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When businesses of all markets and sizes need technology-related product design and development, San Jose and Silicon Valley consistently come to mind. This area has been a leader in technical innovation for many years and continues to attract industry professionals and businesses. For decades the region has produced much of the electronic technology that powers many industries and consumer products:

• ●      Manufacturing enterprises with the Industrial Internet of Things (IIoT) that streamlines production, making it more efficient.
• Aviation, with lightweight and complex instruments that aid navigation and communications
• Automotive industries, providing electronic vehicles and sophisticated electronics for safety features.
• Communications, enabled by increasingly-powerful cellular networks and miniaturized circuits for smartphones, tablets, and other devices.

Developing these products requires an incredible set of skills that include electronic product development design, prototyping, manufacturing, and implementation into the end product. San Jose is well-positioned to provide such turnkey solutions for businesses across all industries and applications.

Wireless Product Development

Nearly everyone has a smartphone of some kind – many individuals have more than one, to cover business and personal use. For many businesses, keeping in touch with customers, employees on the road, and coworkers would be completely impractical without wireless devices – laptops, tablets, and smartphones.

San Jose’s electronic engineers bring wireless product development to reality with multiple solutions that can be tailored for specific business needs:

• WiFi-enabled devices that can be utilized effectively in the office, at home, in restaurants, hotels, and even in vehicles that serve as WiFi hotspots.
• Short-range wireless communications that allow industries to improve efficiency and cut costs through the availability of immediate contact with needed resources. Utilizing secure, reliable internal communications saves time and money with low-cost devices that can be customized for a variety of applications.
• Wireless tablet computers allow industries and mobile service technicians to access and update critical information in real-time, boosting efficiency and saving money. With the development of rugged wireless tablet computers, these devices are now suitable for job sites and industrial use.

Medical Product Development

Medical product development has become increasingly critical with the urgent needs generated by the Coronavirus pandemic. San Jose electronics engineers have been instrumental for decades in designing and creating the complex circuitry that powers medical products that assist in patient evaluation and treatment:

• Complex support devices such as patient monitors and ventilators
• Diagnostic equipment including EKG equipment and CT or MRI scanners
• Surgical robotics equipment

Internal devices that provide an improved quality of life rely on electronic medical product development, including:

• Pacemakers
• Automated embedded defibrillators
• Embedded medication supplies such as insulin pumps

Other embedded devices are opening doors for the treatment of neurological and brain function.

Without the efforts and ingenuity of electronic engineers and the medical community, such advances in healthcare would be impossible. Whether such medical electronics are for diagnostic or internal treatment, the accuracy and reliability of each device are critical in patient care and longevity.

San Jose electronic engineers play a significant role in the development of medical technology.

Automotive Electronic Product Development in San Jose

Today’s vehicles are loaded with technology and electronics. With the advent of all-electric cars and driverless vehicles, the need for advanced electronics in the industry is certain to continue the need for automotive product development.

Electronics are utilized in nearly every aspect of automotive manufacturing:

• Engine monitors and controls managed by on-board computers.
• On-board entertainment systems that include video monitors and satellite radio.
• Sensors that detect everything from cabin temperature to tire pressure.
• GPS systems for navigation, traffic alerts, and points of interest.
• Bluetooth synchronization that allows voice communication from smartphones through vehicle audio systems.
• Electronic stability control sensors that detect a loss of traction in inclement weather, taking action to improve control of the vehicle – potentially avoiding a crash.
• WiFi hotspot technology that allows all vehicle occupants to utilize WiFi as they travel.

More recent automotive product developments are providing additional information to drivers that make operation safer:

• High-quality cameras that provide all-around information, a considerable advancement over yesterday’s more common backup cameras.
• Adaptive cruise control that senses another vehicle being close, and automatically reduces speed.
• Lane assist warnings that alert the driver of movement out of the current lane without signaling.
• Blindspot detection systems that alert drivers to the presence of other vehicles that may not otherwise be noticed.
• Self-parking cars that relieve drivers from that cumbersome skill that many struggle to perfect.
• Heads-up displays that allow a driver to see important information directly on the windshield in front of them, eliminating the need to take eyes away from the road even momentarily.
• Cross-traffic systems that utilize radar to detect cars that present a risk of collision.

