Electronic solutions
Electronic solutions are defined to help customers as one-stop turnkey solutions, including Industry Design, Mechanical Design, Hardware Design, software development,PCB Fabrication, and PCB Assembly. Box-building, Testing, Packaging.
Healthcare Portable Electronic Solutions
Smartwatches, Bracelets, Headband, etc.
Smart Home Electronic Solutions
Electronic solutions, Design and development of consumer electronic products such as smart home devices.
UPS Power/Renewable Energy Electronic Solutions
Electronic solutions, Design and development of solar energy conversion, fast charging, wireless charging, UPS, inverter power supply, switching power supply. you can know more about this branch as UPS Power.
Embedded Control Board Electronic Solutions
It can provide the development and design of embedded computer module COM, embedded single board computer SBC, embedded system module SOM,You can also customize embedded business and industrial control products for you.
Electronic solutions Project Evaluation
Electronic solutions Evaluation and demonstration for new project needs to be conducted before the project will be initiated. Then we need suggestions from two aspects, positive and negative aspects. And provide a reference for decision-making choices of projects and the implementation of programs.
Then strive to objectively and accurately implement the project according to related resources, technology, marketing, financial, economic, social, and other aspects.
If you completed all the above, present it to decision-makers. So that it can be easily determined the status of whether the project is feasible, practical, suitable to make the right decision. But also laid the foundation for the investment project implementation and comprehensive inspection.
Electronic solutions Project evaluation refers to the evaluation of investment. Which is on the basis of the feasibility study, according to the comprehensive technical and economic analysis of relevant laws and regulations, policies, methods, and parameters.
Conducted by investors or the relevant institutions responsible for the planning of investment projects carried out and re-evaluation, its purpose is to judge the feasibility of the project or compare different investment schemes.
Our company has a team of experienced professionals. They will provide project and product prospects for your prospective evaluation, according to the market characteristics, consumption factor, consumer trends, analysis of the potential customer,
Mainly is the demand analysis, analysis of the purchasing trend of customers. And marketing development trend, the trend of product demand, product trend growth potential to determine your marketing development.
Electronic solutions Industrial Design
We directly submit the customer’s product concept and requirements concept to our engineers. The first-class international design concept based on engineers’ experiences. It’s creative to the traditional concept.
And it is the philosophy of the break the normal procedure. All are cycles of creation and destruction, thinking of the collision, wisdom is docking, novel, and creative ideas.
Electronic solutions Creativity is a breakthrough, product appearance, marketing model, market mechanism, function, and other aspects of the breakthrough.
Creativity is the result of the comprehensive application of logical thinking, image thinking, reverse thinking, divergent thinking, systematic thinking, fuzzy thinking and intuition, inspiration, and other cognitive methods. Pay attention to intuition and inspiration. Many ideas come from intuition and inspiration.
Originality (Creativity)
Electronic solutions Creativity is mysterious. From ancient to modern times, scholars have a different understanding of the creative. They defined are as different.
RobertJ. Sternberg believes that creativity is the ability to produce works, these works not only novel (that is, the originality is not to be expected), and appropriate (that is consistent with the purposes for goal given limit).
Architectural scholar Cudici (JohnKurdich) believes that creativity is a struggle, seeking and liberating our inner. Mr. Lai Shengchuan said, “creativity is the process of seeing new possibilities and combining these possibilities into a work.” These definitions show that creativity consists of two main aspects: “conception”, “execution”, “seeking”, and “liberation”, which show the creative work of the two aspects at a deeper level.
Mr. Lai Shengchuan called these two parts “two mysteries” of creativity, independent and interrelated, through two steps – the emergence of desire and the way to express it.
Product creativity (Product Creativity)
Product creativity refers to anything that can be provided to the market, used and consumed by people, and can meet certain needs of the people, including tangible goods, intangible services, organizations, ideas, or combinations. Products can generally be divided into three levels, namely, core products, formal products, extended products.
The core product refers to the overall product available to buyers directly benefit and utility; form product refers to the product on the market of physical appearance, including product quality, features, style, trademarks, and packaging products.
Extension Refers to the overall product to provide a series of additional benefits to customers, including transportation, installation and maintenance to ensure to consumers in the field of consumption benefits.
Electronic solutions Mechanical Design
Wall Thickness
The size of the plastic material of the basic design code of wall thickness depends on the product to bear force, whether as other parts of the support, to undertake a number of columns, the number of protruding parts as well as the selection of plastic materials and. In general, the wall thickness design of thermoplastics should be based on 4mm.
