OEM/ODM Service

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What is OEM and ODM service?

OEM Service

OEM – Typically known as Original Equipment Manufacturer in a manufacturing terms, where a comapany, which has vast advantages in terms of available manufacturing resoures or technologies,conducts OEM contract manufacturing for another company that focuses on product design or/and market. The former referred to as a manufacturer and the latter as a client. The client designs the product with its own proprietary rights.With OEM manufacturing contracts signed with manufacturer, the client gives access to the design of product to the manufacturer. The manufacturer produces the OEM service products on basis of the contacts between both parties.

Take the OEM electronics manufacturer for example, the manufacturer firstly comes into an agreement of OEM contract manufacturing with its client and purchases various materials necessary for manufacturing process. After a finished product with acceptance of the client is produced, its going to deliver the product for the manufacturer to its client and conduct after-delivery service within a certain time frame.


Why should you consider taking advantage of OEM service?

You design the product with proprietary rights and have complete intellectual property rights to the design of the product. No limits to the shifts from one to another OEM contract manufacturer at any time. With rich supply-chain resources, insight into the industry and proficiency in manufacturing process, OEM contract manufacturer can help produce the product with any specification per your requirements, while you can concentrate on original design and market.

At Yeetway, focus on innovative projects, with more than 10 years of OEM manufacturing and delivery experience, we’re committed to deliver more than expected experience.

oem odm service

ODM. Service

ODM service means Original Design Manufacturer. Usually refers to as “private lable contract manufacturing”. Where a importer chooses preferred ones from existing product designs in a manufacturer product catalog. Sometimes, the importer asks to make some small changes on the existing designs and label its own logo to market after coming to a private label manufacturing agreement between the importer and the manufacturer.


What benefits you get from ODM services?

Importers don’t need to do time-consuming research and development to design new products, and saving time and expensive cost to be dedicated to market. With advantages of research and development on a certain field, manufacturer can help importer minimize the unit cost eventually. Specially chinese private label manufacturers, because of the strengths of supply chain and labor force, they contributed majority of gloabl ODM service orders during the past couple of decades.

With Yeetway, you have a long list of innovative led product designs to choose for your own private labeling, flip up led lights, underhood work lights, portable solar fan, collapsible solar lantern, vintage camping lantern, camping tent rope lights





The product development process for a manufacturer typically involves several stages, from conceptualization to commercialization. Let’s explore each step in detail:

  1. Idea Generation:The process begins with brainstorming and generating ideas for new products or improvements on existing ones. This can come from various sources such as market research, customer feedback, technological advancements, or internal innovation initiatives.
  2. Market Research:Once an idea is identified, thorough market research is conducted to assess its viability and potential demand. This involves analyzing consumer needs, studying competition, identifying target markets/segments, and understanding industry trends.
  3. Concept Development:In this phase, the initial idea is further refined into a concept that aligns with the identified market needs and business goals of the manufacturer. Designers and engineers collaborate to create visual representations or prototypes that showcase the key features and functionality of the product.
  4. Design & Engineering:During this stage, detailed design work takes place based on the approved concept. Engineers use Computer-Aided Design (CAD) software to develop precise technical drawings while considering factors like aesthetics, ergonomics, manufacturability, cost-effectiveness, and regulatory compliance.
  5. Prototype Development:Prototyping involves creating physical models or samples of the product using suitable materials/components at a smaller scale before moving forward with mass production. It allows manufacturers to evaluate form-factor design elements and conduct functional tests for validation purposes.
  6. Testing & Validation:Rigorous testing is performed on prototypes to ensure they meet quality standards and functional requirements set during earlier phases of development.
  • Performance Testing: Evaluating how well the product performs under specific conditions.
  • Durability Testing: Assessing its ability to withstand long-term usage without failure.
  • Safety Testing: Ensuring compliance with safety regulations applicable in relevant industries/markets.
  • User Acceptance Testing: Gathering feedback from potential end-users about usability aspects.
  1. Manufacturing Planning:Once the design and prototype have been approved, manufacturers plan the production process. This involves selecting suitable manufacturing methods, sourcing raw materials/components, estimating production costs, establishing supply chains, and setting up quality control measures.
  2. Mass Production:With all preparations in place, mass production begins based on demand forecasts and sales projections. Manufacturers leverage their expertise in efficient manufacturing techniques to produce products at scale while ensuring consistent quality across batches.
  3. Quality Assurance & Control:Throughout the entire manufacturing process, strict quality assurance procedures are implemented to ensure that each unit meets defined quality standards. Various inspections and tests are conducted at different stages of production to identify any defects or deviations from specifications.
  4. Packaging & Logistics:After successful production, products undergo appropriate packaging processes for protection during transportation and storage. Packaging is designed not only for physical protection but also to enhance branding efforts and improve user experience upon unboxing.
  5. Commercialization & Launch:The final step involves preparing the product for market launch by developing marketing strategies, creating promotional materials/assets (such as product documentation or videos), coordinating distribution channels/partnerships, and executing targeted marketing campaigns to generate awareness and drive sales.

It’s important to note that this product development process can vary depending on factors such as industry-specific regulations or unique requirements set by manufacturers themselves. Flexibility within each stage allows manufacturers to adapt their approach based on specific circumstances while aiming for a successful end-product that meets customer expectations in terms of functionality, reliability, affordability, and overall satisfaction.


