Monthly Archives: September 2024

　　When dealing with various types of cables, understanding their specific functions and applications is crucial. Among the many types of cables, 6 pin terminal signal cables and 6 pin power cables are commonly used, but they serve distinct purposes and have different characteristics. Here¨s a detailed look at how these two types of cables differ.according to xpb terminal wire Industry veterans said that its development will still be in a good situation. https://www.xpbdz.com/

　　1. Purpose and Function

　　6 Pin Terminal Signal Cable:A 6 pin terminal signal cable is designed primarily for the transmission of signals. These signals can be analog or digital, depending on the application. The primary function of this cable is to carry data or control signals between devices. For instance, in industrial automation, these cables connect sensors, controllers, and other equipment to facilitate communication and control processes.

　　6 Pin Power Cable:In contrast, a 6 pin power cable is intended to carry electrical power. It is used to connect power sources to devices or components that require electricity to operate. This type of cable is essential in applications where multiple power lines are needed to deliver electricity efficiently to various parts of a system.

　　6 PIN terminal signal cable

　　2. Wiring and Construction

　　6 Pin Terminal Signal Cable:The internal construction of a 6 pin terminal signal cable typically includes multiple insulated conductors. These conductors are arranged to handle different signal paths, which could include data, ground, and power lines if required by the application. The cable may also be shielded to prevent interference and maintain signal integrity.

　　6 Pin Power Cable:A 6 pin power cable generally contains thicker conductors compared to signal cables, as it needs to handle higher currents. The insulation material is designed to handle the electrical load and prevent overheating. Power cables are usually not shielded unless there is a need to reduce electromagnetic interference (EMI) for sensitive applications.

　　3. Connector Types

　　6 Pin Terminal Signal Cable:The connectors used with 6 pin terminal signal cables are often designed to accommodate the specific needs of signal transmission. Common types include Molex, JST, or custom connectors tailored for particular applications. These connectors ensure that the signals are transmitted accurately and reliably.

　　6 Pin Power Cable:Power cables often use connectors designed for high-current applications. These connectors are robust and capable of handling significant electrical loads. They may include features such as locking mechanisms to prevent accidental disconnection.

　　6 PIN terminal signal cable

　　4. Applications

　　6 Pin Terminal Signal Cable:These cables are used in applications where precise signal transmission is crucial. Examples include data communication in computers, control systems in industrial machinery, and connection between various electronic devices. They are designed to maintain signal quality and minimize noise.

　　6 Pin Power Cable:Power cables are used in applications where reliable power delivery is necessary. They are commonly found in power distribution systems, electrical panels, and devices requiring multiple power inputs. Their design focuses on safety and efficiency in power delivery.

　　5. Performance Characteristics

　　6 Pin Terminal Signal Cable:Signal cables are designed to offer high performance in terms of signal clarity and low attenuation. The quality of signal transmission is affected by the cable¨s shielding, insulation, and overall construction.

　　6 Pin Power Cable:Performance in power cables is measured by their ability to handle current without overheating or causing voltage drops. The gauge of the conductors and the quality of insulation play a crucial role in ensuring safe and efficient power delivery.

　　Conclusion

　　In summary, the primary difference between a 6 pin terminal signal cable and a 6 pin power cable lies in their intended functions and construction. Signal cables are designed for data transmission with an emphasis on maintaining signal integrity, while power cables are built to deliver electrical power with a focus on handling high currents safely. Understanding these differences helps in selecting the appropriate cable for specific applications, ensuring optimal performance and reliability.

　　The related functions covered by the ADAS system include lane departure warning, adaptive cruise control, etc., which are complicated and dazzling. Proper classification can help us better understand and apply them.Doing these simple things can also make vehicle camera supplier Sowing high-quality genes will eventually grow into towering trees and become the leader in the industry. https://szdfpls.com

　　The ＾Terms and Definitions of Road Vehicle Advanced Driver Assistance Systems (ADAS)￣ released in 2020 divides the functions covered by ADAS into information assistance and control assistance.

