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MPX2102DP

MPX2102DP Description

The MPX2102DP is a differential pressure sensor from NXP Semiconductors, designed for a variety of applications requiring accurate pressure measurements. With an operating pressure of 14.5 PSI (100 kPa) and a maximum pressure rating of 58.02 PSI (400 kPa), this sensor is well-suited for applications where precise pressure monitoring is essential.

MPX2102DP Features

• Operating Pressure: 14.5 PSI (100 kPa)
• Output Type: Wheatstone Bridge
• Port Style: Barbed
• Pressure Type: Differential
• Voltage - Supply: 10V ~ 16V
• Output: 0 mV ~ 40 mV (10V)
• REACH Status: REACH Unaffected
• Manufacturer: NXP USA Inc.
• Features: Temperature Compensated
• RoHS Status: ROHS3 Compliant
• Moisture Sensitivity Level (MSL): Not Applicable
• Termination Style: PC Pin
• ECCN: EAR99
• Mounting Type: Through Hole
• Series: MPX2102
• Package: Tray

The MPX2102DP stands out due to its temperature compensation feature, which ensures accurate pressure readings across a wide temperature range. Its Wheatstone Bridge output type provides a stable and reliable signal for precise pressure measurements. The barbed port style allows for easy installation and secure connection in various applications.

MPX2102DP Applications

The MPX2102DP is ideal for board mount applications where accurate differential pressure monitoring is required. Its through-hole mounting type and PC pin termination style make it suitable for integration into various electronic systems. Some specific use cases include:

1. HVAC systems for air pressure monitoring
2. Industrial process control for pressure regulation
3. Medical equipment for precise pressure measurements

Conclusion of MPX2102DP

The MPX2102DP is a reliable and accurate differential pressure sensor from NXP Semiconductors. Its unique features, such as temperature compensation and Wheatstone Bridge output, make it an excellent choice for applications requiring precise pressure monitoring. Although it is now considered obsolete, its performance benefits and versatility in various applications make it a valuable option for legacy systems and specific use cases where modern alternatives may not be suitable.