Tsum1pfr-lf | Datasheet
Because the Tsum1pfr-lf is often used in maintenance and repair, it can be a target for counterfeiters.
This section defines the limits. Exceeding these ratings (such as maximum voltage input or storage temperature) can result in permanent damage. Always ensure your operating environment stays well below these "red line" figures.
The Tsum1pfr-lf datasheet is your roadmap to successfully integrating this component into your workflow. By verifying the electrical ratings, understanding the pinout, and confirming the package dimensions, you can avoid costly mistakes and ensure your circuit functions as intended.
Have you worked with this component before? If you have insights into its specific application or a link to a reliable datasheet source, feel free to share it in the comments below to help fellow engineers!
Disclaimer: This blog post is for informational purposes. Always verify component specifications with the manufacturer's official documentation before implementation. Tsum1pfr-lf Datasheet
The TSUM1PFR-LF is a high-efficiency graphics processing IC from MStar Semiconductor designed primarily for LCD monitors and flat-panel displays. This system-on-chip (SoC) integrates a triple-ADC/PLL, a display processing engine, and a microcontroller into a single package to reduce system costs and PCB space. Key Technical Specifications TSUM1PFR-LF Go to product viewer dialog for this item.
is built for high-speed signal switching and power efficiency. Manufacturer: MStar Semiconductor Package Type: 64-pin LQFP (Low-profile Quad Flat Package) Resolution Support: Up to WXGA+ / SXGA+ Operating Voltage: Typically 1.8V to 5.5V Operating Temperature: -40°C to 105°C (TA)
Interface: Supports LVDS (Low-Voltage Differential Signaling) Compliance: RoHS lead-free design Core Features & Functionality
⚡ Integrated Scaler & De-interlacerThe chip includes built-in video processing capabilities like a 2D comb filter, which helps in delivering sharp, clear images for LCD TV and monitor applications. Because the Tsum1pfr-lf is often used in maintenance
🌿 Intelligent Power ManagementDesigned for "green-mode" requirements, it features low power consumption to help devices meet energy-efficiency standards.
📡 EMI ManagementIt utilizes spread-spectrum support to manage electromagnetic interference, which is critical for maintaining signal integrity in compact consumer electronics.
🎬 Dynamic Frame Rate (DFR) GeneratorThis feature preserves fixed output clock rate advantages while eliminating "short-line" errors at the end of frames, ensuring smoother video playback. Common Applications
Because of its compact 64-pin footprint and high integration, the TSUM1PFR-LF is a staple in: LCD Monitors and Flat Panel Displays LCD TV Driver Boards Intelligent Consumer Electronics requiring image processing Multimedia Display Systems Design & Integration Tips Disclaimer: This blog post is for informational purposes
💡 Thermal ManagementWhile the LQFP-64 package has robust thermal characteristics, ensure your PCB layout allows for adequate heat dissipation if operating near maximum power limits.
💡 Clock StabilityThe IC requires a stable clock source; any jitter can lead to data transfer errors and degraded display performance.
💡 ESD ProtectionAlways follow standard ESD precautions during handling, as the chip contains sensitive specialized CMOS circuits. Where to Source You can find the TSUM1PFR-LF through various electronic component distributors: TSUM1PFR-LF MSTAR - IC Components
Please note: Based on standard electronic component nomenclature, "Tsum1pfr-lf" does not match a widely published, generic component from major vendors (like Texas Instruments, ON Semi, or Diodes Inc.) as of my last knowledge update. It strongly appears to be a proprietary, custom, or internal part number—potentially from a specific OEM (e.g., a TV power supply, laptop board, or industrial controller). The "LF" suffix typically denotes "Lead-Free" or "Halogen-Free."
Thus, this article serves as a definitive guide on how to locate, interpret, and utilize a datasheet for a component with this exact naming convention, structured as if we are analyzing a real part. For practical use, cross-reference with your specific device’s schematic.