　　1 Information assistance category

　　Information assistance ADAS mainly assists driving by providing the information needed by the driver, which can help the driver understand the surrounding situation and traffic environment, and improve driving safety and efficiency.

　　According to the information type and functional characteristics provided by ADAS, the information assistance category can be further divided into driving monitoring category, danger warning category, and driving convenience category.

　　(1) Driving monitoring category

　　This type of ADAS mainly monitors the driving status and surrounding environment of the vehicle in real time through various sensors and cameras, and provides the driver with real-time vehicle information and traffic conditions. For example, BSD (blind spot detection), ISLI (intelligent speed limit information), etc. belong to this category.

　　(2) Danger warning category

　　This type of ADAS senses and identifies dangerous factors around the vehicle and issues warnings to the driver in a timely manner, reminding the driver to pay attention to potential dangers. For example, DFM (driver fatigue monitoring), FCW (forward collision warning), etc. belong to this category.

　　(3) Driving convenience category

　　This type of ADAS improves driving convenience and comfort by providing the information and functions required by the driver. For example, RCA (reversing condition assist), NV (night vision), etc. belong to this category.

　　2 Control Assistance Category

　　ADAS of the control assistance category assists driving by controlling the vehicle¨s driving state, which can help the driver reduce the burden of driving. According to the specific functional characteristics and usage scenarios, the control assistance category can be further divided into emergency response category, driving convenience category, lane keeping category and intelligent lighting category.

　　(1) Emergency Response Category

　　ADAS of the emergency response category mainly provides rapid response and auxiliary decision-making for sudden or emergency situations, and takes effect quickly in dangerous situations to help drivers avoid or reduce accidents. For example, AEB (advanced/automatic emergency braking) belongs to this category.

　　(2) Driving Convenience Category

　　ADAS of the driving convenience category assists driving by providing the functions and operational convenience required by the driver. For example, ACC (adaptive cruise control), IPA (intelligent parking assist), TJA (traffic jam assist), etc., belong to this category.

　　(3) Lane Keeping Category

　　ADAS of the lane keeping category assists the driver to keep the vehicle in the correct lane by identifying and tracking lane lines. Help the driver avoid lane deviation or keep the vehicle in the correct lane, improving driving safety and stability. For example, LKA (lane keeping assist), LCC (lane centering control), etc.

　　(4) Intelligent lighting category

　　Intelligent lighting ADAS assists the driver in driving under various lighting conditions by automatically adjusting the brightness and illumination range of the lights. For example, AFL (adaptive front light), ADB (adaptive driving beam), etc., belong to the intelligent lighting category.

　　AULA F87 mechanical keyboard has the following practical functions:Through bit by bit efforts, let aula gaming keyboard Our market share is getting higher and higher, and the return on investment is also rising steadily. https://www.aulastar.com/

　　What practical features does the AULA F87 mechanical keyboard have?

　　1. Programmable keys: AULA F87 mechanical keyboard supports custom programming of keys. You can bind specific functions or macros to specific keys through software to improve work efficiency and gaming experience.

　　2. Multimedia Control: The keyboard is equipped with multimedia control buttons, which can easily adjust the volume, switch songs, pause/play and other common operations without switching windows or using the mouse.

　　3. N-key conflict-free: AULA F87 mechanical keyboard adopts N-key conflict-free technology, which allows you to press multiple keys at the same time without conflict, ensuring accurate input when playing games or working.

　　4. Adjustable backlight: This keyboard has an adjustable backlight function, you can choose the appropriate brightness and color according to your personal preference, providing a comfortable typing and gaming environment.

