The Tektronix DMF50081 ZNB-FW-9C is a 5.2-inch monochrome graphic LCD display module engineered as a replacement screen for the Tektronix TG2000 signal generation platform. Built on FSTN (Film Super-Twisted Nematic) technology with a built-in T6963C controller, this panel delivers 240 × 64 dot resolution with high-contrast black/white output suitable for industrial instrumentation and HMI applications across demanding temperature environments.
Technical Specifications
• Display Type: FSTN (Film Super-Twisted Nematic) graphic LCD module
• Resolution: 240 × 64 dots
• Screen Size (Diagonal): 5.2 inches
• Viewing Area: 103.0(W) × 79.0(H) mm
• Outline Dimensions: 139(W) × 120(H) × 13.2(D) mm
• Weight: 250 g (maximum)
• Color Output: Monochrome (black/white)
• Contrast Ratio: High-contrast visual clarity
• Pixel Pitch: Approximately 0.300 mm
• Operating Temperature: −20°C to +70°C
• Storage Temperature: −20°C to +60°C
• Backlight: Cold Cathode Fluorescent Lamp (CCFL); external backlight driver required
• Data Interface: 4-bit parallel, 1 channel
• Signal Input: 14-pin pad configuration
• Integrated Controller: T6963C
– Key Features
• High-contrast monochrome display optimized for readability across temperature-variable installations
• Robust FSTN construction for stable performance in industrial control environments
• 4-bit parallel data transfer architecture with integrated T6963C timing controller
• Compact form factor (139 × 120 × 13.2 mm) suitable for panel-mount applications
• Extended temperature operating range (−20°C to +70°C) for field deployment
– Typical Applications
• Replacement display for Tektronix TG2000 test and measurement instruments
• Industrial automation control panels and HMI interfaces
• Portable diagnostic and instrumentation platforms
• Legacy medical monitoring equipment requiring monochrome display capability
– Compatibility & Integration
This module integrates directly as a drop-in replacement for the Tektronix TG2000. External backlight driver circuitry is required to operate the CCFL backlight. Data communication occurs via 14-pin parallel interface accepting 4-bit wide signals.
