日本ACOUSTIC REVIVE 用了多年時間研發而成的一種 TriC 銅及 TriC 銀的混合導體, 命名為 Absolute-EX 導體. 這種混合導體的特點是既有銅豐滿而控制力好的低頻, 亦有純銀優美的高頻伸延. 生產這種EX導體的過程非常複雜, 而且成本高昂. 首先使用鍛造方法把純銀導體加工成為 TriC 鍛造銀, 再在中心位置抽空一個極幼的小通道, 再把以加工好同一大小的TriC斷做銅導體從中間位置套入純銀導體內再用高溫把銀和銅接合而成. 這種兩層結構的優點可以把低頻的信號讓銅導體來傳送, 高頻訊號便交由外圍的純銀導體來傳送, 完成了一種完美的分工. Absolute- Ex系列同樣使用AR 訊號線材一直沿用開多項的相同技術:
- 酮管屏蔽 (品川商工(株))
- 外部使用天然絲綢吸震 ((株)長谷川商店)
- 炭纖維外層保護網 (品川商工(株))
- 純日本國內產免焊鍚高品質 鍍銠白金RCA插頭
務求把 傳送的失真減少還原錄音原有的音色 .
Description:
Absolute-EX is a hybrid conductor developed by ACOUSTIC REVIVE after years of research. It combines TriC copper and TriC silver conductors to create a unique conductor material. The Absolute-EX conductor is known for its ability to deliver both the full-bodied and well-controlled low frequencies of copper and the elegant high-frequency extension of pure silver. The production process of this EX conductor is complex and expensive.
The manufacturing process begins by forging pure silver conductors into TriC forged silver. Then, a tiny channel is hollowed out in the center, and a TriC machined copper conductor of the same size is inserted into the hollowed silver conductor. Finally, the silver and copper are joined together using high temperatures. This two-layer structure allows the copper conductor to transmit low-frequency signals while the outer pure silver conductor handles high-frequency signals, achieving a perfect division of labor.
The Absolute-EX series of cables from ACOUSTIC REVIVE incorporates several other technologies, including:
Carbon tube shielding from Shinagawa Shokogyo Co., Ltd.
External use of natural silk for vibration damping from Hasegawa Shouten Co., Ltd.
Carbon fiber outer layer for protection from Shinagawa Shokogyo Co., Ltd.
High-quality, non-soldered Rhodium-plated RCA plugs made in Japan.
The goal of these technologies is to minimize distortion and faithfully reproduce the original sound color of the recorded music. The use of the Absolute-EX conductor and the various accompanying technologies aim to reduce signal degradation and preserve the integrity of the audio signal throughout the transmission process.
