BMD 60001 Desktop Instrument Enclosure for Compact Electronics
BMD 60001 | 80 × 50 × 19 mm
$0.7
Detail
Best quality / Competitive price
Home > Desk-top Enclosure > BDC 30001 – Display Instrument Case
Ideal for industrial control panels, measurement devices, HMI terminals and monitoring equipment.
BDC 30001|156 × 114 × 77 mm
Durable desktop enclosure suitable for industrial and electronic applications.
|
🧱 Material
ABS Plastic
|
🌡️ Temperature
-30°C to +85°C
|
|
💧 Protection
IP54 Rated
|
🎨 Color
Off-white / Black
|
| Application | Junction boxes, control boxes, electrical boxes |
| Size | 156 × 114 × 77 mm |
| Weight | 140 g |
| Material | ABS |
| Color | Off-white / Black |
| Protection | IP54 |
| Certificates | ABS, SGS |
The design of modern electronic equipment is no longer limited to electronic performance alone. Customers, engineers and equipment operators expect products to be reliable, easy to use and visually professional. For this reason, enclosure selection has become an important stage in product development. A well-designed housing not only protects internal electronics but also improves usability, simplifies installation and enhances the appearance of the final product.
The BDC 30001 is designed for applications that require a desktop-style enclosure with a practical front panel layout. This style of housing is commonly used in laboratory instruments, industrial control terminals, monitoring equipment, testing devices and communication systems where displays and operator interfaces must remain visible during daily operation.
Many product developers begin their enclosure evaluation process by reviewing the Desktop Enclosure Collection to compare different housing sizes and front panel configurations before selecting the most suitable solution for their project.
Electronic instruments are often installed in environments where users interact with displays, buttons and indicators throughout the day. In these situations, enclosure geometry directly affects the user experience. A properly designed desktop enclosure can improve visibility, simplify operation and provide a more comfortable working environment.
Unlike wall-mounted devices that remain fixed in position, desktop instruments are typically placed on workbenches, operator desks or laboratory stations. This makes ergonomic design especially important. Equipment that is easier to view and operate can improve efficiency and reduce user fatigue during extended periods of use.
Organizations developing operator interfaces frequently compare products from the Desktop Enclosure Range and the Wall Mounting Enclosure Collection to determine the most appropriate installation method.
Industrial control systems continue to evolve as automation technologies become more sophisticated. Modern production facilities rely on monitoring equipment, operator terminals and control interfaces to improve productivity and reduce operational downtime.
Equipment used in these environments often requires a housing solution that combines protection with accessibility. The BDC 30001 can serve as a practical platform for industrial controllers, monitoring terminals and communication devices that require convenient user access.
Manufacturers frequently integrate desktop equipment alongside products from the DIN Rail Enclosure Series when creating complete automation architectures. This allows communication modules, control electronics and operator interfaces to work together within a unified system.
Developing a commercial electronic product requires significant engineering effort. Mechanical design, electronic design, software development and certification activities must all be coordinated efficiently. Choosing a proven enclosure platform can reduce development risks and accelerate project timelines.
Many OEM manufacturers prefer established enclosure families because they eliminate the need to develop custom mechanical housings from scratch. This allows engineering teams to focus on electronics and functionality rather than investing valuable resources into enclosure tooling.
A standardized enclosure strategy can also improve manufacturing efficiency. Products sharing a common enclosure family often require fewer unique components, simplifying inventory management and procurement activities.
Testing equipment represents one of the most common applications for desktop-style electronic enclosures. Engineers working in laboratories, manufacturing facilities and research centers frequently rely on specialized devices to collect, process and display information.
These products often include displays, indicators and operator controls that must remain easily accessible. For this reason, desktop enclosures continue to be widely used throughout the test and measurement industry.
Design teams developing testing instruments often consult technical documentation available through the Downloads Center before selecting enclosure solutions for commercial projects.
