Honeywell 142PC30D MEMS Pressure Sensor Details

The Honeywell 142PC30D MEMS pressure sensor is a differential pressure sensing component designed for applications that need a higher pressure range than low-pressure variants in the same family. For engineers working on pneumatic, industrial, or measurement-focused systems, choosing a sensor is rarely just about the brand. It is about pressure type, output consistency, mounting style, and whether the sensor can support accurate readings under real operating conditions. The Honeywell 142PC30D pressure sensor is often reviewed with those priorities in mind.

What Is the Honeywell 142PC30D Pressure Sensor?

The Honeywell 142PC30D MEMS pressure sensor is typically identified as a 30 PSI differential pressure sensor with analog voltage output. Differential pressure measurement is valuable when a system must compare two pressure points directly, such as upstream and downstream of a component, chamber, or controlled path. That makes the Honeywell 142PC30D differential pressure sensor useful in engineered systems where pressure balance or pressure drop is more informative than a single absolute reading.

Important Technical Features

Specification references commonly describe the 142PC30D pressure sensor with a 30 PSI pressure range, analog output in the 1 V to 6 V class, and a supply range around 7 V to 16 V. It is also associated with a board-mount module format that supports electronic integration in instrumentation and control assemblies. For teams comparing multiple Honeywell pressure sensor options, the 30 PSI differential profile is the main reason this code stands apart from lower-range models.

Where the 142PC30D Fits Best

The Honeywell 142PC30D MEMS pressure sensor can be relevant in industrial test systems, process monitoring tools, pneumatic circuit supervision, machine control modules, and custom instrumentation. In these environments, higher differential ranges may be needed to evaluate system behavior under stronger pressure changes. Because the Honeywell 142PC30D pressure sensor delivers an analog output, it can support continuous measurement workflows rather than only threshold-based signaling.

In technical sourcing practice, users searching for 142PC30D MEMS pressure sensor, Honeywell 142PC30D pressure sensor, or Honeywell 142PC30D differential pressure sensor are often trying to verify compatibility with an existing assembly. For more information about Honeywell, it is useful to compare the broader sensor family before finalizing a replacement or design choice.

Why This Product Code Still Matters

The 142PC30D remains relevant because engineers often search by exact manufacturer code when they need a true technical match. This is common in maintenance programs, redesign projects, and documentation updates where the wrong pressure type or wrong range could create integration issues.

FAQ

What kind of measurement does the 142PC30D provide?

The Honeywell 142PC30D is generally referenced as a differential pressure sensor. It measures the difference between two pressure points, which is useful in comparative pressure analysis.

Why would someone choose the 142PC30D over a 15 PSI model?

A 30 PSI model is more appropriate when the application operates at a higher differential pressure range. Choosing the correct range helps maintain measurement relevance and system accuracy.

Is the Honeywell 142PC30D suitable for industrial electronics?

Yes, it is commonly associated with board-mount integration and analog output, making it relevant for control boards, embedded systems, and instrumentation platforms.

Can the Honeywell 142PC30D be used in pneumatic systems?

Yes. Differential pressure sensors like this one are often considered for pneumatic lines, pressure-drop tracking, and controlled airflow or gas monitoring systems.

Why do exact-code searches matter for the Honeywell 142PC30D pressure sensor?

Exact-code searches help users confirm pressure range, pressure type, output behavior, and package format. That is essential when replacing an existing component or validating a design specification.