding payments due by Customer to Intelsat under this Service Order or any other Service Order subject to
the terms and conditions of the MSA. Intelsat shall return any remaining Deposit/Collateral to Customer when all Services under the MSA end and all liabilities are settled. 
 5.2 Replacement Satellite: During the term of this Service Order, Intelsat may replace the Satellite with another satellite that provides substantially similar coverage and performance
(“Replacement Satellite”). Provided there is available substantially similar coverage and performance on the Replacement Satellite, Intelsat may provide such capacity to Customer, in which case it will provide replacement Technical
Appendices to the Customer, and this Service Order will continue with such Replacement Satellite Service for the remainder of its term. Intelsat will use all reasonable efforts to minimize any disruption of operations while the Service is being
transferred. In the event Intelsat either (a) takes the Satellite out of commercial service at its orbital location and does not replace the Satellite; or (b) replaces the Satellite with a Replacement Satellite but does not provide
Replacement Satellite Service, this Service Order will automatically terminate on the date that the Satellite is taken out of commercial operation or redeployed. 
 5.3 Transmission Plan: Transmission plans must be submitted to Intelsat for approval at least 10 business days before the Service Start Date. Customer will be permitted, subject to
Intelsat’s approval, to modify the transmission plan from time to time. Intelsat reserves the right to charge Customer a reasonable fee for transmission plan modifications. All proposed modifications must be submitted at least 10 business days
prior to their intended activation. Intelsat’s approval of the transmission plan is not authorization for Customer to access the Intelsat space segment; a separate message from Intelsat will provide information to Customer for coordinating the
activation of carriers. This Service Order is entered into with the understanding that this Service will not create harmful technical interference to other services. Should such interference occur, Customer assumes all liability. In addition,
Intelsat reserves the right to ensure that no technical impairments are caused to other services, including, if necessary, terminating the Service. 
 5.4 Earth Station Approval: All Customer earth stations must be registered with Intelsat prior to the service start date. All antennas must be authorized in the host country by all relevant
regulatory and licensing authorities. Registration is available via https://my.intelsat.com. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 6 of 30

 6. [***] 
 6.1 [***] 
 6.2 [***] 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 7 of 30

 APPENDIX B 
 TECHNICAL APPENDIX 
  

			
	 Satellite
Information

	Satellite:	 	IS-19
	Orbital Location:	 	166° East Longitude
	Uplink Beam/Band:	 	SWPKH / Ku-Band
	Downlink Beam/Band:	 	SWPKV / Ku-Band
	Nominal Transponder Bandwidth:	 	[***] MHz
	Customer Transponder Capacity Allocation:	 	[***] MHz

 The satellite parameters indicated in this Technical Appendix are preliminary in nature, and based on values specified
in the satellite design. Accordingly, the Technical Appendix may be updated following completion of Satellite In Orbit Testing, upon completion of which Intelsat will provide Customer with an updated Technical Appendix to the extent necessary.

 1.0 INTRODUCTION 

This Technical Appendix contains the Performance Specifications for the Ku-Band transponders assigned to the Intelsat IS-19 SWPKH Uplink beam - SWPKV
Downlink beam. As described further herein the specifications are applicable to a full transponder allocation on a [***] transponder and associated spares as noted, if available. 
 2.0 SATELLITE PERFORMANCE CHARACTERISTICS 
  

					
	Orbital Tolerances:	 	Longitude Tolerance:	 	± 0.05 degrees
	 	Inclination Tolerance:	 	± 0.05 degrees

 2.1 Communication Antenna Pointing. The Satellite will maintain the orientation of its communications antenna
relative to the earth such that the EIRP, G/T and SFD described in Section 3.1 are maintained. 
 3.0 COMMUNICATION SYSTEM PERFORMANCE
CHARACTERISTICS 
 3.1 EIRP, G/T and SFD within Beam Coverage Area. Figure B-1 provides EIRP contours for the Satellite Downlink Beam,
while Figure B-2 provides G/T contours for the Satellite Uplink Beam. These contours permit the user to estimate EIRP and G/T for any location within the Beam Coverage Areas. Minimum beam reference EIRP for the Transponder is 45.5 dBW ±1.0
dB, minimum beam reference G/T for the transponder is -1.0 dB/K ±1.5 dB. The SFD setting and other performance characteristics have not been finalized yet and therefore are not available at this time. 

 

	 	Note:	Beam Reference Contour values are based on the representative beam patterns attached. The contours are provided for estimation purposes only. It is recommended that a 1
dB margin be included when utilizing the contours. 

 3.1.1 Input Attenuators. The gain of each transponder is adjustable
by ground command over a range of 0 to 37 steps in 1 dB increments per step. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 8 of 30

 Figure B-1. IS-19 Ku-Band SWPKV Downlink Beam with ±1.0 dB for each beam contour

  
 

 
 (EIRP Contours: 49.4, 48.4, 47.4, 46.4, 45.5, 45.4, 44.4 dBW) ±1.0 dB 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 9 of 30

 Figure B-2. IS-19 Ku-Band SWPKH Uplink Beam with ±1.5 dB for each beam contour

  
 

 
 (G/T Contours: +3.5, 2.5, 1.5, 0.5, -0.5, -1.0, -1.5, -2.5 dB/K) ±1.5 dB 

3.1.2 Two Carriers and Multi-carrier Operation. The values provided in Sections 3.1 are based on the occupancy of the transponder by a single
carrier. While subject to final approval by Intelsat and based on specific transponder configuration, dual-carrier operation (2 carriers), or multi-carrier operation (3 or more carriers) must be conducted with a composite output and input backoff
meeting the following specifications: 
  

					
	Mode	 	Output	 	Input (see Note below)
	Multi Carrier:	 	3.8 dB/composite	 	5.8 dB/composite
	Single Carrier (in fractional lease,	 		 	
	2-carriers per transponder):	 	1.8 dB/composite	 	2.5 dB/composite

 Note: For operation of carrier modulation other than QPSK, additional power constraints may be imposed in order to reduce
the generation of intermodulation and other spurious signals. 
 Prior to carrier activation, Customer must provide Intelsat with a transmission
plan detailing the proposed carrier frequency, modulation and coding type, as well as required yearly service availability level, along with other pertinent technical information, for approval by Intelsat. The approval will consist of the specific
carrier operational parameters. Intelsat reserves the right to adjust the composite input backoff to achieve the specified output backoff. 

