top - download
⟦9c54f9392⟧ Wang Wps File
Length: 119257 (0x1d1d9)
Types: Wang Wps File
Notes: PC SYSTEM REQUIREMENTS
Names: »2007A «
Derivation
└─⟦676de05ed⟧ Bits:30006247 8" Wang WCS floppy, CR 0153A
└─ ⟦this⟧ »2007A «
WangText
/ .…08….…0c….…00….
.…07…-…0b…-…02…-…05…,…0d…,…0e…, +…0b…+…01…+…07…*…0d…*…01…*…06…)…0d…)…02…(…08…(…00…(…07…'…0d…'
&…08…&…0c…&…0d…&
%…0a…%…00…%…07…$…0e…$…06…#…0c…#…02…"…08……86…1
…02…
…02… …02…
…02…SHNMO-82-9205-INF
…02…1982-04-29…02……02…#
PROTOCOL
CONVERTER
SYSTEM
REQUIREMENTS
SPECIFICATION PC
A P P E N D I X G
SYSTEM REQUIREMENTS SPECIFICATION
1. Introduction
1.1 Precedence of sections
1.2 Document References
2. Technical Overview
2.1 System overview, location, purpose
2.2 Connectivity and mode of operation
2.3 Circuit usage flexibility
2.4 Facilities and functions
2.5 Installation
2.6 Equipment Configuration
2.7 Message and Data Handling
2.8 Control
2.9 Security
2.10 Software
2.11 Supervisor and Control Function
2.12 Implementation and testing
3. Technical Requirements
3.1 Equipment to be provided
3.1.1 General
3.1.2 Integration of SHAPE Supplied Equipment
3.1.3 Performance and Interface Characteristics
of SHAPE supplied Equipment
3.1.4 Quantities of Equipment to be supplied
by SHAPE
3.1.5 Interchange Circuits-electrical characteristics
3.1.6 Equipment to be provided by CR
3.2 Communication Links between Systems
3.2.1 Mode of Operation
3.2.2 Baud Rates
3.3 Transaction Interchange Requirements
3.3.1 Messages Types and Formats
3.3.2 Transaction characteristics
3.3.3 Format Definition Parameters
3.3.4 Format Control
3.3.5 Precedence and Preemption
3.3.6 Converter Performance Requirements
3.3.7 Alphabet
3.3.8 Traffic control
3.4 Converter requirements
3.4.1 Converter characteristics
3.4.2 Assistance facilities and functions
3.4.3 System Initialization
3.4.4 Recovery
3.4.5 Reconfiguration
3.4.6 Maintenance Requirements
3.4.7 Interface Characteristics
4. Availability and Maintainability
4.1. General
4.2 Terms
4.3 Availability Calculation
4.4 Availability and Reliability Performance
Requirements
4.5 R & M Model
4.6 R & M Testing Requirements
4.6.1 Availability Verification
5. Software Engineering Requirements
5.1 Systems Principles
5.2 System Software
5.3 Application Software
5.4 Software Implementation
5.5 Software Maintenance and Modification
5.6 Support Software
5.6.1 Factory Test Software
5.7 Software Integrity
5.8 Protection of Software against EMP
6. General Technical Requirements
6.1 General
6.1.1 Equipment Produced by Christian Rov-
sing A/S
6.1.2 Products From Other Suppliers
6.2 Special Requirements for the Protocol
Converter
6.2.1 Environmental Conditions
6.2.2 Environmental Testing
6.2.3 Utility Outlet Sockets
6.2.4 Materials
6.2.5 Interchangeability
6.2.6 Bench Handling
6.2.7 Cover Plates
6.2.8 Cabling and Fittings
6.2.9 Flux and Soldering
6.2.10 Ventilation and Cooling
6.2.11 Electromagnetic Compatibility
6.2.12 Test and Repair
6.2.13 Consumable Parts
6.2.14 Safety
6.2.15 Nameplates and Product Marking
6.2.16 Controls
6.2.17 Acoustic Noise
6.2.18 Physical Characteristics
7. Security
7.1 TEMPEST Acceptance
8. Logistic Requirements
8.1 Transportation and Installation
8.1.1 Transportation
8.1.2 Installation
8.2 Maintenance and Support
8.2.1 Maintenance Philosophy
8.2.2 Maintenance Plan
8.2.3 Tools and Test Equipment
8.3 Spares and Codification
8.3.1 Supply of Spare Parts
8.3.2 NATO Codification
9. Training
9.1 General Requirements
9.2 Target Population
9.3 Documentation and Training Aids
9.4 Training Program Plan
10. Documentation Requirements
10.1 General
10.2 Format and Publication Criteria
10.2.1 Paper
10.2.2 Binding
10.2.3 Numbering
10.2.4 Preface
10.2.5 Printing and Type
10.2.6 Language
10.2.7 Security Classification
10.2.8 Photographs, Illustrations and Drawings
10.2.9 Amendments
10.2.10 Use of References
10.3 Approval and Delivery
10.4 Equipment Handbooks
10.4.1 CR Produced Equipment
10.4.2 OEM Equipment
10.5 Maintenance Handbook
10.5.1 Preventive Maintenance (Site)
10.5.2 Corrective Maintenance (Site)
10.5.3 Associated Documentation
10.6 Engineering Drawing Documentation
10.6.1 Civil Works Requirements
10.6.2 As-to-be-Built and As-Built Documentation
10.7 Inventory
10.7.1 General
10.7.2 Property Inventory
10.8 Software Documentation
10.8.1 General
10.8.2 Documentation Structure
10.8.3 Software Specification (System Level)
10.8.4 Package Specifications
1. I̲N̲T̲R̲O̲D̲U̲C̲T̲I̲O̲N̲
In 1973, the Military Committee approved a concept
for the improvement of command and control through
the use of ADP. This concept includes a requirement
for the interlinking of host computers supporting an
ACE wide data base which is updated from information
primarily contained in original messages of the ACE
reporting system. The interlinking of CAMPS, SCARS
and ACE CCIS systems is a major step towards the realization
of this concept. The CAMPS (Computer Aided Message
Processing System) will be installed at SHAPE and in
the Central Region (CR) starting in January 1983.
As of Jan 1983, testing will begin and continue until
June 1983 Likewise, SCARS II (Status Control Alerting
and Reporting System) will be installed at SHAPE starting
in June 1983. CAMPS and SCARS II are required to interface
with the Honeywell 6060 at SHAPE and the Central Region
(CR) to permit an automated message flow between the
networks supporting the systems. Interface adaptions
are required at SHAPE and in Central Region Sites supported
by existing CCIS Honeywell 6060 equipments. The goal
is to achieve interoperability between systems.
1.1 P̲r̲e̲c̲e̲d̲e̲n̲c̲e̲ ̲o̲f̲ ̲S̲e̲c̲t̲i̲o̲n̲s̲
Section 2 of this document is an executive summary
of the technical requirement. Section 3 and subsequent
sections will detail the requirements.
1.2 D̲o̲c̲u̲m̲e̲n̲t̲ ̲R̲e̲f̲e̲r̲e̲n̲c̲e̲s̲
The following documents are referenced in this SRS:
1. Functional Description (FD), SHAPE, 5 February
1981 in the revision attached to ref 2 below as
annex E
2. System Specification (SS) Burroughs Vol IIIA +
Rev A and B, 30 June/15 Jul 81, or Christian Rovsing
CPS/ICD/006, 10 Nov 81
3. Remote Computer Protocol (RCI) Honeywell DD40B
rev. 0 July 1976
4. DINDAC CCTC TR-01, 30 June 1978
5. WWMCCS ADP Telecom Standard Engineering Practices,
DCA Nov. 1979
6. ACE Security Directive 70-1, dtd 31 Aug 1979 with
Change 2 dtd 6 Feb 81.
7. ACE ADP Standards Manual 96-1-1, part no. 007-3
dtd 14 Jan 1980
8. AMSG 720A dated January 1977
9. AMSG 719B dated September 1976
10. AQAP 1, 13
11. DINDAC Interface Parameter Document (delivery by
SHAPE on or before 15. May 82)
12. Control wires and functions for WWMCCS-PC link
(delivery by SHAPE on or before 3. May 82)
2. T̲E̲C̲H̲N̲I̲C̲A̲L̲ ̲O̲V̲E̲R̲V̲I̲E̲W̲ ̲
2.1 S̲y̲s̲t̲e̲m̲ ̲O̲v̲e̲r̲v̲i̲e̲w̲,̲ ̲l̲o̲c̲a̲t̲i̲o̲n̲,̲ ̲p̲u̲r̲p̲o̲s̲e̲
The system connectivity diagram overleaf functionally
describes the physical interconnection at the various
sites. The new hardware component is inserted in the
link between the two systems to perform the physical
and protocol conversion functions.
2.2 C̲o̲n̲n̲e̲c̲t̲i̲v̲i̲t̲y̲ ̲a̲n̲d̲ ̲m̲o̲d̲e̲ ̲o̲f̲ ̲o̲p̲e̲r̲a̲t̲i̲o̲n̲
Concurrently with the installation of the converters,
ACE personnel will configure H6060 host computers with
existing standard WWMCCS software protocols and interface
transactions handlers to accept and dispatch transactions
to the protocol converter(s).
One on-line converter will be installed for each link.
One off-line converter will be available at each site
for back-up purposes. The off-line converter may be
brought on-line by manual replacement with one of the
on-line converters. The time to initialize the off-line
converter shall not exceed 3 min. (excluding the time
for converter replacement).
The converter shall be designed for continuous operation.
The calculated MTBF for one converter is equal to 3390
hours. The MTTR for a converter shall not exceed 1
hour for 95% of all cases.
2.3 C̲i̲r̲c̲u̲i̲t̲ ̲U̲s̲a̲g̲e̲ ̲F̲l̲e̲x̲i̲b̲i̲l̲i̲t̲y̲
The converter will be designed in such a way that it
can be used for all signal lines irrespective of the
specifics of the systems interconnected. (CAMPS or
SCARS). PC to SCARS II and CAMPS will use a full duplex
synchronous electrical level on a medium speed circuit
using CCITT V24/V28 and NATO low level interface criteria
as defined in reference 2. For the PC-WWMCCS interface,
the electrical level will provide a full duplex MIL
STD 188C low level interface as defined in reference
5 and 12.
Figure 2-1
System Connectivity
2.4 F̲a̲c̲i̲l̲i̲t̲i̲e̲s̲ ̲a̲n̲d̲ ̲f̲u̲n̲c̲t̲i̲o̲n̲s̲
Each converter installation will be designed to perform
and provide, as appropriate, the following basic facilities
and functions.
- transaction exchange with the interconnected computer
systems.
- protocols conversion at level 1,2 and 3 for the
CAMPS/SCARS II interface and RCI and DINDAC levels
for the WWMCCS interface.
- processing of service message at level 1,2 and
3 for the CAMPS/SCARS II interface and RCI and
DINDAC levels for the WWMCCS interface.
- creation of a prestored set of testmessages to
be transmitted to CAMPS/SCARS II and WWMCCS.
- reception of testmessages and comparison with the
abovementioned set of testmessages.
- provision of three modes of operation:
a. off line - test/maintenance
b. on line test message creation/reception
c. operation
- guidance of maintenance activity in maintenance
mode.
2.5 I̲n̲s̲t̲a̲l̲l̲a̲t̲i̲o̲n̲
The converter shall be installed in accordance with
AMSG 719B and shall satisfy AMSG 720A TEMPEST Requirements
and consist as a minimum of:
- The converter system, complete with sufficient
memory and circuit interface capacity.
- A maintenance position (VDU) equipped with a keyboard.
- Red patch and test facilities for MONITOR, LINE
and equipment accesses.
- Filters, cable head and connectors for terminating
the circuit connections to the installation.
- Inter-converter cabling.
- Test equipment, tools and spares to meet the on-site
maintenance philosophy as specified in section
8.2.
- Set of documentation for operation, test and maintenance
in accordance with the requirements of section
10.
Actual quantities to be provided at each site is listed
in appendix E of this contract: Deliverable Items
and Milestone Plan.
2.6 E̲q̲u̲i̲p̲m̲e̲n̲t̲ ̲C̲o̲n̲f̲i̲g̲u̲r̲a̲t̲i̲o̲n̲
At the Maastricht site two converters are installed
within one TEMPEST rack. At SHAPE and Erwin three converters
are installed. Two within one TEMPEST rack and a replacement
converter outside the TEMPEST rack. The colocation
of converter equipments shall not impact different
mode of operation of one or two running converters.
During maintenance of one converter downgraded TEMPEST
requirements are acceptable as specified in section
7.1 of this SRS.
2.7 M̲e̲s̲s̲a̲g̲e̲ ̲a̲n̲d̲ ̲d̲a̲t̲a̲ ̲h̲a̲n̲d̲l̲i̲n̲g̲
Messages and data routed on CAMPS/SCARS - CCIS medium
speed connections are to be transmitted and handled
in accordance with Ref. 1, and 2 for the CAMPS/SCARS
- converter link and with Ref 3, 4 and 11 for the converter
- CCIS link.
The Protocol Converter shall not disturb the end-to-end
requirements for message accountability, and security,
irrespective of the type of format employed for the
respective links.
The PC shall not prevent authorized access to CAMPS/SCARSII/ACCIS
Computer Systems.
2.8 C̲o̲n̲t̲r̲o̲l̲
The converter shall contain the following control facilities:
a) be transparent for the data that passes through
the converter, i.e. it shall not modify the message
information content.
b) after any failure it shall not by means of generated
acknowledgement and other signals provoke accidental
loss of transfer i.e. provoke the two connected
systems to believe that data have been transferred
correctly. (See also section 3.4.7).
c) not permit dead lock, i.e. where the converter
is in a permanent blocked state waiting for a message
which will never arrive.
d) not permit critical blocking
e) provide security by physical, electrical and software
means
f) each converter shall have identical HW and SW control
facilities.
2.9 S̲e̲c̲u̲r̲i̲t̲y̲
a) The design of each converter installed shall prevent
illegal access, corruption and compromise of the
data in transit in the converter and data in the
interconnected systems.
b) The contractor shall provide HW and SW which satisfies
ACE Directive 70-1 (Reference 6) for transmitting
and processing classified information.
c) The equipment shall be enclosed in shielded racks
and be installed in compliance with AMSG 719B.
2.10 S̲o̲f̲t̲w̲a̲r̲e̲
2.10.1 S̲o̲f̲t̲w̲a̲r̲e̲ ̲D̲e̲s̲i̲g̲n̲
a) The fundamental properties of the software which
must be considered in depth during the design,
development and production are its quality, integrity
and flexibility. It must be:
- developed to ACE acceptable software engineering
techniques as specified in Section 5
- proved to have met ACE acceptable Quality Assurance
during development (reference 10).
- documented to ACE standards (Reference 7 with
revisions that has been approved by SHAPE during
the CAMPS contract, prior to PC Contract signature).
- in line with ACE Security Directive 70-1 (reference
6)
- subject to SHAPE Configuration Control by commencement
of Factory Acceptance Testing.
b) The software packages to be developed shall be
well structured aimed at respecting the layers
of the involved protocols. It shall be a design
aim that protocol layers can be changed without
affecting lower and upper layers. Any deviations
from this shall be explained during design reviews.
2.10.2 S̲y̲s̲t̲e̲m̲ ̲S̲o̲f̲t̲w̲a̲r̲e̲
The system software shall be the applicable parts of
the CR operating system with utilities named AMOS.
The system software shall include all the facilities
to load and execute the application software.
Editing and compilation of the application software
can take place at the CAMPS software development facility.