From an economic point of view, too thick products not only increase material costs, but also extend the production cycle, increase production costs. From the point of view of product design, the possibility of increasing porosity caused by too thick products greatly weakens the rigidity and strength of the products.
Mold temperature higher than the melting temperature of plastic material is low, when the plastic material into the mold from the mouth just pumping, due to lower temperature of the mold, the mold surface will form a layer of crystal layer, about 0.2MM, can cause the compound space is very small. It would need injection pressure is very large, it may cause to fill, there are some thin wall injection molding technology is designed.
The ideal wall thickness distribution is undoubtedly the uniform thickness of the section in any place, but in order to meet the functional requirements, the wall thickness change is always inevitable. In this case, the transition from a thick rubber to a thin rubber should be as smooth as possible. So suddenly the wall thickness transition will lead to unstable size and surface caused by different cooling rates and produce turbulence.
A bar
The role of stiffeners is an integral part of the plastic components. Stiffeners increase the rigidity and strength of the products without increasing the cross-sectional area of the products, especially for some plastic products which are often subjected to pressure, torsion, and bending.
In addition, the stiffener acts as an inner channel filling cavity and plays a significant role in helping the plastic flow into the support section of the component.
The design of reinforcement is generally placed on the non-contact surface of plastic products with the extension direction, should follow the product of maximum stress and maximum displacement direction of stiffeners position, also subject to some production considerations such as die cavity filling, shrink and release, etc.
Column
- pillar is used to assemble the product, separate the object and support the other parts.
- hollow pillars can be used to insert parts, tighten screws, and so on.
Stop
A, stop and reverse stop is closely related to the use of exergy. The function of the orifice is opposite to that of the stop, and the reverse orifice prevents the outer deformation of the B shell and prevents the A shell from shrinking inward.
B and the check are on the shell that is at the end of the mother.
C, the design of the anti-stop opening to the attention of the male buckle from unilateral 8.0MM exergy of at least 6.0MM, because to deformation.
Buckle
Design of buckle is generally cannot do without the so-called method of the cantilever; cantilever is based on the characteristics of plastic deformation of the flexure itself, after the return of the original shape of elastic recovery.
Advantages
the buckle provides a kind of assembly method which is not only simple and fast but also has low cost and high reliability. It is easy to buckle, assemble and disassemble, and make full use of the idea of assembly by designers.
Because of a combination of partial buckle positions at the same time the production of finished molding, the assembly does not need to cooperate with other parts such as screws, etc.
The locked meson assembly process, buckle position is also very simple, generally only need an insert action, without rotation or assembly before the product positioning work, as long as the two sides need a combination of buttons a buckle can cooperate with each other.
Disadvantages
buckle device weakness is a combination of two parts of the buckle, hook-shaped flange part and protruding part after much-repeated use easy to deform because of fatigue effect, buckle bottom connection parts of products breaking, breaking after buckling is difficult to repair.
This situation is more common in the brittle incorporation of fiber or plastic materials. Because of the simultaneous molding of the buckle and the product, the damage of the buckle is the damage of the product. The remedy method is that the buckle device is designed as multiple buckles and shared at the same time, so that the whole device can not operate because of the damage of the individual buckle, thereby increasing its service life.
Another weakness of the buckle device is fastened size tolerance requirements are very strict, inverted position too easy to form buckling damage, on the contrary, the inverted position is too difficult to control the assembly position or the combination part appeared lose phenomenon.
Stamping
Commonly used metal materials:
- cold rolled steel plate, cold rolling is at room temperature, the steel plate further rolled thin thickness of the target plate SPCD, calendering, forming quality, advertising box, learning shell, etc.
- galvanized steel sheet is coated with zinc on the surface of a cold-rolled plate. Fingerprint resistant corrosion resistance, excellent processability, and maintain common grades of the cold-rolled plate, SECC SECD SECE advantages, from the perspective of cost, SGCC and SECC, will be sent to the factory processing parts electroplating, plating time and save transportation costs.
- stainless steel, anti atmospheric, acid, alkali, salt, and other media corrosion of stainless acid-resistant steel collectively. To achieve the corrosion effect of chromium (Cr) amount of not less than 13% in addition to exergy nickel (Ni) and molybdenum (Mo) to increase the effect.