With the plethora of technical offerings now included in modern vehicles, it’s a small wonder that the automotive community has already arrived at the next step – introducing driverless vehicles. Technical resources advise that electronics will soon account for one-third of the cost of a vehicle.

Autonomous vehicles usher in a whole new concept of computer controls and vehicle product development driven by advanced electronics.

Some of the advancements are facilitated by new materials such as ultralow loss substrates that can reduce power consumption – making electronics more efficient and newer components such as high-performance inductors and capacitors. Through-silicon vias also contribute to short interconnect transmission for reduced insertion or signal loss.

Electronic development in San Jose contributes to the success and advancement of these automotive technologies and more.

San Jose Engineers – Facilitating the Future

The San Jose area has specialists experienced in electronic product development, engineering, and prototyping. With decades of service in the industry, local engineers have contributed to the success of customers across a wide array of industries and technologies.

Contact the electronics experts in San Jose today to assure fast, reliable technology product development.

[SUMMARY] Silicon Valley high-tech product development firm SunMan Engineering is releasing an expanded portfolio of IoT products and technologies for a wide range of connectivity, automation, and robotic applications.

San Jose, CA — SunMan Engineering, an established leader in high-tech product design and development, is expanding its portfolio of comprehensive engineering services to include more IoT applications to help technology companies worldwide meet the needs of the consumer market.

Founded in 1990, SunMan Engineering has extensive experience providing end-to-end product development and technology R&D to government agencies, defense technology firms,  and commercial companies — from startup to Fortune 500. Its areas of focus include product architecture, product development, product prototyping, as well as firmware and software development.

SunMan Engineering leverages the expertise it has gained from working with clients in various verticals and applies the insights to create a high level of synergy and cross-pollination in its product development process.

“We understand the entire design and manufacturing process so we can take our clients from concept to product and get their projects done,” said Allen Nejah, CEO of SunMan Engineering. “We have the technological know-how, as well as the business and marketing expertise to help our clients avoid pitfalls while keeping their projects on time and on budget.”

In particular, the company is expanding its portfolio of products designed to simplify IoT (Internet of Things) for a wide range of connectivity applications. With this renewed focus, SunMan Engineering will support its customers to tap into the fast-growing IoT global market, which is expected to grow to about $520B in 2021 and reach 1.6 trillion by 2025.

In light of recent events, which will impact the global supply chain for the foreseeable future, SunMan’s approach of using mostly US-manufactured parts helps its customers minimize supply chain disruptions.

“Our Silicon Valley-based team strives to balance sourcing, cost, and supply chain management so our customers can optimize their manufacturing processes and profitability,” said Nejah. “In addition, we support our clients with business and marketing research to implement their long-term business visions.”

SunMan Engineering has been a leader in IoT and wireless connectivity for over 25 years. The company has helped over 350 companies architect and develop numerous IoT products.

For 2020 and beyond, SunMan Engineering will leverage the many IoT products in its portfolio and its expertise in wireless technologies to augment its high-tech product development services. It’s committed to providing quality services that will help its clients develop high-tech products from concept to manufacturing.

In addition, the labor market has changed dramatically during the Covid-19 pandemic. SunMan Engineering is equipped with the staff and experience to handle a surge in demand as organizations revert back to outsourcing so they can adapt to fluctuations in supply and demand while staying agile in the fast-changing business environment.

To learn more about SunMan Engineering, visit https://sunmantechnology.com/ or contact them at (408) 441-1500.

[SUMMARY] Silicon Valley high-tech product development firm SunMan Engineering is developing IoT medical devices with robotic features for medical technology companies.

San Jose, CA — SunMan Engineering, an established leader in high-tech product design and development, is developing medical devices with IoT (Internet of Things) and robotic features for medical technology companies. The new technologies will combine robotic systems with connected sensors and smart objects, which will be embedded in medical devices to streamline workflows and facilitate automation.

