. "1"^^ . . . "Liberec" . . "International Conference Experimental Fluid Mechanics 2011" . "Ji\u010D\u00EDn" . . . "\u201CMaster and Slave%22 Fluidic Amplifier Cascade" . "1"^^ . "RIV/61388998:_____/11:00368066!RIV12-AV0-61388998" . "[73A005A7685E]" . "978-80-7372-784-0" . "fluidics; fluidic amplifier; characteristics"@en . . . "18"^^ . . "TU Liberec" . . . . "P(GCP101/11/J019), P(IAA200760801), Z(AV0Z20760514)" . . . . "Paper d\u00EDscusses mutual matching of two no-moving-part fluidic unvented amplifiers in a two-device module, where small MASTER device, with feedback loop converting it into a small high-frequency oscillator dictates the flow switching in a large powerful SLAVE device. Interest in this configuration was caused by it providing a solution in generation of gas microbubbles. The oscillation frequency has to be high and this calls for small amplifier size - while a the total gas flow has to be large, calling for a large size. The conditions in the circuit is complicated by the need to considerfive terminals in each amplifier." . "Tesa\u0159, V\u00E1clav" . . . . . "2011-11-22+01:00"^^ . "\u201CMaster and Slave%22 Fluidic Amplifier Cascade" . "Paper d\u00EDscusses mutual matching of two no-moving-part fluidic unvented amplifiers in a two-device module, where small MASTER device, with feedback loop converting it into a small high-frequency oscillator dictates the flow switching in a large powerful SLAVE device. Interest in this configuration was caused by it providing a solution in generation of gas microbubbles. The oscillation frequency has to be high and this calls for small amplifier size - while a the total gas flow has to be large, calling for a large size. The conditions in the circuit is complicated by the need to considerfive terminals in each amplifier."@en . "\u201CMaster and Slave%22 Fluidic Amplifier Cascade"@en . "210778" . "RIV/61388998:_____/11:00368066" . "\u201CMaster and Slave%22 Fluidic Amplifier Cascade"@en . .