OEM Automation can be implemented as an integrated process or a separate process. This kind of technology can be used to improve the overall efficiency and accuracy of the manufacturing process. It is also beneficial for companies that have numerous parts and components. However, the key is to make sure that your automation process is flexible and easy to maintain.
Custom manufacturer of electric control panels
Custom manufacturers specialize in a variety of automation controls, including electric, pneumatic, and hydraulic panels. Their product offerings also include touchscreens and variable frequency drives. They also offer various mounting options, including floor mounts, multi-doors, and multiple cabinets. These control panels are used in a wide range of applications, including the computer industry, mechanical manufacturing, and engineering prototyping.
Electric control panels are a vital part of many machines. They are designed to make critical decisions day and night. Whether a manufacturer is constructing a single-piece machine or a volume-based repetitive application, the control panel will give the machinery life. A quality electrical panel builder understands this win-win process and can help manufacturers minimize problems while improving productivity. In addition to providing custom electrical control panels, a custom manufacturer will handle inventory, agency approvals, and specialized labor needs.
OEM Automation custom manufacturer of electric control panels can also provide a variety of other components, including counters, variable frequency drives, and timers. They can also customize electrical control panels with special features such as EPO condition alarm horns, remote on/off, and daisy chains. Their products can be designed to meet strict safety standards and be used in hazardous environments.
Manufacturer of oil viscosity sensors
There are many benefits of using an oil viscosity sensor. It can reduce the risk of catastrophic engine failure and help maintain combustion engines in optimum working condition. It can also minimize the overall cost of ownership of vehicles, improve reliability and maximize performance. Several sensors can measure engine oil viscosity, including electrical, acoustic, and transducer-based instruments. There are also direct viscosity measurements, but these are limited in their application due to their high cost and complexity. However, they do provide a unique benefit: they can measure oil viscosity over a wide range of fluids in harsh environments.
Oil viscosity sensors can be used to automate a wide range of processes, from emulsion manufacturing to oil production. The energy industry is one of the largest markets for inline viscosity sensors. Increasing investments in oil & gas and increased awareness about advanced technologies are driving the market in these regions.
Impact of industrial IoT on OEMs
Industrial IoT (Industrial Internet of Things) technologies have opened new ways for OEMs to interact with their equipment. The connected equipment collects a wealth of data and can be used to make smarter decisions. Although connecting legacy systems to the cloud is a daunting challenge, it can also bring many benefits for OEMs.
The IIoT offers manufacturers the opportunity to automate complex manufacturing processes and achieve higher productivity and efficiency. However, this requires digital skills that manufacturers need to take advantage of the opportunities this technology presents. In addition, the implementation of IIoT requires new equipment and sensor installations. As manufacturers begin to install smart devices in their manufacturing operations, they must also make sure their workforce is ready to adopt the new technology.
IoT has become a key element in the manufacturing industry and is becoming increasingly popular. It is expected to generate more than $11 trillion in annual spending by 2025, according to the McKinsey Global Institute. However, this growth is not limited to the manufacturing industry. It also touches other industries, such as retail and consumer-facing industries.
Quality of service tiers for OEMs
The quality of service tiers is an important element of any OEM automation program. The goal is to improve customer satisfaction, thereby lowering costs. An OEM should establish a high bar for its distribution partners, and set incentives for those who meet that standard. This will help OEMs differentiate between high and low-performing distributors and focus their resources on those that meet the higher bar. Moreover, OEMs can also ensure better service levels across the supplier channel, which will ultimately benefit end customers.
The concept of quality of service tiers in OEM automation is not new. For years, OEMs have been responsible for the maintenance of the equipment they sell. The traditional approach has been to provide preventive maintenance. However, recent advances in IIoT technology have allowed OEMs to forecast problems before scheduled maintenance. This allows OEMs to sell uptime as a service. For example, a pump OEM could charge a factory for every hour the pump is in use. If the pump is faulty, the OEM would then provide the necessary repair services.
The quality of service tiers in OEM automation is determined by the criticality of the service. Tier 1 services are the most crucial and can have a major impact on customers and a company’s bottom line. However, Tier 2 and Tier 3 services are not as critical and are not prone to failure. However, they can still impact customers and may not be noticed by customers.