Founded in 1990, SunMan Engineering provides services in product architecture, product development, product prototyping, as well as firmware and software development to government agencies, defense technology firms, and commercial companies — from startup to Fortune 500. It has extensive experience in collaborating with technology companies through R&D and the entire product development lifecycle.

The company has worked with clients in many sectors over the past 30 years. Its customers can tap into the extensive insights and experience to leverage the convergence of technologies and create a high level of synergy. This will guide the innovation of IoMT (Internet of Medical Things) devices, which will help improve treatment outcomes and patient experience.

“We understand the entire design and manufacturing process so we can take our clients from concept to product and get their projects done,” said Allen Nejah, CEO of SunMan Engineering. “We have the technological know-how, as well as the business and marketing expertise to help our clients avoid pitfalls while keeping their projects on time and on budget.”

The global IoT healthcare market is anticipated to reach USD 142.45 billion by 2026, with a CAGR of 28.9% thanks to the increasing prevalence of chronic diseases. Medical device manufacturers are accelerating their design and production timelines to meet market demands.

With the aid of IoMT, patients can enjoy convenient and quick access to vital information that can help avoid emergency situations. They can continuously monitor their health and share the data with their healthcare providers in real-time to facilitate remote monitoring. This is particularly important for the US market, in which chronic diseases affect approximately 133 million Americans — more than 40% of the total population.

The use of IoMT will not only promote faster response time but also allow providers to see more patients. It will also make telemedicine more accessible and effective, helping improve care while lowering cost. Not to mention, it can relieve overcrowding in hospitals so resources can be freed up for the critically ill — which is proven to be a necessity during the covid-19 pandemic.

Meanwhile, robotics technologies can be applied to medical devices to perform complex procedures with more precision, flexibility, and control than is possible with conventional techniques. Combined with the ability to operate the devices remotely, healthcare providers can overcome geographic barriers so they can deliver high-quality care to more patients.

The use of IoMT and robotic medical devices will also help improve patient experience, which will be the key to helping healthcare providers acquire and retain more patients. They can also improve cost-efficiency while minimizing errors to increase profitability.

Besides developing products that are responsive to market demands, SunMan Engineering also takes into account supply chain management and material sourcing in the design process.

In light of recent events, which are likely to impact the global supply chain for the foreseeable future, SunMan’s approach of using mostly US-manufactured parts helps its customers minimize supply chain disruptions so they can continue with their product development roadmaps.

“Our Silicon Valley-based team strives to balance sourcing, cost, and supply chain management so our customers can optimize their manufacturing processes and profitability,” said Nejah. “In addition, we support our clients with business and marketing research to implement a long-term business vision. This puts them ahead of the game by combining the latest technologies with market insights derived from our years of experience.”

SunMan Engineering has been a leader in IoT and wireless connectivity for over 25 years. Adding connected medical devices with robotic features to its portfolio will allow the firm to leverage its experience in helping over 350 companies architect numerous IoT products and apply the knowledge to a fast-growing vertical.

In 2020 and beyond, SunMan Engineering will combine its expertise in IoT, medical product development, and wireless technologies to help medical technology companies incorporate connectivity and robotic features into their products. This will help streamline healthcare services and improve cost-efficiency while improving the quality of care for all.

In addition, the labor market has changed dramatically during the Covid-19 pandemic. SunMan Engineering is equipped with the staff and experience to handle a surge in demand as organizations revert back to outsourcing so they can better manage their workforce, adapt to fluctuations in supply and demand, as well as stay agile in the fast-changing business environment.

To learn more about SunMan Engineering, visit https://sunmantechnology.com/ or contact them at (408) 441-1500.

A quick search for open positions available for electronic engineers will reveal enormous demand for such skills in the San Jose and Silicon Valley area. Electronic product development clamors for talent in many areas of the industry:

• Medical products
• Automotive applications
• Electronic products for consumers and manufacturing
• Wireless and communications product development

Given the advancements in electronics as well as emerging technologies, skilled electronics engineers are assured access to various challenging career options. The Internet of Things (IoT) has opened doors for new product development that enables consumers and businesses to incorporate technology in areas not even thought of a few years ago.

