SugarMedia
Well-known member
... or so they claim. But it would definitely be interesting to audition one.
The ELP laser turntable reads LPs with lasers -- the manufacturer claims that the lasers can read "virgin" parts of the grooves that haven't been touched by needles and produce a better sound, and that the five laser read-head lets you skip forward and back across or within tracks as you would with a CD.
Two Tracking Laser beams are directed to the left and to the right shoulders of the groove of the record. Only the part of the beams that reach the groove are reflected to two PSD (Position Sensitive Detector) optical semiconductors. The part of the beams that fall on the land area of the record are deflected and not picked up by the PSD devices. The signals are sent to a microprocessor via analog to digital converters, then to servos to maintain the reader head position directly above the groove.
Two additional laser beams are directed at the left groove wall and the right groove wall just below the tracking beams. Modulation on the individual grooves is reflected to scanner mirrors and onto left and right photo optical sensors. The variations of the modulated light cause the audio sensors to develop an electrical representation of the mechanical modulation of the grooves. The entire sound reproduction chain is analog.
http://www.audioturntable.com/
The ELP laser turntable reads LPs with lasers -- the manufacturer claims that the lasers can read "virgin" parts of the grooves that haven't been touched by needles and produce a better sound, and that the five laser read-head lets you skip forward and back across or within tracks as you would with a CD.
Two Tracking Laser beams are directed to the left and to the right shoulders of the groove of the record. Only the part of the beams that reach the groove are reflected to two PSD (Position Sensitive Detector) optical semiconductors. The part of the beams that fall on the land area of the record are deflected and not picked up by the PSD devices. The signals are sent to a microprocessor via analog to digital converters, then to servos to maintain the reader head position directly above the groove.
Two additional laser beams are directed at the left groove wall and the right groove wall just below the tracking beams. Modulation on the individual grooves is reflected to scanner mirrors and onto left and right photo optical sensors. The variations of the modulated light cause the audio sensors to develop an electrical representation of the mechanical modulation of the grooves. The entire sound reproduction chain is analog.
http://www.audioturntable.com/