Because of the variety and content of alloys, there are many kinds. Stainless steel features, good corrosion resistance, good brightness, high strength, a certain degree of elasticity. Common stainless SUS301 exergy spring steel, SUS302 SUS30
Die-casting
Reinforcement of die casting, the design requirements of reinforced rib, rib role is to increase the strength and rigidity of die castings, reduce the casting shrinkage deformation, avoid the workpiece ejection from the mold deformation, as the melt filling auxiliary loop, melt flow path.
We should pay attention to the following requirements: exergy
The stiffeners of die castings should be less than the thickness of the ribs
Electronic solutions Hardware Design
Hardware development is generally divided into schematic design, circuit diagram design, PCB board design, test board production, functional testing, stability testing, small batch production, formally put into the market, or formal use of steps.
Design process:
- clear the overall requirements of hardware, such as CPU processing capacity, storage capacity, and speed, I/O port allocation, interface requirements, level requirements, special circuit requirements, etc.
- according to the demand analysis plan to develop the hardware, seek the key device and technical information, technical means, technical support, to fully consider the technical feasibility, reliability, and cost control, and put forward clear requirements for the development of debugging tools, key devices to obtain samples.
- hardware detailed design, including drawing hardware schematic diagram, single-board functional block diagram and coding, PCB wiring, at the same time complete the development of BOM, production documents (Gerber), material requisition.
- back to the PCB board and the material arrangement of welding 2 ~ 4 boards, single board debugging, each function of the principle in the design of the test, when necessary to modify the principle diagram and record.
- software and hardware system debugging, the general board needs hardware personnel, single-board software personnel coordination, after the single board debugging, in principle and PCB wiring adjustment, need second times to throw the plate.
- internal acceptance and intermediate test, production trial, tracking production line problems, actively assist the production line to solve all problems, improve the good rate, pave the way for mass production.
- small batch production. After the acceptance of the product, a small batch production, to find out the production process, testing process, for mass production preparation.
- mass production. After a small number of production verification, a full range of electronic product development, testing, production processes are no problem, you can start mass production.
Response file requirements for each link:
Hardware requirements manual of Electronic Solutions
Hardware requirements specification is the description of the hardware development goals, basic functions, basic configuration, main performance index, operating environment, constraints and development funds, and schedule requirements. It is based on the requirements of product specifications and system requirements specifications. It is the basis for the overall design of hardware and the formulation of hardware development plans.
Specific written content: the basic functions, and use of network hardware systems engineering of the overall system and the main performance index, hardware system and main performance index, and division of function module.
Hardware overall design report of Electronic Solutions
The hardware overall design report is the report after the overall design according to the requirements specification. It is the basis of the hardware detailed design. Writing the hardware overall design report should include the following contents:
The overall structure and function partition of the system, logic diagram of system logic diagram, system function modules, circuit diagram and single plate, single-board logic diagram and the circuit diagram, and the reliability, safety, electromagnetic compatibility is discussed and the hardware test program, etc.
Single-board overall design scheme of Electronic Solutions
This document should be laid down in the overall design scheme of the single board.
The overall design scheme of single-board should contain a single board version, single-board machine in the position, development objective and main function, single board and single-board function description logic diagram, and the function module.
The single-board software function description and function module partition, interface simple definition and related board, main performance, power consumption, and standard.
Single-board hardware detailed design of Electronic Solutions
The hardware design report should be submitted when the single board hardware enters the detailed design stage.
The hardware design, mainly includes a single board logic diagram and each function module in detail, each functional module, address allocation, control mode, interface, memory space, interrupt mode, interface pin signal timing instructions, detailed definition, performance index, lights, wiring, definition programmable device diagram, function module description, principle diagram, with BOM and single-board testing and debugging program.
Sometimes single-board hardware and software respectively by two developers.So it provides a detailed guide on single-board hardware design in detail for software designers, so the single-board hardware design report is very important. Especially address distribution, control mode, interface mode, interrupt mode is the basis for the preparation of single-board software, must be written in detail.
Detailed design of the single board of Electronic Solutions
The completion of the single board software design should be completed after the single board software detailed design report, a complete list of the board software programming language in the report, the compiler debugging environment, hardware description, and functional requirements and data structure, etc.
Special emphasis is placed on detailed design details, including interrupts, the main program, subroutine functions, entry parameters, exit parameters, local variables, function calls, and flow charts. In the description of communication protocols, the definitions of the physical layer, link layer communication protocol, and high-level communication protocol are defined.
Single-board hardware process debugging document of Electronic Solutions
In the process of development, each cast PCB board, the Engineer shall submit a document, in order to understand the progress of the management, evaluation, in addition to other related engineers left a valuable technical document.
