Abstract
Successful data acquisition on mobile platforms, such as tractors, requires the provision of protection for the sensitive electronics, as these platforms are inherently rife with electrical transients that have sufficient energy to cause damage to unprotected instrumentation. Unfortunately, though there are many protection options for industrial applications (i.e., those installed at 120VAC), off-the-shelf products for mobile protection are extremely limited and, after a survey, were determined to provide insufficient protection. The objective of this study was to identify the requirements for the protection of mobile platform instrumentation and equipment, and/or identify circuits that can perform this function. A literature review of electrical transients typical to automotive electronics was performed and circuit simulations were performed using open source software. Off-the-shelf circuit components were tested, via simulation, in various configurations until a design emerged that provided adequate protection from all surge classes. To ensure protection of valuable data, one of the design criteria was to ensure the circuit would continue to supply power to the personal computer (PC), and electronics, even during a load-dump event. The circuit was also designed to provide protection from electrical fast transients and electrostatic discharges. The reported circuit is capable of protecting a computer and data acquisition electronics installed on 12 VDC mobile equipment. This simple, inexpensive design meets Automotive Electronics Council requirements and uses readily available components without a specially fabricated circuit board.
Highlights
IntroductionElectronics are used in the mobile environment with increasing frequency for research, navigation and guidance, geographic information system functions (e.g., precision agriculture), and traditional functions (e.g., communications and entertainment)
Electronics are used in the mobile environment with increasing frequency for research, navigation and guidance, geographic information system functions, and traditional functions
The most damaging over-voltage condition is caused by the industry known “load-dump”, which is a long duration (>500 ms) voltage spike (100–200 V) that is caused by high-energy load-dumps that are generated by the alternator when the battery is disconnected
Summary
Electronics are used in the mobile environment with increasing frequency for research, navigation and guidance, geographic information system functions (e.g., precision agriculture), and traditional functions (e.g., communications and entertainment). 2 of 13 5 generated by the alternator when the battery is disconnected (through a loss or faulty connection, or accidental error(Kassakian, during servicing). Modern agricultural fieldupon research is dependent upon deploying custom from sensing field research is dependent deploying numerous, custom sensing numerous, platforms ranging plant platforms ranging from plant health high-throughput-phenotyping systems to yield monitors to health high-throughput-phenotyping systems to yield monitors to custom field and irrigation sensing custom field and irrigation sensing systems. In many of these systems, expensive and custom electric systems. In many of these systems, expensive and custom electric sensors are deployed on mobile sensors are on mobile that wouldfrom benefit from Figure circuit 1 protection surges
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