#+TITLE: Measurements * DONE Measurement of the slip-ring noise when turning CLOSED: [2019-05-14 mar. 10:36] Voltage amplifier: - 60db - AC - 1kHz Additionnal LPF at 1kHz - meas30: All off - meas31: Slip-ring on - meas32: slip-ring 6rpm - meas33: slip-ring 60rpm Channel 1: direct Channel 2: slip-ring * DONE Measuremeent of the noise of the slip-ring when turned ON using geophones CLOSED: [2019-05-14 mar. 10:36] Voltage amplifier: - 60db - AC - 1kHz Additionnal LPF at 1kHz - meas35: All off - meas36: slip-ring ON geophone at the sample location slit into 2 BNC: - first one (column one): direct wire - second one (second column): slip-ring wire Each of the signal is amplified by voltage amplifier: - 60db - AC - 1kHz Additionnal LPF is added before the voltage amplifiers * DONE Measure of the ground and marble velocity CLOSED: [2019-05-14 mar. 10:34] One geophone is located on the marble, the other one on the floor. col1: floor col2: marble Each of the signal is amplified by voltage amplifier: - 60db - AC - 1kHz - meas 37: Z direction - meas 38: N direction - meas 39: E direction * DONE Measure of the vibration when rotating the Slip-ring and Ty CLOSED: [2019-05-14 mar. 10:39] All the stages are OFF except Ty and Slip-Ring. Each of the signal is amplified by voltage amplifier: - 40db!!! - AC - 1kHz col1: marble col2: sample Rotating the slip-ring at 60rpm and scans with the Ty at 1Hz. Everything on the Z direction - meas 50: Slip-Ring at 1Hz, Ty OFF - meas 51: Slip-Ring at 1Hz, Ty ON (The current and cnt error of Ty is also registered) - meas 52: Slip-Ring at 1Hz, Ty 1Hz 600000cnt * DONE Measure of the vibration induced by Ty motion CLOSED: [2019-05-14 mar. 10:42] One geophone at the sample position One geophone on the marble Each of the signal is amplified by voltage amplifier: - 40db!!! - AC - 1kHz col1: marble col2: sample Ty Scans: - sin @ 1Hz with amplitude = 600 000 cnt (= 3mm) - meas 40: Z direction - meas 41: E direction - meas 42: E direction without any motion (Ty OFF)