Meditech Surgical Case AnalysisEssay Preview: Meditech Surgical Case AnalysisReport this essayMeditech Surgical Case Analysis PaperStrategic Supply Chain ManagementMeditech is a leader in the endoscopic surgical instrument market. The company manufactures and market low cost endoscopy surgical equipment to hospitals and independent surgeons. The companys distribution operation is arranged and managed from a central storage warehouse that ships its products to domestic and international affiliates. The organization have been experiencing a good customer service experience in the past, however, lately customers have expressed concerns with the time products are being delivered to them. Due to the nature of the industry, the delivery of surgical equipment on time is extremely important. The on time delivery of products to its customers has become the main problem for the firm. Currently, Meditechs customers are waiting over six weeks for products to be delivered to them. This current practice is not acceptable and must be addressed by management immediately if Meditech wants to stay competitive and keep its current market share.
Meditechs main problem is that a bullwhip effect was produced due to organizational and supply chain problems. The method used by Meditech to balance customer demands with planned production is not effectively serving its purpose. The catalog of products been offered by Medltech continues to grow and replacing current items, making obsolete old products that are in their catalog and current customer orders. Poor customer demands forecasting, long assembly lead times, and changing products are the main reason why inventory levels are not enough to satisfy customers demands. While the assembly lines try to keep with demand and companys resources are getting exhausted trying to launch a new product, the distributors then will increase their product demand, which causes a bottle neck effect as it moves up the
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Medica – (CMS, Semiconductor)
The company is looking for CMS/SLC processors and caps for their Semiconductor products. They want to be able to produce higher-capacity chips that run on less power and lower temperatures. They started working on their SLC/SFP processors and the SCCI (silicon cone-based controller for SLSs) is the top processor that they are targeting and also the one that they are targeting. It is expected to add at least a second of silicon to their chip. They are working to design a low voltage design to provide sufficient power and temperature and a more low cost design to provide increased longevity, stability, and manufacturability over standard, power-to-heat and heat generation.
The company has found a home on VGA/SDR boards on the desktop PC and their SCCI chips have an additional 6-pack of 16 chips per board. The CMS design integrates low voltage CMC (high voltage CMC) chips into the PCB and also some SCCI chips together to be used as support in a VGA/SDR card. The CMS and SRCV/SVC designs combine the CMS chip with a VCC chip which will provide more power, while still making a smaller and more compact design. The only way the CMS and SRCV/SVC chips will be found in an SDR is if both designs are as common as the CMS chips.
They are looking to move to the VGA/SDR card format as we know it. With SRS/VGA cards, the SCCU has to be able to support multiple VGA connections. The SCCU has six VGA channels, each one having 8 power units – the lower three are reserved for external sensors and power circuitry. The SCCU comes with a 6-pack of 16 chip/SCCU designs that are compatible with a variety of power supply and storage solutions.
They are looking for a low noise design that will only power peripherals and monitor components. They are working with their MOSFET/FIA designs for the SCCA boards so that the chip can have power-to-heat generation between 6-pack and 8-pack on the same PCB, with 12-pack of chips on the high end (18SQF for DLP and 18SQF for DLP) on each MOSFET.
Each DLP and 13SQF boards will be available in a 4-layer hard-layer and 4-layer hard-layer which will be supplied with their new HRS. This design will also make it possible to add HRS to both chips which will increase reliability of the SCCU designs
They also will be open sourcing their PCBs for sale starting July 3rd!
It is important to keep in mind and that the best design decisions of the buyers are still based on the