EN 16602-60-13:2015
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
Space product assurance - Requirements for the use of COTS components
29-02-2016
12-08-2015
European foreword
Introduction
1 Scope
2 Normative references
3 Terms, definitions and abbreviated terms
4 Requirements for class 1 components
5 Requirements for class 2 components
6 Requirements for class 3 components
7 Quality levels
8 Evaluation and lot acceptance for retinned parts
9 Pure tin lead finish - risk analysis
Annex A (normative) - Component control plan (CCP) - DRD
Annex B (normative) - Declared components list (DCL) - DRD
Annex C (normative) - Internal Supplier's specification - DRD
Annex D (normative) - Parts approval document - DRD
Annex E (informative) - EEE documents delivery per review
Annex F (normative) - Justification document - DRD
Annex G (informative) - Difference between the three classes
Annex H (informative) - Flow chart for construction analysis
and destructive physical analysis
Bibliography
This standard defines the requirements for selection, control, procurement and usage of EEE commercial components for space projects.
This standard is applicable to commercial encapsulated active monolithic parts (integrated circuits and discrete):
•diodes
•microwave diodes
•integrated circuits
•microwave integrated circuits (MMIC)
•transistors
•microwave transistors
This standard is not applicable to the commercial parts from the following families:
•capacitors
•connectors
•crystals
•filters
•fuses
•heaters
•inductors
•microwave passive parts
•oscillators
•relays
•resistors
•switches
•thermistors
•transformers
•cables & wires
•hybrids
•surface acoustic waves (SAW)
•charge coupled devices (CCD)
•active pixel sensors (APS)
In addition, the following families of EEE components are not addressed by the present ECSS standard but it can be used as guideline and revisited on case/case basis:
•photodiodes
•light emitting diodes (LED)
•phototransistors
•opto-couplers
•laser diodes
In line with ECSS-Q-ST-60, this standard differentiates between three classes of components through three different sets of standardization requirements (clauses) to be met.
The three classes provide for three levels of trade-off between assurance and risk. The highest assurance and lowest risk is provided by class 1 and the lowest assurance and highest risk by class 3. Procurement costs are typically highest for class 1 and lowest for class 3. Mitigation and other engineering measures can decrease the total cost of ownership differences between the three classes. The project objectives, definition and constraints determine which class or classes of components are appropriate to be utilised within the system and subsystems.
a.Class 1 components are described in Clause 4
b.Class 2 components are described in Clause 5
c.Class 3 components are described in Clause 6
Annex G includes a diagram that summarizes the difference between these three classes for evaluation, screening and lot acceptance.
The requirements of this document are applicable to all parties involved at all levels in the integration of EEE commercial components into space segment hardware and launchers.
For easy tailoring and implementation of the requirements into a Requirement Management Tool, and for direct traceability to ECSS-Q-ST-60, requirements in this standards have been written in the way of a ECSS Applicability Requirement Matrix (EARM), as defined in Annex A of ECSS-S-ST-00 “ECSS system – Description, implementation and general requirements”.
This standard may be tailored for the specific characteristics and constrains of a space project in conformance with ECSS-S-ST-00.
Committee |
CEN/CLC/JTC 5
|
DevelopmentNote |
To be read in conjunction with ECSS-Q-ST-60C. (08/2015)
|
DocumentType |
Standard
|
PublisherName |
Comite Europeen de Normalisation
|
Status |
Withdrawn
|
Standards | Relationship |
ONORM EN 16602-60-13 : 2016 | Identical |
UNI CEI EN 16602-60-13 : 2016 | Identical |
UNE-EN 16602-60-13:2015 | Identical |
BS EN 16602-60-13:2015 | Identical |
NS EN 16602-60-13 : 2015 | Identical |
PN EN 16602-60-13 : 2015 | Identical |
SN EN 16602-60-13 : 2015 | Identical |
DIN EN 16602-60-13:2015-11 | Identical |
I.S. EN 16602-60-13:2015 | Identical |
CEI UNI EN 16602-60-13 : 1ED 2016 | Identical |
NF EN 16602-60-13 : 2016 | Identical |
NEN EN 16602-60-13 : 2015 | Identical |
NBN EN 16602-60-13 : 2015 | Identical |
DS EN 16602-60-13 : 2015 | Identical |
PNE-FprEN 16602-60-13 | Identical |
I.S. EN 16602-60:2015 | SPACE PRODUCT ASSURANCE - ELECTRICAL, ELECTRONIC AND ELECTROMECHANICAL (EEE) COMPONENTS |
EN 16602-60:2015 | Space product assurance - Electrical, electronic and electromechanical (EEE) components |
BS EN 16602-60:2015 | Space product assurance. Electrical, electronic and electromechanical (EEE) components |
MIL-STD-883 Revision K:2016 | TEST METHOD STANDARD - MICROCIRCUITS |
MIL-STD-750 Revision F:2011 | TEST METHODS FOR SEMICONDUCTOR DEVICES |
IPC J STD 033C-1:2014 | HANDLING, PACKING, SHIPPING AND USE OF MOISTURE, REFLOW, AND PROCESS SENSITIVE DEVICES |
EN 16601-00-01:2015 | Space systems - Glossary of terms |
EN 16602-70-08:2015 | Space product assurance - Manual soldering of high-reliability electrical connections |
EN 16602-60-15:2014 | Space product assurance - Radiation hardness assurance - EEE components |
EN 16602-60-14:2014 | Space product assurance - Relifing procedure - EEE components |
EN 16602-60:2015 | Space product assurance - Electrical, electronic and electromechanical (EEE) components |
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