AUDIO TECHNICA AT-LP3XBT WHITE (Automatic Belt-Drive Turntable (Wireless Blu-tooth & Analog) (Copy)
The AT-LP3XBT turntable combines 60 years of high-fidelity design with convenient Bluetooth® technology, giving you all the benefits of vinyl with the freedom to connect to the latest Bluetooth® speakers or headphones.
The successor model of the previous AT-LP3 comes with beneficial upgrades, such as wireless compatibility with the high-quality Qualcomm® aptX Adaptive audio and Qualcomm® aptXTM audiocodecs, the AT-VM95C cartridge, which is compatible with any of Audio-Technica‘s VM95 Series replacement style, RCA output cables, and the external AC adapter, which handles the AC/DC conversion outside of the chassis, reducing noise in the signal chain.
The AT-LP3XBT turntable combines 60 years of high-fidelity design with convenient Bluetooth® technology, giving you all the benefits of vinyl with the freedom to connect to the latest Bluetooth® speakers or headphones.
The successor model of the previous AT-LP3 comes with beneficial upgrades, such as wireless compatibility with the high-quality Qualcomm® aptX Adaptive audio and Qualcomm® aptXTM audiocodecs, the AT-VM95C cartridge, which is compatible with any of Audio-Technica‘s VM95 Series replacement style, RCA output cables, and the external AC adapter, which handles the AC/DC conversion outside of the chassis, reducing noise in the signal chain.
The AT-LP3XBT turntable combines 60 years of high-fidelity design with convenient Bluetooth® technology, giving you all the benefits of vinyl with the freedom to connect to the latest Bluetooth® speakers or headphones.
The successor model of the previous AT-LP3 comes with beneficial upgrades, such as wireless compatibility with the high-quality Qualcomm® aptX Adaptive audio and Qualcomm® aptXTM audiocodecs, the AT-VM95C cartridge, which is compatible with any of Audio-Technica‘s VM95 Series replacement style, RCA output cables, and the external AC adapter, which handles the AC/DC conversion outside of the chassis, reducing noise in the signal chain.