With increasing pressures to both chop the time to market and increase the amount of features in their latest models, many medical kit manufacturers are turning to off-the-shelf Computer boards in creating these designs. Using embedded Computer boards can seriously scale back the design time of feature-rich medical apparatus, but just if the feature set of the board is matched to the application.
Knowing what points to ask is vital to choosing an embedded Personal computer solution. By becoming more knowledgeable about the features available on embedded Computers, it becomes easier to know which things to ask.
Reasons for Using an Embedded Computer or ARM Base solution
In the past, it was more common for designers to choose a microprocessor or microcontroller chip, design the supporting circuitry around it, and add the special inputs and outputs needed by the application. In many cases, this is still a desirable path to take. It gives the most control of precisely what features are included in the final design. Each part of the circuit in an absolutely customized design is there for an excellent reason specific to the end application. However , fully customised designs can take serious time to get from the drawing board to the market.
Reducing the time to market is one of the biggest reasons for selecting an off-the-shelf embedded PC for medical applications. If the core processor circuitry is ready to be wired into a system, it saves on circuit design and debugging time. It also reduces the time expended on developing firmware, because inserted Computers sometimes already have basic input/output system (BIOS) firmware that initializes the core parts, tests imperative subsystems, and loads the application program. In an increasingly competitive environment, shaving one or two months or perhaps weeks of a product development cycle can affect the success of a product.
One more reason that embedded Computers are being used more frequently is that the range of features that users expect is steadily increasing. Although alphanumeric liquid-crystal displays (LCDs) are utilised for some tasks, eg blood sugar monitoring, it is becoming more workaday for a modern piece of medical kit to have a full-color graphical display. This permits more information to be conveyed to the user, but at the price of increasing the amount of computing horsepower required, as well as the complexity of the software. Embedded PCs may help to answer this problem by building on the huge number of graphics software already available on the desktop PC.
Embedded PC- Particular Features
There are several reasons, such as product lifetime or size, for using an embedded Personal computer instead of a desktop PC motherboard in a medical application. But the big reason is that inserted PCs have features that are not found on desktop Computers features that embodies the following: Digital I/O, Analog I/O, Solid-state disks, Different system buses such as PC/104, CompactPCI, for example.
Knowing what points to ask is vital to choosing an embedded Personal computer solution. By becoming more knowledgeable about the features available on embedded Computers, it becomes easier to know which things to ask.
Reasons for Using an Embedded Computer or ARM Base solution
In the past, it was more common for designers to choose a microprocessor or microcontroller chip, design the supporting circuitry around it, and add the special inputs and outputs needed by the application. In many cases, this is still a desirable path to take. It gives the most control of precisely what features are included in the final design. Each part of the circuit in an absolutely customized design is there for an excellent reason specific to the end application. However , fully customised designs can take serious time to get from the drawing board to the market.
Reducing the time to market is one of the biggest reasons for selecting an off-the-shelf embedded PC for medical applications. If the core processor circuitry is ready to be wired into a system, it saves on circuit design and debugging time. It also reduces the time expended on developing firmware, because inserted Computers sometimes already have basic input/output system (BIOS) firmware that initializes the core parts, tests imperative subsystems, and loads the application program. In an increasingly competitive environment, shaving one or two months or perhaps weeks of a product development cycle can affect the success of a product.
One more reason that embedded Computers are being used more frequently is that the range of features that users expect is steadily increasing. Although alphanumeric liquid-crystal displays (LCDs) are utilised for some tasks, eg blood sugar monitoring, it is becoming more workaday for a modern piece of medical kit to have a full-color graphical display. This permits more information to be conveyed to the user, but at the price of increasing the amount of computing horsepower required, as well as the complexity of the software. Embedded PCs may help to answer this problem by building on the huge number of graphics software already available on the desktop PC.
Embedded PC- Particular Features
There are several reasons, such as product lifetime or size, for using an embedded Personal computer instead of a desktop PC motherboard in a medical application. But the big reason is that inserted PCs have features that are not found on desktop Computers features that embodies the following: Digital I/O, Analog I/O, Solid-state disks, Different system buses such as PC/104, CompactPCI, for example.
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