![](data:image/png;base64,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)
16 │ 모니터 정보
전기 규격
모델 P2418D
비디오 입력 신호
∞
HDMI 1.4, 각 차동 회선당 600mV, 차동 쌍당 100 옴
입력 임피던스
∞
DisplayPort 1.2, 각 차동 회선당 600mV, 차동 쌍당
100 옴 입력 임피던스
AC 입력 전압 / 주파수 /
전류
100 VAC ~ 240 VAC / 50 Hz 또는 60 Hz
±
3 Hz /1.5A
( 일반 )
돌입 전류
∞
120 V: 0
°C
( 콜드 부팅 ) 에서 30 A( 최대 )
∞
240 V: 0
°C
( 콜드 부팅 ) 에서 60 A( 최대 )