RFID Card Reader with Semi-Transparent Bezel and USB
The RCR-2330 RFID card reader supports manual card insertion. It reads and writes RFID contact cards with high accuracy. The module ensures stable communication for kiosks, payment terminals, and smart access systems. It delivers reliable performance in continuous-use environments and supports diverse commercial applications.
説明
Semi-Transparent Bezel with High Light Transmission
The semi-transparent bezel offers 85%–92% light transmittance. It provides uniform LED illumination for clear user guidance. The surface uses a hardened coating with ≥3H hardness. It resists scratches and fingerprints during heavy operation. This design improves durability and enhances overall user interaction.
仕様:
| 電圧入力 | DC5.0±5%V/USB電源 |
|---|---|
| 消費電流 | 静電流: < 50 mA |
| インタフェース | USB |
| カード仕様 | 幅:53.92~54.18mm、長さ:85.47~85.90mm、厚さ:0.76~1mm(作業標準0.76mm) |
| 状態 | 動作時:-20℃~50℃、0~90% RH(結露なきこと)、保管時:-25℃~80℃、0~95% RH(結露なきこと)。 |
| 正味重量 | 約:0.2kg(付属品含まず) |
| ROHS規格 | ROHS規格に準拠しています。 |
| ICカード規格 | ISO7816 (AT24C0124;SLE4442、SLE4428;CPU T=0/T=1)。 |
| RFカード規格 | ISO1443-3/-4 (TYPEA、TYPEB、CPU カード); 1K シリーズ S50/S70/UL カードの読み取り/書き込み。 ISO15693(オプション) |
Strong Environmental Adaptability
The reader operates in temperatures from –25ºC to 80ºC. It supports deployment in outdoor kiosks and harsh industrial spaces. The device maintains stable performance in cold, heat, and fluctuating weather. This resilience helps teams build reliable long-term self-service systems.
Flexible RGB Lighting Control
The RGB bezel supports software control for color mixing and dynamic switching. It enables custom visual feedback for branding, user guidance, and function alerts. The system adjusts lighting states with high precision. It enhances visual interaction and meets various scenario requirements.
Improved User Experience Through Dynamic Light Modes
RGB output solves issues found in single-color or dual-color lighting. It prevents unclear signals and limited status indication. The module provides flexible scene adaptation and richer interaction effects. It reduces operational friction and supports more stable device behavior. This approach improves both workflow clarity and energy efficiency.