2.10.3 A̲p̲p̲l̲i̲c̲a̲t̲i̲o̲n̲ ̲S̲o̲f̲t̲w̲a̲r̲e̲
The application software shall be provided as a well-structured
suite running on the software and hardware facilities
of the proposed system. It shall be a design aim that
each functional module of application software shall
satisfy the following criteria:
- It shall provide a well defined function or groups
of functions at some hierarchical level in the
software system.
- It shall have well defined, compact input and output
interfaces with well defined validity checks.
- It shall be separately compiled/assembled.
2.11 S̲u̲p̲e̲r̲v̲i̲s̲o̲r̲ ̲a̲n̲d̲ ̲C̲o̲n̲t̲r̲o̲l̲ ̲F̲u̲n̲c̲t̲i̲o̲n̲s̲
a) A maintenance VDU shall be provided to operate
in the ON-line and OFF-line test and/or maintenance
modes as well as to provide an I/O device for operator
actions required during system initialization.
The maintenance VDU shall be connected to the converters
using a fiberoptic connection and electrical patching
facilities inside the rack. The VDU and its installation
are to satisfy the AMSG 720 A and 719 B criteria.
The converter shall be able to work without the
maintenance VDU.
b) The Software Design Specification shall describe
the use of the maintenance VDU in all modes of
operation.
c) A 16 circuit modular Dynatech patch panel and a
Dynatech V 24 Breakout Test Panel shall be provided
at each site.
2.12 I̲m̲p̲l̲e̲m̲e̲n̲t̲a̲t̲i̲o̲n̲ ̲a̲n̲d̲ ̲T̲e̲s̲t̲i̲n̲g̲
Acceptance testing shall take place in four phases:
1. Factory acceptance test
2. Preliminary site Acceptance Test to verify the
PC-WWMCCS interface (SHAPE site only).
3. Provisional site Acceptance Test on all three sites
to verify all the functions of the converter and
its interfaces for WWMCCS and CAMPS.
4. Provisional Site Acceptance Test to verify the
SCARS II interface. This test shall take place
at SHAPE. No later than 30. August 1983.
All acceptance tests will be specified in the test
plan and test procedures and documented in the test
reports.
Software warranty will commence after satisfactory
performance of the provisional site acceptance test
to verify the SCARSII interface.
HW warranty will commence at Provisional Site Acceptance
of each converter.
3. T̲E̲C̲H̲N̲I̲C̲A̲L̲ ̲R̲E̲Q̲U̲I̲R̲E̲M̲E̲N̲T̲S̲
3.1 E̲q̲u̲i̲p̲m̲e̲n̲t̲ ̲t̲o̲ ̲b̲e̲ ̲p̲r̲o̲v̲i̲d̲e̲d̲
3.1.1 G̲e̲n̲e̲r̲a̲l̲
The equipment to be provided is specified in appendix
E to this contract specification. The technical requirements
are specified in this section.
3.1.2 I̲n̲t̲e̲g̲r̲a̲t̲i̲o̲n̲ ̲o̲f̲ ̲S̲H̲A̲P̲E̲ ̲S̲u̲p̲p̲l̲i̲e̲d̲ ̲E̲q̲u̲i̲p̲m̲e̲n̲t̲
The equipment to be provided by the contractor shall
be used in conjunction with the following SHAPE furnished
equipment and facilities:
a) Power, operating environment as specified in section
6.2.1.
b) Signal cables, including one reserve per connection,
to CAMPS, SCARS II and WWMCCS terminated at the
converter installation. CR will supply and mount
connectors at PC end, and test the connections.
c) a CAMPS, SCARS II and WWMCCs functioning in accordance
with the referenced specifications.
Purchaser furnished equipment, facilities and services
are further specified in appendix D of this contract.
3.1.3 P̲e̲r̲f̲o̲r̲m̲a̲n̲c̲e̲ ̲a̲n̲d̲ ̲I̲n̲t̲e̲r̲f̲a̲c̲e̲ ̲C̲h̲a̲r̲a̲c̲t̲e̲r̲i̲s̲t̲i̲c̲s̲
o̲f̲ ̲S̲H̲A̲P̲E̲ ̲s̲u̲p̲p̲l̲i̲e̲d̲ ̲E̲q̲u̲i̲p̲m̲e̲n̲t̲
a) The electrical and operating characteristics of
the NATO furnished equipment and facilities is
described in the following documents:
- Remote Computer Protocol (reference 3)
- DINDAC Programme (reference 4)
- DINDAC Parameters for interface with WWMCCS
application as provided by SHAPE in reference
11
- Control wires and functions for WWMCCS - PC
link (reference 12)
- WWMCCS I/O Port Characteristics (reference 5)
b) CAMPS and SCARS II electrical and operational characteristics
are given in SS document (reference 2)
3.1.4 Q̲u̲a̲n̲t̲i̲t̲i̲e̲s̲ ̲o̲f̲ ̲E̲q̲u̲i̲p̲m̲e̲n̲t̲ ̲t̲o̲ ̲b̲e̲ ̲s̲u̲p̲p̲l̲i̲e̲d̲ ̲b̲y̲ ̲S̲H̲A̲P̲E̲
SHAPE shall supply all metallic signal cables to and
from the converter installation. These cables shall
be the ACE COMSEC approved cables.
Other equipment might be needed during the testphase.
CR will identify this equipment in the test plan. This
equipment will be limited to SHAPE line test equipment
and possibly a V24 signal analyser.
3.1.5 I̲n̲t̲e̲r̲c̲h̲a̲n̲g̲e̲ ̲C̲i̲r̲c̲u̲i̲t̲s̲-̲e̲l̲e̲c̲t̲r̲i̲c̲a̲l̲ ̲c̲h̲a̲r̲a̲c̲t̲e̲r̲i̲s̲t̲i̲c̲s̲
a) CAMPS/SCARS - converter interchange circuits shall
be as defined in SS documents (reference 2). They
shall have electrical characteristics as specified
in CCITT recommendation V28 with modification for
low level signalling.
b) Converter - CCIS interchange circuits shall be
as specified in WWMCCS ADP telecom standards DCA
for DN 355 and DN 6678 connections (Reference 5)
and SHAPE document (reference 12). I/O parts characteristics
are identical for DN 355 and DN 6678. The electrical
characteristics and clock requirements shall be
MIL STD 188C.
c) The driving distance for the interface cables as
seen from the PC shall be 275 m, based on the drivers
designed for CAMPS and approved by ACE COMSEC.
3.1.6 E̲q̲u̲i̲p̲m̲e̲n̲t̲ ̲t̲o̲ ̲b̲e̲ ̲p̲r̲o̲v̲i̲d̲e̲d̲ ̲b̲y̲ ̲C̲R̲
CR shall provide the following equipment in accordance
with the requirements of this contract.
a) site 1. SHAPE
1- 3 converters. Two installed in a one-rack tempest
configuration and one outside.
2- filters for entry into the rack of power lines
and signal lines.
3- one tempest VDU with fiberoptic cable destined
for maintenance and test and to be shared by
manual patching between all three converters.
4- a patch-facility within the tempest rack for
patching of signal lines and the VDU connection.
b) site 2.
as for site 1.
c) site 3
1- 2 converters. One installed in a one rack tempest
configuration and one outside.
2- filters for entry into the rack of power lines
and signal lines.
3- one tempest VDU with fiberoptic cable destined
for maintenance and test and to be shared
by
manual patching between both converters.
4- a patch-facility within the tempest rack for
patching of signal lines and the VDU connection.
3.2 C̲o̲m̲m̲u̲n̲i̲c̲a̲t̲i̲o̲n̲ ̲L̲i̲n̲k̲s̲ ̲b̲e̲t̲w̲e̲e̲n̲ ̲S̲y̲s̲t̲e̲m̲s̲
3.2.1 M̲o̲d̲e̲ ̲o̲f̲ ̲O̲p̲e̲r̲a̲t̲i̲o̲n̲
The converter shall operate regardless of any difference
in baud rates set up between the converter and its
connected systems.
a) L̲i̲n̲k̲ ̲C̲A̲M̲P̲S̲/̲S̲C̲A̲R̲S̲ ̲t̲o̲ ̲c̲o̲n̲v̲e̲r̲t̲e̲r̲ ̲a̲t̲ ̲t̲h̲e̲ ̲c̲o̲n̲v̲e̲r̲t̲e̲r̲
̲s̲i̲d̲e̲
Full duplex mode of operation shall be used between
the converter and the CAMPS/SCARS system as specified
in the SS document.
b) L̲i̲n̲k̲ ̲c̲o̲n̲v̲e̲r̲t̲e̲r̲ ̲t̲o̲ ̲C̲C̲I̲S̲ ̲a̲t̲ ̲t̲h̲e̲ ̲c̲o̲n̲v̲e̲r̲t̲e̲r̲ ̲s̲i̲d̲e̲
Half and full duplex modes of operation shall be
implemented in the CCIS - converter links at the
electrical level. Half duplex mode shall be implemented
working to the Remote Computer protocol in CCIS.
c) C̲o̲n̲v̲e̲r̲t̲e̲r̲ ̲-̲ ̲m̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲V̲D̲U̲
Asynchronous standard teletype compatible interface
shall be used. The physical connection is in form
of a fiber optic cable.
3.2.2 B̲a̲u̲d̲ ̲R̲a̲t̲e̲s̲
a) The CAMPS/SCARS II - converter link shall operate
with synchronous transmission at rates of 2400,
4800 and 9600 bps switch selectable.
b) The WWMCCS to converter link shall operate with
synchronous transmission at rates of 2400, 4800,
9600 bps switch selectable.
c) The maintenance VDU-converter link shall work with
asynchronous transmission at speeds up to 9600
bps. A typical speed would be 2400 bps like in
CAMPS
3.3 T̲r̲a̲n̲s̲a̲c̲t̲i̲o̲n̲ ̲I̲n̲t̲e̲r̲c̲h̲a̲n̲g̲e̲ ̲R̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
3.3.1 M̲e̲s̲s̲a̲g̲e̲s̲ ̲T̲y̲p̲e̲s̲ ̲a̲n̲d̲ ̲F̲o̲r̲m̲a̲t̲s̲
a) Transactions exchanged between systems to be passed
through the converter equipment shall be in E1
format as specified in SS (reference 2). These
transactions will be embedded within the level
3 and 2 protocols as defined in SS document for
the CAMPS/SCARS - converter link and, within the
DINDAC and RCI protocols for the converter - CCIS
link.
b) The converter shall pass on the full E1 format
(header and text) unmodified, i.e. the converter
is fully transparent with respect to the transaction.
There shall be a character by character correspondance
between the user text received and the user text
transmitted by the converter. The user text is
the portion of the data field of frames which is
useful for the user.
c) All transaction types that pass through the converter
are defined in the SS document, i.e:
- Messages in E1 format (narrative, DATA and SUS
DUP)
- VDU Displays in E1 format
- Terminal-to-terminal comments in E1 format
- ACP 127 type service messages in E1 format
- Transaction acknowledgements
- Final number series in E1 format
- Channel check messages in E1 format.
The same DINDAC segment header field HDRTYP shall
contain the same Message Types as defined in the
SS document section 6.1.2.5 (Reference 2).
d) Transactions required for the lower level protocols
between the converter and its connected system
shall be in accordance with the respective interface
protocols.
e) For use during test mode test messages shall be
embedded in the converter for transmission to either
of the interconnected system, and for reception
and check.
f) The log-on sequence to be exchanged with WWMCCS
shall be performed via the Maintenance VDU.
g) Log-off message to be transmitted to WWMCCS shall
be embedded in the converter and may be envoked
from the maintenance VDU.
3.3.2 T̲r̲a̲n̲s̲a̲c̲t̲i̲o̲n̲ ̲c̲h̲a̲r̲a̲c̲t̲e̲r̲i̲s̲t̲i̲c̲s̲
a) The length of a transaction transmitted to the
converter is limited by transaction types.
b) Data and narrative message will be limited to 12000
characters. Display and terminal-to-terminal comment
transactions will be limited to one user page of
20 lines of 80 characters. The Protocol Converter
shall check transaction length, trap transactions
in excess of that length, treat too long transactions
to be in error and reput errors by means of:
1. bust message to WWMCCS
2. using CAMPS/SCARSII standard "too long message
procedures"
c) All transactions between the two interconnected
systems are acknowledged end-to-end. This end-to-end
acknowledgement is passed unmodified through the
converter. As a consequense the converter shall
not take responsibility for message continuity.
Transactions shall be handled in the converter
on a first-in-first-out by precedence basis.
d) After receipt of the last frame/segment of a message,
the Protocol Converter shall clear the buffer area
used for storing the transactions.
3.3.3 F̲o̲r̲m̲a̲t̲ ̲D̲e̲f̲i̲n̲i̲t̲i̲o̲n̲ ̲P̲a̲r̲a̲m̲e̲t̲e̲r̲s̲
The relevant format parameters are defined in:
- the SS document (reference 2)
- the RCI protocol (reference 3)
- the DINDAC protocol (reference 4)
- the DINDAC parameter list (reference 11)
The log-on procedure to CCIS shall distinguish between
"CAMPS" and "SCARS II".
The log-on and log-off procedure will be provided by
SHAPE during the system design phase.
3.3.4 F̲o̲r̲m̲a̲t̲ ̲C̲o̲n̲t̲r̲o̲l̲
The converter shall check the consistency of the following
header fields.
a) all x25 level 2 fields
b) the CAMPS/SCARS level 3 fields as follows
- I Field Length
- Block Sequence Number
- BLock type
- Message type
c) As a minimum the WWMCCS DINDAC Header fields as
follows:
- HDR SEQ field (Transmission Sequence Number).
- HDR SEG field (Message Segment Number).
- HDR CLS field (classification of message).
Other DINDAC fields to be checked, along with actions
to be performed on detecting inconsistencies in
content and in sequence will be defined in the
System Specification.
3.3.5 P̲r̲e̲c̲e̲d̲e̲n̲c̲e̲ ̲a̲n̲d̲ ̲P̲r̲e̲e̲m̲p̲t̲i̲o̲n̲
a) The converter shall not preempt transactions.
b) Transactions preempted by either CAMPS, SCARS II
or WWMCCS shall be passed unmodified through the
converter, i.e. the converter is not required to
recognize that a message is preempted.
c) The converter shall adjust for differences between
the precedence parameter in the DINDAC segment
header and the CAMPS/SCARS II level 3 header.
3.3.6 P̲e̲r̲f̲o̲r̲m̲a̲n̲c̲e̲ ̲S̲e̲c̲t̲i̲o̲n̲ ̲(̲P̲r̲o̲t̲o̲c̲o̲l̲ ̲C̲o̲n̲v̲e̲r̲t̲e̲r
a) T̲h̲r̲o̲u̲g̲h̲p̲u̲t̲
Each converter shall be able to support continous
unidirectional data transfer between the connected
systems at up to the full line speed (9600 baud).
The Protocol Converter shall be capable of meeting
this requirement concurrently with providing full
duplex operation between the Protocol Converter
and CAMPS or SCARSII and half or full duplex operation
(if implemented) to CCIS.
b) The delay introduced by the processing of the converter
shall be, in normal conditions, less than one second
in both directions. It will be measured as the
time elapsed between the last information frame
received by the converter and the last information
frame transmitted by the converter and from which
is deducted the transmission transfer time, the
link turn around time and the time that the frames
are buffered up in the Protocol Converter due to
unavailability of the haldfuplex PC-WWMMC link.
