现代智能非触发水雷是一种较为低廉的、反舰和反潜同样有效的武器。能够响应由船体运动引起的可变流体动力场的通道是最关键的水雷引信通道。遗憾的是舰船的流体动力场是唯一的现代扫雷具不能模拟的,因此装备流体动力通道的水雷是不能被扫雷具引爆的。提出了3种类型的流体动力传感器的一种原理样机,它可在非触发水雷中得到应用。在专门构建的用于模拟不超过100m水深的水域舰船下方流体动力压力分布的地点进行了实验。在实验过程中特别注意换能器的分辨率以及舰船下方与在整个可变压力范围与流体动力压力测量有关的性能。 Modern smart non-triggered mines are a relatively inexpensive anti-ship and anti-submarine weapon that is equally effective. Channels that respond to variable fluid power fields caused by hull movements are the most critical mines. Unfortunately, the hydrodynamic field of a ship is the only modern minesweeper that can not be simulated, so mines equipped with hydrodynamic channels can not be detonated by mine sweepers. A prototype of three types of fluid power sensors is proposed, which can be used in non-triggered mines. Experiments were conducted at specially constructed locations for hydrodynamic pressure distribution below the warship for simulating water depths up to 100 m. Particular attention was paid during the experiment to the resolution of the transducer and the performance under the ship with respect to hydrodynamic pressure measurements throughout the variable pressure range.