YAMO-120 12,1" Display, Panel mount, IP65

12,1" TFT color display • Max. resolution 1024x768 pixels • Aspect ration 4:3 • DVI-D, RGB inputs • Power supply 9-36VDC • Panel mount • IP65 protected (front)

FEATURES

• 12,1" TFT 450 nits high brightness XGA LCD
• IP65 protected (Front)
• Wide viewing angle (160/160)
• High contrast ratio (700 : 1)
• The brightness is adjustable from 1 to 100%
• DVI-D Input, RGB Input, Video (optional BNC), RS232 to control Brightness/Alarm.

PRODUCT SPECIFICATIONS

TFT Technology
• 12 inch viewable image size
• LPTS Thin Film Transistor (TFT) active matrix

TFT Characteristics
• Pixel Number: 1024 x 768 (XGA)
• Pixel Pitch: 0,240(H) x 0,240(V)mm
• Aspect Ratio: 4:3
• Response Time: 25ms(typical), "raising" to "falling"
• Contrast Ratio: 700:1 (typical)
• Light Intensity: 450cd/m² (typical)
• Viewable Angle: 80°(Up/Down) / 80°(Right/Left) (Typ)
• Active Display Area: 245,76(H) x 184,32(V) mm
• Max Colors: 262.,44 (6-bit color)

Synchronisation
• Auto detects VGA>XGA
• Support for Sync-on-Green (SOG)
• RGB input current: 0-0,7V with 75Ohm
• Supports up to 165MHz

Resolutions
• VGA: 640 x 480
• SVGA: 800 x 600
• XGA: 1024 x 768 *
* Recommended for optimum picture quality

Power Specifications
• Power Supply Options: wide range input: from 9VDC to 36VDC
• Power Consumption: Operating 30W (max)

MECHANICAL DESCRIPTION

Physical Dimensions
• 300(W) x 270(H) x 44,5(D) mm
• Weight: 3,71 kg

Input Signal Terminal
• RGB (PC) signal: 15pin mini D-SUB (female-input)
• DVI (PC) signal: DVI-D Input 24pin Connector
• Serial Ports signal: RS232 Connector For Brightness/buzzer Control
• DC Power signal: DC POWER Terminal

User Controls (in front)
• On Screen Display control (OSD)
• Brightness Control

Environmental Considerations
• Operating: Temperature 0°C to +60°C, Humidity 8 % to 95 %
• Storage: Temperature -20°C to +60°C, Humidity 8 % to 95 %

Safety Considerations
Even although the test conditions for bridge units provide for a maximum operatingtemperature of 60°C, continuous operation of all electronic components should, if possible, take place at ambient temperatures of only 25°C. This is a necessary prerequisite for long life and low service costs.