This document should be made every time the PCB board is thrown. This document should include the following contents: single-board hardware function module division, single-board hardware module debugging progress, debugging problems and solutions, the original number.
Single-board software process debugging document of Electronic Solutions
A single board software process debugging document is collected monthly, or the debugging is finished (less than one month), and the software debugging and modification process is listed as clearly as possible.
Software process debugging documents shall include the following contents: the single board software function module and the module debugging progress, single-board software debugging problems and solutions, the next phase of the commissioning plan, and the test scheme of modification.
Single board system joint report of Electronic Solutions
When the project enters the phase adjustment of the single board system, the report of the joint dispatch of the single board system should be given.
The FBI report includes the contents of a single-board system: the system function modules, system function module, debugging interface signal test system in the original record and analysis, system debugging and solving problems and debugging skills, the performance evaluation.
Single-board hardware test document of Electronic Solutions
After the commissioning of the single board, before the application of internal acceptance, should be self-test, to ensure that each function can be achieved, each index can meet.
After finishing a single board of hardware testing document, the hardware testing document must include the following contents: single-board function module, the function module design of input and output signals, and the performance parameters, each function module test, each test point to determine the reference point, which measured original records and analysis, in high-speed signal line testing and analysis, the original record I/O signal line test and analysis of original records, analysis the whole board performance test results.
Hardware information base of Electronic Solutions
In order to share technical data, we want to build a shared database, each of which wants to add the most valuable and unique data to this library.
The hardware information database includes the following contents: the typical application circuit, circuit characteristics, characteristics, characteristics of the chip chip instructions, the driver of the flow diagram and the source program and related hardware circuit description, PCB layout considerations, debugging in typical and solutions, software and hardware design and debugging skills.
In the middle also interspersed with mold design, shape design, open mold, test assembly process, about 20 more than one process to complete an electronic product development process, more complex more. It can be said that each electronic product R & D has its own characteristics, otherwise it will become the same electronic product, so when facing specific electronic product development, it also needs to be analyzed according to its functional characteristics.
Electronic solutions Software Development
Our core competitive advantage is the embedded development engineer group several groups of different applications, there are a number of recent 20 years engaged in wireless communication, embedded DSP, MCU, experience on the energy power management professional, proficient in Linux, Android, C, c++, a compilation of the development; for the advanced processor, Arm 7, Arm 9, Arm 11 for embedded development.
We implement an Embedded System, which focuses on the application of guests. The software and hardware can be tailored and adapted to the specific requirements of the application system for the strict requirements of function, reliability, cost, volume, and power consumption. For example, we have customized advertising control systems and factory assembly lines, small to home learning machines or OTT, portable projectors, power energy control systems.
Embedded development in FPGAARMDSPMCU and other aspects, we have done subdivision professional team for collaborative design. Provide guests with all the designs from the prototype, top software architecture to source code.
The application domain of embedded software of Electronic Solutions
Embedded system is undoubtedly one of the hottest and most promising IT applications. Embedded systems are used on some special devices, and usually, the hardware resources of these devices (such as processors, memory, etc.) are very limited, and they are very sensitive to the cost, and sometimes require higher real-time response. Especially with the intelligent consumption of household appliances, embedded more important.
As we normally see the mobile phone, PDA, electronic dictionary, videophone, digital camera, VCD/DVD/MP3 Player (DC), digital camera (DV), U-Disk (Set-Top Box, set-top box), high-definition television (HDTV), game machine, intelligent toys, switches, routers, CNC equipment or instrument, automotive electronics, control system for household appliances, medical equipment, aerospace equipment and so on are typical embedded system.
Hardware and software combination of embedded system of Electronic Solutions
Embedded development is the most closely related to the bottom of the software, down to drive the hardware, up to support the operating system, the most junior hardware driver program is the basic work of our engineers.
Our greatest advantage is that some people are very clear about the hardware principle, good at defining all kinds of hardware interfaces, while some people are proficient in the principles of embedded operating systems and complex application software.
These embedded software development engineers, mainly engaged in embedded operating systems and application software development. These people usually have a better grasp of the principle of hardware and interface, embedded hardware design after various functions in the human mind. It’s clear thinking to do embedded development to achieve the function of value-added products need. And it largely depends on the embedded equipment and embedded software.
These embedded products greatly are different for software, the software is the most problematic. These are which we have absolute advantages in design, development, and software processing. The more complex the intelligent device is, the more critical the software is.