3.3.7 A̲l̲p̲h̲a̲b̲e̲t̲
The alphabet is the NATO 7 bit code as specified in
the CAMPS/SCARS II/CCIS SS reference 2 page 3-A-4-2.
Parity bits shall be selectable to odd, even or nil
on all channels.
3.3.8 T̲r̲a̲f̲f̲i̲c̲ ̲c̲o̲n̲t̲r̲o̲l̲
a) If the converter detects an unrecoverable protocol/transaction
fault then it shall close down the links using
protocol functions to be agreed during the design
phase.
b) The converter shall make a count of all retransmission
requests at level 2 of the CAMPS/SCARS side and
at RCI and DINDAC at the WWMCCS side. The accumulated
values shall be available for display and subsequent
reset at the maintenance VDU.
3.4 C̲o̲n̲v̲e̲r̲t̲e̲r̲ ̲r̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
3.4.1 C̲o̲n̲v̲e̲r̲t̲e̲r̲ ̲c̲h̲a̲r̲a̲c̲t̲e̲r̲i̲s̲t̲i̲c̲s̲
3.4.1.1 C̲o̲n̲f̲i̲g̲u̲r̲a̲t̲i̲o̲n̲
The converter configuration for a typical site is shown
in figure 3.4-1. The site equipment lists are provided
in appendix E to this contract.
3.4.1.2 I̲n̲t̲e̲r̲a̲c̲t̲i̲v̲e̲ ̲o̲p̲e̲r̲a̲t̲i̲o̲n̲
a) The maintenance VDU provide an interactive man-machine
interface in:
- operational mode; Display of accumulated counters
on an error category basis and log-on/log-off.
- testmode; generation and transmission of test
messages, reception and validation of test
messages and display if test result.
- off-line maintenance mode; interactive isolation
of the faulty converter module.
b) The response time for the keyboard operation will
be within 5 sec. on 95% of cases.
c) All commands to the system shall be given through
a command language.
3.4.2 A̲s̲s̲i̲s̲t̲a̲n̲c̲e̲ ̲f̲a̲c̲i̲l̲i̲t̲i̲e̲s̲ ̲a̲n̲d̲ ̲f̲u̲n̲c̲t̲i̲o̲n̲s̲
a) A maintenance VDU shall be available at each site
for connection to a converter through manual patching.
b) Fault finding shall be performed through this VDU.
The maintenance engineer shall have facilities
through commands to start software programs to
test the individual replaceable module and pinpoint
faulty modules.
3.4.3 S̲y̲s̲t̲e̲m̲ ̲I̲n̲i̲t̲i̲a̲l̲i̲z̲a̲t̲i̲o̲n̲
a) System initialization shall be performed as follows:
- power-on and checksumming of the program in
EPROM.
- initiate log-on to WWMCCS
- open channel to CAMPS/SCARS II
- clear all buffers and start operation
All programs are stored in EPROMS. No loading from
external sources are therefore required.
b) Initialization time shall not exceed 3 min including
operator actions but excluding time used for eventual
manual replacement of on-line converter by the
redundant off-line converter and patching VDU connection
to the converter in question.
Figure 3.4-1
SITE WITH TWO CONVERTERS IN TEMPEST RACK
AND ONE OFF-LINE OUTSIDE
3.4.4 R̲e̲c̲o̲v̲e̲r̲y̲
Recovery after two types of failure is defined:
a) Recovery after protocol failures where the recovery
procedure is defined as part of the protocol specification,
e.g. transmission errors
b) Recovery after all other errors; e.g. link failure
and dropouts, CAMPS, SCARS or CCIS failure, power
failure, converter failure.
In case a) the recovery shall take place in accordance
with the protocol specification and modify PC error
Counters.
In case b) the converter shall stop all execution and
wait for manual fault finding and initialization of
its operation as specified in section 3.4.3 above.
If feasible the PC shall generate a log-off procedure
to WWMCCS.
3.4.5 R̲e̲c̲o̲n̲f̲i̲g̲u̲r̲a̲t̲i̲o̲n̲
a) Reconfiguration shall be performed by manual replacement
of one on-line converter with the redundant off-line
converter, or part hereof, followed by the initialization
procedure described under 3.4.3.
b) Close-down of a converter shall be initiated by
the supervisory personnel on each of the interconnected
systems, or by a log-off command on the PC maintenance
VDU.
c) The maintenance VDU is connected to any one of
the converters by manual patching.
3.4.6 M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲R̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
a) Overall maintainability and maintenance requirements
are given in section 4 and 8.2 of this SRS.
b) The operating staff shall have the facility to
execute maintenance programs on the converter equipment
in off-line maintenance mode. The execution of
the programs shall be initiated from the maintenance
VDU.
c) Maintenance and diagnostics on one converter shall
not affect the functioning of the other converter(s).
d) The maintenance programs shall aim to locate faults
to the smallest replaceable sub-assembly (CR80
module).
e) The converter shall include test messages as specified
in section 3.4.1.2 for test of the links to CAMPS/SCARS
II and WWMCCS in online test mode.
f) The converter shall include a checksum facility
for validation of the program code at full package
level. The checksum shall be displayed on the VDU
and also compared with a prestored value.
3.4.7 I̲n̲t̲e̲r̲f̲a̲c̲e̲ ̲C̲h̲a̲r̲a̲c̲t̲e̲r̲i̲s̲t̲i̲c̲s̲
3.4.7.1 G̲e̲n̲e̲r̲a̲l̲
a) The converter shall exchange information with the
collocated ACE Automated Command and Control Information
System (ACCIS), the Computer Aided Message Processing
System (CAMPS) and the Status Control Alerting
and Reporting System (SCARS).
b) It shall be a design aim to provide layered software
so that the protocols can be modified and the system
enlarged with minimal change to the unaffected
software packages.
3.4.7.2 F̲u̲n̲c̲t̲i̲o̲n̲a̲l̲ ̲r̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
a) The converter equipment shall support the requirements
stated in the FD document (reference 1) for the
CAMPS/SCARS - CCIS interconnections.
b) It shall comply with the System Specification (reference
2) for the CAMPS/SCARS - Converter links.
c) The converter equipment shall comply with Remote
Computer Interface (RCI) and DINDAC protocols for
the Converter - CCIS links (Reference 3,4,11 and
12).
3.4.7.3 I̲n̲t̲e̲r̲f̲a̲c̲e̲ ̲S̲e̲c̲u̲r̲i̲t̲y̲ ̲C̲o̲n̲s̲i̲d̲e̲r̲a̲t̲i̲o̲n̲s̲
a) The converters shall meet the security requirements
stated in section 7 of this document.
b) The converter shall be designed to allow for operation
at System High in a CTS A environment.
3.4.7.4 F̲a̲l̲l̲b̲a̲c̲k̲ ̲p̲r̲o̲c̲e̲d̲u̲r̲e̲s̲
The converter is not required to provide a fallback
capability for the computer systems. When a link with
it is broken, the converter will reflect that state
to the other end of the link through use of the proper
protocol features.
3.4.7.5 I̲n̲f̲o̲r̲m̲a̲t̲i̲o̲n̲ ̲e̲x̲c̲h̲a̲n̲g̲e̲ ̲p̲r̲o̲t̲o̲c̲o̲l̲ ̲a̲n̲d̲ ̲p̲r̲o̲c̲e̲d̲u̲r̲e̲s̲
a) The converter shall match the different data exchange
protocols implemented in the CAMPS, SCARS and CCIS
systems.
b) The link between CAMPS/SCARS and the converter
shall operate in accordance with the SS document.
(reference 2)
c) The converter - CCIS link shall operate with Honeywell
WWMCCS RCI and DINDAC protocols.
(reference 3,4,11,12)
d) The converter shall act as a "transparent box"
when there are no protocol/transaction errors.
e) When protocol/transaction errors occur,(defined
in f) below) the converter will detect the errors
and react through the defined protocol capabilities.
f) The recoverable protocol/transaction erros are:
- inconsistency in the level 2 or 3 header of
the CAMPS/SCARS protocol as defined in para
3.3.4
- inconsistency in the RCI protocol or DINDAC
segment header for the WWMCCS protocol as defined
in para 3.3.4.
g) Unrecoverable protocol/transaction errors can by
definition not be corrected in the converter. These
errors shall be trapped in the converter and the
two interconnected systems notified through the
defined protocol facilities.
h) CR shall as part of the design documentation specify
the protocol/transaction error conditions that
can occur and the actions to be taken by the converter,
the CCIS and the CAMPS/SCARS II system.
3.4.7.6 S̲e̲r̲v̲i̲c̲e̲ ̲M̲e̲s̲s̲a̲g̲e̲s̲ ̲b̲e̲t̲w̲e̲e̲n̲ ̲C̲A̲M̲P̲S̲/̲S̲C̲A̲R̲S̲ ̲-̲ ̲C̲C̲I̲S̲
Service Messages between the interconnected systems
will be passed through the converter transparently
like messages. No special actions shall be taken by
the converter (for definition of these service messages
refer to SS document reference 2).
3.4.7.7 S̲e̲r̲v̲i̲c̲e̲ ̲M̲e̲s̲s̲a̲g̲e̲s̲ ̲t̲o̲ ̲t̲h̲e̲ ̲c̲o̲n̲v̲e̲r̲t̲e̲r̲
Service messages between a system and the converter
shall be exchanged in accordance with the respective
exchange protocols and procedures on the two links
of the converter.
The service messages are as specified in the RCI and
DINDAC documents (reference 3 and 4).
4. A̲v̲a̲i̲l̲a̲b̲i̲l̲i̲t̲y̲ ̲a̲n̲d̲ ̲M̲a̲i̲n̲t̲a̲i̲n̲a̲b̲i̲l̲i̲t̲y̲
4.1 G̲e̲n̲e̲r̲a̲l̲
Availability and maintainability requirements apply
to the equipment excluding environmental control equipment,
primary power supply to the equipment, and other purchaser
supplied equipment.
The equipment will meet the specified requirements:
a) When operating in a support environment which lies
within the limits of the specified operating requirements
of the equipment.
b) When tools, repair parts, manuals, manpower, etc.
required for maintenance are available.
In designing the equipment to meet the specified requirements
no account need to be taken to catastrophic events
such as fire, flood, explosion, etc. which are beyond
the control of the equipment manufacturer.
The definitions of the terms used in this section are
given in section 4.2. A Reliability and Maintainability
Plan (R and M) shall be submitted stating the R and
M model used. The plan shall include the requirement
to submit R and M reports.
4.2 T̲e̲r̲m̲s̲
In interpreting specification and verification sections
in this paper on reliability and availability the following
terms shall apply:
a) A̲v̲a̲i̲l̲a̲b̲i̲l̲i̲t̲y̲. The probability of finding an item
(system, module, unit and part thereof) in a functioning
condition at a given time.
b) C̲o̲r̲r̲e̲c̲t̲i̲v̲e̲ ̲M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲. The maintenance undertaken
to restore an item to a specified condition after
a failure has occurred.
c) D̲o̲w̲n̲ ̲T̲i̲m̲e̲. The time during which any of the facilities
or functions to be provided by the item is not
available, for whatever reason.
d) F̲a̲i̲l̲u̲r̲e̲. The inability of any item to carry out
its specified function within the tolerance allowed
under its normal operating conditions.
Following failure situations shall be disregarded
in availability calculation:
1) The item is or has been exposed to conditions,
which are not within the tolerances allowed
under its normal operating conditions.
2) The item is or has been exposed to violence.
e) I̲t̲e̲m̲. An item is defined as system, module, unit
and part thereof.
f) M̲e̲a̲n̲ ̲T̲i̲m̲e̲ ̲B̲e̲t̲w̲e̲e̲n̲ ̲F̲a̲i̲l̲u̲r̲e̲ ̲(̲M̲T̲B̲F̲)̲. The statistical
mean of the functioning time between failures.
For a given interval, the total measured functioning
time of the item divided by the total number of
failures of that item during the interval. Agreed
scheduled preventive maintenance of modules of
the equipment shall not be counted when estimating
mean time between failure of such modules.
g) M̲e̲a̲n̲ ̲T̲i̲m̲e̲ ̲t̲o̲ ̲R̲e̲p̲a̲i̲r̲ ̲(̲M̲T̲T̲R̲)̲. The statistical mean
of the distribution of times-to-repair. The summation
of active repair times during a given period of
time divided by the total number of malfunctions
during the same time interval. This repair time
shall include all actions required to detect, locate
and repair the fault. Any required preventive maintenance
is included.
h) P̲r̲e̲v̲e̲n̲t̲i̲v̲e̲ ̲M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲. The maintenance undertaken
systematically with the intention of keeping an
item in a specified condition, reducing the occurrence
of failures, and prolonging the useful life of
the equipment.
i) R̲e̲l̲i̲a̲b̲i̲l̲i̲t̲y̲. The probability that an item will
perform a required function under stated conditions
for a stated period of time.
k) R̲e̲p̲a̲i̲r̲. A repair is the restoration of an item
to the state in which it can provide its specified
functions.
When the item is a replaceable module or includes
replaceable modules, the exchange operation is
considered as the repair operation.
l) E̲q̲u̲i̲p̲m̲e̲n̲t̲.̲ All the hardware constituting the protocol
converter located within the defined demarcation
line.
m) M̲o̲d̲u̲l̲e̲. A collection of one or more units as defined
in this section which satisfy the following conditions:
1) It has a functional significance in the context
of R&M.
2) Individual failures can be localised to the
specific module.
3) The module is capable of removal and replacement.
4) The module operational condition has a simple
two state classification (operative or inoperative)
in the availability calculation.
n) U̲n̲i̲t̲. This has an exclusively functional significance
in this R&M context. The smallest hardware element
utilized in the Reliability and Maintainability
(R&M) models. The set of all units, taken together
make up the equipment. Each unit shall satisfy
the following conditions:
1) It does not contain any portion of any other
unit.
2) The failure of the unit is independent of the
failure of any other unit.
3) The unit operational condition has a simple
two-state classification (operative or in-operative)
in the availability calculation.
4) Corrective maintenance on failed redundant
parts of a unit is performed only when the
unit containing these parts has failed.
o) D̲e̲m̲a̲r̲c̲a̲t̲i̲o̲n̲ ̲l̲i̲n̲e̲
The IDF of the PC constitudes the demarcation line
between the PC and other systems.
p) I̲D̲F̲. The IDF is the entry point to the Protocol
Converter as defined in para 6.2.18.3 e).
4.3 A̲v̲a̲i̲l̲a̲b̲i̲l̲i̲t̲y̲ ̲C̲a̲l̲c̲u̲l̲a̲t̲i̲o̲n̲
The inherent availability of a module or unit shall
be measured in terms of two parameters:
- Mean time between failure (MTBF)
- Mean time to repair (MTTR)
The availability of a module or unit shall be determined
from the formula
Ai = ̲ ̲ ̲ ̲ ̲M̲T̲B̲F̲i̲ ̲ ̲ ̲ ̲ ̲
MTBFi + MTTRi
The availability value associated with each reliability
performance requirements, specified in succeeding paragraphs
of this section, shall be determined from a R&M model
and block diagram by combining the availability co-efficients
for the modules and units affecting that availability
performance requirement. The availability co-efficient
for a series configuration shall be calculated by:
elements ̲ ̲
A (system)= ll Ai
i=1
where Ai is the availability co-efficient of the i…09…th
element.