The product design process is a critical component of the overall product development cycle for manufacturers. It involves creating and refining the visual and functional aspects of a product to meet customer needs, manufacturing capabilities, and business objectives. Let’s explore the typical stages involved in the product design process for a manufacturer:
  1. Idea Generation: The process begins with generating ideas for new products or improvements to existing ones. This can be driven by market research, consumer feedback, technological advancements, or internal innovation initiatives.
  2. Concept Development: Once an idea is identified, designers work on transforming it into conceptual designs that capture the essence and key features of the envisioned product. Sketches, renderings, or 3D models are created to visualize how the product might look.
  3. Design Exploration: Multiple design alternatives are explored during this phase to evaluate different possibilities and refine concepts further. Designers consider factors such as aesthetics, functionality, ergonomics, manufacturability, materials selection, cost-effectiveness while iterating on designs.
  4. CAD Modeling & Detailed Design: Computer-Aided Design (CAD) software is used to create detailed technical drawings that define dimensions and specifications required for manufacturing processes accurately.
    • 3D Modeling: Creating digital representations of physical objects using CAD tools.
    • Assembly Design: Developing assembly instructions that guide production teams in putting together various components.
    • Component Selection: Identifying suitable off-the-shelf parts or custom-designed components needed for production.
  5. Prototyping: Physical prototypes are built based on detailed designs using appropriate materials/components at a smaller scale before mass production starts.
    • Rapid Prototyping: Utilizing techniques like 3D printing or CNC machining to quickly produce functional prototypes.
    • Functional Testing: Assessing whether prototypes perform as intended under specific conditions.
    • Iteration & Refinement: Feedback from testing helps identify areas for improvement which leads back into refining designs iteratively.
  6. Design for Manufacturing (DFM): Manufacturers optimize designs to ensure they can be efficiently and cost-effectively produced at scale while maintaining quality standards.
    • Design Simplification: Streamlining the product design to eliminate unnecessary complexity or components that may hinder manufacturing efficiency.
    • Assembly Considerations: Ensuring ease of assembly by designing parts that fit together seamlessly, reducing the risk of errors during production.
    • Material Selection: Choosing materials that are readily available, cost-effective, and suitable for the intended manufacturing processes.
  7. Design Validation: Before moving into mass production, manufacturers conduct thorough validation tests to ensure the final design meets functional requirements and quality standards set during earlier stages:
    • Performance Testing: Evaluating how well the product performs under specific conditions.
    • Durability Testing: Assessing its ability to withstand long-term usage without failure or degradation.
    • Safety & Compliance Testing: Ensuring compliance with relevant safety regulations and industry standards.
  8. Documentation & Specifications: Detailed documentation is created to communicate design specifications, technical drawings, bill of materials (BOM), assembly instructions, and any other necessary information required for efficient manufacturing.
The product design process works in tandem with other stages such as engineering development, testing/validation phases mentioned in previous responses. Collaboration between designers, engineers, and other stakeholders throughout these stages helps create a well-designed product that not only meets customer expectations but also considers factors like manufacturability, usability, aesthetics while aligning with business objectives.



The manufacturing process for a manufacturer encompasses various steps involved in transforming raw materials or components into finished products. While the specific details may vary depending on the industry and product type, here is a general overview of the manufacturing process:

1. Product Design: The process begins with designing the product, including creating technical drawings, specifications, and determining materials and components required.

2. Raw Material Acquisition: Manufacturers procure the necessary raw materials from suppliers based on quality standards, cost-effectiveness, and availability.

3. Preparation & Assembly: Raw materials are prepared for production through processes such as cutting, shaping, molding, or machining. Components are assembled according to design specifications using manual labor or automated machinery.

4. Quality Control: Throughout each stage of manufacturing, quality control measures are implemented to ensure that products meet defined standards. Inspections and tests are conducted to identify any defects or deviations from specifications.

5. Production Process Management: Manufacturers manage different aspects of production such as scheduling workflow efficiently, monitoring inventory levels of raw materials/components used in assembly lines while optimizing productivity.

6. Manufacturing Operations: This phase involves operating specialized equipment/machinery to perform tasks like welding, casting (if applicable), CNC machining (Computer Numerical Control), surface treatment (painting/coating), or other specific operations related to the product being manufactured.

7. Testing & Inspection: Finished products undergo comprehensive testing procedures to verify their functionality and compliance with quality standards/regulations/industry requirements.
Performance Testing: Assessing how well products perform under specified conditions.
Durability Testing: Evaluating their ability to withstand long-term usage without failure.
Safety & Compliance Testing: Ensuring adherence to safety regulations relevant for respective industries/markets.

8. Packaging & Labeling: Once products pass all necessary inspections/tests successfully; they are appropriately packaged for protection during transportation/storage along with labeling containing essential information such as product details, barcodes, or regulatory compliance marks.

9. Distribution & Logistics: Manufacturers coordinate logistics and establish distribution channels to deliver finished products to customers. This involves selecting suitable shipping methods/carriers, managing inventory levels, and ensuring timely delivery while minimizing transportation costs.

10. After-sales Support: To provide comprehensive customer service, manufacturers may also offer after-sales support by addressing customer inquiries or issues related to the product’s performance, warranty claims, repairs/maintenance requirements.

It is important to note that this overview provides a general framework for the manufacturing process; actual processes will vary depending on factors such as industry-specific regulations/standards or unique requirements set by individual manufacturers. Emphasis on efficiency, quality control measures implementation throughout each stage ensures that manufacturers produce reliable products meeting customer expectations in terms of functionality, durability while maintaining competitive pricing and profitability.

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