Monitoring systems are now used across manufacturing, transportation, utilities and smart infrastructure projects. These systems collect valuable operational information and present it to operators through user-friendly interfaces.
Communication devices also require reliable housing solutions capable of supporting displays, status indicators and interface components. Selecting an enclosure that balances protection, appearance and usability is essential for creating successful products.
Many organizations implementing monitoring systems also evaluate products from the Waterproof Enclosure Collection when environmental protection requirements become more demanding.
Every electronic project has unique requirements. Some applications require display openings, membrane keypads, connector cutouts or custom branding. Standard enclosure platforms can often be modified to accommodate these requirements while avoiding the cost of completely custom tooling.
Bahar provides a variety of customization services through the Customization Center. These services include machining, drilling, laser marking, silk-screen printing and other project-specific modifications.
Customization allows manufacturers to maintain the advantages of a proven enclosure platform while adapting it to specialized applications and customer requirements.
Successful product development depends on access to accurate technical information. Engineers evaluating enclosure solutions frequently review dimensional drawings, installation recommendations and application examples before making a final selection.
Additional engineering guidance can be found through the Engineering Blog, where enclosure applications and design considerations are discussed in greater detail.
Manufacturers targeting international markets often design products according to ISO Standards and IEC Standards. These references help improve consistency, quality and compatibility across different markets.
Additional compliance information can be obtained from resources covering UL Certification, RoHS Compliance and CE Marking.
It is commonly used for industrial control terminals, monitoring equipment, testing instruments, communication devices and electronic operator interfaces.
Yes. Machining, connector cutouts, display openings, printing and branding services are available.
Yes. Many OEM manufacturers use desktop enclosure platforms to reduce development costs and accelerate product launches.
Technical documentation can be downloaded from the Bahar Downloads Center.
Industrial environments have changed significantly over the last decade. Manufacturing facilities are becoming more connected, equipment is generating more data and operators require access to real-time information. As a result, electronic devices are now used in locations where reliability, accessibility and clear user interaction are critical.
A Display Instrument Case provides the physical platform required to support these devices. Rather than focusing only on electronic performance, manufacturers must also consider how users interact with the product throughout its operational life. The enclosure becomes the visible part of the system and directly influences usability, maintenance efficiency and product perception.
Many industrial products include displays, status indicators, communication interfaces and configuration controls. These components need to remain visible and accessible during operation. Desktop-style housings remain popular because they allow equipment to be positioned conveniently on desks, workstations and operator consoles.
Engineers frequently compare products from the Desktop Enclosure Collection when designing operator-facing devices because these enclosures support efficient interaction between users and electronic systems.
Modern production facilities often utilize multiple electronic devices simultaneously. Monitoring terminals display machine status information, testing instruments verify production quality and communication devices exchange operational data throughout the facility. Each device may require a slightly different enclosure configuration depending on its purpose and installation location.
One advantage of using a Display Instrument Case is the ability to maintain a professional appearance across multiple products. Consistent enclosure design helps strengthen product identity while improving customer perception of quality and reliability.
Industrial equipment frequently remains in service for many years. During this period, maintenance personnel may need to inspect internal electronics, replace components or perform upgrades. Enclosures that support convenient access can significantly reduce service time and simplify maintenance procedures.
Organizations implementing automation projects often integrate desktop equipment with products from the DIN Rail Enclosure Series. This combination allows control electronics, communication hardware and operator interfaces to function together within a unified architecture.
The growing adoption of Industry 4.0 technologies has increased demand for equipment capable of presenting operational information clearly and efficiently. Devices that collect information from sensors, controllers and communication networks often require user interfaces that remain accessible throughout daily operation.
A Display Instrument Case can support these applications by providing sufficient space for displays, indicators and operator controls while maintaining compact external dimensions. This balance between usability and size remains one of the key reasons desktop-style housings continue to be widely used.