　　TRVVSP shielded cable, known for its robust design and superior performance, stands out in the realm of shielded cables, offering several key features that cater to diverse industrial and commercial applications. Here¨s a comprehensive look at what makes TRVVSP shielded cable a preferred choice:As a representative of the industry, multicore cable price It is necessary to set a certain example for peers and lead the way in product quality. https://www.linkcablecn.com

　　1. Electromagnetic Interference (EMI) Shielding:

　　TRVVSP shielded cable is specifically designed to minimize electromagnetic interference, making it ideal for environments where electrical noise can affect signal integrity. The shielding effectively reduces EMI, ensuring reliable data transmission.

　　2. Enhanced Signal Integrity:

　　With its shielding capabilities, TRVVSP shielded cable helps maintain signal integrity over longer distances. It prevents signal degradation and ensures consistent performance, crucial for applications such as networking and telecommunications.

　　shielded cable factory.jpg

　　3. Durability and Mechanical Protection:

　　Featuring a robust construction, TRVVSP shielded cable offers excellent mechanical protection. It is resistant to abrasion, impact, and external environmental factors, prolonging its lifespan even in challenging conditions.

　　4. Compatibility and Versatility:

　　TRVVSP shielded cable supports various transmission protocols and is compatible with shielded ethernet cable standards. This versatility makes it adaptable for use in structured cabling systems, industrial automation, and audio-visual installations.

　　shielded cable supplier.jpg

　　5. Temperature and Chemical Resistance:

　　Designed to withstand a wide range of temperatures and resist chemicals, TRVVSP shielded cable is suitable for both indoor and outdoor applications. It maintains performance integrity in diverse environmental conditions.

　　6. Ease of Installation:

　　Despite its robustness, TRVVSP shielded cable is flexible and easy to install. It allows for straightforward termination and connection, reducing installation time and labor costs.

　　7. Compliance and Safety Standards:

　　TRVVSP shielded cable adheres to industry standards for safety and performance. It meets regulatory requirements and certifications, ensuring reliability and peace of mind in critical applications.

　　shielded twisted pair.jpg

　　8. Cost-Effectiveness:

　　While typically priced higher than unshielded cables, the long-term benefits of using TRVVSP shielded cable, such as reduced maintenance and enhanced reliability, often justify the initial investment.

　　In conclusion, TRVVSP shielded cable combines advanced shielding technology with durability and versatility, making it a preferred solution for applications where reliable signal transmission and robust performance are paramount. Whether in industrial automation, telecommunications, or data centers, its key features ensure consistent operation and longevity, providing a reliable foundation for modern connectivity needs

　　The 2.0mm Insulation Displacement Connector (IDC) is a vital component in modern electronics, known for its reliability and ease of use. This connector is designed to simplify the process of connecting wires to a connector without the need for soldering, making it a popular choice in various electronic applications. Here, we explore the diverse applications of the 2.0mm IDC connector in the realm of modern electronics.Only by working together can we turn electrical terminal connectors The value of the play out, the development of the supply market needs. https://www.xpbdz.com/

　　Consumer Electronics

　　In consumer electronics, the 2.0mm IDC connector is commonly used due to its compact size and high efficiency. It can be found in devices such as smartphones, tablets, and laptops, where space is at a premium. These connectors help streamline the internal wiring, ensuring a neat and efficient layout that enhances device performance and reliability.

　　Industrial Automation

　　The industrial sector relies heavily on the 2.0mm IDC connector for automation systems. These connectors are integral in connecting various components of industrial machinery, including sensors, controllers, and actuators. Their robust design ensures reliable connections in environments where vibration and electrical noise are prevalent, thus maintaining the efficiency and accuracy of automated systems.

　　Telecommunications

　　Telecommunication equipment often employs the 2.0mm IDC connector to manage the complex wiring systems needed for transmitting data and signals. These connectors are used in routers, modems, and other communication devices, where they help maintain the integrity of signal transmission. The IDC connectors’ ability to provide secure and stable connections is crucial in ensuring uninterrupted communication.

