Industry Directory | Manufacturer
Bones Electronics design and manufacture toroidal transformers,EI lamination transformers,toroidal iron cores wound by sillicon steel tapes. OEM and ODM accept.CE,ROHS,UL,VDE approved.
New Equipment | Board Handling - Conveyors
The loader separates and loads bare or pre-mounted PCBs from rasterized magazines onto a subsequent production line. The automatic loader holds up to 3 magazines simultaneously. The filling ratio, skip factor, and first and last load/unload positio
A universal radio test set for complete maintenance and repair of FM and AM radio stations of the VHF band RST-430 is a multipurpose radio measuring device for maintenance of communication equipment in indoor and field conditions. Functions
Electronics Forum | Thu Jul 19 23:52:17 EDT 2001 | Victor
Load Factor = Board Length / (Board Length + Space) (you can get the maximum loading factor from the manufacturer, usually ranges from 0.5 to 0.9) Oven Throughput = (Conveyor Speed x Load Factor) / Length per Board
Electronics Forum | Mon Jul 09 11:59:25 EDT 2007 | sck1971
Does anyone have any industry standard yield factors to load at the component level to account for set up scrap and machine waste during production? I'm assuming there are different percentages used for each package size (0402, 0603, SOIC8, etc) but
Used SMT Equipment | In-Circuit Testers
EMI Test Receiver The EMI Test Receivers ESHS10 and ESHS30 are double-conversion heterodyne receivers covering the frequency range from 9kHz to 30MHz. They can be manually operated, featuring high frequency resolution and accuate level indication,
Used SMT Equipment | In-Circuit Testers
EMI Test Receiver The EMI Test Receivers ESHS10 and ESHS30 are double-conversion heterodyne receivers covering the frequency range from 9kHz to 30MHz. They can be manually operated, featuring high frequency resolution and accuate level indication,
Industry News | 2003-06-12 08:24:37.0
An adaptive tool prevents small and/or light components "lifting" or "floating" on printed circuit board assemblies during the wave solder process.
Industry News | 2003-05-22 08:36:27.0
Packaging Saves PCB Board Space Without Sacrificing Power Dissipation Capability
Parts & Supplies | Soldering Equipment/Fluxes
3D Solder Paste Inspection Machine Features : Easy to use by fully motorize X-Y scan mechanism. Easy to program by Gerber image navigator Easy to repeat the same job by loading the saved program User-friendly color image live view operation Ea
Technical Library | 2023-12-27 12:27:29.0
Background Of SMT Auto IC Programming Machines In the dynamic landscape of electronics manufacturing, SMT Auto IC Programming Machines, also known as IC Programmers, have become indispensable tools. These machines play a crucial role in the semiconductor industry, addressing the escalating demand for efficient programming tools as electronic devices become more intricate. Specifically designed to load firmware or programs onto integrated circuits (ICs), these machines ensure the functionality of ICs and facilitate their seamless integration into various electronic applications. Significance Of SMT Auto IC Programming Machines The significance of SMT Auto IC Programming Machines lies in their ability to streamline the manufacturing process of electronic devices. ICs, ranging from microcontrollers to memory chips, serve as the central processing units in electronic systems. IC Programming Machines enable the customization of these ICs, allowing manufacturers to program specific functionalities, update firmware, and adapt to diverse applications. Furthermore, these machines contribute significantly to the rapid development of new products. In a market where time-to-market is critical, IC Programming Machines provide the flexibility to quickly program different ICs, reducing production lead times and enhancing overall efficiency. Operational Principles Of IC Programming Machines Hardware Architecture SMT Auto IC Programming Machines consist of a sophisticated hardware architecture comprising a controller, socket, pin detection system, and additional peripherals. The controller acts as the brain, orchestrating the programming process, while the socket provides a connection interface for the IC. Programming Algorithms At the core of IC Programming Machines are various programming algorithms encompassing essential operations such as erasure, writing, and verification. The choice of algorithms depends on the specific requirements of the IC and the desired functionality. Communication Protocols Effective communication between the IC Programming Machine and the target IC is facilitated by standardized communication protocols such as JTAG, SPI, and I2C. The selection of a particular protocol is influenced by factors such as data transfer speed, complexity, and compatibility with the IC. Advanced Features And Characteristics Equipped with advanced features like parallel programming, support for multiple ICs, and online programming, IC Programming Machines elevate their capabilities, enhancing production efficiency and flexibility. Practical Applications IC Programming Machines find practical applications