3.1.3 EIRP Change Due to Redundant Power Amplifier. When any transponder is switched from its primary HPA to an adjacent HPA, the transponder
output power shall not decrease by more than 0.5 dB relative to the EIRP using the primary power amplifier. 
 3.1.4 Gain Change Due to First
Redundant Receiver. When the first receiver is substituted for a redundant receiver, the gain of the affected transponders shall not decrease by more than 0.5 dB. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 10 of 30

 3.2 SATELLITE COMMUNICATION SYSTEM EXPECTED PERFORMANCE 

3.2.1 Co-Channel Interference. The Total Co-Channel Interference ratio due to interference from co-frequency carriers on the satellite is expected
to be on average better than 30 dB for most locations within the Beam Reference Contour. 
 3.2.2 Nominal Channel Frequencies and
Polarization. Each Transponder in the Beam Coverage Area shall use the Uplink and Downlink frequency range provided in Table 1 below. Moreover, the Beam Coverage Area shall be accessible by either linear vertical or horizontal polarization.
Intelsat reserves the right to assign and/or reassign Customer’s space segment allocation within the Transponder or to other Transponders or Satellites within the applicable Uplink and/or Downlink Beam Coverage Area. Except in emergency
circumstances, Intelsat shall notify Customer of any changes to its initial allocation as soon as reasonably practicable prior to such change and shall use reasonable efforts to minimize disruption to Customer’s Transponder Capacity during any
such change. 
 3.2.3 Frequency Translation. The communication system translates Uplink transmissions by a net frequency subtraction
identified in Table 1 below. 
 Table 1. Frequency Range and Corresponding Translation Frequency 

 

					
	 Uplink Band
	 	 Downlink Band
	 	 Translation Frequency

	[***]	 	[***]	 	[***]

 End of Appendix B. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 11 of 30

 APPENDIX B 
 TECHNICAL APPENDIX 
  

			
	 Satellite
Information

	Satellite:	 	IS-19
	Orbital Location:	 	166° East Longitude
	Uplink Beam/Band:	 	ANZKH / Ku-Band
	Downlink Beam/Band:	 	ANZKV / Ku-Band
	Nominal Transponder Bandwidth:	 	[***] MHz
	Customer Transponder Capacity Allocation:	 	[***] MHz

 The satellite parameters indicated in this Technical Appendix are preliminary in nature, and based on values specified
in the satellite design. Accordingly, the Technical Appendix may be updated following completion of Satellite In Orbit Testing, upon completion of which Intelsat will provide Customer with an updated Technical Appendix to the extent necessary.

 1.0 INTRODUCTION 

This Technical Appendix contains the Performance Specifications for the Ku-Band transponders assigned to the Intelsat IS-19 ANZKH Uplink beam - ANZKV
Downlink beam. As described further herein the specifications are applicable to a full transponder allocation on a [***] transponder and associated spares as noted, if available. 
 2.0 SATELLITE PERFORMANCE CHARACTERISTICS 
  

					
	Orbital Tolerances:	 	Longitude Tolerance:	 	± 0.05 degrees
	 	Inclination Tolerance:	 	± 0.05 degrees

 2.1 Communication Antenna Pointing. The Satellite will maintain the orientation of its communications antenna
relative to the earth such that the EIRP, G/T and SFD described in Section 3.1 are maintained. 
 3.0 COMMUNICATION SYSTEM PERFORMANCE
CHARACTERISTICS 
 3.1 EIRP, G/T and SFD within Beam Coverage Area. Figure B-1 provides EIRP contours for the Satellite Downlink Beam,
while Figure B-2 provides G/T contours for the Satellite Uplink Beam. These contours permit the user to estimate EIRP and G/T for any location within the Beam Coverage Areas. Minimum beam reference EIRP for the Transponder is 44.0 dBW ±1.0
dB, minimum beam reference G/T for the transponder is -2.7 dB/K ±1.5 dB. The SFD setting and other performance characteristics have not been finalized yet and therefore are not available at this time. 

 

	 	Note:	Beam Reference Contour values are based on the representative beam patterns attached. The contours are provided for estimation purposes only. It is recommended that a 1
dB margin be included when utilizing the contours. 

 3.1.1 Input Attenuators. The gain of each transponder is adjustable
by ground command over a range of 0 to 37 steps in 1 dB increments per step. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 12 of 30

 Figure B-1. IS-19 Ku-Band ANZKV Downlink Beam with ±1.0 dB for each beam contour

  
 

 
 (EIRP Contours: 53.2, 52.2, 51.2, 50.2, 49.2, 48.2, 47.2, 46.2, 45.2, 44.2, 44.0, 43.2 dBW) ±1.0
dB 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 13 of 30

 Figure B-2. IS-19 Ku-Band ANZKH Uplink Beam with ±1.5 dB for each beam contour

  
 

 
 (G/T Contours: +7.3, 6.3, 5.3, 4.3, 3.3, 2.3, 1.3, 0.3, -0.7, -1.7, -2.7, -3.7, -4.7 dB/K) ±1.5
dB 
 3.1.2 Two Carriers and Multi-carrier Operation. The values provided in Sections 3.1 are based on the occupancy of the transponder
by a single carrier. While subject to final approval by Intelsat and based on specific transponder configuration, dual-carrier operation (2 carriers), or multi-carrier operation (3 or more carriers) must be conducted with a composite output and
input backoff meeting the following specifications: 
  