Many electronic products evolve through multiple generations. A manufacturer may release an initial version of a monitoring device and later introduce enhanced models with additional functionality. Using a consistent enclosure platform can simplify this process while reducing development costs.
Engineers developing industrial electronics frequently review the Complete Product Catalog to compare available enclosure styles and identify suitable housing platforms for future product development.
As production facilities become increasingly connected, communication between equipment continues to expand. Monitoring terminals, process controllers and diagnostic devices now exchange information more frequently than ever before. Reliable housing solutions help support these technologies by providing mechanical protection and improving product durability.
For applications exposed to more demanding environmental conditions, manufacturers may also evaluate products from the Waterproof Enclosure Collection. Comparing multiple enclosure categories helps identify the most appropriate solution for specific installation environments.
Ultimately, enclosure selection influences far more than appearance alone. It affects usability, maintenance efficiency, manufacturing consistency and long-term customer satisfaction. For this reason, choosing the correct housing platform remains an important decision during electronic product development.
Data has become one of the most valuable resources in modern industry. Organizations collect information from production equipment, environmental sensors, utility systems and communication networks in order to improve efficiency and make better operational decisions. As these systems continue to expand, the need for reliable electronic housings becomes increasingly important.
A Display Instrument Case is commonly used in devices that gather, process and display information. Monitoring terminals, measurement instruments and data acquisition units often require a housing solution that combines protection with convenient user access.
Modern monitoring systems rarely operate as isolated devices. Instead, they form part of larger networks that exchange information continuously. Operators rely on these systems to provide accurate information regarding equipment status, environmental conditions and process performance.
Many manufacturers select products from the Desktop Enclosure Collection when developing monitoring equipment because desktop housings provide convenient access to displays, indicators and control interfaces.
Data acquisition systems are used in a wide variety of industries. Manufacturing facilities monitor production performance, utility companies track energy consumption and infrastructure operators collect information from remote assets. These applications require equipment capable of presenting information clearly and reliably.
The design of the enclosure can influence how effectively users interact with the device. Displays must remain visible, indicators should be easy to interpret and controls need to be accessible throughout daily operation. A properly designed housing supports these requirements while maintaining a professional appearance.
Engineers frequently integrate monitoring devices with products from the DIN Rail Enclosure Series when creating larger control architectures. Communication hardware, power management modules and monitoring equipment often operate together within the same system.
As industrial networks become more sophisticated, monitoring devices continue to evolve. Modern products may include touchscreens, wireless communication capabilities, cloud connectivity and advanced data processing functions. These developments increase the importance of selecting an enclosure platform capable of supporting future expansion.
Organizations developing measurement equipment often prioritize consistency across their product portfolio. Using a common enclosure family can simplify manufacturing while creating a recognizable visual identity across multiple products.
In laboratory environments, operators frequently interact with electronic instruments throughout the day. Easy access to displays and controls improves efficiency while reducing the risk of user error. Desktop-style housings remain popular because they provide a comfortable viewing angle and support efficient operation.
Monitoring systems used in energy management applications continue to expand as organizations seek to improve efficiency and reduce operational costs. These devices collect information from multiple sources and present it through user-friendly interfaces designed to support informed decision making.
Companies implementing energy monitoring systems often evaluate products from the Waterproof Enclosure Collection for field devices while utilizing desktop enclosures for operator-facing equipment installed indoors.
The increasing adoption of Industrial IoT technologies has created additional opportunities for monitoring and data acquisition equipment. Connected devices now provide real-time information from production facilities, utility networks and transportation infrastructure. Reliable enclosure solutions help support these systems by protecting internal electronics while maintaining usability.
Manufacturers developing communication gateways and monitoring terminals frequently review the Wall Mounting Enclosure Collection alongside desktop products when selecting enclosure platforms for different parts of a system.
As organizations continue to rely on data-driven decision making, demand for monitoring equipment is expected to increase. Selecting a dependable enclosure platform can help manufacturers create products that remain reliable, professional and easy to use throughout their operational lifecycle.