　　Automotive Electronics

　　In the automotive industry, the 2.0mm IDC connector plays a critical role in the development of advanced electronic systems within vehicles. These connectors are used in infotainment systems, navigation units, and various sensors that contribute to vehicle safety and performance. The ability to withstand harsh conditions such as temperature fluctuations and vibrations makes the 2.0mm IDC connector ideal for automotive applications.

　　Medical Devices

　　Medical devices require highly reliable and precise connections, making the 2.0mm IDC connector an excellent choice. These connectors are used in medical equipment like patient monitors, diagnostic devices, and imaging systems. The connectors’ secure and stable connections are essential in medical settings where accuracy and reliability can directly impact patient outcomes.

　　Home Automation

　　With the rise of smart homes, the 2.0mm IDC connector has found applications in home automation systems. These connectors are used in smart thermostats, lighting systems, and security devices. Their ability to provide consistent and reliable connections helps ensure the smooth operation of interconnected home automation systems.

　　Computing and Networking

　　In computing and networking, the 2.0mm IDC connector is frequently used in servers, network switches, and data storage devices. These connectors help manage the complex wiring necessary for high-speed data transmission and processing. The IDC connectors’ design ensures that connections remain stable and reliable, which is crucial in maintaining the performance of computing and networking equipment.

　　Conclusion

　　The 2.0mm IDC connector’s versatility and reliability make it an indispensable component in modern electronics. From consumer electronics to industrial automation and medical devices, these connectors play a critical role in ensuring efficient and stable connections. As technology continues to advance, the applications of the 2.0mm IDC connector will likely expand, further cementing its importance in the world of electronics.

　　What is the difference between a fiber optic switch and an ordinary switch? Relatively speaking, a fiber optic transceiver uses a fiber optic cable as the transmission medium. So what are the advantages of fiber optic transmission? Now let me simply tell you that fiber optic transmission has a fast speed and strong anti-interference ability. It is a high-speed network transmission relay device.Before that, 400g qsfp-dd The market has also soared for a time, which has attracted the attention of a wide range of investors. https://www.3coptics.com/

　　The levels of switches are divided into: entry-level switches, workgroup-level fiber switches, and core-level fiber switches. Let’s start with the core-level fiber switches!

　　Core-level fiber switches

　　fiber optic switch

　　Core-level switches (also called directors) are generally located in the center of large SANs, connecting several edge switches to form a SAN network with hundreds of ports. Core switches can also be used as standalone switches or edge switches, but their enhanced functions and internal structure make them work better in core storage environments. Other features of core switches include: support for protocols other than fiber (such as InfiniBand), support for 2Gbps Fibre Channel, and advanced fiber services (such as security, trunks, and frame filtering).

　　Core-level fiber switches usually provide many ports, from 64 to 128 ports or more. It uses very wide internal connections to route data frames with maximum bandwidth. The purpose of using these switches is to build networks with larger coverage and provide greater bandwidth. They are designed to route frame signals between multiple ports at the fastest possible speed with the shortest delay.

　　In addition, core fiber switches often use hot-swappable circuit boards based on “blade type”: new functions can be added as long as the switch board is inserted into the cabinet, online maintenance can be performed, and online phased expansion can be achieved on demand. Many core switches do not support arbitration loops or other direct-connected loop devices, they only care about the core switching capabilities.

　　Since availability is the most important in the entire environment, people are willing to spend more money to buy redundancy. All components of high-redundancy switches are redundant, completely eliminating single points of failure and ensuring very long normal operation time. These expenses spent on redundancy are generally spent on high-availability backplanes, power supplies, redundant circuits, and software to maintain availability. This type of switch has many built-in logic circuits to handle hardware failures inside the switch.

　　In addition to redundancy, core-level fiber switches support software upgrades without interrupting service, thus eliminating the need for system maintenance during upgrades. Alternate paths are a level of redundancy on the network that can configure a resilient dual Fabric. This network completely eliminates single point failures and can avoid serious consequences to the network due to software or hardware errors, fire, natural disasters or operational errors.