					
	Mode	 	Output	 	Input (see Note below)
	Multi Carrier:	 	3.8 dB/composite	 	5.8 dB/composite
	Single Carrier (in fractional lease,	 		 	
	2-carriers per transponder):	 	1.8 dB/composite	 	2.5 dB/composite

 Note: For operation of carrier modulation other than QPSK, additional power constraints may be imposed in order to reduce
the generation of intermodulation and other spurious signals. 
 Prior to carrier activation, Customer must provide Intelsat with a transmission
plan detailing the proposed carrier frequency, modulation and coding type, as well as required yearly service availability level, along with other pertinent technical information, for approval by Intelsat. The approval will consist of the specific
carrier operational parameters. Intelsat reserves the right to adjust the composite input backoff to achieve the specified output backoff. 

3.1.3 EIRP Change Due to Redundant Power Amplifier. When any transponder is switched from its primary HPA to an adjacent HPA, the transponder
output power shall not decrease by more than 0.5 dB relative to the EIRP using the primary power amplifier. 
 3.1.4 Gain Change Due to First
Redundant Receiver. When the first receiver is substituted for a redundant receiver, the gain of the affected transponders shall not decrease by more than 0.5 dB. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 14 of 30

 3.2 SATELLITE COMMUNICATION SYSTEM EXPECTED PERFORMANCE 

3.2.1 Co-Channel Interference. The Total Co-Channel Interference ratio due to interference from co-frequency carriers on the satellite is expected
to be on average better than 30 dB for most locations within the Beam Reference Contour. 
 3.2.2 Nominal Channel Frequencies and
Polarization. Each Transponder in the Beam Coverage Area shall use the Uplink and Downlink frequency range provided in Table 1 below. Moreover, the Beam Coverage Area shall be accessible by either linear vertical or horizontal polarization.
Intelsat reserves the right to assign and/or reassign Customer’s space segment allocation within the Transponder or to other Transponders or Satellites within the applicable Uplink and/or Downlink Beam Coverage Area. Except in emergency
circumstances, Intelsat shall notify Customer of any changes to its initial allocation as soon as reasonably practicable prior to such change and shall use reasonable efforts to minimize disruption to Customer’s Transponder Capacity during any
such change. 
 3.2.3 Frequency Translation. The communication system translates Uplink transmissions by a net frequency subtraction
identified in Table 1 below. 
 Table 1. Frequency Range and Corresponding Translation Frequency 

 

					
	 Uplink Band
	 	 Downlink Band
	 	 Translation Frequency

	[***]	 	[***]	 	[***]

 End of Appendix B. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 15 of 30

 APPENDIX B 
 TECHNICAL APPENDIX 
  

			
	 Satellite
Information

	Satellite:	 	IS-19
	Orbital Location:	 	166° East Longitude
	Uplink Beam/Band:	 	NEPKV / Ku-Band
	Downlink Beam/Band:	 	NEPKH / Ku-Band
	Nominal Transponder Bandwidth:	 	[***] MHz
	Customer Transponder Capacity Allocation:	 	[***] MHz

 The satellite parameters indicated in this Technical Appendix are preliminary in nature, and based on values specified
in the satellite design. Accordingly, the Technical Appendix may be updated following completion of Satellite In Orbit Testing, upon completion of which Intelsat will provide Customer with an updated Technical Appendix to the extent necessary.

 1.0 INTRODUCTION 

This Technical Appendix contains the Performance Specifications for the Ku-Band transponders assigned to the Intelsat IS-19 NEPKV Uplink beam - NEPKH
Downlink beam. As described further herein the specifications are applicable to a full transponder allocation on a [***] transponder and associated spares as noted, if available. 
 2.0 SATELLITE PERFORMANCE CHARACTERISTICS 
  

					
	Orbital Tolerances:	 	Longitude Tolerance:	 	± 0.05 degrees
	 	Inclination Tolerance:	 	± 0.05 degrees

 2.1 Communication Antenna Pointing. The Satellite will maintain the orientation of its communications antenna
relative to the earth such that the EIRP, G/T and SFD described in Section 3.1 are maintained. 
 3.0 COMMUNICATION SYSTEM PERFORMANCE
CHARACTERISTICS 
 3.1 EIRP, G/T and SFD within Beam Coverage Area. Figure B-1 provides EIRP contours for the Satellite Downlink Beam,
while Figure B-2 provides G/T contours for the Satellite Uplink Beam. These contours permit the user to estimate EIRP and G/T for any location within the Beam Coverage Areas. Minimum beam reference EIRP for the Transponder is 47.4 dBW ±1.0
dB, minimum beam reference G/T for the transponder is 0.7 dB/K ±1.5 dB. The SFD setting and other performance characteristics have not been finalized yet and therefore are not available at this time. 

 

	 	Note:	Beam Reference Contour values are based on the representative beam patterns attached. The contours are provided for estimation purposes only. It is recommended that a 1
dB margin be included when utilizing the contours. 