OEM manufacturers face a variety of challenges when developing commercial electronic products. Market expectations continue to rise, product lifecycles are becoming shorter and competition is increasing across nearly every industry. As a result, development teams constantly seek ways to reduce engineering costs while maintaining product quality.
One of the most effective strategies involves the use of proven enclosure platforms. Rather than developing a custom housing for every project, manufacturers can leverage established enclosure solutions that already provide the required functionality, appearance and installation characteristics.
A Display Instrument Case can serve as the foundation for multiple product generations. This approach allows engineering teams to focus on software, electronics and user experience while minimizing mechanical development effort.
Standardized enclosure platforms also simplify procurement and inventory management. Products that share common mechanical components often require fewer unique parts, reducing complexity throughout the manufacturing process.
Many companies developing commercial electronics review products from the Complete Product Catalog to identify enclosure families capable of supporting long-term product development strategies.
Product appearance plays an increasingly important role in purchasing decisions. Customers frequently associate enclosure quality with overall product quality. A professional housing solution can therefore contribute directly to market success.
Commercial equipment manufacturers often require customization capabilities to support unique product requirements. Display openings, connector cutouts, membrane keypads and company branding may all need to be incorporated into the final design.
For these applications, Bahar provides specialized services through the Customization Center. These capabilities allow manufacturers to adapt standard enclosure platforms while avoiding the expense of completely custom tooling.
The ability to modify existing enclosure solutions can significantly shorten development timelines. Engineers can validate electronic designs more quickly and transition from prototype development to production with fewer mechanical changes.
Organizations targeting international markets often design products according to ISO Standards and IEC Standards. Following internationally recognized guidelines can improve product quality while simplifying compliance activities.
Manufacturers may also review requirements associated with UL Certification, RoHS Compliance and CE Marking when planning product launches in different regions.
As competition continues to increase, manufacturers must balance development speed, product quality and cost efficiency. Proven enclosure platforms help support these objectives by providing a reliable foundation for commercial electronic products.
The combination of professional appearance, practical functionality and customization flexibility makes desktop instrument enclosures an attractive option for OEM manufacturers developing industrial, laboratory and commercial equipment.
Successful manufacturers rarely focus on a single product. Instead, they develop complete product ecosystems that address multiple customer requirements. A monitoring device may communicate with a controller, a controller may connect to a communication gateway and a gateway may exchange information with a centralized management system.
For this reason, many engineering teams evaluate a broad range of enclosure solutions rather than selecting products individually. Reviewing the Electronic Enclosure Collection allows engineers to identify enclosure families that can support multiple stages of product development.
Desktop equipment often serves as the primary interface between operators and electronic systems. These products may display system information, configuration parameters and operational status while communicating with remote devices installed throughout a facility.
Many industrial systems combine operator terminals with products from the Wall Mounting Enclosure Collection. Wall-mounted devices can house sensors, communication hardware and distributed control electronics while desktop products provide centralized access for operators.
In larger automation projects, communication and control modules are frequently installed within electrical cabinets. For these applications, engineers often utilize products from the DIN Rail Enclosure Series. Combining DIN rail housings with desktop equipment can create a highly organized and scalable system architecture.
Product developers also benefit from maintaining a consistent visual identity throughout their product range. Using enclosure solutions that share similar design principles can strengthen brand recognition and improve customer perception of quality.
Many companies developing industrial equipment explore the Desktop Enclosure Collection when creating user-facing products while selecting wall-mounted or rail-mounted solutions for supporting equipment.
Organizations operating in demanding environments may require additional protection against moisture and dust. In these situations, products from the Waterproof Enclosure Collection can provide alternative solutions for field devices and outdoor installations.
The ability to mix and match different enclosure styles allows manufacturers to optimize system design while maintaining consistency across multiple products. This strategy supports long-term scalability and simplifies future product development activities.