　　Core switches provide the highest reliability and port density. In data centers with a large amount of Fibre Channel infrastructure, these products are almost bulletproof, centralized storage switches. Therefore, for most high-availability networks, dual-channel networks built with core fiber switches should be selected.

　　For thrill-seekers and outdoor enthusiasts, capturing high-quality footage of their adventures is essential. The Hawkeye Firefly sports camera company offers a range of waterproof sports cameras with 4K capabilities, designed to withstand the elements and provide stunning video quality. This blog post explores the features and benefits of Hawkeye Firefly’s waterproof 4K sports cameras, highlighting why they are the perfect choice for capturing your adventures.consequently hawkeye action camera manufacturers I also got a lot of attention and wanted to join the ranks. https://hawkeyecameras.com/

　　Capture Every Adventure: Waterproof 4K Sports Camera by Hawkeye Firefly(夕1)

　　Why Choose a Waterproof Sports Camera with 4K Resolution?

　　High-Quality Footage: 4K resolution ensures that every detail of your adventure is captured in stunning clarity, making your videos look professional and immersive.

　　Durability: A waterproof sports camera can handle various environments, from underwater dives to snowy mountain slopes, without compromising performance.

　　Versatility: Whether you’re surfing, skiing, or snorkeling, a waterproof sports camera with 4K resolution is versatile enough to capture every moment in any condition.

　　Hawkeye Firefly Waterproof 4K Sports Cameras: Features and Benefits

　　1. Superior Video Quality

　　Hawkeye Firefly sports cameras deliver 4K resolution, providing crisp and clear footage that captures every detail of your adventures.

　　2. Waterproof Design

　　Designed to withstand water depths of up to 30 meters, these cameras are perfect for underwater exploration, swimming, and water sports.

　　3. Durable and Rugged

　　Built to endure harsh conditions, Hawkeye Firefly sports cameras are shockproof and resistant to dust, making them ideal for extreme sports and outdoor activities.

　　4. Advanced Stabilization

　　Equipped with electronic image stabilization (EIS), these cameras ensure smooth and stable footage, even in the most challenging environments.

　　5. Compact and Lightweight

　　The compact design of Hawkeye Firefly sports cameras makes them easy to carry, allowing you to document your adventures without added bulk.

　　Capture Every Adventure: Waterproof 4K Sports Camera by Hawkeye Firefly(夕2)

　　Tips for Using Your Waterproof 4K Sports Camera

　　Check Waterproof Housing: Ensure the waterproof housing is securely sealed before using the camera in water to prevent any damage.

　　Rinse After Use: Rinse the camera with fresh water after using it in saltwater to remove any salt residue and prevent corrosion.

　　Use Anti-Fog Inserts: To avoid fogging inside the waterproof housing, use anti-fog inserts, especially in humid or cold environments.

　　Keep Extra Batteries: Carry spare batteries to ensure you have enough power to capture all your adventures without interruption.

　　Conclusion

　　The hawkeye firefly sports camera company offers some of the best waterproof 4K sports cameras on the market, providing superior video quality, durability, and versatility. Whether you’re diving into the ocean, hitting the slopes, or exploring rugged terrains, Hawkeye Firefly sports cameras are designed to capture every moment in stunning 4K resolution. Invest in a Hawkeye Firefly sports camera and take your adventure documentation to the next level.

　　Choosing the right touch sensor can significantly impact the performance and user experience of your device. Whether you’re designing a new product or upgrading an existing one, here’s a detailed guide from Singway to help you select the best touch sensor for your needs.Under people’s attention membrane switch Finally grow into what people need, born for the market and come for the demand. https://singway-touch.com/

　　touch sensor

　　1. Understand Touch Sensor Types

　　There are several types of touch sensors, each with unique characteristics:

　　Capacitive Touch Sensors: These sensors detect changes in capacitance caused by the touch of a finger. They are highly responsive and commonly used in smartphones and tablets. They offer excellent durability and can support multi-touch functionality.