 3.1.1 Input Attenuators. The gain of each transponder is adjustable
by ground command over a range of 0 to 37 steps in 1 dB increments per step. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 16 of 30

 Figure B-1. IS-19 Ku-Band NEPKH Downlink Beam with ±1.0 dB for each beam contour

  
 

 
 (EIRP Contours: 50.0, 49.0, 48.0, 47.4, 47.0, 46.0 dBW) ±1.0 dB 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 17 of 30

 Figure B-2. IS-19 Ku-Band NEPKV Uplink Beam with ±1.5 dB for each beam contour

  
 

 
 (G/T Contours: +3.6, 2.6, 1.6, 0.7, 0.6, -0.4 dB/K) ±1.5 dB 

3.1.2 Two Carriers and Multi-carrier Operation. The values provided in Sections 3.1 are based on the occupancy of the transponder by a single
carrier. While subject to final approval by Intelsat and based on specific transponder configuration, dual-carrier operation (2 carriers), or multi-carrier operation (3 or more carriers) must be conducted with a composite output and input backoff
meeting the following specifications: 
  

					
	Mode	  	Output	  	Input (see Note below)
	Multi Carrier:	  	3.8 dB/composite	  	5.8 dB/composite
	Single Carrier (in fractional lease,	  		  	
	2-carriers per transponder):	  	1.8 dB/composite	  	2.5 dB/composite

 Note: For operation of carrier modulation other than QPSK, additional power constraints may be imposed in order to reduce
the generation of intermodulation and other spurious signals. 
 Prior to carrier activation, Customer must provide Intelsat with a transmission
plan detailing the proposed carrier frequency, modulation and coding type, as well as required yearly service availability level, along with other pertinent technical information, for approval by Intelsat. The approval will consist of the specific
carrier operational parameters. Intelsat reserves the right to adjust the composite input backoff to achieve the specified output backoff. 

3.1.3 EIRP Change Due to Redundant Power Amplifier. When any transponder is switched from its primary HPA to an adjacent HPA, the transponder
output power shall not decrease by more than 0.5 dB relative to the EIRP using the primary power amplifier. 
 3.1.4 Gain Change Due to First
Redundant Receiver. When the first receiver is substituted for a redundant receiver, the gain of the affected transponders shall not decrease by more than 0.5 dB. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 18 of 30

 3.2 SATELLITE COMMUNICATION SYSTEM EXPECTED PERFORMANCE 

3.2.1 Co-Channel Interference. The Total Co-Channel Interference ratio due to interference from co-frequency carriers on the satellite is expected
to be on average better than 30 dB for most locations within the Beam Reference Contour. 
 3.2.2 Nominal Channel Frequencies and
Polarization. Each Transponder in the Beam Coverage Area shall use the Uplink and Downlink frequency range provided in Table 1 below. Moreover, the Beam Coverage Area shall be accessible by either linear vertical or horizontal polarization.
Intelsat reserves the right to assign and/or reassign Customer’s space segment allocation within the Transponder or to other Transponders or Satellites within the applicable Uplink and/or Downlink Beam Coverage Area. Except in emergency
circumstances, Intelsat shall notify Customer of any changes to its initial allocation as soon as reasonably practicable prior to such change and shall use reasonable efforts to minimize disruption to Customer’s Transponder Capacity during any
such change. 
 3.2.3 Frequency Translation. The communication system translates Uplink transmissions by a net frequency subtraction
identified in Table 1 below. 
 Table 1. Frequency Range and Corresponding Translation Frequency 

 

					
	 Uplink Band
	 	 Downlink Band
	 	 Translation Frequency

	 [***]
	 	[***]	 	[***]

 End of Appendix B. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 19 of 30

 APPENDIX B 
 TECHNICAL APPENDIX 
  

			
	 Satellite
Information

	 Satellite:
	  	IS-27
	 Orbital Location:
	  	304.5° East Longitude
	 Uplink Beam/Band:
	  	NATKH / Ku-Band
	 Downlink Beam/Band:
	  	NATKV / Ku-Band
	 Nominal Transponder Bandwidth:
	  	[***] MHz
	 Customer Transponder Capacity Allocation:
	  	[***] MHz

 The satellite parameters indicated in this Technical Appendix are preliminary in nature, and based on values specified
in the satellite design. Accordingly, the Technical Appendix may be updated following completion of Satellite In Orbit Testing, upon completion of which Intelsat will provide Customer with an updated Technical Appendix to the extent necessary.

 1.0 INTRODUCTION 

This Technical Appendix contains the Performance Specifications for the Ku-Band transponders assigned to the Intelsat IS-27 NATKH Uplink beam - NATKV
Downlink beam. As described further herein the specifications are applicable to a full transponder allocation on a [***] transponder and associated spares as noted, if available. 
 2.0 SATELLITE PERFORMANCE CHARACTERISTICS 
  

					
	Orbital Tolerances:	  	Longitude Tolerance:	  	± 0.05 degrees
	  	Inclination Tolerance:	  	± 0.05 degrees

 2.1 Communication Antenna Pointing. The Satellite will maintain the orientation of its communications antenna
relative to the earth such that the EIRP, G/T and SFD described in Section 3.1 are maintained. 
 3.0 COMMUNICATION SYSTEM PERFORMANCE
CHARACTERISTICS 
 3.1 EIRP, G/T and SFD within Beam Coverage Area. Figure B-1 provides EIRP contours for the Satellite Downlink Beam,
while Figure B-2 provides G/T contours for the Satellite Uplink Beam. These contours permit the user to estimate EIRP and G/T for any location within the Beam Coverage Areas. Minimum beam reference EIRP for the Transponder is 43.7 dBW ±1.0
dB, minimum beam reference G/T for the transponder is -2.9 dB/K ±1.5 dB. The SFD setting and other performance characteristics have not been finalized yet and therefore are not available at this time 

 

	 	Note:	Beam Reference Contour values are based on the representative beam patterns attached. The contours are provided for estimation purposes only. It is recommended that a 1
dB margin be included when utilizing the contours. 

