gr-mcp-docs/reference/cospas-sarsat/t-series/t006.md

---
title: "T006: Cospas-Sarsat Orbitography Network Specification C"
description: "Official Cospas-Sarsat T-series document T006"
sidebar:
  badge:
    text: "T"
    variant: "note"
# Extended Cospas-Sarsat metadata
documentId: "T006"
series: "T"
seriesName: "Technical"
documentType: "specification"
isLatest: true
issue: 2
revision: 4
documentDate: "October 2024"
---

> **📋 Document Information**
>
> **Series:** T-Series (Technical)
> **Version:** Issue 2 - Revision 4
> **Date:** October 2024
> **Source:** [Cospas-Sarsat Official Documents](https://www.cospas-sarsat.int/en/documents-pro/system-documents)

---

# T006 - T006-OCT-24-2024.pdf

**Pages:** 12

---


 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
  
 
 
 
 
 
COSPAS-SARSAT 
 
ORBITOGRAPHY NETWORK 
 
SPECIFICATION 
 
 
 
C/S T.006 
 
Issue 2 - Revision 4 
 


COSPAS-SARSAT ORBITOGRAPHY NETWORK SPECIFICATION 
 
 
 
History  
 
 
 
Issue 
Revision 
Date 
Comments 


Approved by the Cospas-Sarsat Council (CSC-7) 


Approved by the Cospas-Sarsat Council (CSC-27) 


Approved by the Cospas-Sarsat Council (CSC-43) 


Approved by the Cospas-Sarsat Council (CSC-47) 


Approved by the Cospas-Sarsat Council (CSC-51) 


Approved by the Cospas-Sarsat Council (CSC-71) 
 
 

TABLE OF CONTENTS 
 
Page 
 
 
1. 
INTRODUCTION ..................................................................................................... 1-1 
 
 
1.1 
Overview ......................................................................................................... 1-1 
 
1.2 
Scope ............................................................................................................... 1-1 
 
1.3 
Reference Documents ..................................................................................... 1-1 
 
 
2. 
COSPAS-SARSAT ORBITOGRAPHY NETWORK DESCRIPTION ............... 2-1 
 
 
2.1 
Purpose ............................................................................................................ 2-1 
 
2.2 
Characteristics ................................................................................................. 2-1 
 
2.3 
Back-up Procedures ......................................................................................... 2-1 
 
2.4 
List of Orbitography Beacons in System ........................................................ 2-2 
 
 
3. 
ORBITOGRAPHY BEACON REQUIREMENTS AND SPECIFICATIONS ... 3-1 
 
 
3.1 
Requirements for Supplying an Orbitography Beacon ................................... 3-1 
 
3.2 
Specification Unique to Orbitography Beacons .............................................. 3-1 
 
 
4. 
TIME CALIBRATION BEACON CHARACTERISTICS ................................... 4-1 
 
 
 
ANNEXES: 
 
Annex A - Commitment of the Orbitography Beacon Provider ........................................... A-1 
 
 
 
 
 


 
1 - 1 
 
 

1 - INTRODUCTION 
 
 
1.1 
Overview 
 
The purpose of the Cospas-Sarsat System is to provide distress alert and location data for 
search and rescue (SAR), by using spacecraft and ground facilities to detect and locate distress 
signals and transmit the computed position and other related information to appropriate SAR 
authorities. 
 
The Doppler technique, used by Local User Terminals that track Cospas-Sarsat low altitude 
Earth orbiting satellites (LEOLUTs) to locate distress signals, needs an accurate determination 
of the satellite position. The Cospas-Sarsat orbitography network is used by LEOLUTs to 
compute accurate satellite ephemeris. 
 
 
1.2 
Scope 
 
This document describes the Cospas-Sarsat orbitography network and gives the specifications 
of its elements. 
 
 
1.3 
Reference Documents 
 
The following documents contain useful information to the understanding of this C/S T.006 
document:  
 
a) 
Introduction to the Cospas-Sarsat System, C/S G.003; 
 
b) 
Specification for Cospas-Sarsat 406 MHz Distress Beacons, C/S T.001; 
 
c) 
Cospas-Sarsat LEOLUT Performance Specification and Design Guidelines, 
C/S T.002; 
 
d) 
Description of the Payloads Used in the Cospas-Sarsat LEOSAR System, C/S T.003; 
 
e) 
Cospas-Sarsat Data Distribution Plan, C/S A.001. 
 
 
 
 
- END OF SECTION 1 – 
 
 


 
2 - 1 
 
 

COSPAS-SARSAT ORBITOGRAPHY NETWORK DESCRIPTION 
 
 
2.1 
Purpose 
 
The Cospas-Sarsat 406 MHz system provides world-wide global coverage. All LEOLUTs have 
the capability to locate 406 MHz distress beacons anywhere on the Earth. Achieved location 
accuracy is dependent on various parameters.  Of these parameters, satellite orbit ephemeris is 
dealt within the document.  
 