across various industries, from automotive electronics to consumer electronics. Case studies illustrate how these machines contribute to improved production workflows and product quality by ensuring programmed ICs meet specific application requirements. Future Trends Looking ahead, the future of SMT Auto IC Programming Machines holds exciting prospects. Anticipated trends include advancements in programming speed, support for emerging communication protocols, and increased integration with smart manufacturing systems. These developments aim to address the evolving demands of the electronics industry. I.C.T-910 Programming Machine Invest in the I.C.T-910 for an efficient and reliable IC programming experience. The I.C.T-910 complies with European safety standards, holding a CE certificate that attests to its quality and adherence to safety regulations. Our skilled engineers at I.C.T are committed to ensuring your success by providing professional training and assistance with equipment installation. I.C.T: Your Comprehensive SMT Equipment Provider I.C.T stands as a comprehensive SMT equipment provider, offering end-to-end solutions for your SMT production line needs. Tailoring services to your specific requirements and product specifications, we conduct a thorough analysis to determine the precise SMT equipment that suits your needs. Our commitment is to deliver the highest quality and cost-effective solutions, ensuring optimal performance and efficiency for your production processes. Partner with I.C.T for a customized approach to SMT equipment that aligns perfectly with your manufacturing goals. Contact us for an inquiry today.
Technical Library | 2019-02-13 13:45:11.0
Development of information and telecommunications network is outstanding in recent years, and it is required for the related equipment such as communication base stations, servers and routers, to process huge amount of data in no time. As an electrical signal becomes faster and faster, how to prevent signal delay by transmission loss is a big issue for Printed Circuit Boards (PCB) loaded on such equipments. There are two main factors as the cause of transmission loss; dielectric loss and conductor loss. To decrease the dielectric loss, materials having low dielectric constant and low loss tangent have been developed. On the other hand, reducing the surface roughness of the copper foil itself to be used or minimizing the surface roughness by modifying surface treatment process of the conductor patterns before lamination is considered to be effective in order to decrease the conductor loss. However, there is a possibility that reduction in the surface roughness of the conductor patterns will lead to the decrease in adhesion of conductor patterns to dielectric resin and result in the deterioration of reliability of PCB itself. In this paper, we will show the evaluation results of adhesion performance and electrical properties using certain type of dielectric material for high frequency PCB, several types of copper foil and several surface treatment processes of the conductor patterns. Moreover, we will indicate a technique from the aspect of surface treatment process in order to ensure reliability and, at the same time, to prevent signal delay at the signal frequency over 20 GHz.
Product introduction: 1.This equipment is used to collect bare PCBs at the end of SMT production line 2.Stable and reliable PLC control system; 3.Easy to operate LED touch screen control interface; 4.Uninterrupted loading; 5.Machine always fault
Product introduction: 1.This equipment is used to collect bare PCBs at the end of SMT production line 2.Stable and reliable PLC control system; 3.Easy to operate LED touch screen control interface; 4.Uninterrupted loading; 5.Machine always fault
Events Calendar | Wed Mar 18 00:00:00 EDT 2020 - Wed Mar 18 00:00:00 EDT 2020 | College Park, Maryland USA
CALCE Reliability Science Symposium - Spring 2020
Career Center | Londonderry, New Hampshire USA | Production
Operating and loading of SMT machine per process documentation. Assigning work and SMT build schedules to other SMT operators as per SMT production plan. Responsible for SMT machine operation. Maintain and repair any problems, if possible. Respon
Career Center | Corpus Christi, Texas USA | Engineering,Management,Production,Purchasing
A senior management role focused on providing world class customer service. Taking responsibility for the majority of the AFD supply chain and ensuring that our customers receive their parts in the right quantities and at the right time. POSITION D
Heller Industries Inc. | https://hellerindustries.com/curing-applications/
. Horizontal Curing Ovens In-line horizontal curing ovens offer high pallet size flexibility at high UPH. Vertical Curing Ovens In-line curing ovens with a vertical form-factor for a reduced footprint and high UPH
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reflow oven in SMT assembly line. High line speed means high output, The line speed can be calculated as shown below: Line speed (minimum) = Boards per minute x Length per board Load Factor
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