The RM04JT102 is a thick film chip resistor produced by TA-I Technology Co., Ltd. This resistor is designed for general-purpose applications that demand stable and reliable resistance within a compact surface-mount footprint. It offers excellent performance attributes suitable for diverse electronic circuits.

Applications

• Consumer electronics (e.g., smartphones, tablets, audio players)
• Industrial equipment
• Measurement and instrumentation devices
• Telecommunication infrastructure
• Power supplies and voltage dividers
• Control circuits

Features

• Compact Size: Packaged in the 0402 form factor, saving space on the PCB.
• Thick Film Construction: Utilizes a thick film resistive element for stability and reliability.
• Standard Tolerance: Offers a standard tolerance, suitable for many general applications.
• Wide Range of Values: Available in various resistance values to suit different circuit needs.
• RoHS Compliant: Manufactured according to the Restriction of Hazardous Substances directive.
• High Reliability: Provides dependable resistance over temperature and humidity variations.

Benefits

• Space Efficiency: The small size enables dense circuit designs.
• Consistent Performance: The thick film construction ensures stable and uniform performance.
• Versatile Use: Suitable for various general-purpose applications.
• Environmentally Sound: RoHS compliance ensures the absence of hazardous substances.
• Cost-Effective: Provides a good balance of price and performance for broad use.

Additional Details

The RM04JT102 has a resistance value of 1 kΩ. The power rating is typically 1/16W. The tolerance is 5%. The operating temperature range is -55°C to +155°C. The resistor is available in tape and reel packaging for automated assembly. The termination finish is typically matte tin, providing good solderability. Designed for reflow soldering processes, it meets industry-standard requirements for surface mount resistors. Its compact size and sturdy construction make it a reliable option for many electronic applications where space and performance are important.