Experimental Study of Data Transmission Efficiency on a Solid State Disk within a Vibrating Situation

Abstract

Because of the high sensitivity of data transmission when impacted externally, vibration control on a hard disk becomes crucial. In order to investigate the influence of data transmission with respect to the tilted angle of a solid state disk (SSD) and the hardness of the damping material, a series of experimental tests using a base-excitation vibrating system in conjunction with data transmission measuring software (IOmeter software) as well as an acceleration meter is adopted. In addition, to initialize the difference of the data transmission between the SSD and a traditional hard disk (HD), a series of tests for the HD that adjust the tilted angle and hardness of the damping material is also carried out. Moreover, to understand the influence of data transmission with respect to the warming-up process, a data transmission before and after adding the warming-up process is employed. Results reveal that data transmission efficiency can be improved if the damping material is added within the SSD and the HD. Also, the data transmission efficiency of a 0° tilted angle is better than that of a 5° or 10° tilted angle. Furthermore, the data transmission efficiency of the SSD is superior to that of the HD. Consequently, data transmission efficiency will be tremendously improved after the SSD is warmed-up.