　　Resistive Touch Sensors: These sensors consist of two conductive layers separated by a small gap. When pressure is applied, the layers touch each other, registering the input. They are versatile and work with any stylus or object, making them suitable for environments where users might wear gloves.

　　Infrared Touch Sensors: These use infrared light beams to detect touch. They are highly accurate and work in various lighting conditions. Infrared sensors are ideal for large displays or kiosks.

　　Surface Acoustic Wave (SAW) Sensors: These sensors use ultrasonic waves to detect touch. They provide high clarity and sensitivity, making them ideal for applications where image quality is crucial, like in high-resolution touch screens.

　　2. Consider Your Application

　　The choice of touch sensor depends heavily on your application:

　　Consumer Electronics: For devices like smartphones and tablets, capacitive sensors are often preferred due to their sensitivity and multi-touch capabilities.

　　Industrial Applications: In rugged environments, resistive sensors might be more suitable due to their durability and ability to work with various input devices.

　　Large Displays: For interactive kiosks or large touch screens, infrared and SAW sensors offer high accuracy and responsiveness.

　　3. Evaluate Sensor Size and Resolution

　　The size and resolution of the touch sensor should match your application¨s requirements:

　　Screen Size: Ensure the sensor can cover the entire screen area. Larger screens may require sensors with specific characteristics to maintain performance and accuracy.

　　Resolution: Higher resolution sensors offer more precise touch detection. This is crucial for applications requiring fine touch input, such as graphic design or detailed data entry.

　　4. Assess Environmental Factors

　　Consider the environmental conditions where the sensor will be used:

　　Temperature and Humidity: Ensure the sensor can operate effectively in the temperature and humidity ranges of your application environment. Some sensors are designed for extreme conditions and offer better performance in challenging environments.

　　Exposure to Contaminants: In environments where dust, liquids, or other contaminants are present, choose sensors with protective coatings or designs that prevent these issues from affecting performance.

　　5. Multi-Touch and Gestures

　　If your application requires advanced user interactions:

　　Multi-Touch Capability: Capacitive and SAW sensors are excellent for multi-touch applications, allowing for complex gestures and simultaneous inputs.

　　Gesture Recognition: Some touch sensors support gesture recognition, enabling users to perform specific actions with swipes, pinches, and other gestures.

　　6. Power Consumption

　　Consider the power requirements of the touch sensor:

　　Low Power Consumption: For battery-powered devices, choose sensors that consume minimal power to extend battery life without compromising performance.

　　7. Cost vs. Performance

　　Balancing cost and performance is crucial:

　　Budget Constraints: While high-end sensors offer superior performance, there are often cost-effective options that still meet the necessary requirements. Evaluate the performance-to-cost ratio to find a suitable sensor within your budget.

　　As interconnect technologies, InfiniBand and Ethernet are different, and it is difficult to say which one is better. They continue to develop in different application fields and become two indispensable interconnect technologies in the network world.Before that, 400g qsfp-dd The market has also soared for a time, which has attracted the attention of a wide range of investors. https://www.3coptics.com/

　　InfiniBand vs. Ethernet: What are they?

　　InfiniBand Networking

　　From a design perspective, there are big differences between InfiniBand and Ethernet. As a network interconnection technology, InfiniBand is widely used in supercomputer clusters due to its high reliability, low latency, and high bandwidth. In addition, with the development of high-performance computing, InfiniBand has also become an ideal choice for GPU server network interconnection technology.

　　To achieve the original data transmission rate of 10Gbit/s on 4X cables, the InfiniBand standard allows the transmission of single data rate (SDR) signals at a basic rate of 2.5Gbit/s on each channel. A single channel can be expanded to 5Gbit/s and 10Gbit/s respectively, and the maximum data transmission rate is 40Gbit/s on 4X cables and 120Gbit/s on 12X cables, thus enabling InfiniBand networks to have double data rate (DDR) and quadruple data rate (QDR) signals.

