TP26X
  • TP26X
  • TP26X
  • TP26X
  • TP26X

TP26X

SPECIFICATIONS
  • Paper entry width:58mm
  • Printing width:48mm
  • Max Printing speed:80mm/s Max
  • Reliability:100KM
Overview
2-inch thermal printer mechanism
Thermal printer mechanism TP26X series is ultra compact, high speed, light weight thermal printer, printing on 2-inch wide paper (58mm). This thermal printer mechanism, with easy loading mechanism, improves paper loading and printer mechanism maintainance greatly
Features
1. With easy loading mechanism, greatly improving paper loading and maintenance. 
2. Ultra compact ,veritcal installation
3. High speed up to 80mm/s
4. High printing resolution up to 8 dot/mm
5. High endurance of 100km (using F230AA Mitsubishi paper, DJ03 paper or equivalent thermal paper)
Applications
  • 1. Commercial cash registers
  • 2. Fiscal Cash registers
  • 3. Portable cash registers
  • 4. POS
  • 5. Ticket issuing terminals
  • 6. Medical equiliments 7. BankPOS
  • Specification
    Model ATP26FP6RX ATP26MP8RX
    Printing Printing method Thermal dot printing
    Number of dots 384dots/line
    Resolution 8dots/mm(203dpi)
    Paper entry width (mm) 58mm(paper width:57±0.5mm)
    Printing width (mm) 48mm
    Paper thickness (μm) 60~80μm
    Max printing speed 80mm/s 150mm/s
    Paper loading Easy loading
    Detection Paper end sensor By photo interrupter
    Head temperature by NTC thermistor 30KΩ(25°C)
    Operating  voltage For printer head 4.2V~8.5V 12V~14V
    For motor 4.2V~8.5V 12V~14V
    For logic 3.3V~5V
    Peak  current Head 3.09A(at 8.5V,64dot) 2.38A(at 13.2V,45dot)
    Motor 0.266A
    Life Abrasion resistance 100 km (test with F230AA Mitsubishi paper or DJ03 paper)
    Pulse activation 100million
    Operating environment Operating temperature 0~50℃
    Operating humidity 10~90%R.H.(No condensation)
    Storage temperature -20~60℃
    Storage humidity 5~95%R.H.(No condensation)
    Physical characteristics Mechanism Dimension 67.5x20x31.5mm
    Mechanism Weight (g) 30g
    Driver board available ATP26MBX AEM1MBX