4.4 A̲v̲a̲i̲l̲a̲b̲i̲l̲i̲t̲y̲ ̲a̲n̲d̲ ̲R̲e̲l̲i̲a̲b̲i̲l̲i̲t̲y̲ ̲P̲e̲r̲f̲o̲r̲m̲a̲n̲c̲e̲ ̲R̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
The equipment shall meet the following availability
requirements.
overall equipment availability 0.999
4.5 R̲ ̲&̲ ̲M̲ ̲M̲o̲d̲e̲l̲
The R & M Block Diagram for the PC is shown in fig.
4.5.1.
4.6 R̲ ̲&̲ ̲M̲ ̲T̲e̲s̲t̲i̲n̲g̲ ̲R̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
The Protocol Converter equipment consists to a very
high extent of units and modules that are used in the
CAMPS program. The Protocol Converter R & M Plan will
therefore be tailored to take full advantage of the
Reliability and Maintainability Verification performed
in the CAMPS programme.
4.6.1 A̲v̲a̲i̲l̲a̲b̲i̲l̲i̲t̲y̲ ̲V̲e̲r̲i̲f̲i̲c̲a̲t̲i̲o̲n̲
a) The availability and reliability performance characteristics
specified in section 4.4 is demonstrated by performing
availability calculations, in which the values
of the module/unit MTBFs and MTTRs are verified
by:
1) Provision of acceptable evidence of conformity
to requirements, i.e. evidence supported by
prior observation of system or module performance
over a length of time sufficient to have the
same degree of confidence as the test procedure
that the required availability can be achieved.
2) Provision of evidence that the unit or module
is part of the CAMPS R and M programme.
b) The set of units and modules, taken together, shall
make up the equipment of the R&M model(s) used
for verification of system availability.
c) The R&M Characteristics shall be considered acceptable
if it is verified that the reliability performance
requirements specified in section 4.4. are met.
Figure 4.5-1
R & M MODEL
4.6.1.1 M̲T̲B̲F̲ ̲V̲e̲r̲i̲f̲i̲c̲a̲t̲i̲o̲n̲
All modules and units used in the PC will have MTBF
values greater than or equal to 3500 hours.
a) The contractor shall justify the use of MTBF values
greater than 3500 hours for individual units and
for modules, without redundant units, by means
of analytical calculations. Such calculations shall
use values taken from actual test data on "like"
or similar equipment or from a component analysis,
utilizing values taken from recognized sources,
e.g. reliability and maintainability handbooks
maintained by National Government and by Industry.
b) All units and modules have predicted MTBF values
greater than 3500 hours, and will have the MTBF
values justified. R & M Plan will include a list
of all units and modules with predicted values
of MTBF. The list may be changed as the programme
progresses giving updated values of MTBF. The
change process contemplated for this list is the
same as that provided in the contract for all items
(data) under Configuration Control.
4.6.1.2 M̲T̲T̲R̲ ̲V̲e̲r̲i̲f̲i̲c̲a̲t̲i̲o̲n̲
A conservative estimate of all MTTR values has been
used in the R & M module, i.e. the lowest MTTR value
used for available calculation will be 1 hour.
a) The R and M Plan shall list all units and modules
together with the predicted MTTR values. Reasons
for assigning a MTTR value in excess of 45 minutes
to a unit or module shall be given and shall explain
the maintenance procedures involved in restoring
such a unit or module to service when a malfunction
occurs.
b) The list of MTTR values for all units and modules
giving updated values of MTTR may be changed as
the programme progresses. The change process contemplated
for this list is the same as that provided in the
contract for all items (data) under Configuration
Control.
4.6.1.2 R̲&̲M̲ ̲P̲l̲a̲n̲
The MTBF and MTTR for each unit and module shall be
part of a R&M plan which will specify the updated values
for the MTBF and/MTTR values. The R & M plan will
be part of the PIP.
5. S̲o̲f̲t̲w̲a̲r̲e̲ ̲E̲n̲g̲i̲n̲e̲e̲r̲i̲n̲g̲ ̲R̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
5.1 S̲y̲s̲t̲e̲m̲s̲ ̲P̲r̲i̲n̲c̲i̲p̲l̲e̲s̲
Fundamental properties of the software are its quality,
integrity and flexibility. The software shall meet
the operational requirements together with the requirements
for ease of maintenance and modification. The software
shall be structured in a clearly identifiable hierarchical
way to ensure that the integrity and reliability requirements
of this specification are met. At the same time it
shall be readily expandable and must provide the facilities
specified below in such a way that the tasks of future
modification, error elimination and maintenance are
facilitated.
a) The software shall be provided as a complete, well
structured system consisting of three s̲u̲b̲-̲s̲y̲s̲t̲e̲m̲s̲:̲
1) The system software comprises all the software
(i.e. the program code, permanent data, pre-set
work space, etc.) which is required to be resident
in or accessible to the system during its operation.
The system software shall provide the services
to the applications software.
2) The support software comprises all off-line
software required to support the testing and
maintenance of the operational system.
3) The applications software is defined as the
software providing the functional capabilities
called for in this specification.
b) The software, in conjunction with the hardware,
shall be designed to detect and limit the effect
of hardware faults which occur in the system. Upon
detection of the fault, action will be taken to:
1) Report the fault.
2) Optimize the remaining system operational capabilities
while the fault persists.
c) The system design shall maintain maximum isolation
and independence between units of all types during
program design and implementation and during on-line
operation of the system.
d) In the construction of program code, clarity of
meaning shall be a major consideration. When writing
the program code comments shall be inserted to
aid comprehension and improve the readability.
e) It is mandatory that no instruction and constants
of the software are modified during execution.
f) The data areas of a module shall be logically contiguous
and all exchange of data between different modules
shall take place either through well defined shared
data areas or by a parameter passing.
g) The software shall be carefully documented in parallel
to the design during the production phase. The
documentation shall form part of the deliverable
software package and conform to the software documentation
standards specified elsewhere in this document.
5.2 S̲y̲s̲t̲e̲m̲ ̲S̲o̲f̲t̲w̲a̲r̲e̲
a) The system software facilities must allow the applications
software to be structured in terms of functional
modules.
b) The system software shall include the following
general facilities in some form:
1) Multi-programming and scheduling at run time,
i.e. the provision of a set of processes or
equivalent entities as the basic entities to
which processor time, store and other system
resources are allocated at run time.
2) Store management, i.e. facilites for permanently
or dynamically allocating areas of core store
to processes or their equivalents for initializing
data areas securely when required; and for
obtaining permanent or dynamic access to such
areas when required.
3) Device control and interrupt response, i.e.
standardized interfaces between hardware devices
(including traffic channels) and applications
software, such that the system software is
wholly responsible for the immediate control
of hardware device interfaces.
4) Inter-process interfaces, i.e. facilities for
passing activations and data between processes
over standardized interfaces.
5) Fault handling, i.e. facilities for the detection,
location and containment of software and hardware
faults.
5.3 A̲p̲p̲l̲i̲c̲a̲t̲i̲o̲n̲ ̲S̲o̲f̲t̲w̲a̲r̲e̲
The application software shall be provided as well-structured
modules. The application software is to provide, in
conjunction with the system software, all the functional
capabilities called for in this specification. The
application software for each installation shall be
identical or, as a minimum, generated from a common
library of program routines.
a) O̲v̲e̲r̲a̲l̲l̲ ̲S̲t̲r̲u̲c̲t̲u̲r̲e̲. The applications code and data
shall be structured in a hierarchical manner into
a well defined set of functional modules and units
at different functional levels and with distinct
data areas for each transaction processed by the
system.
The ways in which the various applications software
modules are multi-programmed at run-time (i.e.
recursive/re-entry or "fresh copy", etc.) shall
be clearly defined.
Communication between modules shall take place
via standardised system facilities such as interprocess
calls and procedure calls. The sharing of data
areas between two or more units or modules handling
different transactions shall be avoided. It shall
be a design aim to ensure that whenever data is
transmitted across an inter-module interface, the
data is in a compact, well defined form.
b) M̲o̲d̲u̲l̲e̲s̲ ̲o̲f̲ ̲A̲p̲p̲l̲i̲c̲a̲t̲i̲o̲n̲ ̲S̲o̲f̲t̲w̲a̲r̲e̲. It shall be a
design aim that each functional module of applications
software should satisfy the following criteria:
1) Provide a well defined function or group of
functions at some hierarchical level in the
software system, i.e. can be implemented as
self-contained programming task given a functional
specification, interface specifications of
any external modules and data structures to
which it must refer.
2) Has well defined, compact input and output
interfaces.
3) Can be separately compiled/assembled.
4) Hides its decisions from other modules (e.g.
it allows access to internal data structures
only through one access mechanism provided
by the module).
5.4 S̲o̲f̲t̲w̲a̲r̲e̲ ̲I̲m̲p̲l̲e̲m̲e̲n̲t̲a̲t̲i̲o̲n̲
a) U̲s̲e̲ ̲o̲f̲ ̲L̲a̲n̲g̲u̲a̲g̲e̲s̲
The software will be implemented in SWELL.
b) P̲r̲o̲g̲r̲a̲m̲s̲
It is mandatory that programme instructions shall
not be modified during run time and that within
each applications software module the programme
code and constants should be segregated from the
…86…1 …02… …02… …02… …02…
modifiable data. The direct use of or access to absolute
store addresses by application programs is not permitted.
Synchronization processes shall take place at clearly
defined points in the programs. To maintain security
and accountability, reservation and release of shared
resources, such as data areas, must only take place
at clearly defined points in the application programs.
c) M̲o̲d̲u̲l̲e̲ ̲S̲i̲z̲e̲ ̲C̲o̲n̲s̲t̲r̲a̲i̲n̲t̲s̲
The function of each module should be readily understandable.
As a rule, no module shall contain more than 250
source statements unless approved by CR QA internally
and notification to SHAPE. It shall be a design
aim to limit the number of modules, excluding the
250 line limit to 5% of the modules. Each module
must implement a function or function(s) as specified
in this document. Any requirement which would lead
to implementation of a module unable to satisfy
this constraint must be sub-divided into more manageable
units. It is essential that any constraints imposed
on the module size by compilers, loading methods,
store management arrangements, etc., must be clearly
defined and adequate methods for dealing with these
constraints must be defined and implemented.
5.5 S̲o̲f̲t̲w̲a̲r̲e̲ ̲M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲a̲n̲d̲ ̲M̲o̲d̲i̲f̲i̲c̲a̲t̲i̲o̲n̲
a) The systems software shall be structured in a way
that will permit the addition or deletion of applications
units.
b) PC Software compilation may take place on the CAMPS
software development system.
c) All software in the operational system will reside
in EPROMS.
5.6 S̲u̲p̲p̲o̲r̲t̲ ̲S̲o̲f̲t̲w̲a̲r̲e̲
The support software includes a SWELL compiler that
can be used on the CAMPS software development system
and generate PC object code.
5.6.1 F̲a̲c̲t̲o̲r̲y̲ ̲T̲e̲s̲t̲ ̲S̲o̲f̲t̲w̲a̲r̲e̲
At the CR factory a factory-test program shall be provided
to run the software under test.
5.7 S̲o̲f̲t̲w̲a̲r̲e̲ ̲I̲n̲t̲e̲g̲r̲i̲t̲y̲
Each module should contain credibility check to contain
the effects of corrupt or inaccurate data to the extent
this does not introduce redundant processing which
will decrease the system throughput.
5.8 P̲r̲o̲t̲e̲c̲t̲i̲o̲n̲ ̲o̲f̲ ̲S̲o̲f̲t̲w̲a̲r̲e̲ ̲a̲g̲a̲i̲n̲s̲t̲ ̲E̲M̲P̲
No protection against EMP shall be provided
6. G̲E̲N̲E̲R̲A̲L̲ ̲T̲E̲C̲H̲N̲I̲C̲A̲L̲ ̲R̲E̲Q̲U̲I̲R̲E̲M̲E̲N̲T̲S̲
6.1 G̲e̲n̲e̲r̲a̲l̲
The following section defines the general design and
construction requirements applicable to the Protocol
Converter.
6.1.1 E̲q̲u̲i̲p̲m̲e̲n̲t̲ ̲P̲r̲o̲d̲u̲c̲e̲d̲ ̲b̲y̲ ̲C̲h̲r̲i̲s̲t̲i̲a̲n̲ ̲R̲o̲v̲s̲i̲n̲g̲ ̲A̲/̲S̲
a) The CR produced equipment is designed and produced
according to CR standard.
b) This standard is based on the following NATO standards:
1) NGTS 45 General Manufacturing Requirements.
2) NGTS 50 Design, Construction and Installation
Criteria for electrical and electronic
material.
3) NGTS 40 Environmental Test Methods.
c) CR standards are currently updated in order to
incorporate improvements in technology.
d) Maintenance of CR standards are performed under
configuration management and supervised by CRs
Quality Assurance department.
e) All standards and their maintenance may be inspected
by customers Quality Assurance Representative.
6.1.2 P̲r̲o̲d̲u̲c̲t̲s̲ ̲F̲r̲o̲m̲ ̲O̲t̲h̲e̲r̲ ̲S̲u̲p̲p̲l̲i̲e̲r̲s̲
All OEM supplied equipment is identical to the equipment
supplied under the CAMPS contract. The quality of this
equipment will be in accordance with similar requirements
for the same equipment in the CAMPS programme.
6.2 S̲p̲e̲c̲i̲a̲l̲ ̲R̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲ ̲f̲o̲r̲ ̲t̲h̲e̲ ̲P̲r̲o̲t̲o̲c̲o̲l̲ ̲C̲o̲n̲v̲e̲r̲t̲e̲r
a) In this section is mentioned a number of requirements
special for the Converter project.
b) In case of conflict with the standards mentioned
in 6.1.1 above, the following standards shall prevail.
6.2.1…02…E̲n̲v̲i̲r̲o̲n̲m̲e̲n̲t̲a̲l̲ ̲C̲o̲n̲d̲i̲t̲i̲o̲n̲s̲
In designing the equipment to meet the specified requirements
no account need be taken of catastrophic events such
as fire, flood, explosion, etc., which are beyond the
control of an equipment manufacturer.
The equipment will normally operate within accomodation
suitable for the operation of similar equipment produced
for commercial use.
After initial adjustments have been made, the equipment
shall maintain normal operation under all below specified
environmental and power supply conditions.
6.2.1.1 …02…T̲e̲m̲p̲e̲r̲a̲t̲u̲r̲e̲ ̲a̲n̲d̲ ̲H̲u̲m̲i̲d̲i̲t̲y̲
The equipment shall continue to function when the humidity
and temperature of its environment are within the ranges
and cycling specified below.
The equipment shall continue to operate in a fully
satisfactory manner even under the worst conditions
specified below.
…02…a) T̲e̲m̲p̲e̲r̲a̲t̲u̲r̲e̲
…02……02…Range : 10 to 40 deg.C
…02……02…Change : max 10 deg. C per hour
…02…b) H̲u̲m̲i̲d̲i̲t̲y̲ ̲(̲R̲e̲l̲a̲t̲i̲v̲e̲ ̲H̲u̲m̲i̲d̲i̲t̲y̲ ̲=̲ ̲R̲H̲)̲
…02……02…Range : 40 to 90% RH, non-condensing
…02……02…Change : max. 6% RH per hour, non-condensing
…02…c) A̲l̲t̲i̲t̲u̲d̲e̲
…02……02…Range : Sea level to 2000 meter
The equipment shall be so designed that the loss of
site air conditioning or heating will not cause a catastrophic
failure within 15 minutes after the loss.