 3.1.1 Input Attenuators. The gain of each transponder is adjustable
by ground command over a range of 0 to 28 steps in 1 dB increments per step. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 20 of 30

 Figure B-1. IS-27 Ku-Band NATKV Downlink Beam with ±1.0 dB for each beam contour

  
 

 
 (EIRP Contours: : 45.8, 44.8, 43.7, 42.8, 41.8dBW) ±1.0 dB 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 21 of 30

 Figure B-2. IS-27 Ku-Band NATKH Uplink Beam with ±1.5 dB for each beam contour

  
 

 
 (G/T Contours: +2.9, 1.9, 0.9, -0.1, -1.1, -2.1, -2.9, -4.1 dB/K) ±1.5 dB 

3.1.2 Two Carriers and Multi-carrier Operation. The values provided in Sections 3.1 are based on the occupancy of the transponder by a single
carrier. While subject to final approval by Intelsat and based on specific transponder configuration, dual-carrier operation (2 carriers), or multi-carrier operation (3 or more carriers) must be conducted with a composite output and input backoff
meeting the following specifications: 
  

					
	Mode	  	Output	  	Input (see Note below)
	 Multi Carrier:
	  	3.0 dB/composite	  	5.4 dB/composite
	 Single Carrier (in fractional lease,
	  		  	
	 2-carriers per transponder):
	  	2.5 dB/composite	  	5.0 dB/composite

 Note: For operation of carrier modulation other than QPSK, additional power constraints may be imposed in order to reduce
the generation of intermodulation and other spurious signals. 
 Prior to carrier activation, Customer must provide Intelsat with a transmission
plan detailing the proposed carrier frequency, modulation and coding type, as well as required yearly service availability level, along with other pertinent technical information, for approval by Intelsat. The approval will consist of the specific
carrier operational parameters. Intelsat reserves the right to adjust the composite input backoff to achieve the specified output backoff. 

3.1.3 EIRP Change Due to Redundant Power Amplifier. When any transponder is switched from its primary HPA to an adjacent HPA, the transponder
output power shall not decrease by more than 0.5 dB relative to the EIRP using the primary power amplifier. 
 3.1.4 Gain Change Due to First
Redundant Receiver. When the first receiver is substituted for a redundant receiver, the gain of the affected transponders shall not decrease by more than 0.5 dB. 
 3.2 SATELLITE COMMUNICATION SYSTEM EXPECTED PERFORMANCE 
 3.2.1 Co-Channel Interference. The
Total Co-Channel Interference ratio due to interference from co-frequency carriers on the satellite is expected to be on average better than 30 dB for most locations within the Beam Reference Contour. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 22 of 30

 3.2.2 Nominal Channel Frequencies and Polarization. Each Transponder in the Beam Coverage Area shall
use the Uplink and Downlink frequency range provided in Table 1 below. Moreover, the Beam Coverage Area shall be accessible by either linear vertical or horizontal polarization. Intelsat reserves the right to assign and/or reassign Customer’s
space segment allocation within the Transponder or to other Transponders or Satellites within the applicable Uplink and/or Downlink Beam Coverage Area. Except in emergency circumstances, Intelsat shall notify Customer of any changes to its initial
allocation as soon as reasonably practicable prior to such change and shall use reasonable efforts to minimize disruption to Customer’s Transponder Capacity during any such change. 
 3.2.3 Frequency Translation. The communication system translates Uplink transmissions by a net frequency subtraction identified in Table 1 below. 

Table 1. Frequency Range and Corresponding Translation Frequency 

 

					
	 Uplink Band
	  	 Downlink Band
	  	 Translation Frequency

	 [***]
	  	[***]	  	[***]

 End of Appendix B. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 23 of 30

 APPENDIX B 
 TECHNICAL APPENDIX 
  

			
	 Satellite
Information

	Satellite:	  	IS-19
	Orbital Location:	  	166° East Longitude
	Uplink Beam/Band:	  	NWPKV / Ku-Band
	Downlink Beam/Band:	  	NWPKH / Ku-Band
	Nominal Transponder Bandwidth:	  	[***] MHz
	Customer Transponder Capacity Allocation:	  	[***] MHz

 The satellite parameters indicated in this Technical Appendix are preliminary in nature, and based on values specified
in the satellite design. Accordingly, the Technical Appendix may be updated following completion of Satellite In Orbit Testing, upon completion of which Intelsat will provide Customer with an updated Technical Appendix to the extent necessary.

 1.0 INTRODUCTION 

This Technical Appendix contains the Performance Specifications for the Ku-Band transponders assigned to the Intelsat IS-19 NWPKV Uplink beam - NWPKH
Downlink beam. As described further herein the specifications are applicable to a full transponder allocation on a [***] transponder and associated spares as noted, if available. 
 2.0 SATELLITE PERFORMANCE CHARACTERISTICS 
  

					
	Orbital Tolerances:	  	Longitude Tolerance:	  	± 0.05 degrees
	  	Inclination Tolerance:	  	± 0.05 degrees

 2.1 Communication Antenna Pointing. The Satellite will maintain the orientation of its communications antenna
relative to the earth such that the EIRP, G/T and SFD described in Section 3.1 are maintained. 
 3.0 COMMUNICATION SYSTEM PERFORMANCE
CHARACTERISTICS 
 3.1 EIRP, G/T and SFD within Beam Coverage Area. Figure B-1 provides EIRP contours for the Satellite Downlink Beam,
while Figure B-2 provides G/T contours for the Satellite Uplink Beam. These contours permit the user to estimate EIRP and G/T for any location within the Beam Coverage Areas. Minimum beam reference EIRP for the Transponder is 46.1 dBW ±1.0
dB, minimum beam reference G/T for the transponder is 0.1 dB/K ±1.5 dB. The SFD setting and other performance characteristics have not been finalized yet and therefore they are not available at this time. 

 

	 	Note:	Beam Reference Contour values are based on the representative beam patterns attached. The contours are provided for estimation purposes only. It is recommended that a 1
dB margin be included when utilizing the contours. 

