Producing aeronautical electronic engineering drawings using computer aided techniques
Overview
This standard identifies the competences you need to set up and operate a computer aided drawing (CAD) system to produce detailed drawings for aeronautical electronic engineering activities, in accordance with approved procedures. The type of drawing produced will include circuit and wiring diagrams, block diagrams, schematics, printed circuit board layouts, assembly and installation drawings, and system design/modification drawings. You will be given a detailed drawing brief or a request for change/modification order, and you will be expected to access these requirements and to extract all necessary information in order to carry out the drawing operations.
You will need to select the appropriate equipment and drawing software to use, based on the type and complexity of the drawing functions to be carried out. You will be expected to use current British, European, International and company standards to produce a drawing template for a range of paper sizes, and must include the drawing title, scale used, date of drawing, and other relevant information. You will then be expected to produce fully detailed drawings to enable the electronic circuits to be assembled, installed, maintained, commissioned or modified.
Your responsibilities will require you to comply with organisational policy and procedures for working in the drawing office or CAD suite. You will be required to report any problems with the computer hardware, software or drawing procedures that you cannot personally resolve, or that are outside your permitted authority, to the relevant people. You will be expected to work to verbal/written instructions and draught specifications, with a minimum of supervision, taking personal responsibility for your own actions and for the quality and accuracy of the work that you carry out.
Your underpinning knowledge will provide a good understanding of your work and will provide an informed approach to applying computer aided drawing procedures for the creation of aeronautical electronic engineering drawings. You will understand the computer system and software used, and its application, and will know about the various tools and techniques used to produce the drawings, in adequate depth to provide a sound basis for carrying out the activities to the required specification.
You will understand the safety precautions required when working with the computer drawing system. You will be required to demonstrate safe working practices throughout and will understand the responsibility you owe to yourself and others in the workplace.
Performance criteria
You must be able to:
work safely at all times, complying with health and safety and other relevant regulations, directives and guidelines
prepare CAD system for operation using approved procedures
- produce drawings that are sufficiently and clearly detailed
- produce drawings in the required formats
- use codes and other references that follow the required conventions
- make sure that drawings are checked and approved within agreed timescales by authorised people
- ensure that drawings are properly registered and stored securely
- ensure that changes are completed as required by organisational procedures
Knowledge and Understanding
You need to know and understand:
- the specific safety precautions to be taken when working with computer systems (to include such items as safety guidance relating to the use of display screen equipment (DSE) and work station environment (such as lighting, seating, positioning of equipment), repetitive strain injury (RSI); the dangers of trailing leads and cables; how to spot faulty or dangerous electrical leads, plugs and connections)
- good housekeeping arrangements (such as cleaning down work surfaces; putting media, manuals and unwanted items of equipment into safe storage; leaving the work area in a safe and tidy condition)
- the set-up and operation of the computer systems and the peripheral devices that are used (such as mouse, light pens, digitisers and tablets, printers or plotters, and scanners)
the correct startup and shutdown procedures to be used for the computer systems
the methods and procedures used to minimise the chances of infecting a computer with a virus
the implications if the computer you are using does become infected with a virus and who to contact if it does occur
how to access the specific computer drawing software to be used and the use of software manuals and related documents to aid efficient operation of the relevant drawing system; the use of access codes for personal files
- how to deal with system problems (such as error messages received, peripherals which do not respond as expected, obvious faults with the equipment or connecting leads)
- the documentation required for particular applications (such as drawing briefs, specification sheets, request for change orders)
- types of electronic drawing that may be produced by the software (such as circuit and wiring diagrams, block and schematic diagrams, assembly and installation drawings, circuit board layouts and circuit board assembly)
- the difficulties that can emerge in manufacturing processes because of poor drawings/design
- the national, international and organisational standards and conventions that are used for the drawings
- how to set up the drawing template parameters (such as layers of drawings, scale, paper size, colour set-up, line types, dimension system and text styles)
- the application and use of drawing tools (such as for straight lines, curves and circles; how to add dimensions and text to drawings, producing layers of drawings)
- how to access, recognise and use a wide range of standard electronic component symbol libraries from the CAD equipment
- the factors to be taken into account when producing electronic drawings (such as safety requirements, operating parameters of components, position of components in relation to other sources or circuits, possibility of external interference)
- the aeronautical electronic equipment and circuits being drawn and the function of the individual components within the circuits
- the selection of the various components and cables being used (with regard to their operating ranges and current carrying capacity)
- the use of specific regulations and standard reference tables when selecting electronic components and cables
- the calculations that may be required to be carried out to verify the acceptability of components and circuits (such as Ohm's Law)
