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Memory

STK14C88-3WF35I is a high performance, low power, enriched SCRAMBLE memory device that is widely used in a variety of applications. It is a synchronous dynamic random access memory (SDRAM).

The STK14C88-3WF35I employs a next-generation Low-Power (LPDDR4) interface, reducing power consumption when in an active mode and increasing memory performance. Features include an 8-bit wide data access interface, a 16-bit wide instruction access interface, variable page sizes from 8K to 64K and variable opcodes from 8K to 4M for programming instruction fetch operations. The device is available in various densities ranging from 8Mb to 64Mb.

Application Fields

STK14C88-3WF35I is used in many applications, ranging from consumer electronics to industrial and automotive. The device is ideal for applications with low power requirements, such as smartphones, laptops, digital cameras, game consoles and portable entertainment devices. It is also suitable for digital audio and video applications, such as digital audio players, televisions and set-top boxes. With its high capacity, it is ideal for high-end embedded memory applications such as medical imaging, data storage, medical devices, process control and network communications.

The device is also suitable for automotive applications, where high bandwidth and low power consumption are critical. This includes navigation and multimedia systems, car entertainment systems and automotive connectivity systems.

Working Principle

The STK14C88-3WF35I is based on synchronous dynamic random access memory (SDRAM) technology. It uses access transistors to access the memory cell, along with sense amplifiers to sense the level of charge stored in the memory cell. This enables it to read and write data with a higher degree of accuracy. The device also features an improved internal architecture to enable higher performance.

The STK14C88-3WF35I utilizes an 8-bit wide data access interface, enabling simultaneous access to eight bytes of data. It also features a 16-bit wide instruction access interface, enabling simultaneous access to 16 instructions. Both interfaces transfer data at up to 1600Mbps.

The device also supports variable page sizes from 8K to 64K for programming instruction fetch operations. This allows for improved program control over its memory mechanisms. The variable opcodes range from 8K to 4M for programming instruction fetch operations, providing higher flexibility and lower power consumption.

The STK14C88-3WF35I also uses an advanced deep sleep power down mode which drastically reduces power consumption. By taking advantage of the device’s low power consumption characteristics, its applications can remain in low power mode for longer periods of time. This results in extended battery life and improved power management.

Conclusion

The STK14C88-3WF35I is a high performance and low power SDRAM device, suitable for a wide range of application fields. It features an 8-bit wide data access interface, a 16-bit wide instruction access interface, variable page sizes from 8K to 64K and variable opcodes from 8K to 4M for programming instruction fetch operations. It also features an advanced deep sleep power down mode which drastically reduces power consumption. The device is suitable for many applications, ranging from consumer electronics to automotive and industrial applications.

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