Medical Products and Applications

Taking even a cursory look through a physician’s office, emergency room, or hospital will reveal an array of electronic products used daily:

• Wireless computers on mobile carts – utilized for everything from patient records and test results to billing and insurance claims.
• Electrocardiogram equipment – essential for patient monitoring and diagnosis.
• CT Scan and MRI diagnostic equipment – complex electronic equipment that is constantly being updated to provide enhanced image quality and improve patient care.

Medical product development relies on sophisticated electronic components that provide information to medical teams accurately, quickly, and consistently. The demand for diagnostic services and devices that improve the quality of life for patients have in turn skyrocketed the need for electronic engineering services in Silicon Valley and the San Jose area.

Product demand has jumped at a double-digit rate over the last several years, including the need for improved implantable devices such as the following:

• Implants for hearing improvement
• Pacemakers
• Defibrillators
• Spinal cord stimulators for neurological treatments
• Implanted medication dispensing units
• Brain stimulation

Medical electronic product development calls for incredible quality control and sustainability. If devices fail, the result could be loss of life. In such critical cases, devices such as pacemakers can generate alerts to patients or physicians when imminent failure or low battery power is detected. This allows the patient to resolve problems before emergency actions are required.

Miniaturization is especially important for implanted medical products to provide for small, lightweight devices that are undetectable in many cases. Electronic engineers consider all factors when designing for medical product development:

• Reliability – obviously important to patients using the products.
• Safety – product development must allow for conditions present in the human body – heat, fluids, and motion.
• Security – being wireless, precaution against hackers who may disable or otherwise compromise electronics is critical.
• Durability – avoid the need for repeated adjustment or replacement of implanted equipment.

Medical teams have similar requirements for clinical and physicians’ office medical electronics. They rely on their equipment to assist in accurately diagnosing and monitoring patients at all times.

Advancements in Automotive Electronic Development

Even the most economic vehicles available today are filled with sophisticated electronics that provide:

• Occupant comfort with heating and cooling sensors and controls
• Safety features that include rear-view cameras and proximity sensors
• Entertainment equipment that synchs with personal devices such as Bluetooth-capable smartphones

Taking automotive electronics to the next level provides additional safety features as well as more convenience and communications capabilities:

• Complete navigational aids including traffic alerts and alternate routings.
• Heads-up displays that provide current speed and other driver information on the windshield, reducing the need to move focus away from the road ahead.
• Wi-Fi hotspot communications that provide internet access to occupants.
• On-board trip computers that track mileage, fuel efficiency, estimated arrival times, and more.
• Safety warnings such as blind-spot monitoring and lane deviation warnings, keeping drivers safe and alert.

All-electric vehicles (EVs) are packed with all these features, with the notable addition of all-electric motors and batteries that utilize technology to replace internal-combustion engines entirely.

Emerging technology in automotive electronic product development is also at the forefront in the creation of driverless vehicles. Integrated electronics in today’s vehicles capture enormous amounts of data that can be utilized for many purposes:

• Analysis of driving habits and fuel consumption
• Steering and braking patterns to determine the efficiency of both the vehicle and the driver
• Alerting drivers to points of interest in the area
• Managing vehicle maintenance through communication to the driver as well as the manufacturer

The complexity of automotive product development is limited only by the imagination of electronic engineers and vehicle manufacturers.

Wireless Electronics Are Taking Over

San Jose electronic engineers are deeply involved in wireless product development. Technology is leading the way for new services such as drone product delivery. Amazon is leading the way with drone delivery, powered by miniaturized control modules and electronic sensors that can react to everything from dogs to clotheslines in their path.

IoT is enabling industry to communicate directly with plant equipment. This is accomplished by using integrated sensors and wireless communications with maintenance personnel to make operations and employees more efficient.

Many homeowners have abandoned previous home entertainment options by turning to online streaming services for television viewing, internet browsing, electronic gaming, movies, and more. When it’s time to dim the lights to enjoy a movie on demand, a few voice commands set the mood and start the show. Now, all that’s needed is a command that delivers the popcorn – could that be far behind?