The contribution to the location error budget due to orbit determination error is required to be 
less than 2 km (see Cospas-Sarsat LEOLUT Performance Specification and Design Guidelines, 
C/S T.002).  An efficient way to achieve such accuracy is to perform orbit ephemeris updates 
based on data received from high-quality beacons placed at accurately known locations. 
 
These high-quality beacons also provide an ideal resource to complete the Quality 
Management System (QMS) objectives stated in section 7 of C/S P.015 “Cospas-Sarsat 
Quality Manual”. 
 
 
2.2 
Characteristics 
 
The network consists of three 406 MHz orbitography beacons located at high latitudes and the 
time reference beacon located at Toulouse, France.  The identification and location of these 
beacons are given on the Cospas-Sarsat website www.cospas-sarsat.org. These beacons 
provide sufficient data to allow any Cospas-Sarsat LEOLUT to achieve the specified orbit 
determination accuracy.  If an orbitography beacon fails then data from the time calibration 
beacon (see C/S A.001) may be used until the beacon which had failed has been returned to 
service. 
 
 
2.3 
Back-up Procedures 
 
In case of failure of satellite on-board equipment, back-up procedures for updating the orbit 
ephemeris are necessary. 
 
In order to collect data from the orbitography beacons, the onboard Search and Rescue 
Processor (SARP), including its memory, has to function properly.  In case of on-board SARP 
memory failure, the recommended back-up procedures are to update orbit ephemeris using data 
collected from either the Cospas-Sarsat MCC Network or measurements on the satellite 
down-link frequency.  Degraded accuracy in orbit ephemeris determination is accepted in this 
back-up mode.  The preferred orbit update methods, listed in order of priority for each specific 
payload, is provided at Annex III/D of document C/S A.001 (DDP). 


 
2 - 2 
 
 

2.4 
List of Orbitography Beacons in System 
 
The orbitography beacons used in the Cospas-Sarsat System are provided by Denmark, 
Norway, the USA and France.  The complete list of beacons, including the identification and 
location of each, is provided on the Cospas-Sarsat website www.cospas-sarsat.org. 
 
 
 
 
- END OF SECTION 2 - 
 


 
3 - 1 
 
 

3 - ORBITOGRAPHY BEACON REQUIREMENTS AND SPECIFICATIONS 
 
 
3.1 
Requirements for Supplying an Orbitography Beacon 
 
 
Supplying an Orbitography Beacon: 
 
An orbitography beacon is supplied by a country accepting the commitment stated 
in Annex A. 
 
 
Availability: 
 
Once an orbitography beacon has been installed, its availability shall be greater than 
95%. 
 
 
Location Data: 
 
The beacon antenna location (longitude, latitude, altitude) shall be provided with a 
three dimensional accuracy better than 10 m.  This location shall be given with 
respect to the Bureau International de l'Heure (BIH) Conventional Terrestrial 
System, having a reference ellipsoid defined as follows: 
 
 
Semi-Major Axis 
 
= 6378137 m 
 
 
Flattening (Ellipticity) 
= 1/298.2572 
 
The location of all orbitography beacons is given on the Cospas-Sarsat website 
www.cospas-sarsat.org. 
 
 
Antenna Blockage: 
 
The orbitography beacon antenna should be located to provide the widest possible 
horizon. 
 
3.2 
Specification Unique to Orbitography Beacons 
 
 
Orbitography beacons shall conform to all specifications defined in the 
Specification for Cospas-Sarsat 406 MHz Distress Beacons (document C/S T.001), 
except for the following: 
 
 
Repetition period: 
 
The period between transmissions shall be 30 s + 5%.  Variation of the repetition 
period is recommended.  If the repetition period is not varied, beacon activation 
must be co-ordinated with other providers of orbitography beacons to prevent 
repeated transmission collisions.  The time calibration beacon in Toulouse (which 
must have a constant repetition period) is the standard to which other non-varied 
beacons should be co-ordinated. 
 
 
 


 
3 - 2 
 
 

Transmitted Frequency: 
 
A crystal warm-up period of up to 2 hours is allowed before transmissions occur. 
Power outages should reset this timer. 
 
 
 
Initial frequency: 
 
 
The transmitted frequency shall be 406.022 MHz + 1 kHz. The transmitted 
frequency has been fixed to 406.034 MHz for an orbitography beacon 
specifically introduced in the system for MEOSAR applications. The exact 
transmit frequency of each orbitography beacon is provided on the Cospas-
Sarsat website www.cospas-sarsat.org. 
 
 
 
Long term frequency stability: 
 
 
The transmitted frequency shall not vary more than 1 part in 1010 per day. 
 
 
 
Short term frequency stability: 
 
 
The transmitted frequency shall not vary more than 1 part in 1010 in 100 ms. 
 