 3.1.1 Input Attenuators. The gain of each transponder is adjustable
by ground command over a range of 0 to 37 steps in 1 dB increments per step. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 24 of 30

 Figure B-1. IS-19 Ku-Band NWPKH Downlink Beam with ±1.0 dB for each beam contour

  
 

 
 (EIRP Contours: 52.4, 51.4, 50.4, 49.4, 48.4, 47.4, 46.4, 46.1, 45.4, 44.4 dBW) ±1.0 dB

  

					
		 	Intelsat Confidential and Proprietary	 	Page 25 of 30

 Figure B-2. IS-19 Ku-Band NWPKV Uplink Beam with ±1.5 dB for each beam contour

  
 

 
 (G/T Contours: +5.3, 4.3, 3.3, 2.3, 1.3, 0.3, 0.1, -0.7, -1.7 dB/K) ±1.5 dB 

3.1.2 Two Carriers and Multi-carrier Operation. The values provided in Sections 3.1 are based on the occupancy of the transponder by a single
carrier. While subject to final approval by Intelsat and based on specific transponder configuration, dual-carrier operation (2 carriers), or multi-carrier operation (3 or more carriers) must be conducted with a composite output and input backoff
meeting the following specifications: 
  

					
	Mode	  	Output	  	Input (see Note below)
	 Multi Carrier:
	  	3.8 dB/composite	  	5.8 dB/composite
	 Single Carrier (in fractional lease,
	  		  	
	 2-carriers per transponder):
	  	1.8 dB/composite	  	2.5 dB/composite

 Note: For operation of carrier modulation other than QPSK, additional power constraints may be imposed in order to reduce
the generation of intermodulation and other spurious signals. 
 Prior to carrier activation, Customer must provide Intelsat with a transmission
plan detailing the proposed carrier frequency, modulation and coding type, as well as required yearly service availability level, along with other pertinent technical information, for approval by Intelsat. The approval will consist of the specific
carrier operational parameters. Intelsat reserves the right to adjust the composite input backoff to achieve the specified output backoff. 

3.1.3 EIRP Change Due to Redundant Power Amplifier. When any transponder is switched from its primary HPA to an adjacent HPA, the transponder
output power shall not decrease by more than 0.5 dB relative to the EIRP using the primary power amplifier. 
 3.1.4 Gain Change Due to First
Redundant Receiver. When the first receiver is substituted for a redundant receiver, the gain of the affected transponders shall not decrease by more than 0.5 dB. 
 3.2 SATELLITE COMMUNICATION SYSTEM EXPECTED PERFORMANCE 
 3.2.1 Co-Channel Interference. The
Total Co-Channel Interference ratio due to interference from co-frequency carriers on the satellite is expected to be on average better than 30 dB for most locations within the Beam Reference Contour. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 26 of 30

 3.2.2 Nominal Channel Frequencies and Polarization. Each Transponder in the Beam Coverage Area shall
use the Uplink and Downlink frequency range provided in Table 1 below. Moreover, the Beam Coverage Area shall be accessible by either linear vertical or horizontal polarization. Intelsat reserves the right to assign and/or reassign Customer’s
space segment allocation within the Transponder or to other Transponders or Satellites within the applicable Uplink and/or Downlink Beam Coverage Area. Except in emergency circumstances, Intelsat shall notify Customer of any changes to its initial
allocation as soon as reasonably practicable prior to such change and shall use reasonable efforts to minimize disruption to Customer’s Transponder Capacity during any such change. 
 3.2.3 Frequency Translation. The communication system translates Uplink transmissions by a net frequency subtraction identified in Table 1 below. 

Table 1. Frequency Range and Corresponding Translation Frequency 

 

					
	 Uplink Band
	  	 Downlink Band
	  	 Translation Frequency

	 [***]
	  	[***]	  	[***]

 End of Appendix B. 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 27 of 30

 APPENDIX C 
 EARTH STATION AND OPERATIONAL REQUIREMENTS 
 FOR DIGITAL SERVICES VIA
INTELSAT C-BAND AND KU-BAND TRANSPONDERS 

 

 1.0 INTRODUCTION. This document contains the earth station requirements and associated operational
procedures for transmission via C-band and Ku-band transponders on all Intelsat satellites (collectively, the “Operational Requirements”). These Operational Requirements may be modified from time to time by Intelsat, in its reasonable
discretion. Unless otherwise expressly defined herein, defined terms shall have the meanings ascribed to them in the applicable Agreement. 

2.0 EARTH STATION REQUIREMENTS. 
 2.1
Earth Station EIRP. The required earth station Equivalent Isotropic Radiated Power (EIRP) per carrier is a function of the following: 
  

	 	(1)	the satellite receiver sensitivity (G/T), 

  

	 	(2)	the outage margin provided, 

  

	 	(3)	the location of the transmit and receive earth stations within the uplink and downlink beams, and, 

 

	 	(4)	the loading of the transponder (i.e., the number, type and frequency assignment of the various carriers within the transponder). 

For full saturated transponder allocations, earth stations must be capable of transmitting a modulated carrier with an EIRP sufficient to achieve the
nominal satellite SFD given in the Service Specifications with a margin of at least 2 dB. 
 For partial transponder allocations, the actual
assigned operating EIRP for a given earth station will be specified in the Service Specifications, taking into account the actual transponder performance and loading prior to the time of the transmission. 

2.2 EIRP Stability. The EIRP in the direction of the Satellite must, under clear sky conditions, be maintained to within +/-0.5 dB of the assigned
operating EIRP; provided, however, in the event that the transponder transmitted to has multiple carriers, additional EIRP variation may be permitted, upon approval of Intelsat. Under no circumstances may the EIRP exceed the assigned value by
more than 1 dB. 
 2.3 Earth Station Transmit Gain Requirement. The gain of the transmit antenna must be sufficient to yield the maximum
EIRP, as defined in Section 2.1, with a maximum carrier power level at the transmit feed to be determined by coordination agreements reached by Intelsat with other networks. If antenna size resulting from above requirement is excessive,
Intelsat may reduce requirement provided that adjacent satellite flux density limits are maintained. The uplink power of TV carriers, as measured at the transmit earth station antenna feed, shall not exceed any limits specified in this document.