6.2.1.2 D̲u̲s̲t̲,̲ ̲F̲u̲m̲e̲s̲
The equipment shall be able to operate continuously
and with normal scheduled preventive maintenance in
the following air environment:
a) Ai̲r̲ ̲c̲l̲e̲a̲n̲n̲e̲s̲s̲
Particle size Max. allowable number
(̲m̲i̲c̲r̲o̲n̲s̲)̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲ ̲(̲p̲a̲r̲t̲i̲c̲l̲e̲s̲/̲c̲u̲b̲i̲c̲m̲e̲t̲e̲r̲)̲
greater than 5 4* (10E5)
greater than 1.5 4* (10E6)
greater than 1 4* (10E7)
b) F̲u̲m̲e̲s̲
sulphur dioxide max. 14 ppm.
6.2.2 E̲n̲v̲i̲r̲o̲n̲m̲e̲n̲t̲a̲l̲ ̲T̲e̲s̲t̲i̲n̲g̲
Most of the equipment used for the PC is being used
in the CAMPS programme and is subjected to environmental
test through that program. The PC programs shall therefore
not require additional test for this equipment. For
the boards that are not part of the CAMPS program,
CR shall deliver test documentation to replace environmental
tests.
6.2.3 U̲t̲i̲l̲i̲t̲y̲ ̲O̲u̲t̲l̲e̲t̲ ̲S̲o̲c̲k̲e̲t̲s̲
Utility outlet sockets for the operation of all equipment
shall be located in close proximity to all major racks
or cabinets. Installation of utility outlets will be
the responsibility of purchaser.
6.2.4 M̲a̲t̲e̲r̲i̲a̲l̲s̲
Materials used for encapsulation and embedment shall
be selected for their electrical, operational, environmental
and storage characteristics. Hard curing compounds
to hold replaceable parts are prohibited. (Parts soldered
to terminals, printed wiring boards etc. are not considered
replaceable in this context).
6.2.5 I̲n̲t̲e̲r̲c̲h̲a̲n̲g̲e̲a̲b̲i̲l̲i̲t̲y̲
a) Modular hardware construction should be used wherever
feasible.
b) The items shall be designed to use the minimum
number practicable of the different types of electrical
cable, connectors, component and accessories.
c) Electrically identical units, assemblies, subassemblies
and replaceable parts shall be physically interchangeable
without modification of such items or of the equipment.
d) Interchangeable items shall be as defined in specifications,
drawings, and/or documentation to permit their
installation as interchangeable units, assemblies,
subassemblies, and parts without regard to the
source of manufacture or supply.
e) Provision shall be made for design tolerances such
that items having the dimensions and characteristics
permitted by the item specification may be used
as replacement without selection or departure from
the specified equipment performance.
6.2.6 B̲e̲n̲c̲h̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲
Smaller assemblies and sub-assemblies normally subject
to bench repair shall be capable of withstanding being
dropped onto a hard surface on all faces from a 30…0e…o…0f…
angle, using any one edge of the unit as a pivot, without
any physical, electrical or electronic damage.
6.2.7 C̲o̲v̲e̲r̲ ̲P̲l̲a̲t̲e̲s̲
Cover plates shall have a minimum of fasteners consistent
with normal mechanical strength requirements. All such
fasteners shall be of the "captive" type.
6.2.8 C̲a̲b̲l̲i̲n̲g̲ ̲a̲n̲d̲ ̲F̲i̲t̲t̲i̲n̲g̲s̲
For wiring and cabling the following shall apply:
a) Where inter-connecting cabling between assemblies
is run in steel conduit or in shielded cables,
electrical continuity of the conduit or shielding
as appropriate, shall be ensured to permit the
correct grounding or as otherwise specified in
AMSG-719-B.
b) Wiring shall be identified by colour coding, numbering,
or by other feasible means such as marking of terminals
at both ends of lead. All wires shall carry corresponding
identification numbers at each end. Colour coding
for chassis wiring shall be comforming to good
engineering practice.
c) Where bus bars are used for interconnection between
assemblies and subassemblies they shall be colour
coded to permit quick identification.
d) Cables and wires or similar connectors shall carry
a CR parts number. These numbers shall be the same
numbers as given in the as-built drawings and in
the maintenance and operating manuals.
6.2.9 F̲l̲u̲x̲ ̲a̲n̲d̲ ̲S̲o̲l̲d̲e̲r̲i̲n̲g̲
6.2.9.1 F̲l̲u̲x̲
Rosin fluxes conforming to recommended engineering
practices shall be used for making electrical electronic
connections. For fluxing purposes, a soldered joint
the functions of which are both a mechanical and an
electrical connection (for example in grounding applications
through a chassis) shall be considered an electrical
connection.
6.2.9.2 S̲o̲l̲d̲e̲r̲i̲n̲g̲
All soldered connections shall be clean and smooth
in appearance. Sufficient solder shall be used to ensure
a continuous strong concave fillet feathered into the
base metals. Flux or other foreign residue must be
removed. The insulation of soldered wires shall not
show damage from the heat of the soldering operation.
Discolouration is permitted, but not charring, cracking,
decomposition and distortion.
6.2.10 V̲e̲n̲t̲i̲l̲a̲t̲i̲o̲n̲ ̲a̲n̲d̲ ̲C̲o̲o̲l̲i̲n̲g̲
a) Intake cooling air, shall be filtered such that
the pressure within the associated cabinet is higher
than the ambient pressure outside. The cooling
air should preferably be exhausted to the atmosphere
at the top of the cabinet.
b) Resonance effects and vibrations because of the
ventilation and cooling shall not cause any deterioration
of equipment performance.
c) The distributed cooling systems in the CR produced
equipment may be supplied with air filters of a
nominal thickness of 2.5 cm.
6.2.11 E̲l̲e̲c̲t̲r̲o̲m̲a̲g̲n̲e̲t̲i̲c̲ ̲C̲o̲m̲p̲a̲t̲i̲b̲i̲l̲i̲t̲y̲
a) When installed the electromagnetic radiation of
the equipment shall comply with the COMSEC requirements
as described in AMSG 720 A and in para. 6.2.18.3
of this specification.
b) When installed the different units, assemblies,
and subassemblies shall be able to perform as intended
in the presence of electromagnetic radiation from
other system within the limits specified in 6.2.11.a
above.
6.2.12 T̲e̲s̲t̲ ̲a̲n̲d̲ ̲R̲e̲p̲a̲i̲r̲
6.2.12.1 A̲c̲c̲e̲s̲s̲i̲b̲i̲l̲i̲t̲y̲
a) Only chassis and assemblies contained within cabinets
or consoles shall be mounted on withdrawal slides
if they require removal or replacement during normal
maintenance and repair actions.
b) Plug-in boards and modules shall be provided with
a suitable removal tool, if they are not equipped
with build-in ejectors/extractors.
6.2.12.2 T̲e̲s̲t̲p̲o̲i̲n̲t̲s̲
a) Testjacks can be of the banana plug type.
b) Test points/tracing points for monitoring voltage/currents
and measuring/injecting signals/wave forms shall
only be provided to the extent they form part of
the maintenance/repair concept.
6.2.13 C̲o̲n̲s̲u̲m̲a̲b̲l̲e̲ ̲P̲a̲r̲t̲s̲ ̲
All fluids, life limited parts, and any other comsumable
parts required for continuous operation of the equipment
shall be kept to a minimum both in number and quantities
required.
6.2.14 S̲a̲f̲e̲t̲y̲
All necessary safeguards shall be taken during the
design, development, production and installation of
the equipment to ensure safety of operating and maintenance
personnel from electrical and mechanical hazards.
6.2.14.1 R̲e̲g̲u̲l̲a̲t̲i̲o̲n̲s̲
a) The actual site installations in the different
host nations shall be made in accordance with the
appropriate National Safety Regulations of the
country concerned according to installation drawings
as approved by the purchases.
b) The equipment itself and its associated power cabling
shall comply with the National Safety Regulations
of the country of origin for the equipment.
6.2.14.2 P̲e̲r̲s̲o̲n̲n̲e̲l̲ ̲S̲a̲f̲e̲t̲y̲
a) Interlocks or key locks shall be incorporated where
appropriate to prevent any major assembly carrying
high tension voltages from being opened by unauthorised
personnel.
b) With the equipment assembled and set up for operation,
personnel shall be protected from contact with
potentials in excess of 30 volts to ground, chassis
or frame, including potentials or charged capacitors.
c) Relevant notice and markings on equipment or documents
are to be provided to draw the attention of operating
and maintenance personnel to points where dangerous
voltages may be encountered.
d) Where a voltage of 50 or more volts is exposed
during the maintenance activities a suitable warning
shall be provided. It should be made according
to the following principles:
1) "DANGER (xxx) VOLTS WHEN COVER REMOVED" (in
aluminium or white lettering l.5 cm high on
a red background) where (xxx) is the nominal
voltage.
2) "DANGER HIGH VOLTAGE (xxx) VOLTS" where (xxx)
is the nominal voltage.
3) "CAUTION (xxx) VOLTS. DISCONNECT POWER BEFORE
REMOVAL OF COVER" where (xxx) is the nominal
voltage.
e) The equipment shall be labelled with a warning
that toxic fumes may be generated when the equipment
is subjected to exessive heat and/or fire.
6.2.14.3 E̲q̲u̲i̲p̲m̲e̲n̲t̲ ̲S̲a̲f̲e̲t̲y̲
a) Circuit breakers or switches which operate to make
or break AC power lines shall make or break all
conductors at the same time. The neutral wire in
three-phase circuits shall not pass through any
fuse.
b) Fuses and circuit breakers shall be provided within
the equipment as required for protection of the
equipment from damage due to overload. Each major
assembly shall be individually protected so that
a fault in one major assembly cannot damage any
other major assembly.
c) All fuses and circuit breakers shall be located
such that they are readily accessible. Fuses shall
incorporate a visual system of failure indication.
6.2.14.4 G̲r̲o̲u̲n̲d̲i̲n̲g̲
a) The grounding system shall provide effective protection
for personnel and material against insulation defects.
It shall be arranged so that there are three separate
and isolated ground circuits, namely:
1) AC power neutral
2) Equipment frame ground
3) Signalling and control ground
b) The AC power neutral shall provide a return for
the primary current so that the equipment frame
ground is used only to establish a safety ground
and is not used as a normal current grounding element.
No place in the equipment or power filters shall
the AC power neutral be connected directly to equipment
frame ground.
c) All panels, drawers and other sub-assemblies, whether
fixed or removable, shall be fastened, or connected
to the associated frame, in a manner that ensures
they are securely grounded.
d) The signalling and control ground is to be routed
via the interconnecting wires and cables as appropriate.(see
also para 7.1 c)).
6.2.15 N̲a̲m̲e̲p̲l̲a̲t̲e̲s̲ ̲a̲n̲d̲ ̲P̲r̲o̲d̲u̲c̲t̲ ̲M̲a̲r̲k̲i̲n̲g̲
A nameplate giving the serial number, SHAPE contract
number, date of manufacture, manufacturers name and
address and principal characteristics, where appropriate,
shall be attached in a prominent position on each major
assembly.
6.2.16 C̲o̲n̲t̲r̲o̲l̲s̲
The type and layout of controls shall be such as to
avoid an interruption of service or change of operational
mode as a result of accidental bumping, touching or
catching of clothing.
6.2.17 A̲c̲o̲u̲s̲t̲i̲c̲ ̲N̲o̲i̲s̲e̲
The maximum sound level due to noise emitted from the
equipment shall be less than 70 dB (A) when measured
under free field conditions by a precision sound level
meter located at a point 2 meters distant from the
noise source, and at the height at which the maximum
reading of the meter is obtained. The measuring instrument
shall be in accordance with IEC publication 179 second
edition 1973.
6.2.18…02…P̲h̲y̲s̲i̲c̲a̲l̲ ̲C̲h̲a̲r̲a̲c̲t̲e̲r̲i̲s̲t̲i̲c̲s̲
6.2.18.1 S̲i̲z̲e̲,̲ ̲W̲e̲i̲g̲h̲t̲,̲ ̲P̲o̲w̲e̲r̲ ̲C̲o̲n̲s̲u̲m̲p̲t̲i̲o̲n̲ ̲a̲n̲d̲ ̲H̲e̲a̲t̲ ̲D̲i̲s̲s̲i̲p̲a̲t̲i̲o̲n̲
The site equipments consist of a terminal and one multi-bay
rack assembly.
The rack of each site equipment will be equipped with
subassemblies and modules according to the actual connectivity.
Detailed technical information will be supplied in
the Design Specification.
6.2.18.2 P̲o̲w̲e̲r̲ ̲I̲n̲p̲u̲t̲
The equipments shall be capable of satisfying the specified
performance requirements when operating with following
power input:
a) Phases: Single- or 3-phase, and ground.
b) Voltage: Nominal value 380/220 V AC
Tolerances: +10%/-15%
c) Frequency: Nominal value: 50 Hz
Tolerances: +10/-10%
e) Harmonic
distortion: Max. 5%
f) Transients: Non-repetitive impulsive interference
with a magnitude not to exceed 500
volts, pulse rise and fall times
not faster than 10 microseconds and
a total duration of maximum 1 millisecond.
The available impulse energy at the
equipment power inlet shall not exceed
5J.
6.2.18.3 T̲e̲m̲p̲e̲s̲t̲ ̲R̲a̲c̲k̲s̲
The EMI racks are constructed of heavy gauge steel,
having all non-opening seams welded. The racks will
be of slightly greater size than equivalent non-EMI
racks and will be significantly heavier. Cable entrance
for power and signals will be either through the top
or bottom of each rack. The racks are prepared for
both type of outlet.
a) R̲a̲c̲k̲ ̲C̲o̲n̲f̲i̲g̲u̲r̲a̲t̲i̲o̲n̲
The racks will be used as a single, free-standing
cabinet.
b) R̲a̲c̲k̲ ̲D̲o̲o̲r̲s̲
Each rack shall have a full size door in front
and rear. Doors will be operated with recessed
handles. The doors shall contain EMI gaskets.
c) R̲a̲c̲k̲ ̲V̲e̲n̲t̲i̲l̲a̲t̲i̲o̲n̲
To allow ventilation and EMI shielding, perforated
metal is used. The perforated areas are located
in the front doors and at the top.
d) A̲C̲ ̲P̲o̲w̲e̲r̲ ̲F̲i̲l̲t̲e̲r̲s̲
RF power filters shall be used, and they shall
be mounted directly to either the top or bottom
of racks.
e) V̲2̲4̲ ̲F̲i̲l̲t̲e̲r̲ ̲w̲i̲t̲h̲ ̲P̲a̲t̲c̲h̲i̲n̲g̲ ̲F̲a̲c̲i̲l̲i̲t̲y̲ ̲(̲P̲F̲)̲
The PF shall be enclosed within one of the main
frame EMI racks. It provides access to all input
and output electrical signal connections to the
converter mainframe. Filtered connectors will be
installed in the PF as described below to meet
AMSG requirements.
The PF consists of a separately shielded box sealed
to the rack surface within an EMI rack into which
conduit or ducts from all external electrical signal
cables are passed. Upon removal of the PF cover,
banks of the necessary number of pin connectors
are accessible for user connection. Optical signal
cables if used are fed through a wavequide placed
separately or contained in the PF.
f) V̲2̲8̲(̲L̲/̲L̲)-̲A̲d̲a̲p̲t̲e̲r̲s̲ ̲f̲o̲r̲ ̲D̲r̲i̲v̲i̲n̲g̲ ̲E̲l̲e̲c̲t̲r̲i̲c̲a̲l̲ ̲C̲a̲b̲l̲e̲s̲
The V28(L/L) shall provide 6-0-6 volts signal levels
and waveshaping, in accordance with CAMPS specifications.