When evaluating enclosure platforms, engineers often access dimensional drawings and technical resources through the Downloads Center. Accurate information helps reduce development risks and improve design efficiency.
Additional design guidance can be found in the Engineering Blog, where enclosure applications, installation methods and product development strategies are discussed in greater detail.
Many development teams also review the FAQ Center to obtain answers to common technical questions before selecting enclosure solutions for new projects.
Manufacturers interested in enclosure modifications can utilize services available through the Customization Center. These services support connector openings, display cutouts, branding elements and other project-specific requirements.
For organizations seeking additional information regarding manufacturing capabilities and company background, the About Us section provides further details regarding Bahar Enclosure and its product offerings.
Customers can also discuss project requirements directly through the Contact Page. Early communication often helps identify the most appropriate enclosure solution while reducing development time and improving project outcomes.
Electronic products are increasingly distributed across global markets. As a result, manufacturers must consider not only product functionality but also regulatory requirements, quality expectations and long-term reliability objectives. These factors influence enclosure selection, material choices and product development processes.
Many companies establish internal quality procedures based on internationally recognized references such as ISO Standards. These standards provide frameworks that support consistency, process control and continuous improvement throughout manufacturing operations.
Engineers developing industrial electronics frequently consult IEC Standards when evaluating product requirements and technical design considerations. These resources help ensure compatibility and reliability across a wide range of electronic applications.
Compliance activities often become particularly important when products are intended for international distribution. Organizations may review information related to UL Certification as part of broader product safety evaluations.
Environmental considerations also continue to influence product development. Many manufacturers seek information regarding RoHS Compliance when selecting materials and planning production activities.
Companies targeting European markets frequently review requirements associated with CE Marking. Understanding these expectations early in the development process can reduce delays and simplify market entry activities.
Although enclosure selection represents only one aspect of product development, it remains an important factor in achieving overall quality objectives. Reliable housing solutions contribute to product durability, professional appearance and long-term operational performance.
Manufacturers investing in high-quality enclosure platforms often benefit from reduced maintenance requirements, improved customer satisfaction and stronger market positioning. These advantages become increasingly valuable as competition continues to intensify across industrial and commercial markets.
The combination of sound engineering practices, reliable enclosure solutions and effective quality management processes can help manufacturers create products that perform consistently throughout their operational lifecycle.
The success of an electronic product is often determined by how easily users can interact with it during everyday operation. While performance specifications remain important, usability has become a major factor in customer satisfaction. A well-designed Display Instrument Case can improve accessibility, enhance visibility and create a more professional user experience.
Many industrial devices are operated continuously throughout the day. Operators need clear access to displays, indicators and configuration controls. The ergonomic structure of a Display Instrument Case supports these requirements by providing a convenient viewing angle and organized front panel layout.
Manufacturers developing monitoring systems frequently evaluate products from the Desktop Enclosure Collection because these enclosures are well suited for user-facing electronic equipment.
A professional Display Instrument Case also contributes to product appearance. Customers often associate enclosure quality with overall product quality, making enclosure selection an important commercial decision as well as an engineering decision.
Companies producing measurement instruments often combine desktop products with solutions from the Wall Mounting Enclosure Collection to create complete monitoring and control systems. This approach helps maintain consistency throughout the entire product range.
Laboratory environments require equipment that is reliable, organized and easy to operate. Engineers and technicians frequently interact with displays, buttons and communication interfaces while performing testing and measurement activities.
A Display Instrument Case provides a practical housing solution for laboratory instruments because it supports efficient user interaction while protecting internal electronic assemblies. This combination of usability and protection continues to make desktop enclosures popular throughout research and development environments.
As laboratory equipment becomes increasingly connected, manufacturers often integrate communication functions into their products. These devices may exchange information with databases, monitoring platforms or remote control systems. A reliable Display Instrument Case helps support these technologies while maintaining a professional appearance.
