OEM Engineering Product Support

LPS provides systems assurance and supportability engineering services to the OEM and their suppliers (tiers) using supportability analytical software, models and industrial databases.

LPS provides support to the key points of policy and guidance, in respect of support equipment (SE) required for the effective through life support (TLS) of equipment, in accordance with RAM and ILS policy. For the OEM and their suppliers with demanding product development cycles and a need for input in systems assurance and supportability engineering (development and proposals) LPS  provides support solution in large or small runs.

The work you require, the delivery you need and the quality you demand are all assured under our OEM supportability program.  Your Partner – for years, LPS has been supporting OEM with their product supportability deliverables.  Whether you are developing a ground-breaking new product or designing the next-generation system for sophisticated markets, LPS has the knowledge and experience on systems assurance and supportability engineering to help you succeed.  We work with you as a team to fulfil your supportability contractual requirements and take your support package from vision to reality.

COTS

This is FAR terms defining a none development items of supply. All sectors are adopting COTS regularly since it introduces less development time and lower development cost by taking advantage of existing, market proven, vendor supported products.

Systems that use COTS equipment still require reliability engineering efforts. The essential reliability analysis/tasks that must be performed are reliability predictions, system level FMECA, failure reporting, corrective action development and reliability verification.   LPS offers OEM and end-users a complete RAM and ILS analysis on selected COTS systems.

MOTS

This is FAR terms defining a none development items of supply. MOTS (modified or modifiable off-the-shelf), GOTS (government off-the-shelf), and NOTS (NATO off-the-shelf or niche off-the-shelf, depending on the context) are abbreviations that describe alternatives. The main advantages of the MOTS are the savings in cost and time. Even though these items need to be changed, they still offer a financial and time-savings benefit to the end-users due to the fact that most of the work has already been completed. The modification may be completed by the software or hardware manufacturer, a third party or the military, depending on the situation.

Systems that use MOTS equipment still require reliability engineering efforts.   LPS offers OEM and end-users a complete RAM and ILS analysis on selected MOTS systems.

Maintenance Planning & Design

LPS performs a complete systems maintenance planning and design for your equipment. We are an innovative Industrial maintenance analysis provider that specializes in completing defence (military and naval equipment) and commercial maintenance systems design (such as corrective, preventive, scheduled maintenance ,) on the hydraulic, pneumatics, electrical, electronics, mechanical systems, machinery, mining , oil and gas equipment, etc. to increase their availability, including their life cycle cost and sparing optimization.

Sectors Support

LPS performs systems assurance and supportability engineering for OEM in selected sectors to implement, complete and establish the following tasks, using North American and European standards:

  • integrated logistics support (ILS) policy
  • integrated logistics support (ILS) management
  • supportability analysis
  • management and exploitation of equipment generated system information
  • support delivery management, monitoring and reviews
  • maintenance planning
  • maintenance design
  • manage maintenance
  • conduct maintenance
  • maintenance record exploitation
  • Reliability, availability and maintainability, RAM
  • Support of technical documentation
  • Test and support equipment
  • supply support procedures
  • configuration management
  • supportability case
  • Spare optimizations
  • Life cycle cost

Electrical Systems

LPS completed systems assurance, supportability engineering and safety tasks on electrical components in industry dealing with problems associated with failure and their modes on systems such as electric power transmission , electrical machines, etc. LPS offers OEM and end-users a complete systems assurance and supportability engineering analysis to identify the failure, FMECA and safety of systems including LCC analysis. utilizing supportability software, models and databases.   This is one of the major activities at LPS to complete supportability analysis on electronic systems for OEM and end-users (such as COTS, PCB, new product, developing or developed product, etc.).

Electronic Systems

LPS performs complete reliability analysis on electronic components, integrated circuits, etc. utilized to design and build electronic circuits, devices, PCB and related systems .
LPS uses analytical software including reliability models (IEC TR 62380, 217 Plus, Telcordia, RDF 2000, etc.) and selected reliability databases to complete supportability tasks on selected electronic systems.
This is one of the major activities at LPS to complete supportability analysis on electronic systems for OEM and end-users (such as COTS, PCB, new product, developing or developed product, etc.).

Mechanical Systems

LPS performs complete reliability analysis on mechanical components utilized to design and build systems . As part of multi-disciplinary design, the reliability of the mechanical components must be taken into account for most of the systems market objectives. Mechanical reliability analysis is based in material science and deformation mechanics with precompiled data sources and data modeling techniques relevant to mechanical reliability.

LPS uses analytical software including mechanical reliability models and selected reliability databases to complete supportability task on mechanical systems.

This is one of the major activities at LPS to complete supportability analysis on electronic systems for OEM and end-users (such as COTS, PCB, new product, developing or developed product, etc.).

Hydraulic Systems

LPS completed tasks on hydraulic drive systems uses hydraulic fluid to drive hydraulic machinery.

  • Handling systems (commercial & military equipment) such as Rotating, Tilting, Lifting, Cart and Floor modules.
  • Industrial Winch, Clutches and Brakes
  • Industrial accumulators and Control Systems (Electronics, PCB)
  • Hydraulic Pressure Generators
  • LAV recovery winch systems and Trucks hydraulic systems
  • Hydraulic Pumps, Motors, Steering, Transmissions, etc.
  • Drive technology (linear actuators, etc.)
  • Hydraulic Valves (Shut-off, Flow control, Pressure relief, Pressure reducing, Pilot operated check valves, Valve combinations, Directional control and Sequence valves, and more)
  • Hydraulic Cylinder (Hydro, Universal, Threaded-body, Block, Hydraulic slides and Hollow-piston cylinders)

LPS offers OEM and end-users a complete systems assurance and supportability engineering analysis on selected hydraulic systems.

Pneumatic Systems

LPS completed tasks on pneumatic drive systems uses pressurized gas.

  • Air compressor
  • Pneumatic cylinders
  • Air Brakes (buses, trucks and train)
  • Pneumatic actuator
  • Pneumatic air guns
  • Pneumatic motor
  • Pneumatic tools (Jackhammer)
  • Pressure (regulator, sensor, switch, pump)

LPS offers OEM and end-users a complete systems assurance and supportability engineering analysis on selected pneumatic systems.