- how power cables might affect/corrupt electronic components and the need to consider this when producing the drawing (such as the positioning, siting and routeing of electrical cables and wires)
- the manufacturing processes used for populating circuits with components
- the constraints laid down by existing national and international legislation, statutory and non-statutory regulations, industry and national standards, industry guidelines and professional codes that regulate electronic design activities
- the need for document control (such as ensuring that completed drawings are approved, labelled and stored on a suitable storage medium, the need to create backup copies and to file them in a separate and safe location away from possible corruption, filing and storing hard copies for use in production)
- the procedures for drawing change notes, trial changes, up-issuing of drawings, modifications and miscellaneous amendments to drawings
- the extent of your own responsibility and to whom you should report if you have problems that you cannot resolve when producing the drawings
Scope/range
Scope Performance
Prepare the CAD system for operation by carrying out all of the following:
- check that all the equipment is correctly connected and in a safe, tested and usable working condition (cables undamaged, correctly connected, safely routed)
- power up the equipment and activate the drawing software
- set up the drawing system to be able to produce the drawing to the appropriate scale
- set up and check that all peripheral devices are connected and correctly operating (such as keyboard, mouse, light pen, digitiser/tablet, scanner, printer, plotter)
- set the drawing datum at a convenient point (where applicable)
- set up drawing parameters (to include layers, lines type, colour, text styles) to company procedures or to suit the drawing produced
- create a drawing template to the required standards, which includes all necessary detail (such as title, drawing number, scale, material, date)
Use three of the following to obtain the necessary data to produce the required drawings:
- drawing brief/request
- specifications
- change order/modification request
- aircraft electrical/electronic regulations
- manuals
- previous drawings/designs
- calculations (such as Ohm's Law)
- sketches
- standards reference documents (such as current carrying capacity of cables, electronic component catalogues)
- notes from meetings/discussions
- other specific data
Take into account eight of the following design features, in relation to the drawing being produced:
- physical dimensions of the circuit
- types of component to be used
- aesthetics
- operating environment
- component orientation
- interfaces
- position of circuit elements/components
- special labels (such as orientation reference points)
- safety
- power supplies
- function
- cost
- ergonomics
- connectors/test points access
- lifetime of the product
- connections between components
- tolerances
- appropriate type of circuit (such as digital, analogue, hybrid)
- appropriate technology of circuit design (such as single sided, double sided, multi-layer, flexi-rigid)
- meets signal integrity parameters (such as capacitance, inductance, resistance, insulation voltages)
- meets specified operating conditions (such as temperature, humidity, shock and vibration)
- any assembly/manufacturing schedule constraints (such as high profile components mounted after surface mount technology (SMT) ones)
- other specific feature
Carry out all of the following before producing the engineering drawing:
- ensure that data and information are complete and accurate
- review the data and information to identify the drawing requirements
- recognise and deal with problems (information based and technical)
Produce electronic engineering drawings for three of the following aircraft electrical/avionics systems:
- electrical power generation and distribution
- armament equipment and systems
- lighting (internal or external)
- passive warning and electronic countermeasure systems
- indication and gauging
- infra-red and optical systems
- pitot static
- radar systems
- communication
- flight guidance and control systems
- navigational
- other specific electronic circuit
Produce three of the following types of electronic engineering drawing:
- circuit diagrams
- circuit board assembly
- wiring diagrams
- circuit board layout
- block diagrams
- general assembly drawings
- schematics
- manufacture of cable looms
- system drawings
- fault diagnostics (such as flow diagrams)
- modifications to electronic equipment/systems (such as circuit board layout, cable looms, cable routeing and clipping, panels/sub-assemblies, installation of electronic systems)
Produce electronic engineering drawings which include ten of the following:
- straight lines
- curved/contour lines
- dimensions
- circles or ellipses
- angled lines
- parts lists
- text
- test points
- insertion of electronic components
- colour/component coding
- type and size of cables
- fault diagnosis (such as flow diagrams)
- connection/termination details
- electrical/electronic symbols and abbreviations
- other specific electronic detail
Save and store drawings in appropriate locations, to include carrying out all of the following:
- ensure that your drawing has been checked and approved by the appropriate person/s
- check that the drawing is correctly titled and referenced
- save the drawing to an appropriate storage medium
- create a separate backup copy and place it in safe storage
- produce a hard copy printout of the drawing for file purposes
- register and store the drawings in the appropriate company information system
- where appropriate, record and store any changes to the drawings in the appropriate company information system
Produce drawings in compliance with one of the following:
- CAD software standards
- Civil Aviation Authority (CAA)/European Aviation Safety Agency (EASA)
- Ministry of Defence (MoD)
- Military Aviation Authority (MAA)
- Aerospace Quality Management Standards (AS)
- Federal Aviation Authority (FAA)
- BS, ISO or BSEN standards and procedures
- customer standards and requirements
- company standards and procedures
- aircraft manufacturer's requirements
Scope Knowledge
Values
Behaviours
You will be able to apply the appropriate behaviours required in the workplace to meet the job profile and overall company objectives, such as:
- strong work ethic
- positive attitude
- team player
- dependability
- responsibility
- honesty
- integrity
- motivation
- commitment