Engineers responsible for product development frequently access technical information through the Downloads Center when evaluating enclosure compatibility with electronic assemblies and user interface requirements.
Industrial monitoring systems rely on accurate information to support operational decision making. Whether tracking equipment performance, environmental conditions or production efficiency, monitoring devices must remain reliable throughout extended periods of operation.
A dependable Display Instrument Case provides the physical platform required for displays, indicators and control interfaces while helping protect electronic components from accidental damage. These advantages contribute to improved reliability and long-term product performance.
Organizations implementing monitoring solutions often review products from the Waterproof Enclosure Collection for field devices while selecting a Display Instrument Case for centralized monitoring terminals and operator interfaces.
Additional enclosure recommendations and application examples can be found in the Engineering Blog, where various product categories and installation strategies are discussed in greater detail.
Many manufacturers using a Display Instrument Case design their products according to recognized references such as ISO Standards, IEC Standards, UL Certification, RoHS Compliance and CE Marking.
Before any electronic product reaches the market, it must undergo extensive testing and validation procedures. Engineers evaluate functionality, performance, reliability and usability to ensure the final product meets customer expectations. Throughout this process, enclosure selection remains an important factor because the housing directly affects how users interact with the device.
A Display Instrument Case provides an excellent platform for testing equipment, calibration instruments and diagnostic devices. These products often require displays, status indicators and operator controls that remain accessible during daily operation.
Many testing systems are designed for long-term use in laboratories, production facilities and maintenance departments. A durable Display Instrument Case helps protect sensitive electronics while maintaining a professional appearance throughout the product lifecycle.
Manufacturers developing advanced testing equipment frequently review products from the Desktop Enclosure Collection because these housings provide practical layouts for operator interfaces and display systems.
As testing requirements become more sophisticated, electronic devices continue to incorporate additional communication features and monitoring capabilities. A reliable Display Instrument Case supports these developments while maintaining mechanical consistency across multiple product generations.
Smart manufacturing relies on accurate information and efficient communication between equipment, operators and management systems. Production facilities increasingly utilize electronic devices to monitor performance, collect operational data and support automated decision-making processes.
A Display Instrument Case is frequently used in operator terminals, process monitoring systems and production management devices because it allows users to access information quickly and efficiently. Easy access to displays and controls can improve workflow efficiency while reducing the likelihood of operational errors.
Engineers often integrate desktop monitoring equipment with products from the DIN Rail Enclosure Series to create complete industrial automation systems. This combination allows communication hardware, controllers and operator interfaces to function together seamlessly.
Many organizations also deploy field devices throughout production facilities. These applications may require products from the Waterproof Enclosure Collection while maintaining a Display Instrument Case for centralized monitoring and control functions.
OEM manufacturers continually seek ways to improve development efficiency and reduce production costs. One common strategy involves using standardized enclosure platforms that can support multiple products while maintaining a consistent appearance.
A Display Instrument Case can serve as the foundation for a wide range of commercial electronic products. This approach allows manufacturers to focus on electronic innovation and software development while utilizing a proven mechanical platform.
Using a common Display Instrument Case across several products can simplify inventory management, reduce engineering effort and improve manufacturing consistency. These benefits become increasingly valuable as product portfolios continue to expand.
Organizations requiring custom connector layouts, display openings or branding modifications can utilize services available through the Customization Center. These services help manufacturers adapt standard enclosures to specific application requirements without investing in completely new tooling.
Additional technical resources can be found through the Downloads Center, the Engineering Blog, the FAQ Center and the Contact Page.
Many products utilizing a Display Instrument Case are developed according to internationally recognized engineering practices including ISO Standards, IEC Standards, UL Certification, RoHS Compliance and CE Marking.
BMD 60001 | 80 × 50 × 19 mm
BMD 60002 | 95 × 55 × 23 mm
BMD 60003 | 110 × 65 × 28 mm