 
 
Medium term frequency stability: 
 
 
The mean slope shall not exceed 5 parts in 1011 per minute.  Residual frequency 
variation shall not exceed 1 part in 1010. 
 
 
Antenna Characteristics: 
 
The antenna polarization shall be right-hand circular polarization (RHCP), except 
for the second Toulouse orbitography beacon which transmits at 406.034 MHz and 
has a left-hand circular polarization (LHCP). 
 
 
Environmental and Operational Requirements: 
 
The orbitography beacon is designed to be operated within a controlled 
environment and therefore is not subjected to the thermal or other operational 
requirements specified in C/S T.001. 
 
 
 
Temperature requirements 
 
 
Operating temperature range:  
+15o C to +40o C 
 
 
Storage temperature range: 
 
-20o C to +60o C 
 
 
Orbitography Protocol: 
 
The orbitography user protocol must be used.  This protocol, defined in C/S T.001, 
is as follows: 
 
Bits  
 
Usage 
 
1-15 
 
bit synchronization 
 
16-24 
 
frame synchronization 

format flag ("0" for short message and "1" for long message) 

protocol flag (set bit to "1") 
 
27-36 
 
country code (MID) 
 
37-39 
 
orbitography protocol ("000") 
 
40-81 
 
seven character orbitography beacon clear text identifier using the 
modified Baudot code (see C/S T.001) The seven characters shall be 
right justified.  Characters not used shall be filled with the "space" 
character (100100). 
 
82-85 
 
4 binary zeros ("0000") 

national use (set bit to "0") 
 
108-112  
national use 


 
3 - 3 
 
 

113-144  
optional long message.  National use. 
 
The 15 hexadecimal character identification used by the MCCs describes bits 26 
through 85 (i.e., 60 bits). 
 
 
 
- END OF SECTION 3 - 
 
 


 
4 - 1 
 
 

4 - TIME CALIBRATION BEACON CHARACTERISTICS 
 
 
This beacon is a special time calibration unit operated by, and under the responsibility of, 
France.  This beacon is used to compute the roll-over time of the on-board counter of the 
406 MHz Search and Rescue Processors (SARPs) on Sarsat satellites (i.e., Sarsat time 
calibration), and has the following characteristics: 
 
- 
it complies with the orbitography beacon performance standard and, therefore, can be 
used as an orbitography beacon; 
 
- 
each burst transmission is synchronized with UTC, such that the negative-going 
transition of the 23rd bit occurs 216.405 ms + 0.01 ms after the UTC time encoded in 
the burst, as described below; and 
 
- 
the message field is 144 bits. 
 
The time calibration beacon transmits UTC in the "long message" format described in 
C/S T.001, where the coding of bits 113 to 144 is as follows: 
 
Bits 
 
 
 
Usage 
 
113 - 144  
 
 
Universal Coordinated Time as follows: 
 
 
113 - 124 
Julian days (BCD) 
 
125 - 132 
hours (BCD) 
 
133 - 140 
minutes (BCD) 
 
141 - 144 
tens of seconds (BCD) 
 
 
 
 
- END OF SECTION 4 - 
 
 


 
A-1 
 
 

ANNEX A  
 
 
 
COMMITMENT OF THE ORBITOGRAPHY BEACON PROVIDER 
 
 
 
The installation and operation of an orbitography beacon is based upon a mutual agreement 
between Cospas-Sarsat and the country providing such a beacon, whereby the Cospas-Sarsat 
Council accepts the proposed provision of the orbitography beacon and the providing country 
agrees to abide to the following principles: 
 
 
 
- 
the host country will assume all costs of providing, operating and maintaining 
the beacon in service; 
 
 
- 
in taking the decision where to place an orbitography beacon, both 
Cospas-Sarsat system requirements and the supplying country's requirements 
should be taken into account; 
 
 
- 
the supplying country will inform Cospas-Sarsat of the precise location of the 
orbitography beacon; 
 
 
- 
the orbitography beacon shall meet the Cospas-Sarsat specifications defined in 
document C/S T.006; 
 
 
- 
both Cospas-Sarsat and the country supplying the beacon may request the 
termination of the operation of the orbitography beacon; 
 
 
- 
such decision will be subject to discussions and will not take effect until 
12 months after the request has been made by one of the parties involved; and 
 
 
- 
in case of a major failure of the beacon, the supplying country will not be 
obliged to supply a new beacon. 
 
 
 
- END OF ANNEX A - 
 
 
- END OF DOCUMENT - 
 
 
 


 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
  
 
Cospas-Sarsat Secretariat 
1250 René-Lévesque Blvd. West, Suite 4215, Montréal (Québec) H3B 4W8 Canada 
Telephone: +1 514 500 7999 
Fax: +1 514 500 7996 
Email: mail@cospas-sarsat.int 
Website: http://www.cospas-sarsat.int