The V28(L/L) will accomodate polarity as specified
in MIL 188C and V28(L/L).
It shall cover the range from 1200 to 9600 Bps.
7. S̲e̲c̲u̲r̲i̲t̲y̲
This section addresses or references all requirements
related to security.
The system shall comply with ACE Directive 70-1.
In general: Transfer and transmission within the installation
means transfer and transmission between the components.
7.1 T̲E̲M̲P̲E̲S̲T̲ ̲A̲c̲c̲e̲p̲t̲a̲n̲c̲e̲
The components of the converter equipment are divided
in the following 2 categories.
1) A multi-rack EMI-rack assembly.
2) A terminal for maintenance and supervisory positions.
During short periods of corrective and preventive maintenance
e.g. open back doors, the emanation requirements below
are degraded.
It must be within the operational procedures, that
the supervisor is currently informed on activities
concerning corrective and preventive maintenance and
thus is able to decide whether it is acceptable to
continue operation or not.
The detailed requirements, regarding compliance to
AMSG719B as described in the following, will be stated
in the agreed CWR and ATBB documentation.
a) To meet the NATO Security requirements, the equipment,
including ancillaries and peripherals, must be
installed in accordance with criteria laid down
in AMSG 719B. After installation, a final COMSEC
Radiation Survey will be carried out at each location
prior to operational approval being given. Rectification
of the equipment characteristics shortcomings shall
be the responsibility of the contractor.
b) Regarding the EMI-racks, ACE COMSEC shall be provided
with tangible evidence as to their effectiveness.
For this purpose detailed design and manufacturing
specification have been forwarded to SHAPE for
evaluation as part of the CAMPS programme. Also,
laboratory data on the shielding effectiveness
of the rack have been provided.
ACE COMSEC has measured the ambient noise at the
factory site at Ballerup and subject to provision
of customer supplied power filtering accepted its
suitability for TEMPEST test (ref. CAMPS log 091
and CAMPS log 111). The actual TEMPEST test will
be perfomed as a qualification test by ACE COMSEC
at the factory site.
1) All equipment contained in multi-rack EMI-racks
assembly shall be TEMPEST cleared as a result
of the above TEMPEST qualification test (equipment
of category 1 above). This shall include any
opto-electrical interfaces.
2) Equipment of category 2 (terminals) will be
delivered with a TEMPEST clearance certification
according to AMSG720A with the understanding
that the cerfification provided will apply
to the standard approved version of the equipment.
During the contract phase, technical information
will be supplied to ACE COMSEC for evaluation and,
where required, a production model shall be delivered
for testing purposes.
c) S̲p̲e̲c̲i̲a̲l̲ ̲e̲a̲r̲t̲h̲i̲n̲g̲ ̲a̲r̲r̲a̲n̲g̲e̲m̲e̲n̲t̲s̲ with respect to 1)
AC power neutral, 2) safety ground, 3) Signalling
and control ground are necessary within the complete
system in order to comply with criteria laid down
in AMSG 719B. In the terminal equipments signal
common returns s̲h̲a̲l̲l̲ ̲b̲e̲ ̲s̲e̲p̲a̲r̲a̲t̲e̲ ̲a̲n̲d̲ ̲i̲n̲s̲u̲l̲a̲t̲e̲d̲
̲f̲r̲o̲m̲ ̲a̲l̲l̲ ̲o̲t̲h̲e̲r̲ ̲e̲a̲r̲t̲h̲s̲ or metal chassis (this includes
protective earth which is usually derived from
the station's main supply).
d) All electrical interconnections for data between
the equipments will use low level keying systems,
i.e. 6-0-6 volts. All the remaining control lines
should conform to CCITT Recommendation V28. This
is in accordance with CAMPS specifications.
e) All electrical wiring on the red side shall be
run in a screened cable, consisting of twisted
pairs and an overall continuous n̲o̲n̲-̲f̲e̲r̲r̲o̲u̲s̲ ̲s̲c̲r̲e̲e̲n̲.
All cables to and from the converter to be supplied,
and installed by SHAPE.
f) Installation of any optical fibers shall be in
accordance with AMSG 719B.
g) As-built drawings and all circuit diagrams of the
first operational system, and similar material
for any variations in subsequent system to be delivered,
showing all electrical interfaces and voltages,
shall be supplied to ACE COMSEC.
h) To assist in the assessment of physical security
and guarding of classified information, a list
of all items of equipment which will store, display
or record classified information shall be supplied
to ACE COMSEC by the contractor. From the test,
an assessment will be made by SHAPE for physical
security in accordance with ACE Directive 70-1
(reference 6).
i) Installation work will be witnessed by local COMSEC
staff to ensure that all installation conforms
to COMSEC requirements.
j) The protocol converter will be processing classified
information in plain language and shall therefore
be considered "Red" equipment, thus the area in
which it is located becomes a "Red" Area and is
subject to compliance with criteria laid down in
AMSG-719-B.
k) The crosstalk attenuation between any circuit carrying
classified information and any other circuit within
the installation shall be not less than 100 dB.
l) The power supply to all the equipment in the Red
Area will enter via a filter or a group of filters
which will be supplied by the purchaser. The function
of these filters is to ensure that no compromising
signals are able to reach a Black Area via the
power supply leads. The equipment shall function
satisfactorily with these filters present in the
power leads.
8. L̲O̲G̲I̲S̲T̲I̲C̲ ̲R̲E̲Q̲U̲I̲R̲E̲M̲E̲N̲T̲S̲
8.1 T̲r̲a̲n̲s̲p̲o̲r̲t̲a̲t̲i̲o̲n̲ ̲a̲n̲d̲ ̲I̲n̲s̲t̲a̲l̲l̲a̲t̲i̲o̲n̲
8.1.1 T̲r̲a̲n̲s̲p̲o̲r̲t̲a̲t̲i̲o̲n̲
8.1.1.1 S̲e̲c̲u̲r̲i̲t̲y̲
In the case of classified equipment and/or material,
special shipping shall be provided by the contractor
and confirmed/co-ordinated with the purchaser. NATO
Security manual C-M(55)15 Final, Volume 2 Enclosure
D, Section V defines special security requirements.
The contractor shall ensure that all classified material
and/or equipment to be provided under the terms of
this contract will not be transported over or through
any non-NATO country, nor will any of the material
and/or equipment be handled by any non-NATO aligned
freight forwarder or shipping agency.
8.1.1.2 P̲a̲c̲k̲i̲n̲g̲
All equipment delivered under this contract will be
packed and crated in accordance with the best commercial
practices for the type of supplies involved, given
due consideration to climatic and shipping conditions
in order to ensure safe arrival to destination.
…02…a) Items returned for repair will be transported in the
original container used for transport to site. Contractor
will identify all items delivered in reusable containers.
…02…b) All delivered spares will be packed individually for
long term storage without performance or physical deterioration
with expected shelf life. Full details of the contents
and the shelf life shall be clearly indicated on the
package.
8.1.1.3 M̲a̲r̲k̲i̲n̲g̲
Items of supply and the packages or containers in which
supplies are transported shall in addition to normal
mercantile marking be marked with the following data
on a separate nameplate (tranfers or stamping acceptable
if nameplate is not practical).
…02… Project title
…02… Purchaser Contract Number
…02… Contract Item Number
…02… Manufacturer's name and address
…02… Ship to address
8.1.1.4 P̲a̲c̲k̲i̲n̲g̲ ̲L̲i̲s̲t̲s̲
Packing lists shall accompany all shipments and two
copies each shall be provided to the purchaser. Each
packing list will contain the following information:
…02… Shipping Address
…02… Package Number
…02… Contract Number
…02… Contract Item Number
…02… Item Description
…02… Part Number
…02… NATO Stock Number (if available)
Serial Number
…02… Quantity shipped
…02… Date Shipped
8.1.1.5 N̲A̲T̲O̲ ̲S̲h̲i̲p̲p̲i̲n̲g̲ ̲D̲o̲c̲u̲m̲e̲n̲t̲s̲
Whenever shipments under this contract requires NATO
Form 302 or other NATO shipping documents these shall
be made available to contractor without delay when
requested by contractor.
8.1.2 I̲n̲s̲t̲a̲l̲l̲a̲t̲i̲o̲n̲
8.1.2.1…02…S̲e̲c̲u̲r̲i̲t̲y̲
…02…a) The protocol converter together with the maintenance
position will at each site be installed in a communications
security (red) area. The installation shall therefore
conform with the relevant requirements to automatic
processing devices contained in the current issue of
AMSG 719B.
…02…b) Customers local COMSEC staff shall be entitled to monitor
the installation works. A final test and inspection
before each installation becomes operative will be
carried out by an ACE-COMSEC team.
…02…c) The power supply to all equipment in the red area will
enter via a filter or a group of filters, which will
be provided by the customer.Detailed requirements will
be part of the Civil Works Requirements data package
to be supplied by contractor.
8.1.2.2…02…S̲t̲a̲n̲d̲a̲r̲d̲s̲
a) The equipment shall operate from mains power installations
conforming to national regulations concerning power
and safety.
b) Contractor will ensure that As-To-Be-Built drawings
submitted to SHAPE will conform to national safety
regulation.
c) Customer will approve the As-To-Be-Built drawings
for conformance to national regulations as well
as obtain approval of the completed installation
from national authorities.
8.1.2.3…02…G̲r̲o̲u̲n̲d̲i̲n̲g̲
a) An efficient and comprehensive grounding system
shall be provided on each site by customer. The
grounding system shall comprise:
1) Secure ground
2) Safety ground (frame ground)
b) The safety ground will be part of the main power
system and conform to national regulations.
c) The secure ground shall conform to the requirements
of AMSG 719B. A suitable terminal for the secure
ground shall be provided as close as possible to
each major piece of equipment to be installed (VDU
or Rack).
d) Detailed requirements will be agreed to and included
in the CWR and ATDB documentation.
8.1.2.4…02…M̲a̲i̲n̲s̲ ̲P̲o̲w̲e̲r̲ ̲S̲u̲p̲p̲l̲i̲e̲s̲
a) To be provided at each site by customer.
…02…1) Three phase and single phase 380/220 volts 50 HZ
power supplies will be available at all sites.
…02…2) If consistent with national regulations the following
color coding shall apply:
…02… Line: Brown
…02… Neutral: Blue
…02… Ground: Yellow/green
b) In case of 3 phase installation, the lines can
be of any color, except blue and yellow/green.
c) In conformance with national regulations each end
of the neutral and ground wire shall be clearly
marked (coloured sleeves or coloured durable adhesive
tape).
…02…1) P̲r̲o̲t̲e̲c̲t̲i̲v̲e̲ ̲D̲e̲v̲i̲c̲e̲s̲
Protective devices for the mains power installation
shall be provided.
…02… Circuit breakers which operate to make or break
A.C. power lines shall make or break all conductors
at the same time. The neutral wire shall not pass
through any fuse.
…02… All fuses and circuit breakers shall be so located
such that they are readily accessible.
…02… 2) U̲t̲i̲l̲i̲t̲y̲ ̲O̲u̲t̲l̲e̲t̲s̲ ̲S̲o̲c̲k̲e̲t̲s̲
…02… Utility outlets sockets for operation of each terminal
shall be provided as close as possible to the required
installation site of a terminal.
…02… The outlet sockets shall be of a uniform 220 V
AC standard type with ground and break of line
only according to the national standard for each
installation. The socket shall be of a type that
only allows the plug to mate in the correct orientation.
…02… 3) Contractor shall deliver his requirements to the
power installation specifying the required number
of utilily as part of the Civil Works Requirements
Package.
8.1.2.5 E̲f̲f̲e̲c̲t̲ ̲o̲n̲ ̲M̲i̲l̲i̲t̲a̲r̲y̲ ̲A̲c̲t̲i̲v̲i̲t̲i̲e̲s̲
Installations in buildings shall be performed in a
manner that avoids disruption of on-going military
activities. Contractor may be required under special
circumstances to stop work for military reasons. Under
such circumstances, the contractor shall furnish a
report to SHAPE giving details of the time that the
stop work order was enforced, together with any other
pertinent information.
8.1.2.6 S̲p̲a̲c̲e̲ ̲a̲n̲d̲ ̲A̲c̲c̲e̲s̲s̲ ̲D̲i̲m̲e̲n̲s̲i̲o̲n̲s̲
a) At each site an area of TBD meters by TBD meters
will be made available for the installation of
the Protocol Converter and supervisory positions
with a minimum floor to ceiling height of 220 cm
without a raised floor, or 2 meters minimum if
a raised floor is provided.
…02…b) A̲c̲c̲e̲s̲s̲ ̲D̲i̲m̲e̲n̲s̲i̲o̲n̲s̲
All sites have access dimensions equal to or better
than:
Height 1.70 meters
Width 0.65 meters
Length 3.70 meters
Above dimensions will be guaranteed as the minimum
envelope along the equipment access route of any
site.
8.1.2.7 S̲i̲t̲e̲ ̲S̲u̲r̲v̲e̲y̲s̲ ̲a̲n̲d̲ ̲S̲u̲b̲m̲i̲t̲t̲a̲l̲ ̲o̲f̲ ̲D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲
…02…a) No formal site survey is anticipated, although contractor
may wish to visit the site after contract signature.
b) Customer shall submit the necessary information
for contractor to generate CWR and ATBB documentation.
This information must include but not be limited
to
- Construction drawings of room in question
- position of converter rack(s)
- location of Power Distribution Board
- location of all other installations which may
have impact on contractors CWR and ATBB documentation
- floor construction
This data shall be supplied to contractor no later
than 60 days ARO.
c) Customer shall on request throughout the program
supply all documentation necessary for completion
of the installation documentation. Likewise, customer
shall inform contractor about all changes to the
installation area having impact on the CWR and
ATBB documentation being generated.
8.2 M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲a̲n̲d̲ ̲S̲u̲p̲p̲o̲r̲t̲
8.2.1 M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲P̲h̲i̲l̲o̲s̲o̲p̲h̲y̲
CAMPS RST and MT will perform the maintenance. The
principle for corrective maintenance is to board level
with all repairs at component level carried out at
a repair depot. Furthermore, the principles for site
corrective maintenance is based on the spares as recommended
by contractor in the RSPL.
8.2.2 M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲P̲l̲a̲n̲
Contractor shall develop a Maintenance plan to be delivered
in accordance with the contract. This Plan will have
the same structure as the eventual Maintenance Manual
to be delivered at time of Site Acceptance. Consequently,
the Maintenance Plan, when submitted, will contain
the general information needed to evaluate the proposed
maintenance concept. During the development phase
details will be added so that the final version of
the plan constitutes the Maintenance Manual.
Contractor will submit an outline to the plan for Customer
approval.
8.2.3 T̲o̲o̲l̲s̲ ̲a̲n̲d̲ ̲T̲e̲s̲t̲ ̲E̲q̲u̲i̲p̲m̲e̲n̲t̲
Contractor shall submit a list of tools and test equipment
(T and TE) as part of the Maintenance Plan.
Delivery of the agreed T and TE will be in accordance
with an amendment to the contract.
8.3 S̲p̲a̲r̲e̲s̲ ̲a̲n̲d̲ ̲C̲o̲d̲i̲f̲i̲c̲a̲t̲i̲o̲n̲
Contractor shall by Contract Amendment deliver spares
and codification services to support the converter
program.
Spares shall be delivered for:
- sites
- one supply depot
- one repair depot (piece parts)
As part of this contract Contractor will develop and
submit a RSPL for above three spares categories.