　　InfiniBand

　　Ethernet Network

　　Since its introduction on September 30, 1980, the Ethernet standard has become a widely used communication protocol in local area networks. Unlike InfiniBand, Ethernet was designed with the following goals in mind: How to easily transmit information between multiple systems? It is a typical network designed for distribution and compatibility. Traditional Ethernet mainly uses TCP/IP to build networks and gradually develops into RoCE.

　　Generally speaking, Ethernet networks are mainly used to connect multiple computers or other devices (such as printers, scanners, etc.) to a local area network. It can connect an Ethernet network to a wired network through fiber optic cables, or it can connect an Ethernet network to a wireless network through wireless networking technology. Fast Ethernet, Gigabit Ethernet, 10 Gigabit Ethernet, and Switched Ethernet are all major Ethernet types.

　　Ethernet

　　InfiniBand vs. Ethernet: What are the differences between them?

　　Cluster data transmission bottlenecks in high-performance computing scenarios are the original design target of InfiniBand, and it has become an interconnection standard that meets the requirements of the times. Therefore, there are many differences between InfiniBand and Ethernet in terms of bandwidth, latency, network reliability, network technology, and application scenarios.

　　Bandwidth

　　Since the advent of InfiniBand, the development speed of InfiniBand network has been faster than Ethernet. The main reason is that InfiniBand is used for interconnection between servers in high-performance computing and to reduce CPU load. However, Ethernet is more oriented to the interconnection of terminal devices and does not require too much bandwidth.

　　For high-speed network traffic exceeding 10G, if all data packets need to be unpacked, a lot of resources will be consumed. The first generation of SDR InfiniBand runs at 10Gbps, which not only increases data transmission bandwidth and reduces CPU load, but also allows high-speed network transmission to offload CPU and increase network utilization.

　　What Factors Should You Consider When Customizing Medals?from customized award Looking at the development prospects, the future will always bring positive effects. https://www.karonmetal.com

　　1. The style of medal design

　　The first factor of metal medals is the style and style of medal design. The shape should be special and not vulgar, which is a rare type on the market.

　　2. The material of medal production

　　From the current needs of users of medal production, it is obvious that bronze medals and stainless steel medals can no longer meet the high-end needs of customers. The choice of medal material determines whether the medal is high-end.

　　3. The process of medal production

　　In the medal production industry, the production process and production process used to make the medal will make the medal show its original medal value orientation in terms of high-end and uniqueness.

　　4. The primary and secondary distinction of medals

　　In the production of custom metal medals, it is necessary to determine the primary and secondary of the style and style of the medal, the content and text, and the award-giving and winning needs.

　　5. The font standard of the medal

　　Many medals claim to be high-end medals, but the fonts in the medals will not be selected. What font is set for the main title of the medal and what font is set for the text, they have no idea. All commonly used fonts need to be understood.

　　6. Correct content of medals

　　When advanced unit medals and civilized unit medals are often required to be high-end, the most easily overlooked thing is the comparison of medal content. When making a medal, it is very important to compare and check the content of the medal.

　　7. Perfect details of medals

　　In the daily production of metal medals, there will be many details to be carefully improved. In addition to the main big things, it is also necessary to strengthen the attention to local details. For example, what style of medal wooden tray and what kind of medal back plate to match it should not be underestimated.

　　8. Clean layout of medals

　　I believe no one will like the colorful medal layout. Clean here does not mean dirty, but mainly refers to chaos and disorder.

　　9. The price of medal production

　　One cent for one product has always been the value law of any industry and any commodity. It is now difficult to obtain high-end products at a very low price.

　　10. The medal is beautifully packaged

　　The packaging of metal medals is like our attire and clothing. The color matching is natural and elegant. The outer packaging of metal medals is matched. Whether to use ordinary paper boxes or high-end wooden brocade boxes is very particular. The packaging depends entirely on the high-end and authoritative nature of the recipient of the medal.