These changes in wireless technology product development are enabled through the efforts of electronic engineering services such as those found in San Jose.

Everything from drones to toys to space vehicles relies on printed circuit boards today. These integrated electronic components that were once the domain of computers, large appliances, and aerospace industries, are now critical components of everyday life:

• GPS navigation systems
• Automotive vehicles of every type – even more so in electronic vehicles (EVs)
• Voice-response assistants that make life easier
• Industrial automation and robotics
• Communications equipment from smartphones to IoT doorbells and home security systems

With the enormous demand for printed circuit board (PCB) design and manufacturing, Silicon Valley and San Jose have emerged as proven leaders in the industry, focused on advanced design that supports new technologies.

San Jose PCB design services and electronic engineering have adopted strategic methodologies and best practices that provide customers with reliable designs and consistent functionality.

1. Collaboration

Board level design in San Jose engineering facilities begins with effective communication with clients to obtain an accurate understanding of requirements.

Utilizing online tools to review designs and test results ensures that the end product is developed as a joint effort, with questions answered quickly and efficiently before the manufacturing process begins.

This saves both time and expense in development and testing, speeding the entire product development cycle and ensuring quality results. Effective communication gets design projects started quickly. Collaboration keeps the project flowing smoothly.

2. PCB Design Services – Continuous Advancements

San Jose electronic engineers keep abreast of emerging technologies to provide circuit designs and PCB layout that adhere to best practices and use quality, approved components.

Technologically advanced products such as foldable laptops are only made possible through the efforts of skilled engineers who combine creativity with expertise in electronics. PCB design is continuously evolving with such technologies as:

• Field-Programmable Gate Array (FPGA) technology
• Multi-layer PCBs with increasing complexity in the number of layers and manufacturing processes
• Narrow-band IoT (NB-IoT) adoption in devices such as industrial controls, medical devices, and home security systems

As new technologies expand, PCB layout and PCB design services must allow for growing concerns related to security, battery life, weight, and cost.

3. Technical Methodologies

San Jose PCB design engineers utilize the latest available technology in designing and developing PCB prototypes and finished boards. Methodologies such as laser-drilled microvias, new substrate materials, available miniaturized components, and PCB manufacturing processes are critical factors in the design and construction of complex PCBs.

Efficient printed circuit board projects require following a set of standards in every phase of engineering and development:

• Initial definition of requirements
• Solving PCB layout challenges
• Setting test conditions and acceptance levels
• Building the initial prototype
• Ensuring electrical and signal integrity
• Complete testing and evaluation
• Validate design for manufacturing adherence
• Delivery and acceptance of the end PCB product

4. Focus on PCB Quality and Reliability

IoT and technologies such as narrowband communications call for unique testing and validation procedures. Meeting quality standards and providing consistent performance require multiple test iterations under a multitude of conditions:

• Temperature variations
• Electrical interference
• Vibration impact and tolerance

Each of these variables means PCB design engineers must consider all these factors during initial design, creation of PCB prototypes, and manufacturing.

5. Design for Manufacturing

The most immaculate and impressive PCB design that functions perfectly as a prototype may prove worthless if the final PCB layout or components are difficult or cost-prohibitive to manufacture. Board level design in San Jose includes close attention to manufacturability and cost constraints for clients.

Design for Manufacturing (DFM) ensures that initial design and prototypes will be suitable for manufacturing, whether in small volumes at specialized facilities or in large quantities.

Utilizing sophisticated software tools and best practices in PCB design significantly reduces the potential for costly redesigns, budget overages, or manufacturing defects caused by overly complex PCB design.

State-of-the-art CAD systems go a long way toward eliminating such issues late in the project, through the use of design for manufacturing (DFM) technology. The earlier in the PCB design process that such problems are discovered, the less costly it is to resolve them.

6. Services

Development of printed circuit boards in San Jose includes providing a full range of PCB services:

• Concept review
• PCB design services and architecture
• PCB development and prototyping service
• Software and firmware development

Silicon Valley and San Jose offer full-service engineering, effective teamwork, and innovative product design. From concept to finished product, technical engineers work with clients in many industries from toy manufacturers to defense contractors.