8.3.1 S̲u̲p̲p̲l̲y̲ ̲o̲f̲ ̲S̲p̲a̲r̲e̲ ̲P̲a̲r̲t̲s̲
8.3.1.1 D̲o̲c̲u̲m̲e̲n̲t̲e̲d̲ ̲S̲p̲a̲r̲e̲ ̲P̲a̲r̲t̲s̲ ̲L̲i̲s̲t̲ ̲(̲R̲S̲P̲L̲)̲
Contractor will submit RSPL's in accordance with the
contract. The RSPL's will comprise:
1) A 90 days stock for each site (80% confidence)
2) A 270 days stock for one supply depot (80% confidence)
3) Piece Parts for one repair depot
The Recommended Spare Parts Lists will contain the
following information where applicable:
1) Description
2) NATO Stock Number (if available)
3) User p/n
4) User Code
5) Org Mfg p/n
6) Org Mfg code
7) MTBF
8) MTTR
9) Qty installed at site.
10 Qty installed in system
11) Qty spares
12) Unit price
13) Total price
14) Next higher assembly
In addition to above the RSPL's will include the following
data defined as level of Repair Analysis" data:
1) Whether the item is repairable
2) Level at which repair is done
3) Repair method.
8.3.1.2 A̲p̲p̲r̲o̲v̲e̲d̲ ̲S̲p̲a̲r̲e̲ ̲P̲a̲r̲t̲s̲ ̲L̲i̲s̲t̲ ̲(̲A̲S̲P̲L̲)̲
The Approved Spare Parts List (ASPL) will be derived
by using the RSPL, the equipment and documentation
and will be determined jointly by the Customer and
the Contractor during provisioning meetings to be held
by the Contractor. The ASPL shall be incorporated in
the contract by an appropriate amendment 60 days after
the receipt of an acceptable RSPL.
8.3.1.3 P̲r̲o̲v̲i̲s̲i̲o̲n̲ ̲o̲f̲ ̲S̲p̲a̲r̲e̲ ̲P̲a̲r̲t̲s̲ ̲D̲u̲r̲i̲n̲g̲ ̲F̲i̲r̲s̲t̲ ̲Y̲e̲a̲r̲ ̲o̲f̲ ̲O̲p̲e̲r̲a̲t̲i̲o̲n̲
a) The Contractor shall provide all spare parts listed
in the ASPL prior to the site acceptance of each
site.
b) The Contractor shall replenish the spare parts
at each site in a time frame which will not affect
the system availability as defined in this document
for a period of one year after acceptance. Follow-on
procurement of spare parts as well as spares needed
for the replenishment described above shall be
covered by separate contracts.
c) Prior to final Site Acceptance at any site the
Contractor shall provide his own spare parts to
maintain the equipment to the required performance
level.
8.3.1.4 F̲o̲l̲l̲o̲w̲-̲o̲n̲ ̲S̲p̲a̲r̲e̲s̲
a) The Contractor agrees that follow-on spares in
support of items supplied under this contract shall
be available on order, for delivery within a reasonable
period, for a period of ten years from contract
signature. The contractor further agrees that the
unit prices charged for such spares shall be fair
and reasonable and that spares will be sold to
SHAPE at the current catalog price for CR's most
favoured customer.
b) During the ten year period of guaranteed availability
of the follow-on spares the Customer may purchase
a fixed delivery time for follow-on spares.
8.3.1.5 S̲p̲a̲r̲e̲ ̲P̲a̲r̲t̲s̲ ̲A̲v̲a̲i̲l̲a̲b̲i̲l̲i̲t̲y̲
The Contractor shall promptly notify the Customer upon
receipt of notice of any non-availability of spare
parts and will provide all data with respect to the
replacement and interchangeability of new parts.
8.3.1.6 I̲n̲v̲e̲n̲t̲o̲r̲y̲
The Contractor shall prepare a property inventory for
each site. The inventory will form part of the site
documentation.
8.3.1.7 S̲p̲a̲r̲e̲ ̲P̲a̲r̲t̲s̲ ̲D̲e̲s̲i̲g̲n̲ ̲C̲h̲a̲n̲g̲e̲ ̲N̲o̲t̲i̲c̲e̲s̲
a) The Contractor will issue to the Customer Spare
Parts Design Change Notices (SPDCN) for each item
(fuse, resistor, capacitor, lamp, transistor, inductance
module, etc.) affected within:
1) Four weeks of the Customer's approval of the
Equipment Design Change Notice affecting the
spare parts change.
2) Not later than nine months before an item will
no longer be produced.
b) The SPDCN will refer to the assembly and the part
involved, the improvement achieved, the technical
manuals and the parts thereof to be amended, the
impact on the provisioning actions already taken
and/or stocks of parts and components already delivered.
The SPDCN will also indicate the price of the new
part and provide recommendations as to the disposition
actions to be taken on the previously recommended
part, as appropriate.
c) The above services are to be furnished at no additional
cost to the Customer, as long as the service is
rendered within the warranty period of the equipment.
d) Cost of issuing SPDCNs subsequent to expiration
of warranty period will be negotiated separately
or be part of additional spares procurement.
8.3.1.8 P̲r̲o̲v̲i̲s̲i̲o̲n̲i̲n̲g̲ ̲C̲o̲n̲f̲e̲r̲e̲n̲c̲e̲s̲
The Contractor and purchaser will schedule and conduct
provisioning conferences within a mutually agreed and
suitable time frame to allow selection and timely delivery
of parts, tools and test equipment. Conference facilities,
documentation and equipment as required/ available
will be provided by the Contractor.
8.3.2 N̲A̲T̲O̲ ̲C̲o̲d̲i̲f̲i̲c̲a̲t̲i̲o̲n̲
The Contractor shall make a quote for codification
of:
a) Items shown on the Approved Spare Parts Lists (ASPL)
(ref. sections 8.3.1.1 and 8.3.1.2)
b) Major and minor sub-assemblies (if not included
in the ASPL).
Contractors quote for codifications will identify
the following cost items:
1) Engineering effort necessary to satisfy the
need of the codification bureau for data submittal.
2) Possible codification charges levied against
contractor line-by-line item price to be given.
9. T̲r̲a̲i̲n̲i̲n̲g̲
9.1 G̲e̲n̲e̲r̲a̲l̲ ̲R̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
a) Contractor shall develop training programs and
supply associated course material for the following
courses:
…02…1) Maintenance Training Course
…02…2) On-The-Job Training
b) …02…Contractor shall conduct the following training:
…02…1) A Hardware Maintenance Training Course to be conducted
at contractor's facility RST and MT's from the
3 sites will participate in the same course.
2) On-the-job training:
a) Operators from the 3 sites will travel
to SHAPE where contractor will conduct
a one day OJT Program.
b) The RST and MT will be given OJT during
installation and testing of each individual
site. The training need not be formal but
of the hands on type.
c) L̲a̲n̲g̲u̲a̲g̲e̲. All courses shall be conducted in English
and all equipment handbooks and training material
shall be produced only in English.
d) C̲o̲u̲r̲s̲e̲ ̲L̲e̲n̲g̲t̲h̲. Formal Courses shall be designed
to be effective and efficient, but should be kept
as short as possible. The training plan is to be
based upon a 6 hour day, 45 minute training period
and a 5 day week, and take account of Danish National
holidays.
Length of Maintenance Course is 5 days. Length
of OJT conducted at SHAPE site is 1 day.
e) C̲o̲u̲r̲s̲e̲ ̲S̲t̲r̲e̲n̲g̲t̲h̲. There shall be a maximum of 12
students per course. For practical work a course
shall be divided into 6 groups of 2 students if
possible, or individual "stands" if continuous
flow self-paced methods are selected for formal
courses.
9.2 T̲a̲r̲g̲e̲t̲ ̲P̲o̲p̲u̲l̲a̲t̲i̲o̲n̲
The personnel to receive training in the converter
must be the designated CAMPS RST and MT's. Furthermore,
they must have participated in all or parts of the
applicable CAMPS maintenance courses. Necessary degree
of participation to be determined by contractor.
9.3 D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲ ̲a̲n̲d̲ ̲T̲r̲a̲i̲n̲i̲n̲g̲ ̲A̲i̲d̲s̲
a) The training documentation to be provided in support
of the training programme for the contract shall
be written, compiled, published and delivered in
accordance with the contractual requirements for
documentation applicable for this contract. The
documentation shall be delivered 4 months prior
to commencement of the training.
b) The contractor shall prepare and provide all training
aids in the light of the maintenance requirements.
c) A̲p̲p̲r̲o̲v̲a̲l̲ ̲a̲n̲d̲ ̲D̲e̲l̲i̲v̲e̲r̲y̲. The contractor shall submit
a sample copy (preliminary version) of the training
documentation. Recommended changes shall then
be incorporated by the contractor and finalized
copies of the training documentation together with
training aids shall be delivered to purchaser.
d) S̲e̲c̲u̲r̲i̲t̲y̲ ̲C̲l̲a̲s̲s̲i̲f̲i̲c̲a̲t̲i̲o̲n̲. The contractor shall mark
the appropriate security classifications on all
documentation and training material following the
current ACE security directives. The purchaser
shall approve the security grading before production
in quantity.
9.4 T̲r̲a̲i̲n̲i̲n̲g̲ ̲P̲r̲o̲g̲r̲a̲m̲ ̲P̲l̲a̲n̲
a) Contractor shall submit to purchaser a Training
Program Plan for his approval.
b) The plan shall give a detailed description of the
Training program and the interrelationship between
the two types of training:
- training of customers RST and MT's in maintenance
and fault finding.
- on-the-job training in operation of the equipment.
10. D̲O̲C̲U̲M̲E̲N̲T̲A̲T̲I̲O̲N̲ ̲R̲E̲Q̲U̲I̲R̲E̲M̲E̲N̲T̲S̲
10.1 G̲e̲n̲e̲r̲a̲l̲
a) Hardware documentation developed by CR under this
contract will be produced in accordance with the
requirements as stated in this section of the System
Requirements Specification. Documentation for
OEM equipment will be delivered according to the
requirements as stated in the contract.
b) Software documentation developed by CR under this
contract will generally be produced in accordance
with the structure of ACE STANDARDS MANUAL 96-1-1
part no. 007-3 (reference 7).
c) This appendix G of the contract will serve as the
System Requirements Specification
10.2 F̲o̲r̲m̲a̲t̲ ̲a̲n̲d̲ ̲P̲u̲b̲l̲i̲c̲a̲t̲i̲o̲n̲ ̲C̲r̲i̲t̲e̲r̲i̲a̲
All documentation delivered by the contractor shall
be prepared in accordance with the following requirements.
10.2.1 P̲a̲p̲e̲r̲
The documents, exclusive of covers, shall be printed
on a good grade of white paper of sufficient weight
and substance to permit printing on both sides. The
paper size will be DIN A4. The paper used for fold-out
drawings shall be of a quality and thickness that permits
repeated opening and folding without cracking or tearing
at the folds.
10.2.2 B̲i̲n̲d̲i̲n̲g̲
a) The documents shall be bound between hardbacked
covers that incorporate a metal binding system
which will permit easy removal and insertion of
pages, photographs, illustrations and drawings
and which will permit the documents to lie flat
when opened at any page.
b) The information on pull-out sheets bound in the
hard-backed covers shall be positioned so that
it is clear of the text of its associated document
when opened up so that the reader can readily cross-refer
between text, drawings and illustrations.
c) If they are not accountable items for security
reasons, excessively large drawings may be placed
in pockets formed in the rear covers of binders,
or in the case of, as-built and installation instructions,
to contain large drawings in separate folders equipped
with a fastening arrangement to prevent accidental
loss and spillage of the contents.
d) The cover and title page of the document shall
show the classification of the document, manufacturer
of the equipment, number of the document and its
issue number, number of the contract and the date
of issue. In the case that a subject is covered
in more than one volume then an indication of the
contents of each manual shall be shown. The title
and number of the document shall also be shown
on the spine of the cover if applicable.
10.2.3 N̲u̲m̲b̲e̲r̲i̲n̲g̲
a) The pages of Sections and Chapters are to be separately,
and sequentially numbered beginning with the number
one in each case, with the associated Section or
Chapter number added as a prefix. The page numbers
are to be inserted at the centre of the lower margin
above the classification, or in the appropriate
box if preprinted formsheets are used.
b) Paragraphs, sub-paragraphs, and sub-sub-paragraphs,
are to be numbered sequentially commencing with
one, and sub-paragraphs are to have the associated
paragraph number added as a prefix (i.e. 1.1.,
1.2., 1.3., etc.) and sub-sub-paragraphs, the associated
sub-paragraph number added as a prefix (i.e. 1.1.1.,
1.1.2., 1.1.3. etc). The maximum depth will be
4 (i.e. 1.1.1.1) unless otherwise agreed.
c) For sub-divisioning identification, lower-case
alphabetical characters enclosed in half brackets
shall be used (i.e. a), b), c), etc.). For Sub-sub
divisioning, upper-case Arabic numerals enclosed
in half brackets shall be used (i.e. 1), 2), 3),
etc).
d) Tables shall be captioned and allocated a Table
Number having the Section or Chapter number as
appropriate added as a prefix (e.g. Table 1.1).
Tables may be included as a part of the text or
printed on a fold-out sheet. When printed on a
fold-out sheet, the table number must be positioned
on the fold-out portion so that it is visible on
opening the document to which it belongs.
10.2.4 P̲r̲e̲f̲a̲c̲e̲
a) Each separately bound document (manual) shall commence
with a set of introductory pages, and when a manual
or set of documentation consists of only one separately
bound document, the introductory pages shall consist
of the following:
1) Title pages with the security classification
of the handbook, manufacturer of the equipment,
number of the handbook and its relevant issue
number, number of the relevant contract and
date of issue.
2) When applicable, instructions covering treatment
for electric shock.
3) Amendment history sheet.
4) Record of modifications to the equipment.
5) Introduction giving the purpose of the handbook
and instructions for its use.
6) Table of contents listing the titles of all
sections, headings and sub-headings, together
with relevant paragraph and page numbers.
7) Detailed list of all tables together with relevant
table and page numbers.
8) Detailed list of all drawings, illustrations
and photographs together with a relevant reference
and page numbers.
9) Legend explaining all abbreviations and symbols
used in the text and on the drawings.
10) Photographs or drawings of the major items/bays
described in the handbook.
b) When a manual or set of documentation consists
of more than one volume, each separately bound
volume, section or part, shall contain a set of
introductory pages as described, plus an additional
page inserted after the front sheet containing
an abbreviated list of contents for the complete
manual or set of documentation, as applicable.
c) Wherever possible, photographs, drawings and illustrations
shall be bound in the same cover as the associated
text. In addition when a manual or set of documentation
consists of more than one separately bound document
the first document of the series shall be identified
as the master document and shall contain all information
of a general nature applicable to all documents
of the series.
10.2.5 P̲r̲i̲n̲t̲i̲n̲g̲ ̲a̲n̲d̲ ̲T̲y̲p̲e̲
A conventional typewriter font shall be employed for
the printing of all letters and figures in the text
of all documents.
All titles and headings shall be underlined.
10.2.6 L̲a̲n̲g̲u̲a̲g̲e̲
All documents shall be written in the English language.
All descriptions shall be written in a clear and precise
manner, using unambiguous English and a minimum of
words. Wherever feasible descriptions and procedures
shall be supported either by diagrams and photographs
or other types of illustrations to facilitate understanding
of the text by personnel having only a working knowledge
of the English language.