 2.4 HPA Requirement. In determining the HPA size for a given earth station, it is necessary not only for each earth station to meet
the maximum EIRP requirements for each carrier transmitted, but also to meet the emission constraints set forth in Section 3.4 or 4.2, as applicable. If a given earth station is to transmit more than one carrier, the HPA may have to operate at
an output backoff of several dB in order to meet the emission constraints, and therefore, must be sized accordingly. 
 2.5 Antenna
Performance 
 The fixed (hub) earth stations shall satisfy the following transmit sidelobe performance envelopes: 

 

					
	G < = 29 - 25 log10 (q) dBi,	 	1°<              q < = 
7°	 	
	G < = 8 dBi,	 	                    7°<	 	q < = 9.2°
	G < = 32 - 25 log 10 (q) dBi	 	9.2°< q < = 48°	 	
	G < = -10 dBi,	 		 	q > 48°

 

 where G is the gain of the sidelobe envelope, relative to an isotropic antenna, in the direction of the
geostationary orbit and q is the angle in degrees between the main beam axis and the direction considered. 
 The aircraft earth stations antenna performance will be specified in terms of off axis EIRP density as follows: 
 For operations within the territory of the United States of Americ the co-polarized off-axis EIRP spectral-density emitted from the earth station, in the plane of the geostationary satellite orbit (GSO)
as it appears at the particular earth station location, shall not exceed the following values: 
 -50 + (29-25*Log10 (q)) dBW/Hz            1.5°£        q £ 7° 
 For operations outside the territory of the
United States of Americ the co-polarized off-axis EIRP spectral-density emitted from the earth station, in the plane of the geostationary satellite orbit (GSO) as it appears at the particular earth station location, shall not exceed the following
values: 
 -45 + (29-25*Log10
(q)) dBW/Hz            1.5°£ q £ 7° 
 Where q is the angle in degrees between the main
beam axis and the direction considered. 
 2.6 Transmit Earth Station Polarization. 

For the fixed (hub) earth stations the earth station cross-polarization discrimination must be a minimum of 30 dB within the main beam of the earth
station’s transmit antenna pattern. 
 For aircraft earth stations the discrimination must be a minimum of 15 dB within the main beam of
the earth station’s transmit antenna pattern. 
 2.7 Additional Requirements for Uplink Earth Stations operating in the 13.75 –
14.0 GHz Band. 
  

	 	(1)	Earth Stations operating in the United States and Possessions: Unless otherwise expressly approved by Intelsat and then authorized by the FCC, the EIRP of any
emission from any and all earth stations operating in the 13.75 - 14.0 GHz Band shall be at least 68 dBW and shall not exceed 85 dBW, with a minimum antenna diameter of 4.5 meters; provided, however, in the 13.772-13.778 GHz Band, the EIRP shall not
exceed 71 dBW per 6 MHz, with a minimum antenna diameter of 4.5 meters. 

  

	 	(2)	Earth Stations operating outside of the United States and Possessions: With regard to all earth stations operating in the 13.75 – 14.0 GHz Band OUTSIDE of
the United States and Possessions: 

 (a) Earth Stations operating in the 13.75 – 14.0 GHz Band shall have a
minimum diameter of 1.2 meters. 
 (b) EIRP emissions from any and all earth stations operating with an antenna diameter
greater than or equal to 4.5 meters shall be at least 68 dBW and shall not exceed 85 dBW. 
 (c) Earth Stations operations in
the 13.770 – 13.780 GHz Band shall have additional EIRP density limits as defined in International Telecommunications Union Radio Regulations No. 5.503. 
 (d) Without limitation to any of the foregoing conditions or any other conditions in this Attachment or the Agreement, all earth stations must, at all times, comply with all applicable domestic and
international laws, rules, and regulations, as in effect from time to time. 

 

  

					
		 	Intelsat Confidential and Proprietary	 	Page 28 of 30

 3.0 ANALOG VIDEO SERVICE REQUIREMENTS 

Not Applicable 
 4.0
DIGITAL SERVICE REQUIREMENTS 
 4.1 Modem Requirements. The Customer may use any digital, SCPC/PSK, MCPC/PSK satellite modem that
meets their particular requirements, subject to the following constraints which are designed to ensure excess interference is not experienced by adjacent satellites or by other users of the Satellite: 

 

	 	(1)	Digital Modems - Scrambling must be provided to ensure that uniform spectral spreading is applied to the transmitted carrier at all times. A data scrambler built
in accordance with ITU Rec. V.35, or a functionally equivalent unit with similar spectrum spreading characteristics, must be employed. 

  

	 	(2)	SCPC/PSK and MCPC/PSK - In general, any SCPC/PSK or MCPC/PSK modem which meets all relevant ITU recommendations is allowed, subject to prior approval by
Intelsat. 

  

	 	(3)	Other Modems - The use of other modem types is subject to approval by Intelsat. 

