The SLI1TTE6.2MRF is a thick film chip resistor manufactured by KOA Speer. It's designed for general purpose applications requiring stable resistance in a compact surface mount package.

Applications

• Consumer electronics
• Industrial equipment
• Power supplies
• Automotive electronics
• Communication devices

Features

• Resistance Value: 6.2 MΩ (Megaohms)
• Tolerance: Typically ±1% or ±5% (check datasheet for specific tolerance)
• Power Rating: Typically 1/10W or 1/8W (check datasheet for specific power rating)
• Temperature Coefficient of Resistance (TCR): Typically ±100 ppm/°C or ±200 ppm/°C (check datasheet for specific TCR)
• Package Size: Commonly available in standard SMD sizes like 0603, 0805, or 1206 (check datasheet for specific package size)
• Termination: Wraparound termination for improved solderability and reliability
• RoHS Compliant: Lead-free construction, environmentally friendly

Benefits

• Stable Resistance: Provides consistent performance over a wide temperature range.
• Compact Size: Saves valuable board space in densely populated circuits.
• Reliable Performance: Ensures long-term operation in demanding environments.
• Easy to Solder: Wraparound terminations simplify the soldering process.
• Cost-Effective: Offers a good balance of performance and price.

The 'SLI' likely refers to KOA Speer's standard product series. The '1T' suggests a power rating, but the exact value must be verified from the official datasheet. The 'TE6.2MRF' denotes the resistance value (6.2 MΩ), tolerance and packaging information. Always consult the official KOA Speer datasheet for the SLI1TTE6.2MRF to confirm all electrical and mechanical specifications before using this component in your design. This is crucial for ensuring proper circuit operation and preventing component failure. Furthermore, confirm the operating voltage and current requirements of your circuit to ensure they are within the resistor's specified limits.

These resistors are manufactured using a thick film process, where a resistive material is deposited onto a ceramic substrate. This process allows for precise control of the resistance value and provides good stability and reliability. They are well-suited for a variety of applications where a stable, high-value resistance is needed in a small package.