10.2.7 S̲e̲c̲u̲r̲i̲t̲y̲ ̲C̲l̲a̲s̲s̲i̲f̲i̲c̲a̲t̲i̲o̲n̲
Manuals and documents shall be classified in accordance
with the classification of the information included
therein. The relevant classification of a document
shall be printed at the centre top and bottom of all
pages, photographs, illustrations and drawings, and
at the centre top and bottom of the front cover of
all binders. The highest classification of any section
of a document shall be printed on the cover of that
binder.
Applicable document for security classification is
NATO Document CM(55)15 Final "Security within the North
Atlantic Treaty Organization".
10.2.8 P̲h̲o̲t̲o̲g̲r̲a̲p̲h̲s̲,̲ ̲I̲l̲l̲u̲s̲t̲r̲a̲t̲i̲o̲n̲s̲ ̲a̲n̲d̲ ̲D̲r̲a̲w̲i̲n̲g̲s̲
a) All titles and included text and annotations shall
be in the English language in addition to any other
language that may be employed. To facilitate correlation
the figure numbers are to be preceded by the associated
chapter or section number as appropriate (e.g.
Figure 1.1).
b) The lettering and layout of drawings shall be in
accordance with recognized industrial or national
standards. Hand lettering shall be avoided except
on advance information copies and for marking-up
ATBB documents during site implementation.
c) Symbols, when employed, shall be defined so that
there can be no confusion in their interpretation.
The definitions may, at the discretion of the contractor,
be given on the drawings or collectively in the
associated document in the form of a glossary.
d) The use of drawings and illustrations that exceed
1 x 1.5 metres shall be avoided. Where necessary
the scale shall be shown.
10.2.9 A̲m̲e̲n̲d̲m̲e̲n̲t̲s̲
The contractor shall be responsible for the issue,
control and distribution of amendments to all delivered
documents, resulting from changes and/or modifications
in the equipment or spare parts, until expiration of
the warranty period for the associated equipment. In
the case of the training documentation the contractor
shall be similarly responsible until the end of the
training period.
10.2.10 U̲s̲e̲ ̲o̲f̲ ̲R̲e̲f̲e̲r̲e̲n̲c̲e̲s̲
To avoid duplication of information references to other
parts of the documentation may be made.
10.3 A̲p̲p̲r̲o̲v̲a̲l̲ ̲a̲n̲d̲ ̲D̲e̲l̲i̲v̲e̲r̲y̲
Approval and delivery of documentation will be in accordance
with paragraph 15 Special Provisions under this contract
unless otherwise agreed or stated in this section.
a) Three months before the provisional site acceptance
(PSA) of the first site four copies of each draft
document shall be submitted to the purchaser for
review. The resulting recommended changes shall
be considered and incorporated by the contractor
who shall re-submit one copy of the revised document
for printing approval. Upon receipt, in writing
from the
purchaser, that the contents of the revised version
contain all of the purchaser's recommended correcti-
ons, changes and comments to his satisfaction,
the contractor shall be responsible for the editing,
production and delivery of the required number
of the documents. The contractor shall provide
page changes or if necessary shall re-issue portions
of the documents whenever changes/modifications
in equipment or spare parts are made.
b) In the event that approved copies are not available
at the time of on-site acceptance test of equipments,
preliminary version of each document (advance information
in sufficient detail to permit satisfactory operation
and maintenance of the equipment) shall be provided
to each site at the time of the provisional site
acceptance.
c) Q̲u̲a̲n̲t̲i̲t̲i̲e̲s̲
The contractor shall deliver the following quantities
of handbooks (i.e. Equipment, maintenance and Test
Equipment Handbooks).…06…1 …02… …02… …02… …02…
T̲O̲ D̲R̲A̲F̲T̲ ̲P̲R̲E̲L̲I̲M̲I̲N̲A̲R̲Y̲ ̲V̲E̲R̲S̲I̲O̲N̲ F̲I̲N̲A̲L̲ ̲V̲E̲R̲S̲I̲O̲N̲
Each Site 0 2 (each) (Delivery
2
weeks
before
PSA)
Purchaser 4 (each) Delivery 3 months 5 (each)
"
before PSA of first site
10.4 E̲q̲u̲i̲p̲m̲e̲n̲t̲ ̲H̲a̲n̲d̲b̲o̲o̲k̲s̲
10.4.1 C̲R̲ ̲P̲r̲o̲d̲u̲c̲e̲d̲ ̲E̲q̲u̲i̲p̲m̲e̲n̲t̲
Equipment handbooks shall be prepared for all main
and miscellaneous equipment supplied. The equipment
handbook shall contain as a minimum:
a) Equipment Specifications.
b) Installation and Commissioning Instructions.
c) Operating Instructions.
d) Technical Description.
e) Parts Lists.
10.4.1.1 E̲q̲u̲i̲p̲m̲e̲n̲t̲ ̲S̲p̲e̲c̲i̲f̲i̲c̲a̲t̲i̲o̲n̲s̲
a) This section shall contain a listing of all the
important parameters of the described equipment.
It shall include but not be limited to the following:
b) The required external power supply voltage and
frequency characteristics with acceptable tolerances.
c) Power consumption, ventilation and environmental
control data.
d) Characteristics and acceptable tolerances of all
input and output signals.
e) The environmental conditions over which the equipment
performance will continue to meet the design performance
criteria.
f) The overall weight and the weight of each typical
unit or sub-unit.
g) The overall dimensions and the dimensions of each
major unit or sub-unit.
10.4.1.2 I̲n̲s̲t̲a̲l̲l̲a̲t̲i̲o̲n̲ ̲a̲n̲d̲ ̲C̲o̲m̲m̲i̲s̲s̲i̲o̲n̲i̲n̲g̲ ̲I̲n̲s̲t̲r̲u̲c̲t̲i̲o̲n̲s̲
a) This section shall include the electrical and mechanical
information necessary for mounting and demounting
the equipment especially:
b) Detailed mechanical installation instructions.
c) Detailed external and inter-unit cabling instructions,
including earthing connections.
d) Specification of the cables to be used.
e) A detailed list of checks to be carried out prior
to application of power for the first time.
f) A detailed list of checks to be carried out following
the application of power and prior to putting the
equipment into service. Where these checks are
identical to the maintenance procedures references
shall be made to the maintenance procedures. Duplication
of the text is not required.
g) List of tools and test equipment required for installation,
commissioning and check-out of the equipment.
10.4.1.3 O̲p̲e̲r̲a̲t̲i̲n̲g̲ ̲I̲n̲s̲t̲r̲u̲c̲t̲i̲o̲n̲s̲
a) The operating instructions shall be detailed and
cover all applicable equipment both central computer
and peripherals.
b) Operating instructions shall include the basic
functions such as:
1) Power ON and OFF.
2) Emergency power OFF.
3) Interpretation of alarm and warning conditions
and associated immediate action instructions.
4) Description of controls and indicators.
10.4.1.4 T̲e̲c̲h̲n̲i̲c̲a̲l̲ ̲D̲e̲s̲c̲r̲i̲p̲t̲i̲o̲n̲
a) The depth of description will be in accordance
with the level of maintenance as outlined in contractor's
maintenance plan.
b) First section will give a general introduction
to the equipment and explain its purpose. It shall
give a brief description covering the overall physical,
electrical and electronic characteristics as applicable,
using as back-up information block diagrams, photographs
or other suitable illustrations.
c) Subsequent sections will describe the major elements
and assemblies, and present the overall functional
description of the system.
d) The object of the Technical Description is to provide
sufficient technical information to operating and
maintenance personnel to enable them to understand
and use the Maintenance Handbooks and Operating
Instructions respectively.
10.4.1.5 P̲a̲r̲t̲s̲ ̲L̲i̲s̲t̲
This section shall consist of a tabulation following
a "family tree" type breakdown of all parts for the
described equipment, and shall provide the following
information.
a) Manufacturer's part number and an associated brief
descriptive phrase for each major assembly.
b) The component reference number as used on the
circuit diagrams for all electrical/electronic
components parts. Each reference number shall
be followed by a brief descriptive phrase,
nominal value, rating and tolerance of the
associated component, together with the manufacturer's
reference number and manufacturer's address
or NATO code (if readily available).
c) Manufacturer's part number and an associated
brief descriptive phrase for each mechanical
part, together with the manufacturer's address
for each item listed.
d) A list of the sizes and types of nuts, bolts,
washers and fasteners supplied as a repair
kit to each site and depot.
10.4.2 O̲E̲M̲ ̲E̲q̲u̲i̲p̲m̲e̲n̲t̲
Handbooks and other relevant documentation for peripherals
and test equipment supplied shall be delivered in accordance
with the terms of the contract; i.e. standard OEM documentation.
10.5 M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲H̲a̲n̲d̲b̲o̲o̲k̲
The maintenance procedures handbook is the basic document
which outlines how the maintenance of the system will
be effected. It shall be, in effect, the final version
of the contractor's maintenance plan. It shall be the
one document which will give precise instructions to
a technician as to how he will fulfil his responsibilities.
Drawings, illustrations and photographs used in connection
with maintenance will permit identification of the
location of all replaceable units to permit a technician
to repair and to satisfactorily maintain the equipment.
Equipment layout drawings, inter-unit and sub-unit
cabling and wiring diagrams shall be provided for all
electrical and electronic assemblies. Annotated line
drawings, annotated cut-away illustrations, and annotated
photographs, as appropriate, shall be provided to permit
identification of all mechanical assemblies and mechanisms
and parts thereof. As a minimum the following drawings
shall be included:
a) Block diagram of the whole equipment.
b) Block diagram of assemblies divided into units.
c) Block diagram of major units.
d) Detailed interconnection diagrams and internal
cabinet cabling diagrams including the views of
plug-in connectors.
10.5.1 P̲r̲e̲v̲e̲n̲t̲i̲v̲e̲ ̲M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲(̲S̲i̲t̲e̲/̲D̲e̲p̲o̲t̲)̲
The preventive maintenance instructions shall contain:
a) All recommended routine maintenance tasks necessary
to ensure continuous and satisfactory performance
of the equipment, based on the periodicity of maintenance
(i.e. daily, weekly, monthly etc.).
b) Illustrations and test set up schematics shall
be included to ensure that the procedures can be
understood by the technician.
c) All test points clearly identified. The nominal
values and the acceptable limits that should be
measured at each test point shall be indicated.
d) The document shall include system and sub-system
alignment procedures.
e) Where necessary, reference shall be made to other
documentation where more detailed information regarding
the maintenance task may be found.
f) List of all required tools and test equipment supplied
for maintenance purposes.
g) Dismantling and re-assembly instructions shall
be given where applicable.
h) No preventive maintenance at Depot.
10.5.2 C̲o̲r̲r̲e̲c̲t̲i̲v̲e̲ ̲M̲a̲i̲n̲t̲e̲n̲a̲n̲c̲e̲ ̲(̲S̲i̲t̲e̲/̲D̲e̲p̲o̲t̲)̲
The corrective maintenance instructions supplied to
each site will reflect the level of maintenance applicable
to the converter, i.e. module replacement.
The corrective maintenance instructions shall contain:
a) Detailed descriptions of the symptoms of a fault
to include alarm conditions if applicable.
b) Description of the possible fault isolation methods
and tools used in connection with fault isolation.
c) Comprehensive procedures for fault tracing and
fault isolation.
d) For depot maintenance, schematics and IPB's will
be provided.
10.5.3 A̲s̲s̲o̲c̲i̲a̲t̲e̲d̲ ̲D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲
Appropriate documentation, either in the form of the
manufacturer's handbook or leaflet, shall be provided
where applicable for each delivered item of test equipment.
Similarly, documentation shall be provided for those
tools, other than simple hand tools, which require
operation and maintenance instructions, when full information
is not given in the Maintenance and Operating Manual.
10.6 E̲n̲g̲i̲n̲e̲e̲r̲i̲n̲g̲ ̲D̲r̲a̲w̲i̲n̲g̲ ̲D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲
10.6.1 C̲i̲v̲i̲l̲ ̲W̲o̲r̲k̲s̲ ̲R̲e̲q̲u̲i̲r̲e̲m̲e̲n̲t̲s̲
The civil works requirements are to be provided by
contractor prior to equipment installation at each
site. This document should, as a minimum, be in the
form of engineering sketches and written text describing
all civil works that need to be accomplished to prepare
the site for contractor equipment installation. This
documentation must be in sufficient technical detail
to instruct a civil works contractor in the work to
be performed.
10.6.2 A̲s̲-̲t̲o̲-̲b̲e̲-̲B̲u̲i̲l̲t̲ ̲a̲n̲d̲ ̲A̲s̲-̲B̲u̲i̲l̲t̲ ̲D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲
a) This documentation shall provide full details of
how all the major assemblies of the supplied equipment
at each location have been physically installed
and electrically integrated. They will be supplied
by CR as two deliveries:
1) As-to-be-Built drawings.
2) As-Built Drawings (due at time of PSA).
10.7 I̲n̲v̲e̲n̲t̲o̲r̲y̲
10.7.1 G̲e̲n̲e̲r̲a̲l̲
The contractor shall prepare a property inventory for
each site.
10.7.2 P̲r̲o̲p̲e̲r̲t̲y̲ ̲I̲n̲v̲e̲n̲t̲o̲r̲y̲
a) The contractor shall prepare a property inventory
of each site and shall deliver them to the related
sites before provisional site acceptance (PSA).
b) The inventory shall be prepared in block form and
shall consist of the following sections, as applicable:
1) Main Equipment.
2) Test Equipment.
3) Spare Parts (Site and Depot).
4) Installation Material (Cable and Hardware).
5) Documentation.
c) The inventory information, shall include as a minimum
the following data elements:
- Site
- Item Number
- Description
- True Manufacturer's Part Number
- Manufacturer's Identification Code
- Quantity
- Price
- NATO Stock Number (as available)
- Item Serial Number (for test equipment and
for major assemblies)
- Working or Spare
- Remarks
e) The inventory shall be checked against the installed
equipment at time of PSA and changed as necessary.
The marked up copy shall then form the official
record of all equipment and other items that have
been delivered. The deliverable final inventory
will be submitted in the form of a hard copy list
subsequent to PSA.
10.8 S̲o̲f̲t̲w̲a̲r̲e̲ ̲D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲
10.8.1 G̲e̲n̲e̲r̲a̲l̲
CR will produce software documentation in accordance
with ACE standard manual part 007-3 (reference 7) with
the modification agreed between SHAPE and CR for the
CAMPS contract.
10.8.2 D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲ ̲S̲t̲r̲u̲c̲t̲u̲r̲e̲
The software documentation shall be structured in a
hierarchical system of levels in accordance with the
hierarchical structure of the software.
The software shall be documented in 2 levels:
- Software Specifications (System level)
- Package Specifications
10.8.3 S̲o̲f̲t̲w̲a̲r̲e̲ ̲S̲p̲e̲c̲i̲f̲i̲c̲a̲t̲i̲o̲n̲ ̲(̲S̲y̲s̲t̲e̲m̲ ̲L̲e̲v̲e̲l̲)̲
The software shall be specified as follows:
a) System software shall be documented in accordance
with CR internal standard for System Software.
b) The application software shall be specified in
accordance with ACE Standard Manual part 007-3
(reference 7) Subsystem Specification (as modified
with CAMPS approved changes).
10.8.4 P̲a̲c̲k̲a̲g̲e̲ ̲S̲p̲e̲c̲i̲f̲i̲c̲a̲t̲i̲o̲n̲s̲
The application software subsystems shall be broken
down into software packages with well defined functions
and interfaces. The Application software package shall
be specified in accordance with ACE Standard Manual
part 007-3 (reference 7) "Program Specification" (as
modified with CAMPS approved changes).