 4.2 Emission Constraints. The transmit earth station must be equipped and operated in such a manner that spurious emission at the output of the antenna due to all sources does not exceed 4 dBW/4
kHz outside of the assigned carrier bandwidth. 
 4.3 Carrier Frequency Assignments. Intelsat shall assign Customer’s uplink and/or
downlink frequencies in accordance with the Agreement. Earth stations must be capable of operating at any frequency and polarization within the Service Transponder. For digital transmissions, frequencies will be assigned to the nearest 0.025
MHz. It is recommended that all transmit earth stations further be capable of operation across the entire satellite uplink frequency band as Intelsat may change carrier frequency assignments in accordance with the Agreement. Unless specifically
approved by Intelsat, the aggregate allocated bandwidth of carriers within a multi-carrier transponder or allocation should not exceed 90% of Customer’s total allocated bandwidth in order to provide flexibility in carrier assignments and to
reduce the effects of intermodulation noise, adjacent carrier interference, co-channel interference, and adjacent satellite interference. 
 5.0
UPLINK REQUIREMENTS 
 5.1 Uplink Requirements. Before any transmit earth station may access a Intelsat satellite, it must
demonstrate compliance with the technical requirements set forth in Sections 2.0, 3.0, and 4.0 and have approval from Intelsat’s Network Operations Center. In order to ensure that the transmissions of a given earth station do not interfere with
the transmissions of other earth stations utilizing the Satellite, or adjacent satellites, it is necessary that certain operational requirements be met. Specifically, users of Intelsat’s digital transmission services must observe the following:

  

	 	(1)	The EIRP in the direction of the Satellite must be maintained to within +/- 0.5 dB of the value specified by Intelsat, except under adverse weather conditions. This
EIRP tolerance limit includes all earth station factors which affect EIRP variation, including HPA output power level stability and antenna pointing errors. 

 

	 	(2)	The center frequency of all transmitted carriers must be maintained to within +/- 0.025 R Hz (up to a maximum of +/- 10 kHz) of the value assigned by Intelsat. [Note -
The transmission rate (R) is defined as the bit rate entering the QPSK modulator, i.e., it is the information rate plus overhead multiplied by the inverse of the FEC code rate.] 

 

	 	(3)	The frequency stability of the earth station receive chain must be consistent with the frequency acquisition and tracking capabilities of the demodulator. As a minimum,
it is recommended that the short term (24 hour) receive chain stability be less than +/- 2 kHz and the long term stability (7 day) be less than +/- 10 kHz. 

 

	 	(4)	Any earth station transmitting to a Intelsat Satellite must be under the active control of the user. Specifically, the user must provide a means for immediate cessation
of transmission in the event that

	 	
notification is received from Intelsat that such a step is necessary to avoid harmful interference to other users or other satellite systems. 

5.2 Uplink Restrictions. Except as may be permitted by Intelsat during a coordinated test period, no earth station operator shall transmit an
unmodulated carrier through any transponder. The operation of each earth station must be in strict adherence with Customer’s Intelsat-approved Transmission Plan. Any deviation from that Transmission Plan must be approved in advance by Intelsat.
Under no circumstances shall any earth station transmit any RF carrier to any Intelsat satellite on a frequency not authorized by Intelsat, whether or not that frequency is in use by other stations. 

5.3 Carrier line-up and in-service monitoring. Facilities must be provided by the user to measure the link parameters and transmission
characteristics during initial carrier line-up. In addition, in-service monitoring by the user of the carrier EIRP and the received BER is required. 
 In order to perform initial carrier line-up the user must provide a means to measure and adjust the transmitted carrier level. This requirement can be satisfied if a directional coupler of known coupling
factor is placed between the HPA output and the antenna feed input so as to permit accurate carrier power measurements to be performed. Means must also be provided by the user to allow the transmitted power level to be adjusted to an accuracy of +/-
0.5 dB, over the range 0 to minus 15 dB of the maximum EIRP specified in Service Specifications. 
 During initial carrier line-up it is also
necessary for the user to be able to measure the Eb/No of the received carrier, either with a spectrum analyzer or through a filter of known bandwidth, and to perform bit-error-rate measurements using a pseudo-random test pattern. 

During normal in-service operation, the user must monitor the carrier EIRP and the BER. The latter requirement can be satisfied through the use of the
BER monitoring facility built into most digital modems. 
 5.4 Network Interface Considerations. If carriers transmitted via
Intelsat’s digital transmission service are to be interfaced with a synchronous data network or other synchronous equipment, it may be necessary for the user to equip the receive station with elastic buffer storage facilities (or their
equivalent) to allow for time delay variations caused by Satellite motion. The amount of storage necessary is a function of the carrier transmission rate, the maximum diurnal Satellite motion, and the longitudinal drift rate. The maximum delay
variation due to Satellite motion is expected to be 0.6 milliseconds (peak-to-peak, uplink plus downlink). 
 Data encryption may be employed by
the user, provided that the basic transmission characteristics of the carrier are not affected (i.e., provided that the emission constraints set forth in Section 4.2 are satisfied). 
 While users are free to utilize any digital modem that meets the basic performance requirements outlined in this document, it is the users responsibility to ensure that the modems used on both ends
of a given link are compatible, and that the network interface requirements for the users particular application are satisfied. 
 5.5
Customer Obligations and Use. Customer must, at all times, comply with the terms and conditions of Article III, including all of its Subsections, of the Master Agreement, which are incorporated herein by this reference. 

5.6 Interference and Preemption Notices. In accordance with the terms and conditions of the Agreement, Customer shall maintain, at each Customer
transmit facility, and shall provide Intelsat with a telephone number that is continuously staffed, at all time during which Customer is transmitting or receiving signals to or from the Satellite, and an automatic facsimile that shall be maintained
in operation and capable of receiving messages from Intelsat, at all times. Said telephone and facsimile shall be maintained for the purpose of receiving notices from Intelsat regarding interference or other problems arising out of the provision of
the Service on, or any use of the Service Transponder, including, without limitation, any decision by Intelsat to preempt or interrupt provision of the Service to Customer pursuant to the Agreement. It is mandatory that the person who receives
such messages has the technical capability and absolute authority to immediately terminate or modify the transmission if notified by Intelsat pursuant to the foregoing. All such

 

  

					
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notices shall be effective upon the placement of the telephone call or transmission of a facsimile message by Intelsat to Customer. If, for any reason, Customer’s telephone is not answered
and its telecopier is incapable of receiving transmission, Intelsat’s notice shall be deemed to have occurred at the time it attempts to place a telephone call or transmit a facsimile message to Customer. Intelsat shall promptly confirm
telephone notices in writing. 

 

  

					
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